CA2390039A1 - Theft prevention system for trailers with drop yard feature - Google Patents
Theft prevention system for trailers with drop yard feature Download PDFInfo
- Publication number
- CA2390039A1 CA2390039A1 CA002390039A CA2390039A CA2390039A1 CA 2390039 A1 CA2390039 A1 CA 2390039A1 CA 002390039 A CA002390039 A CA 002390039A CA 2390039 A CA2390039 A CA 2390039A CA 2390039 A1 CA2390039 A1 CA 2390039A1
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- Prior art keywords
- trailer
- tractor
- signal
- transmitter
- air
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60R—VEHICLES, VEHICLE FITTINGS, OR VEHICLE PARTS, NOT OTHERWISE PROVIDED FOR
- B60R25/00—Fittings or systems for preventing or indicating unauthorised use or theft of vehicles
- B60R25/01—Fittings or systems for preventing or indicating unauthorised use or theft of vehicles operating on vehicle systems or fittings, e.g. on doors, seats or windscreens
- B60R25/08—Fittings or systems for preventing or indicating unauthorised use or theft of vehicles operating on vehicle systems or fittings, e.g. on doors, seats or windscreens operating on brakes or brake systems
Abstract
There is disclosed a theft prevention system for trailers interacting with the customary pneumatic trailer braking system having spring actuated parking brakes that apply when in absence of pressure in an air supply line to the trailer from a tractor-mounted compressed air tank. A normally closed solenoid valve is connected in series with the pressurized air supply line that supplies air to release the trailer parking brakes and a signal receiver adapted to receive an electrical signal from a transmitter in the tractor cab must be caused to actuate the solenoid to open the valve to release the trailer parking brakes. The signal from the transmitter to the receiver may be a dc, ac, or high frequency signal transmitted over the normally provided electrical cable from tractor to trailer or may be a radio transmitted signal wherein of the kind employed for garage door openers. The solenoid valve is preferably provided with a pneumatic latch so that the parking brakes will remain released as long as air pressure is provided to the trailer once an enabling signal is received by the receiver. The signal transmitter is provided with appropriate security means to prevent unauthorized use which may be a key switch, a key pad for entry of an identification number, a magnetic strip card reader or other conventional device.
Description
THEFT PREVENTION SYSTEM FOR TRAILERS
WITH DROP YARD FEATURE
BACKGROUND OF THE INVENTION
The present invention principally relates to theft prevention systems for trailers, particularly those used in a over-the-road tractor-trailer vehicle combination commonly referred to as an "18- wheeler". These trailers are almost universally provided with pneumatic braking systems which include a parking/emergency brake with brake shoes or other braking elements urged to the braking position by spring means in the absence of pneumatic pressure supplied to the braking system.
In this common arrangement, a parked trailer being disconnected from the tractor vehicle with its source of air pressure will have its parking/emergency brakes (hereinafter simply "parking brakes") urged to full braking position preventing the trailer from rolling or being moved. However, the commonly provided system can be moved by any standard tractor vehicle having the usual air hose and electrical connections for a trailer. Once the alien tractor is connected with its air hoses to the trailer and the trailer braking system is pressurized, the parking brakes air pressure causes the spring forces to be overcome so that the parking brakes are no longer applied.
Numerous expedients have been employed to prevent or deter theft of a parked trailer, including systems which require some action in addition to connecting air pressure to the pneumatic brake system to release the parking brakes. Some of the theft deterrent systems incorporate a solenoid valve in the appropriate air line between the tractor and the trailer rear wheels and have a key lock switch or other device required to energize the 2 0 solenoid. The valve will open when the key switch is closed to allow air pressure from the tractor to release the brakes on the wheels of the trailer (as it would if the valve were not present). These prior systems typically drew current for the solenoid from the electrical cable providing power to the trailer lights, and thus some portion of the conductors of that cable needed to be connected and energized, but this in itself was not an anti-theft feature since this would occur in the course of normal procedure by the truck driver.
Systems as described above are shown, for example, in U.S. Patent No.
4,793,661 and U.S. Patent No. 4,712,422 to Douglas Munro. In these patents, the theft of the trailer is deterred by operation of a solenoid valve by a key operated switch on the trailer. Rather than being a key switch, the switch may take the form of a keyboard module switch operable only by a person in possession of the required key code. Note that the key-operated switch l0 is on the trailer, and only standard equipment connections from a tractor are required so that an alien tractor can take the trailer if the operator is in possession of a key or a key code.
U.S. Patent No. 4,691,801 to Yale Mann and Pekka Sarssi describes a vehicle protection device which, in addition to a fuel valve block and other features, also has a parking brake lock for trailer brakes; all of these are operated by a portable infra-red transmitter (rather than the key operated switch or keyboard module switch of the Munro patents).
U.S. Patent No. 5,378,929 to Yitzchak Mor and Daniel Yuranyi describes a somewhat more complicated system of valves and alarms than those discussed above whereby the system can be manually activated using a hand-held remote control transmitter and receiver (or a hard-wired switch) located somewhere in the trailer.
2 0 U.S. Patent No. 4,621,874 to Jan Gustafsson is a vehicle theft preventing device for brakes operated with compressed air having a particular valve system and which requires the operation of a code lock on the trailer to release the brakes by pressing the correct code to adjust a valve to release the brakes. U.S. Patent No. 3,735,834 to Daniel A.
St. Onge describes a brake locking system with a key operated mechanism on the trailer required to close a normally open relay by use of a proper key; the valves of the system cannot be operated to admit air pressure to release spring force applying the brakes without such a proper key even though air pressure and EMF (through an electric cable) are connected to the vehicle. While it is known to transmit information between a truck tractor and trailer as disclosed in the U.S. Patent No. 5,142,278 to Moallemi et al., such capability has not been used to set and/or release anti-theft devices in a trailer.
Other patents relevant to the background of the invention and to the state of the art are U.S. Patent No. 4,519,653 to Paul B. Smith, U.S. Patent No. 5,442,810 to Jenquin, and l0 U.S. Patent No. 4,881,388 to Ronald Pruim.
In addition to use of key-operated switches, numeric keypads for entry of key codes, or combination switches that may be used to generate a locking or unlocking signal in a vehicle security device, there are other security applications in which unauthorized operation is controlled by provision of a card reader which identifies an ID card of an operator seeking to operate the device. Such apparatus for management of the operation of a centrifuge is shown in U.S. Patent No. 5,871,435 to Satoshi Numata, et al. Portions of such apparatus may be employed in an ID card reader version of Applicant's invention. As evidencing the state of the art relevant to the enablement of Applicant's disclosure, the Numata et al. patent, the Moalemi et al. patent and the other relevant patents above are to be considered 2 0 incorporated by reference here.
WITH DROP YARD FEATURE
BACKGROUND OF THE INVENTION
The present invention principally relates to theft prevention systems for trailers, particularly those used in a over-the-road tractor-trailer vehicle combination commonly referred to as an "18- wheeler". These trailers are almost universally provided with pneumatic braking systems which include a parking/emergency brake with brake shoes or other braking elements urged to the braking position by spring means in the absence of pneumatic pressure supplied to the braking system.
In this common arrangement, a parked trailer being disconnected from the tractor vehicle with its source of air pressure will have its parking/emergency brakes (hereinafter simply "parking brakes") urged to full braking position preventing the trailer from rolling or being moved. However, the commonly provided system can be moved by any standard tractor vehicle having the usual air hose and electrical connections for a trailer. Once the alien tractor is connected with its air hoses to the trailer and the trailer braking system is pressurized, the parking brakes air pressure causes the spring forces to be overcome so that the parking brakes are no longer applied.
Numerous expedients have been employed to prevent or deter theft of a parked trailer, including systems which require some action in addition to connecting air pressure to the pneumatic brake system to release the parking brakes. Some of the theft deterrent systems incorporate a solenoid valve in the appropriate air line between the tractor and the trailer rear wheels and have a key lock switch or other device required to energize the 2 0 solenoid. The valve will open when the key switch is closed to allow air pressure from the tractor to release the brakes on the wheels of the trailer (as it would if the valve were not present). These prior systems typically drew current for the solenoid from the electrical cable providing power to the trailer lights, and thus some portion of the conductors of that cable needed to be connected and energized, but this in itself was not an anti-theft feature since this would occur in the course of normal procedure by the truck driver.
Systems as described above are shown, for example, in U.S. Patent No.
4,793,661 and U.S. Patent No. 4,712,422 to Douglas Munro. In these patents, the theft of the trailer is deterred by operation of a solenoid valve by a key operated switch on the trailer. Rather than being a key switch, the switch may take the form of a keyboard module switch operable only by a person in possession of the required key code. Note that the key-operated switch l0 is on the trailer, and only standard equipment connections from a tractor are required so that an alien tractor can take the trailer if the operator is in possession of a key or a key code.
U.S. Patent No. 4,691,801 to Yale Mann and Pekka Sarssi describes a vehicle protection device which, in addition to a fuel valve block and other features, also has a parking brake lock for trailer brakes; all of these are operated by a portable infra-red transmitter (rather than the key operated switch or keyboard module switch of the Munro patents).
U.S. Patent No. 5,378,929 to Yitzchak Mor and Daniel Yuranyi describes a somewhat more complicated system of valves and alarms than those discussed above whereby the system can be manually activated using a hand-held remote control transmitter and receiver (or a hard-wired switch) located somewhere in the trailer.
2 0 U.S. Patent No. 4,621,874 to Jan Gustafsson is a vehicle theft preventing device for brakes operated with compressed air having a particular valve system and which requires the operation of a code lock on the trailer to release the brakes by pressing the correct code to adjust a valve to release the brakes. U.S. Patent No. 3,735,834 to Daniel A.
St. Onge describes a brake locking system with a key operated mechanism on the trailer required to close a normally open relay by use of a proper key; the valves of the system cannot be operated to admit air pressure to release spring force applying the brakes without such a proper key even though air pressure and EMF (through an electric cable) are connected to the vehicle. While it is known to transmit information between a truck tractor and trailer as disclosed in the U.S. Patent No. 5,142,278 to Moallemi et al., such capability has not been used to set and/or release anti-theft devices in a trailer.
Other patents relevant to the background of the invention and to the state of the art are U.S. Patent No. 4,519,653 to Paul B. Smith, U.S. Patent No. 5,442,810 to Jenquin, and l0 U.S. Patent No. 4,881,388 to Ronald Pruim.
In addition to use of key-operated switches, numeric keypads for entry of key codes, or combination switches that may be used to generate a locking or unlocking signal in a vehicle security device, there are other security applications in which unauthorized operation is controlled by provision of a card reader which identifies an ID card of an operator seeking to operate the device. Such apparatus for management of the operation of a centrifuge is shown in U.S. Patent No. 5,871,435 to Satoshi Numata, et al. Portions of such apparatus may be employed in an ID card reader version of Applicant's invention. As evidencing the state of the art relevant to the enablement of Applicant's disclosure, the Numata et al. patent, the Moalemi et al. patent and the other relevant patents above are to be considered 2 0 incorporated by reference here.
BRIEF SUMMARY' OF THE INVENTION
The present invention is directed to a theft prevention system for tractor-trailer transport vehicles. In particular, such trailers usually employ an air brake system using two air lines where one parking air line controls the trailer's parking/emergency brakes and another system air line controls the regular operating brakes. Air supplied by an air pressure supply means at the tractor controls both brake systems. In accordance with DOT
specifications, the emergency brakes should set automatically when the trailer is parked and/or the air supply is disconnected. A major problem as mentioned above is that the thieves, if not otherwise deterred, can steal an entire parked trailer by coupling a tractor to the trailer, releasing the parking brakes in the customary manner, and driving away with the trailer in tow.
While previous anti-theft systems have provided locking means for parked trailers which prevented the release of parking brakes, the present invention has advantages and special features which primarily relate to a regimen of preventing alien tractors not belonging to a particular trucking company, and/or not connected by satellite in that company's particular communication net, from releasing the parking brake in a trailer belonging to a trucking company equipped with the system of the present invention. The receiver and solenoid valve of the present invention are responsive only to a special transmitter installed in an authorized tractor. Thus, only authorized tractors with such 2 0 special transmitter appropriately activated can couple to and successfully deactivate the parking brakes. Although a wireless transmitter in a tractor may be utilized to transmit the signal to release the parking brakes, it is preferred that a signal be transmitted over existing conductors in the electric cable connected to the trailer for controlling and powering the lighting of the trailer. Numerous types of tractor to trailer signaling, preferably digitally coded, may be employed including DC, AC, audio frequency and radio frequency transmission. The communication can accompany two-way communication of supervisory information other than anti-theft control (as in a system as shown in U.S.
Patent No.
The present invention is directed to a theft prevention system for tractor-trailer transport vehicles. In particular, such trailers usually employ an air brake system using two air lines where one parking air line controls the trailer's parking/emergency brakes and another system air line controls the regular operating brakes. Air supplied by an air pressure supply means at the tractor controls both brake systems. In accordance with DOT
specifications, the emergency brakes should set automatically when the trailer is parked and/or the air supply is disconnected. A major problem as mentioned above is that the thieves, if not otherwise deterred, can steal an entire parked trailer by coupling a tractor to the trailer, releasing the parking brakes in the customary manner, and driving away with the trailer in tow.
While previous anti-theft systems have provided locking means for parked trailers which prevented the release of parking brakes, the present invention has advantages and special features which primarily relate to a regimen of preventing alien tractors not belonging to a particular trucking company, and/or not connected by satellite in that company's particular communication net, from releasing the parking brake in a trailer belonging to a trucking company equipped with the system of the present invention. The receiver and solenoid valve of the present invention are responsive only to a special transmitter installed in an authorized tractor. Thus, only authorized tractors with such 2 0 special transmitter appropriately activated can couple to and successfully deactivate the parking brakes. Although a wireless transmitter in a tractor may be utilized to transmit the signal to release the parking brakes, it is preferred that a signal be transmitted over existing conductors in the electric cable connected to the trailer for controlling and powering the lighting of the trailer. Numerous types of tractor to trailer signaling, preferably digitally coded, may be employed including DC, AC, audio frequency and radio frequency transmission. The communication can accompany two-way communication of supervisory information other than anti-theft control (as in a system as shown in U.S.
Patent No.
5 5,142,278 or U.S. Patent No. 5,442,810). The coding of the signal required by the receiver to actuate solenoid valves to control the emergency brakes can be as complex as desired to prevent would-be thieves from sending a false signal not originating from an authorized transmittor to release the trailer brakes. In a preferred embodiment, the electrical and pneumatic components of the system are configured so that continued receipt of the parking brake release signal is not required as long as air pressure to the trailer is maintained above a minimum value and the electrical power to the lighting system or theft prevention system are not interrupted.
A further feature of the system requires that the driver of the truck have a key, key code, key card or authorization communicated by satellite to activate the transmitter, rather than to simply flip a switch in the tractor cab. This gives additional security that upon gaining access to the tractor cab, one cannot release the tractor brakes without having necessary authorization.
In accordance with another optional feature of the system, the receiver and the decoder forming a part thereof may require that several or all of the trailer light circuits be 2 0 energized to operate the solenoid brake release valve. Thus the driver could be required to test the lights before releasing the brakes. A more sophisticated version may require that trailer lighting circuits be energized in a particular sequence. In the latter case, this could operate as an additional "code" making the theft of the trailer using an unauthorized tractor more difficult. The present theft prevention system has an advantage over previous systems in that it does not require removal, replacement or modification of the service trailer air brake system. It does not interact with the service line for the regular operating brakes at all and requires only the insertion of solenoid valves in the parking air supply lines which can be conveniently done near the point where such air lines enter the trailer.
The theft prevention receiver unit of the present invention also requires a simple connection to two or more conductors of the standard electrical cable connected to the trailer to supply power to the various lighting circuits. The transmitter in the tractor cab only requires connection to the electrical system of the tractor, preferably being connected into a circuit or circuits for the trailer lights. The present invention provides a lock-open feature to allow normal parking brake operation without authorization signal from a tractor cab with an appropriate digital signal transmitter. This accomodates a need for a trailer with its load to be dropped off at a large warehouse or distribution center to later be moved from the drop yard to a loading dock or other unloading site by a warehouse tractor designated for moving and positioning trailers at the facility. In a preferred embodiment this drop yard feature is implemented by a locking element associated with a solenoid valve adapted to lock the valve in an open position or to unlock the valve in response to control signals from a receiver in the trailer. Also, the trailer solenoid may be provided with a bypass air line and a remotely operable control valve so that the theft prevention system can be effectively disabled if 2 0 desired for the drop yard situation or other reasons without requiring the services of a technician. The bypass valve may include a manual valve preferably with a lock and/or within a locked cabinet. Preferably the trailer receiver and solenoid valve are positioned in a locked or secure cabinet to deter a thief from "hot-wiring" or otherwise defeating the theft prevention system.
A further feature of the system requires that the driver of the truck have a key, key code, key card or authorization communicated by satellite to activate the transmitter, rather than to simply flip a switch in the tractor cab. This gives additional security that upon gaining access to the tractor cab, one cannot release the tractor brakes without having necessary authorization.
In accordance with another optional feature of the system, the receiver and the decoder forming a part thereof may require that several or all of the trailer light circuits be 2 0 energized to operate the solenoid brake release valve. Thus the driver could be required to test the lights before releasing the brakes. A more sophisticated version may require that trailer lighting circuits be energized in a particular sequence. In the latter case, this could operate as an additional "code" making the theft of the trailer using an unauthorized tractor more difficult. The present theft prevention system has an advantage over previous systems in that it does not require removal, replacement or modification of the service trailer air brake system. It does not interact with the service line for the regular operating brakes at all and requires only the insertion of solenoid valves in the parking air supply lines which can be conveniently done near the point where such air lines enter the trailer.
The theft prevention receiver unit of the present invention also requires a simple connection to two or more conductors of the standard electrical cable connected to the trailer to supply power to the various lighting circuits. The transmitter in the tractor cab only requires connection to the electrical system of the tractor, preferably being connected into a circuit or circuits for the trailer lights. The present invention provides a lock-open feature to allow normal parking brake operation without authorization signal from a tractor cab with an appropriate digital signal transmitter. This accomodates a need for a trailer with its load to be dropped off at a large warehouse or distribution center to later be moved from the drop yard to a loading dock or other unloading site by a warehouse tractor designated for moving and positioning trailers at the facility. In a preferred embodiment this drop yard feature is implemented by a locking element associated with a solenoid valve adapted to lock the valve in an open position or to unlock the valve in response to control signals from a receiver in the trailer. Also, the trailer solenoid may be provided with a bypass air line and a remotely operable control valve so that the theft prevention system can be effectively disabled if 2 0 desired for the drop yard situation or other reasons without requiring the services of a technician. The bypass valve may include a manual valve preferably with a lock and/or within a locked cabinet. Preferably the trailer receiver and solenoid valve are positioned in a locked or secure cabinet to deter a thief from "hot-wiring" or otherwise defeating the theft prevention system.
In addition to providing the features and advantages described above, it is an object of the present invention to provide a theft prevention system for tractor-trailer transport vehicles that is implemented with minimal modification of trucks or trailers by adding transmitters in the tractor cabs and receivers and solenoid valves in the trailers leaving the air line connections and electrical cable connections from tractor to trailer without modification and allowing a tractor to be coupled to a trailer in conventional fashion.
It is another object of the present invention to provide a theft prevention system in which an operator of an authorized tractor-trailer can connect a trailer to the tractor in customary fashion and, upon activation of a transmitter within the cab, proceed to release 1 o the parking brakes in the customary manner in a simple and expeditious manner.
It is yet another object of the present invention to provide a theft prevention system for trailers in which normally locked parking brakes in compliance with DOT
specifications require for brake release that a signal be transmitted to a receiver in the trailer by activating a transmitter in the cab, and the action required by the driver to activate the transmitter is authorized by remotely transmitted data through a remote terminal in the cab.
It is a further object of the present invention to provide a theft prevention system for trailers having a solenoid valve in a trailer air line which must be open to release the trailer parking brakes wherein the solenoid valve has an integral pneumatic latch so that once opened by the solenoid, the valve is open as long as pressure is applied to the trailer parking 2 0 brake air line.
It is a further object of the present invention to provide a remotely controlled element selectively to deactivate the anti-theft braking function for drop yard mobility or to activate it for over the road operation.
It is a still further obj a a of the present invention to provide a theft prevention system for trailers having a solenoid valve controlling release of the parking brakes which is activated to release the brakes only upon energization of a plurality of the lighting circuits for the trailer.
Further objects and advantages of the present invention will be understood by those skilled in the art by reference to the following description and the appended drawings.
BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS
Figure 1 is a partially schematic side view of a tractor-trailer transport vehicle having an anti-theft system according to the invention;
Figure 2 is a schematic diagram of a conventional trailer pneumatic brake system having a solenoid valve and associated receiver connected to control the air supply in the parking brake air line;
Figure 3 is a schematic, partially sectional view of a solenoid valve particularly adapted for use in a system of the present invention, in the closed position;
Figure 4 is a schematic, partially sectional view of a solenoid valve particularly adapted for use in a system of the present invention, in the open position;
Figure 5 is a schematic diagram partially broken away showing within a locked cabinet the solenoid valve of Figures 3 and 4 wherein a valued bypass is provided for the solenoid valve;
Figure 6 is a schematic diagram of a tractor trailer transport vehicle having a secondary trailer provided with an anti-theft braking system and integrated with a satellite communication system to provide centralized control and monitoring of the anti-theft braking system;
Figure 7 is a schematic block diagram showing details of the system employed in the tractor-trailer transport vehicle of Figure 6.
DETAILED DESCRIPTION OF THE INVENTION
Referring now to the drawings, and particularly Figure 1, a trailer transport vehicle is shown including a tractor 8 with a cab 10 and a trailer 11 to which the theft prevention system for trailers according to the invention is applied. Typically the invention will be 5 applied to a tractor-trailer transport vehicle 6 of a common type referred to as an "18-wheeler". Although the invention is particularly adapted to such tractors and semi-trailers, it may be used with any truck/trailers combination in which one or more trailers has air brakes and a pneumatic system supplied with pressurized air from the tractor or truck pulling the trailer.
10 Trailer 11 is equipped with a conventional pneumatic braking system which includes brakes and brake control valves (not shown in detail) at 16 for the wheels on the two trailer axles. Conventionally connected air hoses 13 and 14 constitute an air pressure supply means including a service air supply line and a parking air supply line, respectively.
A conventional electrical cable 12 provides power and control for the lights of the trailer and also is adapted to power a solenoid valve 17 and a signal receiver 18 of the theft prevention system. Preferably, the solenoid valve 17 and the signal receiver 18 are secured in a limited access cabinet 25 provided with a key lock or other means to limit access only to those authorized. Normally the air input to the solenoid valve 17 will be connected to the parking air supply line 14 while the output of the solenoid valve 17 will be connected to a 2 o parking brake air line 15 whereby the pressure in the parking brake air line is in part controlled by the solenoid valve 17. It will also be noted that electrical cable 12 connects to the receiver 18 (in addition to providing power for the trailer lights in a manner not shown). Thus, two or more conductors of cable 12 are available to provide power to receiver 18 and also the solenoid valve 17.
As previously discussed, an important feature of the preferred embodiment of the invention is that the solenoid valve 17 and the receiver 18 cannot be operated by the driver of a tractor which does not have a transmitter 22 enabled to operate with the theft prevention system of trailer 1 I. In the cab 10 of tractor 8 is installed transmitter 22 which transmits a coded or otherwise appropriate signal to receiver 18 to enable release of the parking brakes by operation of solenoid 17. Preferably, electrical cable 12 is connected to transmitter 22 so that the signal to receiver I 8 is transmitted on cable 12 and only on cable 12 using two or more of the conductors in that cable, as shown in U.S. Patent No.
5,142,278, or other known manner. Alternatively a different transmission path may be used as shown in U.S.
Patent No. 5,442,810, or wireless transmission by microwave or infrared may be employed.
Transmitter 22 is provided with an input control element 21, which in a simple form of the invention could be a driver operated push button or lever switch for sending a DC, AC, audio frequency, or radio frequency signal to receiver 18. Obviously, it is desirable that the signal sent be sufficiently complex or encoded to prevent a false or counterfeit signal easily being injected into cable 12 to enable release of the parking brakes of trailer 11.
In most cases it will be preferable that input control element 21 provides extra security by requiring a conventional key to operate the switch or have the form of some access-limiting device such as a magnetic strip card reader, an optical card scanner, fingerprint scanner, a numerical touch pad, computer microchip controlled, or computer 2 0 interfaced with onboard computer of a remote terminal to initiate the signal from transmitter 22 to receiver 18. When interfaced with an onboard computer and remote terminal communicating by satellite with a base station, two-way coupling between input control element 21 and onboard computer makes data on operator ID, tractor ID, trailer ID, etc.
available at the base station ar d, optionally, permits remote control of brake release over the satellite link from a satellite network communication center.
It will be understood that input control element 21 may be represented by any of these access-limiting devices as well as by a simple push button or key lock switch. By way of example, input control element 21 may take the form of a magnetic strip card reader and associated data processing means as shown and described in the U.S. Patent No.
5,871,435 to Numata et al. for Centrifuge Management System. Desirably, input control element 21, receives instruction data from terminal 20 in known manner, as shown in U.S.
Patent No.
5,142,278, for example.
Figure 2 shows a schematic diagram of a typical conventional pneumatic truck/trailer braking system with the addition of a solenoid valve 17 and a receiver 18 to implement the theft prevention system according to the present invention. The service line 13 for normal braking in on the road operation connects to emergency relay valve assemblies 31 from which service line branches 34 lead to the respective spring brakes 35 which actuate friction braking elements such as brake shoes or the like (not shown in Figure 2).
As previously described, parking air supply line 14 is connected to the inlet of solenoid valve 17 and the air pressure communicated by parking air supply line 14 through solenoid valve 17 when open is imparted through parking brake air line 15 to parking/emergency relay valve assemblies 31 and thence through parking air branch lines 2 0 33 to appropriate inlets of spring brakes 35. Although a solenoid valve such as 17 could also be utilized in service line 13, it is preferred that the service line and the related normal operation of the brakes for decelerating on the road shall not be modified in any way and that normal braking be totally unaffected by addition of the theft prevention system of the present invention.
It will be noted that, as previously mentioned, receiver 18 preferably receives both power and control signals through cable 12 already present for transmitting power to the trailer lights. As few as two of the half dozen or so conductors in the common form of electrical cable 12 may actually be connected to the receiver 18.
Alternatively, a greater number or all of the conductors may be so connected. As shown in Figure 2, the cable 12 from the tractor has a continuation cable I 9 which may be routed to the trailer lighting in any desired fashion.
An improved form of solenoid valve 17 is shown schematically in Figures 3 and with Figure 3 showing the valve closed causing the parking brakes to be applied while Figure 4 shows the valve open and latched to release the parking brakes by supplying air pressure to the parking brake air line from the parking air supply line.
Solenoid valve 17 is provided with a conventional solenoid actuator 41 having a winding 43. Solenoid valve 17 has an inlet 44 which is provided with a suitable hose connector (not shown) to receive parking air supply line 14. Similarly, an outlet 45 is provided with a suitable connector (not shown) for connecting parking brake air line 15.
Inlet 44 leads to a chamber 47 which, in the position shown in Figure 3, is closed by disc 49 urged upward by spring 55. It will be noted that in the position shown in Figure 3 a vent 57 is open so that outlet 45 communicates with the atmosphere, thereby bleeding off any pressure that might exist in parking brake air line 15. When solenoid 41 is activated by a 2 0 current to windings 43 from receiver 18 in response to a signal received over cable 12, solenoid armature 53 extends as shown in Figure 4 causing valve stem 51 to move disc 49 to close the vent 57 while opening a passage from inlet 44 to outlet 45. This causes the pressure present at inlet 44 (at least about 100 psi) to be communicated to the parking brake air line 15 allowing release of the trailer brakes. The extension of armature 53 also opens a path between a pilot chamber 61 and chamber 47. The pressure in pilot chamber 61 is caused to be the same as that at outlet 45 by the pilot channel 59.
While in the open position, shown in Figure 4, solenoid valve 17 is latched open as long as a predetermined minimal pressure is present in chamber 47 sufficient to overcome the force of spring 55. Preferably, the spring constant of spring 55 is determined to allow the spring force to be overcome if the pressure differential between chamber 47 and the atmosphere at vent 57 is greater than 15 - 25 psi. Thus it will be seen that, in usual operation, the solenoid valve 17 will cause the path therethrough to remain open as long as there is pressure of approximately 20 psi, but when the source of the pressure is disconnected, spring 55 will cause the valve to close and it cannot thereafter be opened without an appropriate signal received at receiver 18 to operate the solenoid 41.
In Figures 3 and 4, solenoid valve 17 has an optional improvement feature schematically shown in the form of a locking element 211, which responds to an appropriate signal from receiver 18 through electric cable 215 to cause a solenoid 213 to move a plunger 217 into engagement with a catch 219 (as in Figure 4) or out of engagement (as in Figure 3). This allows appropriate command signals to be sent to receiver 18 to hold solenoid valve 17 in the open position until a countermanding signal is received by receiver 18. This is an important feature for truckers to accommodate what is known as a drop yard delivery 2 0 procedure. This procedure may be used by large distribution centers and large warehouses where it is impractical for the over the road truck driver to position the trailer at a loading-unloading dock or other unloading location. In the drop yards situation, the driver is directed to a drop yard where the delivery of the trailer is accepted and acknowledged enabling him to quickly depart without the delivered trailer and with or without another trailer for the tractor.
In the drop yard procedure it is necessary that a local tractor be able to connect to the dropped off trailer, release its brakes and move it to a loading-unloading dock. It is 5 inconvenient for the local drop yard tractor to be required to have any of the security and anti-theft equipment described above. According to the invention, the locking element 211 enables the driver to send a signal or a remote signal to be sent to receiver 18 which will keep the solenoid valve 17 in the latched position (as shown in Figure 4) while the trailer is in the drop yard without air pressure to the brake system or power to the receiver 18. Thus, 10 for drop yard delivery operations it is only necessary for a lock command signal to be sent to receiver 18 while solenoid valve 17 is open as shown in Figure 4 to effectively disable the anti-theft functions described above. This enables the local drop yard tractor to maneuver the trailer to any desired loading dock or other position as it would any other trailer not equipped with the security features above. The open valve position shown in Figure 4 15 required for locking the valve by the action of locking element 211 can be produced by activation of solenoid valve 41 and/or by the latching effect of air pressure applied through port 44.
The partially schematic representation of locking element 211 and its components are to be understood as exemplary only, and many other ways to achieve the same function 2 0 with a solenoid valve such as 17 or any other remotely operable valve would be apparent to those skilled in the art. It should further be noted that reference to a solenoid valve should be understood to mean any valve which is operable in response to an electrical current or voltage: similarly solenoid 213 with plunger 217 can be replaced with any linear or rotating actuator which can mechani~.:ally lock valve 17 in the open position. It should further be noted that the lock element :? 11 could be used in place of or in addition to the pneumatic latch feature of valve 17 to obviate continual actuation of solenoid 41 for maintaining release of the parking brakes.
Figure 5 shows cabinet 25 for preventing unauthorized access to the receiver 18 and a solenoid valve 17A and also shows an alternative embodiment of the invention including a separate bypass valve 73 to permit the brake system to function as if the theft prevention system were not present, as may be desired for purposes of drop yard delivery procedures, maintenance, repair, or other contingencies.
Cabinet 25 may be of conventional form with hinges 27 and a key lock 29 or with whatever degree of security against intrusion might be desired. For simplicity, solenoid valve 17A, solenoid 41 and receiver 18 are shown without all the electrical cable connections that would be present. Cable 12 powers solenoid 41 and receiver 18. In Figure 5 a bypass line 71 provides a path around solenoid valve 17 and a two position electrically operated valve 73 is connected in line 15. Valve 73 is preferable manually, as well as electrically, operable by means of lever 75. In the position shown in Figure 5 all air flow is through line 15 and solenoid valve 17 so that solenoid valve 17 may control the operation of the parking brakes of the trailer. In a rotated position of 90° of lever 75, valve 73 disconnects line 15 from valve 17 connecting it instead through bypass 71 to parking air 2 0 supply line 14 whereby solenoid valve 17 no longer has any affect on the operation of the parking brakes. The bypass line 71 and valve 73 of Figure 5 is an optional feature of the apparatus and other means might be employed to override the operation of solenoid valve 17 or spring 55 as desired. It will be noted that solenoid valve 17A is not provided with a locking element 211 as is solenoid valve 17 in Figures 3 and 4. Two position valve 73 acts as a locking element, in the sense that it can lock out solenoid valve 17A
from having any operative effect in the system. In the embodiment in Figure ~, a locking element 211 for directly overriding the operation of solenoid valve and particularly that of spring 55, could be included, but it would be essentially redundant. Such redundancy might be desired to better assure that the trailer parking brakes could be released in special circumstances when it was not possible to activate receiver 18 and solenoid valve 17 with an appropriate signal.
It will thus be seen that the theft prevention system for trailers according to the invention interacts with the customary pneumatic trailer braking system having spring actuated parking brakes that apply in absence of pressure in an air supply line to the trailer from a tractor-mounted compressed air tank. A normally closed solenoid valve is connected in series with the pressurized air supply line that supplies air to release the trailer parking brakes, and a signal receiver adapted to receive an electrical signal from a transmitter in the tractor cab must be caused to actuate the solenoid to open the valve to release the trailer parking brakes. The signal from the transmitter to the receiver may be a DC, AC, or high frequency signal transmitted over the normally provided electrical cable from tractor to trailer from tractor to trailer or may be a radio transmitted signal similar to the kind employed for garage door openers.
The solenoid valve is preferably provided with a pneumatic latch so that the parking 2 0 brakes will remain released as long as air pressure is provided to the trailer once an enabling signal is received by the receiver. The signal transmitter is preferably provided with appropriate security means to prevent unauthorized use which means may be a key switch, a key pad for entry of an identification number, a magnetic strip card reader or other conventional device. The solenoid valve and receiver in the trailer may be secured in a locked cabinet and, if provided, a manual valve for the solenoid valve may also be within the cabinet. The receiver and the solenoid valve are powered from the same electrical cable which provides power to the trailer lights and the receiver may be programed to require the lights to be turned on in whole or in part or sequentially to release the brakes.
The present invention is readily adapted for use in conjunction with a truck transportation management system using a satellite communication and/or navigation system wherein data is transmitted to and from a network communications center and trucks located anywhere in the system service area. Figure 6 shows schematically the elements of such a system.
A network communications center 124 would be the central collection point for all data from a satellite network and also would communicate to and from an outlink 122 which would typically link with the national telephone network for communication of voice and data to and from customers, service providers, regional offices of the transportation company, etc. An uplink 118 would communicate by microwave transmissions to a satellite 120, which would in turn relay such communications to the cab 10 of a tractor 8 by means of an antenna 116 of conventional form provided for such two way communication.
As illustrated, the tractor 8 will typically be employed to haul one or more trailers as shown at 11 A and 11 B. As previously explained, the system of the present invention is 2 0 not limited to single trailer rigs and may readily be adapted to provide security for a one or more tandem trailers.
Such communication systems between a network communications center of a truck transportation management system are well known and in use in the United States and elsewhere. In an advanced form of such systems, there are communication links between the trailer 11 A and the tractor 8, primarily for the purpose of transmitting information about the identification of the trailer and its load to a network communication center to facilitate freight transportation management. Communication between tractor and trailer is bi-directional, however, so that transceivers of known systems have the capability and capacity to transmit and receive the digitally coded signals described above (with respect to Figures 1-5) for implementation of an anti-theft and security system of the present invention.
An implementation of the present invention adapted for use in coordination with such a truck transportation management system is shown in Figure 7 in schematic form. As in Figure 6, tractor 8 is provided with an antenna 116 for communicating with a satellite (not shown in Figure 7). Mobile communication terminal 20 includes a data link to place it in communication through the tractor mounted antenna 116 with a network communication center such as shown at 124 in Figure 6. Mobile communication terminal 20 will normally include an integrated circuit computer module, a display and a keyboard or other data input device for the operator.
Mobil communications terminal 20 and the computer integrated circuit forming the central processing unit thereof is programmed to provide to and receive from transceiver 22A data relating to command signals for trailers 11 A and 11 B. The pneumatic braking system 9 or other braking system of the tractor is also connected to send or receive data from 2 0 transceiver 22A and mobile communication terminal 20 which may or may not be interrelated with data regarding trailers 11A and 11B. Transceiver 22A of the tractor is connected for data transmission by cable 12 to transceiver 18A of the trailer 11 A. Preferably cable 12 is one which also serves for power and control of trailer lights and other accessories (not shown in Figure 7 for simplicity and clarity). Transceiver 22A of tractor 8 is also connected to transceiver 18B of trailer 11 B in a similar manner through cable 12A.
The apparatus of Figure 7 thus far described basically is known apparatus for data communication in state of the art truck transportation communication and management 5 systems. Trailer 11 A and trailer 11 B have solenoid valves 17A and 17B
connected between their braking systems 16A and 16B in the braking system 9 of tractor 8 in regard to parking brake air line 14. Accordingly, transceiver 18A can control solenoid valve 17A
and transceiver 18B can control solenoid valve 17B to prevent the release of parking brakes or to enable the release of parking brakes. Transceivers 18A and 18B are in communication 10 with transceiver 22A, preferably over cable 12 and cable 12A. Using the entire data link as shown in Figure 7 and Figure 6, the network communications center 124 or the authorized communicators from outlink 122 can control the parking brake system of trailer 11 A or 11 B
or can authorize the operator of tractor 8 to do so. Although only a single solenoid valve 17A and a single solenoid valve 17B are shown in the trailers 11A and 11B, it will be 15 understood that more than one solenoid valve could be included in each case. Also the solenoid valve 17A and 17B preferably is of the sort shown in Figures 3 and 4 whereby they can be locked in the open position by a remote signal from the tractor 8 or elsewhere in the network to implement the drop yard feature of the invention.
It will be understood that transceivers 18A and 18B will normally be performing 2 0 functions of the truck transportation management system in providing data regarding trailers 11 A and 11 B and/or their loads and conditions, optionally including location, temperature, weight or motion, to the network communications center 124 and beyond.
Transceivers 18A
and 18B could also be used to receive instructions and generate command signals to control operations of other trailer functions or accessories.
Reviewing the operation of the theft prevention system according to the invention, it will be noted that no special action is required on the part of the driver to set the trailer brakes when it is parked and disconnected from the tractor. Referring to Figure 3 and Figure 4, when standard hose connectors are uncoupled to disconnect the tractor, there is no longer any source of pressure for the parking air supply line 14 and the parking brake air line 15 so that the normal operation of the trailer braking system causes the parking brakes to be set.
This is facilitated by the fact that spring 55 returns disc 49 from the position shown in Figure 4 to the position shown in Figure 3 thereby opening outlet 4~ and parking brake air line 15 to atmospheric pressure.
If an alien truck, or a system equipment truck without authorization, attempts to move a protected trailer, the driver will find that the brakes cannot be released normally by applying pressure to the parking air supply line in the absence of a coded signal transmitted to receiver 18 (or 18A or 18B), due to the action of solenoid valve 17 or (17A
or 17B).
Solenoid valve 17 has assumed an unlatched position as shown in Figure 3 and spring SS
causes disc 49 to close the path between inlet 44 and outlet 45 and also open outlet 45 to the vent 57 and to atmospheric pressure. The same or similar function is implemented in solenoids 17A or 17B. The coded signal required by receiver 18 is preferably sufficiently complex so that it cannot be provided by a would-be thief; such signal coding arrangements 2 0 are well-known, in the remote garage door opener art for example. Although not the preferred arrangement, a remote transmitter such as used in the garage door opener art could be permanently installed in the cab of the tractor with the receiver 18 having the remote receiver for such transmitter. Such remote transmitter and receiver arrangements employ radio transmission which is considered less desirable than transmitting the coded signal over conductors of electrical cable. Thus, it would be desirable to use a modified garage door type remote transmission and reception unit so a lower frequency signal was transmitted over conductors of electrical cable 12. This would avoid a problem of radio frequency transmissions that trailer brakes could be released by a hand-held transmitter or by the transmitter of a tractor near to, but not connected to, the trailer.
Another form of the invention for deterring theft comprises a card reader operated transmitter 22 in which the driver operated device 21 is a card reader of the type disclosed in U.S. Patent No. 5,871,435 and which is generally known in the art. In a manner known in the art, the data on a magnetic strip card would be read and, if such data indicated an authorized operator, then a suitably coded digital signal would be sent over conductors of cable 12 to receiver 18. Such technology is well known in the employee attendance and time accounting art and elsewhere and will not be described in detail here.
Numerous other possibilities for communicating a coded signal to receiver 18 as discussed above are available. Another example of using well-known technology is the use of a telephone touch tone keypad at the transmitter and a touch tone decoder at the receiver 18. In such case, the signal would be transmitted over two of the conductors of cable 12 which may be unused conductors or conductors which are also used for transmission of DC current to the lighting circuits. Mobil communication terminal 20 may send data in modem-like format to 2 0 transceiver 22A or transmitter 22 and thence to transceiver 8A or receiver 18. It will be seen that the desirable attributes of having a transmitter of special characteristics in the cab and utilizing the electrical cable 12 for transmission of coded signals to receiver 18 can be accomplished in a variety of different ways utilizing known techniques taken from the communication and other arts.
Considering now the actions that may be required of an authorized driver operating an authorized tractor in connecting to and releasing the brakes of a trailer equipped with the theft prevention system according to the invention, it will first be noted that all actions required of the driver in addition to the normal hookup are performed in the cab. Assuming that the driver operated control of the transmitter in the cab is a magnetic strip card reader, and the running or marker lights of the trailer are the electrical circuit selected to power the receiver and the solenoid valve, then the following actions need to be taken.
The normal hookup procedures, including connecting air hoses and electrical cable are performed in the normal manner. The marker or running lights are turned on from the tractor cab, and any brake release procedure required in the cab is performed. The driver takes a designated appropriate magnetic strip card and inserts it in or wipes it through the magnetic card reader of the transmitter. Alternatively, the card reader could be replaced with a fingerprint reader, a retina scanner or other known security device.
These actions will send a coded signal to the receiver in the trailer while the pressure from the tractor is applied to the parking air supply line, thus latching open the solenoid valve to apply and maintain pressure in the parking brake air line to release the parking brakes and keep them in the released position as long as pressure is received from the tractor.
Thus it will be seen that in this example virtually the only extra steps required by the driver are to turn on some trailer lights and pass a magnetic strip card through a reader to unlock 2 0 the anti-theft system and proceed with the trailer in tow. In many cases the magnetic strip card used by the driver may be a magnetic strip card provided by the company to drivers and/or other employees for use in other company procedures.
In addition to or inst gad of the magnetic strip card reader authorization technique, the driver may employ the rf;mote terminal computer and keyboard to send a coded signal to the trailer. This coded signal may be supplied over the satellite network or other network from a central communication center. The same or similar security measures will be employed regarding the implementation of the drop yard feature by the appropriate signal code.
In addition to the modifications and variations to the invention that have been shown, described, or suggested, other variations and modifications will be apparent to those of skill in the art and, accordingly, the scope of the invention is not to be limited to those specific variations and modifications disclosed but is to be determined by reference to the appended claims.
It is another object of the present invention to provide a theft prevention system in which an operator of an authorized tractor-trailer can connect a trailer to the tractor in customary fashion and, upon activation of a transmitter within the cab, proceed to release 1 o the parking brakes in the customary manner in a simple and expeditious manner.
It is yet another object of the present invention to provide a theft prevention system for trailers in which normally locked parking brakes in compliance with DOT
specifications require for brake release that a signal be transmitted to a receiver in the trailer by activating a transmitter in the cab, and the action required by the driver to activate the transmitter is authorized by remotely transmitted data through a remote terminal in the cab.
It is a further object of the present invention to provide a theft prevention system for trailers having a solenoid valve in a trailer air line which must be open to release the trailer parking brakes wherein the solenoid valve has an integral pneumatic latch so that once opened by the solenoid, the valve is open as long as pressure is applied to the trailer parking 2 0 brake air line.
It is a further object of the present invention to provide a remotely controlled element selectively to deactivate the anti-theft braking function for drop yard mobility or to activate it for over the road operation.
It is a still further obj a a of the present invention to provide a theft prevention system for trailers having a solenoid valve controlling release of the parking brakes which is activated to release the brakes only upon energization of a plurality of the lighting circuits for the trailer.
Further objects and advantages of the present invention will be understood by those skilled in the art by reference to the following description and the appended drawings.
BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS
Figure 1 is a partially schematic side view of a tractor-trailer transport vehicle having an anti-theft system according to the invention;
Figure 2 is a schematic diagram of a conventional trailer pneumatic brake system having a solenoid valve and associated receiver connected to control the air supply in the parking brake air line;
Figure 3 is a schematic, partially sectional view of a solenoid valve particularly adapted for use in a system of the present invention, in the closed position;
Figure 4 is a schematic, partially sectional view of a solenoid valve particularly adapted for use in a system of the present invention, in the open position;
Figure 5 is a schematic diagram partially broken away showing within a locked cabinet the solenoid valve of Figures 3 and 4 wherein a valued bypass is provided for the solenoid valve;
Figure 6 is a schematic diagram of a tractor trailer transport vehicle having a secondary trailer provided with an anti-theft braking system and integrated with a satellite communication system to provide centralized control and monitoring of the anti-theft braking system;
Figure 7 is a schematic block diagram showing details of the system employed in the tractor-trailer transport vehicle of Figure 6.
DETAILED DESCRIPTION OF THE INVENTION
Referring now to the drawings, and particularly Figure 1, a trailer transport vehicle is shown including a tractor 8 with a cab 10 and a trailer 11 to which the theft prevention system for trailers according to the invention is applied. Typically the invention will be 5 applied to a tractor-trailer transport vehicle 6 of a common type referred to as an "18-wheeler". Although the invention is particularly adapted to such tractors and semi-trailers, it may be used with any truck/trailers combination in which one or more trailers has air brakes and a pneumatic system supplied with pressurized air from the tractor or truck pulling the trailer.
10 Trailer 11 is equipped with a conventional pneumatic braking system which includes brakes and brake control valves (not shown in detail) at 16 for the wheels on the two trailer axles. Conventionally connected air hoses 13 and 14 constitute an air pressure supply means including a service air supply line and a parking air supply line, respectively.
A conventional electrical cable 12 provides power and control for the lights of the trailer and also is adapted to power a solenoid valve 17 and a signal receiver 18 of the theft prevention system. Preferably, the solenoid valve 17 and the signal receiver 18 are secured in a limited access cabinet 25 provided with a key lock or other means to limit access only to those authorized. Normally the air input to the solenoid valve 17 will be connected to the parking air supply line 14 while the output of the solenoid valve 17 will be connected to a 2 o parking brake air line 15 whereby the pressure in the parking brake air line is in part controlled by the solenoid valve 17. It will also be noted that electrical cable 12 connects to the receiver 18 (in addition to providing power for the trailer lights in a manner not shown). Thus, two or more conductors of cable 12 are available to provide power to receiver 18 and also the solenoid valve 17.
As previously discussed, an important feature of the preferred embodiment of the invention is that the solenoid valve 17 and the receiver 18 cannot be operated by the driver of a tractor which does not have a transmitter 22 enabled to operate with the theft prevention system of trailer 1 I. In the cab 10 of tractor 8 is installed transmitter 22 which transmits a coded or otherwise appropriate signal to receiver 18 to enable release of the parking brakes by operation of solenoid 17. Preferably, electrical cable 12 is connected to transmitter 22 so that the signal to receiver I 8 is transmitted on cable 12 and only on cable 12 using two or more of the conductors in that cable, as shown in U.S. Patent No.
5,142,278, or other known manner. Alternatively a different transmission path may be used as shown in U.S.
Patent No. 5,442,810, or wireless transmission by microwave or infrared may be employed.
Transmitter 22 is provided with an input control element 21, which in a simple form of the invention could be a driver operated push button or lever switch for sending a DC, AC, audio frequency, or radio frequency signal to receiver 18. Obviously, it is desirable that the signal sent be sufficiently complex or encoded to prevent a false or counterfeit signal easily being injected into cable 12 to enable release of the parking brakes of trailer 11.
In most cases it will be preferable that input control element 21 provides extra security by requiring a conventional key to operate the switch or have the form of some access-limiting device such as a magnetic strip card reader, an optical card scanner, fingerprint scanner, a numerical touch pad, computer microchip controlled, or computer 2 0 interfaced with onboard computer of a remote terminal to initiate the signal from transmitter 22 to receiver 18. When interfaced with an onboard computer and remote terminal communicating by satellite with a base station, two-way coupling between input control element 21 and onboard computer makes data on operator ID, tractor ID, trailer ID, etc.
available at the base station ar d, optionally, permits remote control of brake release over the satellite link from a satellite network communication center.
It will be understood that input control element 21 may be represented by any of these access-limiting devices as well as by a simple push button or key lock switch. By way of example, input control element 21 may take the form of a magnetic strip card reader and associated data processing means as shown and described in the U.S. Patent No.
5,871,435 to Numata et al. for Centrifuge Management System. Desirably, input control element 21, receives instruction data from terminal 20 in known manner, as shown in U.S.
Patent No.
5,142,278, for example.
Figure 2 shows a schematic diagram of a typical conventional pneumatic truck/trailer braking system with the addition of a solenoid valve 17 and a receiver 18 to implement the theft prevention system according to the present invention. The service line 13 for normal braking in on the road operation connects to emergency relay valve assemblies 31 from which service line branches 34 lead to the respective spring brakes 35 which actuate friction braking elements such as brake shoes or the like (not shown in Figure 2).
As previously described, parking air supply line 14 is connected to the inlet of solenoid valve 17 and the air pressure communicated by parking air supply line 14 through solenoid valve 17 when open is imparted through parking brake air line 15 to parking/emergency relay valve assemblies 31 and thence through parking air branch lines 2 0 33 to appropriate inlets of spring brakes 35. Although a solenoid valve such as 17 could also be utilized in service line 13, it is preferred that the service line and the related normal operation of the brakes for decelerating on the road shall not be modified in any way and that normal braking be totally unaffected by addition of the theft prevention system of the present invention.
It will be noted that, as previously mentioned, receiver 18 preferably receives both power and control signals through cable 12 already present for transmitting power to the trailer lights. As few as two of the half dozen or so conductors in the common form of electrical cable 12 may actually be connected to the receiver 18.
Alternatively, a greater number or all of the conductors may be so connected. As shown in Figure 2, the cable 12 from the tractor has a continuation cable I 9 which may be routed to the trailer lighting in any desired fashion.
An improved form of solenoid valve 17 is shown schematically in Figures 3 and with Figure 3 showing the valve closed causing the parking brakes to be applied while Figure 4 shows the valve open and latched to release the parking brakes by supplying air pressure to the parking brake air line from the parking air supply line.
Solenoid valve 17 is provided with a conventional solenoid actuator 41 having a winding 43. Solenoid valve 17 has an inlet 44 which is provided with a suitable hose connector (not shown) to receive parking air supply line 14. Similarly, an outlet 45 is provided with a suitable connector (not shown) for connecting parking brake air line 15.
Inlet 44 leads to a chamber 47 which, in the position shown in Figure 3, is closed by disc 49 urged upward by spring 55. It will be noted that in the position shown in Figure 3 a vent 57 is open so that outlet 45 communicates with the atmosphere, thereby bleeding off any pressure that might exist in parking brake air line 15. When solenoid 41 is activated by a 2 0 current to windings 43 from receiver 18 in response to a signal received over cable 12, solenoid armature 53 extends as shown in Figure 4 causing valve stem 51 to move disc 49 to close the vent 57 while opening a passage from inlet 44 to outlet 45. This causes the pressure present at inlet 44 (at least about 100 psi) to be communicated to the parking brake air line 15 allowing release of the trailer brakes. The extension of armature 53 also opens a path between a pilot chamber 61 and chamber 47. The pressure in pilot chamber 61 is caused to be the same as that at outlet 45 by the pilot channel 59.
While in the open position, shown in Figure 4, solenoid valve 17 is latched open as long as a predetermined minimal pressure is present in chamber 47 sufficient to overcome the force of spring 55. Preferably, the spring constant of spring 55 is determined to allow the spring force to be overcome if the pressure differential between chamber 47 and the atmosphere at vent 57 is greater than 15 - 25 psi. Thus it will be seen that, in usual operation, the solenoid valve 17 will cause the path therethrough to remain open as long as there is pressure of approximately 20 psi, but when the source of the pressure is disconnected, spring 55 will cause the valve to close and it cannot thereafter be opened without an appropriate signal received at receiver 18 to operate the solenoid 41.
In Figures 3 and 4, solenoid valve 17 has an optional improvement feature schematically shown in the form of a locking element 211, which responds to an appropriate signal from receiver 18 through electric cable 215 to cause a solenoid 213 to move a plunger 217 into engagement with a catch 219 (as in Figure 4) or out of engagement (as in Figure 3). This allows appropriate command signals to be sent to receiver 18 to hold solenoid valve 17 in the open position until a countermanding signal is received by receiver 18. This is an important feature for truckers to accommodate what is known as a drop yard delivery 2 0 procedure. This procedure may be used by large distribution centers and large warehouses where it is impractical for the over the road truck driver to position the trailer at a loading-unloading dock or other unloading location. In the drop yards situation, the driver is directed to a drop yard where the delivery of the trailer is accepted and acknowledged enabling him to quickly depart without the delivered trailer and with or without another trailer for the tractor.
In the drop yard procedure it is necessary that a local tractor be able to connect to the dropped off trailer, release its brakes and move it to a loading-unloading dock. It is 5 inconvenient for the local drop yard tractor to be required to have any of the security and anti-theft equipment described above. According to the invention, the locking element 211 enables the driver to send a signal or a remote signal to be sent to receiver 18 which will keep the solenoid valve 17 in the latched position (as shown in Figure 4) while the trailer is in the drop yard without air pressure to the brake system or power to the receiver 18. Thus, 10 for drop yard delivery operations it is only necessary for a lock command signal to be sent to receiver 18 while solenoid valve 17 is open as shown in Figure 4 to effectively disable the anti-theft functions described above. This enables the local drop yard tractor to maneuver the trailer to any desired loading dock or other position as it would any other trailer not equipped with the security features above. The open valve position shown in Figure 4 15 required for locking the valve by the action of locking element 211 can be produced by activation of solenoid valve 41 and/or by the latching effect of air pressure applied through port 44.
The partially schematic representation of locking element 211 and its components are to be understood as exemplary only, and many other ways to achieve the same function 2 0 with a solenoid valve such as 17 or any other remotely operable valve would be apparent to those skilled in the art. It should further be noted that reference to a solenoid valve should be understood to mean any valve which is operable in response to an electrical current or voltage: similarly solenoid 213 with plunger 217 can be replaced with any linear or rotating actuator which can mechani~.:ally lock valve 17 in the open position. It should further be noted that the lock element :? 11 could be used in place of or in addition to the pneumatic latch feature of valve 17 to obviate continual actuation of solenoid 41 for maintaining release of the parking brakes.
Figure 5 shows cabinet 25 for preventing unauthorized access to the receiver 18 and a solenoid valve 17A and also shows an alternative embodiment of the invention including a separate bypass valve 73 to permit the brake system to function as if the theft prevention system were not present, as may be desired for purposes of drop yard delivery procedures, maintenance, repair, or other contingencies.
Cabinet 25 may be of conventional form with hinges 27 and a key lock 29 or with whatever degree of security against intrusion might be desired. For simplicity, solenoid valve 17A, solenoid 41 and receiver 18 are shown without all the electrical cable connections that would be present. Cable 12 powers solenoid 41 and receiver 18. In Figure 5 a bypass line 71 provides a path around solenoid valve 17 and a two position electrically operated valve 73 is connected in line 15. Valve 73 is preferable manually, as well as electrically, operable by means of lever 75. In the position shown in Figure 5 all air flow is through line 15 and solenoid valve 17 so that solenoid valve 17 may control the operation of the parking brakes of the trailer. In a rotated position of 90° of lever 75, valve 73 disconnects line 15 from valve 17 connecting it instead through bypass 71 to parking air 2 0 supply line 14 whereby solenoid valve 17 no longer has any affect on the operation of the parking brakes. The bypass line 71 and valve 73 of Figure 5 is an optional feature of the apparatus and other means might be employed to override the operation of solenoid valve 17 or spring 55 as desired. It will be noted that solenoid valve 17A is not provided with a locking element 211 as is solenoid valve 17 in Figures 3 and 4. Two position valve 73 acts as a locking element, in the sense that it can lock out solenoid valve 17A
from having any operative effect in the system. In the embodiment in Figure ~, a locking element 211 for directly overriding the operation of solenoid valve and particularly that of spring 55, could be included, but it would be essentially redundant. Such redundancy might be desired to better assure that the trailer parking brakes could be released in special circumstances when it was not possible to activate receiver 18 and solenoid valve 17 with an appropriate signal.
It will thus be seen that the theft prevention system for trailers according to the invention interacts with the customary pneumatic trailer braking system having spring actuated parking brakes that apply in absence of pressure in an air supply line to the trailer from a tractor-mounted compressed air tank. A normally closed solenoid valve is connected in series with the pressurized air supply line that supplies air to release the trailer parking brakes, and a signal receiver adapted to receive an electrical signal from a transmitter in the tractor cab must be caused to actuate the solenoid to open the valve to release the trailer parking brakes. The signal from the transmitter to the receiver may be a DC, AC, or high frequency signal transmitted over the normally provided electrical cable from tractor to trailer from tractor to trailer or may be a radio transmitted signal similar to the kind employed for garage door openers.
The solenoid valve is preferably provided with a pneumatic latch so that the parking 2 0 brakes will remain released as long as air pressure is provided to the trailer once an enabling signal is received by the receiver. The signal transmitter is preferably provided with appropriate security means to prevent unauthorized use which means may be a key switch, a key pad for entry of an identification number, a magnetic strip card reader or other conventional device. The solenoid valve and receiver in the trailer may be secured in a locked cabinet and, if provided, a manual valve for the solenoid valve may also be within the cabinet. The receiver and the solenoid valve are powered from the same electrical cable which provides power to the trailer lights and the receiver may be programed to require the lights to be turned on in whole or in part or sequentially to release the brakes.
The present invention is readily adapted for use in conjunction with a truck transportation management system using a satellite communication and/or navigation system wherein data is transmitted to and from a network communications center and trucks located anywhere in the system service area. Figure 6 shows schematically the elements of such a system.
A network communications center 124 would be the central collection point for all data from a satellite network and also would communicate to and from an outlink 122 which would typically link with the national telephone network for communication of voice and data to and from customers, service providers, regional offices of the transportation company, etc. An uplink 118 would communicate by microwave transmissions to a satellite 120, which would in turn relay such communications to the cab 10 of a tractor 8 by means of an antenna 116 of conventional form provided for such two way communication.
As illustrated, the tractor 8 will typically be employed to haul one or more trailers as shown at 11 A and 11 B. As previously explained, the system of the present invention is 2 0 not limited to single trailer rigs and may readily be adapted to provide security for a one or more tandem trailers.
Such communication systems between a network communications center of a truck transportation management system are well known and in use in the United States and elsewhere. In an advanced form of such systems, there are communication links between the trailer 11 A and the tractor 8, primarily for the purpose of transmitting information about the identification of the trailer and its load to a network communication center to facilitate freight transportation management. Communication between tractor and trailer is bi-directional, however, so that transceivers of known systems have the capability and capacity to transmit and receive the digitally coded signals described above (with respect to Figures 1-5) for implementation of an anti-theft and security system of the present invention.
An implementation of the present invention adapted for use in coordination with such a truck transportation management system is shown in Figure 7 in schematic form. As in Figure 6, tractor 8 is provided with an antenna 116 for communicating with a satellite (not shown in Figure 7). Mobile communication terminal 20 includes a data link to place it in communication through the tractor mounted antenna 116 with a network communication center such as shown at 124 in Figure 6. Mobile communication terminal 20 will normally include an integrated circuit computer module, a display and a keyboard or other data input device for the operator.
Mobil communications terminal 20 and the computer integrated circuit forming the central processing unit thereof is programmed to provide to and receive from transceiver 22A data relating to command signals for trailers 11 A and 11 B. The pneumatic braking system 9 or other braking system of the tractor is also connected to send or receive data from 2 0 transceiver 22A and mobile communication terminal 20 which may or may not be interrelated with data regarding trailers 11A and 11B. Transceiver 22A of the tractor is connected for data transmission by cable 12 to transceiver 18A of the trailer 11 A. Preferably cable 12 is one which also serves for power and control of trailer lights and other accessories (not shown in Figure 7 for simplicity and clarity). Transceiver 22A of tractor 8 is also connected to transceiver 18B of trailer 11 B in a similar manner through cable 12A.
The apparatus of Figure 7 thus far described basically is known apparatus for data communication in state of the art truck transportation communication and management 5 systems. Trailer 11 A and trailer 11 B have solenoid valves 17A and 17B
connected between their braking systems 16A and 16B in the braking system 9 of tractor 8 in regard to parking brake air line 14. Accordingly, transceiver 18A can control solenoid valve 17A
and transceiver 18B can control solenoid valve 17B to prevent the release of parking brakes or to enable the release of parking brakes. Transceivers 18A and 18B are in communication 10 with transceiver 22A, preferably over cable 12 and cable 12A. Using the entire data link as shown in Figure 7 and Figure 6, the network communications center 124 or the authorized communicators from outlink 122 can control the parking brake system of trailer 11 A or 11 B
or can authorize the operator of tractor 8 to do so. Although only a single solenoid valve 17A and a single solenoid valve 17B are shown in the trailers 11A and 11B, it will be 15 understood that more than one solenoid valve could be included in each case. Also the solenoid valve 17A and 17B preferably is of the sort shown in Figures 3 and 4 whereby they can be locked in the open position by a remote signal from the tractor 8 or elsewhere in the network to implement the drop yard feature of the invention.
It will be understood that transceivers 18A and 18B will normally be performing 2 0 functions of the truck transportation management system in providing data regarding trailers 11 A and 11 B and/or their loads and conditions, optionally including location, temperature, weight or motion, to the network communications center 124 and beyond.
Transceivers 18A
and 18B could also be used to receive instructions and generate command signals to control operations of other trailer functions or accessories.
Reviewing the operation of the theft prevention system according to the invention, it will be noted that no special action is required on the part of the driver to set the trailer brakes when it is parked and disconnected from the tractor. Referring to Figure 3 and Figure 4, when standard hose connectors are uncoupled to disconnect the tractor, there is no longer any source of pressure for the parking air supply line 14 and the parking brake air line 15 so that the normal operation of the trailer braking system causes the parking brakes to be set.
This is facilitated by the fact that spring 55 returns disc 49 from the position shown in Figure 4 to the position shown in Figure 3 thereby opening outlet 4~ and parking brake air line 15 to atmospheric pressure.
If an alien truck, or a system equipment truck without authorization, attempts to move a protected trailer, the driver will find that the brakes cannot be released normally by applying pressure to the parking air supply line in the absence of a coded signal transmitted to receiver 18 (or 18A or 18B), due to the action of solenoid valve 17 or (17A
or 17B).
Solenoid valve 17 has assumed an unlatched position as shown in Figure 3 and spring SS
causes disc 49 to close the path between inlet 44 and outlet 45 and also open outlet 45 to the vent 57 and to atmospheric pressure. The same or similar function is implemented in solenoids 17A or 17B. The coded signal required by receiver 18 is preferably sufficiently complex so that it cannot be provided by a would-be thief; such signal coding arrangements 2 0 are well-known, in the remote garage door opener art for example. Although not the preferred arrangement, a remote transmitter such as used in the garage door opener art could be permanently installed in the cab of the tractor with the receiver 18 having the remote receiver for such transmitter. Such remote transmitter and receiver arrangements employ radio transmission which is considered less desirable than transmitting the coded signal over conductors of electrical cable. Thus, it would be desirable to use a modified garage door type remote transmission and reception unit so a lower frequency signal was transmitted over conductors of electrical cable 12. This would avoid a problem of radio frequency transmissions that trailer brakes could be released by a hand-held transmitter or by the transmitter of a tractor near to, but not connected to, the trailer.
Another form of the invention for deterring theft comprises a card reader operated transmitter 22 in which the driver operated device 21 is a card reader of the type disclosed in U.S. Patent No. 5,871,435 and which is generally known in the art. In a manner known in the art, the data on a magnetic strip card would be read and, if such data indicated an authorized operator, then a suitably coded digital signal would be sent over conductors of cable 12 to receiver 18. Such technology is well known in the employee attendance and time accounting art and elsewhere and will not be described in detail here.
Numerous other possibilities for communicating a coded signal to receiver 18 as discussed above are available. Another example of using well-known technology is the use of a telephone touch tone keypad at the transmitter and a touch tone decoder at the receiver 18. In such case, the signal would be transmitted over two of the conductors of cable 12 which may be unused conductors or conductors which are also used for transmission of DC current to the lighting circuits. Mobil communication terminal 20 may send data in modem-like format to 2 0 transceiver 22A or transmitter 22 and thence to transceiver 8A or receiver 18. It will be seen that the desirable attributes of having a transmitter of special characteristics in the cab and utilizing the electrical cable 12 for transmission of coded signals to receiver 18 can be accomplished in a variety of different ways utilizing known techniques taken from the communication and other arts.
Considering now the actions that may be required of an authorized driver operating an authorized tractor in connecting to and releasing the brakes of a trailer equipped with the theft prevention system according to the invention, it will first be noted that all actions required of the driver in addition to the normal hookup are performed in the cab. Assuming that the driver operated control of the transmitter in the cab is a magnetic strip card reader, and the running or marker lights of the trailer are the electrical circuit selected to power the receiver and the solenoid valve, then the following actions need to be taken.
The normal hookup procedures, including connecting air hoses and electrical cable are performed in the normal manner. The marker or running lights are turned on from the tractor cab, and any brake release procedure required in the cab is performed. The driver takes a designated appropriate magnetic strip card and inserts it in or wipes it through the magnetic card reader of the transmitter. Alternatively, the card reader could be replaced with a fingerprint reader, a retina scanner or other known security device.
These actions will send a coded signal to the receiver in the trailer while the pressure from the tractor is applied to the parking air supply line, thus latching open the solenoid valve to apply and maintain pressure in the parking brake air line to release the parking brakes and keep them in the released position as long as pressure is received from the tractor.
Thus it will be seen that in this example virtually the only extra steps required by the driver are to turn on some trailer lights and pass a magnetic strip card through a reader to unlock 2 0 the anti-theft system and proceed with the trailer in tow. In many cases the magnetic strip card used by the driver may be a magnetic strip card provided by the company to drivers and/or other employees for use in other company procedures.
In addition to or inst gad of the magnetic strip card reader authorization technique, the driver may employ the rf;mote terminal computer and keyboard to send a coded signal to the trailer. This coded signal may be supplied over the satellite network or other network from a central communication center. The same or similar security measures will be employed regarding the implementation of the drop yard feature by the appropriate signal code.
In addition to the modifications and variations to the invention that have been shown, described, or suggested, other variations and modifications will be apparent to those of skill in the art and, accordingly, the scope of the invention is not to be limited to those specific variations and modifications disclosed but is to be determined by reference to the appended claims.
Claims (16)
What Is Claimed Is:
1. In a tractor-trailer transport vehicle having a tractor with a cab, a trailer, electrical cables and connectors therebetween, said tractor having an air pressure operated brake system with air pressure supply means and a parking air supply line to a parking brake air line of said trailer, a safety and security system comprising:
a control element installed in said cab;
a digital signal transmitter responsive to said control element installed in said cab;
a signal receiver in said trailer adapted to detect selected binary-coded signals communicated from said transmitter through said electrical cables and produce at least one electrical control signal output;
said control element being adapted to receive operator commands and to enable activation of said digital signal transmitter to send specified digital signals to said signal receiver;
a solenoid valve in said trailer activated by output from said signal receiver to open a closed valve from said parking brake air line to said parking air supply line;
whereby the parking brakes of said trailer are prevented from releasing by normal operation of controls in a cab of a tractor connected to the trailer unless an appropriate digital signal is transmitted from a cab-installed transmitter under control of said control element.
a control element installed in said cab;
a digital signal transmitter responsive to said control element installed in said cab;
a signal receiver in said trailer adapted to detect selected binary-coded signals communicated from said transmitter through said electrical cables and produce at least one electrical control signal output;
said control element being adapted to receive operator commands and to enable activation of said digital signal transmitter to send specified digital signals to said signal receiver;
a solenoid valve in said trailer activated by output from said signal receiver to open a closed valve from said parking brake air line to said parking air supply line;
whereby the parking brakes of said trailer are prevented from releasing by normal operation of controls in a cab of a tractor connected to the trailer unless an appropriate digital signal is transmitted from a cab-installed transmitter under control of said control element.
2. Apparatus as recited in claim 1 wherein said signal receiver is supplied with power through said electrical cables.
3. Apparatus as recited in claim 1 wherein said solenoid valve includes a locking element responsive to another said electrical control signal to hold said valve in an open position in absence of high air pressure in said parking brake air line.
4. Apparatus as recited in claim 3 wherein said signal receiver is supplied with power through said electrical cables for operation and for sending a control signal output to activate said solenoid.
5. Apparatus as recited in claim 2 wherein digital signals from said transmitter are transmitted to said signal receiver over one or more conductors of said electrical cables.
6. Apparatus as recited in claim 1 wherein said receiver also has transmitter capabilities and transmits data related to conditions of said trailer to said control element.
7. Apparatus as recited in claim 6 wherein said signal receiver is supplied with power through said electrical cables for operation and for sending data through said cables back to said cab and control element.
8. Apparatus as recited in claim 1 wherein said solenoid valve includes a latch element responsive to high pressure air in said parking brake line to hold said normally closed valve in an open position in response to a predetermined minimum air pressure in said parking brake air line.
9. Apparatus as recited in claim 8 wherein said solenoid valve includes a locking element responsive to another said electrical control signal to hold said valve in an open position in absence of high air pressure in said parking brake air line.
10. Apparatus as recited in claim 9 wherein said signal receiver is supplied with power through said electrical cables.
11. In a tractor trailer transport vehicle having a tractor with a cab, a trailer and said tractor having an air pressure operated brake system with air pressure supply means and a parking air supply line to a parking brake air line of said trailer, a safety and security system comprising:
a digital coded signal transmitter installed in said cab;
a signal receiver in said trailer adapted to detect selected digital signals from said transmitter and produce at least two different electrical control signal outputs in response thereto;
at least one valve in said trailer responsive to be activated by output from said signal receiver and adapted to open a fluid path from said parking brake air line to said parking air supply line;
a locking element controllable to hold at least one of said at least one valve in an open position without high pressure air in said parking brake line.
a digital coded signal transmitter installed in said cab;
a signal receiver in said trailer adapted to detect selected digital signals from said transmitter and produce at least two different electrical control signal outputs in response thereto;
at least one valve in said trailer responsive to be activated by output from said signal receiver and adapted to open a fluid path from said parking brake air line to said parking air supply line;
a locking element controllable to hold at least one of said at least one valve in an open position without high pressure air in said parking brake line.
12. Apparatus as recited in claim 11 wherein signals from said transmitter are transmitted to said signal receiver over one or more conductors of electrical cables between said cab and said trailer.
13. Apparatus as recited in claim 12 wherein there is a control element for said transmitter and signals from said transmitter are transmitted to said signal receiver over one or more conductors of electrical cables between said cab and said trailer.
14. Apparatus as recited in claim 13 wherein said receiver also has transmitter capabilities and transmits data related to conditions of said trailer to said control element.
15. Apparatus as recited in claim 11 wherein said locking element responsive to a second specified electrical control signal from said signal receiver.
16. Apparatus as recited in claim 11 wherein at least one valve includes at least one latch element responsive to high pressure air in said parking brake line to hold said normally closed valve in an open position in response to a pre-determined minimum air pressure in said parking brake air line.
Applications Claiming Priority (5)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| US09/454,236 | 1999-12-02 | ||
| US09/454,236 US6338534B1 (en) | 1999-12-02 | 1999-12-02 | Theft prevention system for trailers |
| US09/652,233 US6367888B1 (en) | 1999-12-02 | 2000-08-29 | Theft prevention system for trailers with drop yard feature |
| US09/652,233 | 2000-08-29 | ||
| PCT/US2000/042300 WO2001044030A2 (en) | 1999-12-02 | 2000-11-28 | Theft prevention system for trailers with drop yard feature |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CA2390039A1 true CA2390039A1 (en) | 2001-06-21 |
Family
ID=27037382
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA002390039A Abandoned CA2390039A1 (en) | 1999-12-02 | 2000-11-28 | Theft prevention system for trailers with drop yard feature |
Country Status (4)
| Country | Link |
|---|---|
| US (1) | US6367888B1 (en) |
| AU (1) | AU4306601A (en) |
| CA (1) | CA2390039A1 (en) |
| WO (1) | WO2001044030A2 (en) |
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| US6402261B1 (en) * | 1999-12-20 | 2002-06-11 | Cargo Safe, Inc. | Cargo trailer anti-theft system |
| WO2003039924A2 (en) * | 2001-11-09 | 2003-05-15 | Regents Of The University Of California | Apparatus and method for stopping a vehicle |
| WO2012125726A1 (en) | 2011-03-14 | 2012-09-20 | Intelligent Technologies International, Inc. | Cargo theft prevention system and method |
| CA2392326A1 (en) * | 2002-07-03 | 2004-01-03 | Newtrax Technologies Inc. | Monitoring system and method |
| US20040055345A1 (en) * | 2002-09-24 | 2004-03-25 | Moore Gregory B. | Door lock system for trailers and cargo containers |
| JP3718776B2 (en) * | 2003-02-12 | 2005-11-24 | インターナショナル・ビジネス・マシーンズ・コーポレーション | Information processing apparatus and rotation control apparatus |
| CA2516764C (en) * | 2003-02-24 | 2011-09-06 | Bendix Commercial Vehicle Systems Llc | Electro-pneumatic latching valve system |
| US20050062344A1 (en) * | 2003-09-24 | 2005-03-24 | Holt John P. | Trailer locking system |
| WO2005056351A1 (en) * | 2003-12-08 | 2005-06-23 | Lameki Julian Ndzengu | Vehicle security system |
| US20070063582A1 (en) * | 2003-12-15 | 2007-03-22 | Bryar Barry J | Trailer isolator assembly |
| US7121634B2 (en) * | 2004-06-09 | 2006-10-17 | Arvinmeritor Technology, Llc | Pneumatically actuated parking brake |
| DE102004029821A1 (en) * | 2004-06-19 | 2006-01-05 | Daimlerchrysler Ag | Theft protection system for lorry tractor with semi-trailer has access controllers for separately unblocking interlock device and releasing interruption of data line |
| GB2417764B (en) * | 2004-09-03 | 2009-03-11 | Knorr Bremse Systeme | Trailer brake system |
| US7354118B2 (en) * | 2005-02-25 | 2008-04-08 | Bendix Commercial Vehicle Systems, Inc. | Control valve system |
| CA2566766A1 (en) * | 2005-11-07 | 2007-05-07 | Gerry Cayer | Air brake safety device |
| FR2897969B1 (en) * | 2006-02-28 | 2011-06-10 | Ldl Technology | DEVICE FOR BI-DIRECTIONAL CONNECTION, IN PARTICULAR BETWEEN A TRAILER AND ITS TRACTOR AND A WORKING METHOD |
| SG136831A1 (en) * | 2006-04-26 | 2007-11-29 | Be At Technology Pte Ltd | Locking device for a trailer |
| US7746228B2 (en) * | 2006-06-12 | 2010-06-29 | Sensenig Tim R | Passive container tracking device, system, and method |
| US20080093182A1 (en) * | 2006-10-04 | 2008-04-24 | Bernhardt Goettker | Apparatus and Method for Connecting Hydraulic Brake Lines to Brake Assemblies on Towed Trailers |
| US8330575B2 (en) | 2006-10-31 | 2012-12-11 | Renault Trucks | Keyless access system and method for a truck and truck equipped with such a system |
| DE102007038472B4 (en) * | 2007-08-14 | 2009-04-23 | Knorr-Bremse Systeme für Nutzfahrzeuge GmbH | Valve arrangement for controlling a brake system of a trailer vehicle |
| DE102008011835B4 (en) * | 2008-02-27 | 2010-04-22 | Jost-Werke Gmbh | Anti-theft device for a vehicle clutch |
| DE102008040337B4 (en) | 2008-07-10 | 2010-08-19 | Jost-Werke Gmbh | Einbremsautomatik |
| US20100127561A1 (en) * | 2008-11-27 | 2010-05-27 | Robert Stephen Bell | Remote trailer brake activator |
| US8376472B1 (en) * | 2009-10-19 | 2013-02-19 | Erik H. Hoffer | Permanent air locking mechanism |
| SG192042A1 (en) * | 2011-01-18 | 2013-08-30 | Barry John Bryar | Vehicle control system and method |
| US8602506B2 (en) * | 2011-09-30 | 2013-12-10 | Frank Sittnick | Air brake locking device and system |
| US9381895B1 (en) * | 2012-12-07 | 2016-07-05 | Randall H. SMATHERS | Parking brake safety system |
| DE102012023974A1 (en) | 2012-12-07 | 2014-06-12 | Wabco Gmbh | Method, system and control device for operating an immobilizer for trailer vehicles |
| US10023158B2 (en) | 2015-11-12 | 2018-07-17 | Michael Coffey | Anti-theft vehicle brake |
| US10377362B2 (en) * | 2016-04-11 | 2019-08-13 | Peter Posta | Braking control system for a trailer |
| US11820352B2 (en) | 2020-01-30 | 2023-11-21 | Orange Ev Llc | Remote caging apparatus and system for brakes |
| DE102021000727A1 (en) * | 2021-02-12 | 2022-08-18 | Daimler Truck AG | Method for locking and releasing a security device of a vehicle clutch, anti-theft system and vehicle |
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| ZA938323B (en) | 1992-11-24 | 1994-08-01 | Qualcomm Inc | Tractor-trailer electronic transmission path |
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| JPH09117695A (en) | 1995-10-26 | 1997-05-06 | Hitachi Koki Co Ltd | Centrifuge |
-
2000
- 2000-08-29 US US09/652,233 patent/US6367888B1/en not_active Expired - Fee Related
- 2000-11-28 AU AU43066/01A patent/AU4306601A/en not_active Abandoned
- 2000-11-28 CA CA002390039A patent/CA2390039A1/en not_active Abandoned
- 2000-11-28 WO PCT/US2000/042300 patent/WO2001044030A2/en active Application Filing
Also Published As
| Publication number | Publication date |
|---|---|
| WO2001044030A2 (en) | 2001-06-21 |
| US6367888B1 (en) | 2002-04-09 |
| WO2001044030A3 (en) | 2002-02-07 |
| AU4306601A (en) | 2001-06-25 |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| FZDE | Discontinued |