Search Images Maps Play YouTube News Gmail Drive More »
Sign in
Screen reader users: click this link for accessible mode. Accessible mode has the same essential features but works better with your reader.


  1. Advanced Patent Search
Publication numberUS3876973 A
Publication typeGrant
Publication dateApr 8, 1975
Filing dateMar 13, 1973
Priority dateMar 13, 1973
Publication numberUS 3876973 A, US 3876973A, US-A-3876973, US3876973 A, US3876973A
InventorsGriebel William C
Original AssigneeGriebel William C
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Method and apparatus for deterring wrong way drivers
US 3876973 A
Abstract  available in
Previous page
Next page
Claims  available in
Description  (OCR text may contain errors)

United States Patent [1 1 Griebel [451 Apr. 8, 1975 METHOD AND APPARATUS FOR DETERRING WRONG WAY DRIVERS [76] Inventor: William C. Griebel, 291 Portwind PL, St. Louis, Mo. 63011 [22] Filed: Mar. 13, 1973 [21] App]. No.: 340,705

[52] U.S. C1 340/45; 49/49; 340/31 R [51] Int. Cl G08g l/02 [58] Field of Search 340/45, 31 R, 22, 114 B 2,741,859 4/1956 Castle 49/49 3,266,013 8/1966 Schmidt.... 340/31 R 3,325,782 6/1967 Der 340/31 R 3,389,677 6/1968 Dunne 116/114 3,606,258 9/1971 Fitch 404/6 3,626,638 12/1971 Lafferty 49/49 Primary E.\'aminerl(ath1een H. Claffy Assistant Examiner-Randa11 P. Myers Attorney, Agent, or FirmRogers, Ezell & Eilers [57] ABSTRACT A method and apparatus for deterring wrong-way drivers by providing a barrier member across a oneway thoroughfare at an acute angle to the direction of traffic flow, the barrier being of sufficient height to contact the automobile tires of wrong-way drivers and to deflect the same, thereby deflecting wrong-way motor vehicles into a suitable traffic reception area.

13 Claims, 6 Drawing Figures REEWAY RIGHT WAY WRONG WAY lfi REEWAY m6 HT WAY REEWAY WRONG WAY METHOD AND APPARATUS FOR DETERRING WRONG WAY DRIVERS SUMMARY OF THE INVENTION The present invention relates to driving safety and particularly to a method and apparatus for deterring motor vehicles from traveling the wrong-way on one way thoroughfares.

Wrong-way driving has long been a serious problem on American highways. For example, wrong-way accidents have been reported as accounting for about 6 percent of the fatalities on California highways. Wrongway driving accidents occur predominantly at night. and predominantly involve drivers who have been drinking.

1. AC. Estep, Wrong Wu Drii'ing ()n (ll/(Ibrniu l l'tl'll'tljlt Ml-I972 (Presentation at American Association of State Highway Officials. I972 Summer Meeting of the Operating Sub-committee on Traffic Engineering, July lo, l8, I972 at Dearborn. Michigan.)

Many devices have been tested in an effort to reduce or eliminate wrong-way driving accidents. In one method, for example, a one-way thoroughfare was provided across its width with upwardly extending spikes adapted to puncture the tires of wrong-way drivers. This apparatus, however, reportedly did not effectively disable an automobile traveling at speeds above about miles an hour. Further, it was reported that at speeds of miles an hour or more, right-way drivers could not tell whether the spikes were pointed towards them or away from them. Another device involved a movable barrier across the highway into which wrongway motor vehicles would crash. Although such a device might prevent wrong-way driving, it would none theless cause severe damage to wrong-way vehicles and their occupants. A third, and continuing, method involves the use of various signs and devices having flashing lights, the latter being energized by detection of a wrong-way vehicle. Such a detection device, which em ploys pneumatic tubes extending across the thoroughfare, is described in the previously mentioned Estep report. Flashing lights and signs, however, are apt to confuse or be ignored by drunk drivers, and this method of deterring wrong-way drivers accordingly has serious drawbacks.

It is an object of the present invention to provide a deterrent to wrong-way drivers which is positive acting and causes minimal, if any, damage to wrong-way vehicles and their occupants.

It is another object of the invention to provide a positive-acting, wrong-way vehicle deterrent which is simple in operation and which can be inexpensively produced and installed.

It is another object of the invention to provide an apparatus for preventing passage of a wrong-way vehicle on a one-way thoroughfare which does not interfere with the passage of right-way traffic and which is rendered inoperative for deterring traffic in the event of a power failure.

Briefly, the present invention relates to an apparatus for deterring motor vehicles from traveling the wrongway on one-way thoroughfares. The apparatus includes a traffic deflection means having open and closed positions and which is capable, in the closed position, of deflecting wrong-way traffic from the one-way thoroughfare. A traffic reception area is positioned so as to receive the wrong-way traffic so deflected. The apparatus also includes control means which is capable of sensing the presence of wrong-way traffic and of energizing the traffic deflection means to cause the latter to assume its closed position.

REFERRING TO THE DRAWING FIG. I is a schematic representation of the intersection of a freeway thoroughfare with a two-lane thoroughfare, showing an apparatus of the invention in operative position;

FIG. 2 is a rear view of a portion of an apparatus of the invention in its open position as the same is mounted in position along a one-way thoroughfare;

FIG. 3 is a side view of the apparatus shown in FIG. 2;

FIG. 4 is a prospective view, shown partially broken away, of a portion of an apparatus of the invention, the movement thereof being shown in dotted lines;

FIG. 5 is a schematic representation of a one-way thoroughfare provided with a modified apparatus of the invention; and

FIG. 6 is a schematic representation of an embodiment of the device, in partial section, modified to fit flush with the roadway in its normal open position and to pivot upwardly to its closed position as shown in phantom lines.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS Referring now to FIG. I, the intersection l0 ofa freeway with eastbound lanes I2 and westbound lanes 14 with a north-south thoroughfare 16 is shown, the intersection being of admittedly poor design from a safety standpoint. Northbound traffic in lane 18 desiring to enter westbound freeway lanes 14 must cross over the dividing line in the north-south thoroughfare at point A and enter lane 20. Westbound freeway traffic desiring to exit south on the north-south freeway must use left hand exit lane 22 and hence must also cross over the dividing line in north-south thoroughfare 16 at point A. Particularly for the northbound traffic in lane 18, this intersection is most confusing since the northbound driver is apt to remain in the righthand lane 18 and thus enter freeway exit lane 22 going the wrong way.

In accordance with my invention, and with further reference to FIG. 1, a traffic deflector 30 is provided at an angle across lane 22, the deflector having opened and closed positions, as will be subsequently described. In its closed position, as shown in FIG. 1, the traffic deflector does not provide a barrier which positively stops the motion of the wrong-way motor vehicles which strike it. Instead, the traffic deflector of my invention operates to deflect, i.e change the direction of motor vehicles which come in contact therewith. As shown in FIG. 1, traffic moving in the direction of the arrow 32 in lane 22 will be deflected off the lane to the right, as shown by arrow 34. The thus-deflected traffic thereupon enters a traffie reception area 36, which may be at least partially bounded by fence 38, in which area the so-deflected traffic may come to a halt and may effect a turn-around, entering lane 22 in the correct (southerly) direction. In a preferred embodiment, that portion of the deflector which, in its closed position, is capable of contacting motor vehicles is at a height sufficient to contact the tires of such motor vehicles to cause the tires to turn, but yet is of insufficient height to contact and thus cause damage to the body of a motor vehicle. In its open position, the deflector of my invention permits traffic to pass without interruption.

The movement of wrong-way traffic into lane 22 is sensed by control means, represented as 40 in FIG. I. This control means may include a pair of pneumatic road tubes 42, 44 which are laid across the roadway of lane 22 so as to be run over by traffic using this lane. The direction of traffic is sensed by the sequence in which the pneumatic road tubes are struck, a wrongway (northerly) motor vehicle strikes tube 44 before tube 42, and an appropriate signal is generated in response thereto by controller 40. The pneumatic tubes and controller are referred to at page 21 of the Estcp presentation referred to above. Such devices have long been used as counters for monitoring traffic flow and also for the purpose of measuring the speed of passing motor vehicles, and need not be described here in detail. As mentioned. the controller 40 generates a predetermined electric signal when the pneumatic road tubes are struck in the sequence 44-42, and this signal is led to the traffic deflector 30, causing the latter to assume its closed position. The signal generated by controller 40 may also be employed to illuminate signs 46 in an effort to halt a wrong-way motor vehicle before it comes into contact with deflector 30.

Referring now to FIGS. 2 and 3, the traffic deflector 30 may be provided with a longitudinal barrier member shown generally as 48, the latter including a first rigid, break-resistant longitudinal member 50 which may be of steel or other strong material tapered along its length from its butt end 52 to its extending end 54, and a second longitudinal member 55 longitudinally connecting along a portion of the length of rigid member 50 by means of rivets or the like at 56 and 58, the second member 55 being sufficiently resilient to at least partially cushion the impact of automobile tires with the deflector 30. As such, longitudinal member 55 may be of spring steel or other appropriate material, and is preferably provided with a tire-contacting outer surface 60 which is a low friction surface so as to reduce friction between it and rubber motor vehicle tires. I contemplate the use of a polished steel surface, or a surface coated with a lubricant such as a grease or other material. Members 50 and 55 may be bent in dog- Ieg fashionas shown at 61 and 63, FIG. 3 so that the tire-contacting surface 60 of member 55 is of tirecontacting height (e.g., 6-12 inches) when the defector is in the closed position. Longitudinal member 50 is supported at a point near its butt end 52 by shaft 62 which in turn is connected through reducing gears 64 and 66 to motor and clutch assembly 68. Shaft 62 is rotatably supported by vertical, heavy frame members 70 and 72 which in turn are rigidly attached to steel support members 74 and 76, the latter member being affixed to the ground by means of cemented-in posts or the like (not shown). Attached across one edge of vertical frame members 70 and 72 is a steel plate 78 which in turn bears bracket 80 having an upper surface to which is connected the motor-clutch assembly 68. Also supported on plate member 78 is timing device 82, the purpose for which will be subsequently explained. A protective housing (not shown) is provided about the drive mechanism which includes gears 64 and 66, motor-clutch assembly 68, plate support member 78, timing device 82 and associated electrical connections.

At its butt end 52, longitudinal member 50 is provided with weighting material such as iron block 84 of sufficient weight to urge longitudinal member 50 to pivot about shaft 62 into the open position as depicted in FIGS. 2 and 3.

Clutch and motor assemblies such as represented by 68 in FIGS. 2 and 3 are known to the art. For example, it is contemplated that a Model 305 Stationary Field Bearing Mounted Pin Drive Clutch-Coupling and Clutch such as that marketed by Eaton Yale & Towne, Inc. of Kenosha, Wis. may be coupled to a A horsepower, 1750 rpm electric motor through an appropriate spced reducer such as a size 22 Cleveland Type AB Modular Worm Gear Speed Reducer manufactured by the Eaton Corporation of Cleveland, Ohio. The sodescribed clutch couples (i.e., transmits motion of) the drive motor to shaft 62 only when energized by an electrical current; in the absence of current, barrier member 48 is accordingly able to pivot freely, and will normally assume the open position under the influence of iron block 84. Thus, in the event of a power failure at a moment when the deflector is in the closed position, the clutch will become disengaged and barrier member 48 will return to its upright, open position under the influence of iron block 84.

Timing switch 82, mounted upon plate support member 78, is provided to limit the time period during which barrier member 48 may remain in its closed position. Upon reception by timing switch 82 of a predetermined signal from the controller 40 indicating the approach of a wrong-way vehicle, the timing switch provides current to the motor-clutch assembly 68, thus turning on the motor and engaging the clutch whereupon barrier member 48 is quickly lowered into the closed position. After a pre-determined time interval has elapsed (e.g., 5-10 seconds) timing switch 82 discontinues current to the motor-clutch assembly, whereupon barrier member 48 is quickly returned to the upright, open position by weighting material 84. Timing switch 82 may be, for example, of the type presently employed in the operation of traffic control lights. If a timing switch is employed which is unable to tolerate the electric energy required to energize motor-clutch assembly 68, then a suitable solenoid switch between the motor-clutch assembly and line power may be employed, the switch being controlled by the output of timing switch 82.

Referring again to FIG. 1, the drive assembly and supporting frame structure 86 is mounted at one edge of lane 22 so that barrier member 48, when in a closed position, extends across lane 22 at an angle oblique to a line normal to the direction of traffic flow in lane 22. The closer this angle approaches 90, the more easily will the tires of a wrong-way motor vehicle be deflected so as to divert the vehicle into traffic reception area 36. As this angle approaches 90, however, the length of barrier member 50 must increase in order to extend across the lane. It is contemplated that this angle must not, be less than about 45 nor more than about FIG. 5 depicts another embodiment wherein the barrier member 48 is curved so as to present a concave surface to oncoming wrong-way drivers. Thus the angle subtended by the barrier member 50 with respect to a line normal to the direction of traffic flow in lane 22 increases as the barrier extends-from the lane edge adjacent the traffic reception area to the other lane edge. Thus, the left front tire of a wrong-way motor vehicle would first contact the barrier member at the point represented by X in FIG. 3, and would be continously deflected to sharper angles as this tire is guided along the barrier member towards point Y, thereby to more gently deflect the motor vehicle from the lane.

Referring now to FIGS. 1, 4 and 5, the extending end 54 of the barrier member 48 contacts retaining mem ber 88 when the barrier member has attained its closed position, barrier member 88 being positioned on the other side of the thoroughfare and a suitable distance upstream (with respect to wrong-way drivers) from the drive assembly 86. In one embodiment, a projection 92 arises from the downstream portion of the upper surface 90 of the retaining member (downstream with respect to wrong-way traffic) so as to provide a step-like surface adapted to engage extending end 54 of the barrier member 48. When the barrier member is in its closed position, projection 92 serves to prevent extending end 54 of the barrier member from being moved when the barrier member is struck by a wrong-way motor vehicle. On the other hand, should the situation arise wherein a right-way vehicle strikes'the barrier, extending end 54 may be disengaged from the retaining member 88 by sliding across upper surface 90. In this respect, it it contemplated that ground plates 74 and 76 (FIGS. 2 and 3) may be adapted to pivot one upon the other so that barrier member 48, when struck by a rightway vehicle, may cause the traffic deflector to pivot about a verticle axis extending through ground plates 74 and 76, thus removing the barrier member 48 from the lane of traffic. In another embodiment, the longitudinal members 50 and 55 may be suitably hinged along their length adjacent the connection thereof with shaft 62 so that these barrier members may only pivot on such hinges out of lane 22 when struck by right-way vehicles, such hinges not permitting pivoting when such members are struck from the opposite direction by wrong-way drivers. In its closed position, the height of barrier member 55 is adjusted so that the barrier will preferably contact the tires but not the body of vehicles striking it, a distance, for example, of about 6-12 inches.

Although described primarily with reference to a barrier member capable of pivoting into and out of the roadway about a horizontal axis (shaft 62), it will be understood that my invention is applicable as well to other deflection devices adapted to assume open and closed positions across a traffic thoroughfare. In another embodiment, shown in FIG. 6, a suitable barrier member 50 may extend obliquely across a thoroughfare as described above, the barrier itself, when in its open position, being flush with the roadway surface 94 and being adapted to pivot about appropriate horizontal hinges to assume an upright closed position when energized by signals from the control means. Further, with reference to the apparatus depicted in FIGS. 1-5 hereof, it should be understood that the drive assembly 86 of the apparatus need not be located downstream with respect to the direction of wrong-way drivers, but instead may be upstream. In FIG. 2, the resilient barrier member 55 is depicted as containing an outwardly extending curve or hump in the vicinity of the drive assembly 86. When the device of FIG. 2 is positioned as depicted in FIG. 1, the outwardly curved surface of resilient barrier member 55 is the last portion of the barrier member which is encountered by the tires of a motor vehicle as the motor vehicle leaves the highway".

This outwardly curved suface is provided to further protect the frame members and the drive assembly from contact with the thus-deflected motor vehicle.

It is to be understood that the foregoing description and the accompanying drawing have been given by way of illustration and example. It is also to be understood the changes in form of the elements or steps, rearrangement of parts or steps, and substitution of equivalent elements or steps, which will be obvious to those skilled in the art, are contemplated as within the scope of the present invention which is limited only by the claims which follow.

What is claimed is:

1. An apparatus for deterring motor vehicles from traveling the wrong-way on one-way thoroughfares which comprises a. traffic deflection means having open and closed positions, said open position permitting traffic to pass without interruption, and said closed position preventing the passage of wrong-way traffic by de fleeting the same from said thoroughfare, said traffic deflection means remaining normally in said open position until energized into said closed position by reception of a predetermined signal, the traffic deflection means having a longitudinal barrier member which, in said closed position, extends across said thoroughfare at an angle oblique to a line normal to the direction of traffic flow on said thoroughfare, and at a height sufficiently high to cause contact thereof with motor vehicle tires so as to force the same to turn and thus deflect said vehicle from said thoroughfare, but at a height sufficiently small to substantially avoid contact with the leading body structure of motor vehicles;

b. a traffic reception means in a location to receive wrong-way traffic so deflected by said traffic deflection means and capable of permitting said traftie to turn around and re-enter said thoroughfare in the correct direction; and

c. control means for controlling the position of said traffic deflection means, said control means being capable of sensing the presence of wrong-way traffic, of generating a predetermined signal in response thereto, and of sending said signal to said traffic deflection means to cause the latter to assume said closed position.

2. The apparatus of claim 1 including timing means for limiting to a predetermined time period the interval during which said traffic deflection means remains in said closed position.

3. The apparatus of claim ll including means moving said traffic deflection means into said closed position in response to said predetermined signal.

4. The apparatus of claim 3 including means for returning said traffic deflection means to its open position in the event of malfunction while in the closed position.

5. The apparatus according to claim 1 wherein said longitudinal barrier member includes a rigid, breakresistant, longitudinal member and a resilient longitudinal member longitudinally connected along a major portion of the length of said first member, said second member being adapted to contact tires of motor vehicles when said traffic deflection means is in its closed position and being sufficiently resilient to at least partially cushion the impact of automobile tires with said traffic deflection means.

6. The apparatus of claim 1 including first and second support means, said first support means being mounted at one edge of said thoroughfare and having said longitudinal barrier member pivotally connected adjacent one end thereof to said first support menas, said second support means being mounted to the other edge of said thoroughfare in position to contact the other end of said barrier member to restrain the same from horizontal movement in at least one direction upon impact of said barrier member with automobile tires.

7. The apparatus of claim 6 wherein said pivotal attachment of said longitudinal barrier member to said first support means enables said barrier member to attain a horizontal, closed position or a substantially vertical, open position.

8. The apparatus of claim 7 including drive means mounted to said first support member and adapted to move said barrier from said open to said closed position.

9. The apparatus according to claim 8 wherein said longitudinal barrier member includes weighting means carried by an end of said longitudinal barrier member adjacent said first support and adapted to urge said member to assume its open position, said apparatus including a motor and clutch means operatively coupling said motor and said-barrier member and adapted to transmit motion from said motor to said barrier member only when energized, whereby, in the event of a r 8 fare includes a groove thereacross wherein is pivotally mounted said longitudinal barrier member, said barrier member in its closed position being flush with the surface of said thoroughfare and in its open position extending upwardly from the surface of said thouroughfare.

12. Apparatus for deterring motor vehicles from traveling the wrong-way on one-way thoroughfares which comprises a. traffic deflection means having open and closed positions and capable, in said closed position, of deflecting wrong-way traffic from said thoroughfare at an angle oblique to a line normal to the direction of traffic flow on said thoroughfare; and

b. control means capable of sensing the presence of wrong-way traffic and, in response thereto, energizing said traffic deflection means to cause the latter to assume said closed position.

13. A method of deterring motor vehicles from traveling the wrong way on one-way thoroughfares, comprising providing a longitudinal barrier member capable of assuming open and closed positions in response to predetermined signals derived from a traffic sensor, generating a signal in the traffic sensor in response to wrong-way traffic, transmitting the signal to the barrier,

moving the barrier from an open position to a closed position. at an oblique angle to a line normal to the direction of traffie flow along said thoroughfare and positioning the barrier at a heighth sufficient to cause the barrier member to engage automobile tires to physically turn the same and deflect said motor vehicle from said thoroughfare into a traffic reception area in response to these signals.

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US1600987 *Apr 16, 1925Sep 28, 1926Southern Manganese Steel CompaShredder ring for pulverizing machines
US1652186 *Aug 12, 1922Dec 13, 1927Strauss Joseph BYielding barrier for vehicles
US1929859 *May 17, 1932Oct 10, 1933Strauss Joseph BPhoto-electric cell controls for highway barriers
US2741859 *Jun 21, 1951Apr 17, 1956Richard H HallstedCoin operated flush mounted vehicle barrier
US3266013 *Apr 24, 1964Aug 9, 1966Schmidt Lothar V BFreeway safety device
US3325782 *Jan 11, 1965Jun 13, 1967Der NicholasTraffic control system
US3389677 *Dec 16, 1966Jun 25, 1968Leo J. DunneTraffic control device
US3606258 *Jan 2, 1969Sep 20, 1971Fibco IncEnergy absorbing deceleration barriers
US3626638 *Aug 5, 1970Dec 14, 1971Lafferty Edward J WWrong-way traffic safety barrier
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US4320380 *Jul 22, 1980Mar 16, 1982Devices Development CorporationElectronically controlled safety mechanism for highway exit ramp
US4360796 *Mar 9, 1981Nov 23, 1982Shocknesse Ronald LRegister-gate system
US4893119 *Sep 8, 1987Jan 9, 1990Nasatka Barrier, Inc.Method and apparatus for operating a vehicle barricade
US4989835 *Apr 15, 1988Feb 5, 1991The United States Of America As Represented By The United States Department Of EnergyVehicle barrier
US7098807 *Nov 19, 2003Aug 29, 20069076-0935 Quebec Inc.Traffic-signaling system
US8838370 *Mar 9, 2009Sep 16, 2014Empire Technology Development LlcTraffic flow model to provide traffic flow information
US8965617 *Feb 20, 2012Feb 24, 2015Aisin Aw Co., Ltd.Driving support system, driving support method and computer program
US9024787Sep 18, 2013May 5, 2015Lenovo Enterprise Solutions (Singapore) Pte. Ltd.Controlling vehicular traffic on a one-way roadway
US9105188Sep 20, 2013Aug 11, 2015Lenovo Enterprise Solutions (Singapore) Pte. Ltd.Controlling vehicular traffic on a one-way roadway
US20050102872 *Nov 19, 2003May 19, 2005Marc-Andre SeguinTraffic-signalling system
US20100228467 *Mar 9, 2009Sep 9, 2010Andrew WolfeTraffic Flow Model to Provide Traffic Flow Information
US20130193275 *Jan 31, 2011Aug 1, 2013Stephen BainesRailroad crossing
US20130338850 *Feb 20, 2012Dec 19, 2013Aisin Aw Co., Ltd.Driving support system, driving support method and computer program
CN104361757A *Nov 28, 2014Feb 18, 2015叶维Intelligent traffic control system with embedded string lights
DE2900822A1 *Jan 11, 1979Jul 24, 1980Gerhard Prof Dr Ing WickertAlarm system preventing vehicle driver from entering wrong lane - using correct direction detector to trigger warning system when incorrect lane is approached
DE3019405A1 *May 21, 1980Nov 26, 1981Krimm AlfredElectronic disabling circuit for motor vehicles - disables vehicle when it attempts to enter motorway exit by activating relay in ignition circuit
DE3027739A1 *Jul 22, 1980Feb 11, 1982Sandor KovacsSignalvorrichtung fuer fahrzeuge, insbesondere fuer geisterfahrer
WO2001038644A1Nov 22, 2000May 31, 2001Armin HribernigDevice for impeding motor vehicles that travel on a road in a direction opposite to the prescribed direction of travel
U.S. Classification340/928, 49/49
International ClassificationG08G1/07, E01F13/00, E01F13/10
Cooperative ClassificationE01F13/10, G08G1/075
European ClassificationG08G1/07B, E01F13/10