EP1378296A2 - Extrusion device with dosage device - Google Patents

Abstract

Injecting machine for discharging a substance, especially a pneumatic injecting machine, comprises a housing (1), an injecting device (2) having an elongated injecting part (3) for storing and discharging the substance, and a dosing device (4) for selecting a dosing rate. The dosing device consists of a restoring device (10), an adjusting device (11) for adjusting the dosing rate, and a carrier part (12) interacting with the injecting part and moved by the restoring device from an end position into a starting position. The dosing device has a movement converter (13) which pivots the carrier part relative to the housing on movement of the injecting part in the longitudinal direction (L). Preferred Features: The movement converter has a twisting shaft (15) and a nut part (16) interacting with the twisting shaft. One of these parts is arranged on the carrier part and the other part on the injecting part.

Description

The invention relates to an extrusion device for dispensing a substance, in particular pneumatic dispenser, with a housing, one, an elongated extrusion having, squeezing device for storing and dispensing the substance, a metering device for preselecting a metered quantity to be dispensed by the squeezing device the substance and a trigger unit for actuating the squeezing device, wherein the dosing device is a reset device, an adjusting means for setting the dosing amount and a driver part which interacts with the pressing part and which can be moved from an end position into an initial position by the reset device and wherein the extrusion is movably mounted on the housing in the longitudinal direction.

Squeezing devices of the type mentioned above serve the metered application of a substance, for example from a cartridge or a tubular bag. The substance has, for example one or more components stored in one or more cartridges is. The squeezing device has a housing, a squeezing device and a metering device on. In the housing, for example, there is a receiving space for one or more Cartridges are provided from which the substance can be dispensed through the extrusion, in particular squeezable. In particular for given applications, for example chemical dowels, the amount of substance to be dispensed per Element, in particular a chemical anchor defined. The dosing device ensures a user of the dispensing device thereby the specified dosage amount precisely and time-saving, for example in a borehole. To adjust, especially Adjust, the dosing device has an adjusting means.

From US 5 020 693 is a pneumatic dispenser with a housing, one, one having elongated pressing part, pressing device for storing and dispensing the Substance, a metering device for preselecting a dispenser to be dispensed, Dosing quantity of the substance and a trigger unit for actuating the squeezing device, known. The metering device being a resetting device, an adjusting means for setting the dosing quantity and one that interacts with the extrusion Carrier part includes the return device from an end position into a Starting position is movable. The pressing part can be moved in the longitudinal direction on the housing stored and has several piston rods for pressing, for example one with the Substance filled cartridge. The metering device has at least one in the longitudinal direction of the extrusion slidably mounted on the housing stop by means of a clamping screw on the housing can be fixed.

A disadvantage of the known solution is that the screwable stop by the reset device shifted at least partially, and thereby the selected dosage can be changed.

Another disadvantage of the known solution is that the metering quantity is set is unwieldy and insufficiently precise due to the actuator.

The object of the present invention is an economically producible extrusion device to create, which ensures a precise and handy adjustment of the dosage and also prevents an unwanted change in the dosage.

According to the invention, the object is achieved in that the metering device has a motion converter has by the movement of the pressing part in the longitudinal direction thereof the driver part is pivoted relative to the housing.

The fact that the driver part pivots or by the movement of the pressing part a precise dosage is guaranteed. Depending on the application and general conditions the dispenser, especially the motion converter, must be designed so that there is a sufficiently precise dosage. Especially with smaller quantities, the Movement converter accordingly to the one to be covered by the pressing part Path and thus the rotational movement adapted to the pressed substance of the driver part safely. Advantageously pivoted or twisted Driver part by a certain angular amount, to a compact design of the squeezing device, to ensure in particular the metering device.

The motion converter advantageously has a swirl shaft and a swirl shaft cooperating, mother part, with one part on the driver part and the other part on Pressed part is arranged to produce the motion converter economically sure. Through a translational relative movement in the longitudinal direction to the pressed part of the nut part in relation to the swirl shaft, both parts turn against each other depending on the distance traveled by the extrusion, whereby the swirl shaft rotates or panned. By using, for example, a commercially available swirl wave and a corresponding nut part is an economical manufacture of the motion converter ensured.

The driver part has a rest stop and an end stop, the end stop serves to activate the reset device and the rest stop the starting position of the driver part defined. The angle of rotation between the rest stop and the dosing quantity determines the end stop. When squeezing out a dosing quantity of the substance through the squeezed part, the driver part moves from the starting position by swiveling or rotating movement up to the end stop. Depending on Conversion of the rotary motion by the motion converter into the translational motion of the pressed part, the pressed part sets a corresponding distance in the longitudinal direction thereof back in sync with the driver part. Activation of the reset device causes a rotation or pivoting of the driver part back to the starting position, without moving the pressing part in the longitudinal direction relative to the housing.

In order to ensure an economically producible dosing device that is handy the rest stop and the end stop preferably against each other by the actuator lockable rotatable and thus the dosing quantity adjustable.

The end stop is advantageously arranged on the driver part in order to be economical Manufacture of the dosing device and ensure a long service life.

Furthermore, the rest stop is preferably rotatably mounted in the housing in order to be handy and ensure precise adjustment of the dosing device.

Advantageously, the metering device has a wrap spring that passes through the adjusting part is rotatably mounted in the housing and acts as a counter-stop with the rest stop.

The wrap spring is preferably rotatable by the actuator under tensile load in order to to ensure that the rest stop of the driver part can be rotated easily and thus in a manageable manner. After twisting, the wrap spring fixes itself again Spring force, which leads to a radial expansion and thereby to a clamping of the Wrap spring leads. The wrap spring advantageously has a substantially cylindrical shape Outer contour and is stored in a hole in the housing.

Preferably, the wrap spring can be pressure-loaded in contact with the rest stop in order to a self-locking load due to the rest stop of the driver part and thereby an unwanted displacement of the rest stop relative to the housing prevent.

The motion converter advantageously has a pressure coupling that between the Pressed part and the driver part acts.

The pressure coupling preferably has a coupling shaft, a rotationally fixed on the coupling shaft Arranged coupling part and a mating coupling part that can be coupled with this on, wherein the counter-coupling part is rotatably connected to the driver part to a ensure economical manufacture of the pressure coupling.

The mating coupling part advantageously has one, at least in regions, with the Coupling part in contactable membrane, which is at least partially in a first Pressure chamber is stored. The fact that the pressure coupling is one in a pressure chamber Has mounted membrane is a clutch due to an overpressure in the pressure chamber to ensure the pressure coupling. Especially if it is a pneumatic dispenser this version is extremely advantageous.

Fig. 1

einen Längsschnitt der Dosiervorrichtung des Auspressgerätes;

Fig. 2

einen Querschnitt II-II der in Fig. 1 dargestellten Dosiervorrichtung;

Fig. 3

einen Querschnitt III-III der in Fig. 1 dargestellten Dosiervorrichtung;

Fig. 4

einen Querschnitt IV-IV der in Fig. 1 dargestellten Dosiervorrichtung.

The invention is explained in more detail below using an exemplary embodiment. Show it:

Fig. 1

a longitudinal section of the metering device of the squeezing device;

Fig. 2

a cross section II-II of the metering device shown in Fig. 1;

Fig. 3

a cross section III-III of the metering device shown in Fig. 1;

Fig. 4

a cross section IV-IV of the metering device shown in Fig. 1.

1 to 3 is an inventive squeezer for dispensing a substance, in particular pneumatic squeezing device, with a housing 1, one, an elongated Squeezing part 3 having squeezing device 2 for storing and dispensing the Substance and a dosing device, generally designated 4, for preselecting a partially to be dispensed by the squeezing device 2, the amount of substance shown.

The dosing device 4 comprises a reset device 10, an adjusting means 11 for setting the metered quantity and a driver part which interacts with the pressing part 3 12 by the reset device 10 from an end position to a starting position is movable. The translational movement of the pressing part 3 in the longitudinal direction L of the same converting into a rotational movement, the metering device 4 also has a Movement converter 13, which by the movement of the pressing part 3 in the longitudinal direction L same the driver part 12 pivoted relative to the housing 1, respectively twisted. The motion converter 13 has a swirl shaft 15 with a steep thread 14 and a nut part 16, which cooperates with the helical thread 14, the nut part 16 is rotatably arranged on the pressing part 3. The slope of the steep thread 14 is so great that a displacement of the working piston 6 of the pressing part 3 rotates the swirl shaft 15. This rotation or pivoting is always carried out in synchronism with the movement of the working piston 6. In order to transmit the rotary movement of the swirl shaft 15 to the driver part 12, Dosing device 4 has a pressure coupling 22 which is located between the pressing part 3 and the driver part 12 acts, in particular with the swirl shaft 13 and the driver part 12 cooperates. The driver part 12 has a rest stop 17 and an end stop 18, the end stop 18 being used to activate the resetting device 10 and the rest stop 17 defines the starting position of the driver part 12. The rest stop 17 and the end stop 18 can be locked against each other by the adjusting part 11 rotatable and thus adjustable, the end stop 18 and the rest stop 17 on Driver part 12 are arranged.

The pressing part 3, designed as a piston rod, is displaceable in the longitudinal direction L thereof stored in the housing 1. At a free end, the pressing part 3 has a working piston 6, which is firmly connected to the pressing part 3 and over its entire Has a plurality of sealing lips 7 on the outer circumference.

Furthermore, the metering device 4 has a cylindrical outer contour Wrap spring 20, which is rotatable by the adjusting part 11 in a bore 39 in the housing 1 is stored and cooperates as a counter-stop with the rest stop 17. The wrap feather 20 is rotatable by the actuator 11 under tensile load in contact with the rest stop 17 pressure loadable.

The pressing part 3 has a bore 30 running centrally in the longitudinal direction L for receiving the swirl shaft 15, which supported the working piston 6 through the rotationally fixed in the working piston 6 Mother part 16 passes through. Facing the working direction, it closes on the working piston 6 a pressure chamber 31 arranged in the housing 1 and having an inflow channel 32. By generating an overpressure in the pressure chamber 31, for example by connected to the inflow channel 32 by means of a trigger device (not shown here) operated pressure source, the working piston 6 is subjected to a force in the working direction A. and thereby moved in working direction A. The translational pointing in working direction A. Movement of the working piston 6, in particular of the pressing part 3, leads to Dispensing the substance and if the pressure coupling 22 in an engaged state is to pivot or twist the driver part 12 until through the end stop 18 the reset device 10 is activated.

The resetting device 10 has a torsion spring comprising two free ends 35a, 35b 35, which is fixed to the housing with a first end 35a and with the second end 35b is fixed on the driver part 12 and a vent valve 36 for venting the pressure chamber 31st

The pressure coupling 22 has a coupling shaft formed in one piece with the swirl shaft 15 23, a disc-shaped coupling part arranged in a rotationally fixed manner on the coupling shaft 23 24 and one, with this couplable mating coupling part 25, the mating coupling part 25 is rotatably connected to the driver part 12. The counter coupling part 25 encloses disc-shaped coupling part 24. The counter-coupling part 25 has the A can 26 on the working direction side, encapsulating one from the pressure chamber 31 Interior 12a forms, and on the opposite side a membrane 27. The Counter clutch part 25 is rotatable on in the disengaged state of the pressure clutch 22 the coupling part 24 stored. The counter coupling part 25 is in this way opposite the pressure chamber 31 sealed that an overpressure in the pressure chamber 31 from the atmosphere of the interior 12a to a frictional and / or positive pressure of the counter-coupling part 25, in particular the membrane 27 leads to the coupling part 24 and thereby the driver part 12 is rotatably coupled to the swirl shaft 15. The rotatable end stop 18 connected to the driver part 12 thus pivots with the driver part 12 until this activates the vent valve 36. Because of the pressure chamber 31 is vented, the pressure clutch 22 is in the disengaged state and the driver part 12 is returned to its starting position by the torsion spring 35, the swirl shaft 15 remains in the position because the swirl shaft 15 and the driving part 12 disengage are.

To adjust the metered quantity, the adjusting part 11 is rotated, in particular the rest stop 17 rotated, see in particular Fig. 3. The two-part actuator 11, with a first actuating part 11a and a second actuating part 11b, has a pin 38 (e.g. a Retaining screw), the longitudinal axis of which runs parallel to the longitudinal axis L of the pressing part 3 and screwed to the rest of the actuator 11. The pin 38 is free of the two and bent Ends 20a, 20b of the wrap spring 20 enclosed with play, so that this Twisting the actuator 11 turns slightly. Because the wrap spring 20 is screwed in, it rotates with the rotary movement of the actuator 11. Stops the rotary movement of the Actuator 11, the substantially cylindrical outer contour of the wrap spring expands 20 radially outwards and this lies in the recess 39 of the housing 1 frictionally and / or positively. The driver part 12 is by the return spring 20 biased against the, acting as a counterstop, wrap spring 20, the wrap spring 20 is in contact with the rest stop 17. By twisting the wrap spring 20, the driver part 12 is rotated relative to the housing 1 and thus the metered amount adjusted.

An activation position can be selected by turning the actuating part 11, in which the pressure clutch 22 is disengaged and thereby the metering device 4 and the metered amount is unlocked. For this purpose, the metering device 4 has a, generally designated 40 Activation device on.

For example, the unlocking device 40 on the second adjusting part 11b has a radial to Longitudinal axis L of the extrusion 3, transverse bore 41, an isolation valve 42 and an activation curve arranged on the housing 1 and interacting with the activation valve 42 43 on. By turning the control part 11, in particular the second control part 11b, in relation to the housing 1, the release valve 42 is displaced on the release curve 43. In an activation position, the activation curve 43 activates the activation valve 43 and thereby connects the interior 12a formed by the mating coupling part 25 of the pressure chamber 31. Thus, the interior 12a of the counter-coupling part 25 has approximately the same pressure as the pressure chamber 31 and thereby disengages the pressure clutch 22. The displacement of the pressing part 3 leads in this disengaged position of the pressure coupling 22 to no rotational movement or pivoting of the driver part 12. Advantageously the actuator has only one release position and the rest is for one Locked position used, in which the pressure chamber 31 from the interior 12a of the counter-coupling part 25 is separated by the closed release valve 42.

Claims (12)

Squeezing device for dispensing a substance, in particular pneumatic squeezing device, with a housing (1), a squeezing device (2) having an elongated squeezing part (3) for storing and dispensing the substance and a metering device (4) for preselecting one by the squeezing device (2) to be dispensed, the amount of substance to be dispensed, the metering device (4) comprising a reset device (10), an adjusting means (11) for adjusting the metered amount and a driver part (12) which interacts with the squeezing part (3) and which is actuated by the reset device (10) can be moved from an end position into a starting position and the pressing part (3) is mounted on the housing (1) so that it can be moved in the longitudinal direction (L), characterized in that the metering device (4) has a movement transducer (13) which can be moved through the movement of the pressed-out part (3) in the longitudinal direction (L) thereof pivots the driver part (12) relative to the housing (1). Squeezing device according to claim 1, characterized in that the movement transducer (13) has a swirl shaft (15) and a nut part (16) cooperating with the swirl shaft (15), one part on the driver part (12) and the other part on the squeezing part (3) is arranged. Squeezer according to claim 1 or 2, characterized in that the driver part (12) has a rest stop (17) and an end stop (18), the end stop (18) being used to activate the restoring device (10) and the rest stop (17) Starting position of the driver part (12) defined. Squeezing device according to claim 3, characterized in that the rest stop (17) and the end stop (18) can be rotated relative to one another by the adjusting part (11). Squeezer according to claim 3 or 4, characterized in that the end stop (18) is arranged on the driver part (12). Squeezing device according to one of claims 3 to 5, characterized in that the rest stop (17) is rotatably mounted in the housing (1). Squeezing device according to one of claims 3 to 6, characterized in that the metering device (4) has a wrap spring (20) which is rotatably mounted in the housing (1) by the actuating part (11) and acts as a counter-stop with the rest stop (17) , Squeezing device according to claim 7, characterized in that the wrap spring (20) can be rotated by the actuating part (12) under tensile load. Squeezing device according to claim 7 or 8, characterized in that the wrap spring (20) in contact with the rest stop (17) can be subjected to pressure. Squeezing device according to one of claims 1 to 9, characterized in that the movement converter (13) has a pressure coupling (22) which acts between the squeezing part (3) and the driving part (12). Squeezing device according to Claim 10, characterized in that the pressure coupling (22) has a coupling shaft (23), a coupling part (24) arranged in a rotationally fixed manner on the coupling shaft (23) and a mating coupling part (25) which can be coupled to it, the mating coupling part (25) is rotatably connected to the driver part (12). Squeezing device according to claim 11, characterized in that the counter-coupling part (25) has a membrane (27) which can be brought into contact with the coupling part (24) at least in regions and which is mounted at least in regions in a pressure chamber (31).

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