SU796016A1 - Transport vehicle windshield wiper pneumatic drive - Google Patents

Description

one

The invention relates to devices for cleaning windshields of vehicles having a pneumatic system,

Closest to the present invention, there is a pneumatic drive of the windscreen wiper of transport means, comprising a pneumatic engine, exalted in the form of a working cylinder with a double-piston piston action, equipped with concealed rings and a rack mounted on the output shaft, and the distributor, c. coaxial holes, which are installed distribution valve and spring-loaded control spool valve with large and small sealing rings, while drilling a control valve is stepped and equipped with a check valve. The exit of the exhausted compressed air from the cavity of the said step drilling in the body of the control valve equipped with a large sealing ring is throttled

openings with a check valve. Sepin. throttling should be such that, on the one hand, it reduces the pressure behind the control spool and prevents it from spontaneously moving and acting on the distribution gold, on the other hand, to provide the necessary maximum speed of the piston. When the air motor is stopped, the compressed air is additionally supplied from the control valve to the control spool from the return valve, and moving it in the direction of the distribution valve, locks the latter, ensuring that the air motor stops at a certain position l.

The disadvantage of this drive is the complexity of the design and manufacturing technology of the control spool.

The purpose of the invention is to simplify the drive instructions and improve processability.

Claims (2)

This goal is achieved by the fact that in a step of a larger diameter of the specified step drilling, a boring is completed. the diameter of which is larger than the diameter of 6 cm1 of the sealing ring, and the check valve is formed by the indicated ring and boring face. In addition, the distance between the centers of the sealing rings of the control spool is greater than the length of the step of a larger diameter from the edge of the chamfer to the entrance into the step of a smaller diameter. The drawing schematically shows the proposed pneumatic drive of the wiper. A double-sided piston 2 is fitted in the housing 1 of the working cylinder, equipped with additional rings and a toothed rack interacting with the toothed sector 3. The latter is connected to the shaft 4, on which the wiper mechanism is attached. On housing 1, a distributor 5 is installed with a distribution spool 6 equipped with four sealing rings 7 forming a five cavity 8-12. In the housing there are channels 13 and 14 connecting the working cavities. 15 and 16 of the working cylinder with the cavity of the distributor spool. In addition, inlet housings 17 and 18 are made in the cylinder and distributor bodies, connecting the distributor cavities 8 and 12 with the corresponding cavities of the working cylinder. A channel 19 is also provided in the distributor case for communicating the cavity 10 with a source of compressed air (a control valve). A spring-loaded control spool 2O is installed in the distributor, it is equipped with a large 21 and 22 sealing rings are small, while drilling under the control spool is stepped and equipped with a check valve. In the cavity 23 of a step of a larger diameter of the said drill, a bore is made, the diameter of which is larger than the diameter of the sealing ring 21. The check valve is formed by the indicated ring 21 of the IG with a facet of the bore. The distance between the centers of the sealing rings of the control spool 20 exceeds the length of the larger diameter step from the chamfer edge to the entrance to the smaller diameter stage 24. Mehsdu gold: with a large sealing ring and fitting 25 has a spring 26. Channel 27 serves to communicate channel 17 with a cavity sealed by a spool with a small sealing ring. Wiper drive works as follows. Compressed air from the control valve through the channel 19 enters the cavity 10 of the distribution valve 6 and then through channel 13 into the cavity 15 of the working cylinder and moves the piston to the left of the right o. The air from the cavity 16 through the channel 14 through the cavity 11 and the channel 28 enters the cavity of the stage 24 and then between the sealing ring 21 and the wall of the cavity 23 through the nozzle 25 enters the control valve and further into the atmosphere. The control valve 20 cannot spontaneously move towards the distribution valve, as the sealing ring 21 enters the cavity of step 24 sealed by it and closes the air outlet. When the piston moves to the extreme right position, compressed air from the cavity 15 through the channel 17 is supplied to the cavity 8 and moves the first slide to the extreme right position, after which the cavity Yu is connected and the channel 14 and the piston starts to move from right to left. When the air motor is turned off, squeezing air from the control valve is fed through the nozzle 25 into the cavity 23 and moves the control spool 20 from left to right. The specified valve at the same time moves the distribution valve to locks it in its rightmost position, ensuring the piston stops in its leftmost position. The exhaust air through the open 27 distribution channel spool enters the channel 17 and further into the atmosphere. The spring 26 is intended to accelerate the movement of the distribution valve when the air motor is turned off. Pneumatic drive of a vehicle wiper containing a pneumatic engine, made in the form of a working cylinder with a double-acting piston, equipped with sealing rings and a toothed rack interacting with the toothed sector fixed on the output shaft, and the distributor installed in coaxial drills distribution spool and spring-loaded control spool with large and small sealing rings, while drilling under the control spool vtolneno 2agym stages and equipped with a check valve. characterized in that, in order to simplify the drive design and improve manufacturability, a step with a larger diameter of said step drilling is provided with a bore, the diameter of which is larger than the diameter of the larger sealing ring, and the non-return valve is formed by the specified ring and chamfer of the bore. 2. The drive pop. 1, characterized in that the distance between The centers of the sealing rings of the control spool exceed the length of the larger diameter from the edge of the chamfer to the entrance into the smaller diameter. Sources of information taken into account in the examination 1. USSR author's certificate No. 169О06, cl. B6O S 1/10, 1962 (prototype).