SU682167A1 - Apparatus for automatically copying soll relief - Google Patents

Description

one

The invention relates to the automation of the control of the working bodies of agricultural machines and is intended for copying the soil relief by the working bodies of the machines, for example cotton harvesting machines.

A device for automatic copying of the topography of the soil, including, its working devices, shupi, control, levers and rods, hydraulic distributors of automatic and manual control, hydraulic cylinders, hydraulic locks and hydraulic pump 1, is known.

The hydraulic cylinder for automatic control in parallel with the crane is connected to the pressure line leaving the hydraulic distributor so that when the valve is closed under the action of the copying valve, the working fluid enters the hydraulic cylinder which lifts the working element. The working body is lowered by opening the crane, and the working body stops when the valve is partially closed and throttles the incoming working fluid under pressure created in the hydraulic cylinder by the action of the weight of the working body. Manual control of the position of the working body is osusteved in the device remotely by switching the flow of working fluid to the manual hydraulic cylinder by the hydraulic distributor. The disadvantages of such a device are the complexity of the design, the metal content, and due to the different resistance in the parallel branches of the hydraulic system, the working bodies move at different speeds, which leads to their breakdown.

And closest to the proposed device is an automatic copying of soil by working bodies, including copy probes, a manual hydraulic valve and an automatic control valve with a spool, a single-acting hydraulic cylinder, a hydraulic lock with a check valve and a check valve 2.

However, the known device is difficult to device.

In addition, it is metal-intensive, and the hydraulic lock is a separate self-contained

knot.

The goal of the invention is to reduce its metal intensity.

This is achieved by the fact that the proposed device is equipped with a piston mounted movably in the body of an automatic hydraulic distributor and on a spool that has a pusher and mounted coaxially with a shut-off valve, while the pressure and drain cavities of the automatic hydraulic distributor communicate through holes drilled in the spool and a groove located under the piston . The drawing shows the proposed device. The device for automatic copying of the topography of the soil includes copy probes 1 installed on the blocks of the working bodies 2, and at the garbage of levers and the other 3 connected with the spool 4 of the automatic control valve 5 controlling the oil supply to the hydraulic cylinder 6 of one-way action through the trunk 7, the valve 5 has a shut-off valve 8 on which the pusher 9 of the spool 4 acts. In the spool 4 there is an opening 10 connecting the pressure chamber 11 of the hydraulic distributor 5 with the cavity 12 through the opening 13 and the canal 14, located under a movably mounted piston 15 relative to the valve 5 of the spool 4, spring 16 pushes the spool 4 towards the shut-off valve 8. The spool 4 is provided with a locking edge 17 so that when the latter is moved to the left, it is in contact with the seat seat 18, separates cavity 11 from drain cavity 19. Surface 20 of spool 4 has a smaller diameter than slot 18, so that when moving valve 4 to the right, a throttling gap is formed between them. The valve 5 is connected to the manual valve 21 with lines 22 and 23 with a check valve 24. The hydraulic fluid is powered by the hydraulic pump 25 and the tank 26. The valve limits the pressure 27. To ensure independent copying of the soil relief by two working bodies 2 a flow divider 28 and a check valve 29 are used. The device for automatic copying of the topography of the soil works as follows. When moving the machine copy probes 1, in contact with the surface of the soil, copy its relief. Through a system of levers and tg 3, the movements of the copy probes 1 are transferred to the spool 4 of the control valve 5 of the automatic control. The spool 4, moving in the neutral position, passes the working fluid through the valve 5 so that it passes from the hydraulic pump 25 through the valve 21 manual control, line 23, check valve 24, pressure chamber II, through the slot 18, the drain cavity 19, line 22, the manual valve 21 to the tank 26. The shut-off valve 8 holds the working member 2 in a predetermined position. With the increase of the level of the night working device 2 copying probe 1 rises and through the system of levers and t 3 moves the spool 4 to the left. The locking edge 17 presses against the seat of the socket 18 and separates the cavities 11 and 19. The working fluid coming through the line 23 through the check valve 24 into the cavity 11 opens the locking valve 8 and enters the hydraulic cylinder 6 through the line 7. . Simultaneously, the working fluid under pressure through the opening 10 and the opening 13 of the entrance; em to the cavity 12, balancing the force that occurs at the end of the spool 4 in the cavity 11, aimed at compressing the spring 16. This ensures the return of the spool 4 under the action of the spring 16 to its original position after overcoming the elevation of the soil. When the level of the night goes down before the working bodies 2, the copy probes 1 lower and move the spool 4 to the right. The surface 20 of the spool 4 moves inside the socket 18 to form a throttling annular gap, as a result of which the working fluid flowing through line 23 through the check valve 24 into the cavity 11, where due to a decrease in the flow area in the throttling gap, it creates below working pressure, which spreads through hole 10 in the cavity 12, together with the force of the spring 16 moves the spool 4 further to the right and the pusher 9 opens the shut-off valve 8. The working fluid from the hydraulic cylinder 6 of the automatic control through the master al 7, cavity 11, throttled annular edge formed by surface 20 and socket 18, cavity 19, line 22 and manual control valve 21 enters tank 26. Operation device 2 is lowered. Manual position of working bodies 2 is controlled remotely from the driver’s seat by switching the manual control valve 21, in which the direction of flow of the working fluid corresponds to the operation of the device in automatic control mode. To raise the operating element 2, it is necessary to switch the handle of the manual control valve 21 so that the pressure flow of the liquid is directed to the line 22, and the line 23 is connected to the tank 26. In this case, the working fluid of the hydraulic pump 25 through the manual control valve 21 and the line 22 enters cavities 19, 11 and 12 of the control valve 5 of the automatic control, the check valve 24 prevents the working fluid from the control valve 5 from escaping, in the internal cavities of which pressure is created by displacing the gold to 4 to the left until it stops the locking edges 17 into the seat of the socket 18, and then by moving the piston 15 to the left, it allows the working fluid to flow from the cavity 19 through the groove 14, the hole 10 to the cavity 11. Then, opening the locking valve 8, the working fluid through line 7 enters the hydraulic cylinder 6 one-sided action. There is a rise of the working body 2.

The presence of a check valve 8 ensures that the working body 2 is held in a raised position.

Claims (2)

1. US Patent No. 3417553, cl. 56-208, 1968. 2. USSR author's certificate number 467722, cl. A 01D 45/18, 1972. -G 6 1315 / u If e S