SU1757535A1 - Hydraulic motor of watering plant - Google Patents

Abstract

It is used in agriculture when irrigating agricultural crops with irrigation aggregates with hydraulic engines powered by water to increase the reliability of operation. Summary of the invention: in the hydraulic motor of the irrigation unit, the locking member 2 is designed as a differential valve 3 with a piston 4. The piston has a smaller diameter than the diameter of the piston 7 of the hydraulic actuator of the locking member 2. The piston cavity 10 is connected to the cavity of a larger stage 14 of the differential hydraulic cylinder 1 and through the channel zi - with the release of 9 locking organ 2. 2 Cp. f-ly, 1 ill.

Description

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The invention relates to the field of mechanization of irrigation of agricultural crops and can be used in irrigation aggregates with hydraulic motors operating at the expense of the energy of water flow.

The hydraulic motors of irrigation aggregates are known, including a hydraulic cylinder and a valve distributor 1. The disadvantage of hydraulic motor designs is that water that is drained from the working cavities of a hydraulic cylinder is not useful and can even cause damage to over-humid soil near the unit.

A hydraulic motor of an irrigation unit is known, consisting of a double-acting hydraulic cylinder, a hydraulic distributor and a hydraulic-operated gate valve installed on a pressure pipe 2. The design of this hydraulic motor is closest to the proposed technical solution. The disadvantage of it is the complexity of the design and low reliability in operation.

The purpose of the present invention is to improve the reliability of

The goal is achieved by the fact that the shut-off element is designed as a differential valve with a piston, and its hydraulic actuator is in the form of a hydraulic cylinder with a piston, and the piston of the differential valve has a smaller diameter than the diameter of the piston of the hydraulic cylinder of the locking member a larger stage of the differential hydraulic cylinder and, through a communication channel, with the outlet of the closure member. In addition, in the proposed hydraulic engine, the communication channel between the larger stage of the differential hydraulic cylinder and the outlet of the locking member is made in the form of two parallel branches, one of which has an adjustable throttle, and the other has a check valve and an adjustable choke.

The outlet and the entrance of the locking member are interconnected by means of an adjustable throttle.

The drawing shows a schematic structural diagram of the proposed hydraulic engine irrigation unit.

The hydraulic motor of the irrigation unit consists of a differential hydraulic cylinder 1 and a locking member 2 with hydraulic actuator, interconnected by hydraulic communication channels.

The locking body 2 is made in the form of a differential valve 3 with a piston 4 and an elastic valve 5. The valve 3 is connected to the piston 7 of the hydraulic actuator of the locking member by means of a rod b. Piston 4

made in diameter smaller than the piston. The shut-off body has an inlet 8, an outlet 9 and a piston cavity 10. Inlet 8 communicates with the discharge pipe 11 and the small stage 12 of the differential hydraulic cylinder 1. Output 9 is connected to the pipeline 13 supplying the irrigation unit, as well as with the cavity of the large stage 14 of the differential hydraulic cylinder 1 and

podporshnevoy cavity 10. The communication channel between the large stage 14 of the differential cylinder 1 and the discharge pipe 13 is made in the form of two parallel branches, one of which

an adjustable throttle 15 is installed, and on the other - a check valve 16 and an adjustable throttle 17,

The pipelines 11 and 13 in addition to the valve body 2 are connected by a channel on which

adjustable throttle 18 is mounted.

The stem 19 of the differential hydraulic cylinder 1 is kinematically associated with a mechanism (not shown in the drawing) that moves the irrigation unit over the irrigated area.

The hydraulic motor works as follows.

When water is supplied under pressure to the pressure pipe 11, the rod 19 of the differential cylinder 1 will move from left to right, since the force exerted on it from the water pressure from the larger stage will exceed the oppositely directed force developed by the pressure from the small stage. At the moment when the rod 19 takes the extreme right position, the water pressure in psg x 10 and 14 increases sharply to

water pressure at the outlet 9 of the closure member 2. Due to this, the piston b moves to the extreme upper position under the effect of increased pressure on the piston 7, and the differential valve 3 with the elastic valve 5 will separate the inlet 8 and the outlet 9. The water pressure in cavities 10 and 14 will decrease. The rod 19 will begin to move from right to left. The water from the cavity 14 under a certain pressure will begin to be forced out.

through the throttle 15,17 and the check valve 16 into the pipeline 13 and further through the working body of the irrigation unit to the irrigated area. When rod 19 takes the leftmost position, the water pressure in the cavity

10 and 14 decrease dramatically. Due to this, the rod b will be moved to the lowest position by the pressure of water on the piston 4. Differential valve 3 with elastic valve 5 will open the channel connection between inlet 8 and outlet 9. Next

the work of the hydraulic engine will proceed in the order already written,

By adjusting the flow areas of the throttles 15 and 17, an acceptable ratio of the forward and reverse stroke of the rod 19 is achieved. By changing the flow area of the throttles 18, the required pressure in the pipe 13 with the valve closed 2 sufficient for reliable operation of the hydraulic engine in various operating conditions is established.

The presence of new design features in comparison with the prototype made it possible in the proposed hydraulic motor of the irrigation unit to eliminate the kinematic connection between the stem of the differential hydraulic cylinder and the hydraulic distributor. In addition, a combination of the functions of the hydraulic distributor and hydraulic valves in one unit - the valve body with hydraulic actuators was achieved. Due to this, the design of the hydraulic engine has become much simpler, which will lead to a reduction in the cost of manufacture and operation, as well as an increase in the reliability of operation.

Claims (3)

1. The hydraulic motor of the irrigation unit, including mounted on the pressure in a pipeline, a locking member with a rod kinematically connected with a hydraulic actuator, a differential hydraulic cylinder, a small step of which is hydraulically connected to the inlet of the locking member, and a larger one with a hydraulic actuator and outlet of the locking member, characterized in that, in order to improve reliability of operation, the locking member is made the form of a differential valve with a piston, and its hydraulic actuator - in the form of a hydraulic cylinder with a piston, while the piston of the differential valve has a smaller diameter than the diameter of the piston of the hydraulic cylinder, the piston floor The core of which is connected to the cavity of a larger step of the differential hydraulic cylinder and through a communication channel to the outlet of the locking member. 2. The hydraulic motor according to claim 1, in connection with the fact that the communication channel between the larger stage of the differential hydraulic cylinder and the output of the locking member is made in the form of two parallel branches, one of which has an adjustable throttle and on the other - a check valve and an adjustable choke. 3. The hydraulic motor according to claim 1, of which is t and the fact that the output and input of the locking member are interconnected by means of an adjustable throttle.