SU1107780A1 - Hydraulic system for grain combine harvester - Google Patents

Abstract

1. HYDRAULIC COMBINE HYDROSYSTEM, containing an autonomous steering system with injection and discharge lines, a main system having a discharge and discharge lines, a gear pump, a tank, a distributor of a bunker, a relief valve, a throttle, a multi-section distributor, to improve the efficiency of the combine by providing autonomous operation of the steering hydraulic system, independent operation of the hydraulic drives of the combine harvester in an emergency and lowering The main system is equipped with two non-return valves, the delivery line is connected to the multisection distributor and the overflow valve inlet, and the drain line is through the distributor distributor to the tank, while the drain pipe of the multi-section distributor is connected through one of the check valves to the drain pipe the relief valve and, through another check valve, with the drain pipe of the autonomous steering system.

Description

2. The hydraulic system according to claim 1, characterized in that, in order to reduce the differential operating pressure of the oil in the main system during operation of the accumulator distributor by reducing free oil leakage into the tank through the overflow valve throttle, another non-return valve is provided with a spring.

one

This invention relates to agricultural machinery and is intended for use in combine harvesters.

The hydraulic system of a combine harvester is known, comprising an autonomous steering system with injection and discharge lines, a main system having injection and drain lines, a gear pump, a tank, a distributor of a hopper box, an overflow valve, a throttle valve and a multi-section distributor 1.

A disadvantage of the known device is that in the hydraulic system the autonomous operation of the hydraulic system of the steering system is disturbed, and in case of leakage of the tightness of the main system, the oil flows out of the tank. At the time of operation of the distributor, the pressure chamber in the main system drops. In addition, the steering hydraulic drain pipe has a significant metal content.

The purpose of the invention is to increase the efficiency of the combine by ensuring the autonomous operation of the hydraulic steering system, independent operation of the hydraulic drives of the combine harvester in an emergency, reducing the metal intensity of the pipelines of the drain line and reducing the differential operating pressure of the oil in the main system.

The goal is achieved by the fact that in the hydraulic system of the combine harvester the main system is equipped with two check valves, the delivery line is connected to the multi-compartment distributor and the overflow valve inlet, and the drain line is connected to the tank through the hopper distributor valves with the drain pipe of the overflow valve and through another non-return valve - with the drain pipe of the autonomous steering system management

In addition, another check valve is provided with a spring.

The drawing shows a functional diagram of the hydraulic system of the combine harvester.

The proposed hydraulic system has a tank 1, the main system, which includes a power pump 2, a safety valve 3 and a multisection distributor 4 with an overflow valve 5. To the drain line 6 of the overflow valve there is a distributor 7 of the accumulator 7, which has a spool 8, a spring 9 and a throttle hole

10 through which the cylinders 11 are energized, hingedly connected to the valve 12 and the latch 13 by means of a string 14. The drain pipe 15 of the system has a filter 16. The drain cavities 17 and 18 are connected to the discharge line from the pump 2 via a choke 19 a check valve 21 with a drain line 6 of the main system and through a pipe 22, a check valve 23, preloaded with a spring 24, with a drain line 25 of an autonomous steering system.

The autonomous steering system includes a drain line 25, a power pump 26, a safety valve 27, consumers 28, and a filter 29.

The proposed hydraulic system works

0 as follows.

Oil from tank 1 is pumped by pump 2 to safety valve 3 and further to overflow valve 5. At the neutral position of the multi-section valve spools, limiter 4, part of the oil freely enters the tank through throttle 19, drain cavity 17 of the relief valve 5, drain cavity 18 of the multi-section distributor 4 , pipeline 20, check valve 21, drain line 6, distributor of accumulator 7, pipeline 15 and filter 16.

The overflow valve opens and the main oil flow is discharged into the tank 1 through the drain line 6, the spreader distributor 7, pipe 15 and the filter 16. At this moment, the check valve 23, spring 5, reliably blocks the access of oil from the drain cavity 17 of the relief valve 5 to the drain line 25. When removing any spool of a multiple-section distributor 4 from the neutral position, the oil is drained into the tank 1 through

 the throttle 19, the drain cavity 17 is closed and the overflow valve 5 blocks the access of oil to the drain line 6. Oil under pressure is supplied to the hydraulic motor, oil is drained into the tank 1 from the hydraulic motor 5 through the drain cavity 18 of the multi-section distributor 4, pipe 20, non-return valve 21, drain line 6, distributor kopnitel 7, pipe 15 and the filter 16.

At this moment, the check valve 3, preloaded by the spring 24, reliably blocks the access of oil from the drain cavity 18 of the multi-section distributor 4 to the drain line 25.

When pulling the rod 14 from the initial position, the latches 13 are activated, locking the rear flap 12, and the pick-opener opens. Oil from cylinders 11 freely flows to tank 1 through pipe 15 through filter 16. After the accumulator is opened and the tails descend, the spool 8 of the distributor accumulator 7 is removed from the neutral position by blocking the oil to the tank 1 from the drain line b which under pressure enters through the throttle opening 10 of the spool 8 of the distributor hopper. 7 to the cylinders 11.

At this moment, the check valve 21 by the pressure of oil in the main line 6 blocks the access of oil from it to the drain cavity 18. Part of the oil through the throttle 19 enters the drain cavity 17, overcoming the force of the spring 24, opens the check valve 23 and drains into the tank 1 through the drain line 25 and filter 29. The force of the spring 24 of the valve 23 creates an artificial support for draining the oil through the throttle 19 of the bypass valve 5 at the moment the hoofbox is triggered, reducing the free oil leakage into the tank 1.

After the bottom of the hopper box is closed, the spool 8 is removed by the force of the spring 9 to the neutral position, opening free access of oil to the drain in tank I from the drain line 6. The pressure in the drain line b drops, the check valve 21 opens and the oil entering through the throttle 19 and the drain cavity 17 It is discharged into the tank 1 through the drain line b, the distributor of the bucket 7, the pipe 15 and the filter 16. The pressure in the pipe 22 drops abruptly and the check valve 23 forces the spring 24 to separate the main system from the autonomous system. At the time of actuation of the distributor 7, it is possible for any hydraulic engine, controlled by a multi-section distributor 4, to operate in the event of an emergency. In this case, when withdrawing any spool of the multiple-section distributor 4 from the neutral position, the oil drains through the drain cavity 17 and the overflow valve 5 stops the access of oil to the drain line b, disconnecting the distributor distributor 7, the spool 8 of which returns to its original position by force of the spring 9 and the stacker opens. The pressurized oil is supplied to the hydraulic motor. Oil is drained from the hydraulic engine into the tank I through the drain cavity 18, the check valve 21, the drain line b, the distributor of the hopper 7, the pipe 15 and the filter 16.

Claims (2)

1. HYDRAULIC SYSTEM OF THE GRAIN Harvester, comprising an autonomous steering system with a discharge and drain lines, a main system having a discharge and drain lines, a gear pump, a tank, a hopper distributor, an overflow valve, a throttle, a multi-section distributor, characterized in that, with the purpose of increasing the efficiency of the combine by providing autonomous operation of the hydraulic steering system, the independent operation of hydraulic drives of the combine harvester in an emergency and reduce metal consumption of the pipelines of the drain line, the main system is equipped with two check valves, and the discharge line is connected to the multi-section valve and the inlet of the overflow valve, and the drain line through the stacker distributor is connected to the tank, while the drain pipe of the multi-section valve is connected through one of the check valves to the drain pipe of the overflow valve valve and through another non _- return valve - with drain pipe $ 9 autonomous steering system. SU. „. 1107780 2. The hydraulic system in π. 1, characterized in that, in order to reduce the differential pressure of the oil in the main system during operation of the stacker distributor by reducing free oil leakage into the tank through the overflow valve throttle, another check valve is equipped with a spring.