SU1358822A1 - Hydraulic system for grain combine harvester - Google Patents

Abstract

The invention relates to the field of engineering. The invention provides the performance of the hydraulic system of the main system at low ambient temperatures and the exclusion of free leakage of the working fluid when the hydraulic engine is running at high flow rates. The drain pipe 24 of the multisection electro-hydraulic distributor 18 is connected to the drain pipe 6 of the constant circulation of the working fluid of the autonomous system 2 through the check valve 25. Pipe 17, pump 8, valve 18 are connected to the tank 1 via an additional drain pipe 27 equipped with a throttle 28. In neutral The position of the multi-section valve spool valves, due to the pressure drop across the throttle 28, continuously circulates the working fluid through pipelines 9, 17, 27, 24 and 6, which is good It affects the temperature conditions of the working fluid and, in general, the work of the entire hydraulic system. In the working position of the spool section 19, the pistons 22 act on the valve 21, opening the access of the working fluid to either the cylinders 26 or the drain, locking in this additional drain pipe 27. 2 Cp f-ly, 2 ill. i (L co el 00 oo y

Description

The invention relates to mechanical engineering and is intended for use in combine harvesters.

The purpose of the invention is to ensure the operability of the hydraulic engines of the main system at low ambient air temperatures and the elimination of free leakage of the working fluid when the hydraulic engine is operating at a high flow rate.

FIG. 1 shows a hydraulic system diagram of a combine harvester; in fig. 2 -. constructive layout of hydraulic units of the combine harvester hydraulic system.

The hydraulic system has a tank 1, an autonomous steering system 2, which includes a pump 3, into the delivery pipe 4 of a constant circulation of working fluid of which the executive bodies 5 connected to the tank 1 are connected via a drain pipe 6 of a constant circulation of working fluid and a filter 7.

The main system includes a pump 8, the overflow 10 and safety valves 11 are connected to the discharge pipe 9 of which are integrated into block 12. The drain pipe 13 of the overflow valve 10 is connected to the tank 1 through the filter 14, its control line pipe 15 is connected to the tank 1 solenoid valve 16. A multi-section electro-hydraulic distributor 18 is connected to the delivery pipe 9 through a pipe 17, having a working section 19 containing a hydraulically-controlled shut-off device 20 including one shut-off valve 21 and orshenek 22 for controlling them. At the same time, the hydraulically controlled locking device 20 is connected to the tank 1 through the drain cavity 23, the multisection hydraulic distributor 18, its drain pipe 24, the check valve 25, the drain pipe 6, filter 1. To one of the conclusions of the hydraulically controlled locking device 20 from the locking side valve 21 is connected to the plunger cylinders 26 lifting the header.

The other outlet is connected via an additional drain pipe 27 and throttle 28 to a pipe 17 connected to the tank 1 through a hydraulically controlled locking device 20, a drain cavity 23 of the distributor 18, its drain pipe 24, a check valve 25, a drain pipe 6 and a filter 7.

In this case, the pump 8, mounted on the engine 29, tank I, safety valve 1 and overflow valve 10, integrated in one unit 12, solenoid valve 16 for controlling the overflow valve 10 are located on the roof of the thresher 30, and the multi-section electro-hydraulic distributor 18 and pipelines 4 and 6 the constant circulation of the working fluid of the autonomous system passes under the control platform 31.

The device works as follows.

In the neutral mode of operation of the autonomous steering system 2, the working fluid from the hydraulic tank 1 by the pump 3 is fed through the discharge pipe 4 to the executive bodies 5 and further along the drain pipe 6 passing under the driver’s platform 31, through the filter 7 enters the tank 1 .

When operating the actuators 5, the working fluid from the hydraulic tank 1 by the pump 3 is supplied through the discharge pipe 4, and drained into the tank 1 via the drain pipe 5 to the wire 6 through the filter 7.

Thus, the working fluid is constantly circulating in pipelines 4 and 6.

The basic ryb system melts as follows.

In the neutral mode of operation of the hydraulic system, the working fluid from the tank 1 by the pump 8 of the main system, mounted on the engine 29, is supplied via the discharge pipe 9 to the safety and overflow unit 12, to its overflow valve 10, also located on the roof of the thresher 30. At the neutral position of the spools of the multisection electro-hydraulic distributor 18, located under the driver’s platform 31, a part of the working fluid enters the tank 1 0 through the pipeline 15 of the control valve of the overflow valve 10, through electromagnets A solid valve 16 controls the overflow valve 10, also located on the roof of the thresher, and a filter 14.

The overflow valve 10 opens and the main flow of the working fluid enters the tank 1 through the drain pipe 13 and the filter 14.

At the same time, an insignificant part of the working fluid from the pump 8 enters the tank 1 through the discharge pipes 9, 17, additional drain pipe 27, throttle 28, shut-off device 20 of the working section 19 of the multi-section electro-hydraulic distributor 18 installed under the driver’s platform 31, its drain 5 the cavity 23 and the drain pipe 24, the check valve 25, the drain pipe 6 of the constant circulation of the autonomous system and the filter 7.

Thus, in the injection pipe 17, the pump — a multisection electrohydraulic distributor — continuously circulates the working fluid in a neutral mode of operation of the hydraulic system, maintaining a certain temperature condition in it. And the main flow of the working fluid from the pump 8 circulates through 5 hydraulic units and pipelines located on the thresher's roof.

When removing the spool of the working section 19 of a multisection electro-hydraulic

the distributor 18 from the neutral position, for example, to the "Lifting Header" position, the solenoid valve 16 is activated, locking the working fluid into the tank 1 from the pipeline 15 of the control valve of the overflow valve 10. The overflow valve 10 separates the access of the working fluid from the discharge pipe 9 to the drain pipe 13 and the working fluid under a certain pressure from the pump 8 through the pipe 17 enters the shut-off device 20 of the working section 19 of the multi-section electro-hydraulic distributor 18 and then goes the left force of the check valve 21 flows to the cylinders 26, lifting the header and, at the same time, acts on the piston 22. moves it, disconnecting the additional drain pipe 27, with the throttle 28 from the tank 1. Thus, free working fluid leaks to the tank 1 are eliminated spool of the working section 19 to the position “Raising the header.

When withdrawing the spool of the working section to the neural position, the locking device 20 is connected to the tank 1 through the drain cavity 23 of the multisection distributor 18, pipe 24, check valve 25, drain pipe 6 of the constant circulation of the autonomous system and filter 7. As a result, the check valve 21 is lowered the saddle and reliably disconnects the cylinders 26 from the tank 1.

At this moment, the solenoid valve 16 for controlling the overflow valve 10 returns to its original position, connecting the pipeline 15 of the control line of the overflow valve 10 with the tank through the drain pipe 13 and the filter 14. The overflow valve 10 is activated and the hydraulic system operates in neutral mode.

When removing the spool of the working section 19 of the multisection electro-hydraulic distributor 18 from the neutral position to the lowering header, the solenoid valve 16 is activated, locking the working fluid into the tank 1 from the pipeline 15 of the overflow valve control line 10. The overflow valve 10 separates the working fluid from the injection pipeline 9 in the drain pipe 13 and the working fluid under a certain pressure from the pump 8 through the pipelines 17, 27, the throttle 28 and multisection electrohydraulic The distributor 18 enters the shut-off device 20 of its working section 19, acts on the flap, which, when moved, opens the shut-off valve 21. The working fluid from the cylinders 26 enters the tank 1 through the drain cavity 23 of the multi-section electro-hydraulic distributor 18, its drain piping 24, non-return valve 25, pipeline 6 of the constant circulation of the autonomous system and filter 7. At this moment, the safety valve 11 is activated, bypassing the entire flow of the working fluid from the pump 8 to the tank 11 through the overflow valve 10, the drain pipe 13 and the filter 14.

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Claims (3)

1. Hydraulic system of a combine harvester with hydraulic tank, autonomous steering system, pipelines of constant circulation of working fluid which are located above the driver's cabin, the main system containing the pump installed on the engine mounted on the thresher of the combine, hydro-controlled overflow valve and safety valve also installed 5 on the threshing roof of a multisection electrically controlled distributor installed under the driver's cabin, pressure and drain pipelines, characterized in that, in order to simplify the design and ensure the operability of the main system hydraulic motors at low ambient temperatures and eliminate free leakage of the working fluid during high-flow hydraulic engine operation, pressure pipeline, pumps, multisection electro-hydraulic distributor 5 divider connected to the tank through an additional A drain pipe equipped with a choke, while the additional drain pipe is connected to the tank through the working section of the multisection electro-hydraulic distributor containing a hydraulically controlled shut-off device. 2. The hydraulic system in accordance with claim 1, wherein the drain pipe of the multi-section electro-hydraulic distributor 5 divider is connected to the drain pipe of a constant circulation of the working fluid of the autonomous system through a check valve. 3. The hydraulic system of claim 1, wherein the locking device includes one 0 a shut-off valve and a valve for controlling it and is connected to the drain cavity of the distributor and the tank. 0 Compiled by M. Shipilov Editor M. TovtinTehred I. VeresKorrektor A. Obruchar Order 5631/2 Circulation 628 Subscription VNIIPI USSR State Committee for Inventions and Discoveries 1 13035, Moscow, Zh-35, Raushsk nab. 4/5 Production and printing company, Uzhgorod, ul. Project, 4