RU2241326C2 - Grain combine - Google Patents

Abstract

FIELD: agricultural engineering.

SUBSTANCE: grain combine has mechanism for switching-off of header part with plunger-type actuating hydraulic cylinder and mechanism adapted for cleaning of grid of air intake of engine radiator and equipped with individual plunger-type hydraulic actuating cylinder. Hydraulic actuating cylinder of mechanism for switching-off of header part is connected to working fluid pressure source and to hydraulic tank through hydraulically controlled locking device of distributor. Hydraulic cylinder of mechanism for cleaning grid of air intake of engine radiator is connected through distributor to hydraulic tank. Hydraulically controlled locking device of distributor is equipped with single locking valve. Apparatus is provided with device for controlling operation of combine units.

EFFECT: simplified construction and enhanced reliability in operation.

1 dwg

Description

The invention relates to agricultural machinery, in particular to combine harvesters.

Known combine harvester (Self-propelled combine harvester "Yenisei-1200", Technical description and operating instructions, Krasnoyarsk 1988, pp. 44-46, Fig. 43, pp. 75-78, Fig. 79), containing the harvest shut-off mechanism parts, the double-acting actuating cylinder of which is connected to the combine hydraulic system through a hydraulically controlled shut-off device of the distributor, equipped with two shut-off valves, and a mechanism for cleaning the engine radiator air intake mesh, whose ram-type actuating cylinder is Connected to the hydraulic drive of the stacker valve closing mechanism.

The disadvantage of this device is that the use of a hydraulic mechanism for disconnecting the reaping part of the double-acting actuating hydraulic cylinder and a hydraulically controlled shut-off device with two shut-off valves complicates its design. The connection of the actuating hydraulic cylinder of the air intake mesh cleaning mechanism to the hydraulic drive of the accumulator valve closing mechanism complicates the design of the combine as a whole, i.e. when used without a stacker, for example, with a hood or grinder, a different hydraulic design of the mechanism is used.

There is also known a device for cleaning the mesh of the air intake of the engine radiator (AS No. 745416, B.I. No. 25, 1980), the executive hydraulic cylinder of which is connected to the discharge line of the hydraulic control system of the working bodies of the combine.

The disadvantage of this device is that an increase in the number of hydraulic drives of the working equipment of the combine leads to a decrease in the reliability of the device due to an increase in the intensity of its operation, in addition, in the discharge line of the hydraulic system, when using an overflow relief valve, its opening pressure takes place, which complicates the design of the device due to the use of a stiffer return spring mechanism.

Known combine harvester (Self-propelled combine harvester "Yenisei-1200-1M" and its modifications. Technical description and user manual, OJSC "KZK", GOSNITI, 2001, p.40, 68, 69), taken as a prototype, comprising a mechanism for disconnecting the harvesting part, the actuating cylinder of the plunger type of which is connected to the hydraulic system through a hydraulically operated locking device of the distributor equipped with two shut-off valves, and a mechanism for cleaning the mesh of the air intake of the engine radiator, the actuating hydraulic cylinder ernogo type which is connected in a hydraulic valve closing the stacker mechanism.

The disadvantage of this device is that from the impact of the drive belt, the rod of the actuating plunger hydraulic cylinder extends. The working fluid entering the cavity of the hydraulic cylinder accumulates and gradually turns off the harvesting part due to the presence of a shut-off valve in the hydraulically operated shut-off device of the distributor, i.e. the drive belt begins to slip. Connecting the executive hydraulic cylinder of the intake mesh cleaning mechanism to the hydraulic drive of the stacker valve closing mechanism complicates the design of the combine, because when using it without a drive, for example, with a hood or grinder, a different hydraulic design of the mechanism is used.

The technical result of the invention is expressed in simplifying the design of the combine and increasing its reliability. This is achieved by the fact that the combine harvester includes a mechanism for disconnecting the harvesting part, the plunger-type actuating cylinder of which is connected to the source of the working fluid pressure and to the hydraulic tank through a hydraulically controlled shut-off device of the distributor, a mechanism for cleaning the mesh of the air intake of the radiator of the engine with an actuating hydraulic cylinder of the plunger-type, and a hydrically controlled shut-off device of the distributor made with one shut-off valve, and the hydraulic cylinder of the cleaning mechanism of the air intake mesh ra the engine radiator is connected through a distributor to the tank. Comparative analysis with the prototype shows that the claimed invention differs from the prototype in that the hydraulically controlled shut-off device of the distributor is made with one shut-off valve, and the hydraulic cylinder of the cleaning mechanism of the mesh of the air intake of the engine radiator is connected through the distributor to the tank. Verification of the conformity of the claimed invention to the requirement of an inventive step showed that the invention does not explicitly follow from the prior art for a specialist, since from the latter, no effect of the transformations prescribed by the invention, characterized by significant features distinctive from the prototype, on the achievement of the technical result was not revealed.

The drawing shows a schematic hydraulic diagram of the connection of the working bodies of a combine harvester, namely, the mechanism for disconnecting the harvesting part and the cleaning mechanism of the mesh of the air intake of the engine radiator.

The combine harvester includes a mechanism for disabling the harvesting part 1 and a mechanism for cleaning the mesh of the air intake of the engine radiator 2. The mechanism for disabling the harvesting part 1 contains a tension pulley 3, which acts on the drive belt 5 through the tension spring 4, connecting the counter-drive 6, connected by a belt drive to the engine pulley 7, which through the clutch (not shown conventionally) is connected to the motor shaft and through the drive belt 5 with the drive shaft 8 of the harvesting part. The tension pulley 3 through the system of levers 9 is pivotally connected to the actuating plunger hydraulic cylinder 10, the cavity of which is connected via a hydraulic line 11, a spring-loaded shut-off valve 12 of a hydraulic-controlled shut-off device 13, with a control plunger 14, a distributor 15 and its drain hydraulic line 16 to the hydraulic tank 17. The cleaning mechanism the mesh of the air intake of the radiator of the engine 2 contains a rotary element made in the form of a valve 18 and a hydraulic cylinder 19 of a plunger type for its drive. The valve 18 is installed on the input window 20 of the channel 21 between the grid 22 of the air intake and the radiator 23 of the engine. The rod 24 of the hydraulic cylinder 19 with a spring 25 is spring loaded in the direction of opening of the valve 18. The hydraulic cylinder 19 through the hydraulic line 26, the drain cavity of the locking device 13, the distributor 15, the drain hydraulic line 16, is connected directly to the hydraulic tank 17. The distributor 15 through the hydraulic line 27 is connected to the pressure source by the pump 28, through the control hydraulic line 29 and the drain line 16 connects the safety-overflow valve 30 with the hydraulic tank 17.

Works combine harvester as follows.

Before starting the engine, the clutch must be disconnected. After starting, the pump 28 of the hydraulic system of the combine harvester is turned on and it operates in neutral mode as follows. The working fluid from the hydraulic tank 17 enters the pressure source, the pump 28 and then to the safety overflow valve 30. In the initial position of the spool valve 15 part of the working fluid is free through the control line 29, the distributor 15 and the drain line 16 enters the hydraulic tank 17. As a result, the safety the overflow valve 30 opens and the main oil flow from the pump 28 enters the hydraulic tank 17 through the valve 30 and the drain line 16. After warming up the working fluid, the mechanism for disconnecting the harvesting part 1 is set to its original position "harvesting part is disabled." The spool of the distributor 15 is removed from the initial position and disconnects the control line 29 from the hydraulic tank 17. The safety-overflow valve 30 is closed and the entire oil flow through line 27 through the distributor 15 enters the shut-off device 13, opens the spring-loaded shut-off valve 12 and is fed through the hydraulic line 11 into the cavity a plunger hydraulic cylinder 10, which, through a system of levers 9, overcoming the force of the spring 4, disconnects the tension pulley 3 from the drive belt 5. After the piston cylinder 10 has fully exited, the overflow valve 30 and the spool of the distributor 15 are brought to the neutral position, the shut-off valve 12 is returned by the spring force to the initial position and disconnects the hydraulic cylinder 10 from the hydraulic tank 17. After the spool of the distributor 15 is returned to its initial position, the hydraulic system starts to work in neutral mode. At this moment, the hydraulic cylinder 19 of the engine intake mesh cleaning mechanism of the engine radiator 2 through the hydraulic line 26, the drain cavity of the locking device 13, the distributor 15, the drain line 16 is connected to the hydraulic tank 17. Then the clutch and the torque from the engine shaft through its pulley 7, belt drive transmitted to the counter-drive 6. After a set of stable revolutions, the mechanism for disconnecting the harvesting part is set to the position "harvesting part is on". The spool of the distributor 15 is removed from its original position to another position and disconnects the control line 29 from the hydraulic tank 17. The safety-overflow valve 30 closes and the entire oil flow through line 27 through the distributor 15 enters the shut-off device 13 through line 26 and is directed to the hydraulic cylinder 19, which through the lever and the spring 25 puts the valve 18 in the closed position, the mesh 22 is freed from the soaring particles settled on its outer surface. At the same time, the flow of the working fluid moves the control plunger 14, which, raising the spring-loaded shut-off valve 12, connects the cavity of the plunger hydraulic cylinder 10 through the hydraulic line 11, the distributor 15, the discharge line 16 with the hydraulic tank 17. The pressure in the line 11 drops sharply, the hydraulic cylinder 10 begins to return to the spring 4 the initial position, and the tension pulley 3 is lowered to the drive belt 5, its tension increases, the connection between the counter drive 6 and the drive shaft of the harvesting part 8 is restored and the harvesting part is turned on, after which the distributor 15’s lot is restored to its initial position, the hydraulic system starts to work in neutral mode, and the hydraulic cylinder 19 is connected to the hydraulic tank 17 through the hydraulic line 26, the distributor 15, the drain line 16. The pressure in the hydraulic line 26 drops and the spring 25 returns the valve 18 to its original open position, opening free access of air to the radiator 23 through channel 21, i.e. when the spool 15 of the distributor 15 is brought to the "harvesting part is turned on" position and back to its original position, a full cycle of the cleaning mechanism of the engine radiator air intake mesh is performed. If necessary, the full cycle of the cleaning mechanism of the engine radiator air intake mesh can be repeated several times.

During the operation of the harvester in the field from the influence of the drive belt 5, through the tension pulley 3, the rod of the actuating hydraulic cylinder 10 is extended, the working fluid enters its cavity from the drain line 16 through the distributor 15, the shut-off valve 12 and the hydraulic line 11, and gradually accumulates. The presence of a shut-off valve 12 does not allow the spring 4 to return the rod of the hydraulic cylinder 10 to its original position. The need for periodic cleaning of the air intake grid of the engine radiator, which is carried out by its hydraulic drive, by moving the spool of the distributor 15 to the "reaping part" position, eliminates slipping of the drive belt 5, because the hydraulic cylinder 10 at this moment is connected to the hydraulic tank 17 through the hydraulic line 11, the open shut-off valve 12, the cavity of the shut-off device 13, the distributor 15, its drain line 16 and the spring force 4, its rod is returned to its original position.

When driving the combine, when the clutch is disconnected, cleaning the mesh of the air intake of the engine radiator is as follows. The spool of the distributor 15 is repeatedly displayed in the position "reaping part is included" and in the initial position until the air intake grid is completely cleaned. After that, the spool of the distributor 15 is displayed in a different position, in the position "reaping is off" and returns to its original position.

Thus, connecting to a distributor having a hydraulically controlled shut-off device containing one shut-off valve, hydraulic drives of the harvester shut-off mechanism and a cleaning mechanism of the engine radiator air intake mesh ensures the functioning of both mechanisms, eliminates the slipping of the first and spontaneous shut-off of the harvesting part.

Claims (1)

Combine harvester containing a harvester shut-off mechanism, the plunger-type actuating cylinder of which is connected to a source of pressure of the working fluid and to the hydraulic tank via a hydraulically controlled shut-off device of the distributor, a mechanism for cleaning the mesh of the air intake of the radiator of the engine with an actuating hydraulic cylinder of the plunger type, characterized in that the hydraulically-controlled shut-off device of the distributor is made with one shut-off valve, and the hydraulic cylinder of the cleaning mechanism of the air intake mesh radiator motor connected via a valve to the tank.