KR101210754B1 - An apparatus for controlling the angle of a swash plate of a hydraulic pump - Google Patents

Abstract

The present invention relates to a swash plate angle control device for a hydraulic pump, and more particularly, to a swash plate angle control device for a hydraulic pump for fixing the angle of the swash plate at a desired position using an electric motor and an electromagnet. The swash plate angle control device of the hydraulic pump according to an embodiment of the present invention is a device for controlling the swash plate angle of the hydraulic pump having a swash plate and a swash plate shaft rotatable in combination with the swash plate, and is directly connected to the swash plate shaft, or An electric motor for rotating the swash plate by transmitting rotational force through a link connected to the shaft; And an electromagnet for generating a magnetic force such that the position of the swash plate changed according to the driving of the electric motor is fixed at a target angle.

Description

Swash plate angle control device of hydraulic pump {AN APPARATUS FOR CONTROLLING THE ANGLE OF A SWASH PLATE OF A HYDRAULIC PUMP}

The present invention relates to a swash plate angle control device for a hydraulic pump, and more particularly, to a swash plate angle control device for fixing a swash plate angle at a desired position using an electric motor and an electromagnet.

A tractor or a work vehicle may install a plow or a rotary machine and perform agricultural work using power of an engine, or attach a loader or a mower to perform various tasks. The tractor or work vehicle can be driven at various speeds through the engine and the transmission, and like the car, the technology of manual shifting, automatic shifting or continuously variable shifting is applied.

1 to 3 are views for explaining the swash plate angle control of the conventional HST (Hydro Static Transmission), Figure 4 is a graph showing the change in the angle of the actual swash plate when controlling the swash plate angle in the configuration of FIG.

1 to 3, the HST includes a hydraulic pump 12 and a hydraulic motor 13 of an axial piston type. When the engine 11 drives the hydraulic pump 12, the hydraulic pump ( Hydraulic pressure is transmitted to the hydraulic motor 13 through a flow path connected to 12, and the hydraulic motor 13 generates a rotational force by the hydraulic pressure transmitted from the hydraulic pump 12 to move the wheel 18 through the deceleration device 17. Rotate

Here, by changing the angle of the rotatable swash plate 14, the flow rate can be changed by increasing or decreasing the amount of operating oil of the hydraulic pump 12, and thus the rotational direction of the output shaft of the hydraulic motor 13 And rotation speed can be adjusted.

In FIG. 1, the swash plate 14 of the hydraulic pump 12 is directly connected to the driver's pedal 15, and the driver can operate the pedal 15 to shift the vehicle in a desired rotational direction and rotational speed. This method is easy to construct at low cost, but when the load is applied to the wheel 18, the pressure of the hydraulic pump 12 and the hydraulic motor 13 is increased, the large torque is applied to the swash plate 14, Since the driver takes a great force to operate the pedal 15, there is a disadvantage that the ease of operation is reduced.

In FIG. 2, a hydraulic valve 25 connected to the swash plate 24 of the hydraulic pump 12 is added to control the operation of the swash plate 24 by hydraulic pressure, regardless of the load from the wheel 18 of the vehicle. The angle of the swash plate 24 can be manipulated with a constant force. In addition, the automatic hydraulic valve 25 may be installed to perform automatic shifting to meet the conditions, but this method has a disadvantage in that the cost is high.

In FIG. 3, the operation of the swash plate 34 is controlled by the rotational force of the electric motor 35 by adding an electric motor 35 connected to the swash plate 34 of the hydraulic pump 12. This method is low cost and can be shifted independently of the load. However, this method has a problem that control of the electric motor 35 is difficult.

That is, as shown in FIG. 4, under load conditions in which a load is generated on the wheels 18, while the pressures of the hydraulic pump 12 and the hydraulic motor 13 increase, a force to return the swash plate 34 to the neutral position is generated. Therefore, the electric motor 35 applies rotational force to the swash plate 34 to move the swash plate 34 out of the control region back to the target position through feedback control. However, in this process, while the angle of the swash plate 34 rumbles in the control region, rumble occurs in the driving vehicle, causing discomfort to the driver, and acts as a factor that lowers the durability of the electric motor 35.

In order to solve this problem, the capacity of the electric motor 35 may be increased, or a worm gear or a screw may be added to the electric motor 35 to prevent the power from being released, but the size of the motor increases and the cost increases. Occurs.

It is an object of the present invention to provide a swash plate angle control device of a hydraulic pump capable of fixing the angle of the swash plate at a desired position using an electric motor and an electromagnet.

The swash plate angle control device of a hydraulic pump according to an embodiment of the present invention for achieving the above object is a device for controlling the swash plate angle of the hydraulic pump having a swash plate and a swash plate shaft rotatable in combination with the swash plate, the swash plate shaft An electric motor connected directly to or rotating the swash plate by transmitting rotational force through a link connected to the swash plate shaft; And an electromagnet for generating a magnetic force such that the position of the swash plate changed according to the driving of the electric motor is fixed at a target angle.

The electromagnet may be mounted inside the electric motor to stop rotation by applying a magnetic force to the rotation shaft of the electric motor.

The electromagnet is disposed adjacent to the link connecting the swash plate shaft and the electric motor, it is possible to fix the position of the link by applying a magnetic force to the link.

The electromagnet is switched off when the electric motor is driven. When the angle of the swash plate reaches a target angle, the electromagnet may be switched on to fix the position of the swash plate by magnetic force.

The swash plate angle control device of the hydraulic pump according to the present invention has an effect of fixing the angle of the swash plate at a desired position using an electric motor and an electromagnet.

In addition, the swash plate angle control device of the hydraulic pump according to the present invention can reduce the operation of the frequent electric motor by adding an electromagnet, there is an effect that can improve the durability of the electric motor.

In addition, the swash plate angle control device of the hydraulic pump according to the present invention has a simple configuration, there is an effect that can be used in addition to the existing transmission at a low cost.

1 to 3 are diagrams for explaining swash plate angle control of a conventional HST (Hydro Static Transmission).
4 is a graph showing an angle change of the actual swash plate when the swash plate angle is controlled by the configuration of FIG. 3.
5 and 6 are diagrams schematically showing the swash plate angle control device of the hydraulic pump according to an embodiment of the present invention.
7 and 8 are diagrams schematically showing the swash plate angle control device of the hydraulic pump according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the swash plate angle control device of the hydraulic pump according to the preferred embodiments of the present invention.

5 and 6 are diagrams schematically showing the swash plate angle control device of the hydraulic pump according to an embodiment of the present invention.

5 and 6, the swash plate angle control device of the present invention includes an electric motor 150 and an electromagnet 160. Power transmitted from the engine 11 travels in the direction of the deceleration device 17 via the HST 120 and the transmission 16. Since the structure of the engine 11, the HST 120, the reduction gear 17, etc. is the same as or similar to the conventional apparatus, description is abbreviate | omitted.

The electric motor 150 rotates the swash plate 140 by being directly connected to the swash plate shaft 142 of the hydraulic pump 12 or by transmitting rotational force through the links 122 and 124 connected to the swash plate shaft 142. . In FIG. 6, the electric motor 150 is connected to the swash plate shaft 142 by the links 122 and 124, but the electric motor 150 may be directly connected to the swash plate shaft 142. The swash plate shaft 142 is rotatably integrated with the swash plate 140 in combination with the swash plate 140.

The electromagnet 160 generates a magnetic force so that the position of the swash plate 140 changed according to the driving of the electric motor 150 is fixed at a target angle. In an embodiment of the present invention, the electromagnet 160 is mounted inside the electric motor 150 to stop the rotation by applying a magnetic force to the rotating shaft of the electric motor 150.

The electromagnet 160 is magnetized when current flows, and generates a magnetic force. When the electromagnet 160 is operated when the electric motor 150 is driven, the electromagnet 160 may cause a malfunction of the electric motor 150 by the magnetic force. Therefore, the electromagnet 160 is not switched off when the electric motor 150 is driven and does not operate. When the angle of the swash plate 140 reaches the target angle by driving the electric motor 150, the switch is switched. When turned on (ON) it can be fixed to the rotating shaft of the electric motor 150 by a magnetic force.

That is, once the angle of the swash plate 140 reaches the target angle, the driving of the electric motor 150 may be stopped and the electromagnet 160 may be operated to keep the angle of the swash plate 140 constant. Accordingly, it is not necessary to periodically drive the electric motor 150 in order to maintain the angle of the swash plate 140 under load conditions, and the vehicle's rumble due to the feedback control of the electric motor 150 does not occur.

7 and 8 are diagrams schematically showing the swash plate angle control device of the hydraulic pump according to another embodiment of the present invention.

7 and 8, the swash plate angle control device of the present invention includes an electric motor 250 and an electromagnet 260 disposed adjacent to the links 222 and 224.

The electric motor 250 rotates the swash plate 240 by transmitting rotational force through the links 222 and 224 connected to the swash plate shaft 242. Since the present invention configures the control device using the electric motor 250, the vehicle can be shifted independently of the load of the wheels 18 at low cost.

The electromagnet 260 is disposed adjacent to the links 222 and 224 connecting the swash plate shaft 242 and the electric motor 250, and the magnetic force is applied to the links 222 and 224 to position the links 222 and 224. Fix it. As the links 222 and 224 are fixed by the magnetic force of the electromagnet 260, the rotation of the rotating shaft of the electric motor 250 is also stopped.

As described above, the electromagnet 260 is not switched off and driven when the electric motor 250 is driven, and is switched on when the angle of the swash plate 240 reaches a target angle by driving the electric motor 250. As the current flows, a magnetic force may be generated to fix the rotating shaft of the electric motor 250.

The size and capacity of the electromagnets 160 and 260 can be variously changed in consideration of the desired strength of magnetic force according to the rotation shafts of the electric motors 150 and 250 and the material of the link.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, And additions should be considered as falling within the scope of the following claims.

11: Engine
12: hydraulic pump
13: hydraulic motor
14, 24, 34: Saphan
15: Pedal
16: transmission
17: reduction gear
18: wheels
25: hydraulic valve
35: electric motor
120, 220: HST
140, 240: swash plate
142, 242: swash plate axis
122, 124, 222, 224: link
150, 250: electric motor
160, 260: electromagnet

Claims (4)

An apparatus for controlling the swash plate angle of a hydraulic pump having a swash plate and a swash plate axis rotatable in combination with the swash plate,
An electric motor which is directly connected to the swash plate shaft or transmits a rotational force through a link connected to the swash plate shaft to rotate the swash plate; And
It includes an electromagnet for generating a magnetic force so that the position of the swash plate which is changed in accordance with the drive of the electric motor is fixed at the target angle,
The electromagnet is switched off when the electric motor is driven, and when the angle of the swash plate reaches the target angle, the electromagnet is switched on (ON) to fix the position of the swash plate by magnetic force Swash plate angle control device of the pump. The swash plate angle control device of claim 1, wherein the electromagnet is mounted inside the electric motor to stop rotation by applying a magnetic force to a rotation shaft of the electric motor. According to claim 1, The electromagnet is disposed adjacent to the link connecting the swash plate shaft and the electric motor, the swash plate angle control device of the hydraulic pump, characterized in that to fix the position of the link by applying a magnetic force to the link. . delete

Images