KR100565375B1 - apparatus to operate a leveling valve for a air suspension - Google Patents

Abstract

The present invention relates to a manipulator of a leveling valve mounted to an air suspension, and more particularly to a manipulator of a leveling valve in which the length of the garage rod of the leveling valve can be varied.

Description

{Apparatus to operate a leveling valve for a air suspension}

1 is a perspective view showing an operation device of a conventional leveling valve.

Figure 2 is an exploded perspective view showing a conventional leveling valve.

Figure 3 is a front view showing the operating device of the leveling valve according to a preferred embodiment of the present invention.

4 is a cross-sectional view taken along line A-A of FIG.

<Description of the symbols for the main parts of the drawings>

100: valve body 150: hinge shaft

200: garage lever 300: garage road

310: hydraulic actuator portion 330: ball joint

350 housing 370 screw thread

400,410: Hydraulic Pipeline

The present invention relates to an operating device of a leveling valve mounted to an air suspension, and more particularly, to an operating device of a leveling valve in which the length of the garage rod of the leveling valve can be varied.

In general, the air spring for the air suspension supports the weight of the vehicle by using the elasticity of the air, absorbs vibrations and shocks from the road surface, and also attenuates irregular vibrations transmitted from the wheels to ensure safe driving.

The air spring is connected to the air tank through a leveling valve, and the compressed air of the air tank is provided through the inlet of the leveling valve or discharged through the exhaust port of the leveling valve.

As shown in FIG. 1, the operation device of the leveling valve is connected to an end of the garage lever 18, and a rotating plate (not shown) installed inside the valve body 12 is connected to the end of the garage lever 18. It works. The other end of the garage lever 18 is coupled to the garage rod 50 and the ball joint 51 disposed in a direction perpendicular to the garage lever 18. On the other hand, the other end of the garage rod is connected to the frame 60 by a ball joint 53.

Accordingly, in the leveling valve 10, the garage rod 50 and the garage lever 18 change the vertical displacement to the rotational displacement in accordance with the front and rear garages which are varied by the change in the vehicle body load. Rotate it).

As a conventional leveling valve, it is presented in the publication of Korean Patent Publication No. 2001-0063974.

2 is an exploded perspective view showing a conventional leveling valve.

As shown in FIG. 2, the leveling valve includes a first main body 12 having air inlets and outlets 24 and 26 formed therein, and the mouth in accordance with the rotation direction and the rotation angle thereof while rotating up and down depending on the garage. A valve plate 16 disposed on one side of the first main body 12 so as to selectively open and close the outlets 24 and 26 so that air may be introduced into or discharged from the air; The second main body 14, which is connected to the first main body 12, is connected to the first main body 12 with the valve plate 16 interposed therebetween, and the supply ports 46 and 48 communicating with the air 20 and supplying hydraulic pressure to the air springs of the left and right wheels. ) And a garage lever 18 mounted to one side hinge shaft end 36 of the valve plate 16.

With this configuration, when the garage lever 18 rotates upward due to the displacement of the vehicle body, the valve plate 16 communicates with the upper long hole 38 with the inlet 24, while the air is circular in the second main body 14. Inflow to the air 42 is supplied to the air spring through the air spring supply port 46, 48. Conversely, when the garage lever 18 rotates downward, the valve plate 16 communicates with the lower long hole 40 with the outlet 26. That is, the air that has been supplied to the cylindrical space portion 42 and the air spring side is discharged through the outlet. By this action, the air is supplied to or discharged from the air springs 8 and 10 so that the garage is adjusted to be constant.

However, the above-mentioned operation apparatus of the leveling valve has the following problems.

Garage rods of different lengths have to be manufactured for each vehicle or system, which not only leads to difficulty in dualizing and managing specifications, but also requires a great deal of time for design.

In addition, when the length of the garage rod is constant, when the road surface is uneven and the maximum garage displacement occurs, the rotating plate of the leveling valve may malfunction out of the operating range.

The present invention has been made to solve the above-described problems, and can be used to adjust the height of the garage while using a mechanical leveling valve can be used in different lengths for each vehicle or system, the ease of use and common management of parts It is an object of the present invention to provide an operation device of a leveling valve, which can be reduced in cost.

In addition, it does not require a separate review in the design, and only the maximum and minimum values of the garage rod length need to be considered, thereby providing an operation device for a leveling valve that can shorten the working time.

Furthermore, when the maximum garage displacement occurs due to the uneven road surface, the hydraulic actuator unit is driven to prevent the rotating plate of the leveling valve from moving out of the operating range, thereby providing a leveling valve operating device that can prevent the leveling valve from malfunctioning. .

Another feature of the present invention is to provide an operating device of a leveling valve which can reduce the interference and the number of parts of components and can increase the space utilization in design.

In the operation device of the leveling valve of the present invention for achieving the above object, in the operation device of the leveling valve to receive the air from the air tank to control the operation of the leveling valve,

A garage lever connected to the valve body of the leveling valve so as to be hinged; A garage rod coupled to the end of the garage lever; Including the frame coupled to the other end of the garage rod,

The garage rod may be equipped with a hydraulic actuator part to vary the length of the garage rod.

According to this configuration, it is possible to perform the height adjustment function while using a mechanical leveling valve, so that the garage rods can be used in different lengths for each vehicle or system, thereby reducing the cost due to the easy sharing and management of the parts.

In addition, the design time is not required to be reviewed, and only the maximum and minimum values of the garage rod length are taken into consideration, thus reducing the work time.

In addition, when the road surface is uneven and the maximum garage displacement occurs, the hydraulic actuator portion is driven to prevent the rotating plate of the leveling valve from moving out of the operating range, thereby preventing the leveling valve from malfunctioning.

In the above-described configuration, the housing is mounted on the lower end of the hydraulic actuator portion, the housing is mounted with a screw portion to be coupled to the frame,

When the hydraulic passage communicating with the hydraulic actuator portion and penetrating the housing and the screw portion is formed, the interference of the components and the number of components can be reduced, and the space utilization in the design is increased.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

For reference, among the configurations of the present invention to be described below, the same configuration as the prior art will be referred to the above-described prior art, and a detailed description thereof will be omitted.

3 is a front view showing the operation device of the leveling valve according to a preferred embodiment of the present invention, Figure 4 is a cross-sectional view taken on line A-A of FIG.

3 and 4, the operation device of the leveling valve of the present embodiment is a valve body 100 of the leveling valve in the operating device of the leveling valve that receives the air from the air tank to control the operation of the leveling valve. And a garage lever 200 hingeably connected to the valve body 100, a garage rod 300 coupled to an end of the garage lever 200, and coupled to the other end of the garage rod 300. It comprises a frame (not shown).

Inside the valve body 100, a rotating plate (not shown) is rotatably mounted.

The garage lever 200 is hingedly connected to the hinge shaft 150 of the rotating plate that extends out of the valve body 100.

One end of the garage rod 300 is a ball joint 330 is formed.

As shown in FIG. 4, the garage rod 300 is equipped with a hydraulic actuator 310.

The hydraulic actuator unit 310 is shown in detail in Korean Patent Registration No. 0172639, which is assumed to belong to the present specification.

That is, the hydraulic actuator 310 is capable of adjusting the discharge flow rate according to the direction control valve controlled by the proportional solenoid, so that the piston inside the cylinder of the hydraulic actuator 310 is slid by the height of the discharge flow rate.

Thus, the garage rod 300 is the length is adjusted according to the input of the control current value of the hydraulic actuator 310.

The other end of the garage rod 300 is formed with a screw portion 370 is screwed to the frame.

The operation of this embodiment having the above-described configuration will be described below.

The garage rod 300 is equipped with a hydraulic actuator part 310 to adjust the length of the garage rod 300 according to the input of the control current value using the discharge flow rate of the oil.

That is, the opening and closing position of the air can be adjusted by driving the hydraulic actuator unit 310 to move the reference position (zero point).

As a result, it is possible to perform a garage adjustment function while using a mechanical leveling valve, so that the garage rod 300 can be used in different lengths for each vehicle or system, thereby reducing costs due to the ease of use and management of parts.

In addition, the design time does not require a separate review, and only the maximum and minimum values of the length of the garage rod 300 need to be considered, thus reducing the work time.

In addition, when the road surface is uneven and the maximum garage displacement occurs, the hydraulic actuator 310 is driven to prevent the rotating plate of the leveling valve from moving out of the operating range, thereby preventing the leveling valve from malfunctioning.

Furthermore, in addition to the control logic of the Electronic Control Suspension System (ECS), it is possible to determine the roughness of the road surface and to actively adjust the height of the vehicle continuously.

On the other hand, it is preferable that the housing 350 is mounted on the lower end of the hydraulic actuator part 310, and the screw part 370 is mounted on the housing 350 so as to be coupled to the frame.

Here, a hydraulic conduit 400 is formed in communication with the hydraulic actuator 310, penetrating the housing 350 and the screw 370, and allowing oil to enter and exit the hydraulic actuator 310.

At this time, the hydraulic pipe line 400 is preferably formed to penetrate the central portion of the screw portion 370.

On the other hand, the hydraulic duct 410 is formed on the outer circumferential surface of the garage rod 300 to the oil in and out of the hydraulic actuator 310.

Thus, when the hydraulic pipe 400 is formed in the central portion of the screw portion 370, the interference of the parts and the number of parts can be reduced, and the space utilization in the design is increased.

As described above, although described with reference to a preferred embodiment of the present invention, those skilled in the art various modifications of the present invention without departing from the spirit and scope of the invention described in the claims below. Or it may be modified.

According to the operating device of the leveling valve of the present invention as described above, there are the following effects.                     

The hydraulic actuator part is mounted on the garage rod, so that it is possible to perform the garage adjustment function while using the mechanical leveling valve, so that the garage rod can be used in different lengths for each vehicle or system, thereby reducing the cost due to the ease of use and common parts management .

In addition, the design time is not required to be reviewed, and only the maximum and minimum values of the garage rod length are taken into consideration, thus reducing the work time.

In addition, when the road surface is uneven and the maximum garage displacement occurs, the hydraulic actuator portion is driven to prevent the rotating plate of the leveling valve from moving out of the operating range, thereby preventing the leveling valve from malfunctioning.

Furthermore, in addition to the control logic of the Electronic Control Suspension System (ECS), it is possible to determine the roughness of the road surface and to actively adjust the height of the vehicle.

On the other hand, by forming a hydraulic passage communicating with the hydraulic actuator portion and penetrating the central portion of the housing and the screw portion, it is possible to reduce the interference and the number of parts of the components, and to increase the space utilization in the design.

Claims (2)

delete In the operating device of the leveling valve for receiving air from the air tank to control the operation of the leveling valve, A garage lever connected to the valve body of the leveling valve so as to be hinged; A garage rod coupled to the end of the garage lever; Including the frame coupled to the other end of the garage rod, The garage rod is equipped with a hydraulic actuator portion may be variable in length of the garage rod, A housing is mounted on the lower end of the hydraulic actuator portion, The housing is mounted with a screw portion to be coupled to the frame, And a hydraulic conduit communicating with the hydraulic actuator portion and passing through the housing and the screw portion.

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