KR20200077002A - Counter balance valve for heavy equipment - Google Patents

Abstract

The present invention relates to a counter balance valve for heavy equipment. According to the present invention, the counter balance valve comprises: a valve body in which a first flow path and a second flow path are formed and an inner space formed in one longitudinal direction is formed; a counter spool disposed between the inner one side of the valve body and a damping space to operate along the longitudinal direction; a check valve member operated on an inner groove of the counter spool formed along the longitudinal direction by hydraulic pressure flowing into the inner space from the first flow path; and a relief valve member provided at a rear of the check valve member than at the front end thereof and operated in conjunction with the check valve member. According to the present invention, by performing a complex function while maintaining the function of the counter balance valve, the structure can be simplified, and it is more advantageous in terms of weight and cost.

Description

Counter balance valve for heavy equipment{COUNTER BALANCE VALVE FOR HEAVY EQUIPMENT}

The present invention relates to a counter balance valve for heavy equipment for controlling the flow of hydraulic oil discharged and delivered from a hydraulic pump.

The counter balance valve is installed on heavy equipment such as an excavator or a crane, and is intended to smoothly operate a hydraulic system or a traveling device of heavy equipment by controlling hydraulic oil delivered from a hydraulic motor.

1 schematically shows a counter balance valve 1 mounted between a hydraulic motor and an operation unit, and such a counter balance valve 1 is a valve body having a plurality of flow paths formed therein, while moving in the valve body, Switching the connection, including a spool in which a through hole through which hydraulic oil can communicate, a spring for biasing the spool, etc., responds quickly when a heavy machine is operating or stopping, minimizing pushing when the heavy machine stops running It is possible to reduce the impact generated when running and stopping heavy machinery or operating and stopping hydraulic devices, and to stably maintain the output from the hydraulic motor for driving or working of heavy machinery.

As shown in the figure, a pair of check valves 3 are separately provided for opening and closing the flow path of hydraulic oil together with the counter balance valve 1, and also a relief for lowering and supplying the hydraulic pressure supplied by the counter balance valve 1 The valve 2 is provided separately.

As described above, a check valve and a relief valve are separately provided together with a counter balance valve to supply hydraulic pressure to heavy equipment, thereby complicating the structure, weight and cost, and disadvantages in manufacturing and maintenance processes.

The above description of the background art is for helping understanding of the background of the invention, and may include matters other than the prior art already known to those skilled in the art to which this technology belongs.

Korean Patent Publication No. 10-2018-0115025

The present invention has been devised to solve the above-mentioned problems, and the present invention can simplify the structure by performing a complex function while maintaining the function of the counter balance valve, and provides a counter balance valve for heavy equipment that is more advantageous in weight and cost. It has its purpose.

Counter balance valve according to one aspect of the present invention, the first flow path and the second flow path is formed, the valve body having an inner space formed in a longitudinal direction in one direction, between the inner side and the damping space of the valve body Counter spools placed and operated along the longitudinal direction, check valve members and check valve members operated on the inner grooves of the counter spools formed along the longitudinal direction by hydraulic pressure flowing into the inner space from the first flow path It is provided at the rear than the front end, and includes a relief valve member that is operated in conjunction with the check valve member.

In addition, one side may further include a counter spring that supports a spring support end extending laterally from the side of the counter spool, and the other side supports an inner step formed on the damping space side.

Here, the check valve member includes a valve rod formed in a length direction equal to a length direction of an inner groove of the counter spool, and a push end formed in a front end of the valve rod having a diameter larger than a diameter of the valve rod.

In addition, a check valve support member through which the valve rod passes and has an outer diameter corresponding to the inner surface of the counter spool and one side are coupled with the check valve support member, and the other side is a check valve coupled on the inner groove surface of the counter spool. It may further include a spring.

On the other hand, the relief valve member, the through hole is formed in the longitudinal direction and lateral, the valve rod through the through hole is coupled with the check valve member, the outer diameter of the push end is larger than the diameter of the through hole It is characterized by.

And, the relief valve member is characterized in that the outer diameter is larger than the inner diameter of the counter spool.

Further, a check valve support member through which the valve rod passes and has an outer diameter corresponding to the inner surface of the counter spool, and one side supports a rear surface of the relief valve member, and the other side is a relief valve spring supporting the check valve support member. It may further include.

And, in the valve body, a relief valve blocking end for preventing the protrusion of the relief valve member is formed inward, and when hydraulic pressure is not supplied to the valve body through the first flow path, the front end of the relief valve is the relief valve. It is characterized by contact with the jersey.

In addition, when hydraulic pressure is supplied to the valve body through the first flow path, the check valve member and the relief valve member are retracted so that the first flow path and the second flow path formed behind the first flow path communicate with each other. It is characterized by.

Further, when hydraulic pressure is supplied to the valve body through the second flow path, the check valve member and the relief valve member are operated forward, but the relief valve member is prevented from moving forward by the relief valve blocking end, thereby preventing The hydraulic pressure introduced into the 2 flow paths is characterized in that it is supplied to the first flow path through a spaced apart space between the relief valve member and the push end via a through hole of the relief valve member.

According to the counter balance valve of the present invention, the functions of the check valve and the relief valve are performed while maintaining the functions of the counter balance valve, so that separate check valves and relief valves are not required.

Accordingly, it is possible to make the structure more concise than before, and to reduce weight and cost.

In addition, manufacturing processes and maintenance processes such as decomposition are also more economical.

1 shows a conventional counter balance valve.
Figure 2 shows a counter balance valve for heavy equipment according to the present invention.
3 and 4 show the operating state of the counter balance valve for heavy equipment according to the present invention.

In order to fully understand the present invention, the operational advantages of the present invention, and the objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the contents described in the accompanying drawings, which illustrate preferred embodiments of the present invention.

In describing preferred embodiments of the present invention, well-known techniques or repetitive descriptions that may unnecessarily obscure the subject matter of the present invention will be reduced or omitted.

Figure 2 shows a counter balance valve for heavy equipment according to the present invention.

Hereinafter, a counter balance valve for heavy equipment according to an embodiment of the present invention will be described with reference to FIG. 2.

The counter balance valve for heavy equipment according to the present invention functions as a counter balance valve including a valve body 110, a counter spool 120, a counter spring 130, and the like, and also a check valve member 210 and a relief valve member ( 310) is integrally configured to perform functions as a check valve and a relief valve.

The valve body 110 forms the appearance of the counter balance valve, the first flow path 10 and the second flow path 20 are formed, the counter spool 120, the check valve member 210 and the relief on the inner space The valve member 310 and the like are accommodated.

As illustrated, the inner space is formed in a longitudinal direction in one direction, and a counter spool 120 is provided on the longitudinal direction to operate along the longitudinal direction.

To this end, the damping space 111 is formed by being spaced between one side of the counter spool 120 and the inside of the valve body 110.

In addition, a relief valve blocking end 113 for preventing protrusion of the relief valve member 310 to be described later is formed in the inner space.

In addition, a counter spring 130 is provided to elastically support the counter spool 120. To this end, a spring support end 121 extending laterally from the side is formed in the counter spool 120, and the valve body 110 is provided. Since the inner step portion 112 is formed on the damping space 112 side, one side of the counter spring 130 is combined with the inner step portion 112 and the other side is combined with the spring support end 121.

Furthermore, a separate support plate 122 may be coupled between the spring support end 121 and the counter spool 130.

And, the counter spool 120 is provided in a cylindrical shape with a groove formed inside, as shown in the figure, and an upper portion (corresponding to the left side in the city) being opened.

Next, the check valve member 210 is arranged to be operated on the inner groove of the counter spool 120, and is composed of a valve rod 211 and a push end 212.

The valve rod 211 is provided in the same length direction as the longitudinal direction of the inner groove of the counter spool 120, and the valve rod 211 penetrates to support the center and the outer diameter corresponding to the inner surface of the counter spool 120 A check valve support member 220 having a valve rod 211 is supported.

Further, the push end 212 is for pressurizing the relief valve member 310 to be described later, and is larger than the diameter of the through hole 311 of the relief valve member 210, and the inner diameter of the relief valve blocking end 113 to be described later. It has a smaller diameter.

In order to elastically support the check valve member 210, a check valve spring 230 is provided. The check valve spring 230 is coupled to the check valve support member 220 on one side and the counter groove on the other side of the counter spool 120. It will be bound on the face.

Next, the relief valve member 310 is formed with a through hole 311 in the longitudinal direction and side as shown, the valve rod 211 of the check valve member 210 penetrates the through hole 311 in the longitudinal direction. It is coupled to the check valve member 210.

In addition, the outer diameter of the push end 212 of the check valve member 210 is larger than the through hole 311 and when the check valve member 210 is pressed, the relief valve member 310 is also configured to be pressed together.

In addition, the size of the outer diameter is larger than the size of the inner diameter of the counter spool 120, and has a structure that is not inserted into the inner groove of the counter spool 120 even when pressed.

In order to elastically support the relief valve member 310, a relief valve spring 320 is provided. One side of the relief valve spring 320 supports the rear side of the relief valve member 310 and the other side check valve support member 220. ).

The operating state of the counter balance valve for heavy equipment according to the present invention as described above will be described with reference to FIGS. 3 and 4.

3 shows a state in which the check valve member 210 is operated.

The first flow path 10 is formed on one side of the valve body 110, is formed at a position corresponding to the push end 212 of the check valve member 210, and the upper side of the relief valve stopper 113 (not shown) Upper left).

So, in the state as shown in FIG. 2 where hydraulic pressure is not supplied through the first flow path 10, the relief valve member 310 is in contact with the relief valve stopper 113, so the first flow path 10 and the second flow path 20 ) Is not communicated.

At this time, when hydraulic pressure is supplied through the first flow path 10, the check valve member 210 operates as shown in FIG. 3.

That is, the hydraulic pressure flowing through the first flow path 10 presses the check valve member 210 to retract the check valve member 210 and the relief valve member 310 together.

Then, the check valve spring 230 is compressed, and the relief valve blocking end 113 and the relief valve member 310 are spaced apart so that the first flow path 10 and the second flow path 20 communicate with the second flow path ( 20) to supply hydraulic pressure.

Thereafter, when the hydraulic pressure is supplied to the second flow path 20 above the reference, the hydraulic pressure is reversed as shown in FIG. 4 to supply hydraulic pressure from the second flow path 20 to the space inside the valve body 110.

Thus, when the hydraulic pressure is no longer supplied through the first flow path 10, the check valve member 210 advances back to the first flow path 10 side by the restoring force of the check valve spring 230.

In this process, the relief valve member 310 is also advanced together, but the relief valve member 310 is prevented from moving forward by the relief valve blocking end 113.

Then, the hydraulic pressure supplied through the second flow path 20 flows into the relief valve member 310 through the through hole 311 formed on the side of the relief valve member 310, and the check valve member 210 is relieved. As the more advanced than the valve member 310, the push end 212 is spaced apart from the relief valve member 310 to the first flow path 10 through the through hole 311 formed in the longitudinal direction of the relief valve member 310. Hydraulic pressure is supplied.

As described above, the counter balance valve of the present invention operates such that the flow path is opened by the check valve member and the hydraulic pressure supplied through the relief valve member can be adjusted.

Although the present invention as described above has been described with reference to the exemplified drawings, it is not limited to the described embodiments, and it can be modified and modified in various ways without departing from the spirit and scope of the present invention. It is obvious to those who have it. Therefore, such modifications or variations will have to belong to the claims of the present invention, the scope of the present invention should be interpreted based on the appended claims.

110: valve body
111: damping space
112: inner step
113: relief valve stop
120: counter spool
121: spring support
122: support plate
130: counter spring
210: check valve member
211: valve rod
212: Pushdan
220: check valve support member
230: check valve spring
310: relief valve member
311: through hole
320: relief valve spring

Claims (10)

A valve body in which a first flow path and a second flow path are formed, and an inner space formed in a longitudinal direction in one direction is formed;
A counter spool disposed along the inner side of the valve body and a damping space to operate along the longitudinal direction;
A check valve member operated on the inner groove of the counter spool formed along the longitudinal direction by hydraulic pressure flowing into the inner space from the first flow path; And
A relief valve member provided behind the front end of the check valve member and operated in conjunction with the check valve member
Counter balance valve for heavy equipment comprising a. According to claim 1,
One side supports a spring support end extending laterally from the side of the counter spool, and the other side further includes a counter spring for supporting an inner step formed on the damping space side. According to claim 1,
The check valve member,
A valve rod formed in a length direction equal to the length direction of the inner groove of the counter spool; And
A push end having a diameter larger than the diameter of the valve rod and formed at the front end of the valve rod
Counter balance valve for heavy equipment comprising a. According to claim 3,
A check valve support member through which the valve rod passes and having an outer diameter corresponding to an inner surface of the counter spool; And
One side is coupled to the check valve support member, the other side is a counter balance valve for heavy equipment further comprising a check valve spring coupled to the groove surface inside the counter spool. According to claim 3,
The relief valve member,
Through-holes are formed in the longitudinal and lateral directions, the valve rod passes through the through-holes and is coupled with the check valve member,
A counter balance valve for heavy equipment, characterized in that the outer diameter of the push end is larger than the diameter of the through hole. The method of claim 5,
The relief valve member,
Counter balance valve for heavy equipment, characterized in that the outer diameter is larger than the inner diameter of the counter spool. The method of claim 6,
A check valve support member through which the valve rod passes and having an outer diameter corresponding to an inner surface of the counter spool; And
One side supports the back of the relief valve member, the other side is a relief valve spring supporting the check valve support member
Counter balance valve for heavy equipment further comprising a. The method of claim 5,
In the valve body, a relief valve blocking end for preventing protrusion of the relief valve member is formed inward,
If the hydraulic pressure is not supplied to the valve body through the first flow path, the front end of the relief valve is in contact with the relief valve stop end counter balance valve for heavy equipment. The method of claim 8,
When the hydraulic pressure is supplied to the valve body through the first flow path, the check valve member and the relief valve member are retracted so that the first flow path and the second flow path formed behind the first flow path communicate with each other. Counterbalance valve for heavy equipment. The method of claim 9,
When hydraulic pressure is supplied to the valve body through the second flow path, the check valve member and the relief valve member move forward, but the relief valve member is prevented from moving forward by the relief valve blocking end, so that the second flow path The hydraulic pressure introduced into the counter balance valve for heavy equipment, characterized in that it is supplied to the first flow path through a space spaced between the relief valve member and the push end via a through hole of the relief valve member.

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