KR20190097513A - Stop Valve For Hydraulic System - Google Patents

Abstract

The present invention relates to a stop valve for a hydraulic system and, more specifically, relates to a stop valve for a hydraulic system, which is disposed between hydraulic hoses to regulate a circulation state of hydraulic oil discharged from a hydraulic pump.

Description

Stop Valve for Hydraulic System

The present invention relates to a stop valve for a hydraulic system, and more particularly, to a stop valve for a hydraulic system disposed between the hydraulic hose, to regulate the circulation state of the hydraulic oil discharged from the hydraulic pump.

In general, a construction machine requires a large force due to its driving and working characteristics, and thus uses hydraulic pressure as its driving source.

As an example, heavy construction equipment such as excavators include hydraulic cylinders such as boom cylinders, arm cylinders and bucket cylinders driven by hydraulic pressure, and hydraulic motors such as swing motors and traveling motors are used as driving devices for work and driving. have.

On the other hand, the hydraulic motor used as a traveling motor of the hydraulic drive device of the construction machine is connected to the hydraulic pump is driven by the hydraulic oil supplied from the hydraulic pump bar, the hydraulic system is arranged a stop valve for intermitting the circulation of the hydraulic oil.

The stop valve includes: a body having a valve chamber; Is disposed in the valve chamber of the body in a rotational structure includes a spool to control the opening or closing of the valve chamber through isometric rotation, the circulation of the hydraulic oil is interrupted by the isometric rotation of the spool.

By the way, the following problems are pointed out in the conventional stop valve for hydraulic systems.

First, since the fixing piece for fixing with the device is not integrally formed in the body of the conventional stop valve, the fixing piece is separately welded to the body and then the welded fixing piece is fixed to the mounting surface of the device.

Therefore, in the related art, an increase in manufacturing cost is caused by separately manufacturing the fixing piece and assembling the manufactured fixing piece to the body, and in particular, thermal deformation of the body is caused during the welding process, thereby making it difficult to secure stable dimensional accuracy.

Secondly, in the related art, since there is no structure for limiting the isometric rotation angle of the spool, if the worker excessively rotates the spool excessively or rotates less, the interrupted hydraulic fluid may be leaked.

Third, in the related art, there is a problem that the intermittent state of the hydraulic oil is switched when the spool is arbitrarily rotated due to external interference, since a constraint structure for restraining the spool rotated is not provided.

Fourth, since the conventional stop valve is simply configured to interrupt the circulation of the hydraulic oil, it has a limit that is difficult to precisely control the flow rate of the hydraulic oil.

KR 10-2008-0059736 A KR 10-1217595 B1

An object of the present invention devised to solve the above problems, in forming the base to the body, by forming a body and the base integrally through the forging press processing is configured to enable a stable fixing with the simplification of the process according to the manufacturing and,

In particular, by providing a unique opening and closing structure between the body and the spool, the restraint structure of the spool, and the flow rate control structure, to provide a stop valve for the hydraulic system to ensure a stable operability and commonality.

The above object is achieved by the following configuration provided in the present invention.

The stop valve for the hydraulic system according to the present invention,

A body having a valve chamber formed at one side and the other side of which an opening is opened, and at both left and right sides thereof, the oil passage and the oil passage are opened;

A spool penetrating the valve chamber through the charging hole and having a valve hole formed therein, and a spool integrally supporting a rear end of the spool shaft portion on one outer wall of the body; And

It is characterized in that it comprises a snap ring which is assembled to the front end portion of the spool shaft portion extending to the other side of the body through the charging hole, the front end portion of the spool shaft portion to the other outer wall of the body.

Preferably, at least one sealing groove formed in the inner wall of the charging hole; It is inserted into each of the sealing groove, and further includes a sealing ring for elastically sealing between the outer diameter surface of the spool shaft portion and the inner diameter surface of the charging port.

More preferably, the stopper groove is formed so as to be recessed in the support rim portion and each end is formed on both sides; It is formed to protrude on one side of the body is configured to further comprise a stopping portion including a restraining pin to limit the angle of rotation of the spool by attaching the adhered end of the stopping groove.

As described above, in the present invention, by forming a simplified assembly structure between the body and the spool, it is possible to formally assemble while forming a stable sealed state in the valve chamber formed in the body.

In the present invention, the body and the fixing piece are integrally formed through the forging press process, and the body is fixed to the fixing surface, and defects caused by welding the fixing piece to the body can be eliminated and the manufacturing process can be eliminated.

In particular, in the present embodiment, by forming a unique opening and closing structure between the body and the spool, the restraint structure of the spool, and the flow rate control structure, respectively, improved operability and operational stability are secured, and it is possible to apply to various capacities through the flow rate adjustment. Possible commonality is ensured.

1 and 2 show the overall configuration of the stop valve for the hydraulic system proposed in the first and second embodiments of the present invention,
3 is a stop valve for a hydraulic system proposed as a preferred embodiment of the present invention, showing a cross-sectional configuration of the body,
4 is a stop valve for a hydraulic system proposed as a preferred embodiment of the present invention, showing the rotation angle restriction structure of the spool, and the restrained state of the spool rotated isometric,
In the stop valve for the hydraulic system shown in Figure 5 and Figure 1, it shows the flow rate control by the control shaft,
6 is a stop valve for the hydraulic system shown in Figure 2, showing a flow rate control state by the control shaft.

Hereinafter, a stop valve for a hydraulic system proposed as a preferred embodiment of the present invention with reference to the accompanying drawings will be described in detail.

1 and 2 show the overall configuration of the stop valve for the hydraulic system proposed in the first and second embodiments in the present invention, Figure 3 is for a hydraulic system proposed as a preferred embodiment in the present invention In the stop valve, it shows a cross-sectional configuration of the body, Figure 4 is a stop valve for a hydraulic system proposed as a preferred embodiment in the present invention, the rotation angle restriction structure of the spool, and the constraint state of the spool rotated isometric 5 and the stop valve for the hydraulic system shown in Figure 1, showing the flow rate adjustment state by the control shaft, Figure 6 is the stop valve for the hydraulic system shown in Figure 2, It shows the flow control by.

The stop valve 1 for the hydraulic system proposed as a preferred embodiment of the present invention performs a function of opening and closing the circulation of the hydraulic oil disposed in the hydraulic system and circulated by the driving of the hydraulic pump.

The stop valve 1 includes a body 10 having a valve chamber 12 communicating with an oil supply side hydraulic hose H1 and an oil supply side hydraulic hose H2, and a valve chamber 12 formed in the body 10. It includes a spool 20 to control the opening and closing state of the) to control the supply of hydraulic oil.

According to this embodiment, the body 10 includes a casting molding process for casting a metal body; A shape correction process of correcting a shape by hot forging pressing the cast-molded metal body; A cutting process of cutting each part of the shape-corrected metal body to form a valve chamber; And a heat treatment step of heat-treating the metal body after the cutting process, wherein the fixed piece 11 is integrally formed on one side of the body 10.

As such, the body 10 in which the fixing piece 11 is integrally formed has an improved dimension along with a stable strength of the body itself, while eliminating the hassle connection process of forming the fixing piece separately manufactured on the conventional body by welding. Have precision.

Then, the fixing piece 11 is formed with a fixing hole (11a) is in close contact with the mounting surface through the fixing piece 11, and then enters along the fixing hole (11a) fixing bolts (B) fastened to the mounting surface It is fixed to the mounting surface stably by this.

On the other hand, the body 10 is formed integrally with the fixing piece 11 is formed so that the charging hole 13 is open on one side and the other side, respectively, and the oil passage 14a and the drain passage 14b are opened on both left and right sides. And a valve chamber 12 of "+" shape.

The oil supply side hydraulic hose H1 is connected to the oil supply path 14a through a nipple, and the oil supply side hydraulic hose H2 is connected to the oil supply path 14b through a nipple, thereby providing a valve chamber ( 12 communicates with the oil supply side hydraulic hose H1 and the oil supply side hydraulic hose H2 of the hydraulic system, respectively.

In addition, the oil supply side hydraulic hose H1 and the oil supply side hydraulic hose H2 communicating with the valve chamber 12 are interrupted by the isometric rotation of the spool 20 disposed in the valve chamber 12.

The spool 20 is installed to penetrate the valve chamber 12 through the charging hole 13 and has a valve hole 21a formed therein, and a tail of the spool shaft portion 21 and the body 10. A support rim 22 supporting one side wall of the side) is integrally formed.

In the present embodiment, the valve chamber is assembled with the snap ring 30 supported on the outer wall of the body 10 at the distal end of the spool shaft 21 which has advanced to the other side of the body 10 through the charging hole 13. The front end of the spool 20 penetrating 12 is supported on one outer wall of the body 10 through the snap ring 30 and the rear end is supported on the other outer wall of the body 10 through the support rim 22, so that the body In the valve chamber 12 of 10, the spool 20 is assembled in a rotational structure.

At this time, a washer member 31 made of Teflon is disposed between the inner wall of the snap ring 30 and the other outer wall of the body 10 facing each other, and the snap ring 20 and the body 10 are formed by the washer member 31. To avoid direct friction between them.

In addition, at least one sealing groove 13a is formed in the inner diameter of the charging hole 13 facing the outer diameter of the spool shaft portion 21, and the outer diameter surface and the sheet of the spool shaft portion 21 are formed in the respective sealing grooves 13a. A sealing ring 23 for elastically sealing between the inlets 13 is inserted, so that the inner diameter of the charging hole 13 and the outer diameter of the spool shaft portion 21 are formed in a multi-stage sealing state by the sealing ring 23. .

In addition, in the present embodiment, the support rim 22 has a stopping groove 22a having abutment ends formed on both sides thereof, and is recessed, and one side of the body 10 facing this enters into the stopping groove 22a. By constraining the adherent end to form a constrained pin 15 to limit the isometric rotation angle of the spool 20, the spool 20 is an isometric rotation angle by the stopping groove (22a) and the constraining pin (15) Limited.

Therefore, when the spool 20 is rotated in the forward direction, the valve hole 21a, the oil supply passage 14a, and the oil passage 14b are aligned in a line, and the oil passage 14a and the oil passage 14b are used to close the valve hole. When the spool 20 is conformally rotated in the reverse direction, the oil supply passage 14a and the drain passage 14b by the valve hole 21a are shielded, and as a result, the oil supply side hydraulic hose ( The hydraulic oil supplied to the oil drain side hydraulic hose H2 through H1) is interrupted.

At this time, the spool 20 is constrained at an isometric angle by the stopping groove 22a and the restraining pin 15, and as a result, the spool 20 is excessively rotated to supply the oil passage 14a and the drain passage 14b. Switching to the open / closed state can be prevented.

In the present embodiment, the hinge portion 24 is formed at the rear of the spool 20 and the handle lever 25 is assembled to the hinge portion 24 in a hinge structure, so that a spool ( 20) isotropically rotated to set the open / closed state of the valve.

In particular, when the handle lever 25 pivots outwardly around the hinge part 24, the clamping part 25a is exposed to the outside, and the clamping part 25a is rotated inward about the hinge part 24. Constrained by (10), the phenomenon in which the open / closed state of the valve is switched by arbitrarily rotating the spool 20 in which the open / closed state is set by conformal rotation is prevented.

To this end, in the present embodiment, the one side inner wall of the body 10, the position restraint groove 16 is formed at equal intervals to enter the restraint portion (25a) of the handle lever 25 rotated inwardly. 4, the body 10 is formed with a pair of position restriction grooves 16.

Therefore, the worker pivots the handle lever 25 fixed to the spool 20 to the outside about the hinge portion 24 so that the clamping portion 25a is exposed to the outside, and then the exposed clamping portion 25a is exposed. The spool 20 is rotated equally forward and backward to set the opening and closing state of the valve.

When the opening and closing state of the valve is set as described above, the operator pivots the handle lever 25 inward with respect to the hinge portion 24 so that the clamping portion 25a enters the position restraint groove 16 formed in the body 10. This prevents any rotation of the spool 20 in which the opening and closing state is set.

On the other hand, in the present invention, the adjustment shaft 50 for adjusting the opening and closing amount of the valve hole 21a to the spool shaft portion 21 for setting the opening and closing state between the oil supply passage 14a and the oil passage 14b by the conformal rotation. , 60 is arranged in a concentric structure, it is possible to adjust the flow rate of the working oil discharged through the valve hole (21a).

To this end, in the present embodiment, the assembling groove 21b is formed in the spool shaft portion 21 in communication with the valve hole 21a in the axial direction, and the adjusting shafts 50 and 60 are disposed in the assembling groove 21b. do.

In the first embodiment of the present invention, the threads 51, 21b-a are formed to correspond between the outer diameter of the adjusting shaft 50 and the inner diameter of the assembling groove 21b facing the same, and the adjusting shaft 50 By advancing and retreating the valve hole 21a according to the fastening distance with the assembly groove 21b, the opening and closing amount of the valve hole 21a is adjusted.

At this time, the adjustment shaft 50 is supported by the finger of the crimping pressing member 52 to the rear, the screw thread formed in the outer diameter of the control shaft 50 and the thread formed in the inner diameter of the assembly groove 21b (21b-a) By close contact between them, the phenomenon that the hydraulic oil leaks between the control shaft 50 and the assembling groove 21b is prevented.

Therefore, the manager rotates the control shaft 50 in the forward direction to adjust the depth of entry of the end of the control shaft 50 entering the valve hole 21a to increase or decrease the open area of the valve hole 21a, thereby providing the oil supply passage ( It is possible to control the flow rate of the hydraulic oil passing between the 14a) and the oil passage 14b.

In the second embodiment of the present invention, the first adjusting hole 61 and the second adjusting hole 62 having different opening areas are formed orthogonally to the distal end of the adjusting shaft 60.

At this time, the outer diameter of the control shaft 60 and the inner diameter of the assembling groove (21b) that is external to it is formed to correspond to the threads (21b-a, 63).

At this time, the adjustment shaft 60 is supported by the fingerboard crimping member 64 to the rear, the screw thread formed in the outer diameter of the control shaft 60 and the thread formed in the inner diameter of the assembly groove 21b (21b-a) By close contact between the), to prevent the leakage of the hydraulic oil between the adjusting shaft 60 and the assembly groove (21b-a).

Therefore, the first adjustment hole 61 and the second adjustment hole 62 are selectively connected to the valve hole 21a by an isometric rotation of the adjustment shaft 60 disposed in the valve hole 21a of the spool 20. In communication with this, it is possible to easily control the flow rate of the hydraulic oil passing between the oil supply passage 14a and the drain passage 14b.

In particular, in the present embodiment, as shown in Figure 6b to form a fastening portion in the inner diameter of each of the control holes (61, 62), the flow rate adjustment ring (61a, 62a) in the control holes (61, 62) through fastening, replacement The amount of opening of each of the adjustment holes 61a and 62a is adjusted according to the inner diameters of the installed flow control rings 61a and 62a.

When configured in this way, it is possible to adjust the opening amount of the control holes (61, 62) by replacing the installation of the flow control ring (61a, 62a), through which the oil supply side hydraulic hose (H1) and the oil supply side hydraulic hose ( The conversion setting of the opening amount between H2) is possible.

1. Stop valve for hydraulic system
10.Body 11. Fastener
11a. Fastener
12. Valve Room 13. Charging Inlet
13a. Sealed Groove 14a. Refueling
14b. 15. Restraint Pins
16. Position Restraint Groove
20. Spool 21. Spool shaft part
21a. Valve ball 21b. Assembly groove
21b-a. Thread 22. Supporting Rim
22a. Stopping groove 23. Sealing ring
24. Hinge 25. Handle Lever
25a.
30. Snap ring 31. Washer member
40. Handle Lever 41.
50. Adjusting shaft 51. Thread
52. Cage member 60. Adjusting shaft
61. First adjusting hole 61a. Flow control ring
62. Second adjustment hole 62a. Flow control ring
63. Thread 64. Support member

Claims (4)

A body having a valve chamber formed at one side and the other side of which an opening is opened, and at both left and right sides thereof, the oil passage and the oil passage are opened;
A spool penetrating the valve chamber through the charging hole and having a valve hole formed therein, and a spool integrally supporting a rear end of the spool shaft portion on one outer wall of the body; And
A stop valve for a hydraulic system, comprising: a snap ring, which is assembled to a distal end of the spool shaft portion that extends to the other side of the body through the charging hole and supports the distal end portion of the spool shaft portion to the outer wall of the body. According to claim 1, At least one sealing groove formed in the inner wall of the charging hole; And a sealing ring inserted into each of the sealing grooves and configured to elastically seal between the outer diameter surface of the spool shaft portion and the inner diameter surface of the charging port. According to claim 1, Stopping groove is formed to be recessed in the support rim portion and the adhesive end is formed on each side; A stop valve for a hydraulic system, characterized in that it further comprises a stopper formed to protrude on one side of the body and includes a restraining pin to limit the isometric rotational angle of the spool by adhering the adherend of the stopping groove. According to claim 1, wherein the body is formed with a fixed piece integrally,
The body is formed integrally with the fixing piece is a stop valve for a hydraulic system, characterized in that the hot forging molded product hot forging the molded metal body.

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