KR200474893Y1 - Small valve apparatus for prevention from sagging of excavator Tongs - Google Patents

Abstract

The present invention relates to an anti-sag valve device for an excavator.
The solenoid valve inserting groove (11) is formed on one side surface of the solenoid valve inserting groove (11). The solenoid valve inserting groove (11) is formed on the other side of the solenoid valve inserting groove (12) is formed so as to communicate with the solenoid valve inserting groove (11), and a body (13) formed with an A port insertion groove (13) communicating with the solenoid valve inserting groove (11) 10); A solenoid valve 20 for selectively opening and closing the A port insertion groove 13 and the P port insertion groove 12 with one side inserted into the solenoid valve insertion groove 11 of the body 10; A P port nipple 30 fastened to the P port insertion groove 12; And an A port nipple 40 which is fastened to the A port insertion groove 13 and in which opening / closing means for selectively moving or blocking the fluid only in the outward direction is installed, The nipple 30 and the A-port nipple 40 have the same length protruding outward from the body 10.
According to the present invention, it is possible to prevent the pliers from sagging or swaying when the pliers mounted on the excavator are not used together with the buckets. In particular, when a solenoid valve is fastened to the center of the body and a plurality of ports are connected to the periphery thereof, So that they can be connected to each other without being disturbed in the process of connecting the hydraulic lines without being disturbed by the connection of the hydraulic lines. In addition, the P port does not need to provide nipples at both ends of the check valve, , The poppet is installed and the inside of the nipple and the inside of the hole are processed so as to correspond to the check valve to reduce the possibility of leakage of the fluid and to minimize the size of the protruding component to the outside of the body, And the hydraulic line can be easily installed in the nipple without interference.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a small valve apparatus for prevention of sagging of excavator tongs,

The present invention relates to an anti-sagging valve device for an excavator, and more particularly, it relates to an anti-sagging valve device for an excavator that prevents a bucket from being sagged or swayed when a bucket is mounted on the excavator, wherein a solenoid valve is fastened at the center of the body, The present invention relates to an anti-sagging valve device for an excavator, and more particularly, to an anti-sagging valve device for an excavator, wherein the ports are connected to each other so that the ports are protruded by a predetermined distance without being disturbed by the connection of the hydraulic lines, .

An excavator is a kind of special vehicle that is equipped with a cap and a power unit on an unlimited orbit and can be operated on the ground and carry out the transportation work by piling up the gravel or the like of a predetermined area. The excavator is moved by the power transmitted from the power unit A work device for performing a predetermined job is constructed.

The working device is constructed so that a boom, an arm and a bucket, which are normally provided to be able to move jointly, can be moved by respective hydraulic cylinders, and hydraulic pressure from a hydraulic device is supplied to each cylinder through a hydraulic line.

In particular, it is possible to perform each operation according to the type and type of the bucket. For example, a working device having a polyp bucket can carry out loading and unloading of rock and wood, and a chromaxel bucket is adopted In the case of a work machine with a wood clamping device, wood is transported and loaded, while a worker with a strainer bucket carries out the processing of waste and house remodeling, It is possible to carry out scraper carrying light unloading work by a working device having a polyp clamp and slope surface excavation and soil pitting work by a working device having a loader bucket.

However, the above-described various types of working apparatuses can not simultaneously perform excavation work for puddling soil or re-collecting aggregate and wood carrying work.

That is, when performing the work according to the landscape construction, the above-mentioned excavation work and the timber transportation work must be performed in parallel. However, since the conventional work apparatus described above can not perform such an operation, There is a disadvantage that productivity is deteriorated due to a delay in working time due to replacement.

As a technique for solving such a problem, a bucket is provided on one side of an excavator boom and a tongue is provided on the other side of the excavator boom in a "work device for an excavator" (Korean Utility Model Utility Model No. 20-0201244, Patent Document 1) Are individually equipped with hydraulic cylinders so that individual adjustments can be made so that the bucket can be operated independently and the bucket and the clamp can be operated together.

In this structure, when the clamp is not used, only the bucket is used in a state in which the clamp is closely attached to the bucket by adjusting the hydraulic cylinder connected to the clamp.

However, when the bucket of the excavator is used solely, the oil pressure tightness of the hydraulic cylinder located on the side of the inner side of the boom is lowered and the gripper is sagged downward.

As a technique for solving such a problem, a "clamping device for an excavator" (Korean Unexamined Patent Application Publication No. 10-2011-0116866, Patent Document 2) discloses a clamping device for clamping a clamp and a clamp, Respectively.

However, if the tongs are used for a long time, even if the tongs are fixed by such fastening means, vibrations are generated in parts such as various pins provided at the connection point between the tongs and the boom due to deterioration of the airtightness, There is a problem that the tongs can not operate smoothly as a whole.

In order to solve this problem, Korean Patent Laid-Open No. 10-2013-0059725 and Patent Document 3 disclose a relief valve for mutually adjusting a hydraulic signal for rotating the bucket and a hydraulic signal for rotating the clamp And an example in which a check valve for preventing the hydraulic oil from dropping is disclosed.

However, the valve body for preventing the deflection of the excavator tiller still requires a simple solenoid valve, a body is prepared, a solenoid valve is inserted into the body, and a simple straight line hole, The check valve 7 and the nipple 6 are irregularly protruded to the outside of the body so that it is difficult to connect the hydraulic line to the check valve 7 Since the two nipples 7 are required for each one flow path such as the nipple 7 connected to the check valve 7 and the nipple 7 connected to the body, the assembling process is also very complicated, There was a problem that it increased.

KR 20-0201244 (Aug. 19, 2000) KR 10-2011-0116866 (October 26, 2011) KR 10-2013-0059725 (2013.06.07)

A sagging prevention valve device for an excavator of the present invention is intended to solve the problems caused by the conventional art as described above, and it is intended to prevent sagging or swaying of the pliers when the pug mounted on the excavator is not used.

In particular, a solenoid valve is fastened to the center of the body, and a plurality of ports are connected to the periphery of the solenoid valve, and each port protrudes by a predetermined distance, so that it is not disturbed by the connection of the hydraulic line, So that they can be connected.

In addition, a stopper, a seat, and a poppet are provided in the inside of the hole, and the inside of the nipple and the inside of the hole are processed by a check valve so that the possibility of leakage of the fluid is reduced, The size of the protruding component is minimized while being easily installed in a narrow space by reducing the size, and the hydraulic line can be easily installed in the nipple without interference.

In order to solve the above-mentioned problems, the anti-sagging valve device for an excavator of the present invention is formed in a hexahedron shape and has a solenoid valve insertion groove 11 formed on one side surface thereof, And a P port insertion groove 12 communicating with the solenoid valve insertion groove 11 is formed in a side surface of the A port insertion groove 11 so as to communicate with the solenoid valve insertion groove 11 on the opposite side wall surface. The P port insertion groove 12 and the A port insertion groove 13 are each formed with a first passage portion 14 having a predetermined diameter in the outward direction from the inside thereof, A first expanding portion 15 having a larger diameter than the portion 14 and a second expanding portion 16 having a larger diameter than the first expanding portion 15 are continuously formed in the outward direction, 16 are formed on the inner circumferential surface thereof and the first bulging portion 15 of the A port insertion groove 13 A body 10 having an inner diameter larger than that of the first expanded portion 15 and an inner diameter smaller than that of the second expanded portion 16 is formed between the second expanded portions 16; A solenoid valve 20 for selectively opening and closing the P port insertion groove 12 and the A port insertion groove 13 with one side inserted into the solenoid valve insertion groove of the body; And has one side outer diameter corresponding to the inner circumferential surface of the second expanded portion 16 of the P port insertion groove 12 and a thread formed on the outer circumferential surface of the P port insertion groove 12, A P-port nipple 30 screwed to the second pipe-opening portion 16 of the P-port insertion groove 12 and inserted into the P-port insertion groove 12; The inner end of the first port is inserted into the A port insertion groove 13 and is engaged with the end of the first expansion portion 15 of the A port insertion groove 13, And a tapered portion 41a which is inclined toward the inner side is formed at the other end of the sheet 41. The sheet 41 is provided inside the first expansion portion 15 of the A port insertion groove 13, An inlet hole 42a is formed in the sidewall surface and an end portion adjacent to the sheet 41 is inclined so as to coincide with the tapered portion 41a of the seat 41. In addition, A poppet 42 having a first end 42b formed therein and having a first step 42c formed therein and being movable in the longitudinal direction within the first expanded portion 15; And the outer diameter thereof corresponds to the auxiliary tube portion 15a of the A port insertion groove 13, Is inserted into the tube portion 15a so that one end thereof is caught by the end of the auxiliary tube portion 15a of the A port insertion groove 13 and the inner passage is provided with a second The stopper 43 is provided such that both end portions thereof are supported by the second step 43a of the stopper 43 and the first step 42c inside the poppet 42, A spring 44 for pushing the stopper 43 in the outward direction, a passage formed along the longitudinal direction at the center, a tip end portion of the stopper 43 abutting against the stopper 43, And an A port nipple 40 corresponding to the inner circumferential surface of the second expanded portion 16 of the second expanded portion 16 and having a thread formed on the outer peripheral surface thereof and being screwed to the second expanded portion 16, .

At this time, the P port nipple 30 and the A port nipple 40 are formed with protrusions protruding in the hexagonal bolt-like shape in the middle of the outer peripheral surface. O-ring insertion grooves are formed in the lower parts of the protrusions, Is inserted into the insertion hole.

The excavator is connected to a bucket 2 and a tongue 3 at the lower end of the boom 1 and has an outer cylinder device 4 and an inner cylinder device 5 at an outer side surface and an inner side surface of the boom 1, The bucket 2 is connected to the outer cylinder device 4 and the clamp 3 is connected to the inner cylinder device 5 and the clamp 3 is rotated upwardly, The A port nipple 40 is connected to the cylinder rod side of the inner cylinder device 5 by a hydraulic line and the P port nipple 30 is connected to an external pump 50 and a hydraulic line As shown in FIG.

And a solenoid valve insertion groove 11 is formed on one side of the side wall and a P port insertion groove 11 communicated with the solenoid valve insertion groove 11 is formed on the other side adjacent to the one side, A body 10 in which an A port insertion groove 13 is formed so as to communicate with the solenoid valve insertion groove 11 inwardly on a wall surface opposite to the one side surface; A solenoid valve 20 for selectively opening and closing the A port insertion groove 13 and the P port insertion groove 12 with one side inserted into the solenoid valve insertion groove 11 of the body 10; A P port nipple 30 fastened to the P port insertion groove 12; And an A port nipple 40 which is fastened to the A port insertion groove 13 and in which opening / closing means for selectively moving or blocking the fluid only in the outward direction is installed, The nipple 30 and the A-port nipple 40 have the same length protruding outward from the body 10.

According to the present invention, it is possible to prevent the pliers from sagging or shaking when the pliers mounted on the excavator together with the bucket are not used.

In particular, a solenoid valve is fastened to the center of the body, and a plurality of ports are connected to the periphery of the solenoid valve, and each port protrudes by a predetermined distance, so that it is not disturbed by the connection of the hydraulic line, .

In addition, a stopper, a seat, and a poppet are provided in the inside of the hole, and the inside of the nipple and the inside of the hole are processed by a check valve so that the possibility of leakage of the fluid is reduced, The size of the component protruding outwardly is minimized while the size of the component is minimized, so that it is easily installed in a narrow space and the hydraulic line can be easily installed on the nipple without interference.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic plan view of a valve device according to an embodiment of the present invention. Fig.
2 is an exploded cross-sectional view showing a valve-preventing valve device of an excavator of the present invention.
3 is a cross-sectional view showing a valve preventing device of an excavator of the present invention.
4 is a hydraulic circuit diagram showing a sag preventing valve device of an excavator of the present invention.
Fig. 5 is a plan view, a front view, a rear view, and a right side view of the anti-sagging valve device of the excavator of the present invention. Fig.
6 is a block diagram showing an example of the installation of an anti-sag valve device of an excavator of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a deflection preventing valve device for an excavator of the present invention will be described in detail with reference to the accompanying drawings.

The anti-sagging valve device of the present invention comprises a body 10, a solenoid valve 20, a P port nipple 30, and an A port nipple 40.

6, the bucket 2 and the tongue 3 are connected to the lower end of the boom 1, and the outer surface of the boom 1 and the inner surface of the boom 1 are connected to each other. The bucket 2 is connected to the outer cylinder device 4 and the tongue 3 is connected to the inner cylinder device 5 and the inner cylinder device 5 is connected to the inner cylinder device 4, And the tongue 3 is brought into contact with or in close proximity to the inner surface of the boom 1 by upward rotation.

The A port nipple 40 is connected to a cylinder rod of the inner cylinder device 5 by a hydraulic line and the P port nipple 30 is connected to an external pump 50 through a hydraulic line .

As shown in FIG. 2, the body 10, which is a component of the present invention, has a metal hexahedron shape.

A solenoid valve insertion groove 11 is formed on one side, specifically on the lower side in the drawing, and a solenoid valve 20 described later is fastened.

A P port insertion groove 12 is formed on the one side surface and the other side adjacent to the one side surface, specifically on the right side surface in the figure, so as to communicate with the solenoid valve insertion groove 11. On the opposite side of the sol valve insertion groove 11, And an A port insertion groove 13 is formed so as to communicate with the solenoid valve insertion groove 11.

The first port portion 14 and the second port portion 12 are formed in the A port insertion groove 13 and the P port insertion groove 12, respectively, The first expanding portion 15 having a larger diameter and the second expanding portion 16 having a larger diameter than the first expanding portion 15 are continuously formed in the outward direction.

In addition, a thread is formed on the inner peripheral surface of the second expanded portion 16.

The diameter of the A-port insertion groove 13 is larger than the diameter of the first bending portion 15 between the first bending portion 15 and the second bending portion 16 and is larger than the diameter of the second bending portion 16 And this small auxiliary tube portion 15a is formed.

The solenoid valve 20 which is a component of the present invention is configured to selectively open and close the A port insertion groove 13 and the P port insertion groove 12 with one side inserted into the solenoid valve insertion groove 11 of the body 10 have.

The solenoid valve 20 is operated by receiving power, and the operation of the solenoid valve 20 selectively opens and closes the respective insertion grooves according to the operation of a switch or the like.

The P port nipple 30, which is a constituent element of the present invention, is fitted in the P port insertion groove 12 as shown in the drawing, and a passage is formed along the longitudinal direction at the center so that the fluid can move .

In addition, one outer diameter corresponds to the inner circumferential surface of the second expanded portion 16 of the P port insertion groove 12, and a thread is formed on the outer circumferential surface of the second expanded portion 16 of the P port insertion groove 12, Threaded.

The P port nipple 30 is connected to an external pump 50 through a hydraulic line to supply fluid to the A port nipple 40 through the solenoid valve 12 according to the operation of the pump .

The first expanded portion 15 of the P port insertion groove 12 has a diameter larger than that of the first passage portion 14. The first expanded portion 15 has a smaller diameter than that of the P port nipple 30, The fluid flowing through the space temporarily forms a vortex due to the formation of a vortex in the space, the foreign substances in the fluid do not flow into the solenoid valve 20 and are precipitated, thereby preventing the damage of the solenoid valve 20 to the utmost .

The A port nipple 40 which is a component of the present invention comprises a seat 41, a poppet 42, a stopper 43, a spring 44 and a nipple body 45, And is opened and closed in accordance with the pressure of the fluid directed to the outside through the insertion groove 13 to open and close the A port insertion groove 13.

As shown in the drawing, the seat 41 is installed in the A-port insertion groove 13 and is formed into a cylindrical shape having a longitudinally formed passage at the center thereof.

The sheet 41 has an inner end portion which is engaged with an end portion of the first expansion portion 15 of the A port insertion groove 13 and a second end portion which is formed with a tapered portion 41a which is inclined toward the inner direction.

The poppet (42) is installed inside the first expansion portion (15) of the A port insertion groove (13).

The shape of the poppet 42 is such that the outside end is open and the inside end is closed and the inlet hole 42a is formed in the side wall surface and the end portion adjacent to the seat 41 is matched with the tapered portion 41a And a first step 42c is formed in the first inclined part 42b. The first step 42c is provided inside the first expanded part 15 so as to be movable in the longitudinal direction.

The stopper 43 has a longitudinally elongated passageway as shown in the figure and has an outer diameter corresponding to the auxiliary tube portion 15a of the A port insertion groove 13 and inserted into the auxiliary tube portion 15a, And the inner passage is formed with a second step 43a in the middle so that the inner diameter decreases from the inner side toward the outer side.

The spring 44 is installed at both ends so as to be supported by the second step 43a of the stopper 43 and the first step 42c inside the poppet 42 to press the poppet 42 in the outward direction consist of.

The nipple body 45 has a passage formed along the longitudinal direction at the center thereof and has a distal end portion abutting against the stopper 43 to come in close contact with the inner peripheral surface of the second expansion portion 16 of the A port insertion groove 13, And a screw thread is formed on the outer circumferential surface and is screwed to the second expanded portion 16.

4, when the poppet 42 is moved upward from the inside to the outside of the body 10 as shown in FIG. 6, the A-port nipple 40 is moved to the tapered portion 41a And flows into the external hydraulic line through the nipple body 45 along the passage that has flowed into the poppet 42 through the inlet hole 42a after flowing through the gap between the inclined portions 42b.

On the other hand, when the pressure is released, the tapered portion 41a and the inclined portion 42b come into close contact with each other due to the restoring force of the spring 44, thereby blocking the movement of the fluid.

The A port nipple 40 is connected to the rod of the inner cylinder device 5 that regulates the operation of the forceps 3, that is, the small-capacity chamber side, and the P port nipple 30 and the solenoid valve When the pressure is released or the pressure is lowered due to the interruption of the operation of the pump 50, the tapered portion 41a and the inclined portion So that the fluid supplied to the small space is prevented from moving in the opposite direction, thereby preventing the squeezing of the tongue 3.

At this time, a pump for supplying fluid to the hydraulic line and the hydraulic line is basically connected to the rod side and the body side of the inner cylinder device 5 to control the inflow and discharge of the fluid, and the A port nipple 40 serves as an auxiliary function to prevent hydraulic pressure from dropping while the hydraulic line on the rod side of the inner cylinder device 5 basically lifts the clamp 3 or assists it during the lifting process. will be.

Therefore, the fluid supplied to the rod side of the inner cylinder device 5 through the A port nipple 40 by the pump 50 and the fluid supplied separately basically for the operation of the clamp 3 are complementary and part A separate valve for controlling the hydraulic cylinder may be installed in the hydraulic line for supplying the hydraulic pressure to the rod side of the inner cylinder device 5 of the excavator.

3, the body 10 has a rectangular parallelepiped shape with one side longer than the cube, a P port nipple 30 is provided on the shorter side, and an A port nipple 40 is provided on the longer side. It can be seen that it is installed.

In addition, it can be seen that the protruded lengths of the nipples outside the body 10 are all the same.

This shape is achieved because the A port nipple 40 is provided with the seat 41, the poppet 42, the stopper 43 and the spring 44 so that the required length becomes long while only the nipple is installed on the P port side The length of the right and left sides of the solenoid valve 20 is shortened while the P port nipple 30 is provided on the side of the solenoid valve 20 and the length of the A port nipple 40, the lengths of the nipples protruding outward from the body 10 can be made the same.

Such a structure minimizes the volume of the body 10, minimizes the length of the protruded nipples, and has the same protruding length, thereby facilitating operation and handling, and facilitating the handling and handling of the body 10 and the check valve mounting side It has the effect of lowering the product cost in comparison with the requirement of at least two nipples.

5, the P port nipple 30 and the A port nipple 40 have protrusions 31 protruding in the shape of a hexagon bolt in the middle of the outer circumferential surface of the P port nipple 30 and the A port nipple 40, An O-ring insertion groove 32 is formed in the lower portion, and an O-ring 60 is inserted into the O-ring insertion groove 32.

FIG. 2 shows an example in which the O-ring insertion groove 32 and the O-ring 60 are installed on the P-port side.

The projecting portion 31 serves to facilitate coupling and separation of the nipple through a spanner or the like.

1: Boom 2: Bucket
3: forceps 4: outer cylinder device
5: Inner cylinder device 6: Nipple
7: Check valve 10: Body
11: Solenoid valve insertion groove 12: P port insertion groove
13: A port insertion groove 14: First passage portion
15: first expanding part 16: second expanding part
20: Solenoid valve 30: P port nipple
31: protrusion 32: O-ring insertion groove
40: A port nipple 41: sheet
41a: tapered portion 42: poppet
42a: inlet hole 42b: inclined portion
42c: first step 43: stopper
43a: second step 44: spring
45: Nipple body 50: Pump
60: O ring

Claims (4)

In the deflection preventing valve device of the excavator gripper (3)
And a P port insertion groove 12 communicating with the solenoid valve insertion groove 11 is formed on the other side adjacent to the one side, And an A port insertion groove 13 is formed to communicate with the solenoid valve insertion groove 11 inwardly on the opposite side wall surface of the P port insertion groove 12, (13) is formed with a first passage portion (14) having a predetermined diameter in an outward direction from the inside thereof, and a first expansion portion (15) having a diameter larger than that of the first passage portion (14) A second expanded portion 16 having a larger diameter than the first expanded portion 15 is continuously formed in the outer direction, a thread is formed on the inner peripheral surface of the second expanded portion 16, The inner diameter of the first expanded portion (15) is larger than that of the first expanded portion (15) and the inner diameter of the second expanded portion (16) is smaller than that of the second expanded portion Johwak pipe portion (15a) to the body (10) is formed with;
A solenoid valve 20 for selectively opening and closing the P port insertion groove 12 and the A port insertion groove 13 with one side inserted into the solenoid valve insertion groove of the body;
And has one side outer diameter corresponding to the inner circumferential surface of the second expanded portion 16 of the P port insertion groove 12 and a thread formed on the outer circumferential surface of the P port insertion groove 12, A P-port nipple 30 screwed to the second pipe-opening portion 16 of the P-port insertion groove 12 and inserted into the P-port insertion groove 12;
The inner end of the first port is inserted into the A port insertion groove 13 and is engaged with the end of the first expansion portion 15 of the A port insertion groove 13, And a tapered portion 41a which is inclined toward the inner side is formed at the other end of the sheet 41. The sheet 41 is provided inside the first expansion portion 15 of the A port insertion groove 13, An inlet hole 42a is formed in the sidewall surface and an end portion adjacent to the sheet 41 is inclined so as to coincide with the tapered portion 41a of the seat 41. In addition, A poppet 42 having a first end 42b formed therein and having a first step 42c formed therein and being movable in the longitudinal direction within the first expanded portion 15; And the outer diameter thereof corresponds to the auxiliary tube portion 15a of the A port insertion groove 13, Is inserted into the tube portion 15a so that one end thereof is caught by the end of the auxiliary tube portion 15a of the A port insertion groove 13 and the inner passage is provided with a second The stopper 43 is provided such that both end portions thereof are supported by the second step 43a of the stopper 43 and the first step 42c inside the poppet 42, A spring 44 for pushing the stopper 43 in the outward direction, a passage formed along the longitudinal direction at the center, a tip end portion of the stopper 43 abutting against the stopper 43, And an A port nipple 40 corresponding to the inner circumferential surface of the second expanded portion 16 of the second expanded portion 16 and having a thread formed on the outer peripheral surface thereof and being screwed to the second expanded portion 16, Configured,
Anti-sag valve of excavator.
The method according to claim 1,
The P port nipple 30 and the A port nipple 40 are formed with protrusions protruding in the shape of a hexagon bolt in the middle of the outer peripheral surface,
An O-ring insertion groove is formed in a lower portion of the protrusion,
Wherein an O-ring is inserted into the O-ring insertion groove.
Anti-sag valve of excavator.
3. The method according to any one of claims 1 to 2,
The excavator is connected to a bucket 2 and a tongs 3 at the lower end of the boom 1 and has an outer cylinder device 4 and an inner cylinder device 5 provided on the outer side surface and the inner side surface of the boom 1, And the bucket 2 is connected to the outer cylinder device 4 and the clamp 3 is connected to the inner cylinder device 5 so that the clamp 3 is rotated upwardly, Or close to,
The A-port nipple 40 is connected to the cylinder rod side of the inner cylinder device 5 by a hydraulic line,
And the P port nipple 30 is connected to an external pump 50 via a hydraulic line.
Anti-sag valve of excavator.
In the deflection preventing valve device of the excavator gripper (3)
And a P port insertion groove 12 communicating with the solenoid valve insertion groove 11 is formed on the other side adjacent to the one side, A body 10 having an A port insertion groove 13 communicating with the solenoid valve insertion groove 11 inwardly on a wall surface opposite to the one side surface;
A solenoid valve 20 for selectively opening and closing the A port insertion groove 13 and the P port insertion groove 12 with one side inserted into the solenoid valve insertion groove 11 of the body 10;
A P port nipple 30 fastened to the P port insertion groove 12;
And an A port nipple 40 which is fastened to the A port insertion groove 13 and has an opening / closing means for selectively moving or blocking the fluid only in the outward direction,
And the P port nipple 30 and the A port nipple 40 have the same length protruding outward from the body 10. [
Anti-sag valve of excavator.

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