KR200274338Y1 - Pressure Resucing Valve - Google Patents

Abstract

The present invention relates to a pressure reducing valve for reducing the pressure of the pressure fluid supplied from the primary side to the required pressure and then discharge to the secondary side. The invention is cylindrical in shape and has a body portion 8 having a fluid inlet port 4 and a fluid outlet port 6, a fluid inlet port 4 and a fluid outlet port 6 of the body portion 8. ) Is provided with a screw coupling portion for screwing the inlet pipe and the outlet pipe, the body cover portion 190 coupled to the upper portion of the body portion 8, rotatably on top of the body cover portion 190 In the pressure reducing valve composed of an operating part installed, the operating part is a compression spring 130 to move the spool 180 by the elastic force, a compression spring for partially supporting the compression spring is inserted into the hollow of the compression spring The support part 150 is formed integrally with the inner insertion part 140 and the insertion part 140 in the compression spring to transmit a force according to the rotation of the grip part of the operator to the compression spring and support one end of the compression spring 150. , The body cover portion (190) and b A spring bolt portion 160 for transmitting pressure to the compression spring for moving the spool by the coupling, and an insert portion 140 and the support 150 in the compression spring are integrally formed to form a '-' wave. It provides a pressure reducing valve having a branch (170).

Description

Pressure Resucing Valve

The present invention relates to a pressure reducing valve, and more particularly, to a pressure reducing valve to discharge to the secondary side after reducing the pressure of the pressure fluid supplied from the primary side to the required pressure.

In general, a pressure reducing valve is inserted therebetween when pressurized fluid is supplied from a hydraulic source to a hydraulic device at a desired pressure. The pressure reducing valve is operated by the hydraulic device connected thereto to reduce the initial pressure to the desired downstream pressure by the hydraulic source.

The structure of a conventional pressure reducing valve will be described with reference to the accompanying drawings.

Figure 2 shows a conventional pressure reducing valve, and since the detailed configuration of the pressure reducing valve 2 is widely known, a detailed description thereof will be omitted.

It basically comprises a valve seat 30 and a valve disc 32 in a body 8 in which an inlet port 4 and an outlet port 6 are formed. The valve disc 32 is urged upwardly toward the valve seat 30 by the valve spring 36.

When the valve disc 32 is forced to move down, fluid flows from the inlet port 4 to the outlet port 6 through a gap formed between the valve disc 32 and the sheet 30.

The upper portion of the valve disc 32 is normally pressed downwardly by the spring 24 via the diaphragm 22. The downward force of the spring 24 can be adjusted with the nut 20 displaceable in the direction shown by arrows X-Y by rotating the screw member 16 fixed to the pressure adjusting knob 18. The hydraulic pressure at the outlet port 6 is determined so that the upward force exerted by the hydraulic pressure of the outlet port 6 to the diaphragm 22 is balanced against the downward force of the spring 24. Reference numeral 10 denotes a chamber, 12 a bonnet, 14 a cap member, and 26 a relief valve mechanism.

However, in the conventional pressure reducing valve shown in Figure 2, the pressure adjusting knob 18 for adjusting the elastic force of the spring has a structure for adjusting the pressure by having a protruding portion extending in an annular shape in the center, this conventional The technique requires an excessive force to rotate the pressure control knob to adjust the pressure.

In addition, in the related art, the pressure adjusting knob has a structure such as a screwdriver to operate the pressure adjusting knob. However, in order to operate the pressure adjusting knob, a separate tool such as a screw driver is required. do.

The present invention devised to solve the problems as described above is to provide a pressure reducing valve to conveniently operate the pressure control means to adjust the pressure introduced from the pressure reducing valve to discharge to the setpoint pressure.

1 is a cross-sectional view of a pressure reducing valve according to the present invention

Figure 2 is a cross-sectional view of the prior art pressure reducing valve

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

4: inlet port 6: outlet port

8 body portion 16 screw member

18 knob 22 diaphragm

24: spring 30: valve seat

32: valve disc 36: valve spring

110: seal member 120: cap member

130: compression spring 140: insertion portion in the compression spring

150: support portion 160: spring bolt portion

170: grip portion 180: spool

190: body cover 200: 0-ring

210: cylinder unit 220: rubber pad

The present invention for achieving the above object is of a cylindrical shape, having a fluid inlet port (4) and a fluid outlet port (6) body portion 8, the fluid inlet port of the body portion ( 4) and the fluid outlet port 6 has a screw coupling portion for screwing the inlet pipe and the outlet pipe, the body cover portion 190 is coupled to the upper portion of the body portion 8, the body cover portion ( In the pressure reducing valve composed of an operating part rotatably installed on the upper portion of the 190, the operating part is a compression spring 130 to move the spool 180 by the elastic force, a part of the compression spring is inserted into the hollow The compression spring insertion unit 140 for supporting the compression spring, the compression spring insertion unit 140 is formed integrally to transfer the force according to the rotation of the gripper of the operator to the compression spring and the compression spring 130 Support for one end 150, the spring bolt portion 160 and the compression spring insertion portion 140 and the compression spring for transmitting pressure to the compression spring for moving the spring by screwing the body cover portion (190) and the It is intended to provide a pressure reducing valve, which is integrally formed with the support part 150 and has a '-' shape holding part 170.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 shows a pressure reducing valve according to an embodiment of the present invention.

As shown in FIG. 1, the pressure reducing valve 300 of the present invention has a body 8 having an inlet port 4 and an outlet port 6 having a screw connection part for screwing the inlet and outlet pipes together; The cap member 120 fitted to the bottom of the body 8 and the operation part except the grip part are actually cylindrical, and the operation part which is fastened by screwing on the upper part of a main body has a basic structure.

The operating part is inserted into the compression spring 130 for allowing the spool 180 to move up and down by elastic force, and the insertion part in the compression spring 140 for supporting the compression spring 130 by being inserted into the hollow of the compression spring 130. ), The support 150 is formed integrally with the compression spring inserting portion 140 to transmit the force by the rotation of the gripper 170 to the compression spring 130 and to support one end of the compression spring 130. And a compression spring 130 configured to extend into the compression spring insertion part 140 and the support part 150 and to move the spool 180 up and down by screwing the body part 8. Spring bolt portion 160 to transmit the, is formed integrally with the spring bolt portion 160 is composed of '-' shaped grip portion 170. Reference numeral 110 denotes a cap member side 0-ring, 190 a body cap, 200 a 0-ring, 210 a cylinder nut, and 220 a rubber pad.

The operation of the pressure reducing valve according to the embodiment of the present invention, which is basically configured as described above, will be described. However, the operation according to the structure of a general pressure reducing valve will be described briefly without specific description.

First, when the operator grips and rotates the gripping unit 170, the spring bolt unit 160 rotates in accordance with the rotation of the gripping unit to move up and down to spool 180 in the direction against the spring force of the compression spring 130. Displace the

Due to the displacement of the spool 180 pushed down by the compression spring 130, the fluid flowing through the passage from the inlet port 4 into the chamber exerts an upward force on the spool 180, thereby providing the compression spring. The spacing against the elastic force of 130 and supported by the cap member 120 is adjusted to achieve the desired set pressure at the outlet port 6.

In the embodiment, the operating part which is different from the prior art is composed of the insert 140 in the compression spring, the support 150, the spring bolt 160 and the grip 170, so that the operator has a '-' shape. In addition to the easy holding of the gripper 170 is formed by the transfer of the rotational force of the operator by the gripper 170.

Although the embodiments of the present invention have been described above with reference to the accompanying drawings, the present invention is not limited thereto and may be modified or improved or applied within the ordinary knowledge of those skilled in the art.

The pressure reducing valve of the present invention is a pressure reducing valve composed of a body part, a screwing part, an upper cover part, and an operating part, and the operator is provided with a compression spring, a compression spring support part, a rotational force transmission part, a spring bolt part, and a grip part. Not only can easily hold the operating portion for adjusting the set pressure of the pressure reducing valve, it is also possible to achieve easy transfer of force.

Claims (1)

The body portion 8 is cylindrical and has a fluid inlet port 4 and a fluid outlet port 6, and the fluid inlet port 4 and the fluid outlet port 6 of the body 8 are inlet. Is provided with a screw coupling for screwing the pipe and the outlet pipe, the body cover portion 190 is coupled to the upper portion of the body portion 8, which is rotatably installed on the upper portion of the body cover portion 190 In the pressure reducing valve composed of an operating part, The operating unit compression spring 130 to move the spool 180 by the elastic force, Is inserted into the hollow portion of the compression spring 130 in the compression spring insertion portion 140 for supporting the compression spring 130, The support 150 is formed integrally with the insertion portion 140 in the compression spring to transmit the force according to the rotation of the gripper 170 of the operator to the compression spring 130 and to support one end of the compression spring 130, Spring bolt portion 160 to transfer pressure to the compression spring 130 to move the spool 180 by screwing the body cover portion 190, and Pressure reducing valve, characterized in that the compression spring is formed integrally with the insertion portion 140 and the support portion 150 is provided with a '-' shaped grip portion (170).