KR102025799B1 - Test device for valve - Google Patents

Abstract

An objective of the present invention is to provide a valve test device capable of preventing a valve flange from being damaged. The valve test device comprises: a main frame (100); a first and a second side wall frame (210, 220) installed on the main frame (100) to be separated from each other in a left and a right direction by a prescribed distance; a rotary frame (310) installed on the first side wall frame (210), on which one end of a valve is fixed; a moving frame (320) installed on the second side wall frame (220) to be moved in the left and the right direction, on which the other end of the valve is fixed; a first pressing unit (410) installed on the rotary frame (310) to be moved in the left and the right direction to press a flange of one side of the valve towards the rotary frame (310); a second pressing unit (420) installed on the moving frame (320) to be moved in the left and the right direction to press a flange of the other side of the valve towards the moving frame (320); a first dispersion unit (510) coupled to a facing surface of the first pressing unit (410) facing the rotary frame (310) to disperse a pressure applied to the flange of one side of the valve; and a second dispersion unit (520) coupled to a facing surface of the second pressing unit (420) facing the moving frame (320) to disperse a pressure applied to the flange of the other side of the valve.

Description

Test device for valve

The present invention relates to a valve test apparatus, and more particularly to a valve test apparatus for generating a pressure to the inside of the valve to perform a test whether the valve is defective or not.

In general, the valve (Valve) is installed on the pipe to perform a function of controlling the transfer amount of the fluid, such as water, oil, gas. In order to prevent the leakage of fluid due to defects occurring during the processing and assembly of the valve itself after the valve is installed, the valve is released after pressure testing of the valve. To perform this valve test, a valve test apparatus is used.

In the conventional valve test apparatus, test pipes are connected to both ends of the valve, and pressure is generated in the valve through the test pipe to perform the quality inspection of the valve. The pressure is checked through the pressure gauge, when the set pressure is reached, the hydraulic valve is closed and the pressure change of the pressure gauge is observed for a predetermined time to determine whether the valve is leaking, and to pass or fail.

This valve test apparatus, comprising a base and a first fixing portion of Korean Patent Laid-Open Publication No. 2013-0127677, the first fixing portion is the first clamping body is fixed to the first fixing body and the valve one side flange provided on the base By means; The first clamping means includes a plurality of first gripping parts provided on the first fixing body and operated to move closer to or away from each other in the radial direction, and protrude radially inward in the first gripping part from the first fixing body. Valve testing apparatus has been disclosed, characterized in that it is provided with a first pressurizing member which is operated to move away or close.

In addition, the prior art can visually check the leakage state of the valve by presenting a see-through window that can visually check the internal state of the valve on the cover of the second gripping portion.

However, in the prior art, when the valve is fixed to the valve test apparatus, the first pressing member presses the valve flange to fix the valve flange. The pressure in which the first pressing member pressurizes the valve flange is concentrated in a specific area of the valve flange so that the valve flange There was a problem that breakage occurs.

Korean Laid-Open Patent No. 2013-0127677 (2013.11.25)

The present invention has been made to solve the above problems, an object of the present invention is to distribute the pressure applied to the valve flange to each region of the valve flange to pressurize the valve flange in the process of the pressure applied to the valve flange valve flange To provide a valve test apparatus that can be concentrated in a specific area of the valve to prevent the valve flange from breaking.

Valve test apparatus according to the invention the mainframe (100); A first side wall frame 210 and a second side wall frame 220 installed on the main frame 100 so as to be spaced apart from each other in a horizontal direction by a predetermined distance; A rotating frame 310 installed at the first side wall frame 210 and having one end of the valve fixed thereto; A moving frame 320 installed on the second side wall frame 220 so as to be movable in the horizontal direction and having the other end of the valve fixed thereto; A first pressurizing part 410 installed on the rotating frame 310 to move in the left and right direction and pressing the one side flange toward the rotating frame 310; A second pressing unit 420 installed on the movable frame 320 so as to be movable in the left and right directions and pressing the other flange of the valve toward the movable frame 320; A first dispersing unit 510 coupled to an opposite surface of the first pressing unit 410 opposite to the rotating frame 310 to disperse the pressure applied to the one flange of the valve; And a second dispersing unit 520 coupled to an opposite surface of the second pressing unit 420 opposite to the moving frame 320 to distribute pressure applied to the other flange of the valve.

In addition, the first pressing unit 410 is a pair of first pressure actuators 411 installed on the upper and lower portions of the rotary frame 310 and the rod of the pair of first pressure actuators 411, respectively. A pair of first pressurizing members 412 coupled to each other and formed in a semicircular shape, and the second pressurizing portion 420 is a pair of second installed at upper and lower portions of the moving frame 320, respectively. And a pair of second pressurizing members 422 coupled to the pressure actuators 421 and the rods of the pair of second pressurizing actuators 421 and formed in a semicircular shape, wherein the first dispersing portion 510 is provided. Is coupled to the first pressing member 412 and includes a first elastic member 511 is formed in a semi-circular shape, the second dispersion portion 520 is coupled to the second pressing member 422 and formed in a semi-circular shape The second elastic member 521 is included.

In addition, the first pressing unit 410 is a plurality of first pressure actuators 411 radially installed on the rotating frame 310 and a plurality of coupled to the rod of the plurality of first pressure actuators 411, respectively It includes a first pressing member 412, the second pressing unit 420 is a plurality of second pressure actuator 421 is installed radially of the moving frame 320, and the plurality of second pressure actuator And a plurality of second pressurizing members 422 coupled to the rods of 421, respectively, wherein the first dispersing unit 510 includes a first elastic member 511 coupled to the first pressurizing member 412. The second dispersion part 520 includes a second elastic member 521 coupled to the second pressing member 422.

In addition, the first dispersion unit 510 includes a first hinge shaft 512 hinged to the first elastic member 511 to the rotation frame 310, the second dispersion unit 520 And a second hinge shaft 522 hinged to the second elastic member 521 to the rotating frame 310.

In addition, the first dispersion 510 is the first elastic member 511 is embedded in the first pressing member 412, the second dispersion 520 is the second elastic member 521 It is embedded in the second pressing member 422.

Accordingly, in the valve test apparatus according to the present invention, the pressure applied to the valve flange is concentrated to a specific region of the valve flange in the process of pressurizing the valve flange by distributing the pressure applied to the valve flange to each region of the valve flange. There is an advantage that can be prevented from being broken.

1 is a cross-sectional view showing a valve test apparatus according to Embodiment 1 of the present invention.
2 is a cross-sectional view showing a valve test apparatus according to a second embodiment of the present invention.
3 is a cross-sectional view showing a valve test apparatus according to a third embodiment of the present invention.
4 is a cross-sectional view showing a valve test apparatus according to a fourth embodiment of the present invention.

Hereinafter, the technical spirit of the present invention will be described in more detail with reference to the accompanying drawings.

The accompanying drawings are only examples to illustrate the technical idea of the present invention in more detail, and thus the technical idea of the present invention is not limited to the forms of the accompanying drawings.

<Example 1>

1 is a cross-sectional view showing a valve test apparatus according to Embodiment 1 of the present invention.

As shown in FIG. 1, the valve test apparatus according to Embodiment 1 of the present invention includes a main frame 100, a first side wall frame 210, a second side wall frame 220, a rotation frame 310, and a moving frame. 320, a first pressurizing part 410 and a second pressurizing part 420.

The main frame 100 is a bottom body of the present invention, the wheel on the bottom may be installed for the convenience of movement.

The first side wall frame 210 and the second side wall frame 220 may be installed on the main frame 100 to be spaced apart from each other in a horizontal direction, and may be installed on the left and right sides of the main frame 100, respectively. have. In this case, the second side wall frame 220 may be slidably installed in the left and right directions along a sliding groove formed in the left and right directions in the main frame 100.

The rotating frame 310 is rotatably installed on the first side wall frame 210 and one end of the valve is fixed. In more detail, the rotation frame 310 may be rotated by a hinge coupled to the central axis of the first side wall frame 210, it may be rotated by a drive motor (not shown).

The movable frame 320 is installed to be movable in the left and right directions on the second side wall frame 220 and the other end of the valve is fixed. At this time, the moving frame 320 may be moved left and right by an actuator (not shown) installed in the second side wall frame 220.

The first pressing part 410 is installed to be movable in the left and right directions on the rotary frame 310 to press the valve side flange toward the rotary frame 310.

The second pressing unit 420 is installed to be movable in the left and right directions on the moving frame 320 to press the other flange of the valve toward the moving frame 320.

The first dispersing unit 510 is coupled to the opposite surface of the first pressing unit 410 opposite to the rotating frame 310 and is made of an elastic material to disperse the pressure applied to the one flange of the valve.

The second dispersing unit 520 is coupled to the opposite surface of the second pressing unit 420 facing the moving frame 320 and is made of an elastic material to distribute the pressure applied to the other flange of the valve.

The valve test apparatus performs a leakage test by injecting a high pressure into the valve flange when the valve flange and the valve flange are fixed and sealed to the rotary frame 310 and the movable frame 320, respectively.

Accordingly, in the valve test apparatus according to the present invention, the pressure applied to the valve flange is concentrated to a specific region of the valve flange in the process of pressurizing the valve flange by distributing the pressure applied to the valve flange to each region of the valve flange. There is an advantage that can be prevented from being broken.

Referring to FIG. 1 again, the first pressing unit 410 may include a pair of first pressure actuators 411 installed on the upper and lower portions of the rotary frame 310, and a pair of the first pressure actuators. A pair of first pressing members 412 coupled to the rods 411 and formed in a semicircular shape, and the second pressing parts 420 are respectively installed on the upper and lower portions of the moving frame 320. A pair of second pressurizing actuators 421 and a pair of second pressurizing members 422 respectively coupled to the rods of the pair of second pressurizing actuators 421 and formed in a semicircular shape. The dispersion unit 510 is coupled to the first pressing member 412 and includes a first elastic member 511 formed in a semicircular shape, and the second dispersion unit 520 is connected to the second pressing member 422. It includes a second elastic member 521 coupled and formed in a semicircular shape.

In more detail, the first pressurizing part 410 (or the second pressurizing part 420) has a structure in which a pair of first pressurizing members 412 (or a pair of second pressurizing members 422) are combined. Is formed in a circular shape to press the entire edge of the valve flange by the drive of the first pressure actuator 411 (or the second pressure actuator 421).

In addition, the first elastic member 511 (or the second elastic member 520) is the first elastic member 511 (or second elastic member 521) is the first pressing member 412 (or It is formed in a semicircle having a diameter smaller than that of the second pressing member 422 to distribute the pressure applied to the valve flange.

<Example 2>

2 is a cross-sectional view showing a valve test apparatus according to a second embodiment of the present invention.

As shown in Figure 2, in the valve test apparatus according to the second embodiment of the present invention, the first pressing unit 410 is a plurality of first pressure actuators 411 radially installed on the rotating frame (310) ), And a plurality of first pressing members 412 respectively coupled to a plurality of rods of the first pressing actuator 411, wherein the second pressing unit 420 radially extends the moving frame 320. A plurality of second pressurizing actuators 421 installed and a plurality of second pressurizing members 422 respectively coupled to a plurality of rods of the second pressurizing actuators 421, wherein the first dispersion unit 510 is provided. Includes a first elastic member 511 coupled to the first pressing member 412, and the second dispersion part 520 is coupled to the second pressing member 422. It includes.

In more detail, the first pressing part 410 (or the second pressing part 420) has a plurality of first pressing members 412 (or a pair of second pressing members 422) disposed radially. As a result, the edge of the valve flange is pressed as a whole by driving the first pressure actuator 411 (or the second pressure actuator 421).

In addition, the first elastic member 511 (or the second elastic member 520) is the first elastic member 511 (or second elastic member 521) is the first pressing member 412 (or The second pressing member 422 may be formed in a structure to disperse the pressure applied to the valve flange.

<Example 3>

3 is a cross-sectional view showing a valve test apparatus according to a third embodiment of the present invention.

As shown in FIG. 3, in the valve testing apparatus according to Embodiment 3 of the present invention, the first dispersion unit 510 hinges the first elastic member 511 to the rotation frame 310. A first hinge shaft 512 is included, and the second dispersion unit 520 includes a second hinge shaft 522 that hinges the second elastic member 521 to the rotation frame 310.

Accordingly, the first elastic member 511 (or the second elastic member 521) is the first pressure member 412 (or the second pressure member 422) is the valve side flange (or valve other side flange) When pressurizing the valve, the first hinge shaft 512 (or the second hinge shaft 522) rotates and comes into close contact with the valve one side flange (or the other valve side flange), and the pressure applied to the valve flange is slightly increased. It can be more easily dispersed.

<Example 4>

4 is a cross-sectional view showing a valve test apparatus according to a fourth embodiment of the present invention.

As shown in FIG. 4, in the valve testing apparatus according to Embodiment 4 of the present invention, the first dispersion part 510 includes the first elastic member 511 embedded in the first pressure member 412. The second dispersion 520 has the second elastic member 521 embedded in the second pressing member 422.

Accordingly, the valve test apparatus according to the fourth embodiment of the present invention has the advantage of reducing the overall size of the equipment.

The present invention is not limited to the above-described embodiments, and the scope of application is not limited, and various modifications can be made without departing from the gist of the present invention as claimed in the claims.

100: mainframe
210: first side wall frame
220: second side wall frame
310: rotating frame
320: moving frame
410: first pressure unit
411: the first pressure actuator
412: first pressing member
420: second pressure unit
421: second pressure actuator
422: second pressure member
510: first dispersion unit
511: first elastic member
512: first hinge axis
520: second dispersion unit
521: second elastic member
522: second hinge axis

Claims (5)

Mainframe 100;
A first side wall frame 210 and a second side wall frame 220 installed on the main frame 100 so as to be spaced apart from each other in a horizontal direction by a predetermined distance;
A rotating frame 310 installed at the first side wall frame 210 and having one end of the valve fixed thereto;
A moving frame 320 installed on the second side wall frame 220 so as to be movable in the horizontal direction and having the other end of the valve fixed thereto;
A first pressurizing part 410 installed on the rotating frame 310 to move in the left and right direction and pressing the one side flange toward the rotating frame 310;
A second pressing unit 420 installed on the movable frame 320 so as to be movable in the left and right directions and pressing the other flange of the valve toward the movable frame 320;
A first dispersing unit 510 coupled to an opposite surface of the first pressing unit 410 opposite to the rotating frame 310 to disperse the pressure applied to the one flange of the valve; And
A second dispersion unit 520 coupled to an opposite surface of the second pressing unit 420 opposite to the moving frame 320 to distribute pressure applied to the other flange of the valve;
The first pressing unit 410 is a pair of first pressure actuators 411 and respectively installed on the upper and lower portions of the rotary frame 310, and a pair of rods of the first pressure actuator 411, respectively Coupled to include a pair of first pressing member 412 is formed in a semi-circular,
The second pressing unit 420 is a pair of second pressure actuators 421 installed on the upper and lower portions of the moving frame 320, respectively, and a pair of rods of the second pressure actuator 421, respectively Coupled and includes a pair of second pressing members 422 formed in a semicircular shape,
The first dispersion part 510 includes a first elastic member 511 coupled to the first pressure member 412 and formed in a semicircular shape.
The second dispersion unit 520 is coupled to the second pressing member 422, the valve test apparatus including a second elastic member (521) formed in a semicircular shape.
delete The method of claim 1,
The first pressing unit 410 is a plurality of first pressure actuator 411 which is radially installed on the rotating frame 310 and a plurality of first coupled to each of the rod of the plurality of first pressure actuator 411 1 includes a pressure member 412,
The second pressing unit 420 may include a plurality of second pressing actuators 421 radially installed on the moving frame 320, and a plurality of second coupling units coupled to the rods of the plurality of second pressing actuators 421, respectively. It includes two pressure member 422,
The first dispersion part 510 includes a first elastic member 511 coupled to the first pressure member 412,
The second dispersion unit 520 includes a second elastic member (521) coupled to the second pressing member (422).
The method of claim 3,
The first dispersion unit 510 includes a first hinge shaft 512 hinged to the first elastic member 511 to the rotation frame 310,
The second dispersing unit 520 includes a second hinge shaft 522 for hinge coupling the second elastic member 521 to the rotation frame 310.
The method according to claim 3 or 4,
The first dispersion 510 is the first elastic member 511 is embedded in the first pressing member 412,
The second dispersing unit (520) is a valve testing device in which the second elastic member (521) is embedded in the second pressing member (422).

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