KR102589326B1 - valve having rupture disk - Google Patents

Abstract

The present invention relates to a valve having a housing having a penetrating passage formed therein, an opening and closing body installed in the housing to open and close the passage, and an actuator that is coupled to the opening and closing body and operates to open and close the opening and closing body so that the opening and closing body opens or closes the passage, A pressure rupture unit that opens the flow path by breaking it when a hydraulic pressure exceeding the set pressure is applied to the opening and closing body is mounted opposite to the flow path opening direction. These valves provide the function of opening and closing the flow path through a manipulator, and when the set pressure is exceeded, the pressure rupture plate ruptures to open the flow path, providing the advantage of simplifying the structure while supporting both flow path opening and opening by pressure. do.

Description

Valve having a pressure rupture disk

The present invention relates to a valve having a pressure rupture plate, and more specifically, to a valve having a pressure rupture plate capable of opening the flow path by rupture when the pressure inside the flow path exceeds a set pressure while the flow path is closed. will be.

In general, valves are installed in the middle of a pipe or in a container and are configured to allow or block the movement of fluid through the operation of a manipulator.

In this way, valves that open and close the flow path by manipulating the manipulator are classified into various types according to their operating structure and purpose, such as ball valves, gate valves, and butterfly valves. Domestic Patent Publication No. 10-2017-0084926 describes the structure of the ball valve. It has been disclosed.

Meanwhile, apart from valves that open and close the flow path by manipulating a manipulator, relief valves that can automatically release fluid to the outside when the pressure exceeds a set level for safety purposes are being applied in various industrial facilities.

However, conventionally, valves that open and close the flow path through operation of a manipulator and relief valves are separately applied to piping facilities that require automatic opening of the flow path when the pressure exceeds a set level for safety purposes, which complicates facility construction. There is.

The present invention was created to improve the above problems. The purpose of the present invention is to provide a valve with a pressure rupture plate that provides the opening and closing function of the flow path through a manipulator and also supports the opening of the flow path by itself when the set pressure is exceeded. There is.

In order to achieve the above object, the valve according to the present invention includes a housing having a penetrating passage formed therein, an opening and closing body installed in the housing to open and close the passage, and a valve coupled to the opening and closing body so that the opening and closing body opens or closes the passage. In the valve having an operator that operates the opening and closing of the opening and closing body, the opening and closing body is provided with a pressure rupture unit that opens the passage by breakage when a hydraulic pressure exceeding a set pressure in a state of closing the passage is applied to the opening and closing body in the passage opening direction. It is mounted opposite to.

In addition, the opening and closing body is designed to open and close the passage while rotating according to the operation of the manipulator, or to open and close the passage by being raised and lowered according to the operation of the manipulator.

According to one aspect of the present invention, the opening and closing body is formed in a spherical shape that rotates in conjunction with the rotation of the manipulator, and includes a main open hole formed to penetrate along a first direction to open a flow path, and a main open hole of the main open hole. It has a pressure detection hole formed to penetrate along a direction perpendicular to the extension direction, and the pressure rupture unit is installed to close the pressure detection hole.

In addition, the pressure rupture unit includes a support case that is attached and detached to the pressure detection hole by screwing and has a fluid passage hole through which fluid passes; A pressure rupture plate is mounted on the support case to close the fluid passage hole and is exposed opposite to the pressure detection hole to open the fluid passage hole by breaking when a set pressure is exceeded.

According to another aspect of the present invention, the support case includes a ring body that is formed in a hollow ring shape and has a thread formed on an outer circumferential surface and is screwed to the opening and closing body; a plurality of support pieces extending from the inner peripheral surface of the ring body toward the center and spaced apart from each other along the inner peripheral direction; A first restraining groove that connects the support pieces at the center of the ring body and is drawn downward along a first direction, and a second restraining groove that is formed to be drawn downward along a direction intersecting the first restraining groove. The pressure rupture plate is formed in a disk shape so that it can be seated within the ring body, and a first plate portion corresponding to the fluid passage hole area is formed to penetrate between the support pieces along the circumferential direction. and a disc portion in which a second plate portion corresponding to the support piece is repeatedly formed and the thickness of the first plate portion is different from that of the second plate portion; and an arrangement position adjustment protrusion that protrudes at a position spaced apart from the center of the disk portion and is formed to be inserted into the first or second constraining groove.

According to the valve according to the present invention, in addition to providing the opening and closing function of the flow path through a manipulator, when the set pressure is exceeded, the pressure rupture plate is ruptured to open the flow path, thereby supporting both flow path opening and opening by pressure, while simplifying the structure. Provides advantages.

1 is a partial cross-sectional view showing a valve to which a pressure rupture unit according to an embodiment of the present invention is applied;
Figure 2 is an exploded perspective view of the opening and closing body of Figure 1;
Figure 3 is a partial cross-sectional view showing a valve according to another embodiment of the present invention;
Figure 4 is an exploded perspective view showing a pressure rupture unit according to another embodiment of the present invention;
Figure 5 is a combined cross-sectional view of the pressure rupture unit of Figure 4.

Hereinafter, a valve according to a preferred embodiment of the present invention will be described in more detail with reference to the attached drawings.

Figure 1 is a partial cross-sectional view showing a valve to which a pressure rupture unit is applied according to an embodiment of the present invention, and Figure 2 is a perspective view showing an exploded extract of the opening and closing body of Figure 1.

Referring to Figures 1 and 2, the valve 100 according to the present invention includes a housing 110, an opening and closing body 130, a manipulator 150, and a pressure rupture unit 170.

The housing 110 is formed with a flow path 112 penetrating in a straight line and is formed to accommodate the opening and closing body 130.

The opening and closing body 130 is installed in the housing 110 to open and close the passage 112 within the housing 110, and in the example shown, it is rotated according to the rotation of the manipulator 150 to open and close the passage 112.

In the illustrated example, the opening/closing body 130 is formed in a structure applied to a ball valve. That is, the opening and closing body 130 is formed in a spherical shape that rotates in conjunction with the rotation of the manipulator 150, and includes a main opening hole 132 that is formed to penetrate along the first direction and opens the passage 112, It is formed in a structure having a pressure detection hole 134 formed to penetrate along a direction perpendicular to the direction of extension of the main open hole 132. Here, the pressure detection hole 134 is used to provide an installation space for the pressure rupture unit 170, which will be described later, and to open the passage 112 when the pressure exceeds.

Reference numeral 141 denotes a sealing member installed to seal the opening and closing body 130.

The manipulator 150 is coupled to the opening and closing body 130 to operate the opening and closing of the opening and closing body 130 so that the opening and closing body 130 opens or closes the passage 112. In the example shown, the opening and closing body 130 A rotation lever structure is applied that is horizontally coupled to the rotation axis 152 extending vertically from and rotates in the horizontal direction about the rotation axis 152.

Meanwhile, unlike the example shown, as shown in FIG. 3, the opening and closing body 230 can be applied to be formed in a structure that opens and closes the passage 112 of the housing 110 by being raised and lowered according to the operation of the manipulator 250. there is.

In this case, as described above, the opening and closing body 230 is formed with a pressure detection hole 134 penetrating along a direction parallel to the flow path 112 at a position that closes the flow path 112.

When the pressure detection hole 134 is divided along the direction of extension, it has a first part 134a having a first inner diameter, a second inner diameter wider than the first inner diameter at the end of the first part 134a, and a threaded line on the inner peripheral surface. This is the formed second part 134b.

The pressure rupture unit 170 is configured to open the passage 112 by breaking when hydraulic pressure exceeding the set pressure is applied while the opening and closing elements 130 and 230 are closing the passage 112 ( It is mounted on the second part 134b opposite to the opening direction of the flow path 112 so as to close the pressure detection hole 134 of 230.

The pressure rupture unit 170 includes a support case 171 and a pressure rupture plate 174.

The support case 171 is attached and detached from the second part 143b of the pressure detection hole 134 by screwing, and a fluid passage hole 171a through which fluid passes is formed.

A seating projection 171b for seating the pressure rupture plate 174, which will be described later, is formed at an end portion of the support case 171 that is inserted into the pressure detection hole 134.

Reference numeral 176 denotes a sealing O-ring inserted between the support case 171 and the second part 134b of the pressure detection hole 134.

The pressure rupture plate 174 is mounted on the seating protrusion 171b of the support case 172 to close the fluid passage hole 171a in the support case 171, and is exposed to the pressure detection hole 134 to determine the set pressure. If it exceeds, the fluid passage hole 172a is opened due to damage.

The pressure rupture plate 174 may be formed to break at the desired rupture pressure value depending on the applied material or thickness.

Meanwhile, the pressure rupture unit 170 may be formed to adjust the rupture pressure, and an example thereof will be described with reference to FIGS. 4 and 5.

Referring to Figures 4 and 5, the support case 271 is structured to include a ring body 272a, a support piece 272b, and a central portion 273.

The ring body 272a is formed in a hollow ring shape and has threads formed on its outer circumferential surface to be screwed together with the pressure detection hole 134 formed in the opening and closing body 130 (230).

The support pieces 272b extend from the inner peripheral surface of the ring body 272a toward the center and are spaced apart from each other along the inner peripheral direction. In the illustrated example, the three support pieces 272b are formed at equal intervals on the inner peripheral surface of the ring body 272b in a fan-shaped shape whose width gradually decreases toward the center.

The central portion 273 connects the support pieces 272b at the center of the ring body 272a and is drawn downward, and includes a long hole-shaped first constraint groove 273a formed along the first direction, and a first constraint groove ( A second confining groove 272b formed in a long hole shape is formed to be drawn downward along a direction intersecting 273a).

The pressure rupture disk 274 includes a disk portion 275 and an array position adjustment protrusion 278.

The disk portion 275 is formed in a disk shape so that it can be seated within the ring body 272a through the support pieces 272b, and has a fluid passage hole 271a area formed to penetrate between the support pieces 272b along the circumferential direction. A first plate portion 275a corresponding to and a second plate portion 275b corresponding to the support piece 272b are formed radially and repeatedly along the circumferential direction, and the thickness of the first plate portion 275a and the second plate portion 275b are formed repeatedly. The thickness of the plate portion 275b is formed differently. In the illustrated example, the second plate portion 275b is formed to be thicker than the thickness of the first plate portion 275a.

Reference numeral 276 is a fracture guide groove that is drawn inward and guides fracture.

The fracture guide groove 276 extends along the edge lines of each of the first plate portion 275a and the second plate portion 275b, and is formed in a 'ㄷ' shape with both ends spaced apart from each other, so that when fracture occurs, the fracture guide groove 276 ) is broken and cut only, and the part between the two ends is not cut, thereby suppressing separation and allowing fluid to pass through.

The arrangement position adjustment protrusion 278 protrudes from a position spaced apart from the center of the disk portion 275 and is formed to be inserted in a constrained state into either the first constraint groove 273a or the second constraint groove 273b. there is.

As an example, when the array position adjustment protrusion 278 is coupled to the first constraint groove 273a, the thin first plate portion 275a is disposed to face the fluid passage hole 271a, and the array position is adjusted. When the protrusion 278 is separated and rotated to be coupled to the second restraining groove 273b, the thicker second plate portion 275b is disposed to face the fluid passage hole 271a.

Therefore, when the thin first plate portion 275a is placed opposite the fluid passage hole 271a, it ruptures when the first pressure is exceeded, and the second plate portion 275b is disposed opposite the fluid passage hole 271a. If placed properly, it ruptures when the second pressure, which is higher than the first pressure, is exceeded.

Meanwhile, in the illustrated example, the opening and closing elements of the ball valve and the gate valve are illustrated, and of course, the pressure rupture unit can be applied to the opening and closing elements that open and close other flow paths.

According to the valve described above, it provides the opening and closing function of the flow path through a manipulator, and when the set pressure is exceeded, the pressure rupture plate ruptures to open the flow path, thereby simplifying the structure while supporting both flow path opening and opening by pressure. Provides advantages.

110: housing
130, 230: Opening and closing body
150, 250: Manipulator
170, 270: Pressure rupture unit

Claims (5)

delete delete delete delete A valve having a housing having a penetrating passage formed therein, an opening and closing body installed in the housing to open and close the passage, and an operator that is coupled to the opening and closing body and operates to open and close the opening and closing body so that the opening and closing body opens or closes the passage. Because,
A pressure rupture unit that opens the flow path by breaking when a hydraulic pressure exceeding a set pressure is applied to the opening and closing body in a closed state of the flow path is mounted opposite the flow path opening direction,
The opening and closing body is configured to open and close the flow path by rotating according to the operation of the manipulator, or to open and close the flow path by being raised and lowered according to the operation of the manipulator,
The opening and closing body is formed in a spherical shape that rotates in conjunction with the rotation of the manipulator, has a main open hole formed to penetrate along a first direction to open the flow path, and a direction perpendicular to the extension direction of the main open hole. It has a pressure detection hole formed to penetrate along,
The pressure rupture unit is installed to close the pressure detection hole,
The pressure rupture unit includes a support case that is attached and detached from the pressure detection hole by screwing and has a fluid passage hole through which fluid passes;
a pressure rupture plate mounted on the support case to close the fluid passage hole and exposed opposite to the pressure detection hole to open the fluid passage hole by breakage when a set pressure is exceeded;
The support case is
A ring body formed in a hollow ring shape and having threads formed on the outer circumferential surface and screwed to the opening and closing body;
a plurality of support pieces extending from the inner peripheral surface of the ring body toward the center and spaced apart from each other along the inner peripheral direction;
A first restraining groove that connects the support pieces at the center of the ring body and is drawn downward along a first direction, and a second restraining groove that is formed to be drawn downward along a direction intersecting the first restraining groove. It has a central portion formed,
The pressure rupture disk is
A first plate portion corresponding to a fluid passage hole area formed in a disk shape so as to be seated within the ring body and penetrating between the support pieces along the circumferential direction, and a second plate portion corresponding to the support pieces. a circular plate portion that is repeatedly formed and the thickness of the first plate portion and the second plate portion are formed differently;
A valve characterized in that it has an arrangement position adjustment protrusion that protrudes at a position spaced apart from the center of the disk portion and is formed to be inserted into the first constraint groove or the second constraint groove.

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