KR102667764B1 - Assembly for sensing leakage of chemicals at pipe - Google Patents

Abstract

The present invention includes a mounting module configured to be coupled to a pipe to surround the pipe; A sensing module installed on the mounting module and detecting chemicals leaking from the pipe; and a communication module electrically connected to the sensing module and configured to transmit the detection value of the sensing module to the outside.

Description

{ASSEMBLY FOR SENSING LEAKAGE OF CHEMICALS AT PIPE}

The present invention relates to a detection assembly for detecting chemicals leaking from pipes.

Generally, a variety of equipment such as deposition, etching, and photolithography is installed in a semiconductor factory. In order for the equipment to operate, chemicals such as source gas must be supplied into or discharged from the chamber of the equipment. This is done through piping connected to the relevant equipment.

Even when pipes are bent or extended in a straight line, they are connected to other pipes through connectors. Such a connection is made by applying adhesive to the outer surface of the pipe inserted into the connector and then inserting it into the connector and fixing it.

This connection method may cause problems in which the adhesive melts over time and chemicals such as gas leak through the pipe connection. Accordingly, it is necessary to prepare for the possibility of chemical leakage.

One object of the present invention is to provide a chemical leak detection assembly in pipes, which allows early detection and response to chemical leaks in pipes.

Another object of the present invention is to provide a chemical leak detection assembly in a pipe, which can simplify installation by directly installing the detection component in the pipe.

A pipe chemical leak detection assembly according to an aspect of the present invention for realizing the above-described problem includes: a mounting module configured to be coupled to the pipe to surround the pipe; A sensing module installed on the mounting module and detecting chemicals leaking from the pipe; And it may include a communication module electrically connected to the sensing module and configured to transmit the sensed value of the sensing module to the outside.

Here, the mounting module includes: a first mounting frame having a semicircular shape; and a second mounting frame rotatably coupled to the first mounting frame and having a semicircular shape, wherein the first mounting frame and the second mounting frame are configured to form a ring shape as a whole when surrounding the pipe. It can be.

Here, the mounting module further includes a fastening unit that fastens the first mounting frame and the second mounting frame to each other, and the fastening unit includes: an insertion protrusion formed on the first mounting frame; And it may include a receiving groove formed to insert and fix the insertion protrusion into the second mounting frame.

Here, a guide module that guides chemicals to the sensing module may be further provided.

Here, the guide module may have a guide hole that allows chemicals to pass through and flow toward the sensing module, and may include a frame disposed on the upper side of the mounting module.

Here, the guide module includes: a first guide frame having a semicircular shape and having a first guide hole; and a second guide frame having a second guide hole, rotatably coupled to the first guide frame, and having a semicircular shape, wherein the first guide frame and the second guide frame surround the pipe. It may be configured to form a ring shape as a whole.

Here, the sensing module includes: a base that has an installation part and is coupled to the mounting module so that the installation part is arranged along a plane that intersects the plane formed by the mounting module; And it may include a sensor mounted on the installation unit to detect a chemical substance.

Here, the mounting module may include a recess, and the base may include a locking portion having a locking protrusion that is inserted into the recess and is caught.

Here, the engaging portion includes a first support portion corresponding to one side of the mounting module; and a second support portion corresponding to the other side of the mounting module, wherein the catching protrusion may be formed to protrude from the first support portion toward the recess.

Here, the recess includes a first section extending from an end of the mounting module toward the center; And it may include a second section that extends in a direction intersecting the extension direction of the first section, so that the locking protrusion enters through the first section and is caught.

According to the chemical leak detection assembly of the pipe according to the present invention configured as described above, the sensing module that detects the chemical substance leaking from the pipe is installed in a mounting module coupled to the pipe to surround the pipe and is also connected to the communication module. By transmitting the detection results of chemical leaks to the outside, managers can identify and respond to chemical leaks from pipes early on. Additionally, since the mounting module is installed directly on the pipe, installation can be performed more simply than when it is placed on the floor.

Figure 1 is a perspective view showing the pipe chemical leak detection assembly 100 installed in the pipe P according to an embodiment of the present invention.
FIG. 2 is an exploded perspective view of the chemical leak detection assembly 100 of FIG. 1.
FIG. 3 is a perspective view for explaining how the mounting module 110 of FIG. 2 is mounted on the pipe (P).
Figure 4 is a perspective view for explaining how the guide module 170 is mounted on the pipe (P).
Figure 5 is a perspective view showing the pipe chemical leak detection assembly 200 installed in the pipe P according to another embodiment of the present invention.
FIG. 6 is an exploded perspective view of the chemical leak detection assembly 200 of FIG. 5.

Hereinafter, a piping chemical leak detection assembly according to a preferred embodiment of the present invention will be described in detail with reference to the attached drawings. In this specification, the same or similar reference numbers are assigned to the same or similar components even in different embodiments, and the description is replaced with the first description.

Figure 1 is a perspective view showing the chemical leak detection assembly 100 of the pipe installed in the pipe (P) according to an embodiment of the present invention, and Figure 2 is a view of the chemical leak detection assembly 100 of Figure 1. This is an exploded perspective view.

Referring to these drawings, the chemical leak detection assembly 100 may include a mounting module 110, a sensing module 130, a communication module 150, and a guide module 170.

The mounting module 110 is configured to be coupled to the pipe (P) in a way that surrounds the pipe (P). Thereby, the mounting module 110 can be easily coupled to the pipe (P) and structural stability can be secured.

The frame forming the mounting module 110 may be divided into a first mounting frame 111 and a second mounting frame 115. They are rotatably coupled to each other. For example, they can be rotated relative to each other about a rotation axis (not shown) inserted relative to them. Additionally, both the first mounting frame 111 and the second mounting frame 115 may have a semicircular shape. Thereby, when the first mounting frame 111 and the second mounting frame 115 are combined to surround the pipe P, they can form a ring shape as a whole.

Installation areas 112 and 116 may be formed on the upper surfaces of the first mounting frame 111 and the second mounting frame 115. The installation areas 112 and 116 are concave to accommodate the sensing module 130. Coupling grooves 113 and 117 may be formed on the sides of the first mounting frame 111 and the second mounting frame 115. The receiving portion 118 may be concavely formed on the inner peripheral surface of the second guide frame 175.

The sensing module 130 is configured to detect chemicals flowing down from the pipe (P), specifically, the pipe connection portion (CP1) formed in the pipe extending in the vertical direction. Sensing module 130 may have a sensor 131 used for such sensing. The sensor 131 is a leak sensor for detecting chemicals, and can be made in a shape suitable for the installation target, such as circular or straight. The sensor 131 may be seated in the installation areas 112 and 116.

The communication module 150 is configured to transmit the sensed value of the sensing module 130 to the outside. For this purpose, the communication module 150 is electrically connected to the sensing module 130. Additionally, the communication module 150 may be connected to the sensing module 130 through a processor that processes data on the sensed values of the sensing module 130.

The main body 151 of the communication module 150 may be a wireless communication module such as Bluetooth or NFC, or may be a connector for wired communication. A coupling protrusion 155 is formed to protrude from the main body 151, and can be inserted and coupled to the coupling grooves 113 and 117 of the mounting module 110.

The guide module 170 is configured to guide chemicals flowing down from the pipe connection portion (CP1) to the sensing module 130. To this end, the guide module 170 may be placed above the sensing module 130. The guide module 170, similar to the mounting module 110, may have a frame composed of a first guide frame 171 and a second guide frame 175. The first guide frame 171 and the second guide frame 175 are rotatably connected to each other. They each have a first guide hole 172 or a second guide hole 176. Accordingly, chemicals may flow into the sensor 131 through the guide holes 172 and 176.

FIG. 3 is a perspective view for explaining how the mounting module 110 of FIG. 2 is mounted on the pipe (P).

Referring to this drawing, in order for the mounting module 110 to be installed on the pipe P, it may further include a fastening unit. The fastening unit fastens the first mounting frame 111 and the second mounting frame 115 to each other so that they form a ring shape surrounding the pipe P.

The fastening unit may be composed of, for example, an insertion protrusion 119a and a receiving groove 119b. If the insertion protrusion 119a protrudes from the end surface of the second mounting frame 115, the receiving groove 119b may be recessed from the end surface of the first mounting frame 111. When the first mounting frame 111 and the second mounting frame 115 surround the pipe P, the insertion protrusion 119a may be inserted and fixed into the receiving groove 119b.

In that case, with one of the first mounting frame 111 and the second mounting frame 115 in close contact with the outer peripheral surface of the pipe P, the other one of them is brought close to the above one, so that the insertion protrusion Fixing between (119a) and receiving groove (119b) is completed. By fixing them, the first mounting frame 111 and the second mounting frame 115 can be coupled and fixed to each other while surrounding the pipe P.

In order to increase the bonding strength between them, it may be possible to additionally apply adhesive to the receiving portion 118. In that case, the second mounting frame 115 is adhered to the outer peripheral surface of the pipe (P) by an adhesive, so the second mounting frame 115 and the first mounting frame 111 are more firmly coupled to the pipe (P). It can be maintained as is.

Figure 4 is a perspective view for explaining how the guide module 170 is mounted on the pipe (P).

Referring to this drawing, after the mounting module 110 is installed, the sensing module 130 may be installed thereon. Furthermore, the communication module 150 connected to the sensing module 130 may also be coupled to the mounting module 110.

In this state, the guide module 170 is coupled to the pipe (P) to be located above the sensing module 130. The method in which the guide module 170 is coupled to the pipe (P) is similar to the method in which the mounting module 110 is coupled to the pipe (P).

Furthermore, the first guide frame 171 and the second guide frame 175 of the guide module 170 also have insertion protrusions 179a and receiving grooves 179b, so that they can be formed to be fastened to each other with one touch. .

Through this combination, the first guide frame 171 and the second guide frame 175 can form a ring shape by surrounding the pipe (P).

Next, another type of leak detection assembly 200 will be described with reference to FIGS. 5 and 6. This assembly 200 is intended to correspond to a pipe connection portion CP2 formed in a pipe arranged along the horizontal direction.

Figure 5 is a perspective view showing the chemical leak detection assembly 200 of the pipe installed in the pipe (P) according to another embodiment of the present invention, and Figure 6 shows the chemical leak detection assembly 200 of Figure 5. This is an exploded perspective view.

The leak detection assembly 200 may also include a mounting module 210, a sensing module 230, a communication module 250, and a guide module 270.

The mounting module 210 is substantially the same as the mounting module 110 of the previous embodiment. However, there is a difference in that a recess 214 is formed in a portion of the first mounting frame 211.

The recess 214 may have a first section 214a extending from an end of the mounting module 210 in a direction toward the center. A second section 214b is formed following the first section 214a. The second section 214b may extend along a direction intersecting the extension direction of the first section 214a.

The sensing module 230 may have a base 231 arranged along a plane that intersects the plane formed by the mounting module 210. The base 231 is coupled to the mounting module 210 and may be arranged along a generally vertical direction.

The base 231 may have an installation portion 233 where the sensor 239 is installed. The installation part 233 may have a concave area in which the sensor 239 is seated. Additionally, the remaining area of the base 231 may serve as a locking portion 235. The catching portion 235 is a portion that is caught on the mounting module 210 and allows the base 231 to be coupled to the mounting module 210.

The catching portion 235 extends from one side of the installation portion 233 and may have a first support portion 236 and a second support portion 237. When the first support part 236 corresponds to one side of the mounting module 210, the second support part 237 may correspond to the other side of the mounting module 210. In one of them, the first support portion 236, a locking protrusion 238 may be formed to protrude toward the recess 214.

In order for the catching portion 235 to be caught on the mounting module 210, the operator must insert the mounting module 210 between the first support portion 236 and the second support portion 237. In that case, the stopping protrusion 238 must be moved along the second section 214b after entering the first section 214a. Accordingly, the catching protrusion 238 is caught in the second section 214b and is caught in the mounting module 210.

The sensing module 230 may be installed in the installation unit 233, and the communication module 250 may also be installed in the installation unit 233.

The frame 271 of the guide module 270 is directly installed on the base 231 without having to be installed on the pipe (P). A guide hole 275 is formed through an opening in the frame 271, through which chemicals can flow into the sensor 239.

The chemical leak detection assembly of the pipe as described above is not limited to the configuration and operation method of the embodiments described above. The above embodiments may be configured so that various modifications can be made by selectively combining all or part of each embodiment.

100,200: Chemical leak detection assembly 110,210: Mounting module
130,230: Sensing module 150,250: Communication module
170,270: Guide module

Claims (10)

A mounting module configured to be coupled to the pipe so as to surround the pipe; A sensing module installed on the mounting module and detecting chemicals leaking from the pipe; And a communication module electrically connected to the sensing module and configured to transmit the detected value of the sensing module to the outside,
The sensing module includes: a base that has an installation part and is coupled to the mounting module so that the installation part is arranged along a plane that intersects a plane formed by the mounting module; And it is mounted on the installation unit and includes a sensor that detects a chemical substance,
The mounting module includes a recess,
The base is a chemical leak detection assembly of a pipe, including a locking portion having a locking protrusion that is inserted into the recess and caught.
According to paragraph 1,
The mounting module is,
A first mounting frame having a semicircular shape; and
It is rotatably coupled to the first mounting frame and includes a second mounting frame having a semicircular shape,
The first mounting frame and the second mounting frame are,
A pipe chemical leak detection assembly configured to form a ring shape as a whole when surrounding the pipe.
According to paragraph 1,
A chemical leak detection assembly in a pipe further comprising a guide module that guides chemicals to the sensing module.
According to paragraph 3,
The guide module is,
A chemical leak detection assembly in piping, comprising a frame having guide holes that allow chemicals to flow through and toward the sensing module.
According to paragraph 1,
The catching part is,
a first support portion corresponding to one side of the mounting module; and
It includes a second support portion corresponding to the other side of the mounting module,
The locking protrusion is,
A chemical leak detection assembly in a pipe that protrudes from the first support portion toward the recess.
According to paragraph 1,
The recess is,
a first section extending from an end of the mounting module toward the center; and
A chemical leak detection assembly in a pipe, comprising a second section extending in a direction intersecting the extension direction of the first section, wherein the catching protrusion enters through the first section and is caught. delete delete delete delete

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