KR101229047B1 - gas sensor having a explosion and flame proof - Google Patents

Abstract

The present invention relates to a gas detector having an explosion-proof structure, the gas detector includes a main body having a hollow portion; A detection sensor mounted on one side of the main body to detect leaked gas; A transmission / reception board for receiving a gas leak signal detected by the detection sensor and transmitting a signal to a monitoring device; A first cable connecting the detection sensor and the transmission / reception board; A sealing opening through which the first cable penetrates and is sealed to be connected to a connection portion between the main body and the detection sensor; A cylindrical shape formed to protrude a predetermined distance to the outside of the main body, an external cable introduced from the outside and a screw thread formed on an inner surface thereof; And a plurality of internal contacts connected to the transmission / reception board and a second cable on one surface, and a plurality of external contacts connected to the external cable on the other surface, and blocking to divide the space inside the main body to be sealed. It consists of boards. According to such a configuration, the spark generated from the electric circuit mounted therein is prevented from propagating to the outside, and the assembly is simple at the time of manufacture, and there is an effect that can be easily repaired in case of failure.

Description

Gas sensor having a explosion and flame proof}

The present invention relates to a gas detector having an explosion-proof structure, and more particularly, to a gas detector which prevents the gas leaked into the gas detector from entering and prevents the spark generated therefrom from propagating to the outside.

Combustible gas is widely used as a power source for home heating and cooking fuel and various industrial sites. These combustible gases have a hydrocarbon-based molecular structure and are composed of a combination of carbon (C) and hydrogen (H), and methane, ethane, propane, butane gas, and the like are included in the category of the combustible gas.

In recent years, the number of factories and industrial sites dealing with flammable gas is increasing, and the risk of leakage due to the handling of flammable gas also increases. If a flammable gas leaks, it can cause enormous damage from explosion and fire.In general, industrial sites that produce and manage flammable gas have installed gas detectors that can detect gas leaks early. The city has to take the necessary measures promptly.

The gas detector mainly measures the presence of gas as a semiconductor type or a contact combustion type, and the gas can be shut off or an alarm can be taken by the detected signal.

Equipment for detecting hydrocarbon-based flammable gases is classified into atmospheric diffusion and auto-suction according to the measurement type, and classified into semiconductor type, contact combustion type and electrochemical type according to the measuring principle of the sensors used.

Among these, the combustible gas sensor of the catalytic combustion type has a structure in which a heating part using a metal heating wire is installed in a carrier material of a ceramic system. At this time, when the carrier is heated by applying power to the metal heating wire in the carrier, the combustible gas around the carrier contacts the heated carrier and reacts with oxygen to generate a combustion reaction, resulting in reaction heat. As the temperature of the metal heating wire increases as the reaction heat caused by the combustion of the gas increases the voltage applied to the portion of the metal heating wire, the gas concentration can be calculated by measuring the voltage applied to the metal heating wire.

As such, the contact combustion gas sensor is a sensor that converts and reacts the reaction heat generated when the combustible gas and oxygen react with an electric signal, and is called a hot wire type sensor because a hot wire is embedded therein. Also do.

In addition, the omnidirectional signal generated by the sensor 30 receives the detected gas leakage signal, and the transmission / reception board 40 transmitting a signal to the monitoring device is mounted. The transmission / reception board 40 is equipped with various electronic circuits.

In such an electronic circuit, combustion may occur due to a short or other impact, and such a combustion flame has a problem of being exploded by leaked gas.

In addition, when a failure occurs in the electronic circuit or components inside the gas detector, there is a problem that the replacement of parts is difficult.

Therefore, the present invention was devised to solve the above-described problems, and prevents the sparks generated inside the gas detector of the present invention from propagating to the outside, and is easy to assemble during manufacture, and to be easily repaired in case of failure. It is to provide a gas detector having an explosion-proof structure that can be.

This object is achieved by the present invention, and in accordance with one aspect of the present invention, a gas detector having an explosion-proof structure includes: a body having a hollow portion; A detection sensor mounted on one side of the main body to detect leaked gas; A transmission / reception board for receiving a gas leak signal detected by the detection sensor and transmitting a signal to a monitoring device; A first cable connecting the detection sensor and the transmission / reception board; A sealing opening through which the first cable penetrates and is sealed to be connected to a connection portion between the main body and the detection sensor; A cylindrical shape formed to protrude a predetermined distance to the outside of the main body, an external cable introduced from the outside and a screw thread formed on an inner surface thereof; And a plurality of internal contacts connected to the transmission / reception board and a second cable on one surface, and a plurality of external contacts connected to the external cable on the other surface, and blocking to divide the space inside the main body to be sealed. Consists of a board, the connection pipe is characterized in that the fastening pipe is fastened to the external pipe.

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In the present invention, the fastening tube is a stepped end is formed along the outer circumferential surface at one end, and a cylindrical tube formed with a screw thread on the outer peripheral surface of the other end; Fastening pipe that is rotatable and seated on the step of the cylindrical tube in the shape of a cross-section "a" shaped, the outer circumferential surface; And a packing seated between the cylindrical tube and the connecting tube.

In addition, the external contact formed on the blocking board is further formed with a screw groove, characterized in that the external cable is connected to the external contact by the fastening of the screw.

According to another aspect of the invention, the camera is mounted inside the main body, the front of the camera is provided with a viewing window. A third cable connecting the camera and the transmission / reception board is further mounted.

According to the configuration as described above of the present invention, the spark generated in the electric circuit mounted therein is prevented from propagating to the outside, and the assembly is easy at the time of manufacture, there is an effect that can be easily repaired in case of failure.

1 is a perspective view of a gas detector according to an embodiment of the present invention.
2 is an exploded perspective view of a gas detector.
3 is a cross-sectional view of a gas detector.
4A and 4B are views for explaining the blocking board.
5a to 5c are views for explaining the fastening pipe.
6 is a cross-sectional view of a gas detector according to another embodiment.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings, wherein like reference numerals are used for like parts throughout the drawings.

1 is a perspective view of a gas detector having an explosion-proof structure according to an embodiment of the present invention, Figures 2 and 3 are an exploded perspective view and a cross-sectional view of the gas detector.

As shown in the figure, the gas detector having an explosion-proof structure according to the present invention shown by the reference numeral 10, the main body 20, the sensor 30, the transmission / reception board 40, the sealing opening 50, blocking It consists of a board 70 and the fastening pipe 80.

The main body 20 has a hollow portion formed therein can be a variety of components, and the side is equipped with a sensor 30 for detecting the leaked gas.

In addition, the main body 20 receives a gas leakage signal detected by the detection sensor 30, and transmits / receives a board 40 which transmits a signal to a monitoring device. ) Is connected to the external cable 150 through the second cable (120).

In addition, an opening 50 is mounted in the opening between the detection sensor 30 and the transmission / reception board 40. The seal 50 prevents the flame generated from the main body 20 from proceeding toward the detection sensor 30, and the first cable 110 connected to the detection sensor 30 is connected to the seal ( 50 to be connected to the transmission / reception board 40.

An electrical contact exists in the transmission / reception board 40, and a ball flower (spark) may occur at a portion of the electrical contact. Therefore, the blocking board 70 is mounted below the transmission / reception board 40.

The blocking board 70 is shown in FIGS. 4A and 4B. As shown in the figure, the blocking board 70 is formed of a plate, and forms a circle or a square shape according to the shape of the main body 20. The blocking board 70 is mounted to be in close contact with the inner surface of the main body 20, the upper surface is formed with an internal contact 71 connected to the second cable 120, the lower surface of the external cable 150 External contact 73 is formed to be connected to). The external contact 73 is preferably threaded so that the end of the external cable 150 is connected by a screw 300. Since the external cable 150 is connected by the screw 300 in this way, the connection and disassembly of the main body 20 and the external cable 150 is made easy.

And the main body 20 is formed with a connecting pipe 60 through which the external cable 150 passes. As shown in Figure 3 and 5a, the connecting pipe 60 is a cylindrical shape formed to protrude a predetermined distance from the main body 20 to the outside. Threads are formed on the inner circumferential surface of the connecting pipe 60 (see FIG. 5B).

The connecting pipe 60 and the external pipe 400 are connected by the fastening pipe 80, and the fastening pipe 80 will be described with reference to FIGS. 5B and 5C.

As shown in the figure, the fastening pipe 80 is composed of a cylindrical tube 81, a fastening tube 83 and the packing (85).

The cylindrical tube 81 is a cylindrical having a predetermined length formed with a hollow portion, and one end is formed along the outer circumferential surface at one end facing the connecting tube 60. A thread is formed on the outer circumferential surface of the other end.

The stepped portion of the cylindrical tube 81 is seated inside the connecting tube 60, and the packing 85 is seated in front of the stepped tube.

In addition, the tightening pipe 83 is rotatable in the shape of a pipe (pipe) having a cross-sectional shape of "A" shape and is rotatable (see FIG. 5C), and a thread is formed on an outer circumferential surface thereof. (See Figure 5b)

Therefore, the external cable 150 drawn out from the external pipe 400 passes through the cylindrical pipe 81 and the connecting pipe 60 to form an external contact 73 and a screw formed on the lower surface of the blocking board 70. 300).

One end of the cylindrical tube 81 is fastened to the external pipe 400 by a screw thread, and the other end having the stepped portion is seated inside the connection pipe 60 while pressing the packing 85. And the tightening tube 83 is fastened with the screw thread formed in the interior of the connecting pipe 60 is to squeeze the stepped end of the cylindrical tube (81).

Another embodiment is shown in FIG. 6. In another embodiment according to the present invention, the camera 200 is mounted inside the main body 20, and a viewing window 25 is provided in front of the camera 200. Since the camera 200 photographs the combustor and transmits it to the outside, it is possible to observe the abnormality of the combustor or the like even at a remote location. The camera 200 is connected to the transmission / reception board by a third cable 130.

What has been described above is for implementing a gas detector having an explosion-proof structure according to the present invention, and is not limited to the above-described embodiment of the present invention, without departing from the gist of the present invention as claimed in the following claims. Anyone with ordinary knowledge in the field of the present invention will have the technical idea of the present invention to the extent that various modifications can be made.

Description of the Related Art [0002]
10: gas detector, 20: main body,
40: detection sensor, 50: transmission / reception board,
60: connector, 70: blocking board,
80: fastening pipe, 81: cylindrical pipe,

Claims (5)

A main body 20 having a hollow portion formed therein; A detection sensor 30 mounted on one side of the main body 20 to detect leaked gas; A transmission / reception board 40 for receiving a gas leak signal detected by the detection sensor 30 and transmitting a signal to a monitoring device; A first cable 110 connecting the detection sensor 30 and the transmission / reception board 40; A sealing opening 50 through which the first cable 110 penetrates and is sealed to be connected to the connection portion between the main body 20 and the detection sensor 30; A cylindrical shape formed to protrude a predetermined distance to the outside of the main body 20, an external cable 150 introduced from the outside passes, and a connection pipe 60 formed with a screw thread on an inner surface thereof; And a plurality of internal contacts 71 connected to the transmission / reception board 40 and the second cable 120 on one surface thereof, and a plurality of external contacts 73 connected to the external cable 150 on the other surface thereof. Is formed, in the gas detector consisting of a blocking board 70 for dividing the space inside the main body 20 to be sealed,
The connection pipe 60 is a gas detector having an explosion-proof structure, characterized in that the fastening pipe 80 is fastened to the external pipe 400 is mounted. delete According to claim 1, The fastening pipe 80 is a stepped end is formed along the outer circumferential surface at one end, a cylindrical tube 81 is formed on the outer peripheral surface of the other end; Tightening tube 83 is seated on the step of the cylindrical tube 81 is rotatable in the cross-sectional shape of the "b" shape, the outer peripheral surface is formed with a screw thread; And a packing (85) seated between the cylindrical tube (81) and the connecting tube (60). The external contact 73 is formed in the blocking board 70, the screw groove is further formed, the external cable 150 is connected to the external contact 73 by the fastening of the screw. Gas detector having an explosion-proof structure, characterized in that. According to claim 1, wherein the main body 20, the camera 200 is mounted, the front of the camera 200 is provided with a viewing window (25). Gas detector having an explosion-proof structure, characterized in that the third cable 130 for connecting the camera 200 and the transmission / reception board 40 is further mounted.

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