KR102392031B1 - Intermediate valve for gas equipment - Google Patents

Abstract

The present invention relates to an intermediate valve for a gas equipment, and more specifically, to an intermediate valve for a gas equipment, wherein an inspection button of a front surface case is operated in a state in which an opening and closing valve of an intermediate valve is closed, before change in the gas pressure within a gas pipeline from a gas passage of an exit-side connecting pipe of a valve body to a gas equipeent can be detected by a MEMS pressure sensor of a gas pressure measuring unit. The information thereof can be inputted in the CPU such that whether the gas has leaked in the gas pipeline can be checked and determined in a short time within several seconds, so that the result thereof may be checked by means of a display device composed of a safety light, a warning light, a speaker and a display mounted on the front surface case. Therefore, whether the gas has leaked can be recognized in advance before the gas equipment is used in a state in which the opening and closing valve of the intermediate valve is closed, thereby preventing accidents caused by the leakage of gas in advance. To this end, the present invention comprises: a valve body; an operating handle; a main case; a front surface case; a power supply unit; and an overflow gas blocking unit.

Description

Intermediate valve for gas equipment

The present invention relates to an intermediate valve for gas appliances, and more particularly, when the check button of the front case is operated in a state in which the on/off valve of the intermediate valve is closed, the gas passage from the gas passage of the outlet side connection tube of the valve body to the gas appliance The MEMS pressure sensor of the gas pressure measuring part detects the change in gas pressure in the gas pressure measuring part, and inputs the information into the CPU to check the leak in the gas pipeline within a short time within a few seconds, and judges the result of the safety light installed in the front case. By making it possible to check through the display device composed of , alarm light, speaker and display, it is possible to check in advance whether gas leakage occurs before using gas appliances with the on/off valve of the intermediate valve closed, thereby preventing accidents due to gas leakage in advance. It relates to an intermediate valve for gas appliances that made it possible.

In general, in gas appliances that use gas as fuel, such as a gas range used in the kitchen or a gas boiler used for heating, a gas pipe is installed so as to reach the gas appliance from the gas supply unit to supply gas. At this time, the gas appliance In the gas pipe connected to the , an intermediate valve that controls the gas supply is installed so that the user can easily connect and cut off the gas.

However, in a gas pipe or on/off valve connected to a gas appliance such as a gas stove or gas boiler, even if the on/off valve is closed, a leak factor that the user cannot understand may occur. When operating the device, there was a problem of causing a safety accident such as a gas explosion.

Therefore, the user installs and uses a separate gas leak detector and a gas leak alarm near the gas appliance (near the ceiling or floor of the kitchen) in order to prevent the accident in advance. There was a cumbersome and inconvenient drawback in the actual situation of checking the gas leak by frequently applying soapy water to the gas pipe connection part to directly check the gas leak.

1. Registered Utility Model Publication No. 20-0423712.

The present invention has been devised to solve the above problems of the prior art, and an object of the present invention is to operate the check button of the front case in a state in which the on/off valve of the intermediate valve is closed, and the gas in the gas passage of the outlet side connection pipe of the valve body is operated. The MEMS pressure sensor of the gas pressure measuring part detects the change in gas pressure in the gas pipeline leading to the appliance, and inputs the information into the CPU to check and judge whether there is a leak in the gas pipeline within a few seconds, and the result is displayed on the front case. By making it possible to check through the display device composed of the installed safety light, alarm light, speaker and display, it is possible to know in advance whether gas leak occurs in the gas pipeline located between the intermediate valve and the gas appliance before using the gas appliance. It is to provide an intermediate valve for gas appliances that can prevent in advance.

In addition, an object of the present invention is to form a gas flow groove concentrically along the inner circumferential surface on the inner circumferential surface of the lower end of the gas inlet side connection pipe of the intermediate valve to communicate with the gas flow groove so that the gas pressure measuring unit communicates with the gas flow groove at least one along the inner circumferential surface of the outlet side connection pipe A gas inlet groove formed by drilling the above hole is made, a sensor bracket is installed using a coupling member on the protruding tube formed to communicate with the gas movement groove, and a pressure sensor is installed in the sensor installation groove, so that the pressure sensor of the device is connected to the gas passage pipe Since it is installed in a partitioned location away from the moving gas, there is no risk of impurities adhering to the surface to be contaminated or damaged as it does not come in direct contact with the moving gas. An object of the present invention is to provide an intermediate valve for a gas appliance in which the lifespan of the pressure sensor is durable.

The problems to be solved by the present invention are not limited to the problems mentioned above. In addition, other technical problems not mentioned will be clearly understood by those of ordinary skill in the art to which the present invention belongs from the following description.

In order to achieve the above object, the present invention is formed of a tubular body and the inlet connector 111 formed at the upper end has an inlet connector 110 connected to a gas pipe on the gas supply side, and an inlet connector 110. The outlet connector 121 coupled to the lower end of the tubular body and formed at the lower end includes the outlet connector 120 connected to the gas pipe on the gas appliance side, the inlet connector 110 and the outlet connector 120 . ( 100) and

an operation handle 220 coupled to the outer end of the on-off valve 200 and manually opening and closing the on-off valve 200;

a main case 400 installed on the outside of the valve body 100 so as to surround the valve body 100;

It is coupled to cover the front opening of the main case 400 so that the end of the operation handle 220 protrudes on one side, the PCB board P connected to the pressure sensor 320 is embedded, and the pressure sensor is on one side of the front side A safety light 420 and an alarm light 430 are installed to display the inspection result after a predetermined time after the operation of the inspection button 410 and the inspection button 410 that operates the 320, and an alarm in connection with the alarm lamp 430 A speaker 440 for outputting a sound, and a front case 400a having a display 450 for displaying the safety status;

A power supply unit 500 installed inside the main case 400 to supply power to each device including the pressure sensor 320, the PCB substrate P, and the front case 400a;

Intermediate valve for gas appliances installed in the inlet side connection pipe 110 above the opening/closing ball 210 and comprising an overflow gas shutoff unit 600 that blocks the gas supply when there is excessive gas inflow from the gas supply unit In

A gas moving groove 113 formed in a concentric circle along the inner circumferential surface on the inner circumferential surface of the lower end of the inlet side connection pipe 110 downward of the opening/closing ball 210;

At least one hole is drilled along the inner circumferential surface of the outlet connector 120 to communicate from the gas passage 122 at the top of the outlet connector 120 to the gas flow groove 113 of the inlet connector 110. A gas inlet groove 123 to form,

A protrusion pipe 114 that protrudes to a predetermined length on the outer surface of the lower end of the inlet connector 110 and has a groove 114a in the center thereof to communicate with the gas flow groove 113 of the inlet connector 110 . class,

The sensor bracket 310 is coupled to the outer surface of the protruding tube 114 using a coupling member, but is sealed so that gas does not leak, and a sensor installation groove 311 is formed inside to communicate with the groove portion 114a of the protruding tube 114 . )class,

a pressure sensor 320 installed in the sensor installation groove 311 of the sensor bracket 310;

A gas pressure measuring unit 300 consisting of a flexible flat cable (FFC) cable 330 having one end connected to the pressure sensor 320 and the other end connected to the PCB board P built into the front case 400a; consists of,

When the check button 410 of the front case 400a is operated in a state in which the on/off valve 200 is closed, the gas passage from the gas passage 122 of the outlet side connection tube 120 of the valve body 100 to the gas appliance. The pressure sensor 320 of the gas pressure measuring unit 300 detects a change in the gas pressure in the gas pressure measuring unit 300, and inputs the information to the CPU to check and determine whether there is a leak in the gas pipeline within a short time within a few seconds and display the result in the front case By making it possible to check through the display device composed of the safety light 420, the alarm light 430, the speaker 440, and the display 450 provided in 400a, whether the gas leaks before using the gas appliance with the on/off valve closed It is a configuration that can prevent accidents caused by gas leaks in advance by knowing in advance.

According to the present invention, when the check button of the front case is operated while the on/off valve of the intermediate valve is closed, the gas pressure change in the gas pipe from the gas path of the outlet side connection pipe of the valve body to the gas appliance is measured by the MEMS of the gas pressure measuring unit. The pressure sensor detects and inputs the information to the CPU to check and judge whether there is a leak in the gas pipeline within a few seconds, and the result is displayed on the display device consisting of safety light, alarm light, speaker and display installed in the front case. By making it possible to check through the gas appliance, it is possible to know in advance whether a gas leak occurs before using the gas appliance, thereby preventing an accident caused by a gas leak in advance.

In addition, the present invention provides a gas pressure measuring unit to form a gas flow groove concentrically along the inner circumferential surface along the inner circumferential surface of the lower end of the inlet side connector pipe to form at least one hole along the inner circumferential surface of the outlet side connector pipe to communicate with the gas flow groove After making a gas inlet groove and sealing the sensor bracket from the outside by using a coupling member on the protruding tube formed to communicate with the gas moving groove, the pressure sensor is installed in the sensor installation groove, so that the device is easy and the pressure sensor is Since it is installed at a location separated from the moving pipe, there is no direct contact with the moving gas, so impurities do not attach to or damage the pressure sensor. It has a durable effect.

The effect of the present invention is not limited to those mentioned above. In addition, other technical problems not mentioned will be clearly understood by those of ordinary skill in the art to which the present invention belongs from the following description.

1 and 2 are perspective views according to a first embodiment of the present invention.
3 is an exploded perspective view of FIG. 1 ;
4 is a perspective view illustrating the valve body of FIG. 3 and a gas pressure measuring unit coupled to the valve body.
5 is a cross-sectional view taken along line A - A' of FIG. 4 .
6 is a cross-sectional view illustrating a state in which the opening/closing ball of FIG. 5 is rotated to block the gas passage.
FIG. 7 is a partially enlarged view of FIG. 5 .
8 and 9 are cross-sectional views taken along line B - B' of FIG. 7 .
FIG. 10 is a partially enlarged view of FIG. 5 .
11 is a cross-sectional view according to a second embodiment of the present invention.
12 is a partially enlarged view of FIG. 11 .
13 is a cross-sectional view taken along line C - C' of FIG. 12 .

In the accompanying drawings, the same components are used with the same reference numerals in any possible drawings, and detailed descriptions of known functions or known components that may unnecessarily obscure the subject matter of the present invention are omitted.

The intermediate valve 1 for a gas appliance according to the first embodiment of the present invention is formed of a tubular body, and the inlet connector 111 formed at the upper end includes an inlet connector 110 connected to a gas pipe on the gas supply side, and an inlet. The outlet-side connector 121 coupled to the lower end of the side connector 110 and formed as a tubular body and formed at the lower end includes an outlet-side connector 120 connected to a gas pipe on the gas appliance side, an inlet connector 110 and Gas passages 112 and 122 formed to communicate with each other in the center of the outlet-side connection pipe 120 and an on-off valve 200 that opens and closes the gas supply by rotating the opening/closing ball 210 installed inside the inlet-side connection pipe 110 A valve body 100 consisting of

It is coupled to the outer end of the on-off valve 200 and consists of an operation handle 220 for manually opening and closing the on-off valve 200. A detailed description of each component is as follows.

As shown in the accompanying drawings 1 to 9, the intermediate valve 1 for a gas appliance according to an embodiment of the present invention includes a gas pressure measuring unit 300, a main case 400, a front case 400a, and a power supply. It is made to include a supply unit (500).

The gas pressure measuring unit 300 includes a gas moving groove 113 , a gas inlet groove 123 , a protruding pipe 114 , a sensor bracket 310 , a MEMS (Micro Electro-Mechanical Systems) pressure sensor 321, an FFC ( Flexible Flat Cable) is configured to include a cable (330). In the embodiment of the present invention, the MEMS pressure sensor 321 is used as the pressure sensor 320 , but the present invention is not limited thereto.

The gas moving groove 113 is formed in a concentric circle along the inner circumferential surface of the lower end of the inlet-side connection pipe 110 downward of the opening/closing ball 210 .

The gas inlet groove 123 is along the inner peripheral surface of the outlet connector 120 so as to communicate with the gas passage groove 113 of the inlet connector 110 from the gas passage 122 at the upper end of the outlet connector 120 . It is formed by drilling at least one hole. Thus, as shown in the accompanying drawings 7 and 8, the outlet side connection pipe 120 regardless of where the gas inlet groove 123 of the outlet side connection pipe 120 is located on the gas moving groove 113. ) inside the gas can move to the gas moving groove 113 through the gas inlet groove (123).

The protruding pipe 114 protrudes to a predetermined length on the outer surface of the lower end of the inlet-side connecting pipe 110 , and a groove 114a is formed in the center of the protruding pipe 114 , and a gas moving groove 113 of the inlet-side connecting pipe 110 is formed. ) is formed to communicate with

The sensor bracket 310 is coupled to the outer surface of the protruding pipe 114 using a coupling member, but the coupling part is sealed so that gas does not leak, and a sensor installation groove 311 is installed inside the sensor bracket 310 by the protruding pipe 114 . It is formed to communicate with the groove portion (114a) of the.

The MEMS pressure sensor 321 is installed in the sensor installation groove 311 of the sensor bracket 310 .

One end of the FFC cable 330 is connected to the MEMS pressure sensor 321 and the other end of the FFC cable 330 is connected to the CPU of the PCB substrate P built in the front case 400a. At this time, the portion of the FFC cable 330 passing through the sensor bracket 310 is sealed so that the gas does not leak from the inside of the sensor bracket 310 to the outside.

The main case 400 is installed outside the valve body 100 so as to surround the valve body 100 .

The front case 400a is coupled to cover the front opening of the main case 400 so that the end of the operation handle 220 protrudes from one side of the front case 400a. The front case 400a has a built-in PCB substrate P for connecting the MEMS pressure sensor 321 to the CPU. On one side of the front side of the front case 400a, the check button 410 for operating the MEMS pressure sensor 321, and a safety light 420 and an alarm light 430 for displaying the check result after a predetermined time after the operation of the check button 410 and a speaker 440 for outputting an alarm sound in connection with the alarm light 430 and a display 450 for displaying the safety.

The power supply unit 500 is installed inside the main case 400 to supply power to each device including the MEMS pressure sensor 321 , the PCB board P, and the front case 400a.

Thus, in the present invention, when the check button 410 of the front case 400a is operated in a state in which the on/off valve of the intermediate valve 1 is closed, the gas passage 122 of the outlet side connection pipe 120 of the valve body 100 The MEMS pressure sensor 321 detects the change in gas pressure in the gas pipeline from By making it possible to check through the display device composed of the safety light 420, the alarm light 430, the speaker 440 and the display 450 installed in 400a, whether the gas leaks before using the gas appliance in the closed state of the on/off valve It is possible to prevent accidents due to gas leaks in advance by knowing in advance.

The operation and effect of the present invention configured as described above will be described in detail as follows.

In the gas pipe or the on/off valve 200 connected to a gas appliance such as a gas stove or gas boiler, a leak factor that the user cannot understand may occur, and if this is not detected in time, gas leakage proceeds and safety accidents such as gas explosion may occur. can cause

The present invention is an intermediate valve installed in a gas pipe installed from a gas supply unit to a gas appliance, and when there is a leak in a gas pipeline in a state in which the intermediate valve is closed, the intermediate valve detects a gas leak and informs the user before using the gas appliance. By letting you know the facts, you can prevent accidents caused by gas leaks in advance.

That is, when the check button 410 of the front case 400a is operated in a state in which the on/off valve of the intermediate valve is closed, the gas pipe from the gas passage 122 of the outlet side connection pipe 120 of the valve body 100 to the gas appliance The MEMS pressure sensor 321 of the gas pressure measuring unit 300 detects a change in the gas pressure in the furnace, and inputs the information to the CPU to check and determine whether there is a leak in the gas pipe within a few seconds and determine the result. Since it is possible to check through the display device composed of the safety light 420, the alarm light 430, the speaker 440, and the display 450 installed in the front case 400a, the gas before use of the gas appliance with the on/off valve closed It has the effect of preventing accidents due to gas leakage in advance because it is possible to know in advance whether there is a leak.

On the other hand, in the present invention, an overflow gas blocking part ( 600) can be configured.

Since the overflow gas blocking unit 600 is a known fact, a detailed description thereof will be omitted.

On the other hand, the present invention can automatically open and close the on-off valve 200 by engaging the gear 710 mounted on the motor 700 with the teeth 201 formed on the outer peripheral surface of the on-off valve 200 .

On the other hand, the accompanying drawings 11 to 13 are cross-sectional views showing the intermediate valve for a gas appliance according to a second embodiment of the present invention, the configuration according to the second embodiment of the present invention will be described in detail as follows. In addition, other components not described below are the same as those of the above-described first embodiment.

The gas pressure measuring unit 300 according to the second embodiment of the present invention includes an insertion tube 130 , a gas inlet space 132 , a gas movement groove 113 , a protruding tube 114 , a sensor bracket 310 , It is configured to include a MEMS (Micro Electro-Mechanical Systems) pressure sensor 321 and a flexible flat cable (FFC) cable 330 . In the embodiment of the present invention, the MEMS pressure sensor 321 is used as the pressure sensor 320 , but the present invention is not limited thereto.

A hollow wrench coupling hole 131 is formed in the center of the insertion tube 130 , and is inserted into the inlet side connection tube 110 to be screwed. The upper surface of the insertion tube 130 is in close contact with the seat ring 211 interposed in the lower end of the opening/closing ball 210 , and the lower surface of the insertion tube 130 is spaced apart from the upper surface of the outlet side connection tube 120 by a predetermined distance. . In addition, the opening/closing ball 210 and the seat ring interposed on the upper/lower sides of the opening/closing ball 210 by the insertion tube 130 are inserted into the inlet-side connection tube 110 to maintain a coupled state.

The gas inlet space 132 is a space in which the lower surface of the insertion tube 130 and the upper surface of the outlet-side connection tube 120 are spaced apart from each other, and gas flows through the gas passage 112 of the inlet-side connection tube 110 . is brought in

The gas moving groove 113 is formed in a concentric circle along the inner circumferential surface of the lower end of the inlet-side connection pipe 110 so as to communicate with the gas inlet space 132 .

The protruding pipe 114 protrudes to a predetermined length on the outer surface of the lower end of the inlet-side connecting pipe 110 , and a groove 114a is formed in the center of the protruding pipe 114 , and a gas moving groove 113 of the inlet-side connecting pipe 110 is formed. ) is formed to communicate with

The sensor bracket 310 is coupled to the outer surface of the protruding pipe 114 using a coupling member, but the coupling part is sealed so that gas does not leak, and a sensor installation groove 311 is installed inside the sensor bracket 310 by the protruding pipe 114 . It is formed to communicate with the groove portion (114a) of the.

The MEMS pressure sensor 321 is installed in the sensor installation groove 311 of the sensor bracket 310 .

One end of the FFC cable 330 is connected to the MEMS pressure sensor 321 and the other end of the FFC cable 330 is connected to the CPU of the PCB substrate P built in the front case 400a. At this time, the portion of the FFC cable 330 passing through the sensor bracket 310 is sealed so that the gas does not leak from the inside of the sensor bracket 310 to the outside.

Therefore, in the intermediate valve for gas appliance according to the second embodiment of the present invention, the insertion tube is coupled between the inlet-side connection pipe and the outlet-side connection tube, and the gas is introduced by separating the insertion tube and the outlet-side connection tube by a predetermined interval. By forming the space portion, gas can be moved to the pressure sensor without drilling a separate hole in the outlet side connection pipe, so manufacturing is easy and simple, manufacturing cost is reduced, and working efficiency is increased.

In addition, in the intermediate valve for gas appliances according to the second embodiment of the present invention, the seat ring interposed in the upper and lower sides of the opening and closing ball and the opening and closing ball by an insertion tube coupled to the lower side of the opening and closing ball inside the inlet connection pipe is the inlet. It has the effect of being inserted into the side connector to maintain the combined state, and by forming a hollow wrench coupling hole in the center of the insertion tube, it can be easily combined using a wrench when screwing the insertion tube inside the inlet connection tube. there is an advantage

A hollow wrench coupling hole 131 is formed in the center of the insertion tube 130 , and is inserted into the inlet side connection tube 110 to be screwed. The upper surface of the insertion tube 130 is in close contact with the seat ring 211 interposed in the lower end of the opening/closing ball 210 , and the lower surface of the insertion tube 130 is spaced apart from the upper surface of the outlet side connection tube 120 by a predetermined distance. . In addition, the opening/closing ball 210 and the opening/closing ball 210 by the insertion tube 130 are inserted into the seat ring inlet-side connector 110 interposed on the upper/lower sides to maintain a coupled state.

A hollow wrench coupling hole 131 is formed in the center of the insertion tube 130 , and is inserted into the inlet side connection tube 110 to be screwed.

In the above, preferred embodiments of the present invention have been shown and described, but the present invention is not limited to the specific embodiments described above, and it is common in the technical field to which the present invention pertains without departing from the gist of the present invention as claimed in the claims. Various modifications and applications are possible by those having the knowledge of

100: valve body 110: inlet side connection pipe
111: inlet side connection 112: gas passage
113: gas moving groove 114: protruding pipe
114a: groove 120: outlet side connector
121: outlet side connection 122: gas passage
123: gas inlet groove 130: insertion tube
131: wrench coupling hole
132: gas inlet space 200: on-off valve
210: opening and closing ball 220: operation handle
300: gas pressure measuring unit 310: sensor bracket
320: pressure sensor 321: MEMS pressure sensor
330: FFC cable 400: main case
400a: front case 410: check button
420: safety light 430: alarm light
440: speaker 450: display
500: power supply unit 600: overflow gas blocking unit

Claims (3)

The inlet connector 110 is formed of a tubular body and the inlet connector 111 formed at the upper end is connected to the gas supply side gas pipe, and the outlet is coupled to the lower end of the inlet connector 110 and is formed as a tubular body and is formed at the lower end. The side connection part 121 is formed in the center of the outlet side connection pipe 120 connected to the gas pipe to the gas appliance side, and the inlet side connection pipe 110 and the outlet side connection pipe 120 to communicate with each other gas passages (112, 122) And, a valve body 100 consisting of an on/off valve 200 that opens and closes the gas supply by rotating the opening/closing ball 210 installed inside the inlet connection pipe 110,
an operation handle 220 coupled to the outer end of the on-off valve 200 and manually opening and closing the on-off valve 200;
a main case 400 installed on the outside of the valve body 100 so as to surround the valve body 100;
It is coupled to cover the front opening of the main case 400 so that the end of the operation handle 220 protrudes on one side, the PCB board P connected to the pressure sensor 320 is embedded, and the pressure sensor is on one side of the front side A safety light 420 and an alarm light 430 are installed to display the inspection result after a predetermined time after the operation of the inspection button 410 and the inspection button 410 that operates the 320, and an alarm in connection with the alarm lamp 430 A speaker 440 for outputting a sound, and a front case 400a having a display 450 for indicating whether safety is present, and a front case 400a;
A power supply unit 500 installed inside the main case 400 to supply power to the pressure sensor 320, the PCB substrate P, and the front case 400a;
Intermediate valve for gas appliances installed in the inlet side connection pipe 110 above the opening/closing ball 210 and configured with an overflow gas blocking part 600 that blocks the gas supply when there is excessive gas inflow from the gas supply part In
A gas movement groove 113 formed in a concentric circle along the inner circumferential surface on the inner circumferential surface of the lower end of the inlet-side connection pipe 110 downward of the opening/closing ball 210;
At least one hole is drilled along the inner circumferential surface of the outlet connector 120 to communicate from the gas passage 122 at the top of the outlet connector 120 to the gas flow groove 113 of the inlet connector 110. A gas inlet groove 123 to form,
A protrusion pipe 114 that protrudes to a predetermined length on the outer surface of the lower end of the inlet connector 110 and has a groove 114a in the center thereof to communicate with the gas flow groove 113 of the inlet connector 110 . class,
The sensor bracket 310 is coupled to the outer surface of the protruding tube 114 using a coupling member, but is sealed so that gas does not leak, and a sensor installation groove 311 is formed inside to communicate with the groove portion 114a of the protruding tube 114 . )class,
a pressure sensor 320 installed in the sensor installation groove 311 of the sensor bracket 310;
A gas pressure measuring unit 300 consisting of a flexible flat cable (FFC) cable 330 having one end connected to the pressure sensor 320 and the other end connected to the PCB board P built in the front case 400a; consists of,
When the check button 410 of the front case 400a is operated in a state in which the opening/closing valve of the intermediate valve is closed, the gas passageway from the gas passageway 122 of the outlet side connection tube 120 of the valve body 100 to the gas appliance The pressure sensor 320 of the gas pressure measuring unit 300 detects a change in the gas pressure in the gas pressure measuring unit 300, and inputs the information into the CPU to check and determine whether there is a leak in the gas pipeline within a short time within a few seconds and display the result in the front case Since it is possible to check through the display device composed of the safety light 420, the alarm light 430, the speaker 440 and the display 450 installed in 400a, it is possible to know in advance whether the gas is leaking before using the gas appliance, so that the gas leak Intermediate valve for gas appliances, characterized in that it can prevent accidents caused by
The inlet connector 110 is formed of a tubular body and the inlet connector 111 formed at the upper end is connected to the gas supply side gas pipe, and the outlet is coupled to the lower end of the inlet connector 110 and is formed as a tubular body and is formed at the lower end. The side connection part 121 is formed in the center of the outlet side connection pipe 120 connected to the gas pipe to the gas appliance side, and the inlet side connection pipe 110 and the outlet side connection pipe 120 to communicate with each other gas passages (112, 122) And, a valve body 100 consisting of an on/off valve 200 that opens and closes the gas supply by rotating the opening/closing ball 210 installed inside the inlet connection pipe 110,
an operation handle 220 coupled to the outer end of the on-off valve 200 and manually opening and closing the on-off valve 200;
a main case 400 installed on the outside of the valve body 100 so as to surround the valve body 100;
It is coupled to cover the front opening of the main case 400 so that the end of the operation handle 220 protrudes on one side, the PCB board P connected to the pressure sensor 320 is embedded, and the pressure sensor is on one side of the front side A safety light 420 and an alarm light 430 are installed to display the inspection result after a predetermined time after the operation of the inspection button 410 and the inspection button 410 that operates the 320, and an alarm in connection with the alarm lamp 430 A speaker 440 for outputting a sound, and a front case 400a having a display 450 for indicating whether safety is present, and a front case 400a;
A power supply unit 500 installed inside the main case 400 to supply power to the pressure sensor 320, the PCB substrate P, and the front case 400a;
Intermediate valve for gas appliances installed in the inlet side connection pipe 110 above the opening/closing ball 210 and configured with an overflow gas blocking part 600 that blocks the gas supply when there is excessive gas inflow from the gas supply part In
A hollow wrench coupling hole 131 is formed in the center, and it is inserted into the inlet side connection pipe 110 and screwed into it, and the upper surface is in close contact with the seat ring 211 intervening in the lower end of the opening and closing ball 210 and The lower surface is an insertion tube 130 spaced apart from the upper surface of the outlet side connection tube 120 by a predetermined distance,
A gas inlet space 132 in which the lower surface of the insertion tube 130 and the upper surface of the outlet side connection tube 120 are spaced apart from each other;
a gas moving groove 113 formed concentrically along the inner circumferential surface on the inner circumferential surface of the lower end of the inlet-side connection pipe 110 so as to communicate with the gas inlet space 132;
A protrusion pipe 114 that protrudes to a predetermined length on the outer surface of the lower end of the inlet connector 110 and has a groove 114a in the center thereof to communicate with the gas flow groove 113 of the inlet connector 110 . class,
The sensor bracket 310 is coupled to the outer surface of the protruding tube 114 using a coupling member, but is sealed so that gas does not leak, and a sensor installation groove 311 is formed inside to communicate with the groove portion 114a of the protruding tube 114 . )class,
a pressure sensor 320 installed in the sensor installation groove 311 of the sensor bracket 310;
A gas pressure measuring unit 300 consisting of a flexible flat cable (FFC) cable 330 having one end connected to the pressure sensor 320 and the other end connected to the PCB board P built into the front case 400a; consists of,
When the check button 410 of the front case 400a is operated in a state in which the opening/closing valve of the intermediate valve is closed, the gas passageway from the gas passageway 122 of the outlet side connection tube 120 of the valve body 100 to the gas appliance The pressure sensor 320 of the gas pressure measuring unit 300 detects a change in the gas pressure in the gas pressure measuring unit 300, and inputs the information into the CPU to check and determine whether there is a leak in the gas pipeline within a short time within a few seconds and display the result in the front case Since it is possible to check through the display device composed of the safety light 420, the alarm light 430, the speaker 440 and the display 450 installed in 400a, it is possible to know in advance whether the gas is leaking before using the gas appliance, so that the gas leak Intermediate valve for gas appliances, characterized in that it can prevent accidents caused by
3. The method of claim 1 or 2,
The pressure sensor 320 is an intermediate valve for a gas appliance, characterized in that it comprises a MEMS (Micro Electro-Mechanical Systems) pressure sensor 321.

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