KR102195041B1 - A Locking Valve Device Operating Based on a Detection of Carbon Monoxide - Google Patents

Abstract

The present invention relates to a lock valve device having a carbon monoxide detection linkage structure. The locking valve device having a carbon monoxide detection linkage structure includes an on-off valve 11 installed in a supply path for supplying gas to a gas combustion device; And a detection sensor 12 that detects the amount of carbon monoxide generated from the gas combustion device and transmits it to the on-off valve 11, and the on/off valve 11 includes a lock switch that blocks the supply path according to the detection information, , The lock switch can be restored according to the periodically transmitted detection information.

Description

A locking valve device operating based on a detection of carbon monoxide

The present invention relates to a lock valve device having a carbon monoxide detection linkage structure, and specifically, a lock valve having a carbon monoxide detection linkage structure that automatically shuts off gas supply based on information obtained from a gas supply device or a carbon monoxide detector installed at a supply location It relates to the device.

When carbon monoxide generated due to incomplete combustion in a state of insufficient oxygen is inhaled into the human body and introduced into the lungs, it may cause serious danger to the human body due to strong binding force to hemoglobin. Such carbon monoxide may be generated in a variety of situations, for example, may be generated in an industrial or domestic gas supply device, or may be generated by incomplete combustion in a heating device that is combusted according to the gas supply. When carbon monoxide is generated in such a situation, various dangers may arise. Therefore, it is necessary to detect in advance and take appropriate measures accordingly. Patent Registration No. 10-1845856 discloses a boiler having gas detection and earthquake detection functions that automatically detect gas leaks and earthquakes and shut off the supply of fuel to forcibly stop the boiler, and a control method thereof. However, the prior art does not disclose a device that detects gas generated from incomplete combustion such as carbon monoxide, automatically cuts off gas supply, and then starts supply again depending on the situation.

The present invention has the following objects to solve the problems of the prior art.

Prior Art 1: Patent Registration No. 10-1845856 (Kitchurami Co., Ltd., 2018.04.06.Announcement) Boiler with gas detection and earthquake detection function and its control method

An object of the present invention is to provide a lock valve device having a carbon monoxide detection interlocking structure capable of detecting or starting a gas supply by detecting the amount of carbon monoxide generated from a gas boiler or similar gas supply future or a combustion apparatus.

According to one preferred embodiment of the present invention, a lock valve device having a carbon monoxide detection interlock structure includes an on-off valve installed in a supply path for supplying gas to a gas combustion device; And a detection sensor that detects the amount of carbon monoxide generated from the gas combustion device and transmits it to the on/off valve, wherein the on/off valve includes a lock switch that blocks the supply path according to the detection information, and the lock switch is periodically transmitted detection It can be restored according to the information.

According to another suitable embodiment of the present invention, the detection sensor can be attached to the structure while being electrically separated from the on-off valve.

According to another suitable embodiment of the present invention, the detection sensor 12 comprises a guide path leading to atmospheric air into the detection circuit.

The lock valve device having a carbon monoxide detection linkage structure according to the present invention detects the amount of carbon monoxide generated in a combustion apparatus such as a gas boiler to prevent the risk of carbon monoxide poisoning in advance. Further, in the lock valve device according to the present invention, it is possible to constantly monitor the gas combustion supply or operation state by automatically shutting off and starting gas supply.

1 shows an embodiment of an operation structure of a lock valve device having a carbon monoxide detection interlocking structure according to the present invention.
2 shows an embodiment of a lock valve device according to the present invention.
Figure 3 shows an embodiment of the operation process of the lock valve device according to the present invention.

In the following, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the embodiments are for a clear understanding of the present invention, and the present invention is not limited thereto. In the following description, components having the same reference numerals in different drawings have similar functions, so if they are not necessary for the understanding of the invention, they will not be described repeatedly, and well-known components will be briefly described or omitted, but the present invention It should not be understood as being excluded from the embodiment of.

1 shows an embodiment of an operation structure of a lock valve device having a carbon monoxide detection interlocking structure according to the present invention.

Referring to FIG. 1, a lock valve device having a carbon monoxide detection linkage structure includes an on-off valve 11 installed in a supply path for supplying gas to a gas combustion device; And a detection sensor 12 that detects the amount of carbon monoxide generated from the gas combustion device and transmits it to the on-off valve 11, and the on/off valve 11 includes a lock switch that blocks the supply path according to the detection information, , The lock switch can be restored according to the periodically transmitted detection information.

The opening/closing valve 11 may be installed in a supply path for supplying gas to a gas combustion device, for example, a gas boiler, a gas range, or a supply path of any gas combustion device that generates necessary heat by burning a gas similar thereto. Can be installed on. The on-off valve 11 may be, for example, an electromagnetic valve operated by a solenoid method, or a mechanical valve operated manually or by a mechanical method, but is not limited thereto. Gas may or may not be supplied to the gas combustion device by the on-off valve 11. Various types of operating means including the on-off valve 11 may be installed in the supply path or the gas combustion device, and a plurality of on-off valves 11 may be installed in the supply path. Gas may be supplied to the supply control unit 14 through a supply conduit 141 connected to an external supply means, and an on-off valve 11 may be installed between the gas combustion device 13 and the supply control unit 14. have. And the opening/closing valve 11 may have a function of connecting the first guide tube 111 and the second guide tube 112, and block the gas supplied to the gas combustion device 13 or control the amount of gas. I can. The opening/closing valve 11 can be regulated in operation by other suitable actuation regulating means, for example based on detection information of other detection units that detect a fault or operational error. Gas may be supplied to the gas combustion device 13 through the opening/closing valve 11 to be burned, hot water or a similar heated material may be generated and circulated to a predetermined place to be discharged, and carbon dioxide or a similar combustion product may be discharged. It may be discharged to the outside through the discharge induction pipe 131. The gas combustion device may be installed in the installation space, and carbon monoxide may exist in the installation space due to incomplete combustion during the combustion process or due to other causes. As such, carbon monoxide existing in the installation space may be detected by the detection sensor 12. The detection sensor 12 may also be installed in the discharge induction tube 131, installed in a space adjacent to the installation space, or installed in another enclosed space connected to the installation space. The detection sensor 12 is based on a detection means for detecting carbon monoxide existing in a predetermined space electrically or chemically, a signal processing means for converting the detection information detected by the detection means into an electric signal, and a signal size processed by the signal processing means. It may include a signal generating unit capable of inducing the operation of the on-off valve (11). The detection sensor 12 and the on-off valve 11 may be connected by a signal transmission means 121, for example, Wi-Fi communication, Bluetooth communication, or similar short-range communication means, but preferably the electrical signal It can be connected by wire that allows transmission. The detection sensor 12 is a gas combustion device. It may be attached to the installation space, the discharge guide pipe 131 or other suitable location to detect carbon monoxide in the installation space. And the detection information is processed so that the risk level can be determined. In addition, a danger signal and a safety signal may be generated according to the determination result and transmitted to the on-off valve 11. The opening/closing valve 11 may correspond to a danger signal and a safety signal, respectively, with the state of the lock switch, and determine whether or not the lock switch is operated accordingly. For example, when a danger signal is transmitted to the on-off valve 11, the on-off valve 11 may check the locking state of the lock switch to lock the on-off valve 11. When the lock signal is generated, the detection sensor 12 may periodically detect the state of carbon monoxide thereafter and transmit a lock signal or a release signal to the on/off valve 11. Alternatively, when the state is released, a release signal may be transmitted to the on/off valve 11. Accordingly, the lock switch may be released, and gas supply through the on-off valve 11 may be supplied again. The condition in which the start signal is generated from the detection sensor 11 may be set in advance, and may be variously set according to the state of the installation space.

2 shows an embodiment of a lock valve device according to the present invention.

Referring to FIG. 2, the detection sensor 12 can be attached to the structure while being electrically separated from the on-off valve 11. The on-off valve 11 includes a valve body 21 having first and second inlets 111a and 111b; An opening/closing unit 22 installed inside the valve body 21; And it may include a lock switch 23 for blocking or releasing the supply path by operating the opening and closing unit 22. First and second induction pipes may be connected to the first and second inlets 111a and 111b, respectively, and an operation control chip may be installed inside the valve body 21. The operation control chip may be connected to the detection sensor 12 by means of a signal transmission unit 121 such as a communication cable. A connection jack 122 that is detachably coupled to a connection port formed on the attachment housing 24 at one end of the signal transmission means 121 may be coupled. The attachment housing 24 may have a sealed structure, and an adhesive tape or similar adhesive means may be coupled to the bottom surface. A microprocessor, a detection circuit, a storage medium, a signal processing means, or similar electronic components for detection of carbon monoxide or processing of detection information may be disposed inside the attachment housing 24. On the surface of the attachment housing 24, a control switch 25, an operation indicator light 26 for indicating an operation, and an air inlet 27 for introducing external air may be formed. Whether the detection sensor 12 is operated or a signal generation condition may be set by the control switch 25. The detection sensor 12 may be operated by an independent power source or an external power source such as a battery disposed inside the attachment housing 24. The detection level may be determined by the control switch 25, and carbon monoxide present in the installation space may be detected by a detection circuit disposed therein. The detection circuit may have various structures, and detection information detected by the detection circuit is processed so that the on/off valve 11 may be operated. The detection sensor 12 and the on-off valve 11 may be connected to each other in various ways, and are not limited to the exemplary embodiments presented.

Figure 3 shows an embodiment of the operation process of the lock valve device according to the present invention.

Referring to FIG. 3, an air flow path 322 may be formed in the detection sensor 11, and a detection circuit 31 may be installed in the air induction path 322. The detection sensor 11 may also be provided with a temperature/humidity sensor 321 for detecting temperature or humidity, and the temperature/humidity sensor 321 may have a label or sticker structure, for example. Attachment means 323 such as double-sided tape may be coupled to the lower side or side of the detection sensor 11. The air flow path 322 may have various structures connecting the inside and the outside of the detection sensor 11. The detection circuit 31 may include operating electrodes 311 and 312 disposed to face each other and an amplifier 313 for amplifying electrical signals generated from the operating electrodes 311 and 312. The working electrodes 311 and 312 may include a coating layer that reacts with carbon monoxide, for example, and may include a coating layer including K ₂ Pd(SO ₃ ). The current generated by carbon monoxide contacting the working electrodes 311 and 312 may be detected and transferred to the microprocessor 33 for processing, and it may be determined whether or not it corresponds to a predetermined level. The determination result may be transmitted to the signal generating unit 34, and whether the on/off valve 11 is operated may be determined according to a signal generated by the signal generating unit 34. Information about the signal generated by the signal generation unit 34 can be transmitted to the data storage unit 35, and the data storage unit 35 stores and manages the signal generation information of the signal generation unit 34 for a certain period of time. It may be transmitted to the server or the electronic device 36 of the administrator. Even if carbon monoxide is detected and the shut-off valve 11 is operated, the operation of the gas combustion device is not stopped, and the lock of the shut-off valve 11 may be released according to a result of subsequent detection. In addition, an alarm signal is not generated from the detection sensor 11 due to such a situation. The signal generation information stored in the data storage unit 35 may be used as information capable of detecting the operating state of the gas combustion device. Optionally, the detection sensor 12 may be operated in conjunction with the operation of the shut-off valve 11, and for example, the shut-off valve 11 may be started when the shut-off valve 11 is first operated. After that, if the shut-off valve 11 is kept in a locked state for a certain period of time, the operation of the detection sensor 11 may be stopped.

The detection sensor 11 may be operated based on various detection circuits and is not limited to the presented embodiment.

The lock valve device having a carbon monoxide detection linkage structure according to the present invention detects the amount of carbon monoxide generated in a combustion apparatus such as a gas boiler to prevent the risk of carbon monoxide poisoning in advance. Further, in the lock valve device according to the present invention, it is possible to constantly monitor the gas combustion supply or operation state by automatically shutting off and starting gas supply.

The present invention has been described in detail above with reference to the presented embodiments, but those of ordinary skill in this field will be able to make various modifications and modifications without departing from the technical spirit of the present invention with reference to the presented embodiments. . The present invention is not limited by such modifications and modifications, but is limited by the claims appended below.

11: on-off valve 12: detection sensor
13: gas combustion device 14: supply control unit
21: valve body 22: opening and closing unit
23: lock switch 24: attachment housing
25: control switch
31: detection circuit 33: microprocessor
34: signal generation unit 36: data storage unit
111a, 111b: entrance
121: signal transmission means 122: connection jack
131: discharge guide pipe 141: supply conduit
111, 112: guide tube 311, 312: working electrode
313: amplification means 322: induction pathway
321: temperature/humidity sensor 323: attachment means

Claims (3)

An on-off valve 11 installed in a supply path for supplying gas to the gas combustion device; And
And a detection sensor 12 that is discharged from the discharge guide pipe 131 of the gas combustion device and detects the amount of carbon monoxide present in the installation space of the gas combustion device and transmits it to the on/off valve 11
The on-off valve 11 includes a lock switch that blocks the supply path according to the detection information, and the lock switch can be restored according to the detection information periodically transmitted,
The detection sensor 12 includes a signal transmission unit 121 for electrically separable connection with the on/off valve 11, an attachment housing 24 having a sealed structure and an adhesive unit coupled to the bottom surface, and a signal transmission unit 121 ), a connection jack 122 detachably coupled to a connection port formed on the attachment housing 24 at one end of the attachment housing 24, a detection circuit 31 included in the attachment housing 24, and a detection circuit for atmospheric air in the installation space ( The locking valve device of the carbon monoxide detection interlock structure, characterized in that it comprises an induction path (322) leading to 31).


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