KR20050117639A - Gas leak prevention system and method using the same - Google Patents

Abstract

A gas leakage preventing system and a gas leakage preventing method using the same are disclosed. The gas leakage preventing system according to the present invention includes: a first determination unit determining whether the gas device is ignited, a second determination unit determining whether the intermediate valve installed in the path of the gas flowing into the gas device is opened or shut off, and And an intermediate valve control unit configured to shut off and control the intermediate valve when it is determined that the gas device is not ignited by the first determination unit and the intermediate valve is opened by the second determination unit.

Description

Gas leak prevention system and method using the same {Gas leak prevention system and method using the same}

The present invention relates to a gas leakage prevention system and a method for preventing the gas leakage, and detects the leaked gas and takes appropriate countermeasures not only when the user is inadvertent but also when the gas leaks due to a failure of the gas range or the intermediate valve. The present invention relates to a gas leakage preventing system and a gas leakage preventing method that can be taken.

In general, kitchens and heating facilities such as homes and restaurants mainly use gas appliances such as gas ranges, gas ovens, gas boilers and the like as the raw material of gas such as LPG and LNG.

Such gas equipment is connected to outdoor gas tanks, gas tanks of city gas corporations and pipes to receive gas, and intermediate valves are installed between gas appliances and outdoor gas tanks or gas appliances and gas tanks of city gas corporations. Allows control of gas supply and shutoff.

When cooking or heating using a gas appliance, the user opens the intermediate valve to supply gas to the gas appliance, ignites the gas supplied by using an ignition device installed in the gas appliance, and After completion, close and extinguish the ignition device installed in the gas equipment first, and close the intermediate valve to cut off the gas supply. That is, when gas leaks from the gas equipment, there is a risk of explosion, etc., and thus, safety is provided through a double device by an ignition device installed in the gas equipment and an intermediate valve installed in the gas pipe.

However, even when the risk of gas leakage is minimized through the intermediate valve as described above, the user has to keep the intermediate valve always open and use only the ignition device because of the trouble of opening and closing the intermediate valve every time the gas appliance is used. Gas appliances are often used.

In addition, when the gas appliance or the intermediate valve is aged, there is a possibility that fine gas leaks, the leaked gas is loaded on the floor of the kitchen or boiler room, there is a risk of explosion.

The present invention was devised to solve the above problems, not only to reduce the user's trouble of opening and closing the ignition device and the intermediate valve every time a gas machine is used, but also to detect the leaked gas to reduce the risk of fire. It is an object of the present invention to provide a gas leakage preventing system and method which can be prevented in advance.

Gas leakage prevention system according to the present invention for achieving the above object, the first determination unit for determining whether the gas range is ignited; A second determination unit that determines whether the intermediate valve installed in the path of the gas flowing into the gas range is opened / closed; And an intermediate valve controller configured to block the intermediate valve when the gas range is not ignited by the first determination unit, and the intermediate valve is opened by the second determination unit. It features.

Preferably, the gas leakage prevention system further includes a flow rate sensor which is installed in a path between the gas range and the intermediate valve and measures a flow rate of the gas flowing into the gas range. At this time, the intermediate valve control unit, when it is determined that the gas range is not ignited by the first determination unit, and the flow rate of the gas flowing into the gas range by the flow rate measuring sensor is measured, the intermediate valve shuts off It is desirable to control.

Preferably, in the gas leakage prevention system, when the gas range is determined not to be ignited by the first determination unit, and the intermediate valve is determined to be shut off by the second determination unit, the flow rate It is preferable to further include an alarm for sending a predetermined alarm signal when the flow rate of the gas flowing into the gas range by the measurement sensor.

In this case, the flow measurement sensor may use any flow measurement sensor from a general-purpose flow measurement sensor to a micro flow measurement sensor implemented by MEMS (Micro Electro Mechanical Systems). In the present invention, the flow rate sensor is preferably a thermal air flow rate sensor implemented by MEMS.

Preferably, the gas leakage prevention system is connected to each of the alarms installed in a plurality of furniture, the receiving unit for receiving an alarm signal transmitted by at least one alarm; And a display which displays the position of the corresponding furniture when the alarm signal is received by the receiving unit.

On the other hand, the gas leakage prevention system according to the present invention, (a) determining whether the gas range is ignited; (b) determining whether the intermediate valve is opened / closed in the path of the gas flowing into the gas range; And (c) if it is determined that the gas range is not ignited by the step (a), and the intermediate valve is opened by the step (b), controlling the intermediate valve to be blocked. Provide a method for preventing gas leakage.

Preferably, the gas leakage prevention method, (d) measuring the flow rate of the gas flowing into the gas range in the path between the gas range and the intermediate valve; And (e) if it is determined that the gas range is not ignited by the step (a), and the flow rate of the gas flowing into the gas range is measured by the step (d), blocking the intermediate valve. It further includes.

Preferably, the method of preventing the gas leakage, when (f) it is determined that the gas range is not ignited by the step (a), it is determined that the intermediate valve is blocked by the step (b) The method may further include transmitting a predetermined alarm signal when the flow rate of the gas flowing into the gas range is measured by the step (d).

Preferably, the gas leakage prevention method, (g) receiving the alarm signal sent by at least one of each alarm installed in a plurality of households; And (h) displaying the position of the corresponding furniture when the alarm signal is received by the step (g).

Thus, the gas leakage prevention system according to the present invention, the gas leaked not only when the user does not lock the valve or the intermediate valve of the gas range, but also when the gas leaks due to failure of the gas range or the intermediate valve. By detecting and taking appropriate countermeasures, accidents can be prevented.

Hereinafter, with reference to the accompanying drawings will be described in detail the operation and action of the gas leakage prevention system according to the present invention.

1 is a block diagram schematically showing an embodiment of a gas leakage prevention system according to the present invention. Referring to the drawings, the gas leakage prevention system 100 includes a gas range 10, an intermediate valve 20, a first determination unit 30, a second determination unit 40, an intermediate valve control unit 50, and a flow rate measurement. The sensor 60 and the alarm 70 are provided.

The first determination unit 30 determines whether the gas range 10 is ignited. Generally, the gas range 10 used at home is equipped with the fire extinguishing device of the size of a matchstick next to the nozzle hole from which gas comes out. This serves to open a solenoid valve (not shown) built in the gas range 10 by sensing heat when the ignition is normally performed. In this case, the first determination unit 30 may be implemented to determine whether the gas range 10 is ignited based on whether the solenoid valve is opened or the temperature sensed by the fire safety device by using a general fire safety device. .

The second determination unit 40 determines whether the intermediate valve 20 installed in the gas pipe connected to the gas range 10 is open / closed. At this time, the intermediate valve 20 is preferably implemented as a solenoid valve so that the on / off operation can be performed according to the electrical signal received from the intermediate valve control unit 50, with respect to the operation of the generalized solenoid valve Omit the description.

When the intermediate valve control unit 50 determines that the gas range 10 is not ignited by the first determination unit 30 and the intermediate valve 20 is determined to be opened by the second determination unit 40, By blocking the intermediate valve 20, the gas supplied to the gas range 10 is blocked.

In addition, when it is determined that the gas range 10 is ignited by the first determination unit 30 and the intermediate valve control unit 50 is blocked by the second determination unit 40, the intermediate valve control unit 50 is blocked. In order to control the opening of the intermediate valve 20, the gas is preferably supplied to the gas range 10. In this case, when the ignition device of the gas range 10 is opened, a spark for igniting the gas is generated at a predetermined cycle. When raised, the solenoid valve (not shown) of the gas range 10 (hereinafter, referred to as 'equipment valve' to distinguish it from the solenoid valve used in the intermediate valve) is opened, and the intermediate valve control unit 50 Using the principle, it is desirable to control the intermediate valve to open at the moment when the temperature of the fire protection system rises above a predetermined value or the instrument valve is opened.

Thus, the intermediate valve control unit 50 automatically operates the intermediate valve 20 according to the use of the gas range 10 even if the user does not open / block the intermediate valve 20 every time the gas range 10 is used. By opening / closing, it is possible to prevent the leakage of gas.

On the other hand, the gas leakage prevention system 100 according to the present invention is installed in the path of the pipe between the gas range 10 and the intermediate valve 20, flow rate measurement for measuring the flow rate of the gas flowing into the gas range 10 It is desirable to have a sensor 60. In this case, the flow measurement sensor 60 is preferably a thermal air flow measurement sensor implemented in a MEMS (Micro Electro Mechanical System) having a length of about 4mm x 6mm in length and width.

2 illustrates an example of a thermal air flow measurement sensor used in the gas leakage prevention system 100 of FIG. 1, and FIG. 3 is a cross-sectional view taken along line A-A 'of the thermal air flow measurement sensor of FIG. 2.

Referring to the drawings, the thermal air flow measurement sensor 60 includes a semiconductor substrate 61 such as silicon, a diaphragm 65 composed of electrical insulating films 69a and 69b, and a heat generating resistor 63 formed on the electrical insulating film 69a. The air temperature measuring resistor 64 is formed on the upstream side temperature measuring resistor 62a for detecting the temperature of the heat generating resistor 63 and the downstream temperature measuring resistor 62b and the tip of the substrate 61 to measure the air temperature. Terminal electrodes 68a, 68b, 68c, 68d, 68e, 68f, and 68g for connecting signals from the thermal air flow measurement sensor 60 to an external circuit, resistors 62a, 62b, 63, and 64, and terminal electrodes ( To protect the wiring connections 67a, 67b, 67c, 67d, 67e, 67f and 67g for connecting 68a, 68b, 68c, 68d, 68e, 68f and 68g, and the resistors 62a, 62b, 63 and 64; It consists of an electrical insulating film 69b for this purpose. Here, each of the resistors 62a, 62b, 63, and 64 is formed of a platinum (Pt) thin film, a permalloy thin film, or an impurity doped silicon (Si) semiconductor thin film, and has a resistivity of 8 x 10- ^{. It} is formed by the high concentration doping treatment so as to be ⁴占 cm or less.

The operating principle of the thermal air flow measurement sensor 60 used in the gas leakage prevention system 100 according to the present invention is as follows.

The pair of upstream and downstream temperature measurement resistors 62a and 62b are electrically connected directly. The junction point (middle tab) D is connected to the terminal electrode 68 by the lead electrode 67f. Temperature measuring resistors 62a and 62b for detecting the temperature of the heating resistor 63 when a heating (indirect heat) current flows through the heating resistor 63 formed on the electrical insulating film 69a thermally separated by the cavity 66. The temperature of P becomes higher than the temperature of the air temperature measuring resistor 64 indicating the temperature of the flow of air.

The direction of air is detected by comparing the temperatures of the upstream temperature measuring resistor 62a and the downstream temperature measuring resistor 62b. That is, if there is no air flow rate, the temperature distribution resistor 62a and 62b show the same temperature distribution symmetrically with respect to the heat generating resistor 63, and the temperature measuring resistors 62a and 62b do not show any temperature difference. On the other hand, in the direction of air flow, the temperature measuring resistor 62a disposed on the upstream side receives the cooling effect by the air flow, and the temperature measuring resistor 62b disposed on the downstream side convections the heat of the heat generating resistor 63. The temperature rises further. In addition, when the flow of air is reversed (reverse direction), the temperature of the downstream temperature measuring resistor 62b becomes lower than the temperature of the upstream temperature measuring resistor 62a. Therefore, the direction of air flow can be detected by comparing the temperature (resistance value) of the temperature measuring resistors 62a and 62b. Further, since the control is performed such that the temperature of the heat generating resistor 63 is higher than the air temperature measuring resistor 64 by a predetermined temperature, the measurement of the air flow rate is based on the heating (indirect heat) current value applied to the heat generating resistor 63. Is performed by. In this way, the direction of the air flow rate and the detection of the air flow rate can be detected. In addition, the thermal air flow measurement sensor implemented by such a MEMS is capable of detecting a fine flow of air, it is applied to the gas leakage prevention system 100 according to the present invention serves to detect the leakage of fine gas.

In the drawings, the flow measurement sensor used in the gas leakage prevention system according to the present invention is illustrated as being limited to a micro thermal air flow measurement sensor implemented by MEMS, but is not limited thereto. The differential pressure flow measurement sensor, the volume flow measurement sensor, General purpose flow measuring sensors such as electronic flow measuring sensors, ultrasonic flow measuring sensors, vortex flow measuring sensors, turbine flow measuring sensors, mass flow measuring sensors, variable area flow measuring sensors, channel flow measuring sensors, and the like may be used.

When the gas leakage prevention system 100 according to the present invention further includes a flow rate measuring sensor 60, it is determined that the gas range 10 is not ignited by the first determination unit 30, and the flow rate measuring sensor ( When the flow rate of the gas flowing into the gas range 10 by 60 is measured, the intermediate valve control unit 50 is preferably implemented to cut off the intermediate valve 20.

Meanwhile, in the gas leakage preventing system 100 according to the present invention, it is determined that the gas range 10 is not ignited by the first determination unit 30, and the intermediate valve 20 is determined by the second determination unit 40. If it is determined that the flow rate of the gas flowing into the gas range 10 by the flow rate sensor 60 is determined to be blocked, it is preferable to have an alarm 70 for generating a predetermined alarm sound.

As a result, when the ignition device of the gas range 10 is closed, and the gas leaks due to the wear of the intermediate valve 20 in the state in which the intermediate valve 20 is blocked, the user can detect the intermediate valve in advance. Take appropriate measures, such as replacing (20).

On the other hand, the gas leakage prevention system 100 according to the present invention can be implemented to transmit the alarm signal generated by the alarm 70 to the central management system 200, an embodiment of such a case is shown in Figure 4 It was.

Referring to the drawings, the central management system 200 is connected to the gas leakage prevention system 100 installed in each of the plurality of furniture. Here, the central management system 200 includes an alarm signal receiver 210 and a display 220.

The alarm signal receiving unit 210 is connected to the alarms 70 installed in the plurality of households, respectively, and receives the alarm signal transmitted by the at least one alarm 70.

When the alarm signal is received by the alarm signal receiver 210, the display 220 displays the corresponding furniture location. In order to display the location of each furniture by the display 220 in real time, the alarm signal transmitted by the alarm 70 of each furniture is preferably set differently. In addition, the display of the alarm signal transmission destination displayed by the display 220 is preferably implemented so that the administrator managing the central management system 200 can be easily recognized. An example of the alarm signal transmission destination displayed by the display 220 is as shown in Figure 5, the location of the furniture leaking gas is preferably implemented in a color contrasted with the location of the furniture is not abnormal.

6 is a flowchart illustrating a gas leakage preventing method by the gas leakage preventing system according to the present invention. With reference to the drawings will be described the operation of the gas leakage prevention system according to the present invention.

The first determination unit 30 of the gas leakage prevention system 100 determines whether the gas range 10 is ignited (S601). The method of determining whether the gas range 10 is ignited by the first determination unit 30 is as described above.

When it is determined that the gas range 10 is not ignited by the first determination unit 30 (S603), a flow rate sensor installed on a pipe into which gas between the gas range 10 and the intermediate valve 20 flows ( 60 determines whether the flow rate of the gas flowing into the gas range 10 is measured (S605). At this time, the flow rate sensor uses a thermal air flow rate sensor to determine whether there is a minute flow of gas, and the flow rate of the incoming gas does not matter.

When the gas flowing into the gas range 10 is measured by the flow rate measurement sensor 60, the second determination unit 40 determines whether the intermediate valve 20 is open (S607).

When it is determined that the intermediate valve is blocked by the second determination unit 40, the alarm 70 determines that fine gas is leaking due to the aging of the intermediate valve 20 to generate an alarm signal (S611).

As a result, the user of the gas leakage prevention system 100 can immediately know the state of gas leakage due to the aging of the intermediate valve 20, so that the user can immediately take appropriate measures such as replacing the intermediate valve 20. Therefore, the fire caused by the gas explosion can be prevented in advance.

On the other hand, the gas leakage prevention system 100 according to the present invention may be connected to the central management system 200 disposed in the management room in the case of apartments, townhouses, multi-family houses. In this case, the alarm signal transmitted by the alarm 70 is preferably transmitted to the alarm signal receiving unit 210 of the central management system 200 (S613).

When the alarm signal receiving unit 210 of the central management system 200 receives an alarm signal from at least one of the alarms 70 installed in each of the plurality of furniture, the alarm signal is transmitted to the display 220 by receiving the alarm signal. The location of the transmitted furniture is displayed (S615).

As a result, when the gas leaks due to the aging of the intermediate valve 20, even if it is not possible to take immediate action in the furniture, the manager of the central management system 200 can immediately take the corresponding action, the gas The risk of fire due to explosion can be prevented in advance.

When the gas range 10 is not ignited but the flow rate of gas is measured by the flow rate measurement sensor 60, when it is determined that the intermediate valve 20 is opened by the second determination unit 40, the intermediate valve control unit ( 50 blocks the gas flowing into the gas range 10 by controlling the intermediate valve 20 to be blocked (S617).

Thus, when the user completes the use of the gas range 10 and the gas range 10 is extinguished, the gas leakage prevention system 100 automatically cuts off the intermediate valve 20 to flow into the gas range 10. The gas supply can be shut off.

When the gas range 10 is not ignited and the flow rate of the gas flowing into the gas range 10 by the flow rate measuring sensor 60 is not measured, the second determination unit 40 determines whether the intermediate valve 20 is opened. It is determined (S619).

When it is determined that the intermediate valve 20 is opened by the second determination unit 40 (S621), the intermediate valve control unit 50 blocks the intermediate valve 20 to prevent the gas from leaking in advance. It becomes possible (S623). When it is determined that the intermediate valve 20 is blocked by the second determination unit 40, the intermediate valve 20 is maintained in a blocked state because it is a safe state (S625).

When it is determined that the gas range 10 is ignited by the first determination unit 30 (S603), the second determination unit 40 determines whether the intermediate valve 20 is opened (S629).

When it is determined that the intermediate valve is opened by the second determination unit 40 (S631), the intermediate valve control unit 50 determines that the user is using the gas range 10 to open the intermediate valve 20. It is maintained as it is (S625).

When the gas range 10 is ignited (S60) and the intermediate valve 20 is determined to be blocked (S631), the intermediate valve control unit 50 intends the user to use the gas range 10, and The intermediate valve 20 is controlled to be opened by determining that the temperature is properly raised (S633).

As a result, when the user uses the gas range 10, the intermediate valve 20 is automatically opened even when the user does not open the intermediate valve 20 one by one, thereby increasing user convenience.

In the above embodiment, the gas device is limited to the gas range, but the gas leakage preventing system according to the present invention is not limited to the gas range and may be used in various gas devices such as a gas oven and a gas boiler.

According to the present invention, the gas leakage prevention system is able to detect the state in real time when the gas leaks due to the aging of the intermediate valve, it is possible to prevent the risk of fire due to the explosion of the gas in advance.

In addition, according to the present invention it is possible to automatically open or shut off the intermediate valve according to the use of the gas device, it is possible to solve the inconvenience of the user who had to open / cut off the intermediate valve every time.

Although the preferred embodiments of the present invention have been illustrated and described above, the present invention is not limited to the specific embodiments described above, and the present invention is not limited to the specific embodiments of the present invention without departing from the spirit of the present invention as claimed in the claims. Anyone skilled in the art can make various modifications, as well as such modifications are within the scope of the claims.

1 is a block diagram schematically showing a gas leakage preventing system according to the present invention;

2 is a view showing an example of a thermal air flow measurement sensor used in the gas leakage prevention system of FIG.

3 is a cross-sectional view taken along line A-A 'of the thermal air flow measurement sensor of FIG.

Figure 4 is a block diagram schematically showing another embodiment of a gas leakage prevention system according to the present invention,

5 is a view showing an example of a display displayed in the central management system of Figure 4, and

6 is a flowchart illustrating a gas leak prevention method by the gas leak prevention system of FIG. 4.

Explanation of symbols on the main parts of the drawings

10 gas range 20 intermediate valve

30: first determination unit 40: second determination unit

50: intermediate valve control unit 60: flow measurement sensor

70: alarm 100: gas leak prevention system

200: central management system 210: alarm signal receiving unit

220: display

Claims (11)

A first determination unit determining whether the gas appliance is ignited; A second determination unit which determines whether the intermediate valve installed in the path of the gas flowing into the gas device is opened or blocked; And And determining that the gas device is not ignited by the first determination unit, and determining that the intermediate valve is opened by the second determination unit. Leak prevention system. The method of claim 1, It is installed in the path between the gas device and the intermediate valve, and further comprising a flow rate sensor for measuring the flow rate of the gas flowing into the gas device, The intermediate valve controller is configured to shut off and control the intermediate valve when it is determined that the gas device is not ignited by the first determination unit and the flow rate of the gas flowing into the gas device is measured by the flow rate measuring sensor. Gas leakage prevention system, characterized in that. The method of claim 2, When the gas device is determined not to be ignited by the first determination unit and the intermediate valve is determined to be shut off by the second determination unit, the gas flowing into the gas device by the flow measurement sensor. The gas leakage prevention system further comprises an alarm for transmitting a predetermined alarm signal when the flow rate of the gas is measured. The method of claim 3, wherein The flow measurement sensor is a gas leakage prevention system, characterized in that the thermal air flow measurement sensor implemented by MEMS (Micro Electro Mechanical System). The method of claim 3, wherein The flow measurement sensor is differential pressure flow measurement sensor, volumetric flow measurement sensor, electromagnetic flow measurement sensor, ultrasonic flow measurement sensor, vortex flow measurement sensor, turbine flow measurement sensor, mass flow measurement sensor, variable area flow measurement sensor, channel flow measurement Gas leakage prevention system, characterized in that any one of the sensors. The method of claim 3, wherein An alarm signal receiver connected to each alarm device installed in a plurality of households and receiving an alarm signal transmitted by at least one alarm device; And And a display for displaying a position of the corresponding furniture when the alarm signal is received by the alarm signal receiver. The method of claim 6, The display is a gas leakage prevention system, characterized in that for displaying the location of the furniture in which the gas leaks in a color contrasted with the location of the furniture is not abnormal. (a) determining whether the gas appliance is ignited; (b) determining whether the intermediate valve installed in the path of the gas flowing into the gas device is opened or closed; And (c) if it is determined that the gas appliance is not ignited by the step (a), and the intermediate valve is opened by the step (b), controlling the intermediate valve to be shut off. Gas leakage prevention method characterized in that. The method of claim 8, (d) measuring a flow rate of the gas flowing into the gas device in a path between the gas device and the intermediate valve; And (e) if it is determined that the gas device is not ignited by the step (a), and the flow rate of the gas flowing into the gas device is measured by the step (d), the step of controlling the blocking of the intermediate valve is performed. Gas leakage prevention method further comprising. The method of claim 9, (f) If it is determined that the gas appliance is not ignited by the step (a), and it is determined that the intermediate valve is shut off by the step (b), the gas appliance is performed by the step (d). The gas leakage prevention method further comprises the step of transmitting a predetermined alarm signal when the flow rate of the gas flowing into. The method of claim 10, (g) receiving the alarm signal sent by at least one of each alarm installed in a plurality of households; And (h) when the alarm signal is received by the step (g), further comprising the step of displaying the corresponding location of the furniture.