KR930010245B1 - Gas leakage inspection system control method for gas boiler - Google Patents

Abstract

The system control method and apparatus prevents safety accidents resulting from a gas leakage by stopping the operation of the boiler, and simultaneously displaying the gas leakage state if the gas leakage is detected. The system control apparatus comprises a sensor (117) sensing the temperature of the hot water discharged from a first heat exchanger (14) via a temperature detector (114) connected to a thermistor (34"); a temperature comparator comparing the measured temperature with a reference temperature; a next step command part (120) ordering the next function by receiving the signals from a gas alarm (17) and the temperature comparator (19); an extinguishing control part (123).

Description

System control method and apparatus for gas leakage detection in gas boiler

1 is a block diagram of a gas boiler control unit for explaining the apparatus of the present invention.

2 is a schematic view of a gas boiler to which the method of the present invention is applied.

3 is a flowchart for explaining the method of the present invention.

* Explanation of symbols for main parts of the drawings

10: control unit 10 ': microcomputer

11: manual control device 11a: data input, output

11b: driver 11c: liquid crystal display control unit

11d: Ventilation picture display unit 13: Data transmission and reception unit

14: tapping temperature detection unit 15, 19: A / D converter

16: D / A conversion group 17: gas alarm

18: gas detection input signal transmission and reception unit 20: combustor

23: blower 25: sparker

30: water tank 31: float switch

35: circulation pump 43 펌: water flow switch

44: trilateral 51, 52: electron

53: proportional side 117: tapping temperature recognition unit

49: temperature comparison unit 120: next execution command unit

122: fire extinguishing output unit 123: fire extinguishing control unit

124: combustion (holding) output unit 125: combustion operation drive unit

126: functional part drive unit 127: functional part output signal group

The present invention relates to a method and apparatus for controlling a system when a gas leaks from a gas boiler. In particular, when a gas alarm is detected by installing a conventional false alarm in a control unit in the gas boiler, the operation of each apparatus is immediately stopped. The present invention relates to a system control method and a device for detecting gas leakage in a gas boiler, which prevents a safety accident due to gas leakage by displaying a gas leakage state through a manual control device.

In the conventional gas boiler, when the gas alarm is operated by gas leakage, the exhaust fan is rotated to discharge the leaked gas while stopping the combustion of the boiler. At this time, the gas sensor is not installed so that the gas is not installed. If the detection position is wrong, the boiler should be stopped before the actual concentration of the explosion is reached, and the exhaust fan should be rotated, but the leakage of gas may be detected when the explosion concentration is reached. When this is started, there is a possibility that an electric flame is generated by the contact of the fan relay in the process of electric supply and rotation start, and the gas leaked by the electric flame may explode, and the gas detection sensor The gas must be kept at a certain distance from the gas appliance. In the case of LNG, although the specific gravity of LNG is lower than the specific gravity of air, and LPG is higher than the specific gravity of air, by installing a gas detector in the apparatus main body, a certain distance is not maintained from the gas appliance, There was a problem that it is impossible to accurately detect the specific gravity.

To sum it up, conventionally, the exhaust fan is unconditionally rotated to discharge the leaked gas in a state in which the gas leakage is detected and the combustion is stopped, and when the exhaust fan is driven while the leaked gas reaches the explosion concentration, the exhaust fan motor A momentary electric flame discharge (i.e., when the fan motor is supplied with electricity, the current suddenly flows instantaneously when the fan motor is supplied, the spark is discharged from the fan relay gradually) at the contact point of the relay to supply power to the gas explosion. If a gas detector is not installed in a suitable place to detect leakage in an optimal state (e.g., a boiler having a gas detector or sensor installed in the boiler body), the difference between the specific gravity of gas and air There is a problem that there is an uncertainty of the gas concentration detection.

The present invention has been made in order to solve such a conventional problem, if the gas leak is detected in the gas alarm during the normal combustion of the gas boiler, all electrical appliances that can generate electrical flame as well as combustion of the boiler. (Flow Switch, Flow Switch, Circulation Pump, Blower, Three Way Side, Sparker, Electronic Side and Proportional Side) Cut off the power applied and the ventilation picture is displayed on the liquid crystal display of the manual control device. It enables users to quickly ventilate the indoor air, thereby preventing safety accidents due to gas leakage, improving safety and convenience as well as installing a certain distance away from the main body of the device. The height of the gas detector that is 1.5m away from the gas service device (for example, LPG should be In the case of LPG, it is installed about 30cm away from the ceiling surface, and in case of LPG, it is installed about 30cm away from the floor surface), so that the gas leakage detection system control method in the gas boiler that can more accurately detect the leakage of gas and It is an object of the present invention to describe the present invention in detail with reference to the accompanying drawings as follows.

First, the gas boiler 100 to which the method of the present invention is applied is installed in the casing 101 to which the manual adjusting device 11 and the normal gas alarm 17 are connected from the outside as shown in FIG. A control unit 10 for controlling the operation; A combustor 20 which burns gas to warm hot water for heating or hot water supply; A water tank 30 storing heating circulation water; The secondary heat exchanger 40 having different paths for circulation of hot and cold water is configured by mutually coupling. In this case, a burner group 22 including a plurality of burners is formed in the casing 21 of the combustor 20, and a primary heat exchanger having a temperature fuse 24 ′ attached thereto in order to prevent overheating in an upper direction thereof. The burner group 22 heats the water passing through the gas 24, and a blower 23 for supplying combustion air is installed at the bottom of the combustor casing 21, and the burner In the vicinity of the group 22, a spark rod 26 connected to the sparker 25 for igniting the burner group 22 and a frame rod 27 for detecting the ignition of the burner group 22 are installed. On the upper surface of the casing 21, an exhaust portion 28 for discharging the exhaust gas is formed through the boiler casing 101.

In addition, a gas pipe 50 for supplying gas is installed below the burner group 22, and there are two electron valves 51 and 52 for passing the gas at the time of energization and a proportional valve for adjusting the gas supply amount. 53 is provided from the upstream of the gas pipe 50 with respect to the gas supply path. In addition, the water tank 30 recovers the float water 31 for detecting the quantity of water in the water tank 30, the overflow pipe 32 for discharging the overflowed water, and the heating water rotated on the floor. The water supply pipe 34 for supplying water to the return pipe 33 and the primary heat exchanger 24 is provided with a filter 33 ', wherein the water supply pipe 34 for adjusting the circulation of water The circulation pump 35 is installed downward.

On the other hand, the secondary heat exchanger 40 is a hot water pipe 41 for guiding the hot water introduced from the primary heat exchanger 24 and the freeze prevention heater 42 'is attached to discharge the water through the tap water. The hot water discharge pipe 42 and the direct water inflow pipe 43 and the return pipe 33 provided with a filter 43 'and a water flow switch 43 ＂for detecting the presence or absence of water flow by introducing cold water from the outside of the gas boiler. Auxiliary pipe 46 is installed to be connected to the secondary heat exchanger 40 to circulate the water is returned, wherein the water supply pipe 34 is heated with the hot water pipe 41 through the three-way (44) Is connected to the heating hot water supply pipe 45 is passed through.

In addition, the water supply pipe (34) passing through the primary heat exchanger (24) is provided with a debris prevention bimetal (34 ') and a demister (34 ＂) for measuring the tapping temperature, respectively, from upstream with respect to the flow of water. Between the return pipe (33) and the direct inflow pipe (43) is provided with a water supply tank (54) for replenishing water when there is insufficient water in the water tank (30), the heating hot water pipe ( Bypass pipe 55 for preventing boiling when water does not flow to 45 is connected between the return pipe 33 and the heating hot water supply pipe 45, the low-temperature sensing bimetal 56 to sense the outside temperature of the boiler ) Is installed on the inner wall of the boiler casing 101.

The control unit 10 is a control circuit centering on the microcomputer 10 ', as shown in FIG. 1, and tapping of the heating water discharged from the primary heat exchanger 24 is provided in the microcomputer 10'. The temperature is detected as an analog signal through the tapping temperature detector 14 connected to the demister 34 ＂, converted into a digital signal via the A / D converter 15, and then the tapping temperature of the heating water is input by a predetermined signal. Recognizing tapping temperature recognition unit 117; The temperature comparison unit receives the set temperature output from the manual control device 11 through the data transmission and reception unit 13 and receives the tapping temperature of the heating water output from the tapping temperature recognition unit 117 and compares each other. 119; Code signal and the temperature comparison unit 119 by the gas detection signal which is outputted from the gas detector 17 through the gas detection input transmission / reception unit 18 and converted into a digital signal via the A / D converter 19. Next execution command unit 120 for outputting the output signal of the; A fire extinguishing output unit 122 for receiving an output signal of the next execution command unit 120 and generating a fire extinguishing signal; A fire extinguishing controller 123 which receives the output signal of the fire extinguishing output unit 122 and outputs a predetermined control signal to the functional part driving unit 126; A combustion (maintenance) output unit 124 which receives the output signal of the next execution command unit 120 and performs a combustion (maintenance) function; A combustion operation driver 125 which receives an output signal of the combustion (maintenance) output unit 124 and selectively outputs an ignition command to the functional part driver 126; A functional part driver 126 for driving the respective functional parts according to the output states of the fire extinguishing controller 123 and the combustion operation driver 125; According to the output signal of the functional part drive unit 126, each functional part drive signal is converted into a predetermined analog signal through the A / D conversion group 16, and then float switch, water flow switch, circulation pump, blower, and three-way valve , Float switch 31, water flow switch 43 순환, circulation pump 35, blower 23 through sparker, solenoid valve and proportional valve driver 31a, 43a, 35a, 23a, 44a, 25a, 51a, 53a. ), The three-way side 44, the sparker 25, the electronic side 51, 52 and the proportional side 53, and the function component output signal group 127.

In addition, the manual control device 11 is connected between the microcomputer (10 ') and the data input and output to each other, the input and output unit (11a); A driving unit 11b for outputting a predetermined driving signal to the liquid crystal display control unit 11c when a predetermined signal corresponding to the gas leakage detection is input from the data input and output unit 11a; It is provided with a liquid crystal display control unit 11c for outputting a predetermined control signal to the ventilation picture display unit 11d, which receives the output signal of the drive unit 11b and displays the ventilation picture when gas is leaked.

On the other hand, in the method of the present invention, as shown in FIG. 3, the user "turns on" the operation switch (S ₁ ) while the gas boiler proceeds normal combustion (S ₂ ), while the gas leaks from the gas alarm 17. whether a detection signal is input in accordance with still detected (S ₃₎ to when the gas leakage detection signal is input to the next transit command portion 120, the electrical component (i.e., a float switch, the water flow switch until the gas leak detection signal is not input , Circulating pump, blower, three-way side, sparker, electromagnetic side and proportional side) to keep off the power and at the same time display the ventilation picture on the ventilation picture display part (11d) in the manual control device (S ₄ ) Next, if there is no gas leakage detection signal input (if S ₅ to No), the process as described above is performed again (S ₆ ), and the operation switch is reset (S ₇ ) to perform normal combustion (S ₂ ). It is a process of going back.

When described with reference to Figures 1 and 3 the effect of the present invention as follows.

First, the tapping temperature of the heating water is detected as a predetermined analog signal through the tapping temperature detector 14 connected to the demister (34 ＂) and converted into a predetermined digital value via the A / D converter 15, and then the microcomputer Since it is input to the temperature comparison unit 119 through the tapping temperature recognition unit 117 in 10 ', the temperature comparing unit 119 sets the tapping temperature and the predetermined heating preset temperature set in the manual adjusting device 11. While comparing with each other, the normal combustion according to the difference is continued through the next execution command unit 120 and the like.

At this time, the gas detector 17 continues to detect gas leakage. If the gas leaks into the room during normal combustion and a predetermined gas leakage detection signal is output from the gas alarm 17, the A / D converter 19 The gas leakage detection signal is converted into a predetermined digital signal and input to the next execution command unit 120 in the microcomputer 10 '.

Therefore, the next execution command unit 120, which was giving a normal combustion command, recognizes this and immediately outputs a predetermined fire extinguishing signal to the fire extinguishing control unit 123 through the fire extinguishing output unit 122. The functional component driving unit 126 outputs a control signal to cut off the power applied to each electric appliance.

That is, when a gas leak is detected, a predetermined control signal is output from the fire extinguishing control unit 123, so that the functional part driving unit 126 that receives the input and controls each electric appliance outputs a power cutoff signal corresponding to each electric appliance. Since a predetermined analog signal is converted through the D / A converter 16 via the signal group 127 and then input to each driving unit, the flow switch 31 is generated by a power cutoff signal output from each driving unit. The driving of the water flow switch (43), the circulation pump (35), the blower (23), the three-way side (44), the sparker (25), the electromagnetic side (51, 52) and the proportional side (53) is cut off.

Therefore, it is possible to prevent the explosion of the gas due to the electric flame that can be generated in the process of supplying power to the respective electrical appliances.

On the other hand, the next execution command unit 120 receives the gas leakage detection signal outputs a predetermined signal according to the fire extinguishing, and at the same time the code value by the gas detection signal of the gas detector 17 through the data transmission and reception unit 13 Since the data is sent to the data input / output unit 114 in the manual control device 11, a predetermined drive signal is generated from the drive unit 11b controlled by the output signal of the data input / output unit 11a to generate a liquid crystal. Since the display control unit 11c displays the ventilation picture due to the gas leakage on the ventilation picture display unit 11d, the user can easily recognize that the gas must be ventilated through this picture.

3 is a flowchart showing the method of the present invention, in which the first operation switch is 'on' (S ₁ ), while the gas boiler is performing a normal combustion function (52). there is the still detected (S ₃₎ of leakage, if the room because the gas leakage due to the gas detectors 17 is driven when the predetermined gas leak detection signals input to the next transit command unit (120) (Yes in S ₃ ), The next execution command unit 120 outputs a fire extinguishing signal through the fire extinguishing output unit 122 and the fire extinguishing control unit 123, so that the control function is controlled by a predetermined control signal output from the fire control unit 123. The component driving unit 126 cuts off the power applied to each electrical equipment (ie, float switch, water flow switch, circulation pump, blower, three-way valve, sparker, electromagnetic valve and proportional plane) until the gas leakage detection signal is not input. Will let you. At the same time, the next execution command unit 120 inputs a predetermined gas leakage detection signal to the manual control device 11 through the data transmission and reception unit 13, so that the ventilation picture display unit 11d in the manual control device 11 is provided. The ventilation picture will appear (S ₄ ).

Subsequently, the next execution command unit 120 continuously detects the presence or absence of the gas leakage detection signal (S ₅ ) and continues the above process when leakage of gas is continuously detected. However, the user and to block the leakage of the gas and when to draw the air inside the room prevent the gas leakage detection signal, the operation switch is again the above process until it is reset (S ₇₎ carried out (S ₆₎ malfunction After the safety accident is prevented and the user resets the operation switch, the gas boiler causes normal combustion.

As described above, according to the method of the present invention, when a normal gas alarm is installed at an appropriate height corresponding to a gas component (i.e. specific gravity), and gas leakage is detected by the gas alarm, a power supply voltage applied to all electric appliances After blocking the, display the ventilation picture to request ventilation on the liquid crystal display of the manual control device, the user can easily recognize the next operation according to the leakage of gas, as well as the process that the power supply voltage is applied to various electrical appliances It is possible to prevent explosion accidents caused by the electric flame that can occur in advance to improve the stability and convenience.

Claims (4)

In the case of gas leakage system control method that stops combustion immediately and operates the exhaust fan to ventilate the room air when gas leakage is detected while the gas boiler is performing normal combustion operation, the microcomputer 10 ' The next execution command unit 120 continuously detects whether the gas leakage detection signal is input from the normal gas alarm 17 during normal combustion of the boiler, and immediately generates a fire extinguishing signal when the gas leakage detection signal is input. It is characterized in that the process is made to completely cut off the power supply voltage applied to the various electrical appliances including the exhaust fan until the input is not input and at the same time to display a predetermined ventilation picture on the ventilation picture display unit (11d) in the manual control device (11). System control method for detecting gas leakage in a gas boiler. A tapping temperature recognizing unit that recognizes tapping temperature of heating water by receiving a predetermined signal through tapping temperature detecting unit 14 connected to tapping temperature of the heating water discharged from the primary heat exchanger 24 to the demister (34 ＂) ( 117); Temperature comparison unit for receiving the set temperature output from the manual control device 11 through the data transmission and reception unit 13 and receiving the tapping temperature of the heating water output from the tapping temperature recognition unit 117 and comparing each other. 119; The code signal and the temperature comparison unit 119 are inputted through the gas detection input / transmission / receiving unit 18 through the A / D converter 19 and the signal signal converted by the gas detection signal into a digital signal. A next execution command unit 120 for receiving a respective output signal and determining a function to be transferred to the next and outputting a control signal to each part; A fire extinguishing output unit 122 for receiving an output signal of the next execution command unit 120 and generating a fire extinguishing signal; A fire extinguishing controller 123 which receives an output signal of the fire extinguishing output unit 122 and outputs a predetermined control signal to the functional part driving unit 126; A functional part driver 126 for driving the respective functional parts according to the output states of the fire extinguishing controller 123 and the combustion operation driver 125; According to the output signal of the functional part drive unit 126, the float switch 31, the water flow switch 43 (, the circulation pump 35, the blower 23, the three-way side 44, the sparker 25, the electromagnetic side ( 51, 52) and the functional component output signal group (127) for controlling the proportional side (53) is configured by interconnecting system control device for detecting gas leakage. The electrical equipment of claim 1, wherein the electrical equipment includes a float switch 31, a water flow switch 43 ,, a circulation pump 35, a blower 23, a three-way side 44, a sparker 25, and an electromagnetic side 51 and 52. And a proportional valve (53), the system control method for detecting gas leakage in the gas boiler. The apparatus of claim 2, wherein the manual adjustment device (11) comprises: a data input and output unit (11a) connected to the microcomputer (10 ') to exchange predetermined data with each other; A driving unit 11b for outputting a predetermined driving signal to the liquid crystal display control unit 11c when a predetermined signal corresponding to gas leakage detection is input from the data input and output unit 11a; Gas boiler characterized in that it is provided with the liquid crystal display control unit 11c for outputting a predetermined control signal to the ventilation picture display unit (11d) for receiving the output signal of the drive unit (11b) to display the ventilation picture when gas leakage System control device for gas leakage detection