KR100287844B1 - control device for operating of gas furnace - Google Patents

Abstract

The present invention relates to an operation control apparatus for a gas warmer, wherein when the apparatus is operated over medium combustion according to a difference between a desired temperature and a current indoor temperature, the temperature of the exhaust gas generated as a mixture of gas and air is burned. When the detected temperature value is lower than the preset set temperature value, it is determined that the combustion state of the mixed gas is incomplete combustion, and the operation state of the device is immediately changed to small combustion to prevent the occurrence of a safety accident. It was made possible.

To this end, according to the present invention, a mixed gas of gas and air is combusted in the combustion chamber 6 installed in the main body 1, and the exhaust gas generated by the combustion of the mixed gas is a gas connected to the heat exchanger 13 and the flue exchanger. In the gas hot air fan that is continuously discharged to the outside through the discharge pipe 14, the temperature sensing to be installed on the exhaust flow path of the exhaust gas generated as the mixed gas is burned in the combustion chamber (6) to sense the temperature of the exhaust gas A comparator 19 for configuring a sensor 18 and a controller 16 for controlling the operation of the device, and comparing a temperature value detected by the temperature sensor 18 with a preset set temperature value; When operating the controller 16 and comparing the two temperature values by the comparing unit 19, the operating state of the device is changed to small combustion only when the detected temperature value of the exhaust gas is smaller than the preset set temperature value. The hayeoseo will consist of the control unit 20.

Description

Control device for gas heaters {control device for operating of gas furnace}

The present invention relates to the field of gas hot air fans, and more particularly, when the operating state of the device is over medium combustion, the setting of sensing the temperature of the exhaust gas generated as the mixed gas is combusted and inputting the detected temperature value The present invention relates to an operation control apparatus for a gas hot air fan which, when it is smaller than the temperature value, determines that the combustion state of the mixed gas is incomplete combustion and immediately changes the operation state of the device to small combustion.

In general, a gas warmer is a heating device that heats a room by heat-exchanging cold air with hot air by using combustion heat obtained by burning a gas that is a fuel, and includes a main body 1 and a fan housing fixed to a lower portion of the main body. And a convection fan (3) installed in the fan housing to provide a blowing force to circulate the indoor air while rotating under the driving force of a motor (not shown), and in the lower part of the front surface of the main body (1). A suction grill (4) installed at the upper side of the fan housing (2) and a suction grill (4) which sucks indoor air into the main body (1) when the blowing air is provided by the rotation of the convection fan (3). A barrier (5) for supporting various components of the furnace, a combustion chamber (6) fixed above the convection fan (3) of the barrier, in which a mixed gas of gas as fuel and air necessary for combustion is combusted; Mixed gas fixed in combustion chamber Burner (7) for igniting the mixed gas to be burned in the combustion chamber (6), gas supply pipe (8) for supplying fuel gas into the burner and the wall surface of the room where the device is installed. Intake pipe (9) having a suction hole (9a) formed in the outdoor side to be fixed to suck the air required for combustion, one end is connected to the indoor side of the intake pipe and the other end is connected to the burner (7) An air supply pipe (10) for supplying combustion air sucked through the (9) to the burner (7), and is provided in the connection portion of the air supply pipe and the burner (7) to provide a suction force to suck the combustion air An air suction fan 11, a gas valve 12 installed in the gas supply pipe 8 to selectively open and close a gas supply pipe, and connected to an upper portion of the combustion chamber 6 to the inside of the main body 1. Heat that exchanges the sucked cold air to hot air by the heat of combustion Ventilation 13 and one end is connected to one side of the heat exchanger and the other end is exposed to the outside while passing through the intake pipe 9 to exhaust the exhaust gas (combustion gas) heat-exchanging cold air to the outside. The main gas discharge pipe 14 and the discharge grill 15 which is installed at the front upper part of the main body 1 and sucked into the main body and discharges the hot air exchanged by the heat exchanger 13 to the outside of the main body 1. And a controller 16 mounted on the barrier 5 to control the operation of the device as a whole.

Therefore, when the user selects the heating mode provided in the mode selection panel 17 on the front of the main body 1 in a state where the apparatus is installed in a state where the device is supported in place, first, the burner of the air supply pipe 10 ( 7) The air suction fan 11 installed at the connection part rotates in response to the control signal of the controller 16 mounted on the barrier 5. At this time, the wall of the room where the device is installed is moved to the outdoor side to suck in air for combustion. Considering that the intake pipe 9 having the intake hole 9a is fixed and one end of the air supply pipe 10 is connected to the indoor side of the intake pipe, external air is sucked into the intake hole 9a of the intake pipe 9. Is sucked into the intake pipe (9) and then is supplied to the burner (7) through the air supply pipe (10).

The air supplied to the burner 7 enters the combustion chamber 6 through a slit hole (not shown) formed in the burner 7 while the rotation of the air suction fan 11 continues, and then continues to exchange heat. The pre-purge process, which passes through the gas 11 and exits to the outside through the gas discharge pipe 14 again, is performed for a few minutes.

Performing the pre-purge process for a few minutes is to completely discharge the remaining gas remaining in the combustion chamber 6 to the outside, the combustion chamber by the remaining gas when the gas, which is the fuel in the operation described later in the combustion chamber 6 is initially burned. This is to prevent the risk of explosion in advance.

After the pre-purging process is performed in this manner, the air suction fan 11 continues to rotate so that the air necessary for combustion is sucked into the intake pipe 9 through the suction hole 9a formed in the intake pipe 9. The gas valve 12 installed in the gas supply pipe 8 is opened by the control signal of the controller 16 and is supplied to the burner 7 through the air supply pipe 10. The gas supplied is ejected through a nozzle (not shown) and then injected into the combustion air and injected into the combustion chamber 6 through a slit hole formed in the burner 7, wherein an ignition means (not shown) It operates to ignite the mixture gas of the gas and combustion air, so that the mixed gas is combusted in the combustion chamber (6).

In this way, when the mixed gas is combusted in the combustion chamber 6, combustion heat is generated and the combustion heat is heated by moving the heat exchanger 13 connected to the upper part of the combustion chamber 6 from the lower part to the upper part, and then one end of the heat exchanger. Connected to the (13) and the other end passes through the intake pipe (9) and exits to the outside through the gas discharge pipe (14) exposed to the outside, wherein the gas discharge pipe is heated by the heat of combustion discharged to maintain a high temperature Therefore, the combustion air sucked into the intake pipe (9) through the suction hole (9a) formed in the intake pipe (9) in the above-described action is heat-exchanged and rises above a certain temperature, whereby the combustion air heat-exchanged to a high temperature Since the gas is continuously supplied to the burner 7 through the supply pipe 10, the combustion efficiency of the mixed gas which is loaded in the combustion air and burned in the combustion chamber 6 is increased, thereby enabling complete combustion. Understanding is possible.

As described above, when the gas, which is fuel, is combusted in the combustion chamber 6, the convection fan 3 in the fan housing 2 fixed in the main body 1 rotates under the driving force of the motor under the control of the controller 16. A blowing force for circulation of indoor air is generated, and accordingly air in the room is sucked into the main body 1 through the suction grill 4 installed in the lower part of the front of the main body 1, and then the convection fan 3 continues. According to the normal rotation, the upper part of the main body 1 moves to the upper part, wherein the air is heat-exchanged by the heat of combustion as the air sucked into the main body 1 passes through the heat exchanger 13 while moving upward. Since the discharged into the room through the discharge grill 15 installed in the upper front of the main body 1 is to be heated due to the hot air discharged.

On the other hand, if the user does not select the desired temperature when the heating mode is selected, the set desired temperature (manufacturer varies slightly depending on the model, but is generally set to 20 ℃ which is the most suitable temperature for the human body) and the current room temperature. Compared with, the operation state is automatically operated in the combustion state of small combustion, medium combustion, or large combustion according to the difference value, and when the desired temperature is specially selected, the difference between the selected desired temperature and the present indoor temperature is compared. According to the value, the operation state is automatically operated in one of combustion state of small combustion, medium combustion, and large combustion, and the larger the difference between the desired temperature and the indoor temperature is, the larger combustion is performed so that the indoor temperature reaches the desired temperature quickly. The difference between the desired temperature and the current room temperature to change the operation state is inputted to the controller.

On the other hand, in the case of small combustion, medium combustion, and large combustion, the rotation speed of the air suction fan 11 for supplying combustion air is automatically adjusted by the controller 16 according to the operation state, so that the amount of combustion air supplied is changed, and the gas supply pipe ( Since the opening amount of the gas valve 12 installed in 8) is automatically adjusted by the controller 16 according to the operation state, the amount of gas supplied varies, and the rotation speed of the convection fan 3 circulating indoor air is in the operating state. It is understood that the amount of circulating air is also changed because it is automatically adjusted by the controller 16 to fit.

In addition, if the user wants to adjust the amount of circulation of the indoor air caused by the rotation of the convection fan 3 in the same operation state (either small operation, medium operation, or large operation), the mode selection panel unit 17 Selecting a separate air volume control button (strong wind selection button, weak air selection button) in the reduced or increased discharge amount of hot air discharged through the discharge grill 15 compared to the standard discharge amount (automatically set discharge amount) In this case, only the rotation speed of the convection fan (3) is automatically adjusted by the controller (16).

However, in such a general gas hot air heater, the gas pressure supplied in the small combustion state during operation according to the difference between the desired temperature and the current room temperature is +50 and -100 based on 200 mmAq in the case of LNG. In the case of LPG, even if it is less than +50, -100 based on 280mmAq, the amount of exhaust gas generated by the decrease of gas pressure when the mixed gas of air and gas is combusted is not enough to affect the human body. Although it does not need to be used, if the operating condition is medium or large combustion rather than small combustion, the gas pressure supplied is appropriate for various reasons (ambient temperature, humidity, city gas, etc. when many households use gas at the same time). Even if it falls below the pressure, the air suction fan 11 continuously rotates to the selected medium combustion state and the large combustion state so that eventually The air supply amount is more than necessary compared to the gas supply amount, and when the mixed gas is combusted in the combustion chamber, a large amount of exhaust gas is generated due to incomplete combustion.

Therefore, a large amount of exhaust gas generated at this time is not easily discharged to the outside through the gas discharge pipe 14 when the gas discharge pipe 14 is damaged due to poor assembly state of the gas discharge pipe 14 and aging. Of course, even if all the exhaust gas is discharged to the outside, the surroundings are severely polluted, and when a large amount of exhaust gas is discharged to the outside, the discharged exhaust gas is likely to enter the room again through a door gap or the like. As it increases, the amount of oxygen in the room is drastically reduced, resulting in a high incidence of safety accidents in which the user dies due to oxygen deficiency.

The present invention has been made to solve the above problems, the temperature of the exhaust gas generated by the combustion of the gas mixture of air and gas when the device is operated over medium combustion according to the difference between the desired temperature and the current room temperature If the temperature value is less than the set temperature value to detect the combustion state of the mixed gas is incomplete combustion, the purpose is to immediately change the operating state of the device to small combustion.

According to the present invention for achieving the above object, a gas mixture of gas and air is combusted in a combustion chamber provided in the main body, and the exhaust gas generated by the combustion of the gas mixture continuously passes through a gas discharge pipe connected to the heat exchanger and the soft exchanger. In the gas air blower discharged to the outside through the gas, the temperature sensing member for detecting the temperature of the exhaust gas is installed on the exhaust flow path of the exhaust gas generated when the mixed gas is burned in the combustion chamber, and controls the operation of the device A comparator for comparing a temperature value detected by the temperature sensing member with a preset temperature value while configuring a controller, and the exhaust gas detected when comparing the two temperature values by the comparator while configuring the controller. Change the operating status of the device to small combustion only when the temperature value is lower than the preset set temperature value. An operation control unit of the gas fan heater hayeoseo composed of the control is provided.

1 is a perspective view showing a gas hot air fan

Figure 2 is a longitudinal cross-sectional view showing a gas heater

Figure 3 is a longitudinal cross-sectional view showing the main part of the present invention is installed in the heat exchanger constituting the gas temperature blower temperature sensor constituting the device of the present invention.

4 is a cross-sectional view taken along line II of FIG. 3.

Figure 5 is a block diagram showing the device of the present invention

6 is a flowchart sequentially illustrating a driving control process according to the present invention.

7 is a graph showing the exhaust gas temperature, the calorific value and the exhaust gas concentration according to the change in the gas supply pressure to explain the present invention.

Explanation of symbols for main parts of the drawings

1. Body 6. Combustion chamber

13. Heat exchanger 14. Gas discharge pipe

16. Controller 18. Temperature sensor

19. Comparator 20. Controller

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

Attached Figure 3 is a longitudinal sectional view of the main portion showing a state in which the temperature sensor constituting the device of the present invention is installed in a heat exchanger constituting a gas hot air fan, Figure 4 is a cross-sectional view taken along line I-I of Figure 3, Figure 5 is a device of the present invention 6 is a flow chart showing the operation control process according to the present invention in sequence, the present invention is a gas mixture of gas and air is combusted in the combustion chamber 6 installed in the main body 1, The exhaust gas generated by the combustion of the mixed gas is a gas hot air fan which is continuously discharged to the outside through the heat exchanger 13 and the gas discharge pipe 14 connected to the soft exchanger, and the mixed gas is combusted in the combustion chamber 6. As a result, a temperature sensor 18 is installed on the exhaust flow path of the exhaust gas, which senses the temperature of the exhaust gas only when the apparatus is operated over heavy combustion, and the operation of the apparatus is performed as a whole. The controller 16 includes a comparator 19 for comparing the temperature T1 of the exhaust gas detected by the temperature sensor 18 with a preset temperature T2 that is previously inputted. 16) the apparatus of the apparatus only when the temperature value T1 of the exhaust gas detected when comparing the two temperature values T1 and T2 by the comparator 19 is less than or equal to the preset temperature value T2. The control unit 20 is provided to change the operation state to small combustion.

The temperature sensor 18 for detecting the temperature of the exhaust gas is preferably installed in the heat exchanger 13 of the flow path through which the exhaust gas is discharged, and the connection portion of the gas discharge pipe 14 that is the discharge side of the heat exchanger. It is more preferable to install in the vicinity, which is an external influence through the gas discharge pipe 14 without directly receiving the combustion heat generated by the combustion of the mixed gas in the combustion chamber 6 in the exhaust flow path of the exhaust gas (outside air temperature). The heat exchanger 13 is a part which is not largely received, and the heat exchanger 13 is close to the connection part of the gas discharge pipe 14 which is the discharge side of the heat exchanger, so the temperature sensor 18 must be installed in this state. This is because the temperature sensing value of the exhaust gas by the sensing sensor is the most stable.

The operation control apparatus according to the exhaust gas of the above structure comprises the steps of the controller (16) to recognize the operation state during operation of the device; Performing normal combustion when the operation state of the device is small combustion, and detecting the temperature of the exhaust gas generated as the mixed gas is burned when the combustion state is larger than the medium combustion; The controller 16 recognizing whether the air volume is separately selected by the user; If the air volume is not selected separately, the temperature value T1 sensed by the temperature sensor 18 and the preset temperature value T2 input are compared by the comparator 19 constituting the controller 16, and the air volume If it is selected separately, the controller 16 configures the controller 16 to change the set temperature value T2 in consideration of the selected air flow rate (large air volume, small air volume) and then change the detected temperature value and the changed set temperature value by the temperature sensor 18. Comparing in the comparing unit 19; When the detected temperature value T1 of the exhaust gas is larger than the set temperature value T2, the controller continually performs normal operation according to the control signal of the controller 20 constituting the controller 16, and detects the exhaust gas. When the temperature value T1 is smaller than the set temperature value T2, the step of changing the operation state of the device to small combustion is sequentially performed according to the control signal of the controller 20 constituting the controller 16.

In the case of heavy combustion or higher, the controller 16 recognizes whether the air volume by the user is separately selected after the temperature sensor 18 detects the temperature of the exhaust gas generated as the mixed gas is burned. If it is selected separately, change the set temperature value according to the selected air volume (large air volume, small air volume), and then compare the temperature value T1 detected by the temperature sensor 18 with the changed set temperature value to configure the controller 16. The step of comparing in the unit 19 is not necessarily a step to be included, but if included, the set temperature value T2 to be compared with the temperature value T1 of the exhaust gas detected by the temperature sensor 18. In consideration of the selected air volume, it is possible to more accurately adjust the temperature because the detected temperature is somewhat influenced by the air volume when the temperature of the exhaust gas is detected by the temperature sensor 18. This is to compare the two temperature values T1 and T2 more accurately by compensating the temperature in accordance with the airflow amount to the positive temperature value in advance.

Hereinafter, the present invention will be described in more detail.

When the user selects the heating mode, the device does not select the desired temperature as described in the operation of the general gas heater.If the user does not select the desired temperature (the manufacturer may vary depending on the model, the temperature that is most suitable for the human body in general) Is set to 20 ℃) and the current room temperature is automatically operated according to the difference value, either small combustion, medium combustion, or large combustion, and when the desired temperature is specially selected, Compares the current room temperature and performs the normal operation state in which the operation state is one of small combustion, medium combustion, and large combustion automatically according to the difference value. In this case, when the operation state recognized by the controller 16 is small combustion Will continue to operate normally, but in medium or large combustion emissions Temperature detection sensor 18 is installed on rosang detects a temperature of the exhaust gas discharged through the exhaust channel, and sends them to the comparison part 19 constituting the controller 16, the detected value (T1).

On the other hand, when the operation state of the device is more than heavy combustion by the above process, when the temperature sensor 18 installed on the exhaust flow path of the exhaust gas senses the temperature of the exhaust gas, the user continues to separate the air volume. The controller 16 recognizes whether it is selected. If the user does not select the air volume separately, the rotation speed of the convection fan 3 by the control of the controller 16 is not reduced or decremented at a predetermined rotation speed. In the case of large combustion), the set temperature value to be compared with the temperature value sensed by the temperature sensor 18 needs to be changed in this case as the air flow rate is maintained as the standard air flow rate (predetermined air volume according to the operating state). However, if the user selects the air volume separately (by strong wind higher than the reference air volume or weak wind lower than the reference air volume), the convection fan 3 under the control of the controller 16 is provided. Since the rotation speed is added or subtracted from the predetermined rotation speed, the set temperature to be compared with the temperature value T1 detected by the temperature sensor 18 in this case as it is more or less than the air volume in the operating state (medium combustion, large combustion). The value T2 is changed in view of the selected air volume.

That is, if the user selects the strong wind (large air volume), the rotation of the convection fan 3 by the control of the controller 16 is greater than the reference rotation speed, so the air volume is also larger than the reference air volume, and the user is forced to If it is selected, the rotation of the convection fan 3 by the control of the controller 16 is smaller than the reference rotation speed, so the air volume is also lower than the reference air volume, the temperature sensed by the temperature sensor 13 according to the user's air volume selection Changing the set temperature value T2 to be compared with the value T1 in accordance with the air flow rate, even if the temperature value of the exhaust gas to be detected by the temperature sensor 13 is affected by the air flow rate, the set temperature value is If it does not vary as much as proportional to the temperature value changed according to this is because the comparison of the detected temperature value T1 of the exhaust gas and the preset set temperature value T2 is not accurate.

In the present invention, the temperature sensor 18 installed on the exhaust flow path of the exhaust gas to detect the temperature of the exhaust gas is not necessarily limited to its installation position, but the temperature of the exhaust gas is most stable without external influence. In order to detect by the heat exchanger 13 which is a portion that is not directly affected by the external influence (air temperature) through the gas discharge pipe 14 without directly receiving the combustion heat generated by the mixed gas is combusted in the combustion chamber (6). It is preferable to install, and it is more preferable to install in the vicinity of the connection part of the gas discharge pipe 14 which is the discharge side.

If the operation state of the device in the above process is more than heavy combustion, if the user is selected by recognizing whether the air flow is selected separately by the user, if the selected temperature according to the selected air flow set in the comparison unit 19 of the controller 16 Since the process of comparing the temperature value of the exhaust gas detected by the temperature sensor 13 and the changed set temperature value after changing is not necessarily a necessary process, the temperature installed on the exhaust flow path of the exhaust gas After the sensor 13 senses the temperature of the exhaust gas, the controller 16 compares the exhaust gas temperature value detected by the temperature sensor 13 with the controller 16 without immediately recognizing whether the air volume selection by the user is separate. It may be understood that the set temperature values previously input to the unit 19 may be compared.

Subsequently, the temperature value T1 of the exhaust gas detected by the temperature sensor 13 and the set temperature value T2 input to the comparing unit 19 of the controller 16 (changes from the initial set temperature according to the air flow selection). Temperature may be higher than the set temperature value T2. However, if the detected temperature value T1 of the exhaust gas is greater than the set temperature value T2, normal operation is continued. When T1) is smaller than the set temperature value T2, the controller 20 constituting the controller 16 immediately changes the operation state of the device to small operation. This is because of various reasons (ambient temperature, humidity, city gas). At the same time, when a large number of households use gas, the gas pressure supplied through the gas supply pipe (8) is +50, -100 based on 200 mmAq in case of LNG, and 280 mmAq in case of LPG, depending on other conditions. If falling below +50, -100) In the event that the operation state of the equipment continues to be more than heavy combustion, incomplete combustion occurs when the mixed gas is combusted in the combustion chamber 6 due to insufficient gas supply compared to the air supply amount, and the amount of exhaust gas generated at this time may harm the human body. This is because it exceeds the amount.

When the temperature value T1 of the exhaust gas detected by the temperature sensor 13 is smaller than the set temperature value T2, the combustion state of the mixed gas combusted in the combustion chamber 6 is incomplete combustion, and the mixing It is understood that the combustion state of gas is incomplete combustion because the amount of gas that is fuel is insufficient compared to the amount of air constituting the mixed gas.

Then, in order to help the understanding of the present invention, when the gas warmer using LNG gas as a fuel is operated above the heavy combustion, when the pressure of the gas supplied through the gas supply pipe 8 drops below an appropriate pressure, The temperature state of the exhaust gas, and also the calorific value and the concentration of the exhaust gas at this time was shown as a graph as shown in FIG.

In more detail, when the gas pressure supplied in the section in which the apparatus is operated over medium combustion falls below an appropriate pressure, the temperature of the exhaust gas generated by the combustion of the mixed gas continues to drop, but due to incomplete combustion. The concentration suddenly rises.

On the other hand, when the operating state of the device is changed to small combustion as the temperature of the exhaust gas drops, the pressure increases due to the change in gas supply amount (in small combustion, the gas supply amount is lower than that of medium and large combustion, and the air supply amount is also reduced). The exhaust gas temperature of the gas is continuously reduced because the gas supply amount decreases, and the air supply amount is lower than that of heavy combustion, so that the complete combustion is possible, so that the calorific value rises, but the exhaust gas temperature drops rapidly.

Therefore, according to the present invention, the gas pressure supplied from the medium combustion or higher in the operating condition according to the difference between the desired temperature and the current indoor temperature is +50, -100 based on 200mmAq in the case of LNG, and 280mmAq in the case of LPG. If the temperature falls below +50, -100), the operating state of the device is immediately changed to small combustion by sensing the temperature of the exhaust gas, even if the exhaust gas is generated more than necessary due to incomplete combustion of the mixed gas under the gas pressure. In operation, the amount does not greatly affect the human body, so that even if the connection state of the gas discharge pipe 14 is poor while the device is in use, or the gas discharge pipe is aging and damaged, the safety accident of the human body due to the exhaust gas does not occur. It is effective.

Claims (3)

In a gas warmer, a gas mixture of air and gas is combusted in a combustion chamber installed in a main body, and exhaust gas generated by the combustion of the gas mixture is discharged to the outside through a gas discharge pipe connected to the heat exchanger and the soft exchanger. A temperature sensing member installed on an exhaust flow path of the exhaust gas generated as the mixed gas is combusted in the combustion chamber, and detecting a temperature of the exhaust gas; A comparator configured to compare a temperature value detected by the temperature sensing member with a preset temperature value while configuring a controller to control the operation of the device; The controller may be configured to change the operation state of the device to small combustion only when the temperature value of the exhaust gas detected when comparing the two temperature values by the comparator while configuring the controller is smaller than the preset set temperature value. Operation controller of gas heater. The method of claim 1, Operation control apparatus according to the exhaust gas temperature of the gas heater, characterized in that the temperature sensing member is installed in the vicinity of the gas discharge pipe of the heat exchanger. The method of claim 1, The control unit determines whether the air flow selection is separately selected by the user before changing the operation state, and if selected, changes the operation temperature after changing the set temperature value.