KR19980043498A - Heating and heating system of air conditioners and operation control method - Google Patents

Abstract

The present invention relates to a heating device for an air conditioner and an operation control method of the heating device, the method comprising: turning on a heating condition input and a device operation switch; Operating the burner fan; Igniting the burner after opening the fuel valve; Detecting a temperature of the burner; Operating the blower fan when the burner temperature exceeds a predetermined blower fan operating temperature; Detecting an indoor temperature; When the indoor temperature exceeds a set temperature according to the heating condition, shutting off the fuel valve and maintaining operation of the blowing fan; And stopping and continuing the operation of the burner fan for a predetermined time after the fuel valve is shut off. As a result, the heating efficiency is improved in the low temperature region, the power consumption of the apparatus is lowered, and the excellent effect is provided that there is no risk of fuel incombustibility and explosion.

Description

Heating and heating system of air conditioners and operation control method

The present invention relates to an air conditioner, and more particularly, to a heating device for generating a warm air and an operation control method of the heating device.

The air conditioner is equipped with a cooling device for generating a cold air and a heating device for generating a warm air in a main body casing, and provides cooling air or warm air to a room by a selective operation of a switch by a user. The heating apparatus of such an air conditioner has a burner that burns fuel through sucked outside air, a heat exchanger installed at an upper portion of the burner, a fuel pump for fuel supply, and an exhaust pipe for discharging waste gas generated after fuel combustion. . Then, the fuel supplied to the burner is ignited by the operation of the ignition transformer, the air in the room is sucked by the blower fan is blown to the burner and the heat exchanger to repeat the circulation process discharged back to the room.

The warm air supply by the heating device is performed through a prepurge control step, a normal operation control step, and a postpurge control step. In the prepurge control step, the blower fan is driven for the first time when the burner reaches a predetermined temperature or more when the operation switch is turned on, and the cold air discharge is prevented. In the post purge control step, when the operation switch is turned off during normal operation, When the burner temperature is below the predetermined temperature, the blower fan and the burner fan are stopped.

6 and 7 are flowcharts illustrating an operation control method of a conventional air conditioner, FIG. 6 is a flowchart of an operation switch turn-on state, and FIG. 7 is a flowchart of an operation switch turn-off during operation of FIG. 6. In the heating operation of the air conditioner (1), after the external power is applied (S31), after setting the temperature and the wind direction (S32), turning on the device operation switch, that is, the heating switch (S33), prepurge control is started. The comparison controller first compares the indoor temperature detected by the indoor temperature sensor with the set temperature (S34), and drives the burner fan for about 80 seconds when the set temperature is high (S35). At this time, the waste gas remaining in the burner is discharged to the outside, the outside air for combustion is sucked into the burner.

On the other hand, after 80 seconds (S36), when the ignition transformer is driven (S37) and about 5 seconds have elapsed (S38), fuel is injected into the burner by the operation of the fuel pump (S39), and the injected fuel is fired. It is ignited by the ignition transformer. At this time, the controller determines whether the ignition is completed in the burner through the ignition detection sensor (S40), and stops the operation of the ignition transformer after about 20 seconds (S41) at the time of ignition (S42). Then, the burner gradually rises in temperature due to combustion proceeding therein.

The burner temperature sensor detects the temperature of the burner (S43), and when the temperature of the burner reaches about 45 ° C. or more, generates a signal to drive the blower fan (S44). By driving the blower fan, cold air in the room is drawn into the main body casing and blown to the burner and the heat exchanger, and after being heat exchanged through the burner and the heat exchanger, the air is discharged again. If the indoor temperature is higher than the set temperature during this process (S45), the controller determines whether the device operation switch is on or off (S46), and when the device operation switch is off, as shown in FIG. Post purge control is performed.

On the other hand, when the machine operation switch is in the on state, the control unit stops driving the fuel pump (S47), and when the temperature of the burner gradually lowers to about 30 ° C or less (S48), the drive of the burner fan is stopped (S49). On the other hand, the driving of the blowing fan is stopped (S50). Then, the temperature of the gradually descending room determines the set temperature (S34), the control unit proceeds to the operation control according to the above process again. When this process is repeated, the room temperature is maintained at the user's set temperature.

On the other hand, if the operation switch is turned off during the operation of the device (S46), as shown in the flow chart of Figure 7, the post purge control proceeds. That is, the controller first stops driving of the fuel pump (S51), senses the temperature of the burner (S52), and detects the temperature below 45 ° C, and when the temperature is 30 ° C or less (S55), the output signal of the burner temperature sensor is applied. By the operation of the burner fan and the blowing fan is stopped (S56, S57). However, when the temperature of the burner is 45 ° C. or higher (S52), the control unit continuously drives when the burner fan and the blower fan are driven (S53, S54), and stops driving when the burner temperature reaches 30 ° C. or lower. (S56, S57).

However, in the conventional heating and heating operation control method of the air conditioner, since the blower fan is driven and controlled according to the burner temperature, there is a problem that the heating efficiency is lowered and the power consumption of the device is increased in the low temperature region. That is, in the low temperature region, the temperature of the room and the temperature of the burner may be drastically lowered due to the interruption of fuel supply, and at this time, the blower fan is repeatedly operated and deactivated according to the change of the burner temperature. Continuous blowing fan on and off lowers the heating efficiency and increases the power consumption of the equipment.

In addition, when the operation switch is turned off during operation of the device, that is, when the temperature of the burner is 45 ° C. or lower during post-purge control, the operation of the blower fan and the burner fan is stopped, and the waste gas generated after combustion of fuel remains in the burner. Done. This has the problem of causing a risk of fuel incombustibility and explosion upon restarting the device.

Accordingly, an object of the present invention is to provide a heating and heating control method of a heating and cooling device in which heating efficiency is improved in a low temperature region and power consumption of the device is reduced in view of the conventional problems.

It is another object of the present invention to provide a heating device for a heating and cooling device and a method for controlling the operation of the heating device without the risk of fuel incombustibility and explosion.

1 is a front view schematically showing an embodiment of the air conditioner according to the present invention,

2 is a control block diagram of FIG. 1;

3 is a functional system diagram schematically showing an operating state of the present invention;

4 is a flowchart of a power-on state according to an operation control method of an air conditioner of the present invention;

5 is a flowchart of a power off state of FIG. 4;

6 and 7 are flowcharts illustrating an operation control method when the operation of the conventional air conditioners is turned on and off.

Explanation of symbols for main parts of the drawings

1: Air conditioner 7: Ignition transformer

9: burner fan 11: heating device

13: burner 15: heat exchanger

17: blower fan 21: fuel pump

31: control unit

The object of the present invention is to provide a burner for burning fuel, a fuel valve for regulating the supply of fuel to the burner, a burner fan for discharging combustion gas generated from the burner, and the suction air to the burner. A method of controlling a heating apparatus of a heating and cooling device having a blower fan discharged to a room, the method comprising: turning on a heating condition input and a device operation switch; Operating the burner fan; Igniting the burner after opening the fuel valve; Detecting a temperature of the burner; Operating the blower fan when the burner temperature exceeds a predetermined blower fan operating temperature; Detecting an indoor temperature; When the indoor temperature exceeds a set temperature according to the heating condition, shutting off the fuel valve and maintaining operation of the blowing fan; It is achieved by the heating device operation control method of the air conditioner, comprising the step of continuing and stopping the operation of the burner fan for a predetermined time after the shut off of the fuel valve.

The apparatus may further include a step of maintaining the operation of the burner fan for a predetermined time and then stopping the blower fan when the device operation switch is turned off, after stopping the fuel valve. When the temperature is lower than the temperature, the blower fan may be further configured to stop the exhaust gas in the burner.

The object further includes a burner for burning fuel, a fuel valve for regulating the supply of fuel to the burner, a burner fan for discharging combustion gas generated from the burner, and the intake air to the interior via the burner. A heating apparatus of an air conditioner having a blowing fan for discharging, comprising: a burner temperature detection sensor; An indoor temperature detection sensor; After turning on the machine operation switch, when the burner temperature detected by the burner temperature detection sensor exceeds a predetermined blowing fan operating temperature, the operation of the blowing fan is started, and the room temperature detected by the room temperature detection sensor is started. Is blocked by the fuel valve when the predetermined temperature exceeds a predetermined temperature, the operation of the blower is achieved by a heating device of the air conditioner, characterized in that it comprises a control unit including a control unit for maintaining.

The control unit preferably stops the blower fan when the burner temperature becomes lower than a predetermined blower fan stop temperature after the fuel valve is shut off when the device operation switch is turned off.

In addition, the control unit is to continue the operation of the burner fan for a predetermined time after the shut-off of the fuel valve, and to stop, while at the time of turning off the machine operation switch, after shutting off the fuel valve, for a predetermined time It is preferable to maintain the operation of the burner fan and to stop the exhaust gas so as to completely discharge the waste gas in the burner.

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

1 is a front view schematically showing an embodiment of the air conditioner according to the present invention, in which the heating device of the air conditioner is shown. This air conditioner (1), as described in relation to a conventional air conditioner, is equipped with a cooling unit for cooling air generation and a heating unit for warm air generation (not shown) in the main body casing (3), heating by the user Selective operation of the switch provides warm air to the room.

The heating device 11 of the air conditioner includes a burner 13 for accommodating external air and burning fuel, a heat exchanger 15 installed on the burner 13, a fuel pump 21 for fuel supply, and And exhaust pipe 19 for discharging the waste gas generated after fuel combustion. In addition, the fuel supplied to the burner is ignited by the operation of an ignition transformer (not shown), and the indoor air is sucked by the blower fan 17 to be blown into the burner and the heat exchanger, and the circulation process is discharged again to the room. On the other hand, the waste gas discharged through the exhaust pipe 19 by the operation of the burner fan (not shown) is purified by the purification unit 23 and then discharged to the outside.

Figure 2 is a control block diagram of Figure 1, Figure 3 is a functional system diagram schematically showing the operating state of the present invention. In the state where a current is applied through the power supply unit 32, the control unit 31 is controlled from the on-signal and temperature detection unit 34 of the heating operation switch from the operation operation unit 33, and the ignition detection unit 39. Receive the output signal. On the other hand, the operation state is displayed through the display unit 35 and outputs control signals to the burner fan driver 36, the ignition transformer driver 37, the fuel pump driver 38, and the blower fan driver 40.

When power is supplied to the power supply unit 32 and the operation switch is turned on after the set temperature and air volume are input to the operation control unit 33, the control unit 31 outputs and sets the output signal of the temperature sensing unit 34 that senses the room temperature. Compare the temperature in the comparator. At this time, if the set temperature is high, the control unit 34 outputs a control signal to drive the burner fan 9 to introduce external air into the burner 13, to drive the ignition transformer 7, and to control the ignition transformer. In the state where (7) is ignited, the fuel pump 21 is operated to inject fuel into the burner 13. The fuel 10 from the fuel tank (not shown) removes dust and impurities from the oil strainer 5. Then, the fuel injected by the fired ignition transformer 7 is ignited and burned in the burner 13.

Then, after the predetermined time has elapsed, the control unit 31 drives the blower fan 17 to suck air in the room into the main body casing, and discharges it through the discharge port through the burner 13 and the heat exchanger 15. At this time, the discharged air is heat exchanged through the burner 13 and the heat exchanger 15, whereby the room is maintained at a temperature set by the user by repeated heat exchange of the air.

4 is a flowchart of a power-on state according to an operation control method of an air conditioner of the present invention. The operation control method of the air conditioner 1 is the same as described with reference to FIG. 6 of the related art. In this case, prepurge control is performed to supply hot air. First, the control unit 31 compares the set temperature with the room temperature (S4), and when the set temperature is high, the burner fan 9 is driven to supply external air into the burner 13 (S5). When the time of about 80 seconds has elapsed (S6), the ignition transformer 7 is driven (S7), and after 5 seconds (S8), the fuel pump 21 is driven to inject fuel into the burner 13 (S9). . The injected fuel is ignited by the ignited ignition transformer 7, and when an output signal from an ignition detection sensor (not shown) is applied (S10), the control unit 31, after about 20 seconds (S11), the ignition transformer ( 7) is stopped (S12). The injected fuel is continuously burned in the burner 13, and the burner 13 gradually increases its temperature.

On the other hand, when the temperature of the burner 13 increases to about 45 ° C. or more (S13), the burner temperature sensor sends an output signal to the control unit 31 to drive the blower fan 17 (S14). . The blowing fan 17 sucks air in the room, heat-exchanges with the warmth from the burner 13 and the heat exchanger 15, and then discharges it back to the room through the discharge port. As a result, the temperature of the room gradually increases. At this time, if the indoor temperature is more than the set temperature (S15), the control unit 31 determines whether the operation switch is on or off (S16).

When the operation switch is turned on, the control unit 31 stops the operation of the fuel pump 21 by the output signal of the indoor temperature detection sensor (S17). Then, the temperature of the burner 13 gradually decreases due to the stop of fuel supply, and in this case, the blower fan 17 of the heating device 11 of the present air conditioner 1 is continuously driven. That is, in the conventional blower fan, when the temperature of the burner 13 drops to a temperature of about 30 ° C. or less (S18), the operation of the blower fan is stopped, but the blower fan 17 according to the present invention is a burner ( Even if the temperature of 13) is 30 degrees C or less, it is controlled to drive continuously. Thus, the air in the relatively cold room is sucked and exchanged with the burner 13 and the heat exchanger 15 and then discharged. On the other hand, when the temperature of the burner 13 becomes 30 degrees C or less (S18), after about 60 second (S19), the drive of the burner fan 9 will be stopped (S20). As a result, the waste gas generated after combustion is completely discharged.

Then, while the blower fan 17 is operating, when the temperature of the room becomes lower than the set temperature (S3), the burner fan 9 is operated by the output signal of the indoor temperature switch (S5), and then ignition The driving of the transformer 7 and the operation of the fuel pump 21 (S9) allow the combustion of the fuel supplied into the burner 13 to proceed again. In addition, the interior of the room is maintained at the set temperature by the control proceeds according to the above process.

On the other hand, if the power of the operation switch is turned off while the operation of the device is in the ON state of the operation switch, the device is operated according to the post-purge control as shown in the flowchart of FIG. First, when the operation switch is turned off (S16), the driving of the fuel pump 21 is stopped to stop the fuel supply in the burner 13 (S21). At this time, when the burner fan 9 is not driven, the burner fan 9 is driven (S22). Then, by sensing the temperature of the burner 13 (S23), when the temperature of the burner 13 is 45 ℃ or more drive the blower fan 17 to discharge the warm air into the room (S24), the burner 13 continuously When the temperature of the blowing fan 17 is 30 ° C. or less by sensing the temperature of the step S25, the driving of the blowing fan 17 is stopped (S26). On the other hand, when the temperature of the burner 13 is 45 degrees C or less (S23), the blower fan 17 is driven until it determines the temperature of the burner 13 to 30 degrees C or less (S24).

When the blower fan 17 is stopped (S26), it is determined whether 1 minute has elapsed since the stop of the driving of the fuel pump (S21) (S27). At this time, when one minute has elapsed, the burner fan 9 is stopped (S28). As a result, after the fuel supply is interrupted in the burner 13, the fuel is burned and the exhaust gas generated is completely discharged.

This heating device 1 according to the configuration and operation control method, the operation of the blower fan 17 is continuously made after the first drive, even if the burner temperature is 30 ℃ or less, relatively high burner 134 and heat exchange The heat exchange between the ambient air and the indoor air of the air 15 may be performed to increase heating efficiency, and power consumption may be reduced due to repeated on / off operations of the blower fan 17.

Further, in the post purge control step, the burner fan 9 is operated for about 1 minute after the driving stop of the fuel pump 21, and thus the waste gas is completely discharged in the burner 13.

As described above, according to the heating apparatus of the air conditioner and the operation control method of the heating apparatus of the present invention, the heating efficiency is improved, the power consumption of the apparatus is lowered even in a low temperature region, and the risk of fuel incombustibility and explosion There is no excellent effect provided.

Claims (7)

A burner for burning fuel, a fuel valve for regulating the supply of fuel to the burner, a burner fan for discharging combustion gas generated in the burner, and a blower fan for discharging the intake air to the room via the burner In the heating device operation control method of the air conditioner, Turning on the heating condition input and the device operation switch; Operating the burner fan; Igniting the burner after opening the fuel valve; Detecting a temperature of the burner; Operating the blower fan when the burner temperature exceeds a predetermined blower fan operating temperature; Detecting an indoor temperature; When the indoor temperature exceeds a set temperature according to the heating condition, shutting off the fuel valve and maintaining operation of the blowing fan; And controlling the burner fan to continue for a predetermined time after the fuel valve is shut off, and then stopping the fuel valve. The method of claim 1, And turning off the fuel valve, and then stopping and maintaining the operation of the burner fan for a predetermined time when the appliance operation switch is turned off. The method of claim 2, And stopping the blower fan when the burner temperature is lower than a predetermined blower fan stop temperature after the fuel valve is shut off when the appliance operation switch is turned off. How to control device operation. A burner for burning fuel, a fuel valve for regulating fuel supply to the burner, a burner fan for discharging combustion gas generated from the burner, and a blower fan for discharging the intake air to the room via the burner In the heating device in the air conditioner, Burner temperature detection sensor; An indoor temperature detection sensor; After turning on the machine operation switch, when the burner temperature detected by the burner temperature detection sensor exceeds a predetermined blowing fan operating temperature, the operation of the blowing fan is started, and the room temperature detected by the room temperature detection sensor is started. And a control unit which shuts off the fuel valve when the temperature exceeds a predetermined set temperature and maintains the operation of the blower. The method of claim 4, wherein And the control unit stops the blower fan when the burner temperature is lower than a predetermined blower fan stop temperature after the fuel valve is shut off when the appliance operation switch is turned off. The method of claim 5, The control unit is a heating device of the air conditioner, characterized in that for stopping after the operation of the burner fan for a predetermined time after the shut-off of the fuel valve. The method of claim 6, The control unit is a heating device of the air conditioner, characterized in that when the turn off the device operation switch, the fuel valve is shut off, and then the burner fan is maintained for a predetermined time and stopped.