KR0125730B1 - Control circuits and method of airconditioner therefor - Google Patents

Abstract

To be able to control the humidity according to seasons, this air conditioner comprises such parts as these ; the system controller(30) which controls the amount detection part(55) and peripheral devices, the fan motor drive control part(50) which drives the fan motor for the inhaled room air to be vented, the heat exchange filter drive part which operates the heat exchange filter for exchanging the room air to cool, warm air(70), the dust collector drive part(80) able to function as cleaner and the dehumidifier, the heater drive part which regulates the temp of water to proper degree by operating the heater(90), the buzzer drive part which drives the buzzer(60), and the indication part(40) that indicates the selected operation direction.

Description

Control circuit and method of air-conditioning air conditioner

1 is a schematic diagram of a conventional heating and cooling air conditioner control circuit.

2 is a schematic diagram of a heating and cooling air conditioner control circuit according to the present invention.

3 is an operation flowchart of a heating and cooling air conditioner employing the control circuit shown in FIG.

* Explanation of symbols for the main parts of the drawings

10: AC / DC converter 11: radio speaker

20: operation control unit 30: system controller

40: display unit 50: fan motor drive control unit

55: quantity detector 57: mercury detector

60 buzzer drive unit 70 heat exchange filter drive unit

80: dust collector driving unit 90: heater driving unit

The present invention relates to a control circuit and a method of a heating and cooling air conditioner, and more particularly, to control the operation of a heat exchange filter, a fan (FAN), a dust collector and a heater according to the operation selection of the heating and cooling air conditioner, comfortable and convenient The present invention relates to a control circuit capable of executing a cooling and heating function and a method thereof.

In the above, the control circuit and its method are applied to a cooling and heating air conditioner, which is the applicant's patent application (Application No. 92-7737).

In general, the operation control circuit of a conventional air-conditioning air conditioner that sucks indoor air, converts it into cold / hot air, and discharges it into a room has an outline as shown in FIG.

In FIG. 1, the AC / DC converter 1 converts AC power into DC power so that the system controller 2, the driving control unit 3, the fan motor driving control unit 4, the heat exchange filter driving unit 5 and the heater driving unit (6) is applied to each power input terminal, the system controller (2) is input to the data selected by the operation control unit (3), the system controller (2) in accordance with this data the fan motor drive control unit (4) And the heat exchange filter driver 5 and the heater driver 6 are connected.

The operation of the air-conditioning and air conditioner employing the control circuit as described above is determined by the selection of each function switch provided in the operation control unit 3.

That is, when any one of the strong, medium, and weak air volume switches installed in the driving control unit 3 is selected, the corresponding data is applied to the input port I1 of the system controller 2, and according to the input data. The system controller 2 executes a program stored therein and supplies the result to the fan motor driving controller 4 through the output port O1. Therefore, the fan motor drive control unit 4 rotates the fan motor in accordance with the selected air volume by operating a switch such as a relay.

When the user selects the cold air switch installed in the operation control unit 3 in this state or the initialization state, the corresponding data is applied to the input port I1 of the system controller 2, and accordingly the system controller 2 A predetermined control signal is output to the output ports O1 and O2 by executing a program stored therein. Therefore, since the fan motor drive control unit 4 and the heat exchange filter drive unit 5 are operated, the indoor air is sucked and heat-exchanged with cold air and then discharged into the room.

On the other hand, when the user selects the hot air switch installed in the operation control unit 3, the data corresponding thereto is applied to the system controller 2, accordingly, the system controller 2 executes a program stored therein to output the output port O1. A predetermined control signal is output to (O2) (O3). That is, the control signal output from the output port O1 of the system controller 2 is supplied to the fan motor drive control unit 4 to operate the fan motor as described above, and the control signal output from the output port O2 is heat exchanged. It is supplied to the filter driver 5 to operate the heat exchange filter, and a control signal output from the output port O3 is applied to the heater driver 6 to operate the heater. Therefore, the sucked indoor air is heat-exchanged with warm air by the heat exchange filter and discharged into the room.

The air conditioning and air conditioner employing the control circuit operating as described above can not control the indoor humidity according to the season because almost constant moisture is mixed and discharged in the air when changing the sucked indoor air from the heat exchange filter to cold and hot air, Since the operation of the heater continues during the warm air, there was a disadvantage that the water temperature (temperature of the water in the water tank) cannot be kept constant.

Therefore, the main purpose of the present invention is to adopt a cooling and heating air conditioner to control the operation of the heat exchange filter, fan, dust collector and heater according to the operation selection of the system to control the indoor humidity and to maintain the temperature of the water in the air conditioner at a comfortable level To provide a control circuit that performs a convenient heating and cooling function.

Another object of the present invention is to provide a method of controlling a heating and cooling air conditioner so as to realize a dehumidification and humidification function during cold and warm air and to obtain an appropriate temperature during warm air.

In order to achieve the above object, the control circuit according to the present invention provides a water tank in a cooling / heating air conditioner based on data output from an operation control unit for selecting a driving direction of a system and output data of a water temperature detection unit for detecting a temperature of water in the water tank. A system controller for controlling the quantity of water present and a system controller for controlling the peripheral device, and the output signal of the system controller when the air temperature is appropriately selected by selecting the air volume, the blowing air, the cold air, and the warm air from the driving operation unit. A fan motor drive control unit for driving the fan motor to discharge the indoor air sucked by the fan motor, and when the cool air is selected in the driving operation unit and the amount of water is above a certain value and the warm air is selected, and the amount of water is above a certain value and the temperature of the water Is within the proper value, the operation is controlled by the system controller to exchange the sucked indoor air with cold / hot A heat exchange filter driving unit for operating a heat exchange filter so that the air blower and cold air are selected from the operation control unit, and the dust collector driving unit is controlled by a system controller when the amount of water is above a predetermined value to operate the dust collector to perform a clean function and a dehumidification function; When the warm air is selected in the operation control unit and the amount of water is appropriate and the temperature of the water is within the proper value, the heater driving unit is controlled by the system controller to operate the heater to the proper temperature of the water, and the quantity detecting unit and the water temperature detecting unit The buzzer driver is operated by a system controller which compares the input data with the reference value data set in the internal program and outputs the result, and the buzzer driver which drives the buzzer and the operation direction selected by the operation operator by the system controller to the outside. It consists of a display part to display And a gong.

In addition, the operation control method of the air-conditioning and air conditioner is to input the corresponding data when the user wants to select either the strong, medium, or weak air volume to operate the system. If you want to set the air flow control step to control the rotation speed and the operation of the system to the blowing function during the air flow control step, input the corresponding data to set the rotation speed of the fan and operate the dust collector. If the data is input to control the blowing function control step and the cold air function to operate the system while performing the step, it is determined whether the amount of water in the water tank installed in the air conditioner is a constant value. A cold air function control step of operating the heat exchange filter and the dust collector, On the way, if the data is input to make the operation of the system the warm air function, it determines whether the amount of water in the water tank is a constant value, and if it is below a certain value, it drives the buzzer, and if it is above a certain value, a warm air function control step for operating the heater, After the heater is activated in the function control step, it is determined whether the water temperature in the water tank is at the proper temperature. If the temperature is less than the optimum value, the fan motor is stopped. And a heater driving step of stopping the operation of the heater when the temperature of the water in the water tank is greater than or equal to the appropriate value and performing the heater when the temperature is less than the proper value during the temperature determination step of the water.

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

2 is a schematic diagram of a heating and cooling air conditioner control circuit according to the present invention, wherein the system controller 30 inputs data output from the driving control unit 20 to detect the quantity and temperature of water in the water tank 55. And a water temperature detector 57 and a peripheral device.

The fan motor driving control unit 50 is controlled by the system controller 30 when the temperature of the water is appropriate at the time of selecting the air volume, blowing and hot air selection of the strong, medium, and weak air in the operation control unit 20 to drive the fan motor. It is configured to discharge the sucked indoor air into the room.

The heat exchange filter driving unit 70 is connected to the system controller 30 when the cold air is selected in the operation control unit 20 and the amount of water is above a certain value and the warm air is selected, the amount of water is above a certain value and the temperature of the water is within an appropriate value. It is configured to operate the heat exchange filter so that the operation is controlled to heat exchange the sucked indoor air to air-conditioning.

The dust collecting mechanism 80 is configured to operate the dust collector by controlling the system controller 30 when the air blowing is selected in the driving operation unit 20 and the cold air is selected so that the amount of water is a certain amount or more.

The heater driving unit 90 is configured to operate the heater when the warm air is selected in the driving operation unit 20 and the amount of water is appropriate and at the same time the water temperature is within an appropriate value to set the temperature of the water to an appropriate value.

The buzzer driver 60 is operated by the system controller 30 which compares the data input from the water quantity detector 55 and the water temperature detector 57 with the reference value data set in the internal program and outputs the result to drive the buzzer. It is composed.

On the other hand, the display unit 40 is to display the driving direction selected by the operation control unit 20 by the system controller 30, the AC power is the DC power through the AC / DC converter 10 and then different output voltage It is supplied to two regulators (not shown) that output (12V, 5V), and the output voltage of this regulator is supplied to the operating power of the system controller 30, the radio speaker 11, and the peripheral device. have.

Referring to the control circuit of the present invention having the configuration as described above with reference to the flow chart shown in FIG.

2 is a schematic diagram of a heating and cooling air conditioner control circuit according to the present invention, Figure 3 is a flow chart of the operation of the heating and cooling air conditioner.

In the control circuit of the heating and cooling air conditioner shown in FIG. 2, the system controller 30 controlling the system according to the switch selected by the driving control unit 20 performs step S1 to perform a step S1. For example, when the air volume switch corresponding to the river is selected, the system controller 30 performs a step S2 to supply a drive signal to the fan motor drive controller 50 to rotate the fan motor to the river. If the switch corresponding to the river is not selected, step S3 is performed to determine whether the corresponding air volume switch is selected. As a result of performing step S, if the switch selected in the driving operation unit 20 is the air volume switch corresponding to the system controller 30, the drive signal is supplied to the fan motor drive control unit 50 to perform the step S4 to rotate the fan motor to the middle. To supply.

On the other hand, if a switch other than the corresponding air volume switch is selected from the result of performing step S3, it is determined whether the air volume switch corresponding to the medicine is selected by performing step S5. If the air volume switch corresponding to the medicine is selected as a result of performing step S5, the fan motor drive control unit 50 is controlled to rotate the fan motor to about by performing step S6, and conversely, a switch other than the air volume switch corresponding to the medicine. If is selected, the system controller 30 performs step S7. Therefore, the air volume discharged from the air conditioner is controlled to be strong, medium or weak.

Step S7 determines whether the switch selected by the operation control unit 20 is a blowing function switch. For example, when the blowing function switch is selected, the system controller 30 outputs the fan motor drive control unit (O1) to the output port O1 (O6). 50) and the control signal of the dust collector driver 80.

Therefore, the fan motor driving control unit 50 is operated to rotate around the fan motor, and the dust collector driving unit 80 is operated so that the air discharged during blowing is cleaned by the dust collector.

If the cold air switch is selected in the operation control unit 20 during the step S7 or in the initial state, the system controller 30 detects this in step S9, and the amount of water detected by the water quantity detection unit 55 exceeds a predetermined value. The application is determined in step S10.

If the result of the determination in step S10 is not greater than a certain amount of water, the system controller 30 performs step S11 to apply a buzzer driving signal output from the output port O7 to the buzzer driver 60 to operate the buzzer. Notify the replenishment of the water to the outside. If the result of the determination in step S10 is that the amount of water is equal to or less than a predetermined value, the system controller 30 performs step S12 to output respective driving signals to the output ports O1, O5, and O7. Therefore, the fan motor driving control unit 50, the heat exchange filter driving unit 70, and the dust collector driving unit 80 are operated so that the sucked indoor air is heat-exchanged with cold in the heat exchange filter, and is cleaned in the dust collector and discharged.

On the other hand, if the hot air switch is selected in the operation unit 20 is detected in the process of performing step S13 and the system controller 30 performs the step S14 to operate the water quantity detection unit 60, the amount of water currently remaining in the water tank The data corresponding to the received from the input port 12. As such, when data corresponding to the amount of water remaining in the water tank is input, the system controller 30 performs step S15 to compare the amount of water remaining in the current water tank with a reference value set in the internal program. As a result of performing step S15, if the amount of remaining water is equal to or less than a predetermined value, the system controller 30 performs step S16 to supply a buzzer driving control signal output from the output port O4 to the buzzer driver 60 to supply a buzzer. Operate to replenish water.

When the amount of water remaining in the step S15 is equal to or greater than a predetermined value, the system controller 30 performs the step S17 to supply and operate the heater driving control signal output from the output port O7 to the heater driving unit 90 so as to operate. Raise the temperature of the water.

In the process of increasing the temperature of the water in the water tank as described above, the system controller 30 performs the step S18 to operate the water temperature detector 57 and receives the output signal of the water temperature detector 57 as the input port I3. Step S19 is performed to compare and discriminate with the appropriate temperature (e.g., 60 to 90 DEG C) set on the internal program.

As a result of the determination in step S19, if the temperature of the water detected by the water temperature detection unit 57 is not an appropriate value, the system controller 30 performs step S20 to output the stop control signal output from the output port O1 to the fan motor drive control unit ( 50) to stop the rotation of the fan motor.

When the temperature of the water detected and output by the water temperature detector 57 is within an appropriate value as a result of performing step S19, the system controller 30 performs step S12 to be output from the output ports O1, O5, and O7. Since the control signal is supplied from the heat exchange filter driving unit 70, the heater driving unit 70, and the fan motor driving control unit 50, the filter, the heater, and the fan motor are operated to heat and discharge the sucked indoor air with warm air.

While performing the step S21 to operate the heater driver 90, the system controller 30 determines whether the water temperature of the water tank detected by the water temperature detector 57 is equal to or greater than an appropriate value by performing step S22. If the detected temperature of the water is equal to or more than an appropriate value, the system controller 30 performs step S23 to supply a stop control signal output from the output port O7 to the heater driver 90 to stop the operation of the heater. If the detected temperature of the water is lower than the proper value, the system controller 30 detects it in step S24 and then performs step S25 to operate the heater driver 90 so that the temperature of the water in the water tank is increased, so that the constant temperature is always constant. Warm air in the range is discharged.

The present invention operating as described above is provided with a sensing unit for detecting the temperature of the water in the water tank installed in the cold, heating air conditioner to properly control the heater operation when selecting the hot air, so that the hot air with a temperature within a certain range always It is discharged and has a water quantity detector in the water tank and knows when to replenish water from the outside according to the operation of the buzzer drive unit operated by the output signal of the quantity detector. There is an advantage that can be controlled according to the humidity.

Claims (2)

The internal program is executed according to the data output from the operation control unit 20 which selects the operation direction of the system and the output data of the water temperature detection unit 57 which detects the temperature of the water in the water tank so that the water in the water tank in the air conditioner Water quantity detection unit 55 for detecting the quantity and the system controller 30 for controlling the peripheral device, and the air flow selection of the air, medium and weak, and blowing, cold and warm air are selected in the operation operation unit 20 to reduce the temperature of the water The fan motor drive control unit 50, which is controlled by the system controller 30 and thus drives the fan motor to discharge the suctioned indoor air, and the cold air is selected from the driving control unit 20 and the amount of water is selected. When the temperature is above a certain value and the warm air is selected and the amount of water is above a certain value and the temperature of the water is within the proper value, the operation is controlled by the system controller 30 to cool and inhale the indoor air. Heat exchange filter driving unit 70 for operating the heat exchange filter to heat the heat on, and when the blowing air and cold air is selected in the operation operation unit 20 is controlled by the system controller 30 when the amount of water is above a certain value to operate the dust collector It is controlled by the system controller 30 when the dust collector driving unit 80 to perform the clean function and the dehumidifying function, and the warm air is selected from the driving operation unit 20 and the amount of water is appropriate and the temperature of the water is within an appropriate value. Comparing the heater drive unit 90 to operate the heater so that the temperature of the water is an appropriate value, the data input from the water quantity detection unit 55 and the water temperature detection unit 57 and the reference value data set in the internal program, and outputs the result. The buzzer driver 60 operated by the system controller 30 to drive the buzzer, and the driving direction selected by the driving operator 20 by the system controller 30. Copper by this control of the heating and cooling air conditioner, characterized in that a display unit 40 for display to an external circuit. If the user wants to select one of the strong, medium, and weak air flows when the system is operated, the air volume control step of controlling the rotational speed of the driving motor to drive the fan according to the input data is provided. If you want to set the operation of the system to the blowing function while performing the air volume control step, input the corresponding data, and the fan speed control step to operate the dust collector at the same time, and to perform the step If you want to set the operation of the system to the cold wind function in the middle, input the corresponding data and determine if the amount of water in the water tank installed in the air conditioner is constant. A cold air function control system for operating the heat exchange filter and the dust collector; If you want to select the operation of the system as the warm air function, input the corresponding data to determine whether the water volume in the water tank is a constant value. After the heater is operated in the control step and the warm air function control step, it is determined whether the water temperature in the water tank is at the proper temperature. If the temperature is less than the optimum value, the fan motor is stopped. And a heater driving step of stopping the operation of the heater when the temperature of the water in the water tank is higher than or equal to the proper value during the temperature discrimination step of the water to be operated, and operating the heater when the temperature is lower than the proper value. Control method of heating and cooling air conditioner.