KR20040021447A - Apparatus for controlling blowoff force of air-conditioner used both cooler and heater and method thereof - Google Patents

Abstract

PURPOSE: A device and a method for controlling the wind direction of an air conditioner for both cooling and heating are provided to directly measure a temperature of air discharged from the air conditioner in the beginning of heating by using a temperature sensor mounted to a discharge hole, so that the air conditioner is driven by a set wind force when the sensed temperature is higher than a set temperature. CONSTITUTION: A device for controlling the wind direction of an air conditioner for both cooling and heating includes a temperature sensor(300) mounted to a discharge hole of the air conditioner for measuring the temperature of discharged air. A user set a discharge temperature and a wind force for initial hot wind via an input part(310). A fan motor(330) drives a blower fan(340) to discharge the heated air to a room. A control part(320) compares the input set temperature with the discharge temperature sensed by the temperature sensor and controls the fan motor according to the set wind force.

Description

Airflow control device for air conditioning and air conditioning and control method {APPARATUS FOR CONTROLLING BLOWOFF FORCE OF AIR-CONDITIONER USED BOTH COOLER AND HEATER AND METHOD THEREOF}

The present invention relates to a device for controlling air volume of a combined air-conditioning and control method, and more particularly, by installing a temperature sensor at a discharge port of a combined air-conditioning and air-conditioning, and directly measuring a discharge temperature of warmth discharged at the time of heating operation. The present invention relates to an air conditioner and a control method for a combined air-conditioning and air conditioner that operate at a set wind volume when higher.

In general, the air conditioner uses the phenomenon of absorbing the surrounding heat when the liquid evaporates, and performs cooling as well as dehumidification. By the way, in the case of air-conditioning combined air-conditioning and cooling and heating, the circulation path of the refrigerant is reversed so that the heat is absorbed and released into the room during the heating operation, and the heat is absorbed and released into the outdoor during the cooling operation. .

As the frost is formed on the outdoor heat exchanger coil during the evaporation process of absorbing the surrounding heat in the outdoor heat exchanger during the heating operation of the combined air-conditioning and air conditioning, the defrosting operation is performed to remove the frost.

1 is a refrigerant circulation diagram of a general air-conditioning combined air conditioner.

As shown here, the outdoor unit 20 includes a compressor 210 for compressing a refrigerant, and four sides 240 for changing a circulation path of the refrigerant at an output end of the compressor 210. In addition, an outdoor heat exchanger 40 having one side connected to the four sides 240 to heat exchange outdoors, and an indoor heat exchanger 30 having one side connected to the four sides 240 performing heat exchange indoors, and indoor heat exchange The pressure reducing device 50 is provided between the other side of the device 30 and the other side of the outdoor heat exchanger 40.

In addition, the indoor heat exchanger (30) is provided with an indoor temperature sensor (110) for measuring the indoor temperature, and an indoor heat exchanger coil temperature sensor (120) for measuring the coil temperature of the indoor heat exchanger (30). 40, an outdoor temperature sensor 260 for measuring an outdoor temperature and an outdoor heat exchanger coil temperature sensor 270 for measuring a coil temperature of the outdoor heat exchanger 40 are installed.

Looking at the coolant net environmental path of the air-conditioning combined air conditioning as described above are as follows.

First, during the cooling operation, that is, the refrigerant compressed by the compressor as shown by the solid arrow is flowed into the outdoor heat exchanger 40 as the path is set to flow from the four sides 240 to the outdoor heat exchanger 40. After dissipating the heat is sent to the decompression device 50, and again to the indoor heat exchanger (30) is evaporated in a gaseous state in the liquid state is made of heat exchange to absorb the surrounding heat is made through the compressor again through the four sides (240) Sent to 210 to cycle.

At this time, since the indoor heat exchanger 30 installed in the room absorbs the surrounding heat, the room is cooled.

Next, during the heating operation, the refrigerant compressed by the compressor 210 flows to the indoor heat exchanger 30 as the refrigerant flows from the four sides 240 to the indoor heat exchanger 30 as shown by the dotted arrow. After the heat is released to the decompression device 50 is sent to the outdoor heat exchanger 40 again evaporated in the gaseous state in the liquid state is made of heat exchange to absorb the surrounding heat is made through the four sides (240) It is sent back to the compressor 210 to circulate.

At this time, since the heat contained in the refrigerant is released from the indoor heat exchanger 30 installed in the room, the room is heated.

The air conditioner is provided with a discharge port for discharging air cooled and heated, the discharge port is rotated by a plurality of horizontal wings operated by an induction motor to control the wind direction of the cold and warm air from the interior of the indoor unit in the vertical direction as a wind direction control device It is equipped with a plurality of vertical wings which are operated by an induction motor so as to control the wind direction of cold and warm air in the left and right directions.

On the other hand, in order to prevent cold air from occurring during the initial operation during heating operation of a combined air-conditioning and air-conditioning air conditioner, the user measures the temperature of the indoor heat exchanger while blowing at a low air flow rate below the air flow rate set by the user. Air is blown at the air volume set by the user.

However, since the air is blown in accordance with the measured value of the temperature sensor installed in the tube of the indoor heat exchanger, the cooling fins of the indoor heat exchanger are not normally heated during the heating overload operation due to the change of the outdoor temperature or the initial heating operation after the defrosting operation. Since the air is blown in a state where there is no cold air is sent out, there is a problem that the discontent of the consumer increases.

The present invention was created to solve the above problems, an object of the present invention is to install a temperature sensor in the outlet of the air conditioning combined with air conditioning and heating to directly measure the discharge temperature of the warm air discharged during the heating operation higher than the set temperature The present invention provides a device for controlling air volume of a combined air-conditioning and air conditioner to operate at a set air volume, and a control method thereof.

1 is a refrigerant circulation diagram of a general air-conditioning combined air conditioner.

Figure 2 is a block diagram showing a simplified configuration of the airflow control apparatus for a combined air conditioning and air conditioner according to the present invention.

3 is a view showing an installation state of the discharge temperature sensor of the airflow control apparatus of the air-conditioning combined air conditioner according to the present invention.

Figure 4 is a flow chart for explaining the air volume control method of a combined air conditioning and air conditioner according to the present invention.

-Explanation of symbols for the main parts of the drawings-

300: discharge temperature sensor 310: input unit

320: control unit 330: fan motor

340 blower fan 350 discharge port

In order to achieve the above object, the airflow control device of the combined air-conditioning and cooling system of the present invention is installed at the outlet of the air-conditioning combined air-conditioning and discharge temperature sensor for measuring the discharge temperature of warmth, and for setting the discharge temperature and air volume of the initial warmth. A control unit for controlling the fan motor according to the set air volume by comparing the input unit, a fan motor for driving a blower fan for discharging the heated warm air into the room, and the discharge temperature measured by the set temperature input from the input unit and the discharge temperature sensor. Characterized in that consisting of.

In addition, the air volume control method of the combined air-conditioning and air-conditioning method is to set the heating operation air flow rate and the discharge temperature of the warm air initially discharged, to determine the operating state of the air-conditioning combined air-conditioning, and to determine that the operation state is restarted during heating operation In the case of operating the fan motor at a low speed, measuring the discharge temperature through the discharge temperature sensor installed in the discharge port while operating at a low speed, and comparing the measured discharge temperature and the set discharge temperature, the measured result When the discharge temperature is higher than the set discharge temperature, it characterized in that the step of operating the fan motor at the set amount of air.

The discharge temperature set above is characterized in that more than 35 ℃.

The present invention made as described above measures the warmth discharged through the discharge temperature sensor installed in the discharge opening in the control of the amount of air discharged during the initial heating operation in the air-conditioning combined air conditioning not reach the set temperature similar to the human body temperature If not, the fan motor is operated at a low speed to adjust the air volume, and after reaching the set temperature, the fan motor is operated to blow air at the air volume set by the user. It is possible to eliminate the discomfort.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. In addition, the present embodiment is not intended to limit the scope of the present invention, but is presented by way of example only and the same parts as in the conventional configuration using the same reference numerals and names.

Figure 2 is a block diagram showing a simplified configuration of the airflow control apparatus for a combined air conditioning and air conditioner according to the present invention.

As shown here, the discharge temperature sensor 300 for measuring the discharge temperature of the warmth is installed in the discharge port 350 of the combined air-conditioning and heating.

Then, the input unit 310 for setting the discharge temperature and the air volume of the initial warmth, the fan motor 330 for driving the blower fan 340 for discharging the heated warm air into the room, and the discharge set in the input unit 310 The controller 320 is configured to control the fan motor 330 according to the set air volume by comparing the discharge temperature Ts measured by the temperature To and the discharge temperature sensor 300.

As shown in FIG. 3, the discharge temperature sensor 300 may directly measure the warmth discharged by being installed at one side of the discharge port 350.

Referring to the flow chart for explaining the air flow control method of the air-conditioning combined air conditioner shown in Figure 4 to explain the operation of the air conditioning control device of the combined air conditioning and air conditioner according to the present invention as follows.

First, not only the air volume of the warm air discharged during the heating operation but also the discharge temperature To of the warm air discharged during the initial heating operation are set (S10).

At this time, by setting the discharge temperature (To) to 35 ℃ similar to the human body temperature, it is set to a temperature that can feel the warmth without feeling cold when the wind.

Then, it is determined the operating state of the combined air conditioning and heating (S20).

At this time, the air-conditioning combined air conditioner is set to the heating operation, and stops the operation during the heating operation is restarted or operated in the initial heating operation to operate the fan motor 330 at low speed (S30) (S40).

As such, while operating the fan motor 330 at a low speed, the discharge temperature Ts of the warmth discharged through the discharge temperature sensor 300 installed in the discharge port 350 is measured (S50).

Then, the measured discharge temperature Ts is compared with the set discharge temperature To (S60).

As a result of the comparison, when the measured discharge temperature Ts is higher than the set discharge temperature To 35 ° C., the fan motor 330 is operated with the set air volume so that the user can immediately feel the warmth (S70).

As described above, in the present invention, the temperature sensor is installed at the outlet of the air conditioner for both heating and cooling to measure the discharge temperature of the warmth discharged at the initial stage of the heating operation, and the set air volume is higher than the set temperature set to a temperature similar to the human body temperature. By operating in the heating operation is stopped and restarted after the heating operation or the warming discharged during the initial operation to have a warm feeling similar to the human body temperature has the advantage that the comfortable heating is made.

Claims (3)

A discharge temperature sensor installed at a discharge port of a combined air-conditioning and heating unit for measuring a discharge temperature of warmth; An input unit for setting the discharge temperature and the air volume of the initial warmth, A fan motor for driving a blowing fan for discharging the heated warmth to the room, Control unit for controlling the fan motor according to the set air volume by comparing the set temperature input from the input unit and the discharge temperature measured by the discharge temperature sensor Airflow control device for a combined air conditioning and heating, characterized in that consisting of. Setting a heating operation air volume and a discharge temperature of warmth discharged initially; Determining an operating state of a combined air-conditioning and heating unit, Operating the fan motor at a low speed when it is restarted during the heating operation as a result of determining the operation state; Measuring the discharge temperature through a discharge temperature sensor installed at the discharge port while operating at a low speed; Comparing the measured discharge temperature with the set discharge temperature; When the measured discharge temperature is higher than the set discharge temperature as a result of the comparison, operating the fan motor at the set flow rate Airflow control method for a combined air conditioning and heating, characterized in that consisting of. The method of claim 2, wherein the set discharge temperature is 35 ° C. or higher.