KR20100059522A - A control method of an air conditioner - Google Patents

Abstract

PURPOSE: A control method of an air-conditioner is provided to estimate outdoor temperature using the inner temperature of an outdoor unit if an outdoor temperature sensor measuring outdoor temperature is out of order. CONSTITUTION: A control method of an air-conditioner comprises the following steps. If it is determined that while an outdoor unit runs, a first sensor(100) measuring an outdoor temperature is out of order, then the operation of the outdoor unit stops. The inner temperature of the outdoor unit is measured using a second sensor after a first fixed time passes. Using the inner temperature, the outdoor temperature is estimated and the outdoor unit is operated again during a second fixed time. It is decided that the first sensor normally acts if the outdoor temperature belongs to a given temperature range and that the first sensor is out of order if not. The inner temperature corresponds to that of one of the refrigerant in the outdoor unit, a refrigerant pipe, and a part.

Description

A control method of an air conditioner

The present invention relates to an air conditioner, and more particularly, to a control method of an air conditioner for easily estimating an outdoor temperature when determining an outdoor temperature sensor failure.

In general, an air conditioner is a home appliance for maintaining indoor air in a state most suitable for use and purpose. For example, in summer, the room is cooled to a cool state, in winter, the room is heated to a warm state, and also the humidity of the room, and the air in the room to a clean state of clean. As life convenience products such as air conditioners are gradually expanded and used, consumers are demanding high energy use efficiency, performance improvement and convenience products.

Such an air conditioner includes a separate air conditioner in which an indoor unit and an outdoor unit are separately separated, an integrated air conditioner in which the indoor unit and the outdoor unit are combined into one device, a wall-mounted air conditioner and a frame type air conditioner configured to be mounted on a wall, and a living room. A slim air conditioner configured to stand, a single air conditioner configured to be used in a small place such as a home, and a large air capacity composed of a very large capacity for use in a company or a restaurant. The air conditioner is divided into a multi-type air conditioner having a capacity capable of sufficiently driving a plurality of indoor units.

In recent years, when the outdoor temperature sensor is installed in the outdoor unit of the air conditioner and measures the outdoor temperature, the user cannot use the air conditioner until the service is received.

An object of the present invention is to provide a control method of an air conditioner that is easy to estimate the outdoor temperature when the outdoor temperature sensor failure is determined.

In the control method of the air conditioner according to the present invention, if it is determined that the first sensor for measuring the outdoor temperature during operation of the outdoor unit is a failure, the operation of the outdoor unit is stopped. Measuring an internal temperature and estimating the outdoor temperature using the internal temperature to restart the outdoor unit for a second predetermined time.

When the air conditioner according to the present invention determines the failure of the outdoor temperature sensor that measures the outdoor temperature, by estimating the outdoor temperature by the internal temperature of the outdoor unit, the outdoor unit can be operated continuously without stopping the operation, so that the continuous use of the user Can be enabled.

In addition, the air conditioner according to the present invention, by allowing the heating and cooling of the comfortable room in accordance with the continuous operation, to solve the problems caused when the outdoor sensor failure, thereby improving the convenience and efficiency of the user in using the product Can be improved.

A control method of an air conditioner according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing an air conditioner according to a first embodiment of the present invention.

Referring to FIG. 1, the air conditioner includes a plurality of indoor units I installed in a building interior for cooling or heating operation, and a plurality of outdoor units O1 through indoor units I and refrigerant pipes P. O3) and a controller (not shown) for controlling the indoor unit I and the outdoor units O1 to O3.

The control device is connected to an outdoor unit (0) and connected to a local controller (not shown) for inputting an operation command to the indoor unit (1), a remote controller connected to the indoor unit (I) and the outdoor unit (O) to control and monitor its operation ( Not shown).

Here, the unit included in the air conditioner may include an indoor unit (I) and an outdoor unit (O), and may further include a unit such as an air cleaning unit, a ventilation unit, a humidification unit, a dehumidification unit, a heater, and such a unit may include air. It can be connected to the predetermined unit of the conditioner and integrated control. Hereinafter, the indoor unit (I) and the outdoor unit (O) will be described as an example, but may also be applied to the case where the above units are connected. At this time, the number of the outdoor unit and the indoor unit is not limited to the drawing.

The plurality of outdoor units O1 to O3 include a main outdoor unit O1 that is always operated regardless of the load of the indoor unit I, and sub outdoor units O2 and O3 that are selectively operated according to the load of the indoor unit I. do. The outdoor unit O is driven by the request of at least one of the indoor units I, and as the cooling / heating capacity required by the indoor unit I increases, the number of operations of the outdoor unit O and the compressor installed in the outdoor unit O are increased. The number of operations of is increased.

Here, the air conditioner is provided with at least one indoor unit (I) in one room, and when a plurality of indoor units are provided in one room, a plurality of indoor units installed in one room are group-controlled or individually Can be controlled.

The indoor unit I is operated in a predetermined operation mode according to the input data, and in response to the input data, the indoor unit I is required to supply a coolant to the outdoor unit for cooling / heating operation. Accordingly, the indoor unit is cooled or driven by using a coolant supplied from the outdoor unit to discharge cold air into the room.

2 is a block diagram showing the internal configuration of the outdoor unit and the indoor unit of the air conditioner according to the first embodiment of the present invention.

Referring to FIG. 2, the outdoor unit O includes an outdoor heat exchanger 4 through which outdoor air and a refrigerant are heat exchanged, an outdoor blower 5 for blowing outdoor air to the outdoor heat exchanger 4, and extracts only a gas refrigerant. Accumulator 3, compressor 2 for compressing gas refrigerant extracted from accumulator 3, four-way valve 10 for switching refrigerant flow, and outdoor electronic expansion controlled according to supercooling and superheating during heating operation. A valve 6.

The outdoor heat exchanger (4) acts as a condenser to suck the gaseous refrigerant during the cooling operation of the air conditioner and condense the sucked gaseous refrigerant by the outdoor air, and during the heating operation of the air conditioner, the liquid refrigerant is sucked and suctioned. It acts as an evaporator that allows the liquid refrigerant to be evaporated by the outdoor air.

The outdoor blower 5 is connected to the outdoor motor 5b that generates power by being controlled by an outdoor unit controller (not shown), and is blown while being rotated by the power of the outdoor motor 5b by being connected to the outdoor motor 5b. It consists of an outdoor fan (5a) for generating.

The main outdoor unit O1 may include two compressors therein, one may be an inverter compressor, and the other may be a constant speed compressor. Meanwhile, the sub outdoor unit may also include two compressors, and both compressors may be constant speed compressors, but this is merely an example and the present invention is not limited thereto.

The plurality of outdoor units O1 to O3 are provided with a main outdoor unit O1 and auxiliary outdoor units O2 and O3, and are driven at the request of at least one of the plurality of indoor units I. At this time, when the main outdoor unit O1 is operated in response to the number of indoor units I operated, and the required cooling / heating capacity is changed, the auxiliary outdoor units O2 and O3 exceed the capacity of the main outdoor unit O1. ) Will be activated. That is, the operation number of the outdoor unit O and the operation of the compressor provided in the outdoor unit vary according to the required cooling / heating capacity.

Each indoor unit (I) is an indoor heat exchanger (8) in which the indoor air of a room where each indoor unit (I) is installed and a refrigerant are heat exchanged, and the indoor air in the room where each indoor unit (I) is installed as an indoor heat exchanger (8). It may include an indoor blower (9) for blowing, and an indoor electronic expansion valve (not shown) that is an indoor flow rate control unit controlled according to the supercooling degree and the superheating degree during the cooling operation.

The indoor heat exchanger (8) acts as an evaporator to allow the indoor air to be cooled while the liquid refrigerant is sucked in the cooling operation of the air conditioner and the sucked liquid refrigerant is evaporated by the indoor air in which the indoor unit (I) which requests the cooling operation is installed. The gaseous refrigerant is sucked during the heating operation of the air conditioner, and the sucked gaseous refrigerant is condensed by the indoor air in which the indoor unit I, which requests the heating operation, is installed.

The indoor blower 9 is controlled by an indoor unit controller (not shown) to generate power by being connected to the indoor electric motor 9b to generate power and rotated by the indoor electric motor 9b to generate a blowing force. It consists of an indoor fan 9a.

In addition, the air conditioner may be configured as a cooler for cooling the room, or may be configured as a heat pump for cooling or heating the room.

3 is a functional block diagram showing a control configuration of an air conditioner according to the present invention.

Referring to FIG. 3, the air conditioner is installed in an outdoor unit O through a first sensor 100 measuring an outdoor temperature, a second sensor 110 measuring an internal temperature of the outdoor unit O, and an outdoor temperature. The controller 120 may determine whether the first sensor 100 has failed and estimate the outdoor temperature as the internal temperature to operate the outdoor unit O when the first sensor 100 has failed.

Here, the first sensor 100 is an intake temperature sensor, the intake temperature of the outside air sucked into the outdoor unit (0) in the place or area where the outdoor unit (O) is located, that is, the outdoor temperature of the outdoor unit (O) capable of accurately measuring the outdoor temperature It is installed at the rear side, and measures the outdoor temperature in real time or at set time intervals, and transmits the outdoor temperature to the controller 120.

In addition, the second sensor 110 includes a heat sink temperature sensor 112 and an indoor unit (PCB) for measuring a heat sink temperature of the components in a printed circuit board (PCB) mounted with a driving circuit component for driving the outdoor unit (O). A discharge pipe temperature sensor for measuring the temperature of the refrigerant discharge port and the refrigerant intake port of the pipe temperature sensor 114 and the compressor 2 to measure the temperature of the refrigerant pipe in the refrigerant pipe (P) of the outdoor unit (O) connected to I) ( 116 and the suction tube temperature sensor 118.

The second sensor 110 transmits at least one of the heat sink temperature, the refrigerant pipe temperature, the discharge port temperature, and the suction port temperature to the controller 120.

The controller 120 receives the outdoor temperature from the first sensor 100 and determines whether the first sensor 100 has failed.

That is, the controller 120 receives the outdoor temperature periodically during the operation of the outdoor unit O, and when the outdoor temperature is within the set temperature range, determines that the first sensor 100 is in normal operation, and determines the outdoor temperature. If it does not belong to the set temperature range, it is determined that the first sensor 100 is a failure.

Here, if the first sensor 100 is normal, the controller 120 controls to continue the operation of the outdoor unit O.

However, if it is determined that the first sensor 100 has failed, the controller 120 stops the outdoor unit 0 and receives the indoor temperature from the second sensor 110 after the first predetermined time elapses.

Here, the first predetermined time is preferably 3 minutes to 5 minutes, which is a time required for restarting after the outdoor unit O stops operation, and a large temperature change is sensitive to the temperature change of the outdoor air, that is, the outdoor temperature is allowed. This is to obtain at least one of the same heat sink temperature, the temperature of the refrigerant pipe, the discharge port temperature, and the suction port temperature within an error range.

Therefore, the controller 120 estimates the indoor temperature transmitted from the second sensor 110 as the outdoor temperature and restarts the outdoor unit O.

At this time, the controller 120 stops the operation after the second predetermined time elapses when the outdoor unit O is restarted.

That is, the controller 120 stops the outdoor unit O for the first predetermined time after the second predetermined time has elapsed, so as to know a change in the outdoor temperature.

The second predetermined time is preferably 5 hours to 8 hours, and is a time such that the outdoor temperature does not vary greatly during the operation of the outdoor unit O.

In addition, the controller 120 controls the first sensor 100 to display information on whether a failure of the first sensor 100 and an operating state are displayed on a buzzer or an alarm and a display window.

4 is a flowchart illustrating a control method of an air conditioner according to the present invention.

Referring to FIG. 4, the air conditioner measures the outdoor temperature during operation of the outdoor unit (S100).

That is, the first sensor 100 measures the outdoor temperature and transmits the outdoor temperature to the controller 120 while the outdoor unit O is in operation.

It is determined whether the outdoor temperature is a failure of the first sensor by comparing the set temperature range (S102).

That is, the controller 120 determines whether the first sensor 100 is broken by comparing whether the outdoor temperature is within or outside the set temperature range.

After the step S102, if the first sensor is determined to be normal, the outdoor unit continues to operate (S104). If the first sensor is determined to be faulty, the outdoor unit is stopped to operate (S106).

That is, the controller 120 determines that the first sensor 100 is normal when the outdoor temperature is within the set temperature range, and continues to operate the outdoor unit O. When the outdoor temperature is not within the set temperature range, 1 sensor 100 determines that the failure is to stop the outdoor unit (O).

After operation S106, the internal temperature of the outdoor unit measured by the second sensor is received after the first predetermined time elapses (S108).

That is, the controller 120 stops the outdoor unit 0 and receives the internal temperature of the outdoor unit 0 measured by the second sensor 110 when the first predetermined time elapses.

Here, the first predetermined time is a time at which the temperature of the outdoor air and the temperature inside the outdoor unit O become equal within an allowable error range.

The internal temperature is estimated as the outdoor temperature and the outdoor unit is restarted for a second predetermined time (S110).

That is, the controller 120 estimates the internal temperature as the outdoor temperature and restarts the outdoor unit O for a second predetermined time.

Then, the controller 120 operates the outdoor unit O for the second predetermined time and stops the operation again, and after the first predetermined time elapses, the controller 120 re-measures the internal temperature to reestimate the outdoor temperature.

Although a preferred embodiment of the present invention has been described in detail above, those skilled in the art to which the present invention pertains can make various changes without departing from the spirit and scope of the invention as defined in the appended claims. It will be appreciated that modifications or variations may be made to the branches. Accordingly, modifications of the embodiments of the present invention will not depart from the scope of the present invention.

1 is a block diagram showing an air conditioner according to a first embodiment of the present invention.

2 is a block diagram showing the internal configuration of the outdoor unit and the indoor unit of the air conditioner according to the first embodiment of the present invention.

3 is a functional block diagram showing a control configuration of an air conditioner according to the present invention.

4 is a flowchart illustrating a control method of an air conditioner according to the present invention.

Claims (7)

If it is determined that the first sensor measuring the outdoor temperature during operation of the outdoor unit is faulty, stopping the outdoor unit; Measuring an internal temperature of the outdoor unit with a second sensor after a first predetermined time elapses; And Estimating the outdoor temperature based on the internal temperature and restarting the outdoor unit for a second predetermined time. The method of claim 1, And determining that the first sensor is in a normal operation when the outdoor temperature is within a set temperature range, and determining that the outdoor sensor is in a failure state when the outdoor temperature does not fall within the set temperature range. Control method. The method of claim 1, wherein the internal temperature is, The control method of the air conditioner, characterized in that any one of the temperature of the refrigerant inside the outdoor unit, the refrigerant pipe and the parts. The method of claim 3, wherein the second sensor, Heat sink temperature sensor for measuring the temperature of the heat sink of the components, pipe temperature sensor for measuring the temperature of the refrigerant pipe to move the refrigerant, discharge tube temperature sensor for measuring the discharge side temperature and suction side temperature of the compressor included in the outdoor unit And a suction tube temperature sensor. The method of claim 4, wherein the first predetermined time is, And at least one of the temperature of the outdoor temperature, the temperature of the heat sink, the temperature of the refrigerant pipe, the temperature of the discharge side, or the temperature of the suction side is the same within an allowable range. The method of claim 1, wherein the first predetermined time, The control method of the air conditioner, characterized in that 3 minutes to 5 minutes. The method of claim 1, wherein the second predetermined time, Control method of an air conditioner, characterized in that 5 hours to 8 hours.

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