KR100665737B1 - Compressor operating control method of inverter air conditioner - Google Patents

Abstract

The present invention relates to a method for controlling the compressor rotation speed of an inverter air conditioner by limiting the rotation speed of the compressor according to a temperature condition detected by an indoor temperature sensor and an outdoor temperature sensor of the inverter air conditioner. The number of revolutions of the compressor may be individually controlled during the cooling operation and the heating operation of the inverter air conditioner by using the indoor and outdoor temperature conditions of the inverter air conditioner detected by the sensor and the outdoor temperature sensor.

Inverter air conditioner, compressor, cooling operation, heating operation, load

Description

Compressor operating control method of inverter air conditioner

1 is a block diagram of a typical inverter air conditioner.

The present invention relates to a method of driving a compressor of an inverter air conditioner, and more particularly, to increase the stability of the system by limiting the number of revolutions of the compressor according to the temperature conditions detected by the indoor temperature sensor and the outdoor temperature sensor of the inverter air conditioner A compressor rotation speed control method of an air conditioner.

Among the air conditioners are inverter air conditioners, which are similar to general air conditioners but are marked as inverters. In other words, the inverter air conditioner can be described as an air conditioner using an 'inverter-driven compressor (motor)'. The idea of the inverter type air conditioner started by changing the speed of the compressor according to the heat load in the room to make efficient use of electricity.

Domestic current in Korea is AC current, frequency is 60 [Hz] and divided into single phase and three phase electricity. By the way, the speed of the compressor changes according to the size of the frequency, and therefore, when the current is flowed by changing the 60 Hz, the rotation speed of the compressor changes.

The general air conditioner rotates at the same speed as the outdoor compressor, so the adjustment function according to the heat load in the room is based on the method of discharging more cool air to the room by simply adjusting the air volume. If the room temperature increases again, the outdoor unit starts to lower the temperature to the desired temperature again. In order to compensate for the shortcomings of the general air conditioner is an inverter type air conditioner.

1 is a block diagram of a typical inverter air conditioner.

In general, an inverter air conditioner includes an indoor unit and an outdoor unit. First, an outdoor unit includes a compressor 10 for compressing a refrigerant, a condenser (not shown) for converting a gas refrigerant of the compressor 10 into a liquid state, and an outdoor unit for sensing an outdoor temperature. Temperature sensor 122, the condenser temperature sensing unit 124 for detecting the temperature of the condenser, the outdoor fan drive unit 126 for driving the outdoor fan 128, the compressor drive unit 130 for driving the compressor 10, outdoor temperature The microcomputer 100 outputs a control drive signal to the outdoor fan driver 126, the compressor driver 130, or the compressor driver 130 in response to the detection signal of the sensor 122 to the condenser temperature sensor 124. .

In addition, the indoor unit expands the refrigerant sent from the outdoor unit, a data input unit 102 for receiving data for operating the system from an operation key of the remote controller or the system set, an indoor temperature sensor 104 for sensing an indoor temperature, and the outdoor unit. Capillary tube (not shown), evaporator temperature sensor 106 for sensing the temperature of an evaporator (not shown) for evaporating the refrigerant in the capillary tube, indoor fan drive unit 108 for driving the indoor fan 110, the operation of the air conditioner The internal system is operated according to the input signal of the display unit 112 and the data input unit 102 to display information according to the state, and in response to the detection signal of the room temperature sensor 104 to the evaporator temperature sensor 106. The microcomputer 100 outputs a control command signal to the indoor fan driver 108 or outputs corresponding system information to the display 112.

In general, inverter motors used in inverter air conditioners vary the power alternating current supplied to ordinary households from 110/220 [V], 60 [Hz], generally from 30 [Hz] to 120 [Hz], depending on the load. You can. Inverter air conditioner lowers the frequency to at least 30 [Hz] at initial start-up, so it has less starting current and has a softer starting characteristic. Allow to reach the desired temperature. In addition, when the desired temperature is reached, the frequency is reduced to the minimum to save energy and to reduce the change in room temperature so as to realize a comfortable operation. At this time, the motor is not ON-OFF and only lowers the frequency.

However, the inverter air conditioner according to the prior art is to change the operating frequency of the compressor to realize rapid cooling and heating, but to increase the operating frequency rapidly to reach the target operating frequency, eventually causing an overcurrent and at the same time rapid When heating and cooling is realized, the system becomes unstable and inefficient in terms of energy efficiency.

The present invention has been made to solve the above problems, the compressor rotation speed of the inverter air conditioner to increase the stability of the system by limiting the number of revolutions of the compressor according to the temperature conditions detected by the indoor temperature sensor and the outdoor temperature sensor of the inverter air conditioner The purpose is to provide a control method.

The configuration of the present invention devised to achieve the above object is as follows. In the compressor rotation speed control method of the inverter air conditioner of the present invention is a compressor rotation speed control method of the inverter air conditioner having an indoor temperature sensor and an indoor temperature sensor for detecting the indoor and outdoor temperature,
The compressor rotation speed is individually controlled during the cooling operation and the heating operation of the inverter air conditioner by using the indoor and outdoor temperature conditions of the inverter air conditioner detected by the indoor temperature sensor and the outdoor temperature sensor of the inverter air conditioner.
Compressor rotation speed during the cooling operation is the following equation
RPM _{cool_max} = 4500 + (62-room temperature-outdoor temperature) × 50
The RPM _{cool_max} is the compressor rotational speed during the cooling operation, the 4500 is the maximum compressor rotational speed during the cooling operation, 62 is the compressor rotation control of the inverter air conditioner, characterized in that the sum of the indoor temperature and the outdoor temperature become the standard during the cooling operation Way.
In addition, the compressor rotation speed control method of the inverter air conditioner of the present invention is a compressor temperature control method of the inverter air conditioner having an indoor temperature sensor and an outdoor temperature sensor for detecting indoor and outdoor temperature, the indoor temperature sensor of the inverter air conditioner And the compressor rotation speed are individually controlled during the cooling operation and the heating operation of the inverter air conditioner by using temperature conditions outside the indoor and outdoor of the inverter air conditioner detected by the outdoor temperature sensor, while the compressor rotation speed is the indoor operation during the heating operation. If the sum of the temperature and the outdoor temperature is 27 ℃ or more, the following equation
RPM _{heat_max} = 4800 + (27-room temperature-outdoor temperature) × 115
The RPM _{heat_max} is the compressor rotational speed during the heating operation, 27 is the sum of the indoor temperature and the outdoor temperature which is the standard during the heating operation, and 4800 is the maximum compressor rotational speed during the heating operation.
The compressor rotation speed during the heating operation is the sum of the indoor temperature and the outdoor temperature is less than 27 ℃, the following equation
RPM _{heat_max} = 4800rpm characterized in that it is defined.

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

In the compressor rotation speed control method of the inverter air conditioner according to the present invention, the indoor temperature sensor 104 and the outdoor temperature sensor 122 detect indoor and outdoor temperatures, and the compressor 10 uses the detected indoor and outdoor temperatures. It controls the number of revolutions of the motor, which is driven separately according to whether it is cooling operation or heating operation.

Table 1 below shows the maximum rotational speed and the indoor and outdoor standard temperature of the compressor 10 during air conditioning.

Maximum rpm and standard temperature for heating and cooling Driving mode Rpm (rpm) Standard temperature (℃) Cooling 4500 Indoor temperature 27, Outdoor temperature 35 Heating driving 4800 Indoor temperature 20, outdoor temperature 7

First, the maximum compressor rotation speed in the cooling operation is 4500rpm, the compressor rotation control method in the cooling operation is set to the indoor temperature of 27 ℃, the outdoor temperature is set to 35 ℃ in the temperature conditions become the standard during the cooling operation, The sum of the indoor temperature and the outdoor temperature, that is, 62 ° C, is set as the reference for the load.

Next, the rotation speed is controlled during the cooling operation by the difference between the sum of the indoor temperature and the outdoor temperature and the sum of the standard temperature conditions.

That is, Equation 1 below is a formula defining the compressor rotation speed during cooling operation, and the compressor rotation speed during cooling operation is

RPM _{cool_max} = 4500rpm + (62-room temperature-outdoor temperature) × 50
Here, RPM _{cool_max} is the compressor rotation speed in a cooling operation, 4500 is the highest compressor rotation speed in a cooling operation, and 62 is the sum of the indoor temperature and the outdoor temperature which become standard in a cooling operation as mentioned above.

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For example, when the indoor temperature is 30 ° C. and the outdoor temperature is 39 ° C., the compressor rotation speed is 4150 rpm.

On the other hand, the maximum compressor rotation speed during heating operation is 4800rpm, and the compressor rotation speed control method during heating operation sets the indoor temperature to 20 ° C and the outdoor temperature to 7 ° C, which is the sum of the indoor temperature and the outdoor temperature. Is set to 27, and the compressor rotation speed is controlled by the difference between the sum of the indoor temperature and the outdoor temperature and the sum of the standard temperature conditions.

In particular, the heating operation is controlled separately according to whether the standard indoor and outdoor temperature is above or below the standard 27 ℃, if the sum of the indoor and outdoor temperature is more than 27 ℃ The following compressor revolutions are defined by equation (2).

RPM _{heat_max} = 4800 + (27-room temperature-outdoor temperature) × 115

Here, RPM _{heat_max} is the compressor rotation speed in heating operation, 27 is the sum of the indoor temperature and the outdoor temperature which become the standard in heating operation, and 4800 is the maximum compressor rotation speed in the heating operation.

For example, if the indoor temperature is 20 ° C. and the outdoor temperature is 25 ° C., the compressor is controlled at 2730 rpm.

On the other hand, if the sum of the indoor temperature and the outdoor temperature is less than 27 ℃ is defined by the following equation (3). That is, the compressor rotation speed when the sum of the indoor temperature and the outdoor temperature is less than 27 ° C

RPM _{heat_max} = 4800

Here, 4800 is the maximum compressor rotational speed during the heating operation as described above.

For example, when the indoor temperature is 0 ° C and the outdoor temperature is -5 ° C, the sum is -5, which is less than 27, so the compressor rotational speed is 4800 rpm.

The present invention is not limited to the above-described embodiments and can be carried out in various modifications within the scope of the technical idea of the present invention.

According to the present invention configured as described above, it is possible to increase the stability of the system by limiting the number of revolutions of the compressor according to the temperature conditions detected by the indoor temperature sensor and the outdoor temperature sensor of the inverter air conditioner, and the compressor and circuit from the sudden current change I can protect it.

Claims (4)

delete In the compressor rotation speed control method of an inverter air conditioner having an indoor temperature sensor and an outdoor temperature sensor for detecting the indoor and outdoor temperature, The compressor rotation speed is individually controlled during the cooling operation and the heating operation of the inverter air conditioner by using the indoor and outdoor temperature conditions of the inverter air conditioner detected by the indoor temperature sensor and the outdoor temperature sensor of the inverter air conditioner. Compressor rotation speed during the cooling operation is the following equation RPM _{cool_max} = 4500 + (62-room temperature-outdoor temperature) × 50 The RPM _{cool_max} is the compressor rotational speed during the cooling operation, the 4500 is the maximum compressor rotational speed during the cooling operation, 62 is the compressor rotation control of the inverter air conditioner, characterized in that the sum of the indoor temperature and the outdoor temperature become the standard during the cooling operation Way. In the compressor rotation speed control method of an inverter air conditioner having an indoor temperature sensor and an outdoor temperature sensor for detecting the indoor and outdoor temperature, The compressor rotation speed is individually controlled during the cooling operation and the heating operation of the inverter air conditioner by using the indoor and outdoor temperature conditions of the inverter air conditioner detected by the indoor temperature sensor and the outdoor temperature sensor of the inverter air conditioner. The compressor rotation speed during the heating operation is the sum of the indoor temperature and the outdoor temperature is 27 ℃ or more, the following equation RPM _{heat_max} = 4800 + (27-room temperature-outdoor temperature) × 115 The RPM _{heat_max} is the compressor rotational speed during the heating operation, 27 is the sum of the indoor temperature and the outdoor temperature which is the standard during the heating operation, and 4800 is the compressor rotational speed control of the inverter air conditioner, characterized in that the maximum compressor rotational speed during the heating operation Way. The compressor rotational speed of the heating operation is If the sum of the indoor temperature and the outdoor temperature is less than 27 ℃, the following equation Compressor revolution control method of the inverter air conditioner, characterized in that RPM _{heat_max} = 4800rpm.

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