KR100531847B1 - Method for controlling multi airconditioner - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multi air conditioner, and more particularly, to a multi air conditioner control method for controlling a compressor and a system according to an average value of a current transformer (Current Transformer) current value changed according to a load state of a compressor. To this end, the present invention is a multi-air conditioner for controlling the compressor in accordance with the sensed voltage by detecting a current that changes according to the load state of the compressor through the instrument current transformer (CT), a certain period according to the load state of the compressor A first step of AD-converting and storing the voltage sensed by the instrument current transformer CT for each time; The average value is obtained from the cumulative values of data obtained by adding the voltage value of the current address to the voltage value of the previous address from the AD converted and stored voltage for the predetermined period, and the minimum and maximum values of the voltage value read from the current address and the previous address. Obtaining a maximum value and a minimum value by comparing the magnitudes of the values; Comprising a third step of comparing the magnitude of the average value and the maximum value and the minimum value of the AD-converted voltage and controlling the on and off of the compressor according to the comparison result.

Description

Multi air conditioner control method {METHOD FOR CONTROLLING MULTI AIRCONDITIONER}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multi air conditioner, and more particularly, to a multi air conditioner control method for controlling a compressor and a system according to an average value of a current transformer (Current Transformer) current value changed according to a load state of a compressor.

Multi-air conditioners are called so-called pre-joints, and as shown in FIG. 1, a plurality of indoor units 3A, 3B, and 3C are connected in parallel to a single compressor 1, and indoor units according to respective indoor unit operating conditions. When a command for operation is transmitted to a drive circuit of an outdoor unit equipped with a compressor by a separate communication means, the microcomputer receives such a command signal and expands the expansion valve 4A connected to the inlet side of the indoor units 3A, 3B, and 3C. , 4B, 4C) to control the refrigerant sucked into each indoor unit to cool the indoor air.

This series of operations is called a refrigeration cycle.

The refrigeration cycle is basically composed of a compressor 1, a condenser 2 called a condenser, and a heat exchanger or evaporator mounted in the indoor units 3A, 3B, 3C for heat-exchanging hot and cold heat. .

The above components form a closed loop, and as the refrigerant flows in the closed loop, phase changes of liquid, gas, etc. are caused by the influence of physical properties such as pressure and temperature. The exothermic action causes heat exchange.

Such a refrigeration cycle can be represented by a PH diagram as shown in FIG.

As shown in (a) of FIG. 2, the low-pressure low-temperature gas refrigerant is changed into the high-pressure high-temperature gas state while passing through the compressor 1 inlet.

The refrigerant in this state again becomes a liquid refrigerant of high pressure and low temperature while passing through the condenser 2 as shown in (c).

This again becomes a low-pressure low-temperature liquid refrigerant passing through expansion valves 4A, 4B and 4C connected in parallel as shown in (d).

This absorbs the hot air in the room while passing through the evaporators in the indoor units 3A, 3B, and 3C as shown in (e), through which the indoor air is cooled and the refrigerant is changed to a gaseous state.

This again enters the compressor 1 as shown in (b) and the refrigerant cycle is circulated.

The expansion valves 4A, 4B, and 4C must all be open to form a normal cycle, but the expansion valves 4A, 4B, and 4C are used when the indoor temperature is colder than the set temperature even when the indoor unit is in the off state or during operation. ) Will be closed.

In particular, when two expansion valves are closed out of three expansion valves 4A, 4B, and 4C, and only one expansion valve is opened to pass the refrigerant, the expansion valves 4A, 4B, and 4C are compared with the amount of refrigerant discharged from the compressor 1. Since the ability to pass through is relatively small, a bottleneck occurs in the closed-loop refrigeration cycle and the temperature of the compressor (1) outlet rises rapidly.

On the other hand, the air conditioner is provided with a mechanical switch that can automatically cut off the power applied to the compressor (1) for the safety of the system, the mechanical switch is operated when the temperature of the compressor (1) rapidly rises The power supply to the compressor 1 is cut off.

3 is a block diagram of a conventional multi air conditioner power supply and a compressor driving circuit, and includes a microcomputer 10 for controlling a relay RY1 for turning on and off an operation of a motor M for driving a compressor; A power supply circuit portion 11 for rectifying and smoothing AC power 220 V and supplying stabilized DC power to the microcomputer 10 through a constant voltage IC IC1; In accordance with the control signal of the microcomputer 10 is configured as a relay (RY1) to turn on, off the drive of the compressor drive motor (M), such a conventional operation will be described as follows.

In the microcomputer 10, when the relay RY1 is operated by outputting the compressor driving command signal, the AC power source AC 220V is applied to the compressor driving motor M through the relay RY1 contact so that the motor M rotates. Therefore, the compressor is driven accordingly.

In such a state, if the compressor outlet temperature of the air conditioner becomes too high and the overcurrent flows, the mechanical switch SW1 is turned off, and thus the compressor driving motor M is stopped and thus the compressor is not driven.

At this time, the microcomputer 10 knows that the expansion valves 4A, 4B, and 4C shown in FIG. 1 should be closed. When attempted, there was a problem that the operation of the system became unstable and the error state of the system could not be grasped.

Therefore, the present invention was devised to solve the above problems, and the microcomputer determines the CT overcurrent, open and short state through the CT output DC voltage of the multi-air conditioner. It is an object of the present invention to provide a multi-air conditioner control method that detects an error condition such as presence or absence and stops the compressor to protect power devices and circuit components and protect the system as a whole.

In the present invention for achieving the above object, in the multi-air conditioner to sense the current changed according to the load state of the compressor as a voltage through the current transformer CT for the control to control the compressor according to the detected voltage, A first step of AD converting and storing the voltage sensed by the current transformer CT for a predetermined period according to the load state of the circuit; and converting the current address to the voltage value of the previous address in the AD converted and stored voltage for the predetermined period. A second step of obtaining an average value from a cumulative value of data obtained by adding a voltage value and comparing a voltage value read from a current address with a minimum value and a maximum value up to a previous address to obtain a maximum value and a minimum value; And a third step of comparing the average value of the voltage and the magnitude of the maximum value and the minimum value and controlling the on / off of the compressor according to the comparison result. The.

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

4 is a flowchart illustrating a method for controlling a multi-air conditioner according to the present invention. As shown in FIG. 4, a current changed according to a load state of a compressor is detected as a voltage through a current transformer CT for controlling a compressor according to the detected voltage. In the multi-air conditioner, First step of converting and storing the voltage detected by the current transformer CT for a certain period in accordance with the load state of the compressor; AD; The average value is calculated from the cumulative values of the data obtained by adding the voltage value of the current address to the voltage value of, and the maximum and minimum values are calculated by comparing the magnitudes of the minimum and maximum values up to the previous address with the voltage value read from the current address. Step 2; Comparing the magnitude of the average value and the maximum value and the minimum value of the AD converted voltage to control the on and off of the compressor according to the comparison result The third step is made.

This operation and operation of the present invention will be described with reference to FIG. 5.

The present invention is to detect the CT current in order to protect the power device when the CT current rises, in the present invention, by converting the output DC voltage of the CT (Current Transformer) 30 to the AD at a fixed period Get the data by averaging

First, referring to the CT 30 current AD conversion value averaging process, the voltage according to the current value output from the CT 30 side is rectified by the bridge diode BD, and smoothed by the smoothing capacitors C1 and C2. The signal close to the DC component is output to the microcomputer 20.

Through this process, the voltage value for a predetermined period input to the microcomputer 20 is stored in the register as an array variable indexed by the index variable value.

As described above, in order to find an average value through an array variable of stored voltage values, the following comparison process is performed: First, the maximum value and the minimum value are always compared with the array variable value (that is, compared with the current reading value h). The average value is calculated by dividing the total sum variable value minus the maximum value and the minimum value by the average calculation counter (total data number) -2. In this case, the total sum variable value is a process of continuously adding current read values, and programming the concept of adding all the values when obtaining the average value. [0025] Meanwhile, the above-mentioned maximum and minimum values are obtained by the following process. If the current array variable value is smaller than the minimum value obtained at the previous address, the added array variable value is stored as the minimum value. Otherwise, the maximum array value is compared with the maximum value. Save as. The stored maximum and minimum values are executed until the average counting counter increments by 1 and the total number of data matches. Then, if the total number of data matches the counted number of the average counting counter, the program polls the current The AD conversion value of the selected channel is read and stored in n array variables, and the average of all array values is obtained. At this time, the maximum value and the minimum value obtained through the above-described process are summed up by subtracting n data and dividing by (n-2) to obtain the average of the remaining (n-2) data. The maximum, minimum and average values not only determine the state of the CT, but also turn the compressor on and off accordingly.

delete

That is, the overcurrent, open, and short circuit detection methods of the CT 30 are processed by the CT 30 overcurrent error if the maximum value is equal to or greater than the maximum value during the compressor ON by the CT 30 current AD conversion value averaging process, and turns off the compressor.

delete

If the AD conversion value is less than the minimum value, it is determined that the CT 30 is open or the CT 30 low current is treated as a CT 30 failure error and the compressor is turned off.

If the compressor is off, the CT 30 short circuit is judged to be the CT 30 short-circuit error if the value is equal to or larger than the maximum value, and the compressor is turned off.

The multi-air conditioner control method of the present invention is not limited to the above-described embodiment, and may be variously modified and implemented within the range permitted by the technical idea of the present invention.

As described in detail above, the present invention determines the CT over-current, open and short-circuit state through the CT output DC voltage of the multi-air conditioner, and detects an error state such as a case where the CT current rises excessively or whether there is a CT failure. The compressor can be stopped to protect power devices and circuit components and to protect the system as a whole.

1 is a configuration diagram of a general multi air conditioner.

2 is a schematic PH diagram of a multi-air conditioner system.

3 is a configuration diagram of a conventional multi air conditioner power supply and a compressor driving circuit.

Figure 4 is a flow chart showing a multi-air conditioner control method of the present invention.

5 is a configuration diagram of a device to which the present invention multi-air conditioner control method is applied.

*** Explanation of symbols for main parts of drawing ***

20: Micom 30: CT

Claims (4)

In the multi-air conditioner to sense the current changes according to the load state of the compressor as a voltage through the current transformer (CT) for controlling the compressor according to the detected voltage, A first step of AD converting and storing the voltage sensed by the current transformer CT for a predetermined period according to the load state of the compressor; The average value is obtained from the cumulative values of data obtained by adding the voltage value of the current address to the voltage value of the previous address from the AD converted and stored voltage for the predetermined period, and the minimum and maximum values of the voltage value read from the current address and the previous address. Obtaining a maximum value and a minimum value by comparing the magnitudes of the values; And a third step of controlling the on / off of the compressor according to the comparison result by comparing the average value of the AD converted voltage with the maximum value and the minimum value. The method of claim 1, wherein the second step, Starting counting and comparing the magnitude of the voltage value of the current address with the voltage value of the minimum value obtained up to the previous address; As a result of the comparison, if the voltage value of the current address is smaller than the voltage value of the minimum value, replacing the minimum value with the voltage value of the current address; As a result of the comparison, if the voltage value of the current address is greater than the voltage value of the minimum value, comparing the magnitude of the voltage value of the maximum value obtained up to the previous address with the voltage value of the current address; As a result of the comparison, if the voltage value of the current address is greater than the voltage value of the maximum value, replacing the maximum value with the voltage value of the current address; As a result of the comparison, if the voltage value of the current address is less than the voltage value of the maximum value, multiplying the counter and calculating an average value when the number of data for a predetermined period and the counter value coincide. Air conditioner control method. The method of claim 1, wherein the third step, Comparing the magnitude of the average value with the maximum value if the compressor is turned on, and if the average value is greater than or equal to the maximum value, determining that the compressor is in an overcurrent state and turning off the compressor; Comparing the magnitudes of the average value and the minimum value if the maximum value is large, and if the minimum value is large, determining that the compressor is disconnected or low current and turning off the compressor; If the compressor is off, comparing the magnitudes of the average value and the maximum value, and as a result of the comparison, if the average value is greater than or equal to the maximum value, the multi-air conditioner control characterized in that the step of holding the compressor in the off state Way. The method of claim 1 or 2, wherein the average value is obtained by dividing the total voltage value data added for the predetermined period by excluding the maximum value and the minimum value by 'total voltage value data number-2'. Multi air conditioner control method.