KR100347924B1 - Method for start-current controlling of compressor - Google Patents

Abstract

The present invention relates to a starting current control method of a compressor for providing an optimum starting condition for a compressor applied to an air conditioner or a refrigerator.

When starting the compressor, the starting voltage supplied to the compressor is sensed using the current sense resistor, and the starting voltage is calculated from the starting current and the resistance value. When the starting current is excessively high and the starting current is excessive, the phase control value of the current limiting unit providing the starting current controlled by the compressor may be adjusted to provide an optimum starting current.

Description

Starting current control method of compressor {Method for start-current controlling of compressor}

The present invention relates to a control method of a starting current of a compressor for providing an optimum starting condition to a compressor applied to an air conditioner or a refrigerator. In particular, the starting voltage supplied to the compressor is sensed by using a current sensing resistor and the starting voltage is increased. The present invention relates to a control method of a starting current of a compressor that can maintain an optimal starting current by adjusting a phase control value of a current limiting unit when it is determined to exceed a normal level.

The control circuit of the compressor according to the prior art is shown in Figure 1 with reference to the compressor control circuit as follows.

A power supply terminal 1 for supplying power to the system according to whether the system driving power is externally applied, a first relay 2 for performing on / off operation according to a compressor control signal, and the first relay 2 Reactor (3) for absorbing the reactive power of the power supplied through the power supply terminal (1) by the on operation of the power supply and delivers power to the main winding (C1) of the compressor (M) for driving the compressor, A second relay 4 installed to monitor the voltage of the reactor 3 and a first contact portion 4a coupled in parallel with the reactor 3 to be opened / closed by the second relay 4; )Wow,

A driving capacitor 5 coupled in parallel with the reactor 3, a starting capacitor 6 coupled in parallel with the driving capacitor 5, and a third relay 7 installed to monitor a voltage at start-up. ), A second contact portion 7a provided at the tip of the second relay 4 so as to be opened / closed by the third relay 7, and a third contact portion provided at the rear end of the starting capacitor 6. It consists of (7b).

In the operation of the compressor control circuit according to the related art configured as described above, when the compressor control signal is applied, power is supplied to the main winding C1 of the compressor M through the reactor 3 while the first relay 2 is turned on. Will be supplied. At this time, the reactive power is removed by the reactor 3 for the power supplied to the main winding C1.

Meanwhile, a path through which power is supplied to the auxiliary winding C2 of the compressor M through the driving capacitor 5 and a path through which the power is supplied through the third contact portion 7b through the starting capacitor 6. Power is supplied through the parallel circuit structure of.

However, when the operation of the start control circuit A shown in FIG. 1 is described in detail, the third relay 7 is operated because the voltage applied to the third relay 7 is low because the compressor M does not rotate at the initial start time. When the compressor M rotates and the voltage applied to the third relay 7 rises to increase the rotation speed of the compressor M, the third relay 7 is operated, and accordingly, the second contact portion ( 7a) is closed, and the third contact portion 7b is opened.

Therefore, since the second relay 4 is operated by the closing operation of the second contact portion 7a, the first contact portion 4a is closed and the reactor 3 is shorted, and the third contact portion 7b is closed. The starting capacitor 6 is separated from the circuit by the opening operation of. That is, the reactor 3 is connected in series with the compressor M at the instant of starting, thereby limiting excessive current, and the starting capacitor 6 increases the capacity at the moment of starting so that the starting characteristic is improved. Will be performed.

However, in the conventional case, the failure of the start control circuit A frequently occurs, and there is a problem in that the cost of designing the compressor control circuit is high. In addition, since the start control is completed by the voltage increase due to the rotation of the compressor M at the start, there is a problem that the limit of the start current is not made accurately or the start characteristic is not greatly improved.

In addition, in the conventional case, the process of discharging the electric charges charged in the operation capacitor 5 to the starting capacitor 6 when the second relay 4 is turned on for the operation of the auxiliary winding C2 during the initial startup of the compressor. The second relay 4 may be fused by an instantaneous discharge at, since the current charged in the driving capacitor 5 flows to the auxiliary winding C2 along with the charged current of the starting capacitor 6. There is also a problem that the high current due to the fusion and damage the second relay (4).

On the other hand, when a transient current is generated at the start of the compressor, the circuit breaker operates, adversely affects the peripheral equipment, and there is a problem in that it is inconvenient to return it to its original state.

The present invention has been made to solve the above problems of the prior art, the object of which is to detect the starting voltage supplied to the compressor at the start-up of the compressor using a current sensing resistor and when it is determined that the starting voltage exceeds the normal level The present invention provides a method of controlling a starting current of a compressor that can maintain an optimum starting current by adjusting a phase control value of a current limiting part providing a starting current controlled by a compressor.

1 is a circuit diagram showing the configuration of a control circuit of a compressor according to the prior art,

2 is a view showing the configuration of a starting current control apparatus of a compressor according to the present invention,

3 is a flowchart illustrating a method of controlling a starting current of a compressor according to the present invention.

<Explanation of symbols on main parts of the drawings>

21: power supply 23: main control

25: compressor driving unit 31: current limiting unit

32: current sense resistor 33: microcomputer

35: starting support unit 36: driving support unit

37, 38: first and second relay 40: compressor

According to a characteristic of the starting current control method of a compressor according to the present invention for solving the above problems, when a drive voltage for driving a compressor is supplied to the system, a compressor drive signal is generated and outputted so that the phase control value according to the drive voltage is increased. A first step calculated; A second step of calculating a starting voltage by detecting a starting current which is currently phase controlled while starting current supplied to the compressor is phase controlled according to the phase control value of the first step; A third step of determining whether the starting voltage calculated in the second step exceeds a reference voltage of a normal level preset in the system and adjusting a phase control value according to the determination result; And a fourth step of completing the phase control function after the compressor is started while controlling the start current according to the phase control value adjusted by the third step.

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

2 is a block diagram showing the configuration of a starting current control apparatus of a compressor according to the present invention. Referring to the present invention, the present invention controls a power supply unit 21 for supplying power for driving a system and elements for driving the system. While the main controller 23 determines whether to drive the compressor 40, the compressor driver 25 generates and outputs a compressor start / stop signal according to the control of the main controller 23, and the compressor starts the compressor. A current limiting unit 31 for transmitting a phase controlled start current to the main winding for a predetermined time; a current sensing resistor 32 for detecting a starting current by the current limiting unit 31 and transmitting it to the system; While controlling the start / operation current limit of the compressor 40 while determining the phase control point according to the ON driving signal of the compressor driver 25, the starting voltage is increased according to the current sense resistor 32. A microcomputer 33 performing a phase control value adjustment function by calculating a degree out of a normal level, a starter support unit 35 and an operating capacity of providing a starting capacity to the compressor 40 under the control of the microcomputer 33; First and second relays that perform a switching function such that the driving control unit 36 and the microcomputer 33 provide the phase control timing or the timing of providing the respective capacities of the starting support unit 35 and the driving support unit 36. It consists of (37, 38).

Here, the compressor driving unit 25 is a compressor driving relay, the current limiting unit 31 is a triac, and the current sensing resistor 32 is a resistance.

In addition, the microcomputer 33 calculates a phase control value of the current limiting unit 31 based on the driving voltage of the power supply unit 21 according to the ON driving signal of the compressor driving unit 25 to determine the phase control timing. By performing the overall control function for the start / operation current limit of 40 and calculating the starting voltage Vs through the current sensing resistor 32 to detect the degree of departure of the starting voltage Vs from the normal level. The phase control value is adjusted.

At this time, the microcomputer 33 sets the first reference voltage V1 of the dangerous level and the second reference voltage V2 of the excessive level in advance, and the compressor 40 is restrained when the starting voltage is greater than or equal to the first reference voltage. The compressor 40 is immediately stopped, the phase control width of the current limiting part 31 is reduced when the starting voltage is less than the first reference voltage and is higher than the second reference voltage, and the starting voltage is the second reference voltage. If less, the phase control width of the initially set current limiting unit 31 is determined.

The current limiting unit 31 is turned on / off according to the phase control of the microcomputer 33 to transfer the starting current of the phase controlled to the main winding 41 of the compressor 40 for a predetermined time while preventing overcurrent. .

In addition, the starting support unit 35 is a starting capacitor for a predetermined time to increase the starting torque to the auxiliary winding 42 of the compressor 40 at the initial startup of the compressor 40 according to the start current control of the microcomputer 33. The driving support unit 36 may provide a driving capacity to the auxiliary winding 42 of the compressor 40 after starting the compressor 40 according to the operation current control of the microcomputer 33 as a driving capacitor. do.

The first relay 37 is contacted after the current limiting unit 31 performs the phase control function for the starting current supplied to the main winding 41 of the compressor 40 at the initial startup of the compressor, thereby completing the phase control function. Be sure to In addition, the second relay 38 is contacted at initial startup so that the starting support unit 35 provides the starting capacity to the auxiliary winding 42 of the compressor 40, and then the contact is disconnected when the compressor 40 is started. The driving capacity is provided through the support unit 36.

Looking at the operation of the present invention configured as described above with reference to the flow chart of the compressor starting current control method shown in FIG.

First, in the first step, the initialization function is performed when the initial power is applied, and the main control unit 23 and the microcomputer 33 are initialized (see S1). The compressor 23 generates and outputs a compressor driving signal by the unit 23 (see S2).

Then, in the third step, the microcomputer 33 detects the voltage value and frequency with respect to the driving voltage and calculates a phase control value according to the driving voltage, so that the on time of the current limiting unit 31 is longer when the voltage is low. The compressor 40 is well started even at a low voltage, and the on time of the current limiting unit 31 is shorter than the low voltage at the overvoltage to prevent excessive current from flowing in the compressor 40. (See S3.)

Next, in the fourth stage, the current limiting unit 31 is turned on at initial startup, and the phase control function is performed according to the phase control value calculated in the third step S3, so that the main winding 41 of the compressor 40 is operated. (See S4), and in the fifth step, the current sensing resistor 32 provided between the current limiting portion 31 and the main winding 41 of the compressor 40 is generated. The starting current is sensed and transferred to the microcomputer 33 (see S5).

Then, in the sixth step, the microcomputer 33 calculates the starting voltage Vs by multiplying the starting current by the resistance value R of the current sensing resistor. (See S6.) And in the seventh step, the starting voltage Vs. It is determined whether the first reference voltage V1 is equal to or greater, and when the determination result is 'Yes', the eighth step recognizes that the compressor 40 is currently in a restrained state and immediately stops the compressor 40. (See S7 and S8)

On the other hand, if the determination result of the seventh step (S7) is no, in the ninth step it is determined whether the starting voltage (Vs) is greater than or equal to the second reference voltage (V2), the determination result is 'Yes' In step 10, it is recognized that excessive current is provided to the compressor, and the initial phase control value is reduced (see S9 and S10).

If the determination result of the ninth step S9 is no, the eleventh step recognizes that the current starting current is supplied to the compressor 40 at an appropriate level, and determines the initial phase control value. )

Finally, in the twelfth step, the starting current is provided to the compressor 40 while maintaining the phase control width of the current limiting unit 31 according to the phase control values determined in the tenth and eleventh steps S10 and S11. When the start of the compressor 40 is completed, the phase control function is terminated (see S12).

The starting current providing method of the compressor of the present invention, configured as described above, detects the starting voltage supplied to the compressor at the time of starting the compressor using a current sensing resistor and phase-controls the compressor when it is determined that the starting voltage exceeds a normal level. By controlling the phase control value of the current limiting part that provides the starting current, there is an effect of maintaining the optimum starting current.

Claims (3)

A first step of generating a compressor driving signal and calculating a phase control value according to the driving voltage when a driving voltage for driving the compressor is supplied to the system; A second step of calculating a starting voltage by detecting a starting current which is currently phase controlled while starting current supplied to the compressor is phase controlled according to the phase control value of the first step; A third step of determining whether the starting voltage calculated in the second step exceeds a reference voltage of a normal level preset in the system and adjusting a phase control value according to the determination result; And a fourth step of allowing the compressor to be started while phase controlling the starting current according to the phase control value adjusted by the third step, and then completing the phase control function. The method of claim 1, In the third step, the reference voltage is set to a first reference voltage of a dangerous level and a second reference voltage of an excessive level, and it is determined whether a starting voltage is greater than or equal to the first reference voltage, and the starting voltage is a first reference voltage. And determining whether or not the value is between the second reference voltage and determining whether the starting voltage is less than or equal to the second reference voltage. The method according to claim 1 or 2, In the third step, when the starting voltage is greater than or equal to the first reference voltage, the compressor is stopped while the compressor is in a restrained state, and the phase control value is reduced when the starting voltage is a value between the first reference voltage and the second reference voltage. And determining an initial phase control value when the starting voltage is less than or equal to a second reference voltage.