KR100382920B1 - Driving control apparatus for linear compressor - Google Patents

Abstract

The present invention relates to an operation control device for a linear compressor, in which a stroke is controlled by an amount of change in the magnitude of the daily operation value after recognizing the daily operation value obtained by integrating the current magnitude consumed by the linear compressor. To this end, the present invention includes a linear compressor for controlling the cooling force by varying the stroke in the vertical movement of the piston by the stroke voltage according to the stroke command value; A current detector for detecting a current applied to the linear compressor as the stroke is increased by the stroke voltage; A daily operation unit for integrating the current of the current detection unit for one period and outputting the integrated value as a single operation signal; Comparing the one operation signal of the one operation unit with the previous one operation signal, if the difference between the current operation signal and the previous operation signal is less than a predetermined value, the duty ratio of the switching control signal is gradually increased and output, A microcomputer for outputting a switching control signal at the present time when the difference between the one-time operation signal and the previous one-time operation signal becomes more than a predetermined value; And an electric circuit section for interrupting an AC power supply with a triac according to the switching control signal of the microcomputer and applying a stroke voltage to the linear compressor.

Description

DRIVING CONTROL APPARATUS FOR LINEAR COMPRESSOR}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an operation control device for a linear compressor, and more particularly, to recognize a daily operation value obtained by integrating a current amount consumed by a linear compressor, and then to operate a linear compressor to control a stroke by a change amount of the daily operation value. It relates to a control device.

In general, since the linear compressor has no friction loss because there is no crankshaft that converts rotational motion into linear motion, it is more efficient than other compressors in terms of efficiency, and when the linear compressor is used as a refrigerator or an air conditioner, Compression ratio can be varied by varying the stroke voltage applied to the linear compressor, which can be used for variable cooling power control. Such a linear compressor will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing a configuration of an operation control device of a general linear compressor. As shown in FIG. 1, a linear compressor for adjusting a cooling force by varying a stroke in vertical movement by a stroke voltage according to a stroke command value (L) .COMP); A voltage detector (30) for detecting a voltage generated in the linear compressor (L.COMP) as the stroke is increased by the stroke voltage; A current detector 20 which detects a current applied to the linear compressor L.COMP as the stroke is increased by the stroke voltage; A microcomputer (40) for calculating a stroke from the voltage and current detected by the voltage detector (30) and the current detector (20), comparing the stroke with a stroke command value, and outputting a switching control signal accordingly; In accordance with the switching control signal of the microcomputer 40, consisting of an electric circuit section 10 for interrupting the AC power to the triac (Tr1) to apply a stroke voltage to the linear compressor (L.COMP), the conventional configuration configured as described above Describe the operation of the device.

First, in the linear compressor L.COMP, the piston is moved up and down by the stroke voltage according to the stroke command value set by the user, whereby the stroke is variable to adjust the cooling force.

Meanwhile, the stroke of the triac Tr1 of the electric circuit unit 10 is increased due to a long turn-on period due to the switching control signal of the microcomputer 40. At this time, the voltage and current generated in the linear compressor L.COMP are increased. Are respectively detected by the voltage detector 30 and the current detector 20 and applied to the microcomputer 40.

Then, the microcomputer 40 calculates a stroke by using the voltage and current detected from the voltage detector 30 and the current detector 20, and compares the stroke with the stroke command value, thereby converting the switching control signal accordingly. Output

That is, when the calculated stroke is smaller than the stroke command value, the microcomputer 40 outputs a switching control signal for lengthening the on-cycle of the triac Tr1 to increase the stroke voltage applied to the linear compressor L.COMP. Let's do it.

Unlike the above description, when the calculated stroke is larger than the stroke command value, the microcomputer 40 outputs a switching control signal for shortening the on-cycle of the triac Tr1 to apply the stroke voltage to the linear compressor L.COMP. Decreases.

However, the conventional apparatus operating as described above has a problem in that precise control is impossible with a linear control method that does not consider the nonlinearity because the mechanical motion characteristic has a severe nonlinearity.

Therefore, the present invention devised in view of the above problems recognizes the daily operation value obtained by integrating the current magnitude consumed by the linear compressor, and then controls the stroke by the amount of change in the magnitude of the operation value of the linear compressor. It is an object of the present invention to provide an operation control device of the linear compressor to improve the performance.

1 is a block diagram showing a configuration of an operation control apparatus of a conventional linear compressor.

Figure 2 is a block diagram showing the configuration of the operation control device of the compressor of the present invention.

FIG. 3 is a diagram showing a corresponding relationship between current and displacement in FIG. 2; FIG.

FIG. 4 is a diagram showing a change in the one operation signal with increasing duty ratio of the switching control signal in FIG. 2; FIG.

FIG. 5 is a diagram illustrating a single operation signal and current caused by displacement and current.

Fig. 1 shows the relationship between the one operation signal

***** Description of the symbols for the main parts of the drawings *****

100: electrical circuit unit 200: current detection unit

300: daily operation unit 400: microcomputer

The present invention for achieving the above object is a linear compressor for adjusting the cooling force by varying the stroke in the vertical movement of the piston by the stroke voltage according to the stroke command value; A current detector for detecting a current applied to the linear compressor as the stroke is increased by the stroke voltage; A daily operation unit for integrating the current of the current detection unit for one period and outputting the integrated value as a single operation signal; Comparing the one operation signal of the one operation unit with the previous one operation signal, if the difference between the current operation signal and the previous operation signal is less than a predetermined value, the duty ratio of the switching control signal is gradually increased and output, A microcomputer for outputting a switching control signal at the present time when the difference between the one-time operation signal and the previous one-time operation signal becomes more than a predetermined value; In accordance with the switching control signal of the microcomputer, the AC power is interrupted by a triac, characterized in that it comprises an electric circuit section for applying a stroke voltage to the linear compressor.

Hereinafter, with reference to the accompanying drawings, the operation and effect of the operation control device of the linear compressor according to the present invention will be described in detail.

Figure 2 is a block diagram showing the configuration of the operation control device of the linear compressor of the present invention. L.COMP); A current detector (200) for detecting a current applied to the linear compressor (L.COMP) as the stroke is increased by the stroke voltage; A daily operation unit 300 for integrating the current of the current detection unit 200 for one period and outputting the integrated value as a daily operation signal Wi; A microcomputer 400 which receives the one operation signal Wi of the one operation unit 300 and compares it with a previous one operation signal Wi and outputs a switching control signal according thereto; In accordance with the switching control signal of the microcomputer 400, it consists of an electric circuit section 100 for interrupting the AC power to the triac (Tr1) to apply a stroke voltage to the linear compressor (L.COMP), and thus The operation of the invention will be described.

First, in the linear compressor L.COMP, the piston is moved up and down by the stroke voltage according to the stroke command value set by the user, whereby the stroke is variable to adjust the cooling force.

That is, when the stroke of the triac Tr1 of the electric circuit unit 100 increases due to the turn-on period being increased by the switching control signal of the microcomputer 600, the linear compressor L.COMP is driven by the stroke. .

At this time, the current detector 200 detects a current generated in the linear compressor L.COMP.

Here, the one operation unit 300 receives the detection current from the current detection unit 200 and integrates the detection current for one period and outputs the integral value as the one operation signal Wi, which is expressed as follows. .

, Integral period is 1/60 second

Here, FIG. 3 shows the current and displacement trajectories according to the change of time when the linear compressor L.COMP is started, and 'A' is a point in the trajectory corresponding to the current and displacement. The movement of the trajectory with respect to the current and displacement is repeated in units of 1/60 second in synchronization with the power frequency supplied to the linear compressor (L.COMP).

Thereafter, the microcomputer 400 receives the one operation signal Wi of the one operation unit 300 and compares it with the previous one operation signal Wi to output the switching control signal accordingly.

Here, as shown in Figure 4, there is a point where the difference between the current one-day signal Wi and the previous one-day signal Wi suddenly increases by more than a predetermined value, the point where the TDC is '0' as a result of the experiment You can see that.

5 shows the relationship between the one-time operation signal W by the displacement and the current and the one-time operation signal Wi by the current, and the one-time operation signal Wi and the one-time operation signal W are almost the same. Has

Accordingly, the microcomputer 400 compares the current day operation signal Wi with the previous day operation signal Wh and if the difference is less than a predetermined value, gradually increases the duty ratio of the switching control signal and outputs the current day operation. When the difference between the signal Wi and the previous one-time operation signal Wi becomes a predetermined value or more, the switching control signal having the duty ratio at the present time is maintained and output.

Subsequently, the electric circuit unit 100 intercepts AC power with the triac Tr1 according to the switching control signal of the microcomputer 600 to apply a stroke voltage to the linear compressor L.COMP so that the linear compressor ( L.COMP) control.

In other words, the present invention calculates the integral value of the current generated during the operation of the linear compressor L.COMP while increasing the duty ratio of the switching control signal applied to the triac Tr1 of the electric circuit unit 100. Recognizing it as a signal Wi, if the one-time operation signal Wi is rapidly increased than the previous one-time operation signal Wi, the time is recognized as the point when the TDC is '0' and the triac is the switching control signal at that time. The operation of the linear compressor L.COMP is controlled by controlling the on / off cycle of (Tr1).

As described in detail above, the present invention controls the stroke by the amount of change in the magnitude of the daily calculation value obtained by integrating the current magnitude consumed by the linear compressor in order to detect the nonlinear characteristic caused by the mechanical characteristic during the operation of the linear compressor. By doing so, it is possible to control the TCD of the piston in consideration of the error due to the nonlinear characteristic, thereby improving the operation efficiency of the linear compressor without the information of the displacement.

Claims (4)

A linear compressor for controlling the cooling force by varying the stroke in the vertical movement by the stroke voltage according to the stroke command value; A current detector for detecting a current applied to the linear compressor as the stroke is increased by the stroke voltage; A daily operation unit for integrating the current of the current detection unit for one period and outputting the integrated value as a single operation signal; Comparing the one operation signal of the one operation unit with the previous one operation signal, if the difference between the current operation signal and the previous operation signal is less than a predetermined value, the duty ratio of the switching control signal is gradually increased and output, A microcomputer that maintains and outputs the switching control signal at the present time when the difference between the one operation signal and the previous one operation signal is greater than or equal to a predetermined value; And an electric circuit section for interrupting an AC power supply with a triac according to the switching control signal of the microcomputer and applying a stroke voltage to the linear compressor. The apparatus of claim 1, wherein the microcomputer includes a memory in which one operation signal of the one operation unit is sequentially stored. delete The linear compressor of claim 3, wherein the microcomputer recognizes a time point at which the difference between the current daily operation signal and the previous one operation signal is greater than or equal to a predetermined value as a point at which TDC (Top Dead Clearence) is '0'. Operation control device.