KR100301499B1 - Lubricant mode setup method for compressor of inverter refrigerator - Google Patents

Abstract

The present invention relates to a method for setting a lubrication mode of an inverter refrigerator compressor. In the related art, when the rotation speed is increased or decreased, it is fixed at 60 kPa for a sufficient time for sufficient lubrication to the cylinder part of the compressor. In the lubrication mode of operation, noise has to be generated because the resonant frequency band (for example, 48 kHz to 52 kHz) must be rapidly passed through.

Therefore, the present invention was devised to solve the above-mentioned conventional problems, and after setting the lubrication mode start frequency and stop frequency, lubrication time and resonance frequency band at the initial startup of the refrigerator compressor, the rotation frequency of the compressor A first step of determining whether has reached the lubrication mode start frequency; A second step of determining whether a predetermined lubrication time has elapsed after the lubrication starts by varying the speed increase rate to a predetermined angle when the determination result of the first step is reached; If the result of the determination of the second step has elapsed, the method comprises a third step of detecting the internal temperature of the refrigerator and setting the current operating frequency accordingly and switching to normal operation. By performing the lubrication operation performed at a lower frequency than the resonance frequency band, there is an effect of reducing the starting noise.

Description

Lubrication mode setting method of inverter refrigerator compressor {LUBRICANT MODE SETUP METHOD FOR COMPRESSOR OF INVERTER REFRIGERATOR}

The present invention relates to a method for setting a lubrication mode of an inverter refrigerator compressor. In particular, the lubrication mode for suppressing cylinder wear of the compressor is lubricated in a frequency region lower than the resonant frequency region so as to reduce noise during startup. Lubrication mode setting method.

The inverter refrigerator rectifies the frequency (60 kHz) of the AC power source into DC and simultaneously changes the supplied frequency (PWM method), so that the motor rotation speed of the compressor can be adjusted differently. As it can be controlled small, when there are many foods to be stored at a low temperature in the refrigerator as shown in FIG. 1, that is, when the temperature inside the refrigerator is higher than the set value, the rotational speed of the compressor is rapidly increased (normally rotated). Frequency of 60Hz or more, and when the quantity of food is low or no, that is, when the sensed temperature inside the refrigerator is at the same temperature or lower than the set temperature, it can be operated at low speed (normally 60Hz or less) to take away less heat. The operation is controlled to reduce the energy required for unnecessary refrigerant compression.

Compressor motor operation control of the inverter refrigerator for the operation described above can be divided into three sections, the first section is the initial position setting mode to always set the rotor to a constant phase by energizing the current before starting In the second section, the induction electromotive force cannot be detected because the motor speed is low at the initial stage. Therefore, the synchronous operation mode which starts by increasing the rotation speed with the appropriately set torque, and the third section has sufficient induction electromotive force due to the increase in the rotation speed of the motor. It can be detected and can be divided into the rotor detection operation mode in which an appropriate current is distributed and controlled according to the positional information by the induced electromotive force.

The lubrication mode, which is a mode additionally set during the rotor detection operation, is a state in which the lubrication is not sufficiently lubricated to the cylinder part of the compressor when the rotational speed is increased or decreased immediately to the target rotational speed. After sufficient lubrication is carried out, the rotation speed is increased or decreased to prevent wear of the cylinder.

This lubrication is applied to the induction motor, not the inverter motor, and is made by the pumping action by the centrifugal force of the lubrication pump connected to the shaft of the compressor, and the lubrication pump is designed to be most effective at the rotation frequency of the induction motor at 60 Hz. In general, the number of revolutions in the lubrication mode is 60 kW, the lubricating oil pumping frequency developed before the inverter is adopted (adopted to minimize additional development costs).

As described above, in the related art, when performing the lubrication mode of operating at fixed speed of 60㎐ for a certain time for sufficient lubrication of the cylinder part of the compressor when the rotational speed is increased or decreased and then immediately converted to the target rotational speed, resonance Since the frequency band (for example, 48 kHz to 52 kHz) must pass at a rapid acceleration, there is a problem in that noise is generated.

Therefore, the present invention was devised to solve the above-mentioned problems. When the compressor reaches a predetermined frequency lower than the resonant frequency band after starting the compressor, the speed increase rate is varied to slowly reach a predetermined frequency while performing the lubrication mode. Its purpose is to provide a method of controlling the control.

1 is an exemplary view showing a rotational frequency of a compressor according to a conventionally loaded food load.

2 is a frequency characteristic graph showing a compressor operation control mode of a conventional inverter refrigerator.

3 is a flow chart showing the operation of the present invention.

4 is a flow chart showing another operation of the present invention.

5 is a frequency characteristic graph showing a compressor operation control mode of the inverter refrigerator to which the present invention is applied.

6 is a frequency characteristic graph showing a compressor operation control mode of another inverter refrigerator to which the present invention is applied.

In the lubrication mode setting method of the inverter refrigerator compressor of the present invention for achieving the above object, after setting the lubrication mode start frequency and stop frequency, the lubrication time and the resonance frequency band at the initial startup of the refrigerator compressor, the rotation frequency of the compressor A first step of determining whether has reached the lubrication mode start frequency; A second step of determining whether a predetermined lubrication time has elapsed after the lubrication starts by varying the speed increase rate to a predetermined angle when the determination result of the first step is reached; When the determination result of the second step has elapsed, a third step of detecting the temperature in the refrigerator and setting the current operating frequency accordingly to the normal operation is performed.

In another method, after initial setting of the refrigerator compressor, the lubrication mode band and the upper and lower limits of the band are set, and the lubrication time and the resonance frequency band are set, and then the rotation frequency of the compressor reaches the lowest lubrication mode band. Determining a first step; A second step of starting a lubrication operation when the determination result of the first step is reached and determining whether the lower limit value of the lubrication mode band is out of the lubrication operation; Determining whether the upper limit of the lubrication mode band is outside the determination result of the second step, and determining whether the upper limit of the lubrication mode band is outside the upper limit value of the lubrication mode band if it is out of the determination result of the second step. With three steps; A fourth step of judging whether a predetermined lubrication time has elapsed if not inconsistent with the determination result of the third step; If the result of the determination of the fourth step has not elapsed, the method returns to the second step, and if it has elapsed, the fifth step of detecting the internal temperature of the refrigerator and setting the current operating frequency accordingly to the normal operation is performed. .

In another method, after initial setting of the refrigerator compressor, the lubrication mode band and the upper and lower limits of the band are set, and the lubrication time and the resonance frequency band are set, and then the rotation frequency of the compressor reaches the highest lubrication mode band. Determining a first step; A second step of starting a lubrication operation when the determination result of the first step is reached and determining whether the upper limit of the lubrication mode band is out of the lubrication operation; If the determination result of the second step does not deviate, it is determined whether the lower limit value of the lubrication mode band is out. If the deviation is out of the determination result of the second step, the voltage is reduced, and then the determination is made to determine whether the lower limit value of the lubrication mode band is exceeded. With three steps; A fourth step of determining whether or not a predetermined lubrication time has elapsed if not inconsistent with the determination result of the third step; If the result of the determination of the fourth step has not elapsed, the method returns to the second step, and if it has elapsed, the fifth step of detecting the internal temperature of the refrigerator and setting the current operating frequency accordingly to the normal operation is performed. .

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

3 is a flow chart showing the operation of the present invention, Figure 5 is a frequency characteristic graph showing the compressor operation control mode of the inverter refrigerator to which the present invention is applied, as shown in the lubrication mode start frequency and the initial startup of the refrigerator compressor as shown therein After setting the stop frequency, the lubrication time and the resonant frequency band (step 1), it is determined whether the rotational frequency of the compressor has reached the lubrication mode start frequency (step 2). After the lubrication is started by varying the angle (step 3), it is determined whether a predetermined lubrication time has elapsed (step 4), and when the determination result has elapsed, the internal temperature of the refrigerator is sensed and the current operating frequency is set accordingly to normal operation. Switch to (steps 5 to 7).

The lubrication mode start frequency f ₁ is set to a frequency lower than the resonant frequency band (for example, 48 Hz to 52 Hz) (for example, 39 Hz), and the lubrication time (t ₁ : 20 seconds) is lubricated. It is set to the time to reach the lubrication mode stop frequency (f ₂ : 45 Hz) at a constant angle at a predetermined angle (for example, 5 °) from the mode start frequency f ₁ .

4 is a flowchart showing still another operation of the present invention. As shown in FIG. 4, the lubrication mode band (f _{1 to} f ₂ : 39 kPa to 45 kPa) and the lubrication time t ₁ at the initial startup of the refrigerator compressor are shown. After setting the resonant frequency band (for example, 48 kHz to 52 kHz) (step 10), it is determined whether the lowest lubrication mode band (39 kHz) is reached. 12) It is determined whether or not the frequency f ₀ deviates from the lower limit of the lubrication mode band (for example, 40 kHz) by the ripple of the voltage during lubrication operation (40 ㎐> f ₀ ) (step 13). If it does not deviate, it is determined whether the upper limit of the lubrication mode band (for example, 44 kPa) is out of range (f ₀ 〉 40 kPa) (step 15), and if it is out of the determination of step (step 13), the voltage is increased. (step 14), determines did beyond the maximum lubrication mode band (f _0> 40㎐) and (step 15), the lead has determined that the departing It is determined whether a predetermined lubrication time (for example, 20 seconds) has elapsed (step 17), and if it is out of the determination result of the step (step 15), after the voltage is reduced (step 16), the predetermined lubrication time (20 seconds) ) Is determined (step 17), and if the result of the determination is not passed, the process returns to the step (step 11), and if so, the internal temperature of the refrigerator is sensed and the current operating frequency is set accordingly to switch to normal operation. (step 18 to step 20).

In addition, unlike the method described above, as shown in FIG. 6, whether the operation of the above-described steps (steps 2 to 16) reaches the maximum lubrication mode band is started, the lubrication mode is started, and It is determined whether the upper limit value and the lower limit value deviate, and the operation is changed to an operation of increasing or decreasing the voltage, and the subsequent operation may be performed in the same manner as described above (steps 17 to 20).

As described above, the method for setting the lubrication mode of the inverter refrigerator compressor of the present invention has the effect of reducing the lubrication noise by gradually lubricating operation performed at 60 Hz at a frequency lower than the resonant frequency band through the resonant frequency band at rapid acceleration. There is.

Claims (6)

Setting a lubrication mode start frequency and a stop frequency, a lubrication time, and a resonant frequency band at the initial startup of the refrigerator compressor, and then determining whether the rotational frequency of the compressor reaches the lubrication mode start frequency; A second step of determining whether a predetermined lubrication time has elapsed after the lubrication starts by varying the speed increase rate to a predetermined angle when the determination result of the first step is reached; And a third step of detecting the internal temperature of the refrigerator, setting the current operating frequency according to the determination result of the second step, and switching to normal operation. The method of claim 1, wherein the lubrication mode start frequency is set to a frequency lower than a resonance frequency band. The lubrication mode setting method of claim 1, wherein the lubrication time is set to a time at which the lubrication mode stop frequency is reached at a constant angle at a predetermined angle from the lubrication mode start frequency. A first step of determining whether the rotational frequency of the compressor reaches the lowest lubrication mode band after setting the lubrication mode band, the upper and lower limits of the band, and the lubrication time and the resonant frequency band at the initial startup of the refrigerator compressor. Steps; A second step of starting a lubrication operation when the determination result of the first step is reached and determining whether the lower limit value of the lubrication mode band is out of the lubrication operation; A third step of determining whether the lubrication mode band is out of the upper limit of the lubrication mode band if it is not out of the determination result of the second step; Steps; A fourth step of determining whether or not a predetermined lubrication time has elapsed if the determination result of the third step has not elapsed; If the result of the determination of the fourth step has not elapsed, the process returns to the second step, and if it has elapsed, the fifth step of detecting the internal temperature of the refrigerator and setting the current operating frequency accordingly to the normal operation is performed. How to set lubrication mode of inverter refrigerator compressor. 4. The method of claim 3, wherein the lubrication mode band has a predetermined bandwidth lower than a resonance frequency band. A first step of determining whether the rotation frequency of the compressor reaches the highest lubrication mode band after setting the lubrication mode band, the upper and lower limits of the band, and the lubrication time and the resonant frequency band at the initial startup of the refrigerator compressor. Steps; A second step of starting a lubrication operation when the determination result of the first step is reached and determining whether the upper limit of the lubrication mode band is out of the lubrication operation; If the determination result of the second step does not deviate, it is determined whether the lower limit value of the lubrication mode band is out. If the deviation is out of the determination result of the second step, the voltage is reduced, and then the determination is made to determine whether the lower limit value of the lubrication mode band is exceeded. With three steps; A fourth step of determining whether or not a predetermined lubrication time has elapsed if not inconsistent with the determination result of the third step; If the result of the determination of the fourth step has not elapsed, the process returns to the second step, and if it has elapsed, the fifth step of detecting the internal temperature of the refrigerator and setting the current operating frequency accordingly to the normal operation is performed. How to set lubrication mode of inverter refrigerator compressor.