KR920009312B1 - Refrigerator - Google Patents

Abstract

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Description

Refrigerator

1 is a circuit diagram illustrating one embodiment of the present invention.

2 is a circuit diagram showing a conventional example.

* Explanation of symbols for the main parts of the drawings

11: commercial power 14: inverter

16: changeover switch 17: compressor motor

18: starting device 23: current detector

24: drive control circuit

The present invention relates to a refrigerator which can be switched between the case where the compressor motor is driven by commercial power and the case where the compressor motor is driven by the output of the inverter.

Recently, a refrigerator has been provided which can be used to drive a compressor motor with a commercial power source to perform a normal refrigeration operation and to drive a compressor motor with an output of an inverter to perform a rapid freezing operation.

One example of such a degree of refrigeration is shown in FIG.

In FIG. 2, # 1 is a single-phase 100V, commercial power source having a frequency of, for example, 60 Hz, and # 2 is an inverter, and the frequency of the output power source is set higher than the commercial power source, for example, 90 Hz. .

# 3 is the compressor motor and # 4 is the changeover switch. When the changeover switch 4 is switched, the compressor motor 3 is driven by the commercial power source 1 and the output power of the inverter 2 is used. It can be switched to the case of driving.

＂5＂ A switch that energizes the compressor motor. It is controlled to open when the temperature in the freezer is below the set value, and the compressor is moved during normal refrigeration operation by opening and closing this switch (5). The operation and stop of the rotor 3 are controlled.

However, when the compressor motor 3 is driven by the commercial power source 1 (in the case of a normal refrigeration operation) in the refrigerator as described above, the compressor motor 3 is not energized or disconnected. When switching the switching switch 4 to drive (fast freezing operation) to the output power of the inverter 2 caused the following problems.

That is, when the commercial power source 1 is supplied to the compressor motor 3 at the time of such a switching, the driving power source may change from 60 Hz of the commercial power source 1 to 90 Hz which is the output power frequency of the inverter 2. Since this does not cause any problem in driving the compressor motor 3 by the output power of the inverter 2, the compressor motor 3 is stopped when the compressor motor 3 is in a disconnection state as described above. The compressor motor 3 is suddenly given the output power frequency of the inverter 2, which is 90 Hz, so that the compressor motor 3 may be stopped. Even if the motor is started, the compressor motor 3 is drastically driven by the output power frequency of the inverter 2, so that the refrigerant oil in the compressor diffuses into the refrigeration cycle, which may cause the compressor to malfunction. Jean And the noise was a problem such as increase.

An object of the present invention is to prevent the malfunction of the compressor motor and the failure of the compressor when switching from the case of driving the compressor motor to the commercial power source to the case of driving the output power of the inverter, while at the same time to prevent vibration and noise To provide a refrigerator that can be reduced.

The present invention provides a refrigerator in which a compressor motor can be switched to a case in which the compressor motor is driven by a commercial power source and a case where the frequency of the output power is driven by an inverter set higher than the frequency of the commercial power source. When operating with the output power of the inverter, the compressor motor is switched from the commercial power supply to the output power of the inverter by installing a drive control device that controls the drive to be driven by the commercial power first and then by the output power of the inverter. This allows the compressor motor to start up well even when the compressor motor is stopped during operation.

An embodiment of the present invention will now be described with reference to FIG.

Numeral 11 is a single-phase 100 V, for example, a commercial power source having a frequency of 60 Hz. Numerals 12 and 13 are bus lines connected to the commercial power source 11, and 14 are buses with an input side. Inverter connected to (), which has an output power supply frequency set to 90 Hz.

Numeral 15 is a switch for exclusive use of the compressor motor through which is connected to the bus bar 12.

＂16＂ is a changeover switch made of an interlocking switch, which is used to close the contact between each contact ca of one switch 16a and the other switch 16b together with each contact of each switch 16a, 16b ( cd) can be switched to the case of closing together.

In one switch 16a of the changeover switch 16, the fixed contact a is connected to the bus line 12 through the above-described switch 15, and the fixed contact b is connected to the inverter 14. It is connected to one output terminal.

In the other switch 16b, the fixed contact a is connected to the bus bar 13, and the fixed contact piece b is connected to the other output terminal of the inverter 14. have.

Numeral 17 is a compressor motor consisting of a single induction motor, and numeral 18 is a starting device.

The starting device 18 is provided with a starting condenser 19, a starting / closing switch 20 consisting of a centrifugal switch and an operating condenser 21, and these condensers 19, 21 and a starting / closing switch ( 20 is connected to the main winding 17a and the auxiliary winding 17b of the compressor motor 17 as shown in FIG.

“22” is the overload relay and “23” is the current sensor.

The above-described starter 18, compressor motor 17, these overload relays 22 and current detectors 23 are different from the movable contact c of one switch 16a of the changeover switch 16. As shown in FIG. 1, the movable contact c of the side switch 16b is connected.

Numeral 24 is a drive control device that includes a quick freezing set signal by operating a quick freezing start switch (not shown), a temperature detection signal from a temperature sensor for detecting the temperature of a freezer compartment (not shown), and the current detector (23). Current detection signal from the

The drive control device 24 controls to close the contact point ca of the changeover switch 16 when there is no input of the quick freezing set signal, and simultaneously controls the above-described switch 15 by the above-described temperature detection signal. Control opening and closing.

When the rapid freezing set signal is input, the switch 15 is controlled to be forcibly closed, and the changeover switch 16 when the current detection signal from the above-described current sensor 23 falls below a set value. Control to close between each contact (cb) of the.

The operation of the configuration as described above will be described.

Assuming that a state of normal refrigeration operation is being made at present, there is no input of a quick freezing set signal to the drive control device 24, so that the drive control device 24 has each contact point ca of the changeover switch 16. The compressor motor 17 is driven by the commercial power source 11 because it is closed.

At this time, the opening and closing control of the switch 15 according to the temperature of the freezer compartment controls the operation and stop of the compressor motor 17.

In this case, when the rapid freezing start switch is operated to perform the rapid freezing operation, the switch 15 is forcibly closed by the drive control device 24. As a result, the compressor motor 17 initially has a commercial power supply 11 (frequency 60 Hz). To drive.

When the current detection signal from the current sensor 23 becomes less than or equal to the set value, the compressor motor 17 is inverted by switching between the contacts cb of the changeover switch 16 by the drive controller 24 to be closed. It is driven by the output power (frequency 90 Hz) of the adapter 14.

According to the present embodiment as described above, when the compressor motor 17 is driven by the output of the inverter 14, it is controlled to be driven by the commercial power source 11 first and then by the inverter 14. Since the drive control device 24 is installed, when the compressor motor 14 is in a stopped state, when the compressor power source 11 is switched from the commercial power source 11 to the output of the inverter 14, the inverter motor 17 suddenly turns on the inverter. Since the high frequency output power of (14) is not given, it is possible to eliminate the starting failure and also prevent the compressor oil from spreading into the refrigeration cycle. It can also eliminate the occurrence.

Moreover, since the compressor motor 17 is always supplied with the commercial power source 11 to the compressor motor 17 when the compressor motor 17 is operating, the compressor motor 17 is driven by the commercial power source 11 and the inverter 14 is used. In the case of driving at the output of the motor, one starter 18 is sufficient as the starter. Furthermore, the starter 18 can be used as a standard for commercial power supply, which makes it easy to select components. Can contribute.

The present invention provides a compressor in which a compressor can be switched between driving a compressor motor with a commercial power source and driving an inverter with an output power frequency higher than the commercial power frequency as described above. When the motor is driven by the commercial power supply when the motor is driven by the output power of the inverter, the compressor motor is driven by the commercial power supply by installing a drive control device that controls the drive to be driven by the commercial power source first and then by the output power of the inverter. It can reduce the vibration and noise at the same time as it can eliminate the malfunction of the compressor motor and the failure of the compressor when switching from the drive to the output of the inverter. In addition, the number of starting devices for the compressor motor can be reduced. At the same time, selection of the components of this starting device can also be facilitated. Etc. can be obtained excellent effects that can greatly contribute to the reduction.

Claims (2)

When the compressor motor 17 is driven by the first power supply device 11, and when the output power frequency is driven by the second power supply device 14, which is set higher than the frequency of the first power supply device. In the refrigerator provided with the switching switch 16 which is a switching device, when the compressor motor is driven at the output frequency of the second power supply device, the above-mentioned second power supply device is started after starting with the above-mentioned first power supply device. Refrigerator, characterized in that the drive control device 24 is installed to control the drive to drive. The refrigerator according to claim 1, wherein said first power supply device is a commercial power supply and said second power supply device is an inverter.

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