KR0183210B1 - Method for controlling fan motor of show case - Google Patents

Abstract

The present invention relates to a method of controlling a fan motor to prevent foreign matter from adhering to the condenser of the showcase in order to extend the condenser efficiency and the life of the compressor, the method comprising: forward driving the fan motor in accordance with the operation of the compressor; Detecting an operation time such that the compressor operation and the fan motor forward rotation drive are performed for a predetermined time in the set in the compressor operation and the fan motor forward rotation drive step; Performing a defrosting operation if it is detected that the driving time has been operated for a predetermined time, and driving the fan motor in reverse rotation; And when the defrosting operation time is detected to operate the defrosting operation and the fan motor for the set time in the defrosting operation and the fan motor reverse rotation driving step, and operates for the set time, the compressor operation and the fan motor forward rotation driving step are performed again. It characterized in that it comprises a step to make.

Therefore, the present invention can remove the foreign matter accumulated in the condenser by allowing the fan motor to discharge the heat generated from the condenser forward and reverse, thereby further improving the condenser heat dissipation efficiency, reducing the overload on the compressor to reduce the compressor life Can be extended.

Description

How to control fan motor in showcase

TECHNICAL FIELD The present invention relates to a showcase, and more particularly, to a method of controlling a fan motor to prevent foreign matter from adhering to a condenser of a showcase in order to extend the condenser efficiency and the life of the compressor.

The basic principle of cooling is that liquid becomes gas, that is, it takes away heat from surrounding objects by the latent heat of evaporation and cools it. By taking away the heat necessary for evaporation from the surroundings, the refrigerant itself becomes a gas and the surrounding objects are cooled.

However, in the cooling operation as described above, only by evaporating the liquid refrigerant, the consumption of the refrigerant is large, which is uneconomical, and since the refrigerant disappears after a while, it cannot be cooled continuously. A repeat cycle is needed to return the liquid back.

1 is a schematic view of an apparatus for forming a cooling cycle, the evaporator 10 for allowing the liquid refrigerant flowing through the cooling tube to evaporate, and the gaseous refrigerant evaporated in the evaporator 10 to be absorbed and recovered at a high temperature and high pressure. Compressor 20 to compress, and a condenser 30 to liquefy by cooling the gas refrigerant compressed by the high temperature and high pressure in the compressor 20.

In this configuration, when the gas refrigerant evaporated in the evaporator 10 is absorbed and recovered by the compressor 20 and is compressed to high temperature and high pressure and sent to the condenser 30, the condenser 30 passes through the compressor 20. Since the liquid is cooled and liquefied, it is solved that all of the liquid refrigerant evaporates with a certain amount of refrigerant by evaporating it again.

At this time, in the cycle, heat is generated when the condenser 30 reduces the temperature of the high temperature heat from the compressor 20 to an appropriate level, and the heat generated is usually discharged using a fan. do.

FIG. 2 is a schematic view of a conventional showcase cooling device, showing that a fan 40 for dissipating heat of the condenser is further installed in the device for forming the cooling cycle of FIG. 1.

3 is a circuit diagram of a conventional showcase cooling apparatus, and a defrost timer T connected in parallel to a power supply terminal, a fan motor M connected in parallel to a power supply terminal, and a control supplied by the defrost timer T. A switch SW for selectively transmitting a power signal to the first or second connection terminals 1 and 2 in response to the signal, a compressor C connected between the first connection terminal 1 and a ground; The defrost heater H is connected between the second connection terminal 2 and the ground, and the evaporator heater HT is connected between the defrost heater H and the ground.

With the configuration as described above, the compressor C is operated when the switch SW for the switching operation according to the regeneration timer T is connected to the first connection terminal 1, and the defrosting is connected to the second connection terminal 2. The heater H and the evaporation heater HT are operated. Here, the fan motor M is operated by a constant power source, and is always forced to blow the condenser in one direction to perform forced air cooling.

However, in the conventional showcase as described above, since the fan motor M forcibly air-cooling the condenser is operated only in one direction, dust or foreign matter at the bottom of the store where the showcase is installed may accumulate in the condenser. Failure to remove the dirt can reduce condensation efficiency and overload the compressor, which will reduce compressor life.

In order to solve the problem that the fan for discharging the condenser heat is operated only in one direction as described above, foreign matter accumulates in the condenser of the showcase to reduce the condensation efficiency and the compressor life due to the overload of the compressor is also shortened. The present invention provides a method of controlling a fan motor of the showcase by controlling the fan motor of the showcase to prevent foreign matter or dust from accumulating in the condenser.

In the showcase fan motor control method of the present invention for achieving the above object is to compress the refrigerant evaporated in the evaporator in a compressor at a high temperature and high pressure in the condenser in order to withdraw heat from the surrounding objects by the latent heat of evaporation when the power is applied In the showcase having a cooling cycle to liquefy again, to drive the fan motor to discharge the heat generated from the condenser to the outside while the compression operation and the defrosting operation alternately by the set time, the compressor operation Driving the fan motor forward in accordance with the rotation; Detecting an operation time such that the compressor operation and the fan motor forward rotation drive are performed for a predetermined time in the set in the compressor operation and the fan motor forward rotation drive step; Performing a defrosting operation if it is detected that the driving time has been operated for a predetermined time, and driving the fan motor in reverse rotation; And when the defrosting operation time is detected to operate the defrosting operation and the fan motor for the set time in the defrosting operation and the fan motor reverse rotation driving step, and operates for the set time, the compressor operation and the fan motor forward rotation driving step are performed again. It characterized in that it comprises a step to make.

1 is a schematic diagram of a device for achieving a general cooling cycle.

2 is a schematic view of a conventional showcase cooling device.

3 is a circuit diagram of a conventional showcase cooling device.

4 is a circuit diagram of a showcase cooling apparatus according to the present invention.

5 is a flowchart illustrating a fan motor control method of a showcase according to the present invention.

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

4 is a circuit diagram of a showcase cooling apparatus according to the present invention, in which a power signal is selectively selected in response to a defrost timer T connected in parallel to a power supply terminal, and a control signal supplied by the defrost timer T; A switch (SW) for transmitting to the second connection terminals (1, 2), a compressor (C) connected between the first connection terminal (1) and ground, and between the second connection terminal (2) and ground Defrost heater (H) is connected, the evaporation heater (HT) connected between the defrost heater (H) and the ground, and the switch SW as a result of being connected to the first and second connection terminals (1, 2) The fan motor M1 rotates forward and backward.

With the above configuration, the switch SW is connected to the first connection terminal 1 during the operation time of the compressor C preset in the defrost timer T so as to transfer a power signal to the compressor C while the fan The motor M1 is rotated forward, and the defrost heater H and the switch SW are connected to the second connection terminal 2 at the operation time of the defrost heater H preset in the defrost timer T. While transmitting a power signal to the evaporation heater (HT) to reverse the fan motor (M1).

FIG. 5 is a flowchart illustrating a method for controlling a fan motor of a showcase according to the present invention. Referring to FIG. 4, first, when the application of power is checked (S1), the fan motor is operated in accordance with the operation of the compressor (C). The switch SW is connected to the first connection terminal 1 to drive M1 in forward rotation (S2). In addition, the operation time is detected using the defrosting timer T so that the compressor C operation and the fan motor M1 forward rotation driving S2 are operated for a time set in the set (S3). ) When the operation time and the fan motor M1 forward rotation drive time are detected (S3), if the operation time is not maintained for the set time, the operation of the compressor C and the forward rotation drive of the fan motor M1 are continued (S2). ) And the switch (SW) to the second connection terminal (2) to drive the defrost heater (H) and the fan motor (M1) in reverse rotation (S4) when the operation is performed for a set time. Switch to connect. Defrost heater (H) operation and fan motor (M1) reverse rotation drive (S4) is driven by using the defrost timer (T) to be driven by the time set in the set (S5), and detects the operation time In operation S5, the switch SW is switched to the first connection terminal 1 so that the compressor C is operated and the fan motor M1 is rotated forwardly (S2) when the operation is performed for the set time.

That is, when the fan motor M1 is rotated forward or reverse at the operating time of the compressor C or the defrost heater H according to the time detected by the defrost timer T as described above, the compressor C is operated during the operation period. Although the fan motor M1 rotates forward and dirt or other foreign matter accumulates on the condenser, the fan motor M1 is rotated in reverse during the operation of the defrost heater H to remove the foreign matter accumulated in the condenser. It will be possible.

According to the present invention, since the fan motor for discharging heat generated from the condenser is rotated forward and backward to remove foreign substances accumulated in the condenser, the condenser heat dissipation efficiency can be further improved, and the overload applied to the compressor can be reduced. It can extend the life.

Claims (1)

It has a cooling cycle to compress the refrigerant evaporated in the evaporator to high temperature and high pressure in the compressor and liquefy it in the condenser in order to lose heat from the surrounding objects by latent heat of evaporation while the power is applied. A showcase for driving a fan motor to discharge to the outside while the compression operation and the defrosting operation is alternately operated by a predetermined time, the showcase comprising the steps of: forward driving the fan motor in accordance with the compressor operation; Detecting an operation time such that the compressor operation and the fan motor forward rotation drive are performed for a predetermined time in the set in the compressor operation and the fan motor forward rotation drive step; Performing a defrosting operation if it is detected that the driving time has been operated for a predetermined time, and driving the fan motor in reverse rotation; And when the defrosting operation time is detected to operate the defrosting operation and the fan motor for the set time in the defrosting operation and the fan motor reverse rotation driving step, and operates for the set time, the compressor operation and the fan motor forward rotation driving step are performed again. Fan motor control method comprising the steps of.