KR0127379Y1 - Fan driving motor control circuit according to the condenser temperature of showcase - Google Patents

Abstract

The present invention relates to a fan drive motor for dissipating heat generated from a condenser of a showcase, and more specifically, a fan drive capable of controlling on / off a fan drive motor that dissipates heat of a condenser according to an external temperature change. It relates to a motor control circuit.

In the showcase of the present invention, the fan drive motor control circuit according to the condenser temperature includes a compressor and a fan drive motor controlled on / off by a temperature controller in order to dissipate heat generated in the condenser. It is characterized in that the temperature sensor is inserted between the controller and the fan drive motor at a predetermined temperature to detect the temperature of the condenser.

Description

Fan drive motor control circuit according to showcase condenser temperature

1 is a partial configuration diagram of a showcase according to the present invention.

2 is a schematic circuit diagram of a showcase according to the present invention.

* Explanation of symbols for main parts of the drawings

2: evaporator 3: expansion valve

4: condenser 6: compressor

8: fan 10: drive motor

12: temperature gap sensor 14: outlet

16: thermostat

The present invention relates to a fan driving motor for releasing heat generated from a condenser of a showcase, and more specifically, a fan driving for controlling on / off a fan driving motor that radiates heat of a condenser according to an external temperature change. It relates to a motor control circuit. According to the present invention, since the fan driving motor can be controlled respectively in the summer outside and the summer in which the temperature is low, the amount of energy used can be reduced.

The showcase is a freezer or refrigerator configured to allow a consumer to look at products such as ice cream or beverage cans displayed inside while storing products such as beverage cans or ice cream at low temperature in a refrigerated or frozen state.

Various types of showcases are used depending on the purpose, and include a cooler, a condenser, a compressor, and an expander for generating cold air in order to keep the inside of the showcase at a low temperature. These cold air generators are mainly installed in the machine room located at the bottom of the showcase.

In particular, the condenser is a device that generates a large amount of heat to change the high-temperature, high-pressure refrigerant to a high-temperature, high-pressure liquid, and uses a separate fan drive motor to dissipate heat to smoothly heat the heat.

At this time, the operation state of the showcase is configured to simultaneously turn on / off the compressor and the fan driving motor according to the on / off control signal of the temperature controller. In other words, if the internal temperature is within the set temperature range of the temperature controller, the compressor and the fan driving motor are stopped. If the temperature is higher than the set temperature, the compressor and the fan motor are simultaneously operated to circulate the refrigerant.

Such showcases are often installed outdoors, so the use range temperature range is very wide. For example, in summer, the ambient temperature rises to about 35 ° C., and in winter, the temperature decreases to about 5 ° C., which causes a wide range of temperature changes of about 30 ° C.

Therefore, in winter, it is possible to dissipate heat in a natural state without dissipating heat by using a drive motor in a condenser, but conventionally, the compressor and the fan driving motor are operated at the same time by the temperature controller as described above. It was impossible to operate properly, resulting in unnecessary waste of power.

The present invention has been devised to solve the above problems, and an object of the present invention is to reduce the wasted energy by controlling the fan drive motor driven to dissipate heat of the condenser according to the showcase ambient temperature. To provide a fan drive motor control circuit.

The fan drive motor control circuit according to the condenser temperature of the showcase of the present invention for achieving the above object comprises a compressor and a fan drive motor controlled on / off by a temperature controller to dissipate heat generated from the condenser In the showcase, it is characterized in that the temperature sensor is inserted between the temperature controller and the fan driving motor at a predetermined temperature to detect the temperature of the condenser.

Hereinafter, the fan driving motor control circuit of the present invention will be described in detail with reference to FIGS. 1 and 2 as follows.

Figure 1 shows a simplified structure of the showcase conventionally used. As shown, the compressor (6) for compressing the refrigerant into a gas of high temperature, high pressure, the condenser (4) for liquefying the compressed refrigerant, the expansion valve (3) for reducing the pressure of the refrigerant, the refrigerant is vaporized An evaporator 2 for generating cold air and a fan drive motor 10 with a fan 8 are shown for dissipating heat from the condenser 4. In the normal operating state, the compressor 6 and the fan drive motor 10 are operated simultaneously according to the temperature range set by the temperature controller (not shown).

The temperature controller (16 in FIG. 2) is for controlling the internal temperature of the showcase, and when the predetermined temperature is reached, the compressor 6 and the fan driving motor 10 are operated to adjust the internal temperature of the small case. When the compressor 6 is operated, the refrigerant circulates to absorb heat from the evaporator 2, so that the temperature inside the showcase is lowered.

According to the present invention, a temperature sensor 12 operating at a predetermined temperature is installed on the surface of the condenser 4 for converting a refrigerant into a liquid of high temperature and high pressure. The temperature sensor 12 may be configured to operate when the surface temperature of the condenser 4 is below a certain temperature (eg 15 ° C. or less).

That is, when the surface temperature of the condenser 4 falls below a predetermined temperature during the operation of the showcase, heat is naturally dissipated without dissipation of the fan driving motor 10. Therefore, the operation of the fan driving motor 10 is stopped to waste energy. Decreases.

The temperature sensor 12 may use, for example, a bimetal. Of course, one of ordinary skill in the art to which the present invention pertains will readily appreciate that an electronic thermometer, such as a transistor, can be used to measure temperature changes more sensitively to temperature changes.

The electrical connection between the temperature sensor 12, the condenser 4 and the fan drive motor 10 will be described with reference to FIG.

Conventionally, the compressor 6 and the fan drive motor 10 were connected in parallel to the temperature controller 16. Therefore, when the power is supplied through the outlet 14, the power is supplied to the compressor 6 and the fan driving motor 10 when the temperature controller 16 operating according to the temperature control range set by the manufacturer is turned on / off. ) Were simultaneously supplied / blocked and operated simultaneously.

According to the present invention, the temperature sensor 12 is inserted between the fan drive motor 10 and the temperature controller 16. The temperature sensor 12 is installed on the surface of the condenser 4 as shown in FIG. 1, to measure the surface temperature of the condenser 4.

When the temperature of the condenser 4 is below a predetermined temperature, the temperature sensor 12 is operated to cut off the power supplied to the fan drive motor 10, so the fan drive motor 10 is turned off.

Referring to the operation and effect of the fan drive motor control circuit of the present invention having the configuration as described above are as follows.

When power is supplied through the outlet 14, the temperature inside the showcase is controlled by the temperature controller 16 installed inside the showcase. That is, according to the temperature set by the temperature controller 16, when the temperature inside the showcase increases, the compressor 6 and the fan driving motor 10 are operated to lower the temperature inside the showcase.

The operating temperature of the temperature sensor 12 at this time measures the temperature of the condenser 4 and is set to operate below a certain temperature (eg 15 ° C. or lower). When the outdoor temperature is high, such as summer, the temperature of the condenser 4 is high, so that the temperature of the condenser 4 is forcibly lowered by using the fan driving motor 10.

In winter, since the outdoor temperature is generally low, the temperature of the condenser 4 during the showcase operation is also lowered, so that the condenser 4 does not have a great influence on the role even without the fan driving motor. Therefore, when the surface temperature of the condenser 4 is below a predetermined temperature, the heat dissipation naturally, so the operation of the fan driving motor 10 is stopped. The means for measuring the temperature at this time is the temperature sensor 12 attached to the surface of the condenser 4.

As described above, according to the present invention, there is an advantage of reducing energy wasted by controlling the fan driving motor driven to dissipate heat of the condenser according to the showcase ambient temperature.

Although the present invention has been described in detail only with respect to the embodiments described, it will be apparent to those skilled in the art that the present invention may be modified or changed within the spirit and scope of the present invention, and such modifications or changes are made by the appended utility model claims. Should be limited.

Claims (2)

In a showcase comprising a compressor 6 and a fan drive motor 10 on / off controlled by a temperature controller 16 to dissipate the heat generated by the condenser 4, the temperature controller 16. And a temperature sensing sensor (12) for detecting a temperature of the condenser (4) by being turned on / off at a predetermined temperature between the fan driving motor (10) and the fan driving motor (10). 2. The fan drive motor control circuit according to claim 1, wherein the temperature sensor (12) is bimetal.