KR20000042683A - Apparatus for protecting hermetic compressor - Google Patents

Abstract

PURPOSE: An apparatus for protecting a hermetic compressor is provided to automatically control a circulation of a refrigerating oil according to an operation temperature property of a thermistor heater without sensing an external temperature by immersing the thermistor heater in the refrigerating oil. CONSTITUTION: An apparatus for protecting a hermetic compressor adopting a heater for increasing a lubricating property of the compressor includes an interior thermistor heater(210) is connected at both end parts of a compressor motor and immersed in a refrigeration oil(200) so that the temperature of the refrigeration oil is controlled without any external sensor for detecting an external temperature in such a manner that a current flow is increased if the temperature of the thermistor heater is low to increase the temperature of the refrigerating oil and the current flow is decreased by a resistance value which becomes relatively high if the temperature is too high.

Description

Hermetic compressor protector

The present invention relates to a hermetic compressor protection device that uses a heater to increase the lubricity of the compressor, and in particular, a built-in thermistor heater is connected to both ends of the compressor motor, and the thermistor heater is configured to be encased in lubricating oil so that the compressor is not required without a separate heater control means. A hermetic compressor protection device for protecting a motor.

Compressor is a device that converts mechanical energy into compressive energy of compressible fluid. Compressor is used to compress low pressure refrigerant gas sucked from evaporator up to condensation pressure. Compressor types include reciprocating compressor, rotary compressor, and turbo. Compressors and the like.

The reciprocating compressor compresses the refrigerant gas through the reciprocating motion of the piston, and the rotary compressor compresses the refrigerant gas by rotating the rotor in the cylinder.The turbo compressor converts the velocity energy into pressure energy by using the centrifugal force of the impeller. Compress the gas.

Such a compressor serves to compress the low pressure refrigerant gas introduced from the evaporator to increase the condensation pressure.

In addition, the refrigerant gas discharged from the compressor circulates through a condenser, an expansion valve, an evaporator, and performs a cooling operation to take heat around the evaporator using the latent heat of evaporation of the refrigerant gas.

In other words, when the compressor compresses the refrigerant gas and raises the pressure and temperature up to the saturation pressure, the condenser absorbs heat contained in the refrigerant gas of high temperature and high pressure by using water or air to condense and liquefy the refrigerant gas. And the liquefied refrigerant gas is rapidly lowered in temperature and pressure by the throttling action of the expansion valve, and the refrigerant gas is cooled by absorbing heat from the object to be cooled as it is evaporated in the evaporator.

1 is a cross-sectional view of a hermetic compressor mainly used, in which a compressor main body is usually installed in a closed space of upper and lower cases 10 and 20.

The compressor main body is divided into a frame 30 serving as a skeletal structure, a drive unit (or motor unit 40) installed at a lower portion of the frame to rotate the shaft 60, and a rotational motion of the shaft converted into a linear motion refrigerant. And a mechanical part 50 for sucking and compressing gas.

The frame 30 supports the entire driving part and the mechanical part, and the upper and lower ends thereof are provided at the side stopper 70 and the coil spring 80, which are cushioning and noise preventing means, so that the upper and lower cases 10 and 20 are maintained at a predetermined interval. Supported by

The drive unit 40 is supported by the frame 30 through the stator bolt and serves as a stator 90, the rotor 100 serving as a rotor, and a shaft installed at the center of the rotor and rotating therewith. It consists of 60.

The mechanical part 50 is composed of a cylinder 110, a piston 120 and a piston rod 130, which substantially sucks and compresses refrigerant gas, and a suction and discharge valve which is a suction and discharge means of the refrigerant gas. 130 is connected to the eccentric portion 61 of the shaft 60 to convert the rotational movement of the shaft into a linear movement to suck and compress the refrigerant gas through the piston 120 in the cylinder (110).

Of these, the shaft 60 functions to transmit the rotational force of the driving unit 40 to the mechanical unit 50 and sucks the refrigeration oil 200 at the bottom by using its own centrifugal force generated during rotation, and then, to the main body. By scattering, the compressor is lubricated and cooled.

That is, the refrigeration oil 200 is sucked up by its own centrifugal force, thereby evenly pumping (spreading) the body, thereby preventing heating of each part, and helping lubrication of the mechanical part 50.

In the hermetic compressor, as shown in FIG. 2, the terminals C, S and M for power supply are exposed to the compressor lower case 20, and the overload protector 140 is coupled to the common terminal C in the form of a plug. Thermistor relay 150 is also coupled to the terminal (S, M) in the form of a plug. And the overload protector 140 and thermistor relay 150 is coupled to the terminal box 160 and also installed to be cut off from the outside using the relay cover 161, the relay cover 161 using the relay band 162. To be coupled to the terminal box 160. The overload protector 140 is configured to be coupled to the terminal C in a plug-in type, and forms a tap terminal 141 to which an AC power can be applied. Of course, the thermistor relay 150 is configured to be coupled in a plug-in form with the terminals (S, M). The overload protector 140 and thermistor relay 150 are electrically coupled to the terminals C, S, and M of the compressor as shown in FIG. 3, and the terminal C of the compressor is connected to the overload protector through the receptacle terminal 142. 140, and the other end of the overload protector 140 applies one side of the AC power through the tab terminal 141. In addition, the terminals S and M of the compressor couple the thermistor relays 150, and the terminals M also couple the other ends of the AC power source. The overload protector 140 includes a heater 143 that is heated at the time of overcurrent due to the overload of the compressor motor, and a bimetal 144 that interlocks with the heating of the heater 143 is disposed at an adjacent portion of the heater 143. In addition, the bimetal 144 functions to block the contact of the movable contact 145-1 of the movable lever 145 connected to the tab terminal 141 with the fixed contact 146 connected to the receptacle terminal 142. In this case, the positions of the receptacle terminal 142 and the tab terminal 141 can be changed as necessary.

4 is a diagram showing a state in which a band heater is used in a hermetic compressor, in which the compressor 1 compresses the vapor of the refrigerant and sends it to the condenser 2, where the vapor of the refrigerant from the compressor 1 is discharged. Cooling and condensation by air, and then performs the function of sending the appropriate amount of refrigerant to the evaporator 4 through the expansion valve (3), and becomes a low temperature low pressure wet steam in the liquid during the passage. Thus, the low temperature and low pressure wet steam made while passing through the expansion valve 3 serves as an original refrigeration purpose in the evaporator 4. At this time, the wet steam is endothermic evaporation performs a function to cool the surroundings to a low temperature. As such, the refrigerant circulates normally along the closed loop by the pumping action of the compressor, during which the evaporation and liquefaction are repeated. In this case, the lubricity is improved by smooth circulation of the internal oil (the refrigeration base oil 200) of the compressor 1 used at low room temperature. This increases the temperature of the internal refrigerator oil 200 to lower the viscosity of the refrigerator oil 200 to maintain the reliability associated with the wear resistance of the compressor. To this end, a band heater is connected to the outside of the housing of the compressor 1, which may represent an associated configuration of the circuit diagram of FIG. 5 (FIG. 5 is a connection diagram of a compressor based on nodes N1 and N2 of FIG. 4). to be). That is, the band heater 5 is connected to both ends of the compressor 1 (nodes N1 and N2), and the band heater 5 includes a contact point 7 turned on and off by the sensor unit 6.

However, this method has to install the sensor unit 6 and the contact point 7 interlocked by it separately, the configuration is complicated and there is a difficulty in installation because the band heater 5 to be coupled to the housing of the compressor (1).

It is an object of the present invention to solve this problem, by using a thermistor heater and storing it in the refrigerator oil to improve the refrigeration oil viscosity of the compressor so that no separate control sensor is required.

To this end, the present invention is equipped with a thermistor heater in the refrigeration oil of the compressor, and forms the protection device of the compressor to be able to use a limited range of heating action by its own characteristics.

1 is a cross-sectional view of a conventional compressor,

2 is an exploded perspective view of a component coupled to a terminal box of a conventional compressor,

3 is a connection diagram of FIG.

4 is an exemplary configuration diagram illustrating a refrigeration cycle associated with a conventional compressor.

5 is a main connection diagram of the compressor corresponding to FIG. 4;

6 is a block diagram of the present invention;

7 is a connection diagram of the present invention.

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

200; refrigeration oil 210; thermistor heater

That is, the present invention is to provide a hermetic compressor protection device, characterized in that in a hermetic compressor using a heater to increase the lubricity of the compressor, a built-in thermistor heater is connected to both ends of the compressor motor, and the thermistor heater is stored in lubricating oil. .

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

6 is a configuration diagram of a refrigeration system using the present invention, in which the compressor 1 compresses the vapor of the refrigerant and sends it to the condenser 2, where the vapor of the refrigerant from the compressor 1 is discharged by air. Cooling and condensation, and then the appropriate amount of refrigerant is sent to the evaporator (4) through the expansion valve (3) to a low-temperature low-pressure wet steam state in the liquid. Thus, the low temperature and low pressure wet steam made while passing through the expansion valve 3 performs an endothermic evaporation function in the evaporator 4 to perform a function of cooling the surroundings to a low temperature. In this case, the thermistor heater 210 whose current flow is varied in accordance with the ambient temperature so as to improve lubricity by smooth circulation of the internal oil (refrigerator oil 200) of the compressor 1 used at low room temperature, the refrigeration oil (200). ).

FIG. 7 is a diagram illustrating an electrical wiring diagram of a thermistor heater 210 connected to the compressor 1 by separating both ends (nodes N1 and N2) of the compressor 1 of FIG. 6. The thermistor heater 210 is connected in parallel to the input nodes N1 and N2.

The present invention configured as described above has a high viscosity because the temperature of the refrigeration oil 200 is low since the initial temperature of the compressor 1 is low, but the thermistor heater 210 stored in the refrigeration oil 200 has a temperature according to the temperature. When the temperature is low, the flow of the current increases, the heating is performed to increase the temperature of the refrigeration oil 200, and when the temperature rises too much, the resistance becomes relatively high (this is a characteristic of the thermistor), thereby restricting the flow of the current. Therefore, the ambient temperature of the thermistor heater 210 is lowered. By repeating the above process, the temperature control is possible only with the thermistor heater using the resistance characteristics of the thermistor without a separate temperature control means. That is, even without sensing the outside temperature (without installing an external sensor), the temperature of the refrigeration oil is raised to the prescribed temperature only by the operating temperature characteristic of the thermistor heater, and the circulation of the refrigeration oil is smoothed. It can be enlarged to stop the function of the heater without any control.

The present invention described above is not limited to the above-described embodiments and drawings, and various permutations, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be apparent to those who have

As described above, the present invention stores the thermistor heater in the refrigeration oil of the compressor, so that the temperature of the refrigeration oil is raised to a prescribed temperature only by operating temperature characteristics of the thermistor heater without sensing the outside temperature (without installing an external sensor). The circulation of the refrigeration oil is smoothed, and after the temperature rises to the prescribed temperature, the resistance of the heater increases so that the function of the heater can be stopped without additional control. In addition, the energy loss by the thermistor heater is extremely small, effectively controlling the refrigeration oil temperature inside the compressor to compensate for the reliability of the compressor used at low room temperature.

Claims (1)

In a hermetic compressor that uses a heater to increase the lubricity of the compressor, the built-in thermistor heater is connected to both ends of the compressor motor and the thermistor heater is stored in the refrigeration oil so that the temperature of the refrigeration oil can be controlled without a separate air sensor. Sealed compressor protection device, characterized in that.