KR0129145Y1 - Overload protecting device for an conditioning machine - Google Patents

Abstract

An overload protection device for an air conditioner compressor that detects a rupture generated during operation of a compressor and installs an overload protection device for controlling its operation simply and firmly, thereby improving the reliability of the operation. Since the device is attached to the upper cap by the action of the elastic spring, there is a problem that the detection function is deteriorated when the device is not properly adhered to the upper cap by an error in the assembly process and an impact generated during the operation of the compressor. By integrally forming and attaching a magnet to the lower end of the housing that is in contact with the upper cap of the compressor body, it is easy and firmly installed, and accurately detects the temperature generated in the compressor to improve the reliability of the operation.

Description

Overload protection device of air conditioner compressor

1 is a partial cutaway side view showing an example of a typical compressor.

2 is a plan view showing an upper portion of the compressor.

Figure 3 (a) (b) is a cross-sectional view of the operating state of the conventional overload protection device of the compressor.

4 is a cross-sectional view of the overload protection device of the embodiment of the present invention.

5 is a partially cutaway side view showing a compressor of an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

1: Compressor Body 2: Upper Cap

10 housing 11 bimetal

20: magnet

The present invention provides an overload protection device for an air conditioner compressor, more specifically, an over-load protector that detects overheating generated during operation of the compressor and controls the operation thereof. It relates to an overload protection device of the compressor for an air conditioner that can improve the.

In general, the compressor installed in the air conditioner serves to suck the evaporated low-temperature and low-pressure refrigerant into a high-temperature, high-pressure gas refrigerant.

The refrigerant compressed by the operation of the compressor is cooled by a so-called heat exchange action that circulates through a refrigeration cycle such as condensation-expansion and evaporation, absorbing heat passing through the cooler and discharging cool air.

Since the compressor requires a relatively high rotational speed and torque to compress the refrigerant to a high pressure, a lot of heat is generated in this process. In particular, overload and overheating occur frequently as overcurrent is induced during initial operation or restart.

Since the overheating phenomenon is a major factor that impairs the compression performance by damaging the stator installed inside the device, a technique for preventing overload and overheating is required.

Due to the above needs, an overload protection device is installed to protect the equipment by detecting an overheating condition at the upper side where intensive overheating occurs during operation of the compressor.

Figure 1 shows the installation state of the conventional overload protection device, an overload protection device (3) is installed in the upper cap (2) for sealing the upper portion of the compressor body (1) to send a stop signal when overheating over a set temperature On the outside thereof, the cover 4 is coupled to the overload protection device to restrain the elastic spring 5 to be in close contact with the upper cap 2 and to protect the terminal 6 mounted at one side.

In the inside of the overload protection device 3 is installed a bimetal (7) to operate by sensing the temperature conducted from the upper cap (2), connecting the contact point 8 and the lead wire (9) during normal operation (second Figure 3 and (a)), while separating overheat (see (b)) to protect the compressor by cutting off the power supply.

After a predetermined time after the separation operation of the bimetal (7) is a return operation is connected to the original state.

However, since the overload protection device 3 is structured to be installed on the upper cap 2 by the action of the elastic spring 5 interposed between the cover 4, in the error of the installation process or during the operation of the compressor There was a problem that can not accurately detect the temperature when not properly contacted by the generated shocks.

In addition, since the elastic spring (5) is in close contact with the overload protection device (3) and the cover (4) is coupled to the outside thereof, the assembly process is cumbersome.

The present invention has been made in view of the problems caused by the installation of the conventional overload protection device as described above, the object is to provide an overload protection device of the compressor for the air conditioner that can simplify the process according to the installation.

Another object of the present invention is to provide an overload protection device for an air conditioner compressor that can be installed firmly without using a separate component.

The purpose of the present invention is to form a magnet attached to the lower end of the housing in contact with the upper cap integrally, it is easy and firmly installed, and to accurately sense the temperature generated in the compressor to improve the reliability of the operation It is done.

Hereinafter, the overload protection device of the compressor for an air conditioner of the present invention will be described with reference to the accompanying drawings.

4 is a cross-sectional view of an overload protection device according to an embodiment of the present invention, and a bimetal 11 that is sensitively deformed according to a temperature change inside the housing 10 is installed, and at one side thereof, a contact 12 through which electricity is applied. ), The lead wires 13 for transmitting the sensed signal to the other side are respectively located and detached at both ends of the bimetal 11.

At the lower end of the housing 10 is attached a magnet 20 in close contact with the upper cap 2 of the compressor body (1).

The magnet is preferably in the shape of a ring that is press-fitted to the bottom outer circumferential surface of the housing 10, and may be in the form of a plate that press-fits to the inner circumferential surface of the housing or seals the bottom of the housing.

5 is a view illustrating a state in which an overload protection device according to an embodiment of the present invention is installed in a compressor, and a magnet attached to a lower end of the housing 10 on an outer surface of the upper cap 2 that seals the upper end of the compressor body 1. Attach (20) closely.

The installation of the housing 10 which detects the overload by the above operation is completed, and in this state, the protective cover 4 is coupled to the outside.

Therefore, in the overload detection device of the present invention as described above, the heat generated by the driving of the compressor is conducted to the bimetal 11 of the housing 10 which detects the overload through the upper cap 2, and the detected temperature is in a normal range. If it is within the both ends to maintain the initial state connecting the contact 12 and the lead wire 13, when the abnormal temperature due to overload is detected, both ends are separated from the contact 12 and the lead wire 13 It has the usual function of protecting the compressor by shutting off the power.

At this time, since the bimetal 11 is overheated while the housing 10 is in close contact with the upper cap 2 of the compressor body 1 in which heat is generated, the temperature is detected in an accurate state and controlled accordingly. Signals can be generated to improve operation reliability and response performance.

In addition, since the installation is completed by the magnetic force of the magnet 200, the assembly is very easy and can maintain a solid state continuously.

The overload protection device of the present invention improves the reliability of operation, thereby preventing damage to the compressor due to overheating, and can reduce the number of parts and improve production competitiveness by simplifying the assembly process. There is an advantage.

Claims (2)

A compressor for an air conditioner having an overload protection device installed on an upper cap (2) coupled to an upper portion of a compressor body (1) and protecting the compressor from overheating caused by overcurrent and overload operation generated at startup, the upper cap ( 2) The magnet 20 attached to the upper cap 2 by magnetic force is pressed in and fixed to the lower end of the housing 10 having the bimetal 11 that is deformed by the temperature change conducted through 2) and sends an operation control signal. Overload protection device of the compressor for an air conditioner, characterized in that the. The overload protection device of a compressor for an air conditioner according to claim 1, wherein the magnet (20) is press-fitted into the outer peripheral surface of the lower end of the housing (10).