KR0127293Y1 - Structure of closed compressor case - Google Patents

Abstract

The present invention relates to a structure of a hermetic compressor case, a motor for generating rotational force by an applied power source, and a refrigerant compression device and the motor for receiving a rotational force of the motor to receive a refrigerant and discharging the refrigerant at a predetermined pressure. And a case accommodating a refrigerant compression device, the structure of the hermetic compressor case characterized in that a groove for a refrigerant flow is formed in a circumferential surface of the case facing the electric motor.

Description

Structure of hermetic compressor case

1 is a longitudinal sectional view showing a conventional hermetic compressor.

Figure 2 is a longitudinal sectional view showing a case of the hermetic compressor according to the present invention.

3 is an enlarged view showing the shape of the inner peripheral surface of the case according to the present invention.

* Explanation of symbols for main parts of the drawings

1 case 2 upper cover

3: lower cover 4: electric motor

5: refrigerant compressor 6: stator

7: rotor 8: discharge tube

9: lattice groove

The present invention relates to a structure of a case of a hermetic compressor, and more particularly to a case of a hermetic compressor to improve the cooling effect of the compressor.

In general, the conventional hermetic rotary compressor has a vertical cylindrical case (1) with upper and lower ends, an upper cover (2) welded to an upper end of the cylindrical case, and a cylindrical case as shown in FIG. A lower cover (3) welded to the lower end portion, an electric motor (4) to be press-fitted into the cylindrical case and positioned in the inner upper space of the cylindrical case, and located near the lower cover of the inner lower space of the cylindrical case, It consists of a rotary refrigerant compressor (5) is operated.

In addition, the electric motor 4 is composed of a stator 6 for generating a magnetic field by the applied power and a rotor 7 for generating a rotational force by the magnetic field of the stator to transmit the rotational force to the refrigerant compressor 5.

When the compressor is driven in this configuration, the rotor 7 is rotated by the magnetic field generated by the stator 6, and the refrigerant of low pressure is compressed as the refrigerant compressor 5 connected to the rotor is rotated, so that It becomes a gaseous refrigerant.

The compressed gas refrigerant is transferred between the top cover 2 and the motor 4 through the gap between the case 1 and the stator 6 and the gap between the stator 6 and the rotor 7 (AIR-GAP). Accumulated in the sealed space is discharged to the outside of the compressor through the discharge tube (8) of the upper part of the compressor and is continuously sucked through the heat exchanger, evaporator and condenser and then sucked back into the compressor.

In addition, when the power is applied and the compressor is driven, the magnetic field is generated in the stator, the process of generating the rotational force of the rotor by the magnetic field generated in the stator converts electrical energy into kinetic energy in the motor, so heat is generated in the motor The internal temperature rises, causing the compressor to overheat.

Therefore, the overheating of the compressor burns coils and cores, which are parts constituting the motor, and thus shortens the life of the compressor, and increases the loss of the motor due to heat, thereby reducing the efficiency of the motor.

However, the means for cooling the compressor merely cools the heat generated by the electric motor by the coolant flowing between the stator, the rotor, and the case, and does not have a separate cooling device.

Therefore, the present invention has been made in view of the above-described problems, and by inducing the flow of the refrigerant and increasing the contact area of the refrigerant to absorb the heat of the motor to release the outside to prevent the compressor from easily overheating, It is an object of the present invention to provide a structure of a case of a hermetic compressor which extends the life and improves the efficiency of the electric motor.

An object of the present invention described above is a refrigerant compressor and a motor and a refrigerant compression device for generating a rotational force by an applied power and a refrigerant receiving the rotational force of the electric motor to the lower portion of the motor to discharge the refrigerant at a constant pressure. In the hermetic compressor configured as a housing, it is achieved by providing a structure of the hermetic compressor case, characterized in that a groove for refrigerant flow is formed in the circumferential surface of the case facing the electric motor.

According to a preferred feature of the present invention, the groove is characterized in that the lattice structure.

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

As shown in FIG. 2, the connection of a rotor and an electric motor 4 constituted of a stator 6 in which a magnetic field is generated when power is supplied and a rotor 7 in which a rotational force is generated by a magnetic field generated by the stator As a result of the rotation, the refrigerant compressor 5, which sucks the low pressure refrigerant and discharges the refrigerant at a predetermined pressure, has the same reference numeral as that in FIG.

Further, a lattice groove 9 is formed in the circumferential surface of the case 1 facing the electric motor 4.

It describes the operation of the present invention in the state configured as described above.

The refrigerant discharged from the refrigerant compressor 5 is discharged into the sealed space through a gap between the case 1 and the motor 4 and a gap between the stator 6 and the rotor 7 of the motor. As the refrigerant discharged into the compressor from the apparatus 5 passes through the gap between the motor 4 and the case 1, the lattice groove 9 formed in the case induces the flow of the refrigerant to increase the flow of the refrigerant, thereby increasing the amount of refrigerant. Absorption of heat increases the amount of heat dissipated by the refrigerant when the refrigerant is discharged out of the compressor.

In addition, the case in which the lattice-shaped groove is formed increases the amount of contact with the motor, thereby transferring heat generated from the motor to the case, thereby increasing the amount of heat released to the outside of the compressor.

On the other hand, not only lattice grooves but also other shaped grooves for increasing the contact area may be formed on the circumferential surface of the case facing the electric motor.

As described above, according to the structure of the case of the hermetic compressor according to the present invention, by easily dissipating heat in the compressor to the outside to prevent the compressor from overheating, it is possible to extend the life of the compressor and improve the efficiency of the compressor It has a special effect.

Claims (2)

Hermetic compressor consisting of a motor for generating a rotational force by an applied power source, a refrigerant compressor receiving the rotational force of the motor to the lower portion of the motor, and sucking the refrigerant and discharging the refrigerant at a constant pressure, and a case accommodating the motor and the refrigerant compressor. In the closed compressor case, characterized in that the groove for the refrigerant flow is formed on the circumferential surface of the case facing the electric motor. The hermetic compressor case according to claim 1, wherein the groove has a lattice structure.