KR19990039667U - compressor - Google Patents

Abstract

By supplying oil to a portion where the bottom of the eccentric portion of the rotating shaft and the upper portion of the lower flange contact each other, a compressor is disclosed that can reduce friction between the lower flange and the eccentric portion and improve the maneuvering force at the initial startup. The disclosed compressor includes a rotating shaft having an oil pumping hole and an eccentric portion formed therein, respectively; A roller fitted to the eccentric portion; A cylinder having a predetermined space in which the roller is accommodated; And a through hole fixed to the lower side of the cylinder and fitted with the rotating shaft, and having a lower flange provided on an inner surface of the through hole for supplying oil to a contact portion of the eccentric portion and an upper surface thereof. do. Therefore, the oil supply portion for supplying oil to the contact portion between the eccentric portion of the rotary shaft and the lower flange is spirally formed in the through hole of the lower flange, so that the rotation of the rotary shaft can be smoothed, thereby improving the initial starting of the compressor. have.

Description

compressor

The present invention relates to a compressor, and more particularly, oil is supplied to a portion where the bottom surface of the eccentric portion formed in the lower part of the rotation shaft of the motor contacts the upper portion of the lower flange, thereby reducing friction between the lower flange and the eccentric portion, It relates to a compressor that can improve the.

Generally, a compressor is a mechanical device that compresses gas and raises its pressure. Such a compressor consists of a cycle of inhaling, compressing, and discharging air according to rotation of a roller in a cylinder and opening and closing of a valve.

As shown in FIG. 1, the conventional compressor 10 is installed in a cylindrical sealed container main body 20, a motor 30 press-fitted into the main body 20, and a lower side of the motor 30. A cylinder assembly 40.

Discharge pipe 22 for discharging the refrigerant is installed through the upper end of the main body 20, the suction pipe 24 is installed at one lower side.

The discharge pipe 22 is connected to the condenser by a refrigerant pipe (not shown), and one end of the suction pipe 24 protrudes with a constant height inside the accumulator 26, and the other end of the cylinder 42 is described later. It is installed in communication with the formed cylinder chamber 44.

The motor 30 includes a stator 32 fixed to an inner circumferential surface of the main body 20, a rotor 34 rotatably disposed at the center of the stator 32, and a cylinder (through the rotor 34). 42 is provided with a rotating shaft 36 for transmitting the rotational force of the motor (30).

The cylinder assembly 40 is provided between the upper and lower flanges 46 and 48 for supporting the rotation shaft 36, and the upper and lower flanges 46 and 48, and the cylinder forming the predetermined cylinder chamber 44. (42) and the roller (50) which receives the rotational force by the rotating shaft (36).

On the other hand, the inside of the main body 20, the oil is contained so that the lower flange 48 is locked, the oil is supplied to the rotor 34 during the rotation of the motor 30 to cool the heat generated by the motor 30 Let's do it.

The oil supplied to the motor 30 is supplied through a rotating shaft 36 fixed to the rotor 34, the main part of which is shown in FIG. 2.

As shown in the figure, an eccentric portion 52 for guiding the rotation of the roller 50 is formed at the lower portion of the rotation shaft 36, and a lower flange 48 and an eccentric portion 52 are provided below the eccentric portion 52. Protruding portion 54 is formed to reduce the frictional force with).

An oil pumping hole 36b for supplying oil to the motor 34 is formed in the rotating shaft 36, and an oil paddle for supplying oil to the rotor 34 is provided in the lower portion of the oil pumping hole 36b. 36c) is provided.

The eccentric portion 52 is connected to an oil pumping hole 36b and is provided with an oil supply hole 52a for supplying oil to the outer circumference of the roller 50 and the eccentric protrusion 52.

Referring to the operation of the conventional rotary compressor as described above is as follows.

As the compressor 10 starts, the rotor 34 of the motor 30 rotates, and an oil paddle 36c provided below the oil pumping hole 36b of the rotating shaft 36 fixed to the rotor 34. The oil supplied to the inner side of the lower part of the main body 20 is supplied to the rotor 34 or the upper flange 46 provided on the upper side through the oil pumping hole 36b of the rotating shaft 36. At the same time, the oil is supplied to the outer periphery of the eccentric portion 52 and the cylinder 42 by the oil supply hole 52a of the eccentric portion 52 of the rotation shaft 36.

On the other hand, the heat exchange medium supplied from the accumulator 26 to the space portion of the cylinder 42 is compressed in the space portion of the cylinder 42 by the rotation of the roller 50, and is provided on the upper portion of the main body 20. It is discharged through the discharge pipe 22.

According to the conventional compressor, since the protrusion 54 provided below the eccentric portion 52 of the rotating shaft 36 contacts the lower flange 48 when the rotating shaft 36 rotates, the lower flange 48 There is a problem that wear, and thereby the performance of the compressor 10 is degraded.

Therefore, the present invention is devised to solve the above-mentioned problems, the object of the present invention, by supplying enough oil in contact with the eccentric bottom surface of the rotary shaft and the upper surface of the lower flange to reduce the friction generated by the compressor To provide a compressor to improve the performance of.

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

2 is a sectional view showing a main part of a conventional compressor;

3 is a cross-sectional view showing main parts of a compressor according to a preferred embodiment of the present invention;

4a and 4b are a perspective view and a cross-sectional view showing a lower flange of the compressor according to a preferred embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

100; Main body 110; motor

112; Stator 114; Rotor

120; Cylinder assembly 122; Upper flange

124; Lower flange 125; Through hole

126; Home 130; Axis of rotation

132; Oil pumping hole 134; Oil paddle

136; Eccentric 142; Oil supply hole

150; Cylinder 160; roller

An object as described above of the present invention, the rotation shaft is formed in each of the oil pumping hole and the eccentric portion; A roller fitted to the eccentric portion; A cylinder having a predetermined space in which the roller is accommodated; And a through hole fixed to the lower side of the cylinder and fitted with the rotating shaft, and having a lower flange provided on an inner surface of the through hole for supplying oil to a contact portion of the eccentric portion and an upper surface thereof. By providing a compressor.

Here, the oil supply is preferably at least one groove in a spiral shape.

According to the present invention, the oil supply portion for supplying oil to the contact portion between the eccentric portion and the lower flange of the rotating shaft is formed spirally in the through hole of the lower flange can smooth the rotation of the rotating shaft, thereby Improve maneuverability

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

Figure 3 is a cross-sectional view showing the main portion of the cylinder assembly coupled to the rotating shaft of the compressor according to a preferred embodiment of the present invention, Figures 4a and 4b is a perspective view showing a lower flange of the compressor according to a preferred embodiment of the present invention It is a cross section.

As shown, the compressor according to the present invention is a cylinder assembly provided below the main body 100 of the cylindrical sealed container, the motor 110 is press-fit fixed to the inside of the main body 100, the motor 110 120.

The motor 110 is composed of a stator 112 and a rotor 114, the rotation shaft 130 is fixed to the center of the rotor 114. The inside of the rotary shaft 130 has a hollow oil pumping hole 132 for guiding oil in the lower portion of the main body 100 between the stator 112 and the rotor 114. . An oil paddle 134 for supplying oil between the rotor 114 and the stator 112 is provided under the oil pumping hole 132.

An eccentric portion 136 protruding from the rotary shaft 130 is provided, and an inner surface of the eccentric portion 136 is connected to an oil pumping hole 132 and an eccentric portion of the roller 160 to be described later ( An oil supply hole 142 for supplying oil to the contact surface of 136 is formed.

The cylinder assembly 120 includes a roller 160 into which the eccentric portion 136 of the rotation shaft 130 is fitted, a cylinder 150 having a predetermined space in which the roller 160 is accommodated, and the cylinder 150. It has upper and lower flanges (122, 124) fixed to the upper and lower sides of the.

An oil supply unit for supplying oil to an upper end of the lower flange 124 in contact with the bottom surface of the eccentric portion 136 is provided at the through hole 126 and the upper end of the lower flange 124 through which the rotating shaft 130 is penetrated. do.

The oil supply part is at least one groove 126 formed spirally on the inner surface of the through hole 125 of the lower flange 124.

Hereinafter, the operation of the compressor according to the present invention.

The rotor 114 of the motor 110 rotates with the start of the compressor, and by the oil paddle 134 provided under the oil pumping hole 132 of the rotating shaft 130 fixed to the rotor 114. The oil inside the lower part of the main body 100 is supplied to the rotor 114 or the upper flange 122 provided on the upper side through the oil pumping hole 132 of the rotating shaft 130. At the same time, the oil is supplied to the outer circumference of the eccentric portion 136 and the cylinder 150 by the oil supply hole 142 of the eccentric portion 136 of the rotation shaft 130.

On the other hand, the heat exchange medium supplied to the space portion of the cylinder 150 in the accumulator (not shown) is compressed in the space portion of the cylinder 150 by the rotation of the roller 160 is provided on the upper portion of the main body 100 Discharged through the discharge tube.

That is, the compressor according to the present invention is supplied to the groove 126 formed in the through-hole 125 of the lower flange 124 is supported by the rotating shaft 130 so that the oil is always collected in the groove provided at the top The friction between the eccentric portion 136 of the rotary shaft 130 and the upper end of the lower flange 124 can be reduced, thereby improving the maneuvering force at the start of the compressor.

As described above, according to the present invention, the spiral groove for supplying the oil in the lower portion of the main body is formed in the through hole of the lower flange rotated through the rotation shaft, the groove for collecting the oil is the upper end of the lower flange By being formed in the shaft, it is possible to reduce the friction between the eccentric portion and the upper end of the lower flange during the rotation of the rotating shaft, thereby improving the initial starting force of the compressor.

The present invention is not limited to the above-described specific preferred embodiment, and any person having ordinary skill in the art to which the present invention pertains may make various modifications without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Claims (2)

A rotating shaft having an oil pumping hole and an eccentric portion formed therein and at a lower portion thereof; A roller fitted to the eccentric portion; A cylinder having a predetermined space in which the roller is accommodated; And The through hole is fixed to the lower side of the cylinder is fitted into the rotating shaft is formed, the oil supply for supplying oil to the contact portion of the eccentric portion and the upper surface is provided with a lower flange provided on the inner surface of the through hole compressor. 2. The compressor as claimed in claim 1, wherein the oil supply is at least one groove in a spiral shape.