KR100556973B1 - Calking structure for valenceweight of compressor - Google Patents

Abstract

The present invention relates to a caulking structure of a balance weight for a compressor, the present invention relates to a compressor balance weight caulking coupling to the rotor to cancel the unbalanced load, protruding and forming a caulking projection on one side of the rotor, In the balance weight, a caulking hole is formed so that the caulking protrusion is inserted and supported, and a cushioning member is inserted between the caulking protrusion and the caulking hole, thereby preventing the abrasion or damage of the caulking protrusion due to the centrifugal force of the balance weight. Can increase the reliability.

Description

Caulking Structure of Compressor Balance Weight {CALKING STRUCTURE FOR VALENCEWEIGHT OF COMPRESSOR}

1 is a cross-sectional view showing an example of a conventional rotary compressor,

Figure 2 is a perspective view of the balance weight separated from the rotor in the conventional rotary compressor,

3 is a cross-sectional view of the balance weight assembled to the rotor in the conventional rotary compressor,

Figure 4 is a perspective view of the balance weight separated from the rotor in the rotary compressor of the present invention,

5 is a cross-sectional view of the balance weight assembled to the rotor in the rotary compressor of the present invention;

Figure 6 is a cross-sectional view showing a modification to the caulking structure of the balance weight in the rotary compressor of the present invention.

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

2: stator 4: rotating shaft

5: cylinder 6: main bearing

7: sub-bearing 10: rotor

11: stator core 12: end ring

12a: caulking projection 13: balance weight

13a: caulking hole 13b: buffer ring insertion groove

14: buffer ring

The present invention relates to a caulking structure of a compressor balance weight, and more particularly, to a caulking structure of a compressor balance weight that prevents breakage of the caulking portion by inserting a cushioning member between the rotor and the balance weight.

Generally, the balance weight for a compressor is installed on the top or bottom of the rotor to offset the eccentric load caused by the eccentric portion of the rotating shaft to attenuate the vibration of the compressor. Usually, a caulking portion is formed on the rotor to caulk the balance weight. Combining

1 is a cross-sectional view showing an example of a rotary compressor caulking the balance weight to the rotor, Figure 2 is a perspective view of the balance weight separated from the rotor, Figure 3 is a cross-sectional view of the balance weight assembled to the rotor.

As shown in the drawing, a conventional rotary compressor includes a casing 1 for filling a predetermined amount of oil and communicating a gas suction pipe and a gas discharge pipe, an electric mechanism part provided above the casing 1 to generate rotational force; It is provided in the lower part of the casing 1, and is comprised by the compression mechanism part which compresses a refrigerant | coolant by the rotational force which the said electric mechanism part produced.

The electric drive unit rotates while interacting with the stator 2 by arranging the stator 2 fixed to the inside of the casing 1 to apply power from the outside, and having a predetermined gap inside the stator 2. It consists of an electron (3).

The stator 2 is formed by stacking a plurality of stator cores in a cylindrical shape, winding the winding coil 2a therein, and fixing the stator cores to the inner circumferential surface of the casing 1.

The rotor 3 has a plurality of stator cores 3a stacked in a cylindrical shape, and then both ends thereof are supported by end rings 3b to press-fit the rotating shaft 4.

An arc-shaped balance weight 3c is eccentrically fixed to the upper end ring 3b so as to offset the eccentric load caused by the eccentric rotation of the rotary shaft 4. To this end, a plurality of caulking protrusions 3d are projected on the upper surface of the upper end ring 3b in the axial direction as shown in FIGS. It is inserted and fixed in 3e).

In the drawings, reference numeral 5 denotes a cylinder, 6 a main bearing, 6a a discharge port, 7 a sub bearing, 8 a rolling piston, 9 a discharge valve assembly, M a muffler, and A an accumulator.

The conventional rotary compressor as described above operates as follows.

That is, when the rotor 3 rotates by applying power to the stator 2 of the electric mechanism part, the rotating shaft 4 of the compression mechanism part rotates together with the rotor 3, and the rolling piston 8 moves the cylinder 5. Eccentrically rotates in the inner space of the main body, and the refrigerant gas is sucked into the suction chamber by the eccentric rotation of the rolling piston (8) and continuously compressed to a certain pressure, and then the main bearing is compressed at a pressure higher than the pressure in the casing (1). It discharges into the casing 1 through the discharge port 6a and muffler M of (6).

Here, the vibration of the compressor may be increased by the eccentric load generated by the eccentric portion of the upper end when the rotating shaft 4 rotates, but as the balance weight 3c is eccentrically installed on the upper end of the rotor 3 The vibration of the compressor could be canceled out.

However, in assembling the balance weight of the conventional rotary compressor as described above, the caulking protrusion 3c is formed on the end ring 3b of the rotor 3 as shown in FIGS. 2 and 3 and the caulking protrusion 3c. Is inserted into the caulking hole 3e of the balance weight 3d, but the caulking coupling is performed. Or if it is severe, the caulking protrusion 3c may be broken and the balance weight 3d may be removed.

The present invention has been made in view of the problems of the balance weight of the conventional rotary compressor as described above, to provide a caulking structure of the balance weight for the compressor capable of stably coking the balance weight to the rotor. have.

In order to achieve the object of the present invention, in the compressor balance weight caulking coupling to the rotor to cancel the unbalanced load, the caulking projection protrudes on one side of the rotor, and the corresponding caulking projection on the balance weight A caulking hole is formed to be inserted and supported. The caulking structure of the compressor balance weight is provided by inserting a cushioning member between the caulking protrusion and the caulking hole.

Hereinafter, the caulking structure of the compressor balance weight according to the present invention will be described in detail based on the embodiment shown in the accompanying drawings.

Figure 4 is a perspective view of the balance weight separated from the rotor in the rotary compressor of the present invention, Figure 5 is a cross-sectional view of the balance weight assembled to the rotor in the rotary compressor of the present invention, Figure 6 is caulking the balance weight in the rotary compressor of the present invention It is sectional drawing which showed the modification about a structure.

Referring to FIG. 1, the rotary compressor according to the present invention includes a casing 1 for communicating gas suction pipes SP and gas discharge pipes DP, and a stator installed inside the casing 1 to generate rotational force. And a compressor mechanism portion which is coupled to the rotor 10 of the electric mechanism portion and sucks and compresses and discharges refrigerant gas by the rotational force.

The rotor 10 of the electric drive unit has a plurality of stator cores 11 stacked in a cylindrical shape, and then both ends thereof are supported by the end rings 12 to press-fix the rotating shaft 4 to the upper end ring 12. ) Is eccentrically fixed to the balance weight 13 of the arc-shaped so as to offset the eccentric load according to the eccentric rotation of the rotary shaft (4).

The upper end ring 12 is formed in an annular shape as shown in FIG. 4, but on both left and right sides of the plane, a caulking protrusion 12a having a predetermined height and thickness is formed to protrude in the axial direction, and a starting point of the caulking protrusion 12a is formed. A buffer ring 14 having a predetermined height and width is inserted near the phosphorus boundary.

The buffer ring 14 is formed to be thinner than the height of the caulking projection (12a) to be inserted into the buffer ring insertion groove (13b) provided in the lower edge of the inner peripheral surface of the caulking hole (13a) to be described later, as shown in FIG. As in 6, it may be formed to have the same length as the axial height of the caulking hole 13a so as to buffer the entire caulking hole 13a.

In addition, the buffer ring 14 is preferably formed of a material having its own elasticity such as rubber, but in some cases may be formed of a plastic material such as Teflon.

The balance weight 13 is formed in the shape of an arc during planar projection, and the caulking hole 13a is formed at the left and right ends thereof so that the caulking protrusion 12a of the end ring 12 is inserted. The caulking hole 13a may form a buffer ring inserting groove 13b to insert the buffer ring 14 at the lower edge of its inner circumferential surface as shown in FIG. 5, and the height of the buffer ring 14 as shown in FIG. 6. It may be formed to be equal to the axial length of the).

In the drawings, the same reference numerals are given to the same parts as in the prior art.

Effects of the assembly structure of the balance weight for a rotary compressor of the present invention as described above are as follows.

That is, when the rotor 10 rotates by applying power to the stator 2 of the electric mechanism part, the rotating shaft 4 of the compression mechanism part rotates together with the rotor 10. In this case, the lower half of the rotating shaft 4 As the eccentric portion for pivoting the rolling piston 8 is generated, an eccentric load for exciting the compressor vibration is generated.

In view of this, in the compressor having an eccentric portion on the rotary shaft 4, the balance weight 13 is eccentrically provided on one side of the rotor 10 to offset the eccentric load of the rotary shaft 4. Here, the balance weight 13 axially moves the caulking hole 13a so that the caulking protrusion 12a provided in the end ring 12 of the rotor 10 is inserted to fix the balance weight 13. When the buffer ring 14 having a predetermined elasticity is inserted between the caulking hole 13a and the caulking protrusion 12a, the balance weight 13 is radiated to the caulking protrusion 12a by centrifugal force. Even if a shear load is applied in the direction, it is absorbed and buffered by the buffer ring 14, thereby preventing damage or abrasion of the caulking protrusion 12a.

In addition, the shear load is particularly concentrated near the boundary line at which the caulking projection 12a starts, but the buffer ring 14 may be interposed only near the boundary line, but the entire caulking hole 13a may be included to further increase the buffering effect. A buffer ring of any length can be inserted.

In this way, by absorbing the load by the centrifugal force of the balance weight by the above-mentioned buffer ring, it is possible to prevent the abrasion of the caulking protrusion which fixes the balance weight to the rotor or to the direct breakage caused by the shear load, thereby improving the reliability of the compressor.

The caulking structure of the compressor balance weight according to the present invention prevents abrasion and damage of the caulking protrusion due to the centrifugal force of the balance weight by inserting a buffer ring between the caulking protrusion of the rotor and the caulking hole of the balance weight coupled thereto. The reliability of the compressor can be increased.

Claims (4)

In the balance weight for the compressor to caulk coupling to the rotor to cancel the unbalanced load, Compression protrusions are formed on one side of the rotor, and the corresponding weights are formed in the corresponding caulking protrusions so that the caulking protrusions are inserted and supported, and a compression member is inserted between the caulking protrusions and the caulking holes. Caulking structure of the balance weight. The method of claim 1, A caulking structure of a balance weight for a compressor, characterized in that the buffer member is formed in the corner of the inner circumferential surface of the caulking hole to insert the buffer member. The method of claim 1, A caulking structure of a balance weight for a compressor, characterized in that the axial length of the shock absorbing member is formed approximately equal to the height of the caulking hole. The method according to any one of claims 1 to 3, Caulking structure of the balance weight for the compressor, characterized in that the buffer member is formed of a material having elasticity.

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