KR20080056345A - A hermetic type compressor - Google Patents

Abstract

A hermetic compressor is provided to simplify the assembly of a connecting rod and a piston by forcibly pressing a piston pin in an inner periphery of a small diameter part. A hermetic compressor comprises a piston pin(70) joined with a piston to insert a small diameter part(62) of a connecting rod into an insertion groove(22a) formed at the piston. The piston pin is forcibly pressed in the inner periphery of the small diameter part. The piston at two sides of the insertion groove consists of a pair of connecting groove(22b,22c) communicated with the outside of the piston and the insertion groove to be fitted with the piston pin. A sliding tolerance is formed between the piston pin and fitting holes. The fitting holes are divided into a first fitting hole and a second fitting hole. The diameter of the piston pin in the fitting portion of the second fitting hole is smaller than the inner diameter of the small diameter part.

Description

Hermetic Compressor {A HERMETIC TYPE COMPRESSOR}

1 is a cross-sectional view showing the structure of the compression unit side in a conventional hermetic compressor.

2 is a cross-sectional view showing the overall structure of a hermetic compressor according to an embodiment of the present invention.

3 is an exploded perspective view illustrating an assembly configuration of a connecting rod and a piston in a hermetic compressor according to an exemplary embodiment of the present invention.

Figure 4 is a cross-sectional view showing a coupling state of the connecting rod and the piston in the hermetic compressor according to an embodiment of the present invention.

5 is a cross-sectional view showing a state in which the connecting rod and the piston are fastened in the hermetic compressor according to the preferred embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

22: piston 22a: insertion groove

22b: first fastening hole 22c; 2nd conclusion hall

60: connecting rod 61: large diameter part

62: small diameter part 70: piston pin

71: small diameter

The present invention relates to a hermetic compressor, and more particularly to a hermetic compressor provided so that the small diameter portion and the piston of the connecting rod are assembled through the piston pin.

In general, a hermetic compressor employed in a refrigerating cycle such as a refrigerator or an air conditioner includes a compression unit for compressing a refrigerant inside the sealed container, and a driving unit for providing a compression power according to the compression of the refrigerant. do.

As shown in FIG. 1, the dual compression unit includes a cylinder 1 forming the compression chamber 1a and a piston 2 linearly reciprocating in the compression chamber 1a to perform a compression action of the refrigerant. It is provided, the driving force of the drive unit is transmitted to the compression unit through the crankshaft (3).

That is, one end of the crankshaft 3 is press-fitted to the rotor (not shown) of the drive unit and provided to rotate together with the rotor when the drive unit is driven, and the other end of the crankshaft 3 is eccentric so as to rotate eccentrically. A shaft portion 3a is provided, and a connecting rod 4 is installed between the eccentric shaft portion 3a and the piston 2 to convert the rotational movement of the crankshaft 3 into the linear reciprocating movement of the piston 2. do.

The connecting rod 4 has a large diameter portion 4a of one end rotatably fastened to the outer circumference of the eccentric shaft portion 3a and a small diameter portion of the other end assembled to be fastened to the outer circumference of the piston pin 5 fastened to the piston 2. (4b) and the connection part 4c which connects the large diameter part 4a and the small diameter part 4b between them by the body.

The piston (2) is formed with an insertion groove (2a) opened to the rear to insert the small diameter portion (4b) and to the piston 2 of the upper and lower insertion groove (2a) for fastening the piston pin (5) Fastening holes 2b and 2c formed in the vertical direction are provided. Therefore, the piston pin (5) to the piston (5) to be fastened to the inner diameter of the fastening holes (2b, 2c) and the small diameter portion (4b) in the state in which the small diameter portion (4b) of the connecting rod (4) is inserted into the insertion groove (2a). 2), the small diameter portion 4b of the connecting rod 4 is rotatably fastened to the outer circumference of the piston pin 5.

In addition, in this state, there is a possibility that the piston pin 5 is separated in the vertical direction, the piston pin 5 is fixed to the piston (2) to prevent rotation through the fixing pin (6).

First fastening holes in the direction perpendicular to the longitudinal direction of the piston pin 5 in the piston 2 and the piston pin 5 of the upper portion of the insertion groove (2a) for fastening the fixing pin (6), respectively 2d and a second fixing hole 5a are formed, and the fixing pin 6 has the first fixing hole 2d in a state where the first fixing hole 2d and the second fixing hole 5a are aligned with each other. ) And the second fixing hole (5a) by a press-fit method.

When the crankshaft 3 is rotated by the driving unit through such a structure and the eccentric shaft portion 3a is eccentrically rotated, the piston 2 connected through the eccentric shaft portion 3a and the connecting rod 4 is compressed. (1a) The linear reciprocating motion is performed inside to perform the compression of the refrigerant.

However, in the conventional hermetic compressor, as described above, in assembling the small diameter portion 4b of the piston 2 and the connecting rod 4, the piston pin 5 as well as to prevent the separation of the piston pin 5 As the separate fixing pin 6 is used, the number of parts for assembling the small diameter portion 4b and the piston 2 of the connecting rod 4 increases, as well as the first and the first to fasten the fixing pin 6. There was a problem that the assemblability is lowered such that the two fixing holes 2d and 5a must be matched.

The present invention is to solve such a problem, an object of the present invention is to provide a hermetic compressor provided to reduce the number of components for assembling the small diameter portion of the connecting rod and the assembly thereof.

In order to achieve this object, the hermetic compressor according to the present invention is assembled to the piston through a piston pin fastened to the piston so that the small diameter portion of the connecting rod is inserted into the insertion groove formed in the piston, and the piston The pin is characterized in that it is provided to be forced in the small diameter inner diameter.

And a pair of fastening holes communicating with the insertion groove and the outside of the piston, respectively, to the piston pins at both sides of the insertion groove, and a sliding tolerance is formed between the piston pin and the fastening hole. It features.

In addition, the fastening hole is divided into a first fastening hole positioned at the side where the insertion is started along the insertion direction of the piston pin and a second fastening hole positioned at the end of the insertion, and the piston pin is fastened to the second fastening hole. It is characterized in that the diameter of the portion to be formed smaller than the inner diameter of the small diameter portion.

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

As shown in FIG. 2, the hermetic compressor according to the present embodiment includes an hermetic container 10 formed by combining an upper container 10a and a lower container 10b, and one side and the other side of the hermetic container 10. Each side is provided with a suction pipe 11 for guiding the external refrigerant into the sealed container 10 and a discharge tube 12 for guiding the refrigerant compressed in the sealed container 10 to the outside of the sealed container 10.

In the hermetic container 10, a compression unit 20 for compressing a refrigerant is provided, and a driving unit 30 for providing a compression driving force according to the compression of the refrigerant is provided. The compression unit 20 and the driving unit ( 30 is installed through the frame 40.

The drive unit 30 includes a stator 31 fixed to the lower outer side of the frame 40 and a rotor 32 provided inside the stator 31 to rotate by electromagnetic interaction with the stator 31. .

In addition, the compression unit 20 includes a cylinder 21 integrally formed with the frame 40 on one side of the upper portion of the hollow part 41 of the frame 40 to form a compression chamber 21a for compressing the refrigerant, and the compression chamber. A piston 22 which linearly reciprocates inside the cylinder 21 and performs compression of the refrigerant, and is coupled to one end of the cylinder 21 to seal the compression chamber 21a, and the refrigerant discharge chamber 23a and the refrigerant suction chamber ( 23b is provided between the cylinder head 23 and the cylinder 21 and the cylinder head 23 which are mutually partitioned, and are sucked into the compression chamber 21a from the refrigerant suction chamber 23b, or the refrigerant discharged from the compression chamber 21a. And a valve device 24 for controlling the flow of the refrigerant discharged into the chamber 23a.

Here, the refrigerant suction chamber 23b guides the refrigerant transferred into the sealed container 10 through the suction tube 11 to the compression chamber 21a, and the refrigerant discharge chamber 23a is the discharge tube 12. The reference numeral 13 is a suction muffler for guiding the refrigerant introduced into the sealed container 11 through the suction pipe 11 to the refrigerant suction chamber 23b in a state where the pressure pulsation is reduced.

And the driving force of the drive unit 30 is transmitted to the compression unit 20 through the crankshaft (50). The crankshaft 50 is rotatably fastened to the hollow portion 41 formed in the center of the frame 40, the lower portion is provided to be pressed into the center of the rotor 32, the upper end of the crankshaft 50 An eccentric shaft portion 51 is provided to eccentrically rotate. In addition, the connecting rod 60 is connected between the eccentric shaft portion 51 and the piston 22 for converting the rotational movement of the crankshaft 50 into the linear reciprocating movement of the piston 22.

The connecting rod 60 has a structure in which the large diameter portion 61 at one end of the eccentric shaft portion 51 and the small diameter portion 62 at the other end of the piston 22 are integrally connected through a connection portion 63 therebetween.

The large diameter portion 61 is rotatably fitted to an outer circumference of the eccentric shaft portion 51, and the small diameter portion 62 is inserted into the piston 22 from the outside of the piston 22 from the outside of the small diameter portion 62. It is fastened to the piston 22 through the piston pin 70 is fastened to the piston 22 to penetrate the inner diameter. The piston pin 70 has a cylindrical rod shape as a whole, and the piston pin may be hollow.

When the crankshaft 50 rotates together with the rotor 32 by the electromagnetic interaction between the stator 31 and the rotor 32 through this configuration, the eccentric shaft portion 51 and the connecting rod 60 are rotated. Piston 22 connected through the linear reciprocating motion in the compression chamber (21a), through which the refrigerant guided into the sealed container 10 along the suction pipe 11 is the refrigerant suction chamber (23b) of the cylinder head (23) The compressed refrigerant is sucked into the compression chamber 21a and compressed in the compression chamber 21a, and the refrigerant compressed in the compression chamber 21a passes through the refrigerant discharge chamber 23a and the discharge tube 12 of the cylinder head 23. It is discharged to, the compression process of the refrigerant through the hermetic compressor is carried out as this process is repeatedly performed.

On the other hand, in the present embodiment, the small diameter portion 62 and the piston 22 of the connecting rod 60 is provided to be easily assembled through a more simplified structure than the prior art, the description thereof will be described in detail as follows. same.

As shown in Figure 3 and 4, the piston 22 is provided in a cylindrical shape is formed with an insertion groove (22a) opened to the rear so that the small diameter portion 62 is inserted, the upper portion of the piston 22 A pair of fastening holes 22b and 22c communicating with the outside of the insertion groove 22a and the piston 22 are provided at both sides of the insertion groove 22a at the bottom and the insertion hole 22a, respectively.

In addition, the piston pin 70 is inserted into the piston 22 from the upper portion of the piston 22 and fastened, and the fastening holes 22b and 22c are inserted into the piston pin 70 at the upper side where the insertion starts. It is divided into a first fastening hole 22b and a lower second fastening hole 22c in which the insertion is completed. In this embodiment, the piston pin 70 is forcedly pressed into the small diameter portion 62 of the connecting rod. The first and second fastening holes 22b and 22c are rotatably fastened to each other.

In addition, a press-fitting tolerance is formed between the inner diameter of the small diameter portion 62 and the outer diameter of the piston pin 70 corresponding to the small diameter portion 62 for the forced indentation of the piston pin 70 and the small diameter portion 62. A sliding tolerance is formed between the inner diameters of the two fastening holes 22b and 22c and the upper and lower outer diameters of the piston pin 70 fastened to the first and second fastening holes 22b and 22c.

Therefore, the hermetic compressor according to the present embodiment inserts the piston pin 70 from the upper part of the piston 22 in the state in which the small diameter portion 62 of the connecting rod 60 is inserted into the insertion groove 22a. When the 70 is fastened to the inner diameters of the first fastening hole 22b and the small diameter portion 62 and the second fastening hole 22c in turn, the piston pin 70 is forcedly pressed into the inner diameter of the small diameter portion 62. The first and second fastening holes 22b and 22c are rotatably coupled to each other.

In this state, the piston pin 70 is forcibly pressed into the small diameter portion 62 so that the piston pin 70 may not be separated in the vertical direction. As a result, the piston pin 70 may be a separate pin. And there is no need to fix between the piston 22.

In addition, when the eccentric shaft portion 51 is eccentrically rotated while the large diameter portion 61 of the connecting rod 60 assembled with the piston 22 is inserted into the eccentric shaft portion 51, the piston 22 The first and second fastening holes 22b and 22c may rotate relative to the piston pin 70 and perform a linear reciprocating motion for compressing the refrigerant in the compression chamber 21a.

In addition, when the diameter of the piston pin 70 is constantly formed along the longitudinal direction of the piston pin 70, the lower portion of the piston pin 70 to be fastened to the second fastening hole, the piston pin 70 is piston In the process of fastening to 22, it is difficult to pass the inner diameter of the small diameter portion 62, there is a fear that the fastening operation of the piston pin 70 may not be made quickly.

Accordingly, the piston pin 70 forms a small diameter portion 71 formed smaller than other portions such that the lower side diameter of the piston pin 70 fastened to the second fastening hole 22c is smaller than the inner diameter of the small diameter portion 62. Accordingly, as shown in FIG. 5, in the process of fastening the piston pin 70 to the piston 22, the small diameter portion 71 of the piston pin 70 moves the small diameter portion 62 of the connecting rod 60. It can be easily passed through and fastened to the second fastening hole 22c.

As described above in detail, in the hermetic compressor according to the present invention, a piston pin for assembling the small diameter portion and the piston of the connecting rod is forced to the small diameter inner diameter. Therefore, in the hermetic compressor according to the present invention, in assembling the small diameter portion and the piston of the connecting rod, a separate member such as a conventional fixing pin is deleted, thereby simplifying the assembling configuration of the connecting rod and the piston, as well as improving its assemblability.

Claims (3)

In a hermetic compressor provided to be assembled to a piston through a piston pin fastened to the piston so that the small diameter portion of the connecting rod is inserted into the insertion groove formed in the piston, The piston pin is a hermetic compressor characterized in that it is provided to be forced to the small diameter inner diameter. The method of claim 1, Pistons on both sides of the insertion groove are provided with a pair of fastening holes communicating the insertion groove and the outside of the piston, respectively, so that the piston pin is fastened. Hermetic compressor characterized in that the sliding tolerance is formed between the piston pin and the fastening hole. The method of claim 2, The fastening hole is divided into a first fastening hole located at the side where the insertion is started and a second fastening hole located at the end of the insertion along the insertion direction of the piston pin, The piston pin is a hermetic compressor characterized in that the diameter of the portion fastened to the second fastening hole is formed smaller than the inner diameter of the small diameter portion.

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