KR200142478Y1 - Reciprocating compressor - Google Patents

Abstract

The present invention relates to a reciprocating compressor, the purpose of which is to improve the compression resistance of the compressor by reducing the inflow resistance of the refrigerant by improving the connecting member (60 ') connecting the refrigerant inlet pipe 50 and the suction muffler (40) To improve.

In the present invention, the connecting member 60 'is formed of a corrugated pipe 62 having flexibility and elasticity, thereby securing a refrigerant flow path for refrigerant suction even when vibration occurs during operation of the compressor, thereby smoothly introducing the refrigerant to compress the compressor. The efficiency is improved.

Description

Reciprocating compressor

1 is a schematic view showing the internal configuration of a typical reciprocating compressor,

Figure 2 is a schematic diagram showing the state of the coil spring tube due to vibration in the operation of a conventional reciprocating compressor,

3 is a cross-sectional view showing a connecting member according to the present invention,

4 is a main portion of the present invention.

* Explanation of symbols on the main parts of the drawings

10: sealed container 40: suction muffler

50: refrigerant inlet pipe 60: connecting member

61: fixing material 62: corrugated pipe

63: jamming jaw

The present invention relates to a reciprocating compressor, and more particularly, by improving the structure of the connection member connecting the refrigerant inlet pipe guiding the refrigerant inlet to the compressor in the refrigeration cycle and the suction muffler, thereby smoothly sucking the refrigerant into the cylinder. It relates to a connecting member of the reciprocating compressor.

In general, a reciprocating compressor has a function of compressing a refrigerant at a high temperature and high pressure in a refrigeration cycle in which a compression, condensation, expansion, and evaporation process is continuously performed as a medium to deliver the refrigerant to an outside of the container. In the general reciprocating compressor having such a function, as shown in FIG. 1, the upper part 11 and the lower part 12 are coupled to the driving part 20 for generating power inside the hermetically sealed container 10. And a compression unit 30 receiving power from the driving unit 20 to suck and compress the refrigerant. The driving unit 20 is installed on the top of the sealed container 10, the stator 21 and the rotor not shown generating a magnetic field, the rotary shaft coupled to the rotor and rotated and the eccentric shaft is integrally provided at the bottom (22) is provided. The compression unit 30 includes a cylinder head 31 for guiding suction and discharge of the refrigerant, a cylinder having a compression chamber not shown, a piston for reciprocating the compression chamber, and a connecting rod connecting the piston and the eccentric shaft. It is provided to be installed in the lower portion of the sealed container (10).

In addition, a suction muffler 41 is provided in the vertical direction of the cylinder head 31 in which an inlet 41 for shielding noise generated when the refrigerant is introduced and supplying the refrigerant to the cylinder head 31 is provided. 40 is connected to the refrigerant inlet pipe 50 for guiding the refrigerant inlet from the outside of the sealed container (10). Therefore, the refrigerant inlet pipe 50 and the suction muffler 40 is connected to the connection member, the connection member is made of a coil spring pipe 60 is formed to be in close contact with the outer periphery in order to be flexible and prevent cold air leakage. One end of the coil spring pipe 60 is inserted and fixed to the refrigerant inlet pipe 50, and the other end is inserted and fixed to the inlet 41 of the suction muffler 40. On the other hand, the support spring 70 is installed in the lower portion of the sealed container 10 to support the drive unit 20 and the compression unit 30.

In the conventional reciprocating compressor configured as described above, as the power is applied, the compression unit 30 and the driving unit 20 operate. That is, the rotating shaft 22 is rotated by the magnetic field generated between the stator 21 and the rotor, the piston connected to the eccentric shaft of the rotating shaft 22 by the connecting rod reciprocates the inside of the cylinder to suck in the refrigerant It is compressed under high pressure and discharged. In more detail the suction process of the refrigerant, the refrigerant is first introduced into the suction muffler 40 through the coil spring pipe 60 in the refrigerant inlet pipe 50. At this time, the noise generated by the flow rate difference of the refrigerant is shielded in the suction muffler 40, and when the piston reaches the bottom dead center, the compression chamber becomes low pressure, so the refrigerant is introduced into the cylinder by the pressure difference.

At this time, vibration is generated due to the operation of the driving unit 20 and the compression unit 30 in the sealed container 10. Therefore, vibration is transmitted between the refrigerant inlet pipe 50 and the suction muffler 40 for guiding the refrigerant inflow, and the refrigerant receives an inflow resistance due to the deformation of the tube. In order to prevent this, the refrigerant inlet pipe 50 and the suction muffler are prevented. 40 is connected to the flexible coil spring tube 60.

However, if the vibration occurs severely and repeatedly, as shown in FIG. 2, the coil spring tube 60 is distorted to be deformed so that the refrigerant flow path is narrowed, so that the refrigerant is introduced into the resistor and noise is generated and heat is generated from the outside. The absorbed refrigerant flows in and reduces the compression efficiency of the compressor. In addition, when the deformation is severe, a gap occurs in the coil spring tube, which causes a disadvantage that cold air leaks to the outside.

The present invention is to solve this problem, an object of the present invention is to improve the structure of the connecting member for guiding the refrigerant suction into the suction muffler in the refrigerant inlet pipe to smooth the refrigerant suction to reduce noise and prevent leakage during refrigerant inlet It is to provide a reciprocating compressor to improve the efficiency of the compressor.

The present invention for achieving this purpose,

Refrigerant inlet tube, refrigerant inlet pipe for guiding refrigerant into the sealed container, drive unit and compression unit for suction and discharge of refrigerant, suction muffler for guiding refrigerant to the compression unit, connecting member for connecting refrigerant inlet pipe and suction muffler In the reciprocating compressor equipped with,

The connecting member is characterized by having a corrugated pipe.

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

1 is a schematic view showing the internal configuration of a compressor to which the present invention is applied.

As shown, the interior of the sealed container 10 is applied to the drive unit 20 having a stator 21 for generating power by applying power and a rotor, etc., and the power received from the drive unit 20, the refrigerant 20 It is composed of a compression head 30 having a cylinder head 31 and a cylinder, a piston (not shown) and the like to discharge the compressed and high pressure after suction. In addition, in the vertical direction of the cylinder head 31, a suction muffler 40 provided with an inlet 41 for shielding noise and guiding the refrigerant flow during refrigerant inflow is provided. On the other hand, the support spring 70 is installed in the lower portion of the sealed container 10 to support the drive unit 20 and the compression unit 30.

As shown in FIG. 3 and FIG. 4, the suction muffler 40 is connected to the refrigerant inlet pipe 50 through which the refrigerant is introduced into the sealed container 10 from the outside through the connection member 60 '. The connecting member 60 'is made of a corrugated pipe 62 having a pleated outer circumferential surface of the pipe so as to have flexibility and elasticity, and fixing members 61 having circular bending portions are provided at both ends of the corrugated pipe 62. In addition, both ends of the corrugated pipe 62 is formed with a locking jaw 63 to be coupled to the fixing member 61, the bending portion of the fixing member 61 is coupled by the locking jaw 63 of the corrugated pipe 62, thereby connecting the connection member ( 60 '). In addition, a screw thread is formed on an inner surface of the fixing member 61, and a screw thread is also formed on the outer circumferential surface of the inlet port 41 of the suction muffler 40 and the outer circumferential surface of the refrigerant inlet pipe 50 that are in contact with the fixing member 61.

Therefore, the connecting member 60 'is fixed by screwing the fixing member 61 provided at one end of the corrugated pipe 62 and the inlet 41 of the suction muffler 40, and the fixing member provided at the other end of the corrugated pipe 62 as well. By fixing the 61 and the refrigerant inlet pipe 50 by screwing, the refrigerant inlet pipe 50 tube suction muffler 40 is connected through the connecting member 60 '.

In the reciprocating compressor configured as described above, as the power is applied, the compression unit 30 and the driving unit 20 operate. That is, the rotating shaft 22 is rotated by the magnetic field generated between the stator 21 and the rotor, the piston connected to the eccentric shaft of the rotating shaft 22 by the connecting rod reciprocates the inside of the cylinder to suck in the refrigerant It is compressed under high pressure and discharged. In more detail describing the suction process of the refrigerant, the refrigerant is first introduced into the suction muffler 40 through the pleated connecting member 60 ′ in the refrigerant inlet pipe 50. At this time, the noise generated by the flow rate difference of the refrigerant is shielded in the suction muffler 40, and when the piston reaches the bottom dead center, the compression chamber becomes low pressure, so the refrigerant is introduced into the cylinder by the pressure difference.

At this time, in the sealed container 10, vibration occurs due to the rotational movement of the rotor provided in the driving unit 20 and the reciprocating movement of the piston provided in the compression unit 30 and operated by receiving the power of the driving unit 20. . However, even when this vibration is transmitted between the refrigerant inlet pipe 50 and the suction muffler 40, the connecting member 60 'is made of a corrugated pipe 62 having flexibility and elasticity, and therefore, due to the elasticity of the connecting member 60' itself. The refrigerant flow path is secured so that the refrigerant flows smoothly without receiving resistance. In addition, since the corrugated pipe 62 is integrally formed and the fixing material 63 connecting the corrugated pipe 62 is fixedly coupled to each other, the refrigerant is introduced without leaking to the outside, thereby increasing the compression efficiency of the refrigerant.

As described in detail above, the conventional connecting member is simply composed of the coil spring tube, so when the vibration occurs, the coil spring tube is twisted to receive the refrigerant inflow resistance, and in the case of a severe gap in the coil spring tube, the refrigerant is introduced during the inflow. Leaks to the outside. However, in the present invention, by connecting the inlet of the refrigerant inlet pipe and the suction muffler with a flexible and flexible corrugated pipe, there is an advantage of improving the compression efficiency of the compressor by smoothly flowing the refrigerant even when vibration occurs during the operation of the compressor.

Claims (2)

The sealed container 10, the refrigerant inlet pipe 50 for guiding the refrigerant into the sealed container 10, the drive unit 20 and the compression unit 30 mounted in the sealed container 10 to suck and discharge the refrigerant, In the reciprocating compressor having a suction muffler (40) for guiding the refrigerant to the compression unit 30, a connecting member (60 ') for connecting the refrigerant inlet pipe (50) and the suction muffler (40), The connecting member (60 ') is a reciprocating compressor, characterized in that it comprises a corrugated pipe (62). The method of claim 1, Both ends of the corrugated pipe 60 'is provided with a fixing member 61 for screwing the corrugated pipe 60' to the ends of the suction muffler 40 and the refrigerant inlet pipe 50, respectively. .