KR19980023090U - Linear compressor - Google Patents

Abstract

The present invention relates to a linear compressor, the linear compressor of the present invention is a linear to generate a lift driving force by the induction magnetic field formed by the application of an external power source inside the sealed container 50 and the sealed container 50 in which oil is accumulated at the bottom thereof. The motor is provided, and the cylinder 53 which forms the compression chamber which guides the lifting of the piston 65 and the piston 65 which raises and lowers with lifting drive force is provided. And one end is immersed in oil and the other end is connected to the suction part so as to lubricate one end of the cylinder 53 and to lubricate the cylinder head 54 having the inlet port 56 and the outlet port 55, and the compression chamber S. The oil pipe 62 is provided, and the oil pipe 62 extends through the cylinder 53 to the inlet of the compression chamber.

The linear compressor according to the present invention as described above is an improved oil lubrication device that can prevent damage to the lubrication pipe and thus oil non-lubrication, and also prevents foreign substances floating in the sealed container from flowing into the oil supply pipe. By preventing clogging, there is an effect that can be attributed to the operation reliability and performance coefficient of the compressor.

Description

Linear compressor

The present invention relates to a linear compressor, and more particularly, to a linear compressor that improves the life and performance coefficient of the compressor by improving the oil lubrication structure for smooth operation of the cylinder (53) of the linear compressor.

In general, a compressor is a device of a refrigeration cycle that is used in an air conditioner or a freezer to generate the rough air by circulation of the refrigerant, and is a device that compresses and discharges the refrigerant at a high temperature and a high pressure.

One type of such compressors is a linear compressor, which includes a linear motor driven by interaction by a change in the direction of magnetic flux to linearly reciprocate the piston 65. 1 is a cross-sectional view showing a conventional linear compressor. As shown therein, the linear compressor includes an airtight container 10 in which an upper airtight container 11 and a lower airtight container 12 are coupled to each other, and a compression unit for sucking, compressing, and discharging a refrigerant in the airtight container 10. And a drive unit for generating a compression force in the compression unit.

The compression section is provided with a cylindrical cylinder 13, and is provided with a rod-shaped piston 25 for vertically reciprocating the cylinder 13 inside. In addition, the cylinder head 14 and the cylinder head 14 in which the suction tube 20 for sucking the refrigerant into the cylinder 13 and the discharge tube 21 for discharging and guiding the discharged refrigerant at high temperature and high pressure are respectively connected. And a valve plate 15 interposed between the cylinder 13 and the inlet 16 and the outlet 17. In addition, a suction valve 18 and a discharge valve 19 for opening and closing each of the suction ports 16 and the discharge ports 17 are provided, respectively. On the other hand, an oil lubrication device is provided in the sealed container 10 in order to prevent abrasion, etc., due to the friction of the piston 25 inside the cylinder 13. The oil lubrication device is provided at the upper portion of the cylinder head 14. An oil lubrication pipe 22 communicating with the bypass is extended to the lower part of the sealed container 10, and oil is stored at the lower part of the sealed container 10.

The drive unit is provided with an internal stator 24 and an external stator 23, respectively, and a permanent magnet 26 magnetized in a radial direction is provided between each of the stators 23 and 24. And the cylindrical support frame 27 for fixing this permanent magnet 26 is provided. The support frame 27 is screwed through a coupling shaft 29 extending from the lower portion of the piston 25 through the bottom surface of the support frame 27, the end of the coupling shaft 29 is a leaf spring (28) It is bolted to the leaf spring 28 through the center of the.

The operation of the conventional linear compressor configured as described above is first applied to an external AC power, and accordingly, the polarity of the stator changes according to the polarity of the supplied current, thereby securing a constant distance between the permanent magnet and the support frame 27. ) Is rotated up and down together with the permanent magnet 26, the piston 25 is linearly reciprocated up and down by the drive of the support frame 27, when the piston 25 moves from the bottom to the top, the refrigerant is suction pipe (20) The suction valve 28 is opened through the inlet to enter the compression chamber S. Then, when the piston 25 moves from the upper side to the lower side, the refrigerant in the compression chamber S is gradually compressed and discharged through the discharge valve 19 and the discharge tube 21 when the compression is performed at a predetermined pressure. In particular, the suction force is generated in the suction pipe 20 when the piston 25 is driven toward the bottom dead center in the suction stroke, but the suction force is also generated in the oil oil supply pipe 22. At this time, the oil accumulated in the bottom of the sealed container 10 due to the suction force is forcibly sucked through the oil lubrication pipe 22 to be supplied to the cylinder head 14, it is continuously introduced into the compression chamber (S) and the compression chamber (S) is to help smooth operation of the inner piston (25).

In this conventional linear compressor, the oil lubrication structure is formed on the upper side of the compressor, so the lubrication pipe 22 must bypass the actuator inside the sealed container 10 so that the lubrication pipe 22 has a plurality of bending portions. Also, the length becomes too long. For this reason, the fixed state of the oil supply pipe 22 is placed in an unstable state, so that the noise caused by the vibration of the oil supply pipe 22 is generated by vibration or the like generated by the driving of the compressor. The banding part may be damaged by noise and vibration. In particular, when the bending portion is damaged, the oil supply to the compression chamber (S) is stopped and the frictional wear of the piston 25 and the cylinder 13 cannot be controlled. In addition, in the oil, metal foreign matter suspended therein flows into the oil supply pipe 22 and accumulates inside the oil supply pipe 22, or when the oil flows into the compression chamber S, the oil supply to the compression chamber S is stopped. Or damage to the inner circumferential surface of the piston (25) or the cylinder (13) has a problem of reducing the operation reliability of the compressor.

The present invention is to solve the above problems and an object of the present invention is to improve the installation structure so that the oil supply pipe is more firmly fixed to prevent the oil supply pipe is damaged by the vibration generated by the drive of the compressor. .

Still another object according to the present invention is to purify the metal foreign matter suspended in the oil flowing into the oil supply pipe so that the purified oil can be introduced into the oil supply pipe to improve the operation reliability of the compressor.

1 is a cross-sectional view showing a conventional linear compressor.

2 is a cross-sectional view showing a linear compressor according to the present invention.

3 is a perspective view showing an oil lubrication device in the linear compressor according to the present invention.

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

50 ... Airtight container 53 ... Cylinder

54 Cylinder head 55 Valve plate

56.Intake port 57 ... Discharge outlet

58 ... suction valve 59 ... discharge valve

62.Oil supply pipe 70

71.Inlet 72 ... Collectors

In order to achieve the above object, the present invention provides a sealed container in which oil is accumulated at a bottom thereof, a linear motor which generates lifting driving force by an induction magnetic field formed by the application of an external power source inside the sealing container, and a piston lifting and lowering by the lifting driving force. And a cylinder forming a compression chamber for guiding the lifting and lowering of the piston, a cylinder head coupled to one end of the cylinder, the cylinder head having an inlet and an outlet, one end of which is immersed in the oil to lubricate the compression chamber, and the other end of the cylinder to the suction unit. In a linear compressor having a communicating oil supply pipe,

The oil supply pipe is characterized in that extends through the cylinder to the inlet of the compression chamber.

Hereinafter, one preferred embodiment according to the present invention will be described in detail with reference to the drawings. 2 is a cross-sectional view showing a linear compressor according to the present invention. As shown therein, the linear compressor according to the present invention includes an airtight container 50 in which an upper airtight container 51 and a lower airtight container 52 are combined, and the refrigerant is sucked and compressed in the airtight container 50. Compression units for ejecting and driving units for generating a compression force are provided separately. And the bottom of the airtight container 50, the oil is accumulated to smoothly lubricate the operation of the drive unit.

The compression section includes a cylindrical cylinder 53, and includes a rod-shaped piston 65 for vertically reciprocating the compression chamber S inside the cylinder 53. As shown in FIG. In addition, the suction pipe 60 for sucking the refrigerant into the cylinder 53 and the discharge pipe 61 for discharging and guiding the discharged refrigerant at a high pressure are connected to each other, and the cylinder head 54 having the suction part and the compression part is provided. And a valve plate 55 interposed between the cylinder head 54 and the cylinder 53 and having an inlet port 56 and an outlet port 57 formed on the valve plate 55. And a suction valve 58 and a discharge valve 59 for opening and closing the discharge port 57, respectively. In addition, an oil lubrication device is provided at the piston 65 operating part inside the cylinder 53 in the sealed container 50 to prevent wear due to friction thereof. The oil lubrication device includes a lubrication pipe 62 in which an inlet end of the lower end is contained in the oil of the bottom of the sealed container 50, and an outlet end of the upper part communicates with the suction part of the cylinder head 54. The oil supply pipe 62 vertically passes through the cylinder 53 and communicates with the suction portion of the cylinder head 54. For this purpose, a through hole 73 is formed in the cylinder 53.

The drive unit is provided with an internal stator 64 and an external stator 63, respectively, and a permanent magnet 66 magnetized in a radial direction is provided between each of the stators 63 and 64. And the cylindrical support frame 67 for fixing the magnet 66 is provided. The support frame 67 is screwed through a coupling shaft 69 extending from the bottom of the piston 65 through the bottom surface of the support frame 67, the end of the coupling shaft 66 is a leaf spring (68) It is bolted to the leaf spring 68 through the center. In addition, the lower surface of the support frame 67 is also provided with a through hole 73 for allowing the oil supply pipe 62 penetrating the cylinder 53 to extend.

On the other hand, in the oil supply pipe 62, the outlet end portion is gently bent so that the outlet end extending to the suction portion of the cylinder 53 heads toward the suction port 56 formed in the valve plate 55. In addition, at the inlet end of the oil supply pipe 62, that is, the portion immersed in the bottom of the sealed container 50, a filtering member 70 for removing floating foreign matter floating in oil is provided. The filtering member 70 is provided in a cylindrical shape with the upper and lower ends opened, and a plurality of oil inlets 71 are formed at the side portions thereof so that foreign substances having a predetermined size in the oil flowing into the inlet end of the oil supply pipe 62 are introduced into the inlet port ( The oil filtered and filtered by the filter 71 is introduced into the oil supply pipe 62. Also, the magnet 72 for filtering is installed inside the locking member 70 to remove oil from the foreign matter introduced into the filtering member 70. The fine metal particles are attached to the magnet 72 so as not to flow into the inlet end of the oil supply pipe 62.

The operation of the conventional linear compressor configured as described above is first applied when an external AC power is applied, and the polarity of the stator changes according to the polarity of the supplied current, thereby securing and maintaining a constant gap between the permanent magnets 66. When the frame 67 rotates up and down together with the permanent magnet 66, and the piston 65 moves up and down linearly by the driving of the support frame 67, the piston 65 moves from the lower portion to the upper portion of the refrigerant. The suction valve 58 is opened through the suction pipe 60 to be introduced into the compression chamber S. Then, when the piston 65 moves from the upper side to the lower side, the refrigerant in the compression chamber S is gradually compressed and compressed to a predetermined pressure, so that the discharge valve 59 is opened through the discharge tube 61 to open the discharge valve 59 ( 61).

On the other hand, when the piston 65 is driven toward the bottom dead center in this suction stroke, suction force is generated in the suction pipe 60, but similarly, suction force is generated in the oil oil supply pipe 62 as well. At this time, the oil accumulated in the bottom of the airtight container 50 is forced into the oil supply pipe 62 and supplied to the cylinder head 54 due to the suction force generated, and is continuously introduced into the compression chamber S and the compression chamber (S) is to help smooth operation of the inner piston (65). In this case, the oil flowing into the oil supply pipe 62 is first filtered out of the foreign matter having a large diameter among the foreign matters suspended in the accumulated oil without being introduced into the inlet 71 of the filtering member 70, and the filtering member 70 continues. Fine metal particles in the oil introduced into the) is filtered by the filtering magnet 72 so that the oil flowing into the inlet end of the oil supply pipe 62 is introduced into the oil supply pipe 62 in a purified state.

The linear compressor according to the present invention as described above is an improved oil lubrication device that can prevent damage to the lubrication pipe and thus oil non-lubrication, and also prevents foreign substances floating in the sealed container from flowing into the oil supply pipe. By preventing clogging, there is an effect that can be attributed to the operation reliability and performance coefficient of the compressor.

Claims (6)

A sealed container in which oil is accumulated at its bottom, a linear motor which generates lifting driving force by an induction magnetic field formed by the application of an external power source inside the sealing container, a piston lifting and lowering by the lifting driving force, and a compression chamber for guiding the lifting of the piston. A cylinder coupled to one end of the cylinder and having a suction head and a discharge port, and a linear compressor having an oil supply pipe having one end immersed in the oil and the other end communicating with the suction part to lubricate the compression chamber. In The oil supply pipe (62) extends through the cylinder (53) to the inlet of the compression chamber. The linear compressor according to claim 1, wherein the cylinder (53) has a through hole (73) through which the oil supply pipe (62) passes. The method of claim 1 or 2, wherein one end of the oil supply pipe 62 extending to the suction portion is bent so that the outlet of the oil supply pipe 62 is directed toward the inlet of the compression chamber (S). Linear compressor. According to claim 3, Where the oil is locked to the bottom of the sealed container 50, characterized in that the filtering member 70 for filtering foreign matter floating in the oil flowing into the inlet of the oil supply pipe 62 is installed. Linear compressor. According to claim 3, wherein the filtering member 70 is provided in a cylindrical shape with both ends open, the side portion is characterized in that the oil inlet 71 is formed so that the oil in the state of the foreign matter of a predetermined size is introduced Linear compressor. 5. The linear compressor according to claim 4, wherein a magnet (72) is installed inside the filtering member (70) to collect metal foreign matter suspended in oil introduced into the oil inlet (71).