KR100197712B1 - Flowing prevention device of a hermetic compressor - Google Patents

Abstract

The present invention relates to an apparatus for preventing flow of a hermetic compressor and includes a fixed shaft 120 fixedly disposed at a predetermined length L inside the top cover 2 to reduce the length of the rotating shaft 110, And a shaft hole 114 formed in the upper end of the rotary shaft 110 so that the shaft 120 is inserted into the rotary shaft 110. By providing the fixing shaft 120 in a long length, The weight of the rotating portion is reduced to reduce the rotational load, and consequently, the efficiency of the compressor by reducing the power consumption during the operation of the compressor can be improved.

Description

Flow prevention device of hermetic compressor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a compressor for compressing a refrigerant at a high temperature and a high pressure, and more particularly, to a flow prevention device for a hermetic compressor that reduces the weight of a rotary shaft to reduce a rotary load, thereby improving a compressor efficiency.

As shown in FIG. 1, the conventional compressor includes a main body 1 forming an outer tube, a top cover 2 covering the upper side of the main body 1 is disposed above the main body 1, A stator 3 for generating a magnetic field by receiving an external power source is arranged inside the stator 3. A rotor 5 rotated by the influence of a magnetic field formed on the stator 3 is disposed inside the stator 3 And a rotating shaft 9 rotating in conjunction with the rotor 5 is disposed in the inside of the rotor 5. A rotary motion of the rotating shaft 9 is formed at one end of the rotating shaft 9 A piston 13 is disposed at an end of the connecting rod 11 so as to reciprocate in conjunction with the reciprocating motion of the connecting rod 11, (13) is provided on the outer side of the piston (13) so as to reciprocate the piston A cylinder block 15 is disposed to form a space for compressing the refrigerant and a bearing 17 for rotatably supporting the rotary shaft 9 is disposed at one side of the outer circumferential surface of the rotary shaft 3, An oil pick-up member 19 for pulling up the oil stored in the bottom of the main body 1 is disposed at the lower end of the rotary shaft 9, and the oil is supplied to the inside of the top cover 2, Flow preventing means (30) are arranged to prevent breakage of the internal structure due to abrupt flow.

The flow preventing means 30 is composed of a fixed cap 31 disposed inside the top cover 2 so as to insert the upper end side of the rotary shaft 9.

An oil hole 9a through which the oil drawn up by the oil pick-up member 19 is formed is formed in the lower end of the rotary shaft 9, and the oil hole 9a is formed in the outer peripheral surface of the rotary shaft 9 An oil groove 9b is formed to continuously raise the raised oil so as to prevent the oil from rubbing against the inner side surface of the bearing 17. An oil raised along the oil groove 9b is formed at one side of the outer circumferential surface of the rotating shaft 9 And an oil bank 9c for lifting the oil to the uppermost portion of the bearing 17 is formed in a straight line shape.

In the conventional mill-type compressor thus configured, when a magnetic field is formed in the stator 3 when power is applied and the rotor 5 is rotated by a magnetic field formed in the stator 3, The connecting rod 11 disposed at one end of the rotor 5 reciprocates linearly as the rotor 5 rotates and the connecting rod 11 is reciprocated, One end of the connecting rod 11 and the piston 13 disposed on the inner side of the cylinder block 15 are linearly reciprocated to be driven in one direction so that the refrigerant flows into the cylinder block 15 , The refrigerant in the compressed cylinder block 15 becomes a high pressure and is discharged to the outside of the cylinder block 15 through the unillustrated discharge port as the piston 13 is linearly moved in the direction opposite to the above-described direction.

On the other hand, the oil pick-up member 19 rotated by the rotation of the rotary shaft 9 pulls up the oil stored in the bottom of the main body 1, and the oil is lifted up to the inside of the lower end of the rotary shaft 9 And is supplied to the piston 13 via the connecting rod 11 and the oil raised through the oil hole 9a is secondarily supplied to the rotary shaft 9 through the oil hole 9a, And continues to rise along the oil groove 9b formed on the outer circumferential surface to supply oil to the inside of the bearing 17 to perform the lubricating action.

At this time, the rising oil stays in the oil bank 9c processed on one side of the outer circumferential surface of the rotary shaft 9, and the oil rises again to the upper end of the bearing 17 and then drops down again. I do.

In this way, by positioning the upper end of the rotary shaft 9 inside the flow preventing means 30, that is, the fixed cap 31, the internal structure of the compressor is moved Thereby preventing damage.

However, in the conventional hermetic compressor having the above-described structure, the length of the rotary shaft 9 is increased to insert the upper end of the rotary shaft 9 into the fixed cap 31 to prevent the internal structure from flowing, The efficiency of the compressor is lowered as the consumption input increases.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a hermetic compressor that reduces the rotational load by reducing the length of the rotary shaft while preventing the flow from flowing effectively. And a flow prevention device.

FIG. 1 is an entire longitudinal sectional view schematically showing a configuration of a conventional hermetic compressor. FIG.

FIG. 2 is an overall longitudinal sectional view schematically showing the construction of a hermetic compressor according to an embodiment of the present invention.

DESCRIPTION OF THE REFERENCE NUMERALS

1: Body 2: Top cover

100: Flow preventing means 110:

114: shaft passage hole 120: fixed shaft

According to another aspect of the present invention, there is provided an apparatus for preventing flow of a hermetic compressor, the apparatus comprising: a main body; a top cover disposed above the main body to cover the main body; A rotor disposed inside the stator to rotate under the influence of a magnetic field formed in the stator, a rotating shaft forcedly press-fitted inside the rotor to rotate in conjunction with the rotor, And a flow preventive means provided on the upper side of the main body to prevent the stator, the rotor, the rotary shaft, and the like from flowing during operation or stoppage, wherein the flow preventive means comprises: A fixed shaft fixedly disposed at a predetermined length on the inner side thereof, and a shaft passage formed inside the upper end of the rotating shaft such that the fixed shaft is inserted That consisting of features.

Hereinafter, a preferred embodiment of the present invention will be described in more detail with reference to FIG. 2 of the accompanying drawings.

The same reference numerals and the same names are given to the same parts as those shown in Fig.

As shown in FIG. 2, there is a main body 1 forming an outer appearance of a compressor. A top cover 2 covering an upper side is disposed on the upper side of the main body 1, A stator 3 for generating a magnetic field by receiving external power is disposed inside the stator 3. A rotor 5 rotated by the influence of a magnetic field formed on the stator 3 is disposed inside the stator 3 And a rotating shaft 110 rotating in conjunction with the rotor 5 is disposed inside the rotor 5. A rotary motion of the rotating shaft 110 is transmitted to one end of the rotating shaft 110 by a reciprocating motion And a piston 13 is disposed at the end of the connecting rod 11 so as to reciprocate in conjunction with the reciprocating motion of the connecting rod 11. The piston 13 The piston 13 is guided so as to reciprocate A cylinder block 15 is disposed so as to form a space in which a refrigerant is compressed and a bearing 17 for rotatably supporting the rotary shaft 9 is disposed at one side of the outer peripheral surface of the rotary shaft 3, An oil pick-up member 19 for pulling up the oil stored in the bottom portion of the main body 1 is disposed at the lower end of the top cover 2, (100) for preventing the product from being damaged due to abrupt flow generated during transportation, operation, and stop.

The flow preventing means 100 includes a fixed shaft 120 formed to have a predetermined length L to reduce the length of the rotary shaft 110 and to reduce the weight of the rotary shaft 110 while being disposed inside the top cover 2, And an axial passage hole 114 formed at an upper end of the rotary shaft 110 so that the fixed shaft 120 is inserted.

An oil hole 111 through which the oil drawn up by the oil pick-up member 19 flows is formed in the lower end of the rotary shaft 110. The oil hole 111 is formed in the outer peripheral surface of the rotary shaft 110 An oil groove 112 is formed to continuously raise the raised oil so as to prevent the oil from rubbing against the inner surface of the bearing 17 and oil raised along the oil groove 112 is formed at one side of the outer circumferential surface of the rotating shaft 110 And an oil bank 113 for lifting up to the uppermost end of the bearing 17 is formed.

Next, an apparatus for preventing flow of a hermetic compressor according to an embodiment of the present invention will be described.

A magnetic field is formed in the stator 3 when the power is applied and when the rotor 5 is rotated by the magnetic field formed in the stator 3, the rotating shaft 110 As the rotor 5 rotates and the connecting rod 11 disposed at one end of the rotor 5 linearly reciprocates and the connecting rod 11 linearly reciprocates When the piston 13 disposed at one end of the connecting rod 11 and the cylinder block 15 is linearly reciprocated and driven in one direction, the refrigerant flows into the cylinder block 15, The refrigerant in the compressed cylinder block 15 becomes a high pressure and is discharged to the outside of the cylinder block 15 through the unillustrated discharge port.

The oil pick-up member 19 rotated by the rotation of the rotating shaft 110 pulls up the oil stored in the bottom of the main body 1 and the oil is drawn to the inside of the lower end of the rotating shaft 110 And the oil raised through the oil hole 111 is supplied to the piston 13 through the connecting rod 11 so that the oil raised through the oil hole 111 is secondarily supplied to the piston 13 via the connecting rod 11, The lubricating oil is supplied to the inside of the bearing 17 by continuously raising along the oil groove 112 formed on the outer peripheral surface.

At this time, the rising oil stays in the oil bank 113 which is machined on one side of the outer circumferential surface of the rotating shaft 110. The oil rises again to the upper end of the bearing 17 and then drops down again, I do.

The total length of the rotary shaft 110 is shortened to reduce the weight of the rotary part, thereby reducing the operation load at the time of operation of the compressor, thereby improving the efficiency of the single product of the compressor, As a result, the internal structure (for example, the rotor, the stator, the rotary shaft, etc.) is prevented from being easily damaged due to the sudden flow caused by the conveyance, operation or stop operation of the compressor.

As described above, according to the apparatus for preventing flow of a hermetic compressor according to the present invention, since the fixed shaft is arranged long inside the upper part of the main body, the weight of the rotating part is reduced by reducing the length of the rotating shaft, , It is possible to improve the efficiency of the compressor by reducing the power consumption during operation of the compressor.

Claims (1)

A top cover disposed on the upper side of the main body so as to cover the main body; a stator disposed on the inside of the main body to form a magnetic field by receiving external power; A rotor disposed inside the stator, a rotation shaft forcedly press-fitted inside the rotor to rotate in conjunction with the rotor, and a stator, a rotor, and a rotating shaft prevented from flowing during transportation, The flow preventing means 100 is fixed to the inside of the top cover 2 at a predetermined length L so as to reduce the length of the rotating shaft 110. In this case, And an axial passage hole (114) formed in the upper end of the rotary shaft (110) so that the fixed shaft (120) is inserted thereinto. Value.