KR200239970Y1 - Airtight Compressor for Air Conditioning - Google Patents

Abstract

The present invention relates to a hermetic compressor for an air conditioner, wherein oil moving upward through a helical shaft hole of a bearing portion rotated by a motor in the motor case passes through a constant velocity coupling, and partly through a bearing oil supply hole, and a balance type mechanical seal. The other part is introduced into the oil wetting space of the inner rotor along the oil circulation hole, and the remaining portion is moved upward along the oil supply hole of the upper housing, and the oil inlet hole, the oil discharge hole and the oil circulation hole are Through the discharge hole to discharge the cell to the upper housing formed on the outer surface,

The air supplied from the outside through the air inlet hole of the housing is supplied to the central space of the upper housing through the air circulation hole formed between the outer rotor and the air supply hole, the compression chamber and the reed valve of the inner rotor, and the compressed air of the motor case. By collecting them in the air tank through the discharge pipe, it is possible to generate high pressure compressed air in a closed small space and to obtain pure and high pressure compressed air by stable operation without generating noise during compression.

Description

Airtight Compressor for Air Conditioning

The present invention relates to a hermetic compressor for an air conditioner. In particular, the inner rotor is inserted into a circular hole of the inner rotor by the rotational force transmitted through the constant velocity coupling in the center eccentric shaft, and the opening of one side is The present invention relates to a hermetic compressor for an air conditioner in which an operation of compressing air in a compression chamber by a vane fitted to an integrated multi-clamper is performed smoothly, and at the same time, a phenomenon in which compressed air is mixed with oil is prevented.

In general, an airtight compressor for an air conditioner is provided such that at least one vane is reciprocated while being resiliently driven by a spring in a rotor that is eccentrically rotated in a cylindrical cylinder. It is well known that fluids such as oil or air flowing through the inlet port are compressed to be discharged through the outlet port.

However, according to the conventional hermetic compressor for air conditioner, the distance between the rotor and the cylinder rotating around the eccentric rotation axis within the cylinder is changed while being close, and the vane is variable as the distance is varied. Since it is configured to protrude to the outside by elastic force or to push inward while contacting the inner wall of the cylinder, when the rotor's rotation speed increases, the vane that protrudes outward is quickly contacted with the inner wall of the cylinder and damaged by contact before being pushed inward. There is a disadvantage in that the rotation speed can not be increased, of course, in order to reduce the damage of the vane there was a problem such as the material and size of the vane is limited.

Therefore, the present applicant has proposed a vane pump in 1995 Patent Application No. 42007, as shown in Fig. 1, which has a spiral shaft hole 2 formed in the center thereof, and is formed by a bearing unit which is rotated by a motor (not shown). On the outer circumferential surface of 1), the inner rotor (3) formed on both sides of the upper and lower air circulation holes (4), (5) and the inlet holes (6) and (7) penetrated to the side are integrally formed.

A large shaft hole of the outer rotor 11 which is inserted into the cylindrical operating hole so that the vanes protruding in the longitudinal direction in the inflow holes 6 and 7 of the inner rotor 3 is located eccentrically with respect to the bearing portion 1 ( 12 to supply air to the air circulation holes (4), (5),

The enclosed space formed by the outer surface of the inner rotor 3 and the inner surface of the outer rotor 11 is divided into a compression chamber and a supply chamber at the right and left sides of the vanes and compressed by a state in which the volume of the compression chamber and the supply chamber is changed. The air compressed in the seal is discharged to the outside through the discharge port of the outer rotor 11,

In the housing 21 in which the sealed compressed air storage chamber is formed between the outer rotor 11 and the outer rotor 11, air is supplied to the large shaft hole 12 of the outer rotor 11 through the air supply paths 22 and 23 connected to the outside. To supply compressed air from the compressed air reservoir to the external compression tank,

The outer rotor of the housing 21 in which oil-wetting portions 26 and 27 are formed circumferentially in the small shaft holes 25 at positions in contact with the oil supply holes 8 and 9 of the bearing part 1, respectively. The oil circulating hole 15 is formed in the large shaft hole 12 of the outer rotor 11 in contact with the bearing part 1 while the oil circulation groove 28 is formed in the portion in contact with the 11.

By connecting the oil circulation groove 28 and the oil circulation hole 15 to the oil circulation path 16, it is possible to generate a high-pressure compressed air in a small space in a closed state and to reduce the size and light weight inside the air conditioner It is configured to be built.

However, according to the conventional vane pump as described above, the compressed air is compressed between the housing 21 and the compressed air while the vanes are rotated while the vanes are inserted into the operating holes while the shafts of the inner rotor 3 and the outer rotor 11 are different. Since the vane of the outer rotor 11 is eccentrically rotated while the vane of the outer rotor 11 is eccentrically rotated, the vane is continuously stored in the air storage chamber. Since the impact sound is generated during compression while being in contact with both sides, there is a disadvantage in that wear occurs due to the bite.

In addition, there is a problem that the amount of compressed air is reduced by the amount of oil is mixed with the compressed air supplied to the tank is compressed in the compression chamber.

Accordingly, the present invention inserts a plurality of thin clads into the circular hole of the inner rotor that receives the rotational force through the constant velocity coupling on the central eccentric shaft, so that the outer rotor with the vane rotated at constant speed is supplied through the housing. Compressed air is discharged to the external tank through the central bearing part, and the oil supplied through the screw formed on the shaft of the motor is wetted by each rotating part and then discharged through the oil discharge hole of the upper housing. It is an object of the present invention to provide a hermetic compressor for air conditioner, which is capable of obtaining pure and high pressure compressed air by stable operation without generating noise during compression by preventing mixing with air.

The present invention for achieving the above object is that the oil moving upward through the helical shaft hole formed in the center of the bearing portion rotated by the lower motor in the inside of the motor case is supplied to the site where the constant velocity coupling is installed, some of the shaft bearing Through the secondary oil supply, the seal ring is not mixed with air by the wave-washer spring and the balance type mechanical seal that is elastically supported by the backup ring and the o-ring. To smooth the rotation of the bearing,

Another part of the oil is introduced into the oil wetting space of the inner rotor along the oil circulation hole so that the inner rotor and the outer rotor rotate smoothly, and the remainder of the oil moves upward along the oil supply hole of the upper housing. It is supplied to the part contacting the inner rotor through the oil inlet hole and rotates smoothly. At the same time, it is supplied to the oil circulation hole formed between the outer rotor and the oil discharge hole so that the cell rotates smoothly. Discharge to the upper housing,

Air supplied from the outside through the air inlet hole of the housing is temporarily stored in the air circulation hole formed between the outer rotor,

The air of the air circulation hole is to be supplied to the compression chamber formed between the inner rotor through the air supply hole formed on the right side of the vane of the outer rotor,

By the thin ring-shaped multiple clamper located in the circular hole of the inner rotor into which the vanes of the outer rotor are fitted, the compression chamber is compressed by changing the volume of the compression chamber while maintaining airtightness.

In the center of the lower end of the inner rotor inserted into the circular hole to maintain the airtight by the apex seal, the multi-clamper forms a space with ring gears on the inner circumferential surface, and forms a space with ring gears on the top center of the bearing part. The sun gears formed on both sides of the constant velocity coupling are engaged with the ring gears so that the inner rotor which is eccentrically positioned with respect to the bearing part rotates at a constant speed,

The compressed air compressed in the compression chamber is supplied to the central space of the upper housing while preventing backflow by a reed valve formed on the outer circumferential surface of the inner rotor, and then through the compressed air discharge tube formed on the upper side of the motor case. By collecting it in the outside air tank, it can generate high pressure compressed air in a small space in a closed state, and can be built inside the air conditioner by compact and lightweight, and it is pure by stable operation without generating noise during compression. It is to get high pressure compressed air.

1 is a side cross-sectional view showing the configuration of a conventional vane pump.

Figure 2 is a side view showing a configuration cut a part of the present invention.

3 is a plan view showing a configuration in which a part of the present invention is cut away.

Explanation of symbols on the main parts of the drawings

31: motor case 33: bearing part

41: internal rotor 44: external rotor

50: upper housing 52: housing

59: multiple clamper A: balance grooved mechanical seal

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

2 and 3 illustrate a state in which the side and the plane of the present invention are cut out, and a spiral shaft hole formed in the center of the bearing part 33 rotated by the motor 32 at the lower end of the motor case 31. The oil moving upward through the 34 is supplied to the site where the constant velocity coupling 35 is installed,

A portion of the oil is passed through the bearing oil supply hole 36 and the seal ring 37 is elastically balanced by the wave washer spring 38, the backup ring 39 and the o-ring 40. The rotation of the bearing part 33 is smoothed without being mixed with air by the mechanical seal A,

Another portion of the oil is introduced into the oil wetting space 43 of the inner rotor 41 along the oil circulation hole 42 to allow the inner rotor 41 and the outer rotor 44 to rotate smoothly,

The remainder of the oil is supplied to the portion contacting the inner rotor 41 through the oil inlet hole 46 while moving upward along the oil supply hole 45 of the upper housing 50 so as to rotate smoothly. After supplying to the oil circulation hole 48 formed between the outer rotor 44 through the 47 so as to rotate smoothly, the cell 51 is formed on the outer surface of the upper housing 50 through the two discharge holes 49 To be discharged to the outside,

Air supplied from the outside through the air inlet hole 53 of the housing 52 is temporarily stored in the air circulation hole 54 formed between the outer rotor 44,

The air of the air circulation hole 54 is supplied to the compression chamber 57 formed between the inner rotor 41 through the air supply hole 56 formed on the right side of the vane 55 of the outer rotor 44. and,

The airtightness is maintained by the multiple clampers 59 formed by overlapping a plurality of thin ring-shaped thin clampers positioned in the circular holes 58 of the inner rotor 41 into which the vanes 55 of the outer rotor 44 are fitted. To be compressed by changing the volume of the compression chamber 57,

In the center of the lower end of the inner rotor 41 inserted into the circular hole 58 so that the multiple clampers 59 are kept airtight by the apex seal 60, a space having a ring gear 62 is provided on the inner circumferential surface thereof. 61 to form a space portion 63 having ring gears 64 in the center of the upper end of the bearing portion 33 to form both sides of the constant velocity coupling 65 on the ring gears 62 and 64. By making the sun gears 66 and 67 formed therein engage, the inner rotor 41 eccentrically positioned with respect to the bearing 33 is rotated at a constant speed,

The compressed air compressed in the compression chamber 57 is prevented from backflow by the reed valve 68 formed on the outer circumferential surface of the inner rotor 41, and the supply hole 69a and the circular space 69 of the inner rotor 41 are prevented. After being supplied to the central space portion 70 of the upper housing 50 through the compressed air discharge tube 71 formed on the upper end of the motor case 1 configured to be collected in an external air tank not shown in the figure will be.

The sealed compressor for an air conditioner of the present invention configured as described above is made to be compressed into an external tank by generating compressed air that is not mixed with oil while rotating by the motor 32 inside the motor case 31. Is moved upward through the helical shaft hole 34 formed in the center of the bearing portion 33 rotated by the lower motor 32 in the motor case 31 to supply to the site where the constant velocity coupling 35 is installed. do.

A part of the oil is a balance type mechanical mechanism in which the seal ring 37 is elastic to the wave washer spring 38, the backup ring 39, and the O-ring 40 via the bearing oil supply hole 36. The seal A allows the rotation of the bearing 33 to be smooth without being mixed with the air introduced into the air circulation hole 54 between the housing 52 and the outer rotor 44.

Another portion of the oil is introduced into the oil wetting space 43 of the inner rotor 41 along the oil circulation hole 42 to allow the inner rotor 41 and the outer rotor 44 to rotate smoothly.

The remainder of the oil is supplied to the portion contacting the inner rotor 41 through the oil inlet hole 46 while moving upward along the oil supply hole 45 of the upper housing 50 and at the same time the oil discharge hole 47 is opened. It is supplied to the oil circulation hole 48 formed between the outer rotor 44 through the inner rotor 41 and the outer rotor 44 to rotate smoothly.

When discharged to the outside through the two discharge holes 49 of the upper housing 50, the cells 51 formed on the outer surface of the upper housing 50 move downward through the spaces on both sides to be received again according to the rotation of the bearing part 31. .

And the process of compressing the air during the smooth rotation by the oil is when the air is supplied from the outside through the air inlet hole 53 of the housing 52, the air circulation hole formed between the outer rotor 44 ( 54) temporarily stored.

The air of the air circulation hole 54 is introduced into the compression chamber 57 formed between the inner rotor 41 through the air supply hole 56 formed on the right side of the vane 55 of the outer rotor 44. .

The airtightness is maintained by the multiple clampers 59 formed by overlapping a plurality of thin ring-shaped thin clampers positioned in the circular holes 58 of the inner rotor 41 into which the vanes 55 of the outer rotor 44 are fitted. As the inner rotor 41 rotates, the volume of the compression chamber 57 divided by the outer wall of the inner rotor 41 and the inner wall of the outer rotor 44 and the vanes 55 is compressed.

The inner rotor 41 is a space in which the ring gear 62 is provided on the inner circumferential surface of the lower center in a state where the multiple clampers 59 are inserted into the circular holes 58 so that the airtightness is maintained by the apex seal 60. A space portion 63 having ring gears 64 is formed in the center of the upper end of the water bearing portion 33 while forming the portion 61 to be engaged with the sun gear 66 formed on the upper side of the constant velocity coupling 65. Thus, the sun gear 67 formed on the lower side of the constant velocity coupling 65 is engaged so that the internal rotor 41 located eccentrically with respect to the bearing 33 is rotated at constant speed.

The compressed air compressed in the compression chamber 57 is prevented from backflow by the reed valve 68 formed on the outer circumferential surface of the inner rotor 41, and the supply hole 69a and the circular space 69 of the inner rotor 41 are prevented. After the movement through the supplied to the central space portion 70 of the upper housing 50 is collected in the air tank through the compressed air discharge pipe 71 formed on the upper end of the motor case (1).

Therefore, according to the hermetic compressor for an air conditioner of the present invention, the oil moving upward through the helical shaft hole of the bearing part rotated by the motor in the motor case passes through the constant velocity coupling, and partly through the bearing part oil supply hole, and the balance type mechanical mechanism. The other part is introduced into the oil wetting space of the inner rotor along the oil circulation hole, and the remaining portion is moved upward along the oil supply hole of the upper housing, and the oil inlet hole, the oil discharge hole and the oil circulation hole are Through the discharge hole to discharge the cell to the upper housing formed on the outer surface,

The air supplied from the outside through the air inlet hole of the housing is supplied to the central space of the upper housing through the air circulation hole formed between the outer rotor and the air supply hole, the compression chamber and the reed valve of the inner rotor, and the compressed air of the motor case. By collecting them in the air tank through the discharge pipe, it is possible to generate high pressure compressed air in a closed small space and to obtain pure and high pressure compressed air by stable operation without generating noise during compression.

Claims (1)

The ring gear 62 is formed on the inner circumferential surface of the inner rotor 41 at the center of the lower end of the inner rotor 41 while forming a space portion 63 having the ring gear 64 at the center of the upper end of the bearing portion 33 rotated by the motor 32. In a sealed compressor for an air conditioner in which the sun gears 66 and 67 formed on both sides of the constant velocity coupling 65 are formed to form a space 61 provided so that the internal rotor 41 rotates at a constant speed. A spiral shaft hole 34 is formed in the center of the bearing part 33 which is rotated by the lower motor 32 in the motor case 31, In the space connected to the lower end of the helical shaft hole 34 via the bearing oil supply hole 36, a seal ring 37 is formed with a wave washer spring 38, a backup ring 39, and an o-ring 40. The balance type mechanical seal (A) receiving elasticity by An oil wetting space 43 of the inner rotor 41 is connected to an upper end of the spiral shaft hole 34 through an oil circulation hole 42. An oil inlet hole 46 and an oil discharge hole 47 are formed in the oil supply hole 45 of the upper housing 50 positioned at the upper end of the water storage part 33. In the oil circulation hole 48 connected to the oil discharge hole 47, the cell 51 is connected to the two discharge holes 49 of the upper housing 50 formed on the outer surface thereof. An air circulation hole 54 is formed between the housing 52 and the outer rotor 44 connected to the outside through the air inlet hole 53, An air supply hole 56 is formed on the right side of the vanes 55 of the outer rotor 44 so as to be connected to the compression chamber 57 formed between the inner rotor 41. In the circular hole 58 of the inner rotor 41 into which the vanes 55 of the outer rotor 44 are fitted, a multi-clamper 59 is formed in which a plurality of thin ring-shaped thin clampers are overlapped. Air conditioner, characterized in that by connecting the central space portion 70 of the upper housing 50 in the supply hole (69a) and the circular space 69 of the inner rotor 41, the reed valve 68 is formed on the outer peripheral surface Hermetic compressor.