KR20000067155A - Small compressor - Google Patents

Abstract

PURPOSE: A small compressor is provided to generate a high pressure compressed air in a narrow space, and reduce size and weight. CONSTITUTION: A rotating shaft(32) which rotates within a compressed air tank(31) by a motor, is inserted into a shaft hole(36) of a first housing(35) in such a manner that the rotating shaft rotates with stability. A ring-shaped driving hole(43) is formed at a side of a rotating member(41), and a circular space(44) having at an inner periphery thereof a ring gear(45) is formed at an interior of the rotating member. A second housing(51) to be coupled to the first housing accommodates a circular space(52) contacting the circular space(44). A ring gear(53) is formed at an inner periphery of the circular space(52). Linear gears(62,63) of a rotation suppressing device are engaged with the ring gears so that cam motion is performed with stability in accordance with the rotation of the rotating shaft. Since the ring-shaped driving hole of the rotating member is smaller than a compression chamber, i.e., an interior of the second housing, and larger than a circular vane(56) which is connected to the second housing, an air is compressed by changing volume of the compression chamber according to a cam motion of the ring-shaped driving hole. The compressed air flows toward the circular space, and is gathered within a compressed air tank.

Description

Compact compressor

The present invention relates to a compact compressor, and in particular, the other side of the rotating body that receives the rotational force of the rotating shaft through the shaft hole of the first housing to form a ring hole working hole therein integrally the circular space provided on the inner peripheral surface of the ring gear Forming a ring gear on the inner circumferential surface of the circular space in contact with the first housing in a state eccentric to the circular space, and integrally forming a circular vane fitted to the ring-shaped operation hole The present invention relates to a compact compressor capable of producing a large amount of compressed air in a small size and enabling a smooth operation by compressing the air supplied through the air supply hole of the second housing to discharge the discharge hole of the circular vane.

In general, a compressor is installed in a rotor that rotates eccentrically in a cylindrical cylinder so that at least one vane is reciprocated while receiving elasticity by a spring, and the vanes that are elastically outward as the rotor rotates contact the inner circumferential surface of the cylinder. It is well known that fluids such as oil or air entering through the inlet are compressed and discharged through the outlet.

However, according to the conventional compact compressor as described above, the distance between the rotor and the cylinder rotating around the eccentric rotation axis within the cylinder is closer and farther away, and the vanes are applied to the elastic force of the spring as the distance is varied. As it is configured to push outwards or push inwards while contacting the inner wall of the cylinder, when the rotor's rotational speed increases, vanes that protrude outwards are quickly contacted with the inner wall of the cylinder and are damaged by contact before pushing inwards. There is a disadvantage that the rotation speed can not be faster, of course, there is a problem such that the material and size of the vane is limited in order to reduce the damage of the vane.

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. At the same time to supply the compressed air in the compressed air storage compartment 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. In contact with both sides, a collision sound is generated during compression, as well as a wear phenomenon.

In addition, the vanes of the outer rotor 11 and the operating holes of the inner rotor 3 do not come into close contact with each other, resulting in leakage of compressed air, and the complexity of the configuration due to the rotation of the two rotors 3 and 11. There is a problem such that the size is increased thereby.

Accordingly, in the present invention, a ring gear is formed on the other side of the rotating body that receives the rotational force of the rotating shaft, and a circular space and a ring-shaped operation hole are integrally formed on the inner circumferential surface thereof. It is possible to produce a large amount of high compressed air in a small size by forming a circular space with a circular vane integrally to compress the air supplied through the air supply hole of the second housing to discharge to the discharge hole of the circular vane It is an object to provide a compact compressor that enables operation.

The present invention for achieving the above object is that the oil moving through the oil supply hole formed in the center of the rotating shaft rotated by the motor of one side in the inside of the compressed air tank is supplied to the circular space where the rotational restraint is installed Wet the rotating part while contacting the whole and the second housing, and then move along the oil circulation groove formed on the outer circumferential surface of the rotating shaft fitted into the D-shaped shaft hole of the rotating body to wet the shaft hole of the first housing into which the rotating shaft is inserted. To make the whole rotate smoothly,

Air supplied from the outside through the air supply hole formed on the left side of the circular vane of the second housing to be introduced into the compression chamber that is the inside of the second housing,

A portion cut into the D-shape, which is the end of the rotating shaft, is inserted into the D-shape hole so that air supplied from the outside through the air supply hole of the second housing flows into the compression chamber of the second housing.

A circular space having a ring gear is formed at the center of the upper end of the second housing while a circular space having a ring gear is formed at the inner circumferential surface at the center of the other side of the rotating body in which the end of the rotating shaft is inserted into the D-shape hole. The sun gears formed on both sides of the rotation restraint are engaged with the ring gears so that the cam motion is made stable according to the rotation of the rotation shaft.

Since the circular operating hole of the rotating body is smaller than the compression chamber inside the second housing and larger than the circular vane connected to the second housing through the concave portion, the air volume is compressed by changing the closed volume of the compression chamber according to the cam motion of the circular operating hole. Let's make it

The compressed air compressed in the compression chamber is moved to the circular space through the discharge hole formed on the right side of the circular vane of the second housing and then collected in the compressed air tank through the compressed air discharge port. Rotating body in the inside of the housing is a stable cam movement to generate high pressure compressed air in a small space and to be installed in the air conditioner small size and light weight.

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

Figure 2 is a side cross-sectional view showing the overall configuration of the present invention.

3 is a plan view showing a configuration of the present invention.

4 (a) to (c) is a schematic diagram showing an operating state of the present invention.

Explanation of symbols on the main parts of the drawings

31: compressed air tank 32: rotating shaft

35: first housing 41: rotating body

43: ring-shaped operator 44,52: circular space

51: second housing 56: circular vanes

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

2 and 3 schematically show a state in which the side and the plane of the present invention are cut out,

The rotating shaft 32, which is rotated by the lower motor not shown in the drawing, inside the compressed air tank 31 so as to rotate stably while being fitted in the shaft hole 36 of the first housing 35,

The D-shaped rotary shaft 33, which is the end of the rotary shaft 32, is inserted into the D-shaped shaft hole 42 to form a ring-shaped working hole 43 on the other side of the rotating body 41, which rotates together with the ring gear 45 therein. ) Integrally forms a circular space 44 provided on the inner circumferential surface,

In the second housing 51 coupled to the first housing 35, a ring gear 53 is formed on an inner circumferential surface of the circular space 52 in contact with the circular space 44 in an eccentric state.

Rotation restraint 61 to engage the sun gears 62 and 63 on both sides with ring gears 45 and 53 in the circular spaces 44 and 52 of the rotating body 41 and the second housing 51. ) Is coupled to rotate the rotating shaft 32 so that the cam motion is made stable while the rotating body 41 is supported at the center of the second housing 51,

The circular compression chamber 54 of the second housing 51 is integrally formed with a circular vane 56 which is connected to the ring-shaped operating hole 43 while being connected through the recess 55 to form the second housing 51. Compressed air supplied through the air supply hole 57 formed on the left side of the recessed portion 55 of the recessed portion 55 to be discharged to the discharge hole 58 formed on the right side of the recessed portion 55 of the circular vane 56. So that

After moving to the circular spaces 44 and 52 through the discharge hole 58 to be collected in the compressed air tank 3l through the compressed air discharge port 59,

The oil moving upward through the shaft hole 34 formed in the center of the rotary shaft 32 of the compressed air tank 31 is to be supplied to the circular space (44) 52, the rotation restraint (61) is installed,

In the circular spaces 44 and 52, the source oil soaks the rotating part while the rotor 41 and the second housing 51 come into contact with each other.

The oil is fitted into the oil circulation groove 64 formed in the outer circumferential surface of the D-shaped rotation shaft 33 fitted into the D-type shaft hole 42 of the rotating body 41 and the shaft hole 36 of the first housing 35. The rotation shaft 32 smoothly rotates in the first housing 36 while moving along the oil circulation groove 65 formed on the outer circumferential surface of the rotation shaft 32 so as to smoothly rotate the rotation body 41.

The compact compressor of the present invention configured as described above is used to generate compressed air while being rotated by a motor in the compressed air tank 31 to be used for an external air conditioner. First, a process of circulating oil for smooth rotation will be described. Is as follows.

The oil moving upward through the shaft hole 34 formed in the center of the rotary shaft 32 of the compressed air tank 31 is supplied to the circular spaces 44 and 52 in which the rotational restraint 61 is installed to rotate the rotor 41. ) And the second housing 51 are wetted with the rotating part.

The oil is fitted into the oil circulation groove 64 formed in the outer circumferential surface of the D-shaped rotation shaft 33 fitted into the D-type shaft hole 42 of the rotating body 41 and the shaft hole 36 of the first housing 35. The rotation moves along the oil circulation groove 65 formed on the outer circumferential surface of the rotating shaft 32, so that the rotating shaft 32 smoothly rotates while being inserted into the first housing 36 so that the rotation of the rotating body 41 is also enhanced. do.

And the process of compressing air while the rotary shaft is smoothly rotated by the oil is the rotary shaft 32 is rotated by the motor of the lower end inside the compressed air tank 31 is the shaft hole 36 of the first housing 35 While rotating while being fitted in the shaft, the D-shaped rotary shaft 33 at the end rotates together with the rotary body 41 fitted in the D-shaped shaft hole 42.

The rotating body 41 is a ring of circular spaces 44 and 52 with a ring-shaped operating hole 43 positioned between the circular compression chamber 54 and the circular vane 56 of the second housing 51. The sun gears 62 and 63 of the rotation restraint 61 are fitted to the gears 45 and 53 to allow stable cam motion.

That is, as shown in FIG. 3, the air flows into the uncompressed space A of the compression chamber 54 through the air supply hole 57 of the second housing 51, and the rotation shaft 32. As the rotation is performed, the rotating body 41 is cam-moved in the clockwise direction by the rotation restraint 61 supported by the second housing 51.

As shown in (a) of FIG. 4, when the cam moves by 90 ° clockwise in a state where the circular vanes 51 are fitted into the ring-shaped operating hole 43 of the rotating body 41 by the rotation shaft 32, The uncompressed space A is formed by the ring-shaped operating hole 43 of the rotating body 41 and the outer surface of the circular vane 56 of the second housing 51, so that air continues to flow through the air supply hole 52. Inflow.

As shown in (b) of FIG. 4, when the rotating body 41 cams by 180 °, the compression chamber is divided into a compression space B, an uncompressed space A, and a completely compressed space C. The air in the compression space B of 54 is further compressed.

As shown in (c) of FIG. 4, when the rotating body 41 cams by 270 °, the compressed air in the fully compressed space C is discharged through the discharge holes 58 in the circular spaces 44 and 52. ) To be collected in the compressed air tank (31) via the compressed air discharge port (59).

In the above embodiment, the ring gears 45 and 53 are formed in the circular spaces 44 and 52 so that the sun gears 62 and 63 of the rotational restraint 61 are fitted as an example. Even if the straight body is formed in the two circular spaces and the straight protrusion is formed in the rotational restraint, or the cross-shaped protrusion is formed in the rotational restraint while the cross-shaped groove is formed in the two circular spaces, the rotor 41 does not rotate. Only cam movement can be done.

Therefore, according to the compact compressor of the present invention, the air supplied from the outside through the air supply hole of the second housing to be introduced into the compression chamber of the second housing,

The rotating body, which is rotated by inserting the D-shaped rotary shaft at the end of the rotary shaft into the D-shaped shaft hole, forms a circular space with a ring gear at an inner circumferential surface at the center of the other side thereof, and forms a circular space with a ring gear at the upper center of the second housing. The sun gears formed on both sides of the rotation restraint are engaged with the ring gears so that the cam motion is made stable according to the rotation of the rotation shaft.

Since the circular operating hole of the rotating body is smaller than the compression chamber inside the second housing and larger than the circular vane connected to the second housing through the concave portion, the air volume is compressed by changing the closed volume of the compression chamber according to the cam motion of the circular operating hole. Let's make it

The compressed air compressed in the compression chamber is moved to the circular space through the discharge hole formed on the right side of the circular vane of the second housing and then collected in the compressed air tank through the compressed air discharge port. Rotating body inside the housing is a stable cam movement to generate a high pressure compressed air in a small space, and to be installed in the air conditioner by compact and lightweight.

Claims (2)

The rotating shaft 32 rotated by the motor in the compressed air tank 31 to be stably rotated while being fitted in the shaft hole 36 of the first housing 35, The D-shaped rotary shaft 33, which is the end of the rotary shaft 32, is inserted into the D-shaped shaft hole 42 to form a ring-shaped working hole 43 on the other side of the rotating body 41, which rotates together with the ring gear 45 therein. ) Integrally forms a circular space 44 provided on the inner circumferential surface, In the second housing 51 coupled to the first housing 35, a ring gear 53 is formed on an inner circumferential surface of the circular space 52 in contact with the circular space 44 in an eccentric state. In accordance with the rotation of the rotation shaft 32 by engaging the rotational restraint 61 to engage the sun gear 62, 63 on both sides to the ring gear 45, 53 in the circular space (44, 52) While the whole 41 is supported in the center of the second housing 51, the cam motion is made stable, In the circular compression chamber 54 of the second housing 51, an air supply hole 57 is formed by integrally forming a circular vane 56 that is connected to the ring-shaped operation hole 43 while being connected through the recess 55. Compressed air to be supplied through the) to be discharged to the discharge hole 58, Small size, characterized in that configured to move to the lower space to be collected in the compressed air tank 31 through the compressed air discharge port 59 after moving to the circular space 44, 52 through the discharge hole 58 Compressor. The method according to claim 1, wherein the linear projections are formed in the rotational restraint while the linear projections are formed in the circular restraint while the linear projections are formed in the two circular spaces. Compact compressor, characterized in that the whole is configured to only cam movement.