KR100231475B1 - Vane pump - Google Patents

Abstract

The present invention relates to a vane pump, wherein a ring gear is formed in a space portion of a central bearing portion to receive rotational force from the outside, and an inner rotor is provided in the sun gear on the other side of the constant velocity coupling in which a sun gear on one side is engaged with the ring gear. The ring gear formed in the space of the mesh is engaged to rotate at a constant speed, and the circular hole formed in one side of the vane is inserted into a circular hole in which the insertion groove of the inner rotor is integrated, and the other side overhang of the vane is an inner surface of the outer rotor. By compressing the air in contact with the volume of the compression chamber and the supply chamber while being in contact with each other, high pressure compressed air can be obtained at a small volume with a simple configuration without generating noise due to collision.

Description

Vane pump

The present invention relates to a vane pump, and more particularly, a vane having one side circular portion inserted into a circular hole of an inner rotor while the inner rotor rotates at a constant speed with the outer rotor by the rotational force transmitted through the constant velocity transmission unit in a central eccentric shaft. The present invention relates to a vane pump that prevents noise generated by a collision while compressing air in a compression chamber between inner walls of an outer rotor.

In general, the vane pump is installed in the rotor which rotates eccentrically in the cylindrical cylinder so that at least one vane is reciprocated while receiving the elasticity by the spring so that 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 flowing through the inlet are compressed to be discharged through the outlet.

However, according to the conventional vane pump as described above, the distance between the rotor and the cylinder that rotates around the eccentric rotation axis within the cylinder is closer and farther away, and the vane is controlled by the spring force as the distance is varied. It is configured to protrude outward or push inward while contacting the inner wall of the cylinder. Therefore, if the rotor's rotation speed increases, the vane that protrudes outward rapidly contacts the inner wall of the cylinder and is damaged by contact before pushing inward. There is a disadvantage in 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 applicant proposed a patent application No. 42007 (sealed vane pump) in 1995, which is formed in a circumferential shape on the outer circumferential surface of the bearing part 1 which is rotated by a motor with a spiral shaft hole 2 formed at the center thereof. Lower air circulation holes 4, 5 and inlet holes 6, 7 which penetrate laterally form integrally the inner rotor 3 formed on both sides, and the inlet hole of the inner rotor 3 ( 6), (7) the vane protruding in the longitudinal direction is fitted into the cylindrical operating hole and the circulation hole of the air through the large shaft hole 12 of the outer rotor 11 is located eccentrically with respect to the bearing portion (1) The air is supplied to (4) and (5), and 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 vane. The compressed air in the compression chamber is moved to the outside by the volume of the compression chamber and the supply chamber. Through the air supply paths 22 and 23 connected to the outside in the housing 21 to be discharged to the outside through the discharge port of the rotor 11 and the sealed compressed air storage chamber is formed between the outer rotor 11 and the outside. While supplying air to the large shaft hole (12) of the outer rotor (11) and at the same time to supply the compressed air of the compressed air storage chamber to the external compression tank, the oil supply hole (8), (9) of the water storage unit (1) The oil circulation grooves 28 are formed at the portions in contact with the outer rotor 11 of the housing 21 in which the oil immersion portions 26 and 27 are formed circumferentially in the small shaft holes 25 at the positions in contact with each other). An oil circulating hole 15 is formed in the large shaft hole 12 of the outer rotor 11 in contact with the water storage part 1, and the oil circulation groove 28 and the oil circulation hole 15 are connected to the oil circulation path ( 16) can generate high pressure compressed air in a small space in a closed state. And it said small and light was configured to be embedded therein, such as air conditioning.

However, according to the conventional hermetic vane pump as described above, the air compressed while rotating while the vane of the outer rotor 11 is inserted into the operating hole of the inner rotor 3 is temporarily stored in the compressed air storage chamber between the housing 21. Since the vane of the outer rotor 11 is eccentrically rotated and collides with the vane while the vane of the outer rotor 11 is eccentrically rotated, the vane is in contact with the inner surface of the operating hole. There was a disadvantage such as noise generated.

Accordingly, in the present invention, the inner rotor receiving the rotational force through the constant velocity transmission unit on the center eccentric shaft rotates together inside the outer rotor, while the other side of the vane having one side inserted into the circular hole of the inner rotor has an inner surface of the outer rotor. It is an object of the present invention to provide a vane pump which can obtain high pressure compressed air without making noise during compression.

The present invention for achieving the above object is to form a ring gear in the space portion of the central bearing portion to receive the rotational force from the outside, the sun gear on the other side of the constant velocity coupling in which the sun gear of one side is meshed with the ring gear The ring gear formed in the space portion of the inner rotor is engaged to rotate at a constant speed, and the circular portion formed on one side of the vane is inserted into the circular hole of the inner rotor, and the other side of the vane is in contact with the inner surface of the outer rotor and the compression chamber And by compressing air according to a state in which the volume of the supply chamber is changed, it is possible to obtain high pressure compressed air at a small volume with a simple configuration without generating noise due to a collision.

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

Figure 2 is a cross-sectional view showing the configuration of the inner rotor and the outer rotor of the present invention.

3 to 6 are schematic views showing the operation of the present invention.

* Explanation of symbols for main parts of the drawings

37: internal rotor 40: circular hole

41: insertion groove 42: vane

44: inclined protrusion 45: external rotor

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

A ring gear 33 is integrally formed in the one space portion 32 of the central bearing portion 31 that receives the rotational force from the outside through a motor not shown in the drawing, and the ring gear 33 of the space portion 32 is integrally formed. The sun gear 36 is integrally formed on the other side of the constant velocity coupling 34 in which the sun gear 35 of one side is engaged with the) so that the constant speed rotation is possible even in an eccentric state, and the other sun gear of the constant velocity coupling 34 is The ring gear 39 of the space portion 38 is engaged with the 36 to form a circular hole 40 in which the insertion groove 41 is integrally formed on the outer circumferential surface of the inner rotor 37 which receives the constant velocity rotational force. The other inclined protrusion 44 of the vane 42 into which the circular portion 43 of one side is fitted into the circular hole 40 is in contact with the inner surface of the outer rotor 45 or positioned in the insertion recess 41. One side of the vane 42 is inserted into the circular hole 40 of the inner rotor 37 to rotate eccentrically like the outer rotor 45 Compresses the air supplied to the compression chamber A through the air supply hole 47 of the bearing part cover 46 according to the state in which the volume of the compression chamber A and the supply chamber B changes in the above, The compressed air storage chamber 49 is formed between the outer surface of the outer rotor 45 and the housing 48, and the discharged through the discharge hole 50 having the check valve 51 for preventing the reverse flow of the outer rotor 45 is provided. Compressed air above pressure is temporarily stored and then discharged to an external tank.

The vane pump of the present invention configured as described above has a constant velocity in which one sun gear 35 is meshed with a ring gear 33 formed in the space 32 when the bearing 31 is rotated by operating a motor (not shown). As the coupling 34 rotates together, and the constant velocity coupling 34 rotates, the internal rotor 37 in which the ring gear 39 of the space 38 is engaged with the sun gear 36 on the other side thereof has an axis number. Compression of air is performed while rotating at constant velocity even in a state eccentric with the part 31. Hereinafter, the operation process will be described.

The air flowing through the air supply hole 47 of the bearing part cover 46 is connected to the vane 42 and the outer rotor 45 in which the circular part 43 is inserted into the circular hole 40 of the inner rotor 37. After being supplied to the supply chamber (B) partitioned by the inner rotor 37 and the inclined protrusions 44 of the vanes 42 in contact with the outer rotor 45, it is compressed in the compression chamber A whose volume changes. .

That is, as shown in FIG. 3, the air is introduced into the supply chamber B, and the circular shape of the internal rotor 37 receives the rotational force through the constant velocity coupling 34 as the bearing part 31 rotates. In the vane 42 in which the circular portion 43 of the vane 42 is inserted into the ball 40, the inner rotor 37 and the outer rotor 45 are in close contact with each other, so that the inclined protrusion 44 on the other side is the inner rotor ( 45 is rotated in the clockwise direction in the state positioned in the insertion groove 41 of the circular hole 40.

As shown in FIG. 4, the vanes 42 into which the circular portion 43 is inserted into the circular hole 40 of the inner rotor 37 by the bearing portion 31 are provided with the inner rotor 37 and the outer rotor 45. When rotated by 90 ° in the clockwise direction, the compression chamber A, which was the supply chamber B, is closed by the protrusions 44 and the inner rotor 37 of the outer rotor 45 and the vanes 42. As it decreases, the supply chamber B is newly secured and air from the outside is introduced.

At this time, the inclined protrusion 44 of the vane 42 having the circular portion 43 inserted into the circular hole 40 of the inner rotor 37 is in contact with the inner surface of the outer rotor 45. ) Is in a state of being rotated a little less than the inner rotor 37, but since the circular portion 42 of the vane 41 rotates in the circular hole 40 of the inner rotor 37, the inclined protrusion of the vane 42 44 is maintained in the state of the surface contact through the inclined surface and the inner surface of the outer rotor 45, at this time the vane by the pressure of the compressed air and the pressure of the air flowing into the newly secured supply chamber (B) Airtightness is maintained, while the inclined protrusion 44 of 42 is kept stable.

As shown in FIG. 5, when the inner rotor 37 and the outer rotor 45 are rotated by 180 °, the volume of the compression chamber A and the supply chamber B becomes substantially the same, and the air in the compression chamber A is approximately equal. Is further compressed.

At this time, the vane 42 in which the circular portion 43 is inserted into the circular hole 40 of the inner rotor 37 is in contact with the inner surface of the outer rotor 45.

As shown in FIG. 6, when the inner rotor 37 and the outer rotor 45 are rotated by 270 °, a part of the compressed air compressed in the compression chamber A pushes the check valve 51 for preventing the backflow to discharge the discharge hole. Temporarily stored in the compressed air storage chamber 49 through the 50 is discharged to the external compression tank.

At this time, the vane 42 in which the circular portion 43 is fitted into the circular hole 40 of the inner rotor 37 is rotated for a while longer than the outer rotor 45, but the vane is compressed by the air pressure in the compressed state. As the protrusion 44 of the 42 is pushed to contact the inner surface of the outer rotor 45, the circular portion 42 rotates a little more in the circular hole 40 of the inner rotor 37, so that stable operation is possible. The airtightness of the compression chamber A is maintained.

When the inner rotor 37 and the outer rotor 45 are rotated 360 ° while swinging as shown in FIG. 3, the discharge of the compressed air is completely performed and new air is introduced into the supply chamber B. .

Therefore, according to the vane pump of the present invention, the circular portion of the vane is inserted into a circular hole in which the insertion groove of the inner rotor is rotated at constant speed by receiving the rotational force through the constant velocity coupling at the center bearing portion receiving the rotational force from the outside. In addition, the inclined protrusion of the vane rotates while being in contact with the inner surface of the outer rotor, thereby compressing the air introduced into the compression chamber and the supply chamber according to a state in which the volume of the compression chamber is changed. It is to achieve high pressure compressed air in a small volume of the configuration.

Claims (1)

On the outer circumferential surface of the inner rotor 37 which receives the constant velocity rotational force through the constant velocity coupling 34 from the central bearing portion 31 which receives the rotational force from the outside, a circular hole 40 having an insertion recess 41 is formed. In addition, the other inclined protrusion 44 of the vane 42 into which the circular portion 43 of one side is fitted into the circular hole 40 of the inner rotor 37 is configured to be in surface contact with the inner surface of the outer rotor 45. Vane pump characterized in that.

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