KR19980044975A - Vane pump - Google Patents

Abstract

The present invention relates to a vane pump, in which an inner rotor having an air supply passage on a central shaft is formed with a space portion, and there are two operating pieces each formed with an air circulation passage and an operating hole to receive elasticity by an elastic piece and at the same time an apex seal. While the vane of the outer rotor is held eccentrically while being held in the airtight state while being kept tight, the ring gear is integrally formed on the inner surface of the concave position at the center of the inner rotor and the outer rotor. By inserting the sun gear with the gear integrally on the outer surface, the inner rotor and the outer rotor which are centered eccentrically rotate, as well as the two operating pieces with the vane fitted holes move in the space of the inner rotor and the vanes It eliminates the collision sound that occurs while colliding and also eliminates the wear phenomenon caused by the collision. The.

Description

Vane pump

The present invention relates to a vane pump, and more particularly, to a vane pump in which an inner rotor and an outer rotor rotating about eccentric shafts rotate at a constant speed to prevent collision noise between the vanes of the inner rotor and the operating holes of the outer rotor. It is about.

In general vane pump, at least one vane is installed in the rotor which makes the eccentric rotation in the cylindrical cylinder so as to reciprocate while receiving the elasticity by the spring, so that the vanes receiving the elastic force outward as the rotor rotates contact the inner circumference 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.

In the conventional vane pump as described above, the distance between the rotor and the cylinder that rotates around the eccentric rotational axis is close to and away from the inside of the cylinder, and is changed. As the distance is changed, the vane protrudes outward by the elastic force of the spring. Or the inner wall of the cylinder is pushed inward, so that the rotor's rotational speed is increased, and the vanes that protrude outward are damaged while contacting the inner wall, and the rotational speed cannot be increased. There were disadvantages such as limited material and size.

Therefore, the present applicant has proposed a vane pump in the patent application No. 42007 of 1995, which has a circumferential shape on the outer circumferential surface of the bearing part 1 which is formed by a spiral shaft hole 2 in the center and rotated by a motor not shown in the drawing. The upper and lower air circulation holes (4), (5) and the inlet hole (6), (7) penetrated to the side integrally formed the inner rotor (3) formed on both sides, and of the inner rotor (3) The vane protruding in the longitudinal direction in the inlet hole (6), (7) is fitted into the cylindrical operating hole and the air through the large shaft hole (12) of the outer rotor (11) located eccentrically with respect to the bearing part (1). Air is supplied to the recirculation holes 4 and 5 of the inner and outer surfaces of the inner rotor 3 and the inner surface of the outer rotor 11. It is divided into supply chamber and it is compressed in the compression chamber by changing the volume of these compression chamber and supply chamber. Air is supplied to the outside through the discharge port of the external rotor 11, and the air supply path 22 connected to the outside is provided in the housing 21 in which the sealed compressed air storage chamber is formed between the external rotor 11. The air is supplied to the large shaft hole 12 of the external rotor 11 through 23, and the compressed air of the compressed air storage chamber is supplied to the external compression tank, and the oil supply hole 8 of the water storage unit 1 is provided. The oil circulating groove 28 is located at a portion 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 hole 25 at the position in contact with each of the 9 and 9, respectively. The oil circulating hole 15 is formed in the large shaft hole 12 of the outer rotor 11 in contact with the bearing portion 1 while forming the oil circulation groove 15 and the oil circulation hole 28 and the oil circulation hole 15 are formed. High pressure compressed air in a small, closed space by interconnecting with the oil circulation path (16) It can produce, and was configured to be embedded therein, such as the C size and weight.

However, according to the conventional vane pump as described above, 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 from each other. There was a disadvantage in that the impact noise occurs as well as the wear phenomenon.

Accordingly, the present invention provides a vane pump in which the inner rotor and the outer rotor which rotate about different axes have a constant constant rotation, so that the impact noise does not occur during rotation while the vanes of the inner rotor are fitted into the operating holes of the outer rotor. It is for that purpose.

The present invention for achieving the above object is to form a space portion on one side of the inner rotor having an air supply passage in the center, the inner portion of the inner rotor reciprocating two operating pieces formed by the air circulation passage and the operating hole respectively While being moved, the inner contact surface is elastically retained by the elastic piece, while the airtightness is maintained by the apex seal, and the vane protruding from the outer surface is inserted into the operating hole by the operating piece of the inner rotor through the rotational force of the motor. The rotating outer rotor is rotated in an eccentric state with the inner rotor, and the center of the inner rotor is concave also in the center of the outer rotor while forming a ring gear (ring gear) integral with the inner surface of the concave position A ring gear in which gears are integrally formed on an inner surface of the position; The inner gear of the outer rotor is inserted into the outer gear of the outer rotor, so that the inner rotor and the outer rotor are concentrically rotated, and the two operating pieces are provided with vanes. As the vane collides with the inner surface while moving in the space of the inner rotor, it eliminates the abrasion phenomenon caused by the collision.

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

Figure 2 is a longitudinal sectional view showing the overall configuration of the present invention.

Figure 3 is a cross-sectional view showing the configuration of the inner rotor and outer rotor of the present invention.

Figure 4 is a cross-sectional view showing the operation of the present invention.

Figure 5 is a cross-sectional view showing the configuration of a rotor according to another embodiment of the present invention.

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

On one side of the inner rotor 31 having the air supply passage 33 in the central shaft 32 is formed a space portion 34, the inside in which the air supply hole 35 and the air circulation passage 36 is formed The space 34 of the rotor 31 reciprocates side by side with the operating piece 41 having the air circulation passage 42 and the operating hole 43 and the operating piece 46 having the operating hole 47 side by side. In the grooves 44 and 49 of the inner circumferential surfaces of the two working pieces 41 and 46, a half-moon-shaped elastic piece 45 is built in, and the elastic pieces 45 and the space part 34 are formed by the elasticity thereof. Airtightness is maintained between the outer circumferential surfaces of the inner circumferential surface of the space portion 34 by the two apex seals 37, and by the operating pieces 41 and 46 of the inner rotor 31. Outer rotatable around the rotating shaft 53 to which the rotational force of the motor, not shown in the figure, is transmitted while the vanes 52 protruding from the outer surface of the operating holes 43 and 47 are fitted. The rotor 51 rotates the inner rotor 31 in an eccentric state, and forms a ring gear 38 in which the teeth 39 are integrally formed at the inner surface of the concave position at the center of the inner rotor 31. A ring gear 54 having an integral tooth 55 is formed on the inner surface of the concave position in the center of the outer rotor 51, and the ring gears 38 and 54 of the inner rotor 31 and the outer rotor 51 are formed. The inner rotor 31 and the outer rotor 51 which are eccentric by inserting the gears 57 and 58 formed on the outer surface of the spherical sun gear 56 to be engaged with each other in the teeth 39 and 55 of FIG. The upper housing 61 and the lower housing 62 are provided with constant rotation, and bearings 64, 65, 66, 67 are provided between the inner rotor 31 and the outer rotor 51. And the lower housing 62 having the sealed compressed air storage chamber C formed therebetween with the outer rotor 51. Via a line (63) configured to be supplied with compressed air by the external compression tank (not shown in the figure).

The outer rotor 51, which is hermetically coupled to the inner rotor 31, allows the upper outer rotor 51a and the lower outer rotor 51b to be coupled by a plurality of bolts 59, and the outer rotor 51. The upper housing 61 and the lower housing 62 are hermetically coupled to the bolt 67 and the nut 68.

In the vane pump of the present invention configured as described above, when the outer rotor 51 rotates about the rotation shaft 53 by operating the motor, the vanes 52 of the outer rotor 51 are formed on the working pieces 41 and 46. The internal rotor 31 fitted to the operating holes 43 and 48 is also rotated to generate compressed air by changing the volume of the compression chamber A and the supply chamber B, which are spaces therebetween. The operation process is as follows.

Air introduced from the outside through the air supply path of the upper housing 61 passes through the central air supply passage 32 of the inner rotor 31 and is supplied to the supply chamber B through the plurality of air supply holes 34. The outer rotor 51 and the vanes 52, the inner rotor 31 and the working holes 43, 47 allow compression in the compression chamber A whose volume changes.

That is, as shown in FIG. 4A, air is introduced into the supply chamber B, and the vanes 52 operate by the operating pieces 41 and 46 as the external rotor 51 rotates. The inner rotor 31 fitted in the balls 43 and 47 is rotated clockwise.

As shown in FIG. 4B, when the inner rotor 31 is rotated by 90 ° clockwise by the outer rotor 51, the compression chamber A, which has been the supply chamber B, becomes the outer rotor 51. As the volume closed by the vanes 52, the inner rotor 31, and the operation holes 43 and 47 decreases, the supply chamber B is newly secured and air from the outside is introduced.

At this time, since the shaft 32 of the inner rotor 31 is located outside and rotates less than the rotation shaft 53 of the outer rotor 51, the two operations are performed by the vanes 52 of the outer rotor 51. The pieces 41 and 46 move in the direction of the arrow from the space 34 of the inner rotor 31, and the space 34 moves into the recess 44 of the inner circumferential surface of the working pieces 41 and 46 ( The airtightness is maintained by the half-moon-shaped elastic piece 45 and the two apex seals 37, which are inherent in 49), but the air therein moves to the air supply passage 33 through the air circulation passage 36 so that the internal pressure is maintained. Does not rise.

As shown in (c) of FIG. 4, when the inner rotor 31 and the outer rotor 51 are rotated by 180 °, the volume of the compression chamber A and the supply chamber B becomes almost the same and the compression chamber ( The air in A) is further compressed.

At this time, since the rotary shaft 53 of the outer rotor 51 and the shaft 32 of the inner rotor 31 are in a straight line, the two operating pieces 41 and 46 are spaced portions 34 of the inner rotor 31. In this case, since the internal air of the space 34 is moved to the air supply passage 33 through the air circulation passage 42, the internal pressure does not increase.

As shown in FIG. 4D, when the inner rotor 31 and the outer rotor 51 rotate by 270 °, a part of the compressed air compressed in the compression chamber A is discharged through the discharge port 14. And is discharged to the external compression tank through the supply hole 24 after passing through the storage chamber C formed between the housing 21.

At this time, since the shaft 32 of the inner rotor 31 is located outside and rotates less than the rotation shaft 53 of the outer rotor 51, the two operations are performed by the vanes 52 of the outer rotor 51. The inner air of the space portion 34 in which the pieces 41 and 46 move in the direction of the arrow in the space portion 34 of the inner rotor 31 and the airtightness is maintained is passed through the air circulation passage 42 through the air supply passage ( Go to 33) and the internal pressure does not increase.

Then, as the outer rotor 51 and the inner rotor 31 are rotated as shown in Fig. 4A, discharge of compressed air is completely performed, and at this time, the rotary shaft 53 of the outer rotor 51 and Since the shaft 32 of the inner rotor 31 is in a straight line, the two operating pieces 41 and 46 move toward the center of the space portion 34 of the inner rotor 31, and Since the internal air is moved to the air supply passage 33 through the air circulation passage 36, the pressure inside does not increase.

Subsequently, when the external rotor 51 is rotated by the motor, the air introduced into the supply chamber A is compressed again.

FIG. 5 schematically shows a configuration according to another embodiment of the present invention, wherein one side of the internal rotor 71 forms a space 72 in which the compressed air storage unit 73 is integrated, while the other side provides an air supply hole. 74 is integrally formed, and the space 72 of the inner rotor 71 has an operating piece 75 having an air circulation path 76 therein so as to reciprocate, and On one side, while installing the air-pex seal 77 is in contact with the space portion 72 of the inner rotor 71 is kept closed while the other side is in contact with the vane 80 of the outer rotor 79 to maintain the airtight Even if the airpex seal 78 is installed and has a simple configuration, the same effects as in the above-described embodiment are obtained.

Therefore, according to the vane pump of the present invention, the inner rotor is provided with an air supply passage in the center shaft, while forming a space portion, the two operating pieces each formed with the air circulation passage and the operation hole are internally received by the elastic piece and at the same time apex The vane of the outer rotor is moved while being eccentrically rotated while being inserted into the operating hole while the seal is kept airtight, and a ring gear having an integral gear is formed on the inner surface of the concave position at the center of the inner rotor and the outer rotor. While inserting a sun gear with an integrated gear on the outer surface, the inner rotor and the outer rotor with the center of rotation are concentrically rotated, as well as the two operating pieces formed with the operating holes through which the vanes are fitted move in the space of the inner rotor, To eliminate the collision noise caused by the collision It is.

Claims (3)

A space 34 is formed at one side of the inner rotor 31 having the air supply passage 33 at the central shaft 32. In the space 34 of the inner rotor 31 in which the air supply hole 35 and the air circulation passage 36 are formed, the operating piece 41 and the operating hole in which the air circulation passage 42 and the operation hole 43 are formed. Insulate the working piece 46 formed with (47) side by side to maintain airtightness, An outer rotor rotating around the rotation shaft 53 while the vanes 52 protruding from the outer surface of the operating holes 43 and 47 by the operating pieces 41 and 46 of the inner rotor 31 are fitted. 51 rotates the inner rotor 31 in an eccentric state, In the center of the inner rotor 31 and the outer rotor 51, the inner surface of the concave position is formed on the inner surface of the concave position in the center of the outer rotor 51, while forming a ring gear 38 integrally formed with the teeth 39. The ring gear 54 is integral with the 55, The inner rotor 31 and the outer rotor 51 in the eccentric state are inserted into the gears 39 and 55 so that the gears 57 and 58 are engaged, so that the inner rotor 31 and the outer rotor 51 rotate at the same speed. Vane pump characterized in that. According to claim 1, Half moon-shaped elastic piece 45 is provided in the grooves 44, 49 of the inner circumferential surface of the operating piece (41) 46 in parallel with the space 34 of the inner rotor (31). To maintain airtightness between the inner circumferential surfaces of the space portions 34 by the two apex seals 37 while maintaining airtightness between the working pieces 41 and 46 and the outer circumferential surface of the space portion 34 by elasticity. Vane pump characterized in that. The air supply hole 74 is integrally formed on the other side of the inner rotor 71 while the compressed air storage unit 73 is integrally formed. In the space portion 72 of the inner rotor 71, an operating piece 75 having an air circulation path 76 is installed to reciprocate. One side of the working piece 75 is provided with an apex seal 77 which maintains hermetic contact with the space portion 72 of the inner rotor 71 and at the other side thereof, with the vane 80 of the outer rotor 79. A vane pump, characterized in that configured by installing an apex seal (78) to maintain confidentiality.