KR20050058689A - Vane pump - Google Patents

Abstract

The present invention relates to vane pumps and, more particularly, to vane pumps that provide hydraulic pressure for assisting a steering device of a vehicle.

The vane pump according to the present invention for achieving the above object is a housing having a bore in which a plurality of parts are accommodated together with a hole into which a rotating shaft is fitted, and the rotating shaft is fitted and installed in the bore of the housing, and an oil passage is formed. A rotor having a front end plate and a rotating shaft fitted in the center thereof, rotated together with the rotating shaft, and a slot is formed radially so that vanes are fitted in the slots, respectively, assembled in the housing; A vane pump including a cam ring having an oval shape and a space for compressing oil together with the vanes, and a rear end plate coupled to the housing at the rear of the cam ring, the outer surface of the cam ring Is formed in the protrusion is inserted into the groove formed in the housing, the lock pin is inserted into the outer surface of the cam ring It is formed and is configured such that the groove of the front end and rear end bupan bupan is that the lock pin is fitted in a corresponding position, respectively.

Description

Vane Pump {VANE PUMP}

The present invention relates to vane pumps and, more particularly, to vane pumps that provide hydraulic pressure for assisting a steering device of a vehicle.

The vane pump has a plurality of slots with a radially open outer surface at a predetermined angle on the rotor, and vanes are installed in the respective slots, and the rotor has a rotational power inside a member having a circular and elliptical shape such as a cam ring. By rotating the vane of the rotor is rotated while contacting the inside of the cam ring of the circular and oval by the centrifugal force to utilize the principle that the oil is compressed by the volume change between the adjacent vanes.

In this vane pump, the rotor is installed to rotate together with the rotating shaft, and the cam ring for forming the compression space together with the vane of the rotor must be installed so as not to rotate, while the inner surface of the cam ring is circular and elliptical for oil compression. Should be made in the form of a sum.

According to this demand, the outer surface of the cam ring is formed into an oval or other shape from the beginning in order to fix the cam ring so as not to rotate in the housing, and the shape of the housing in which the cam ring is installed is also formed as such. There is a problem that requires a high workability compared to the case formed with. The other structures also take a method of fixing the cam ring to the housing while preventing the rotation of the cam ring, but there is a problem that causes a high cost due to the structure requiring a high workability.

The present invention has been made to solve the above problems of the prior art, to form a flow path of oil together with the cam ring while forming a protrusion projecting outwardly on a part of the cam ring to prevent rotation of the cam ring. Providing a vane pump to which the cam ring can be precisely coupled even though it does not require a high degree of workability by forming a lock pin insertion hole into which the lock pin is inserted to accurately position the rear end plate to the cam ring. Its purpose is to.

According to the present invention, a vane pump includes a housing having a bore in which a plurality of parts are accommodated together with a hole into which a rotating shaft is fitted, a shear plate fitted with the rotating shaft and installed in the bore of the housing, and having an oil passage, and the rotating shaft. The rotor is inserted into the center and rotated together with the rotating shaft, and a slot is formed radially, and the vanes are inserted into the slots, respectively, and the rotor is assembled to the housing. A vane pump including a cam ring forming a space for compressing oil together with the vanes, and a rear end plate fastened to the housing at the rear of the cam ring, wherein a protrusion is formed on an outer surface of the cam ring to form the housing. Is inserted into a groove formed in the groove, the outer surface of the cam ring is formed with a groove into which the lock pin is inserted and the front end plate and The rear end plate is characterized in that each of the grooves for fitting the lock pin is formed in a corresponding position.

In addition, each of the grooves into which the protrusion and the lock pin are fitted may be formed to face each other with respect to the central axis of the rotation shaft.

In addition, the groove of the housing in which the protrusion and the protrusion are fitted may be formed in a semicircular shape.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view of a vane pump according to the present invention, FIG. 2 is an exploded perspective view of a vane pump according to the present invention, FIG. 3 is a rear view of a housing of a vane pump according to the present invention, and FIG. A front view of the rear end plate and the cam ring which are some components of the vane pump according to FIG. 5 is a cross-sectional view of the vane pump according to the present invention cut by line V-V shown in FIG. 4, and FIG. 6 is shown in FIG. 4. A cross-sectional view of the vane pump according to the present invention cut by the VI-VI line.

In the vane pump according to the present invention, all components are installed in the housing 1 through which the rotation shaft 2 penetrates in the center as shown in FIG. 1. The rotary shaft 2 extends to the rear end plate 50 which is fastened by a bolt or the like to cover the open portion of the housing 1 at the rear end thereof and is fitted to a part of the rear end plate 50. A gasket 40 is installed at the fastening portion of the rear end plate 50 and the housing 1 for sealing. And the housing 1b of the control valve which controls and discharges the quantity of the pressurized oil supplied to the vane pump is also integrally formed with the housing 1 of the vane pump. The rotary shaft 2 is connected to the output shaft of the engine like other vane pumps so that the rotational speed increases or decreases in proportion to the rotational speed of the engine.

2 is an exploded perspective view of the vane pump according to the present invention. As described above, when all the components are coupled to the housing 1, only the housing 1 and the rear end plate 50 are visible in appearance, and as shown in FIGS. 5 and 6, other components are included in the housing 1. This is because they are respectively provided in the formed bores 1a. The front end plate 10, the rotor 20, the cam ring 30, and the rear end plate 50 are assembled in the housing bore 1a in this order.

In the front end plate 10, the hole 10a is formed in the center through which the rotating shaft 2 passes, and the oil passage 10b through which oil flows is also formed. Of course, the shear plate 10 should not be rotated.

The rotor 20 is installed between the front end plate 10 and the rear end plate 50, and is disposed in the cam ring 30 to rotate together with the rotation shaft 2. A spline is formed in the center hole 20a of the rotor 20 so as to rotate together with the rotation shaft 2, and slots 20b open outwards are formed at predetermined angles and vanes are respectively formed in the slots 20b. The vanes 21 are in close contact with the inner surface 30a of the cam ring 30 by the centrifugal force and the change of the space between the adjacent vanes 21 and the inner surface 30a of the cam ring 30 is inserted. Thus compressing the oil.

Cam ring 30 is fitted to the outer surface of the rotor 20, the cam ring 30 has a circular outer surface and the inner surface (30a) is made of a combined shape of the circular and oval. Therefore, when the rotor 20 is rotated, the vanes 21 completely enter the slots 20b in the circular inner surface 30a and come out of the slots 20b in the elliptical inner surface 30a. The cam ring 30 is also formed with a passage 30d through which oil flows, and a semicircular protrusion 30b is formed at a position symmetrical about the center of the rotation shaft 2 to form a semicircle formed in the housing 1. The cam ring 30 is not rotated by being inserted into the groove 1c of the shape, and a circular through hole 30c is formed adjacent to the protruding portion 30b, and the lock pin (30) is formed in the through hole 30c. 60 penetrates. Of course, the lock pin 60 does not protrude out of the circular outer surface of the cam ring 30. Although the lock pin 60 will be described in detail later, both ends of the lock pin hole 50a formed in the rear end plate 50 and the lock pin hole 10c of the front end plate 10 are respectively inserted into the rear end plate 50 and the cam ring ( 30) and serves to couple the front end plate 10 to be fixed so as not to rotate at the corresponding position.

A gasket 40 is disposed between the cam ring 30 and the rear end plate 50, and the rear end plate 50 is coupled to the housing 1 to form a vane pump.

The rear end plate 50 is also formed with a hole 50d through which a part of the end of the rotation shaft 2 is fitted in the center, and a passage 50b and grooves 50c through which oil flows are formed around the hole 50d. The lock pin hole 50a into which the lock pin 60 is fitted is formed.

The present invention has a structure in which the front end plate 10, the cam ring 30, and the rear end plate 50 are coupled to the housing 1 among the above-described components, as shown in FIG. 3. Looking at the rear surface of the housing 1, two cross-sections are formed in the bore 1a of the housing 1 in a diagonal direction about the center of the rotation axis 2, and the cam ring 30 is formed. When installed in this bore 1c, the projection 30b of the cam ring 30 is fitted.

FIG. 4 is a front view schematically showing the rear end plate 50 and the cam ring 30 to show the reference of the cross-sectional views of FIGS. 5 and 6, and the protrusion 30b and the lock pin 60 of the cam ring 30. ) Shows a through hole 30c through which () passes.

A cross-sectional view of the lock pin 60 is shown in FIG. 5. As shown, the lock pin 60 is assembled so as not to interfere with the housing 1, so that the lock pin hole of the rear end plate 50 is provided. The rear end is fitted into the 50a, and the front end is fitted into the lock pin hole 1c of the front end plate 10, and the rest is inserted into the through hole 30c of the cam ring 30 to be emphasized again, but it interferes with the housing 1. It is installed so as not to.

FIG. 6 is a cross-sectional view cut along the protrusion 30b of FIG. 4 and shows a state in which the protrusion 30b of the cam ring 30 is fitted into the groove 1c of the housing 1. Since the projection 30b of the cam ring 30 is fitted in the groove 1c of the housing 1, the cam ring 30 does not rotate at all.

Thus, even if the rotor 20 is rotated, the original cam ring 30 is fitted into the housing 1 by the protrusion 30b and the lock pin 60 is the rear end plate 50 and the front end plate 10. The front end plate 10, the cam ring 30, and the rear end plate 50, as well as the cam ring 30 and the front end plate 10, are not rotated because they are inserted into the lock pin holes 50a and 10c. Assembled in position.

Reference numerals 3 and 51 denote bearings.

The oil in the low pressure state is introduced between the cam ring 30 and the rotor 20 through the inflow passage 50b of the rear end plate 50, and then compressed by the rotation of the rotor 20, and then the front plate again. After being pressurized into the bore 1a of the housing 1 through the oil passage 10b of 10, it has a general flow to enter the control valve along the hole in communication with the bore 1a.

As described above, the vane pump according to the present invention has the cam ring and the rear end plate and the front end because the protrusion inserted into the groove of the housing is formed in the cam ring and the rear end plate, the front end plate and the cam ring are aligned by the lock pin separately from the protrusion. The subplate is assembled in the correct position, providing the effect of improving the performance of the vane pump.

The present invention is not limited to the above embodiments and may be variously modified and implemented by those skilled in the art without departing from the technical gist of the present invention.

1 is a perspective view of a vane pump according to the present invention,

2 is an exploded perspective view of the vane pump according to the present invention,

3 is a rear view of the housing of the vane pump according to the present invention;

4 is a front view of the rear end plate and the cam ring which is a part of the vane pump according to the present invention;

5 is a cross-sectional view of the vane pump according to the present invention cut by the V-V line shown in FIG.

6 is a cross-sectional view of the vane pump according to the present invention cut by the VI-VI line shown in FIG.

<Explanation of symbols on main parts of the drawings>

1 housing 10 shear plate

20: rotor 21: vanes

30: cam ring 40: gasket

50: rear end plate

Claims (3)

A housing having a bore in which a plurality of parts are stored together with a hole into which the rotating shaft is fitted, a shear plate fitted with the rotating shaft and installed in the bore of the housing, and having an oil passage; The rotor is rotated and the slot is formed radially and the vanes are inserted into the slots, respectively, and the rotor is assembled to the housing. A vane pump comprising a cam ring forming a space to be compressed and a rear end plate fastened to the housing at the rear of the cam ring. A protruding portion is formed on an outer surface of the cam ring and fitted into a groove formed in the housing, and a groove into which a lock pin is inserted is formed on an outer surface of the cam ring, and the lock pin is inserted into a corresponding position between the front plate and the rear end plate. A vane pump, characterized in that the grooves are respectively formed. The method of claim 1, And two grooves into which the protrusion and the lock pin are fitted, each of which is formed to face the center axis of the rotation shaft. The method of claim 1, And a groove of the housing into which the protrusion and the protrusion are fitted has a semicircular shape.