KR102521615B1 - Vane assembly device for vane pump - Google Patents

Abstract

The present invention relates to a vane assembly device for a vane pump. The vane assembly device for a vane pump includes: a body (200) mounted on one side of a rotor (130) by being formed in the shape of a disk; a body support unit (210) installed to position the rotor (130) and the body (200) on a same axis by being formed to protrude from the center of the body (200) in a cylindrical shape corresponding to the inner shape of an operating shaft hole (134) formed at the center of the rotor (130); a first assembly fixing unit (220) formed at the center of the body support unit (210) and installed for the rotor (130) and the body (200) to be integrally fixed while the rotor (130) and the body (200) are positioned on the same axis, by being connected to a center fixing unit; and one or multiple vane assembly grooves (230) arranged in a ring shape on the body (200) and installed to assemble a vane (140) into a vane groove (135) by inserting the vane (140) to the upper side and the lower side. The vane assembly device can assemble the vane (140) with directionality in an accurate direction.

Description

Vane assembly device of vane pump {VANE ASSEMBLY DEVICE FOR VANE PUMP}

The present invention relates to a vane assembly device for a vane pump, and more particularly, by constructing a device that accurately guides the direction of a vane in the assembly process of a vane provided in a rotor of a vane pump, thereby significantly reducing the incorrect assembly rate and improving process efficiency. It is about technology to improve.

In general, a hydraulic pump is made to operate a machine by inducing a rotational motion of a working shaft by hydraulic energy in conjunction with a hydraulic pump, and there are gear type, vane type, piston type, etc. depending on the structure.

The vane pump is mounted inside a casing, a plurality of vanes are mounted on a rotor coupled to an output shaft, and the vanes are provided in pressurized contact with the inner surface of the casing so that the rotor is rotated by the fluid introduced between the vanes. Vane pumps have a relatively simple structure, smooth forward and reverse rotation, and less leakage or output torque fluctuations, so they are applied to various fields such as electric motors.

Looking at the schematic configuration of the vane pump with reference to known technologies, for example, Korean Patent Registration No. 10 - 0284608 discloses a casing formed with an inlet passage and a discharge passage through which pressure oil is provided therein to generate rotational power and then discharged, and a casing A rotating rotor installed to be rotatable in the center of the shaft to transmit rotational power to the shaft, a vane installed to be movable up and down in the vane groove of the rotating rotor and operated by hydraulic oil introduced through the casing, and installed in the vane groove of the rotating rotor It includes an elastic means for providing elastic force to the vane, and both side covers fixed to both sides of the casing and connected to the inflow passage and the discharge passage of the casing and having connection passages formed to supply or discharge pressure oil to the lower side of the vane. to compose

As another example, Korean Patent Publication No. 10 - 2015 - 0089878 discloses a rotor rotatably installed in the center of a cam ring to transmit rotational power to a rotating shaft, and a spline coupled with the center of the rotor to output the rotational power of the rotor to the outside. A rotating shaft, a radially formed vane groove in which vanes are mounted on the circumferential surface of the rotor, a vane installed to be movable up and down in the vane groove of the rotor, and a spring means installed in the vane groove of the rotor to provide elastic force to the vane; It includes covers on both sides fixed on both sides of the cam ring, and the inner surface of the cam ring in contact with the vane, the outlet through which the pressure fluid is discharged, and the cover on both sides in contact with the rotor and the vane are coated with a non-adhesive, low-friction coefficient resin, so that the vane and the rotor are It is configured to lower the frictional resistance and lower the discharge resistance of the pressure fluid at the outlet.

Korean Registered Patent No. 10 - 0284608 (2001.03.15) Korean Patent Publication No. 10 - 2009 - 0065916 (2009.06.23) Korean Registered Patent No. 10 - 1175713 (2012.08.21) Korean Patent Publication No. 10 - 2015 - 0089878 (2015.08.05)

Since the vane provided in the vane pump to which the prior art is applied as described above rotates together with the rotor by the pressure of the fluid, the vane is pressed and adhered along the inner surface of the casing to maximize the efficiency according to the hydraulic action and to It forms a structure to minimize abrasion or noise generation.

The structure of a conventional vane forms a rectangular wing corresponding to the vane groove of the rotor, forms an inclined plane with respect to the rotational direction of the rotor at the outer end of the vane in contact with the casing, and the inner end of the vane provided inside the vane groove. In the center, an insert groove is formed to mount the insert.

In addition, the vane is prefabricated and mounted in a vane groove formed in one or a plurality of places for each type of rotor in the process of manufacturing the rotor, and conventionally, the whole process of assembling the vane to the rotor is performed manually. .

However, as described above, since the vane applied to the vane pump has a structural direction by the operating mechanism, work fatigue due to accurate direction inspection is significantly improved when assembling to the vane groove, especially in the case of a rotor equipped with a plurality of vanes. Incorrect assembly occurs frequently, which is the main cause of lowering process efficiency and mass production of defective products.

Accordingly, the present invention was invented to solve the problems of the prior art as described above,

The rotor 130 and the casing 110 provided in a predetermined cylindrical shape to accommodate the fluid, the casing covers 111 and 112 provided on the top and bottom of the casing 110 and mounting the operating shaft 120, and the casing ( The rotor 130 mounted in the space between the upper and lower casing covers 111 and 112 inside the 110), the rotor covers 131 and 132 provided on the upper and lower parts of the rotor 130 and coupled to the operating shaft 120, , A vane including a vane groove 135 formed along the outer circumferential surface of the rotor 130 and a vane 140 prefabricatedly mounted on the vane groove 135 to impart rotational force to the rotor 130 by a fluid. In the vane assembly device of the pump,

A device body 200 formed in a disk shape and mounted on one side of the rotor 130;

The device body 200 and the rotor 130 are coaxially formed by protruding from the center of the device body 200 in a cylindrical shape corresponding to the inner shape of the actuating shaft hole 134 formed in the center of the rotor 130. A body support 210 provided to position;

A first assembly fixing part 220 formed in the center of the body support part 210 and provided to integrally fix the rotor 130 and the device body 200 in a coaxial state by combining a central fixing means;

Vanes ( 140), it is possible to achieve the purpose of accurately assembling the direction.

The present invention provides a device for inducing more accurate assembly of vanes in a vane assembly process provided to a rotor of a vane pump.

The present invention is configured to apply a corresponding vane assembly device according to the model type of the rotor mounted on the vane pump, thereby eliminating the possibility of incorrect assembly even if the operator does not consume energy to check the assembly direction one by one when assembling the vane into the vane hole. There are benefits to doing it.

Therefore, the present invention not only significantly improves workability when assembling a plurality of vanes into a rotor, but also has the effect of increasing efficiency and productivity, such as significantly reducing the defect rate by maintaining quality consistency and minimizing wear and noise generation. .

1 is a perspective view of a vane assembly device for a vane pump according to an embodiment of the present invention.
2 is a plan view and cross-sectional view of a vane assembly device for a vane pump according to an embodiment of the present invention.
3 is an exemplary view of an assembled state of a vane assembly device of a vane pump according to an embodiment of the present invention.
4 is an enlarged perspective view of a main part of FIG. 3;
5 is a schematic plan view of the assembly configuration of a vane assembly device for a vane pump according to an embodiment of the present invention.
6 is a view illustrating a state of use of a vane assembly device of a vane pump according to an embodiment of the present invention.

Hereinafter, the configuration and operation according to a preferred embodiment of the vane assembly device of the vane pump of the present invention will be described in detail with reference to the accompanying drawings. In the following description, detailed descriptions of parts that can be easily implemented by those skilled in the art may be omitted.

1 is a perspective view of a vane assembly device for a vane pump according to an embodiment of the present invention, FIG. 2 is a plan view and cross-sectional view of a vane assembly device for a vane pump according to an embodiment of the present invention, and FIG. 3 is an embodiment of the present invention. 4 is an enlarged perspective view of main parts of FIG. 3, and FIG. 5 is a schematic plan view of the assembly configuration of a vane assembly device of a vane pump according to an embodiment of the present invention. 6 shows an example of a state of use of a vane assembly device for a vane pump according to an embodiment of the present invention.

The vane assembly device of the vane pump to which the technology of the present invention is applied is to accurately guide the direction of the vane 140 in the assembly process of the vane 140 provided in the rotor 130 of the vane pump, thereby significantly reducing the erroneous assembly rate, Note that it relates to a vane assembly device that improves process efficiency.

As shown in FIGS. 1 and 2 , the vane assembly device of the vane pump of the present invention for this purpose includes the device body 200, the body support part 210 provided in the device body 200, and the first assembly fixing part ( 220), the vane assembly groove 230, and the second assembly fixing part 240, and is specifically configured as follows.

As shown in FIGS. 3 and 4, the vane pump to which the vane assembly apparatus of the present invention is applied includes a casing 110, a rotor 130 mounted inside the casing 110, and a vane formed in the rotor 130. It includes a groove 135 and a vane 140 assembled to the vane groove 135.

The casing 110 of the vane pump has a predetermined cylindrical shape to accommodate the rotor 130 and the fluid. Casing covers 111 and 112 are mounted on the upper and lower portions of the casing 110 to form an airtight interior of the casing 110 .

The upper and lower casing covers 111 and 112 form an inlet and an outlet through which fluid enters and exits, and an operating shaft 120 is mounted at the center thereof. A plurality of cover assembly holes 113 are arranged in an annular shape in the casing covers 111 and 112 to assemble between the casing 110 and the upper and lower casing covers 111 and 112 by the outer fixing means 241. The outer fixing means 241 is also used when assembling the second assembly fixing part 240 of the device body 200 to be described later, which will be described later.

The rotor 130 mounted on the casing 110 is mounted in the space between the upper and lower casing covers 111 and 112 inside the casing 110 . Rotor covers 131 and 132 are mounted on the top and bottom of the rotor 130 to form a space in which fluid flows to the outer circumference of the rotor 130 .

The upper and lower rotor covers 131 and 132 are provided to couple the operating shaft 120 to the center. A plurality of cover assembly holes 133 are arranged in an annular shape on the rotor covers 131 and 132 to assemble between the rotor 130 and the upper and lower rotor covers 131 and 132 by the outer fixing means 241. The outer fixing means 241 is also used when assembling the second assembly fixing part 240 of the device body 200 to be described later, which will be described later.

The vane groove 135 formed along the outer circumferential surface of the rotor 130 is provided in a shape drawn into the core from the outer circumferential surface of the rotor 130, and as shown in FIGS. 5 and 6, the top of the rotor 130, An opening is formed on the lower side so that the vane 140 can be assembled in the upper and lower directions.

The vane groove 135 is provided to insert and fix the inner end 141 of the vane 140, and the outer end 142 forming a predetermined inclined portion to give the vane 140 a directionality is the vane groove 135. ) is assembled so as to protrude outward. Therefore, since the plurality of vane grooves 135 arranged in an annular shape on the rotor 130 are all provided in the same shape, they are provided in a state in which they can be assembled regardless of the orientation of the vane 140 .

The vane 140 has a plurality and is mounted in a one-to-one assembly type to the vane groove 135 formed in the rotor 130 and is provided to impart rotational force to the rotor 130 by a fluid.

The vane 140 is formed in a predetermined plate shape, but the inner end 141 inserted into and assembled into the vane groove 135 has a plurality of vanes 140 in the same shape, and the outer side of the vane groove 135 The outer end 142 of the vane 140 that protrudes out and contacts the inner circumferential surface of the casing 110 corresponding to the rotational direction of the rotor 130 forms a predetermined inclined portion in one direction to have directionality.

The vane assembly device of the present invention is a device body to assemble the vane 140 having directionality with respect to the rotational direction of the rotor 130 as described above by accurately imparting directionality when assembling to the vane groove 135 provided in the same shape. (200).

The device body 200 is formed in the shape of a disk and mounted on one side of the rotor 130 .

In the process of assembling the vane 140 to the rotor 130, the device body 200 replaces the position of the upper rotor cover 131 or the upper casing cover 111 in a state in which the device body 200 is assembled. It is a configuration for assembling the vane 140 in the upper and lower directions according to the direction.

Specifically, the device body 200 is provided in the shape of a disc corresponding to the cross-sectional shape of the upper rotor cover 131 to be assembled with the lower rotor cover 132, or the cross-section of the upper casing cover 111 It is provided in the form of a disk corresponding to the shape and is provided to be assembled to the lower casing cover 112 in a state where the rotor 130 is mounted on the casing 110.

The device body 200 is provided to couple the first assembly fixing part 220 and the second assembly fixing part 240 to the center and outer periphery, and the device body 200 on the upper side of the rotor 130, the rotor 130 It is provided to fix between the lower rotor cover 132 or the lower casing cover 112 on the lower side of the ), which will be described later.

The body support part 210 protrudes from the center of the device body 200 in a cylindrical shape corresponding to the inner shape of the actuating shaft hole 134 formed to couple the actuating shaft 120 to the center of the rotor 130. do.

The body support part 210 protrudes from the upper and lower surfaces of the device body 200 at a certain height so as to position the device body 200 and the rotor 130 on a coaxial line, and the operating shaft hole of the rotor 130 (134) It is provided so that it can be drawn into the inside.

The first assembly fixing part 220 is formed in the center of the body support part 210 and is provided to integrally fix the rotor 130 and the device body 200 in a coaxial state by combining the center fixing means. . The central fixing means may be configured to be coupled to the first assembly fixing part 220 by applying a predetermined bolt and nut type fastening means.

On the other hand, a second assembly fixing part 240 corresponding to the cover assembly holes 113 and 133 provided in the rotor covers 131 and 132 or the casing covers 111 and 112 is provided on one side of the outer circumference of the device body 200, so that the outer fixing means ( 241), the lower rotor cover 132 or the lower casing cover 112 and the device body 200 are integrally fixed.

The second assembly fixing part 240 is provided in at least two places on one side of the outer circumferential portion of the device body 200, and the vane assembly groove 230 to be described later, and the vane groove 135 of the rotor 130 , It is provided to integrally fix each other in a state in which the positions of the downward openings are accurately matched. The outer fixing means 241 may be configured to be coupled to the second assembly fixing part 240 by applying a predetermined bolt and nut type fastening means.

One or more of the vane assembly grooves 230 are arranged in an annular shape on the device body 200 and the vanes 140 are inserted in the upper and lower directions to be assembled to the vane groove 135 .

The vane assembly groove 230 is the vane groove 135 as well as the inner end 141 of the vane 140 inserted into the vane groove 135 of the rotor 130 on the cross section of the vane 140. It is provided to form an inner shape matching the cross-sectional shape of the vane 140 so as to accommodate the entire outer end 142 of the vane 140 protruding outward of the vane 140.

Specifically, the outer portion of the vane assembly groove 230 has an inner shape that matches the cross-sectional shape of the vane 140 formed so that the outer end 142 in contact with the casing 110 forms a unidirectional inclined portion to have directionality. is provided to form Therefore, when the vane 140 is inserted into the vane assembly groove 230 in the upper and lower directions, it is configured to be inserted only in a certain direction, so that the plurality of vane grooves 135 all have the same shape without a certain direction. It is configured to completely exclude the possibility of misassembly.

The device body 200 of the present invention as described above forms the vane assembly grooves 230 at individual corresponding positions with respect to the disposition structure of the vane grooves 135 that are different for each model type of the rotor 130. It is configured to be selectively applied to each of the rotors 130a and 130b by providing a device body 200 of the.

A schematic usage state of the vane assembly device of the vane pump to which the technique of the present invention is applied, having the configuration as described above, is as follows. Since the following description describes the present invention with respect to preferred embodiments, the present invention is not limited by the following examples, and it is natural that various modifications may be provided without departing from the scope of the present invention. .

Rotor covers 131 and 132 are provided on the top and bottom of the rotor 130 of the vane pump and are fixed together with the rotor 130 by an external fixing means 241, and the casing 131 and 132 on the top and bottom of the casing 110 of the vane pump. The covers 111 and 112 are provided so that the rotor 130 is mounted inside by the outer fixing means 241.

In the process of assembling the vane 140 in the vane groove 135 using the vane assembly device of the present invention, the device body 200 of the present invention is assembled at the position of the upper rotor cover 131 or the upper casing cover 111. Then, the vane assembly process is performed, and when the assembly is completed, the device body 200 is removed and the rotor cover 131 or the casing cover 111 is assembled to build a vane pump.

As shown in FIGS. 4 and 6 , the upper rotor cover 131 is removed and the device body 200 is assembled. The body support part 210 of the device body 200 is provided in the actuating shaft hole 134 of the rotor 130 and positioned on the coaxial line, and is fixed by fastening the center fixing means to the first assembly fixing part 220.

The position of the vane assembly groove 230 formed in the device body 200 and the vane groove 135 of the rotor 130 are positioned so that they are accurately matched from the top and bottom, and are externally fixed to the second assembly fixing part 240. By fastening the means 241 is integrally fixed with the lower rotor cover 132.

As described above, when the device body 200 is fixed to the upper side of the rotor 130, the vane 140 is inserted into the vane assembly groove 230. Vane groove 135 of rotor 130 Enter to the inside of and assemble.

In the process of assembling the plurality of vanes 140, even if the assembly is attempted in the wrong direction, it cannot pass through the vane assembly groove 230 formed to enable assembly of the vanes 140 only in a certain direction, so there is no directionality. The vane 140 may be assembled in the correct direction to the vane groove 135 .

When the assembly device is applied to a vane pump equipped with a plurality of heterogeneous rotors 130 as in the embodiment of the present invention, individual corresponding positions corresponding to the arrangement structure of the vane grooves 135 that are different for each rotor 130. The assembly process may be performed by applying various types of device bodies 200 forming vane assembly grooves 230, respectively.

As described above, the vane assembly device of the vane pump according to the present invention is configured so that the assembly is performed in the correct direction when assembling the vane 140 to the vane groove 135 of the non-directional rotor 130, so that the operator can When assembling the vane 140 to 135), there is an effect of completely eliminating the possibility of erroneous assembly without consuming energy to check the assembly direction one by one.

Therefore, since the present invention has advantages such as significantly improving workability and productivity in the process of assembling the plurality of vanes 140 to the rotor 130 and improving process efficiency by reducing the defect rate, it is expected to have high industrial applicability. It is expected.

110: casing
111, 112: upper and lower casing covers
113: cover assembler
120: working axis
130: rotor
131,132: upper and lower rotor covers
133: cover assembler
134: working shaft hole
135: Bainhome
140: vane
141: inner end
142: outer end
200: device body
210: body support
220: first assembly fixing unit
230: vane assembly home
240: second assembly fixing unit
241: external fixing means

Claims (3)

The rotor 130 and the casing 110 provided in a predetermined cylindrical shape to accommodate the fluid, the casing covers 111 and 112 provided on the top and bottom of the casing 110 and mounting the operating shaft 120, and the casing ( 110), the rotor 130 mounted in the space between the upper and lower casing covers 111 and 112, and the rotor covers 131 and 132 provided on the upper and lower parts of the rotor 130 and coupled to the operating shaft 120, , A vane including a vane groove 135 formed along the outer circumferential surface of the rotor 130 and a vane 140 prefabricatedly mounted on the vane groove 135 to impart rotational force to the rotor 130 by a fluid. In the vane assembly device of the pump,
A device body 200 formed in a disk shape and mounted on one side of the rotor 130;
The device body 200 and the rotor 130 are coaxially formed by protruding from the center of the device body 200 in a cylindrical shape corresponding to the inner shape of the actuating shaft hole 134 formed in the center of the rotor 130. A body support 210 provided to position;
A first assembly fixing part 220 formed in the center of the body support part 210 and provided to integrally fix the rotor 130 and the device body 200 in a coaxial state by combining a central fixing means;
Characterized in that it includes a vane assembly groove 230 provided to arrange one or a plurality of them in an annular shape on the device body 200 and insert the vane 140 upwards and downwards to assemble to the vane groove 135. Vane assembly device of vane pump. According to claim 1,
The device body 200,
It is provided on a disk corresponding to the cross-sectional shape of the upper rotor cover 131 and is provided to be assembled with the lower rotor cover 132,
Alternatively, it is provided on a disk corresponding to the cross-sectional shape of the upper casing cover 111 to be assembled to the lower casing cover 112 in a state where the rotor 130 is mounted on the casing 110,
On one side of the outer circumference of the device body 200,
A second assembly fixing part 240 corresponding to the cover assembly holes 113 and 133 provided in the rotor covers 131 and 132 or the casing covers 111 and 112 is provided so that the lower rotor cover 132 or the lower part is fixed by the outer fixing means 241. A vane assembly device for a vane pump, characterized in that the casing cover (112) and the device body (200) are configured to be integrally fixed. According to claim 1,
The device body 200,
Regarding the arrangement structure of the vane grooves 135 that are different for each model type of the rotor 130, the vane assembly grooves 230 are formed at individual corresponding positions and are selectively applied to each of the rotors 130a and 130b. furnished to do so,
The vane assembly groove 230,
The outer end 142 in contact with the casing 110 is provided to form an inner mold that matches the cross-sectional shape of the vane 140 formed to have direction, so that the vane 140 is placed in the vane assembly groove 230 only in a certain direction. A vane assembly device for a vane pump, characterized in that it is configured to be insertable.

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