CN117067820A - Hub disassembling and assembling device - Google Patents

Abstract

The invention relates to the field of hubs, in particular to a hub disassembly and assembly device, which comprises a disassembly mechanism, a first assembly and a second assembly, wherein the second assembly is arranged in the middle of the first assembly; the hub mechanism comprises a hub shell and a hub positioning assembly, wherein the hub positioning assembly is arranged in the middle of the hub shell in a sliding manner, and the hub shell is arranged on one side of the first disassembly assembly; the workbench comprises a sliding plate, a roller and a supporting plate, wherein the hub shell is arranged above the sliding plate in a sliding manner, the sliding plate is arranged above the roller in a sliding manner, and the supporting plate is fixed on two sides of the roller. Through detaching mechanism, wheel hub mechanism and workstation mutually support, not only can convenient dismantlement wheel hub locating component, can reduce the damage to the hub shell critical position in addition when locating the hub shell.

Description

Hub disassembling and assembling device

Technical Field

The invention relates to the field of hubs, in particular to a hub dismounting and combining device.

Background

Hub means the part of the vehicle on which the wheel is mounted, usually made of metallic material; the connecting part between the wheel and the vehicle bears the weight of the vehicle and enables the wheel to freely rotate through the bearing; the hub has a generally circular shape with a hole in the middle for a shaft mounted on the vehicle; on some high performance vehicles, the hub may also have a more complex design to increase the stability and handling performance of the vehicle.

The existing hub (such as BMW wheel) capable of mounting the hub cover is provided with a hub cover mounting groove at the hub cover mounting part; after the hub is cast, other fine machining operations such as deburring, chamfering and the like are needed, and positioning is needed when fine machining is carried out; for these hubcap mountable hubs, existing positioning fixtures typically squeeze the ends of the hub for positioning; the positioning mode is inaccurate in positioning, and the tire mounting position of the hub is easily damaged, so that the quality of the hub is affected; the existing hub positioning clamp is not easy to detach, usually needs to be detached by a machine, and cannot be detached manually.

Disclosure of Invention

The present invention has been made in view of the problems existing in the existing hub positioning assemblies.

Therefore, the problem to be solved by the invention is that the positioning of the hub is inaccurate and the critical part of the hub is damaged by the positioning.

In order to solve the technical problems, the invention provides the following technical scheme: the hub disassembly and assembly device comprises a disassembly mechanism, a first assembly and a second assembly, wherein the second assembly is arranged in the middle of the first assembly; the hub mechanism comprises a hub shell and a hub positioning assembly, wherein the hub positioning assembly is arranged in the middle of the hub shell in a sliding manner, and the hub shell is arranged on one side of the first disassembly assembly; the workbench comprises a sliding plate, a roller and a supporting plate, wherein the hub shell is arranged above the sliding plate in a sliding mode, the sliding plate is arranged above the roller in a sliding mode, and the supporting plate is fixed on two sides of the roller.

As a preferable mode of the hub dismounting combination device of the invention, wherein: the first disassembly component comprises a bolt sleeve, a gear, a main gear, a fixed disc and a first motor, wherein the bolt sleeve is fixed on the axial surface of the gear through a connecting shaft, the gear is meshed on the outer side of the main gear in a surrounding mode, the bolt sleeve is arranged on the fixed disc in a sliding mode, and the fixed disc and the first motor are fixed on a workbench.

As a preferable mode of the hub dismounting combination device of the invention, wherein: the second disassembly component comprises a sucker and a sucker pipe, and the sucker is fixed on one side of the sucker pipe and is communicated with the sucker pipe.

As a preferable mode of the hub dismounting combination device of the invention, wherein: the hub shell comprises a tire support ring, a support column and a central shaft column, wherein the support column is fixed on the inner side surface of the tire support ring, and the central shaft column is fixed on one side, away from the tire support ring, of the support column.

As a preferable mode of the hub dismounting combination device of the invention, wherein: the middle of the center shaft column is provided with a fixed cavity, one side of the fixed cavity is provided with a shaft hole, the side wall of the inner ring of the fixed cavity is provided with a ring groove, and the axial side wall of the fixed cavity is provided with a bolt hole.

As a preferable mode of the hub dismounting combination device of the invention, wherein: the hub positioning assembly comprises an outer cover disc, an inner cover disc, a middle lock shaft and a ring lock piece, wherein the outer cover disc is rotatably arranged on one side of the middle lock shaft, the inner cover disc is slidably arranged between the outer cover disc and the middle lock shaft, and the ring lock piece is fixed on the outer side of the middle lock shaft.

As a preferable mode of the hub dismounting combination device of the invention, wherein: the torsion cover and the cover disc rotating shaft are respectively fixed on the two axial sides of the outer cover disc, and the rotating groove is formed in the surface of the outer cover disc.

As a preferable mode of the hub dismounting combination device of the invention, wherein: a through hole is formed in the middle of the inner cover disc, and a straight groove is formed in the outer side of the through hole; and a rotating hole is formed in the middle of the middle lock shaft.

As a preferable mode of the hub dismounting combination device of the invention, wherein: the ring lock piece comprises a sliding cylinder, a sliding rod, a sliding block and a lock column, wherein one side of the sliding rod is arranged in the sliding cylinder in a sliding manner, one side of the sliding rod is fixedly provided with the sliding block, and the lock column is arranged in the middle of the sliding block in a sliding manner.

As a preferable mode of the hub dismounting combination device of the invention, wherein: a first spring is arranged in the sliding cylinder in a sliding way, and two ends of the first spring are respectively contacted with the sliding cylinder and the sliding column; a lock hole is formed in the middle of the sliding block, and one end, far away from the sliding column, of the sliding block is subjected to rounding treatment; the lock is characterized in that a sliding column and a limiting column are sequentially fixed on one side of the lock column, a second spring is arranged on the outer side of the sliding column in a sliding mode, the sliding column is in sliding connection with the rotary groove and the straight groove, the limiting column is in sliding connection with the outer cover disc, and two ends of the second spring are respectively in contact with the sliding block and the inner cover disc.

The invention has the beneficial effects that: according to the hub disassembly and assembly device, the disassembly mechanism, the hub mechanism and the workbench are matched with each other, so that the hub positioning assembly can be conveniently disassembled, and the damage to key parts of the hub shell can be reduced while the hub shell is positioned.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. Wherein:

FIG. 1 is a schematic view of the overall structure of a hub removing assembly;

FIG. 2 is an exploded view of the hub removal assembly;

FIG. 3 is a schematic view of a disassembly mechanism;

FIG. 4 is an exploded view of the hub positioning assembly;

FIG. 5 is an enlarged view of a portion of the lock cylinder;

FIG. 6 is a cross-sectional view of the hub positioning assembly.

In the figure:

100. a dismounting mechanism; 101. a first disassembly assembly; 102. a second disassembly assembly; 200. a hub mechanism; 201. a hub shell; 202. a hub positioning assembly; 300. a work table; 301. a slide plate; 302. a roller; 303. a support plate; 101a, bolt sleeve; 101b, a tooth dividing wheel; 101c, a main gear; 101d, a fixed disk; 101e, a first motor; 102a, sucking discs; 102b, a sucker tube; 201c-4, bolt holes; 202a-1, twist cap; 201a, tire support ring; 201b, support posts; 201c, center shaft column; 202a, outer cover plate; 202b, an inner cover plate; 202c, a middle lock shaft; 202d, a ring lock; 201c-1, a fixation cavity; 201c-2, shaft hole; 201c-3, ring groove; 202a-2, cover disc spindle; 202a-3, spin-slot; 202b-1, through holes; 202b-2, straight grooves; 202c-1, turning holes; 202d-1, a slide cylinder; 202d-2, a slide bar; 202d-3, a slider; 202d-4, lock cylinder; 202d-1a, a first spring; 202d-3a, locking hole; 202d-4a, strut; 202d-4b, limit posts; 202d-4c, a second spring.

Detailed Description

In order that the above-recited objects, features and advantages of the present invention will become more readily apparent, a more particular description of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present invention is not limited to the specific embodiments disclosed below.

Further, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic can be included in at least one implementation of the invention. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Embodiment 1, referring to fig. 1 to 4, is a first embodiment of the present invention, and provides a hub disassembly and assembly device, specifically including a disassembly mechanism 100 including a first disassembly component 101 and a second disassembly component 102, wherein the second disassembly component 102 is disposed in the middle of the first disassembly component 101; a hub mechanism 200 comprising a hub shell 201 and a hub positioning assembly 202, the hub positioning assembly 202 being slidably disposed in the middle of the hub shell 201, the hub shell 201 being disposed on one side of the first dismounting assembly 101; the working table 300 includes a slide plate 301, a drum 302, and a support plate 303, the hub shell 201 is slidably disposed over the slide plate 301, the slide plate 301 is slidably disposed over the drum 302, and the support plate 303 is fixed to both sides of the drum 302.

It should be noted that the support plate 303 is composed of a plurality of plates, and the support plate 303 can support a large weight; the roller 302 is a cylinder, and the roller 302 can be driven by a motor to roll; the sliding plate 301 is a rectangular plate, and the rolling of the roller 302 can drive the sliding plate 301 to horizontally slide on the roller 302.

Further, the first disassembling component 101 includes a bolt sleeve 101a, a gear wheel 101b, a main gear 101c, a fixed disc 101d and a first motor 101e, the bolt sleeve 101a is fixed on the axial surface of the gear wheel 101b through a connecting shaft, the gear wheel 101b is meshed around the outer side of the main gear 101c, the bolt sleeve 101a is slidably arranged on the fixed disc 101d, and the first motor 101e is fixed on the supporting plate 303; the second disassembling assembly 102 includes a suction cup 102a and a suction cup tube 102b, the suction cup 102a being fixed to one side of the suction cup tube 102b and communicating with the suction cup tube 102 b.

It should be noted that there are 6 sub gears 101b, and the sub gears 101b are disposed around the main gear 101c at 60 degrees, corresponding to the bolt holes 201c-4 on the hub shell 201 one by one; the bolt sleeve 101a is used for disassembling a hexagonal bolt provided in the bolt hole 201c-4; the fixed disk 101d is a circular disk, and the fixed disk 101d is used for rotationally fixing the sub-gear 101b and the main gear 101c thereon; the suction cup 102a is circular in shape and the diameter of the suction cup 102a is greater than the length of the twist cap 202 a-1.

Preferably, the hub shell 201 comprises a tire support ring 201a, a support column 201b and a central shaft column 201c, wherein the support column 201b is fixed on the inner side surface of the tire support ring 201a, and the central shaft column 201c is fixed on the side of the support column 201b away from the tire support ring 201 a; the hub positioning assembly 202 includes an outer cover plate 202a, an inner cover plate 202b, a middle lock shaft 202c and a ring lock 202d, the outer cover plate 202a is rotatably disposed on one side of the middle lock shaft 202c, the inner cover plate 202b is slidably disposed between the outer cover plate 202a and the middle lock shaft 202c, and the ring lock 202d is fixed on the outer side of the middle lock shaft 202 c.

It should be noted that, the tire support ring 201a is a circular ring, and the outer side thereof can be provided with a tire; the support columns 201b are square columns, the support columns 201b are arranged around the inner side of the tire support ring 201a, and each support column 201b is spaced 60 degrees around the center of the tire support ring 201 a; the central shaft column 201c is a cylinder, and the axis of the central shaft column 201c coincides with the axis of the tire support ring 201 a; the outer cover disc 202a is a circular disc, the diameter of the outer cover disc 202a is smaller than that of the inner cover disc 202b, the middle lock shaft 202c is a circular shaft, and the diameter of the middle lock shaft 202c is smaller than that of the middle shaft column 201 c; there are 6 ring locks 202d, and ring locks 202d are evenly spaced 60 degrees apart around center lock axis 202 c.

In this embodiment, an operator can disassemble the hub positioning assembly 202 through the second disassembly assembly 102 and then disassemble the hub shell 201 through the first disassembly assembly 101; the hub positioning assembly 202 can position the hub shell 201 after installation is complete.

Embodiment 2, referring to fig. 1 to 6, is a second embodiment of the present invention, which is based on the previous embodiment.

Specifically, a fixed cavity 201c-1 is formed in the middle of the center shaft column 201c, a shaft hole 201c-2 is formed in one side of the fixed cavity 201c-1, a ring groove 201c-3 is formed in the inner ring side wall of the fixed cavity 201c-1, and a bolt hole 201c-4 is formed in the axial side wall of the fixed cavity 201 c-1; the torsion cover 202a-1 and the cover disc rotating shaft 202a-2 are respectively fixed on the two axial sides of the outer cover disc 202a, and a rotary groove 202a-3 is formed in the disc surface of the outer cover disc 202 a; a through hole 202b-1 is formed in the middle of the inner cover disc 202b, and a straight groove 202b-2 is formed outside the through hole 202 b-1; a pivot hole 202c-1 is provided in the middle of the center lock shaft 202 c.

It should be noted that the fixing chamber 201c-1 is a circular chamber, and the diameter of the fixing chamber 201c-1 is the same as the diameter of the inner cover plate 202 b; the diameter of the ring groove 201c-3 is larger than that of the fixing cavity 201 c-1; the number of the bolt holes 201c-4 is 6, and the bolt holes 201c-4 are arranged at intervals of 60 degrees around the axis of the fixed cavity 201 c-1; the torsion cover 202a-1 is rectangular and can be manually twisted by an operator; the cover disc rotating shaft 202a-2 is a circular shaft; the spiral grooves 202a-3 are spiral grooves, and 6 spiral grooves 202a-3 are arranged at intervals of 60 degrees around the axis of the outer cover disc 202 a; the through hole 202b-1 is a round hole, and the diameter of the through hole 202b-1 is larger than that of the cover disc rotating shaft 202 a-2; the number of the straight grooves 202b-2 is 6, and the straight grooves are arranged at intervals of 60 degrees around the axis of the inner cover disc 202 b; the rotating hole 202c-1 is a circular hole, and the rotating hole 202c-1 is rotatably connected with the cover disc rotating shaft 202 a-2.

Further, the ring lock 202d includes a slide cylinder 202d-1, a slide bar 202d-2, a slide block 202d-3 and a lock cylinder 202d-4, wherein one side of the slide bar 202d-2 is slidably disposed in the slide cylinder 202d-1, one side is fixedly provided with the slide block 202d-3, and the lock cylinder 202d-4 is slidably disposed in the middle of the slide block 202 d-3.

It should be noted that the sliding tube 202d-1 is a cylinder, and the sliding rod 202d-2 can only extend and retract in the sliding tube 202 d-1; the sliding rod 202d-2 is a round rod, and the sliding rod 202d-2 is in sliding connection with the sliding tube 202 d-1; the slider 202d-3 is a rectangular block, the slider 202d-3 can be slidably connected with the ring groove 201c-3, the lock cylinder 202d-4 is a cylinder, and the lock cylinder 202d-4 can be slidably connected with the bolt hole 201 c-4.

Preferably, a first spring 202d-1a is slidably disposed in the sliding tube 202d-1, and two ends of the first spring 202d-1a contact the bottom of the sliding tube 202d-1 and the bottom of the sliding rod 202d-2, respectively; a lock hole 202d-3a is formed in the middle of the sliding block 202d-3, and one end, far away from the sliding rod 202d-2, of the sliding block 202d-3 is rounded; one side of the lock column 202d-4 is sequentially fixed with a slide column 202d-4a and a limit column 202d-4b, a second spring 202d-4c is arranged on the outer side of the slide column 202d-4a in a sliding manner, the slide column 202d-4a is in sliding connection with the rotary groove 202a-3 and the straight groove 202b-2, the limit column 202d-4b is in sliding connection with the outer cover plate 202a, and two ends of the second spring 202d-4c are respectively contacted with the sliding block 202d-3 and the inner cover plate 202b.

It should be noted that the lock hole 202d-3a is a circular hole, and the lock hole 202d-3a is slidably connected with the lock cylinder 202 d-4; the strut 202d-4a and the strut 202d-4b are cylindrical, and the diameter of the strut 202d-4b is greater than the diameter of the strut 202d-4 a.

In this embodiment, after the hub positioning assembly 202 has been removed from the hub shell 201, if an operator needs to manually install the hub positioning assembly 202, each lock cylinder 202d-4 is aligned with the bolt hole 201c-4, and then the twist cap 202a-1 is held to press the inner cap plate 202b into the fixing cavity 201 c-1; in this process, the rounding on the slider 202d-3 will press the side of the shaft hole 201c-2, so that the slider 202d-3 will be pressed by the pressure to push the slider 202d-2 into the slider cylinder 202 d-1; at the same time, the surface of the lock cylinder 202d-4 will press the fixing cavity 201c-1, so that the lock cylinder 202d-4 slides a distance in the lock hole 202d-3a while compressing the second spring 202d-4 c; after the slider 202d-3 is snapped into the ring groove 201c-3, the lock cylinder 202d-4 can be snapped into the bolt hole 201c-4; after that, the operator only needs to loosen the torsion cap 202a-1 to complete the installation; after the hub positioning assembly 202 assembly is installed, other components on the assembly line can vertically squeeze the outer cover plate 202a to fix the hub shell 201 on the slide plate 301, and further finish the hub shell 201 through the positioning limiting posts 202d-4b by other mechanical arms and the like.

It should be noted that, when the operator needs to manually disassemble the hub positioning assembly 202, he needs to hold the torsion cap 202a-1 and pull it outwards, at this time, the torsion cap 202a-1 will push the lock post 202d-4 out of the bolt hole 201c-4 by pressing the limit post 202d-4b, and after that, the operator needs to rotate the torsion cap 202a-1, i.e. press the slide post 202d-4a by the cooperation of the rotating groove 202a-3 and the straight groove 202b-2, so that the slide post 202d-4a drives the slide block 202d-3 to slide out of the ring groove 201c-3; finally, the hub positioning assembly 202 can be pulled out under the pulling force of the operator on the torsion cap 202a-1, and after the hub positioning assembly 202 is pulled out, the operator can detach the bolts through the socket wrench, so as to detach the hub shell 201;

it should be noted that, when the operator needs to disassemble the hub positioning assembly 202 through the disassembling mechanism 100, only the outer cover plate 202a needs to be sucked and pulled outwards by the suction cup 102a, at this time, the twist cover 202a-1 will pull the lock post 202d-4 out of the bolt hole 201c-4 by pressing the limit post 202d-4b, after that, the suction cup 102a sucks the outer cover plate 202a to continue pulling outwards, so that the rounded edge of the circular groove 201c-3 on the sliding block 202d-3 is pressed until the sliding block 202d-3 is completely extruded out of the circular groove 201c-3; finally, the hub locating assembly 202 is sucked out, and after the hub locating assembly 202 is sucked out, the bolt sleeve 101a can be inserted into the bolt hole 201c-4 to detach the bolt, and then the hub shell 201 is detached.

It is further noted that, after the hub positioning assembly 202 is installed, the hub shell 201 can be positioned by only pressing the outer cover plate 202a downward through the cooperation of the lock posts 202d-4 and the bolt holes 201c-4, and then the hub shell 201 can be subjected to simple processing such as surface polishing by the conventional polishing mechanism such as a mechanical arm.

It should be appreciated that in the development of any such actual implementation, as in any engineering or design project, numerous implementation-specific decisions may be made. Such a development effort might be complex and time consuming, but would nevertheless be a routine undertaking of design, fabrication, and manufacture for those of ordinary skill having the benefit of this disclosure.

It should be noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the same, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present invention may be modified or substituted without departing from the spirit and scope of the technical solution of the present invention, which is intended to be covered in the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a wheel hub dismantles composite set which characterized in that: comprising the steps of (a) a step of,

a disassembly mechanism (100) comprising a first disassembly assembly (101) and a second disassembly assembly (102), the second disassembly assembly (102) being disposed intermediate the first disassembly assembly (101);

a hub mechanism (200) comprising a hub positioning assembly (202), said hub positioning assembly (202) being arranged on one side of the first dismounting assembly (101);

the workbench (300) comprises a sliding plate (301), a roller (302) and supporting plates (303), wherein the hub positioning assembly (202) is arranged above the sliding plate (301), the sliding plate (301) is arranged above the roller (302) in a sliding mode, and the supporting plates (303) are fixed on two sides of the roller (302).

2. The hub removing assembly set forth in claim 1, wherein: the first disassembly assembly (101) comprises a bolt sleeve (101 a), a gear (101 b), a main gear (101 c), a fixed disc (101 d) and a first motor (101 e), wherein the bolt sleeve (101 a) is fixed on the axial surface of the gear (101 b) through a connecting shaft, the gear (101 b) is meshed outside the main gear (101 c) in a surrounding mode, the bolt sleeve (101 a) is arranged on the fixed disc (101 d) in a sliding mode, and the first motor (101 e) is fixed on the supporting plate (303).

3. The hub removing assembly set forth in claim 2, wherein: the second disassembling assembly (102) comprises a sucker (102 a) and a sucker tube (102 b), and the sucker (102 a) is fixed on one side of the sucker tube (102 b) and is communicated with the sucker tube (102 b).

4. A hub removing assembly according to claim 2 or 3, wherein: the hub positioning assembly (202) comprises an outer cover disc (202 a), an inner cover disc (202 b), an intermediate lock shaft (202 c) and a ring lock (202 d), wherein the outer cover disc (202 a) is rotatably arranged on one side of the intermediate lock shaft (202 c), an inner cover disc (202 b) is slidably arranged between the outer cover disc (202 a) and the intermediate lock shaft (202 c), and the ring lock (202 d) is fixed on the outer side of the intermediate lock shaft (202 c).

5. The hub removing assembly set forth in claim 4, wherein: the torsion cover (202 a-1) and the cover disc rotating shaft (202 a-2) are respectively fixed on two axial sides of the outer cover disc (202 a), and a rotary groove (202 a-3) is formed in the disc surface of the outer cover disc (202 a).

6. The hub removing assembly set forth in claim 5, wherein: a through hole (202 b-1) is formed in the middle of the inner cover disc (202 b), and a straight groove (202 b-2) is formed in the outer side of the through hole (202 b-1);

a rotating hole (202 c-1) is formed in the middle of the middle lock shaft (202 c).

7. The hub removing assembly set forth in claim 6, wherein: the ring lock (202 d) comprises a sliding cylinder (202 d-1), a sliding rod (202 d-2), a sliding block (202 d-3) and a lock column (202 d-4), wherein one side of the sliding rod (202 d-2) is arranged in the sliding cylinder (202 d-1) in a sliding mode, the sliding block (202 d-3) is fixed on one side of the sliding rod, and the lock column (202 d-4) is arranged in the middle of the sliding block (202 d-3) in a sliding mode.

8. The hub disconnect assembly of claim 7, wherein: a first spring (202 d-1 a) is slidably arranged in the sliding tube (202 d-1), and two ends of the first spring (202 d-1 a) are respectively contacted with the bottom of the sliding tube (202 d-1) and the bottom of the sliding rod (202 d-2).

9. The hub removing assembly set forth in claim 8, wherein: a lock hole (202 d-3 a) is formed in the middle of the sliding block (202 d-3), and one end, far away from the sliding rod (202 d-2), of the sliding block (202 d-3) is subjected to rounding treatment.

10. The hub disconnect assembly of claim 9, wherein: a sliding column (202 d-4 a) and a limiting column (202 d-4 b) are sequentially fixed on one side of the lock column (202 d-4), a second spring (202 d-4 c) is arranged on the outer side of the sliding column (202 d-4 a) in a sliding mode, the sliding column (202 d-4 a) is in sliding connection with the rotary groove (202 a-3) and the straight groove (202 b-2), the limiting column (202 d-4 b) is in sliding connection with the outer cover plate (202 a), and two ends of the second spring (202 d-4 c) are respectively in contact with the sliding block (202 d-3) and the inner cover plate (202 b).