CN115365865B - Auxiliary device for hub machining - Google Patents
Auxiliary device for hub machining Download PDFInfo
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- CN115365865B CN115365865B CN202211057280.0A CN202211057280A CN115365865B CN 115365865 B CN115365865 B CN 115365865B CN 202211057280 A CN202211057280 A CN 202211057280A CN 115365865 B CN115365865 B CN 115365865B
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- 238000003754 machining Methods 0.000 title claims description 18
- 230000007306 turnover Effects 0.000 claims abstract description 35
- 230000000670 limiting effect Effects 0.000 claims description 36
- 239000004677 Nylon Substances 0.000 claims description 8
- 229920001778 nylon Polymers 0.000 claims description 8
- 230000009286 beneficial effect Effects 0.000 abstract description 2
- 238000000034 method Methods 0.000 description 3
- 238000012986 modification Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 230000015572 biosynthetic process Effects 0.000 description 1
- 230000003014 reinforcing effect Effects 0.000 description 1
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23Q—DETAILS, COMPONENTS, OR ACCESSORIES FOR MACHINE TOOLS, e.g. ARRANGEMENTS FOR COPYING OR CONTROLLING; MACHINE TOOLS IN GENERAL CHARACTERISED BY THE CONSTRUCTION OF PARTICULAR DETAILS OR COMPONENTS; COMBINATIONS OR ASSOCIATIONS OF METAL-WORKING MACHINES, NOT DIRECTED TO A PARTICULAR RESULT
- B23Q7/00—Arrangements for handling work specially combined with or arranged in, or specially adapted for use in connection with, machine tools, e.g. for conveying, loading, positioning, discharging, sorting
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Load-Engaging Elements For Cranes (AREA)
Abstract
The invention relates to an auxiliary device for hub processing, which comprises a frame and a turnover main body, wherein the turnover main body is connected with the frame through a driving shaft, the turnover main body is driven to turn by the rotation of the driving shaft, a first positioning frame and a second positioning frame are also connected to the frame, the turnover main body is positioned between the first positioning frame and the second positioning frame, a positioning piece is connected to the outer part of the turnover main body, when the turnover main body is turned to a first angle, the positioning piece is abutted to the first positioning frame, when the turnover main body is turned to a second angle, the positioning piece is abutted to the second positioning frame, a containing cavity is formed in the turnover main body, openings are respectively arranged at the upper part and the lower part of the containing cavity, locking arms are respectively arranged at the openings, and the locking arms can be connected to the turnover main body in a swinging manner. The invention can effectively realize the overturning and positioning of the hub, improves the processing efficiency and the operation safety of the hub, and is also beneficial to reducing the labor intensity.
Description
Technical Field
The invention relates to the technical field of hub machining, in particular to an auxiliary device for hub machining.
Background
For truck hubs, a vertical lathe is generally adopted for turning, during machining, the hub is generally hoisted into a workbench clamp of the vertical lathe, the clamp is used for clamping the hub, then the end face or the inner wall and the outer wall of one end of the hub are turned, after machining is finished, the hub is hoisted to a place close to the ground by a crane, the hub is turned 180 degrees through manual operation, and then the hub is hoisted into the clamp for clamping, so that the end face or the inner wall and the outer wall of the other end of the hub are machined. The wheel hub needs to be turned manually in the machining mode, the operation is inconvenient, the machining efficiency is reduced, in addition, the wheel hub falls on the ground due to misoperation easily occurs in the mode, on one hand, the fallen wheel hub is easy to deform or crack, and on the other hand, safety accidents can be caused.
Therefore, the existing hub processing mode is inconvenient to turn over and position the hub, processing efficiency and safety cannot be effectively guaranteed, and the use requirement cannot be met.
Disclosure of Invention
Therefore, the invention aims to solve the technical problems that the hub is inconvenient to turn over and position when being processed in the prior art, and the processing efficiency and the safety are low.
In order to solve the technical problems, the invention provides an auxiliary device for hub processing, which comprises a frame and a turnover main body, wherein the turnover main body is connected with the frame through a driving shaft, the turnover main body is driven by the rotation of the driving shaft to turn over, a first positioning frame and a second positioning frame are further connected to the frame, the turnover main body is positioned between the first positioning frame and the second positioning frame, a positioning piece is connected to the exterior of the turnover main body, when the turnover main body is turned to a first angle, the positioning piece is abutted to the first positioning frame, when the turnover main body is turned to a second angle, the positioning piece is abutted to the second positioning frame, a containing cavity for containing a hub is formed in the turnover main body, openings are formed in the upper part and the lower part of the containing cavity, locking arms are arranged at the openings, the locking arms are connected to the turnover main body in a swinging mode, when the locking arms swing to a first position, the openings are in an opening state, and when the locking arms swing to a second position, the locking arms are blocked by the openings to prevent the locking arms from sliding out of the hub.
In one embodiment of the invention, the first positioning frame and the second positioning frame each comprise a supporting frame, the supporting frames are connected with a first locking rod and a limiting rod, the first locking rod is connected to the supporting frames in a telescopic mode, and when the positioning piece is turned to be in contact with the limiting rod, the first locking rod stretches out to enable the positioning piece to be located between the first locking rod and the limiting rod.
In one embodiment of the invention, the upper part of the supporting frame is connected with a guide body, a first guide groove is arranged on the guide body, the first locking rod is slidably connected in the first guide groove, one end of the first locking rod is connected with the first guide groove through a first reset spring, and the end face of the other end is an inclined plane.
In one embodiment of the invention, the turnover main bodies at two sides of the opening are respectively connected with a first vertical plate and a second vertical plate, the second vertical plate is provided with an opening groove, one end of the locking arm is hinged with the first vertical plate, and the other end of the locking arm is used for swinging into or separating from the opening groove.
In one embodiment of the invention, a second locking rod is arranged at the opening groove and is connected to the overturning main body in a telescopic mode, and when the locking arm swings into the opening groove, the second locking rod stretches out to stop the locking arm from swinging out of the opening groove.
In one embodiment of the invention, the second locking rod is slidably connected in a second guide groove, the second guide groove is arranged on the overturning main body, one end of the second locking rod is connected with the second guide groove through a second reset spring, and the end face of the other end is an inclined plane.
In one embodiment of the invention, the second locking rod is further connected with a limiting handle, the overturning body is provided with a limiting groove, and the limiting handle passes through the limiting groove and can slide along the limiting groove.
In one embodiment of the invention, a plurality of nylon guard plates are arranged on the inner wall of the accommodating cavity and used for propping against the outer wall of the hub.
In one embodiment of the invention, the drive shaft is connected to an operating disk, the drive shaft being driven in rotation by the operating disk.
In one embodiment of the invention, the driving shaft is provided with a square hole, and the middle part of the operating panel is connected with a square rod which is inserted into the square hole.
Compared with the prior art, the technical scheme of the invention has the following advantages:
the auxiliary device for hub processing can effectively realize the overturning and positioning of the hub, improves the processing efficiency and the operation safety of the hub, and is beneficial to reducing the labor intensity.
Drawings
In order that the invention may be more readily understood, a more particular description of the invention will be rendered by reference to specific embodiments thereof that are illustrated in the appended drawings.
FIG. 1 is a three-dimensional view of an auxiliary device for machining a hub in accordance with the present invention;
FIG. 2 is a top view of the hub machining assist device of the present invention;
FIG. 3 is a left side view of the device of FIG. 2;
FIG. 4 is a cross-sectional view at A-A in FIG. 2;
FIG. 5 is a cross-sectional view at B-B in FIG. 4;
FIG. 6 is a cross-sectional view at C-C in FIG. 3;
fig. 7 is a schematic view of a flipped state of the flipping body;
FIG. 8 is a schematic view of the opening in an open state;
FIG. 9 is a schematic view (top view) of the flip body of FIG. 1 at an angle;
FIG. 10 is a schematic view of another angle of the flip body of FIG. 9 (bottom view);
FIG. 11 is a schematic view of an angle configuration of the hub;
FIG. 12 is a schematic view of the hub of FIG. 11 at another angle;
description of the specification reference numerals: 1. a hub; 2. a frame; 3. a drive shaft; 4. an operation panel; 5. turning over the main body; 51. a positioning piece; 52. a receiving chamber; 521. an opening; 53. a locking arm; 54. a first vertical plate; 55. a second vertical plate; 551. an open slot; 56. a second locking lever; 561. a limit handle; 57. a second guide groove; 58. a second return spring; 59. a limit groove; 6. a first positioning frame; 61. a support frame; 62. a first locking lever; 621. an inclined plane; 63. a limit rod; 64. a guide body; 641. a first guide groove; 65. a first return spring; 7. a second positioning frame; 8. a protection plate; 9. a nylon guard board; 10. a support pad; 11. a bearing; 12. a rotating shaft;
Detailed Description
The present invention will be further described with reference to the accompanying drawings and specific examples, which are not intended to be limiting, so that those skilled in the art will better understand the invention and practice it.
Referring to fig. 1-6, the embodiment discloses an auxiliary device for hub processing, which comprises a frame 2 and a turnover main body 5, wherein the turnover main body 5 is connected with the frame 2 through a driving shaft 3, the turnover main body 5 is driven to turn by the rotation of the driving shaft 3, the frame 2 is also connected with a first positioning frame 6 and a second positioning frame 7, and the turnover main body 5 is positioned between the first positioning frame 6 and the second positioning frame 7;
the positioning piece 51 is connected to the outside of the overturning body 5, when the overturning body 5 overturns to a first angle, the positioning piece 51 is abutted against the first positioning frame 6, and when the overturning body 5 overturns to a second angle, the positioning piece 51 is abutted against the second positioning frame 7;
the inside of the overturning body 5 is provided with a containing cavity 52 for containing the hub 1, the upper part and the lower part of the containing cavity 52 are provided with openings 521, the openings 521 are provided with locking arms 53, the locking arms 53 are connected to the overturning body 5 in a swinging way, when the locking arms 53 swing to a first position, the openings 521 are in an open state (the openings are not shielded) as shown in fig. 8, and when the locking arms 53 swing to a second position, the openings 521 are in a partially shielded state as shown in fig. 2, and the openings 521 are shielded by the locking arms 53 so as to prevent the hub 1 from sliding out of the openings.
The hub 1 is placed in the accommodating cavity 52 through the opening 521, and the opening 521 is also convenient for the turning tool to extend into to process the hub 1 in the accommodating cavity 52; openings 521 are provided at both the upper and lower portions of the receiving cavity 52 to facilitate the machining of the different end surfaces of the hub 1 after the hub is turned over.
The structure can realize the quick overturning of the overturning main body 5, and meanwhile, the positioning of the overturning main body 5 can be effectively realized after the overturning is in place through the first positioning frame 6 and the second positioning frame 7, and the positioning of the hub 1 can be realized through the locking arm 53, so that the hub is prevented from sliding out of the accommodating cavity 52 during overturning.
In one embodiment, as shown in fig. 6, the first positioning frame 6 and the second positioning frame 7 each include a supporting frame 61, the supporting frames 61 are connected with a first locking rod 62 and a limiting rod 63, the first locking rod 62 is connected to the supporting frames 61 in a telescopic manner, and when the positioning member 51 is turned to be in contact with the limiting rod 63, the first locking rod 62 extends to enable the positioning member 51 to be located between the first locking rod 62 and the limiting rod 63, so that locking of the positioning member 51 is achieved.
Further, a guide body 64 is connected to the upper portion of the support frame 61, a first guide groove 641 is provided on the guide body 64, a first locking rod 62 is slidably connected in the first guide groove 641, one end of the first locking rod 62 is connected to the first guide groove 641 through a first return spring 65, and an end face of the other end is an inclined surface 621 so as to facilitate the retraction of the first locking rod 62.
Further, the limit rod 63 is a screw, which is screwed on the support frame 61 by threads, so as to adjust the top height of the limit rod 63.
The process of locking the tilting body 5 by using the first locking lever 62 described above is:
the driving shaft 3 is rotated so that the tilting body 5 is turned over, and when the positioning piece 51 on the tilting body 5 is turned over to be above the first locking bar 62 and continues to be turned down, the positioning piece 51 abuts against the inclined surface 621 at the end of the first locking bar 62 so that the first locking bar 62 is retracted, the first return spring 65 is compressed, and the positioning piece 51 continues to descend to be in contact with the lower limit bar 63, at this time, the upper portion of the positioning piece 51 is disengaged from the upper first locking bar 62, the first locking bar 62 is reset to be extended under the elastic force of the first return spring 65, and the extension portion is blocked above the positioning piece 51 so that the positioning piece 51 is limited between the first locking bar 62 and the limit bar 63, thereby realizing the locking of the tilting body 5.
In one embodiment, the first locking lever 62 is further connected with a limiting handle 561, and the guide body 64 is provided with a limiting groove, where the limiting handle 561 passes through the limiting groove and can slide along the limiting groove. The first locking lever 62 moves horizontally to move the limit lever 561 together.
With the above structure, the movement stroke of the limit lever 561 is limited, so that the movement formation of the first lock lever 62 is limited; in addition, it is also convenient to manually pull the limit handle 561, thereby retracting the first locking lever 62 to achieve unlocking.
In one embodiment, the turning body 5 at two sides of the opening 521 is respectively connected with a first vertical plate 54 and a second vertical plate 55, an opening groove 551 is formed in the second vertical plate 55, one end of the locking arm 53 is hinged to the first vertical plate 54, and the other end is used for swinging into the opening groove 551 or separating from the opening groove 551.
Further, the upper parts of the first vertical plate 54 and the second vertical plate 55 are connected with the protection plate 8 to play a protection role.
A protection plate 8 may be provided at the opening edge of the tilting body 5. The protection plate 8 may be a nylon plate.
In one embodiment, as shown in fig. 3, a second locking rod 56 is disposed at the opening groove 551, the second locking rod 56 is telescopically connected to the tilting body 5, and when the locking arm 53 swings into the opening groove 551 (the second position), the second locking rod 56 extends to block the locking arm 53 from swinging out of the opening groove 551, so that locking of the locking arm 53 is achieved, and the locking arm 53 is completely limited in the opening groove 551 and cannot swing out.
Further, when the locking arm 53 swings into the opening groove 551, the locking arm 53 abuts against the hub 1, so as to better ensure positioning reliability of the hub 1 and prevent the hub 1 from axial movement.
In one embodiment, as shown in fig. 5, the second locking lever 56 is slidably coupled in a second guide groove 57, the second guide groove 57 is provided on the tilting body 5, one end of the second locking lever 56 is coupled to the second guide groove 57 through a second return spring 58, and the other end has an end surface inclined so as to facilitate the retraction of the second locking lever 56.
The locking of the locking arm 53 by the second locking lever 56 is as follows:
the locking arm 53 is swung so that the locking arm 53 swings toward the open groove 551, when the locking arm 53 swings to the second locking lever 56 and continues swinging, the locking arm 53 abuts against the inclined surface 6 at the end of the second locking lever 56, thereby retracting the second locking lever 56, the second return spring 58 is compressed, and the locking arm 53 continues swinging into the open groove 551, at this time, the locking arm 53 is disengaged from the second locking lever 56 on one side, the second locking lever 56 returns to be extended under the elastic force of the second return spring 58, and the extended portion is caught on the side face of the locking arm 53, thereby restricting the locking arm 53 in the open groove 551, thereby achieving locking of the locking arm 53.
In one embodiment, as shown in fig. 1, 4 and 5, the second locking lever 56 is also connected with a limiting handle 561, and the turning body 5 is provided with a limiting groove 59, where the limiting handle 561 passes through the limiting groove 59 and can slide along the limiting groove 59. The second locking lever 56 moves up and down to move the limit lever 561 together.
With the above structure, the movement stroke of the limit lever 561 is limited, thereby limiting the up-and-down movement of the second locking lever 56; in addition, it is also convenient to manually pull the limit lever 561, thereby retracting the second locking lever 56 to achieve unlocking. For example, when the locking arm 53 needs to be swung out of the opening groove 551, the limiting handle 561 may be pulled to retract the second locking lever 56, thereby unlocking.
In one embodiment, as shown in fig. 9 and 10, a plurality of locking arms 53 are provided at the opening 521 to better ensure locking reliability; for example, two locking arms 53 are disposed at each opening 521, and the two locking arms 53 swing outwards to enable the opening 521 to be completely opened, and the two locking arms 53 swing inwards to a certain position to partially block the opening 521, so as to limit and lock the inner hub 1, so as to prevent the hub 1 from falling when turning over. The structure of the hub 1 is shown in fig. 11-12.
In one embodiment, a plurality of nylon shields 9 are disposed on the inner wall of the accommodating cavity 52, and the nylon shields 9 are used for abutting against the outer wall of the hub 1 to limit the movement of the hub 1. That is, a plurality of nylon guard plates 9 enclose a spacing cavity, and the hub 1 is positioned in the spacing cavity.
In one embodiment, the drive shaft 3 is connected to the operation panel 4, and the drive shaft 3 is rotated by the operation panel 4.
In one embodiment, the driving shaft 3 is provided with a square hole, and the middle part of the operating panel 4 is connected with a square rod which is inserted into the square hole, so that the operating panel 4 and the driving shaft 3 can be reliably fixed together, and can rotate together.
In one embodiment, the bottom of the frame 2 is provided with a plurality of support pads 10.
Further, the frame 2 is also provided with reinforcing ribs.
It will be appreciated that, in the specific assembly, one end of the turning body 5 is connected to the driving shaft 3, and the other end is also provided with another rotating shaft 12 to ensure smooth turning of the turning body 5, the driving shaft 3 is connected to one side of the frame 2 through the bearing 11, and the rotating shaft 12 is connected to the other side of the frame 2 through the other bearing 11.
The following specifically describes a method of using the auxiliary device described above:
the opening 521 of the overturning body 5 is upward, at this time, the positioning piece 51 on the overturning body 5 is locked between the first locking rod 62 and the limiting rod 63 at the first positioning frame 6 (the first locking rod 62 is in an extending state), at this time, the overturning body 5 is in a first angle (0 °), then the hub 1 is hung into the accommodating cavity 52 through the upper opening, so that the locking arm 53 swings to the upper part of the opening to partially shield the opening, and the locking limiting effect is achieved on the hub 1 in the accommodating cavity 52; then, the positioning piece 51 is unlocked from the first positioning frame 6 (the first locking rod 62 at the first positioning frame 6 is retracted), the operating panel 4 is rotated, so that the overturning body 5 is driven to overturn by 180 degrees, the overturning state is shown in fig. 7, when the overturning body 5 is overturned to 180 degrees, the positioning piece 51 is overturned between the first locking rod 62 and the limiting rod 63 at the second positioning frame 7, at the moment, the first locking rod 62 is in an extending state, so that the overturning body 5 is locked, at the moment, the overturning body 5 is at a second angle (180 degrees), at the moment, an opening below the accommodating cavity 52 is upward, and the locking arm 53 at the opening can be swung outwards, so that the opening is completely opened and is convenient for subsequent processing.
It will be appreciated that, as shown in fig. 9 and 10, the upper opening and the lower opening of the accommodating cavity 52 are provided with the same locking arm structure, and the locking arm located below is always in a state of shielding the opening, so as to support the hub 1.
The auxiliary device for hub processing can conveniently realize the overturning and positioning of the hub 1, greatly improve the overturning efficiency and overturning stability, have better operation safety, greatly improve the hub processing efficiency, reduce the labor intensity and save a large amount of manpower.
It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations and modifications of the present invention will be apparent to those of ordinary skill in the art in light of the foregoing description. It is not necessary here nor is it exhaustive of all embodiments. And obvious variations or modifications thereof are contemplated as falling within the scope of the present invention.
Claims (8)
1. An auxiliary device is used in wheel hub processing, its characterized in that: the turnover body is connected with the frame through a driving shaft, the turnover body is driven to turn by the rotation of the driving shaft, a first positioning frame and a second positioning frame are further connected to the frame, the turnover body is located between the first positioning frame and the second positioning frame, a positioning piece is connected to the exterior of the turnover body, when the turnover body is turned to a first angle, the positioning piece is abutted to the first positioning frame, when the turnover body is turned to a second angle, the positioning piece is abutted to the second positioning frame, a containing cavity for containing a hub is formed in the turnover body, openings are formed in the upper portion and the lower portion of the containing cavity, locking arms are arranged at the openings, the locking arms can be connected to the turnover body in a swinging mode, when the locking arms swing to a first position, the opening is in an open state, and when the locking arms swing to a second position, the opening is blocked by the locking arms so as to prevent the hub from sliding out of the opening;
the first positioning frame and the second positioning frame comprise supporting frames, the supporting frames are connected with first locking rods and limiting rods, the first locking rods are connected to the supporting frames in a telescopic mode, and when the positioning pieces are turned to be in contact with the limiting rods, the first locking rods extend out to enable the positioning pieces to be located between the first locking rods and the limiting rods;
the turnover main bodies on two sides of the opening are respectively connected with a first vertical plate and a second vertical plate, an opening groove is formed in the second vertical plate, one end of the locking arm is hinged with the first vertical plate, and the other end of the locking arm is used for swinging into or separating from the opening groove.
2. The auxiliary device for hub machining according to claim 1, wherein: the upper portion of support frame is connected with the guide body, be provided with first guide way on the guide body, first locking lever slidable ground is connected in the first guide way, the one end of first locking lever pass through first reset spring with first guide way is connected, and the terminal surface of the other end is the inclined plane.
3. The auxiliary device for hub machining according to claim 1, wherein: the opening slot is provided with a second locking rod which is connected to the overturning main body in a telescopic mode, and when the locking arm swings into the opening slot, the second locking rod stretches out to stop the locking arm from swinging out of the opening slot.
4. A hub machining auxiliary device according to claim 3, wherein: the second locking rod is slidably connected in the second guide groove, the second guide groove is formed in the overturning main body, one end of the second locking rod is connected with the second guide groove through a second reset spring, and the end face of the other end of the second locking rod is an inclined face.
5. A hub machining auxiliary device according to claim 3, wherein: the second locking rod is also connected with a limiting handle, the overturning main body is provided with a limiting groove, and the limiting handle penetrates through the limiting groove and can slide along the limiting groove.
6. The auxiliary device for hub machining according to claim 1, wherein: the inner wall of the accommodating cavity is provided with a plurality of nylon guard plates, and the nylon guard plates are used for propping against the outer wall of the hub.
7. The auxiliary device for hub machining according to claim 1, wherein: the driving shaft is connected with the operation panel, and the driving shaft is driven to rotate by the operation panel.
8. The auxiliary device for hub machining according to claim 7, wherein: the driving shaft is provided with a square hole, the middle part of the operating panel is connected with a square rod, and the square rod is inserted into the square hole.
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CN202211057280.0A CN115365865B (en) | 2022-08-30 | 2022-08-30 | Auxiliary device for hub machining |
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CN202211057280.0A CN115365865B (en) | 2022-08-30 | 2022-08-30 | Auxiliary device for hub machining |
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