TWM541926U - Vibrational grinding machine structure - Google Patents

Description

Vibration mill structure

The present invention relates to a vibrating mill structure, wherein the vibrating mill structure is provided with a rising group, and when the elevated group is raised, the first frame group is raised along the rising group thereof, the first The frame body will simultaneously drive the plurality of second body groups and the plurality of workpiece groups to rise, and the plurality of workpiece groups are raised and protruded from the body, and the user is more likely to set each workpiece group from each second. Remove from the frame set.

As previously known by us, the structure of the vibrating mill used in the past is the patent application filed by the creator, such as the Taiwan Patent Application No. 088215934, the patent name: the fixture for the vibrating mill, the structure of the patent is A jig for a vibrating mill, comprising: two fixing plates 2 having a predetermined shape, wherein the two fixing plates 2 are respectively provided with one or more fixing holes 21 at opposite positions; a rod 3, the rod The two ends are respectively disposed on the fixing holes 21 of the two fixing plates 2, the rods 3 maintain the two fixing plates 2 at a predetermined distance, and the rods 3 form a set of sections 32 between the two fixing plates 2; The spacer block 4 has an outer diameter larger than the rod 3, and the spacer block 4 has a through hole 41 which can be sleeved on the sleeve portion 32 of the rod 3, and the top surfaces of the spacer block 4 respectively form a top portion The face 42 is for inserting the workpiece 5 over the sleeve section 32 of the rod 3, and the top surface 42 of the adjacent spacer block 4 can be placed against one side of the workpiece 5.

However, the missing structure of this conventional vibrating mill is:

1. As shown in the fifth figure, the fixture can be ground and placed in the grinding tank 11 after the workpiece 5 is installed, but after the workpiece 5 is finished, the user needs to machine the plurality of workpieces 5 And the plurality of jigs are taken out from the grinding tank 11, and the plurality of workpieces 5 and the plurality of jigs may be partially immersed in the abrasive particles during the grinding, and the action of taking out is inconvenient, and the The shortcomings of the vibrating mill structure.

2. As shown in the fifth figure, basically, the grinding tank 11 is provided with a partition plate, so that the grinding tank 11 is divided into a plurality of grooves, and each workpiece and each fixture is disposed in each In the tank, each workpiece and each jig does not collide with each other during grinding. The grinding tank 11 is provided with a partition system which is complicated, and after the partition is provided, the grinding tank 11 is The plurality of grinding stones is limited by the range of movement of the partition.

In view of the lack of the structure of the above-mentioned conventional vibrating mill, the creator has been engaged in the manufacturing and design experience of related industries for many years, and finally has a product that can solve the drawbacks of the vibration grinder structure.

In the conventional structure, the plurality of workpieces and the complex number The vibration grinding machine structure of the present invention is provided with a lifting group, and the first frame group, the plurality of second frame groups and the plurality of workpiece groups are raised when the elevated group is raised. The system is raised, and the plurality of workpiece groups are exposed to the outside of the body, and each workpiece group is more easily removed from each of the second frame groups.

This creation is about a vibrating mill structure. The system includes: a body, the system is provided with a receiving groove, and a central portion of the receiving groove is convexly provided with a receiving portion a rising group, the elevated group is fixed at the accommodating portion, the elevated group includes a first seat body and a second seat body, and the first seat system is fixed to the body At a portion, the second system can be raised or lowered relative to the first body; a first frame group, the first frame group is combined with the elevated group, the first frame group And the second body of the elevated group rises or falls; the plurality of second body groups, the plurality of second body groups are combined with the first body group, and the first body group receives the When the high group is driven to rise or fall, the first body group also drives the second body group to simultaneously rise or fall; a plurality of workpiece groups, each workpiece group is accommodated in the cavity of the body, Each of the workpiece groups is assembled with each of the second frame groups, and each of the workpiece groups is raised or lowered with each of the second frame groups.

The elevated group has an elevated efficacy, the second seat The system is raised or lowered in the first body, and the second body is raised or lowered relative to the first body, and the first frame and the second frame are driven. The group and the plurality of workpiece groups simultaneously rise or fall within the range of the pocket, and the first frame group rises along the rising group along with the elevated group, the first frame The group will simultaneously drive the plurality of second body groups and the plurality of workpiece groups to rise, and the plurality of workpiece groups are raised and protruded outside the container to replace each workpiece group.

In order to enable the members of the Board and those skilled in the art to fully understand the effects of this creation, the structure and composition of the creation are described in conjunction with the drawings and drawings, but the following are only used to explain the implementation of this creation. For example, it is not intended to impose any form of restriction on this creation. Any modification made in the spirit of this creation should still fall within the scope of this creation.

10‧‧‧ Ontology

11‧‧‧ 容容

12‧‧‧ 容部

20‧‧‧height group

21‧‧‧First body

22‧‧‧Second body

30‧‧‧ Guide column

40‧‧‧First body group

41‧‧‧First body seat

42‧‧‧First body

421‧‧‧ First Joint Department

422‧‧‧Second junction

423‧‧‧ Guide

4231‧‧‧through slot

43‧‧‧Second body

431‧‧‧ Third Joint Department

432‧‧‧ Fourth Joint Department

4321‧‧‧First joint hole

50‧‧‧Second body group

51‧‧‧Second body

511‧‧‧Second junction hole

512‧‧‧ third junction hole

52‧‧‧ Third body

521‧‧‧ accommodating space

522‧‧‧4th joint hole

523‧‧‧First screwing

53‧‧‧Fourth body

531‧‧‧Second screw joint

54‧‧‧ screw fittings

60‧‧‧Workpieces

61‧‧‧Workpiece

611‧‧‧The first group

62‧‧‧First spacer block

621‧‧‧The second group

63‧‧‧First set of components

64‧‧‧Second set of components

65‧‧‧Second spacer

651‧‧‧The third group

652‧‧‧Perforation

The first figure is an exploded view of the structure of the vibrating mill.

The second figure is an exploded view of the first body set of the vibration grinding machine structure.

The third figure is an exploded view of the second body set and the workpiece set of the vibration grinding machine structure.

The fourth figure is an exploded view of the workpiece set of the vibration grinding machine.

The fifth figure is a three-dimensional combination diagram of the second body group and the workpiece group of the vibration grinding machine structure.

The sixth figure is a three-dimensional combination diagram of some components of the vibration grinding machine structure.

The seventh figure is a three-dimensional combination diagram of the structure of the vibration grinding machine.

The eighth figure is a perspective view of another operational state of the structure of the vibrating mill.

The ninth drawing is an exploded perspective view of the second body set and the workpiece set of the second embodiment of the present invention.

The tenth figure is an exploded perspective view of the workpiece set of the third embodiment of the present creation.

The eleventh figure is an exploded perspective view of the second body set and the workpiece set of the third embodiment of the present creation.

The twelfth figure is a three-dimensional combination diagram of the second body group and the workpiece group of the third embodiment of the present creation.

First, please refer to the first to sixth figures. The first picture is the exploded view of the structure of the vibrating grinding machine. The second picture is the exploded view of the first body set 40 of the vibrating grinding machine. The three figures are the three-dimensional exploded view of the second body set 50 and the workpiece set 60 of the present vibrating mill structure, and the fourth figure is the three-dimensional exploded view of the structural vibrating mill structure workpiece set 60, and the fifth figure is the creation of the vibration grinding The three-dimensional combination diagram of the second body group 50 and the workpiece group 60 of the machine structure, and the sixth figure is a three-dimensional combination diagram of some components of the structure of the vibration grinding machine of the present invention. The structure of the movable grinder includes a main body 10, and the main body 10 is provided with a receiving groove 11. The bottom of the groove of the receiving groove 11 is curved, and a receiving portion 12 is convexly disposed at the center of the receiving groove 11. The accommodating portion 12 is in the shape of a cylinder, and the accommodating portion 12 is in the shape of a round seat; and the elevated group 20 is fixed at the accommodating portion 12, the elevated group The first base body 21 is fixed to the accommodating portion 12 of the main body 10, and the first base body 21 is coupled to the second base body 22, and the second base body 22 is fixed to the accommodating portion 12 of the main body 10. The second base 22 is received in the first base 21, and the second base 22 is raised or lowered in the first base 21, and the first base 21 and The second block 22 is cylindrical, and the elevated group 20 can be a hydraulic cylinder structure; the plurality of guide posts 30 are cylindrical, and the guide post 30 is fixed on the In the accommodating portion 12, the plurality of guide columns 30 are arranged in a ring shape with the elevated group 20 as an axis, and the raised group 20 is wound; a first frame group 40, please supplement the second figure The first frame group 40 is assembled with the elevated group 20, and the first frame group 40 is The second body 22 of the elevated group 20 is raised or lowered. The first frame body 40 includes: a first frame body 41, a plurality of first frame bodies 42 and a second frame body 43; The frame body 41 is fixed on the second seat body 22 of the elevated group 20, and the first frame body 41 is simultaneously actuated as the second seat body 22 is raised or lowered. The body 41 is in the shape of a round seat; the plurality of first frames 42 are fixed to the first frame 41, and the plurality of first frames 42 are opposite to the axis of the raised group 20 and the first The frame body 41 is arranged in a ring shape, the first frame The first joint portion 421 is fixedly coupled to the first frame body 41 at one end of the body 42 , and the second frame 42 is disposed at the other end of the first frame 42 . The second joint portion 422 is away from the first joint portion 421. The first frame body 42 is convexly provided with a guide plate 423. Each guide plate 423 is opposite to each guide post 30. The guide plate 423 is The through-slot 4231 is disposed at the end of the guide plate 423. The through-hole 4231 is disposed on the guide post 30, so that the plurality of first frames 42 are sleeved. The number of the first frame bodies 42 is matched with the number of the guide columns 30 on the plurality of guide columns 30; the second frame body 43 is fixedly coupled with the plurality of first frame bodies 42, the second frame Each of the corner ends of the body seat 43 is provided with a third joint portion 431, and each of the third joint portions 431 is combined with the second joint portion 422 of each first frame body 42. The second frame body seat 43 A fourth joint portion 432 is disposed on each of the side surfaces, and a plurality of first joint holes 4321 are formed in the second end of each of the fourth joint portions 432. The first frame base 41 is driven by the elevated group 20 And when it rises or falls, The plurality of first frames 42 fixed to the first body frame 41 are driven by the first frame base 41 to be raised or lowered at the plurality of guide posts 30, and the plurality of first frames 42 The second frame body 43 fixed to the phase is also raised or lowered by the plurality of first frame bodies 42, that is, when the second body 22 of the elevated group 20 is in the first body 21 When raising or lowering, the first body group 40 is driven to rise or fall; the second body group 50 is supplemented by the third figure, and the second body group 50 is The first frame group 40 is combined, and when the first frame group 40 is driven to rise or fall by the elevated group 20, the first frame group 40 also drives the second frame group 50 to simultaneously rise. Or descending, each second body set 50 is coupled to each of the second frame seats 43 of the second frame set 40 At the fourth joint portion 432, the number of the second frame group 50 is matched with the number of the fourth joint portions 432, and each of the second frame groups 50 includes: two second frames 51 and two third frames. 52, the second frame body 53 and the plurality of screwing members 54; the second frame body 51 is coupled to the two ends of the fourth joint portion 432, the second frame body 51 is provided with a plurality of second joint holes 511, the second coupling hole 511 is opposite to the first coupling hole 4321, the number of the second coupling hole 511 is matched with the number of the first coupling hole 4321, and the second frame 51 is provided with a plurality of numbers at the center of the second frame 51. The third coupling hole 512 is formed in a circular groove shape; the third frame body 52 is combined with the second frame body 51, and the third frame body 52 is provided with an accommodating space 521. The accommodating space 521 is open, and a plurality of fourth coupling holes 522 are formed at one end of the accommodating space 521, and the fourth coupling hole 522 is opposite to the third coupling hole 512. The fourth coupling hole is opposite to the third coupling hole 512. The number of 522 is matched with the number of the third coupling holes 512. The fourth coupling hole 522 is formed in a circular groove shape, and the first space of the accommodating space 521 is provided with a plurality of first screwing portions 523. The third frame body 52 has a U-shaped cross section; the fourth frame body 53 has a rectangular bar shape, and the fourth frame body 53 is received in the accommodating space 521 of the third frame body 52. The second frame 53 is provided with a plurality of second screwing portions 531, the second screwing portions 531 are opposite to the first screwing portions 523, and the second screwing portions 531 are rounded. The screwing member 54 is sequentially threaded on the second screwing portion 531 and the accommodating space 521 and screwed with the first screwing portion 523. The screwing member 54 is externally threaded. The plurality of workpiece groups 60, as shown in the third and fourth figures, each of the workpiece sets 60 are accommodated in the pockets 11 of the body 10, each of the workpiece sets 60 and each second Frame group 50 phase For example, each workpiece group 60 is raised or lowered with each second frame group 50. The workpiece group 60 includes: a plurality of workpieces 61, a plurality of first spacer blocks 62, two first assembly members 63, and two a second assembly member 64; the plurality of workpieces 61 are assembled with the third frame body 52, and the plurality of workpieces 61 are linearly arranged with respect to the third frame body 52, and the two ends of the workpiece 61 are respectively disposed There is a first assembly portion 611, the first assembly portion 611 is formed in a circular groove shape, and the workpiece 61 can be each frame body on the bicycle; the plurality of first spacer blocks 62 are grouped with the plurality of workpieces 61. The first spacer block 62 is disposed at two ends of each of the two workpieces 61. The first spacer block 62 is provided with a second assembly portion 621, and the second assembly portion 621 is associated with the second spacer portion 62. The first grouping portion 611 is relatively straight, and the second grouping portion 621 is formed in a circular groove shape. The plurality of first spacer blocks 62 are received in the accommodating space 521, and the first spacer block 62 is rectangular. The first assembly unit 611 is disposed at the first assembly portion 611 of the plurality of workpieces 61 and the second assembly portion 621 of the plurality of first spacer blocks 62. The first group Set up 63 is externally threaded; the second assembly member 64 is disposed through the first assembly portion 611 of the plurality of workpieces 61 and the second assembly portion 621 of the plurality of first spacer blocks 62 and The two first assembly members 63 are assembled such that the plurality of workpieces 61 and the plurality of first spacer blocks 62 are assembled, and the second assembly member 64 is internally threaded; the second frame group 50 is The plurality of first spacers 62 of the workpiece set 60 are received in the accommodating space 521 of the third frame 52, and the plurality of screws are assembled. The member 54 is sequentially threaded to the second screwing portion 531 and the accommodating space 521 of the fourth frame body 53 and is screwed to the first screwing portion 521 of the third frame body 52. In the space The plurality of first spacer blocks 62 at the intermediate portion 521 are sandwiched between the third frame body 52 and the fourth frame body 53; the number of the guide posts 30 is five, and the number of the first frame bodies 42 There are five, the second frame seat 43 is in the shape of a pentagon, the number of the second frame group 50 is five groups, and the number of the workpiece groups 60 is five.

The first frame group 40, the plurality of second frame groups 50 and the plurality of workpiece groups 60 are assembled as shown in the sixth figure, and the sixth figure is a three-dimensional combination of some components of the structure of the vibration grinding machine. Figure.

Please refer to the seventh figure. The seventh figure is a three-dimensional combination diagram of the structure of the vibrating grinding machine. The lifting group 20 is fixed on the receiving portion 12 of the body 10, and the second seat 22 is The plurality of guide posts 30 are fixed on the accommodating portion 12, and the plurality of guide posts 30 are arranged in a ring shape with the elevated group 20 as an axis. The first frame group 40 is fixed to the elevated group 20, and the first frame group 40 is assembled with the plurality of columns 30, and the plurality of second frame groups 50 are associated with the first The frame group 40 is combined, and each of the workpiece groups 60 is disposed at the pocket 11 of the body 10. The workpiece group 60 is assembled with the second frame group 50. A plurality of grinding stones are provided, and the vibration mechanism of the body 10 vibrates the plurality of workpieces 61 in sufficient contact with the grinding stone, and the plurality of workpieces 61 are fixedly assembled on the second frame group 50, that is, the plurality of workpieces 61 The workpieces do not collide with each other during grinding to cause scratches, so that the workpiece 61 achieves a good grinding effect.

Please continue to refer to the eighth figure, which is a perspective view of another operational state of the vibrating mill structure of the present invention, as clearly shown by the illustration, when the second block 22 of the elevated group 20 is in the first When the body 21 rises or falls, the first body group 40 is driven, and the second body is second. The frame set 50 and the plurality of workpiece sets 60 rise or fall simultaneously with the range of the pockets 11 , and the first set of racks 40 follow the raised set 20 along with the elevated set 20 When the plurality of guide columns 30 are guided, the first frame set 40 simultaneously drives the plurality of second frame sets 50 and the plurality of workpiece sets 60 to rise, as shown in the eighth figure. After the workpiece group 60 is raised, it is exposed outside the pocket 11, that is, each workpiece group 60 is more easily removed from the second frame group 50 to replace each workpiece group 60.

Please refer to the ninth figure. The ninth figure is an exploded perspective view of the second body set 50 and the workpiece set 60 of the second embodiment of the present invention. The third frame 52 and the fourth frame 53 are integrated. A plurality of first screwing portions 523 are formed on the two sides of the accommodating space 521. The first screwing portion 523 is internally threaded. The first spacer block 62 is received in the accommodating space 521. The plurality of screwing members 54 are pressed against the side of the first spacer block 62 to assemble the workpiece group 60 on the second frame group 50.

Referring to the tenth to twelfth drawings, the tenth drawing is an exploded perspective view of the workpiece set 60 of the third embodiment of the present creation, and the eleventh drawing is the second embodiment of the second body set 50 and the workpiece of the third embodiment. The three-dimensional exploded view of the group 60, the twelfth figure is a three-dimensional combination diagram of the second body set 50 and the workpiece set 60 of the third embodiment of the present creation, the third frame body 52 of the second frame set 50 and the first The four spacers 53 are integrally formed, and are provided with four second spacers 65. The second spacers 65 are longer than the first spacers 62, and the second spacers 65 are accommodated in the capacity. The second spacer block 65 is disposed at the top end of the workpiece 61 at the top end and at the bottom end of the bottom surface of the workpiece 61. The second spacer block 65 is disposed at the top end. A third assembly portion 651 is provided. The third assembly portion 651 is opposite to the first assembly portion 611 and the second assembly portion 621. The third assembly portion 651 is axially penetrated. The first assembly 63 is sequentially disposed in the third assembly portion 651 and the first assembly portion 611. And the second assembly portion 621 is sequentially disposed in the third assembly portion 651, the first assembly portion 611, and the second assembly portion 621, and the first assembly portion 621 A set of members 63 are screwed together, and the second spacer block 65 is provided with a through hole 652 which is away from the third assembly portion 651. The through hole 652 is opposite to the first screw portion 523. The through hole 652 is inserted into the groove of the first screwing portion 523 and the second spacer block 65 and is connected to the other first screw. The joint portion 523 is screwed so that the workpiece group 60 and the second frame group 50 are assembled without being disengaged.

The first joint hole 4321 and the second joint hole 511 of the second frame base 42 are provided with a screw phase assembly. Similarly, the third joint hole 512 and the fourth joint hole 522 are provided with a screw phase. Set up.

The advantages of the creation of the vibrating mill structure are:

1. The elevated group 20 has a lifting effect, the second seat 22 is raised or lowered in the first seat body 21, and the second seat 22 of the elevated group 20 is in the first seat When the body 21 is raised or lowered, the first frame group 40, the plurality of second frame groups 50, and the plurality of workpiece groups 60 are simultaneously raised or lowered within the range of the container 11 When the high group 20 is raised, the first body group 40 is raised along with the elevated group 20, and the first frame group 40 simultaneously drives the plurality of second frame groups 50 and the plurality of workpiece groups 60. When the plurality of workpiece groups 60 are raised, they are exposed outside the housing 11, and the user can easily remove each workpiece group 60 from the second frame group 50 to replace each workpiece group 60.

2. The cavity 11 is provided with a plurality of grinding stones. The vibration mechanism of the body 10 vibrates the plurality of workpieces 61 in contact with the grinding stone. The plurality of workpieces 61 are fixedly disposed in the second frame group. On the 50th, the plurality of workpieces 61 do not collide with each other during polishing to cause scratches and achieve good research. Grinding effect.

The plurality of first spacers 62 of the workpiece set 60 are received in the accommodating space 521 of the third frame 52. The plurality of screwing members 54 are sequentially disposed on the fourth frame 53. The second screwing portion 531 and the accommodating space 521 are screwed into the first screwing portion 521 of the third frame body 52, and the workpiece group 60 is accommodated in the accommodating space 521. The plurality of first spacer blocks 62 are sandwiched between the third frame body 52 and the third frame body 53 such that the workpiece group 60 cannot be disengaged from the second frame group 50.

Therefore, the vibration grinding machine structure of this creation has industrial utilization, novelty and progressiveness, and can meet the application requirements of the new patent, and apply in accordance with the law.

10‧‧‧ Ontology

11‧‧‧ 容容

12‧‧‧ 容部

20‧‧‧height group

21‧‧‧First body

22‧‧‧Second body

30‧‧‧ Guide column

40‧‧‧First body group

41‧‧‧First body seat

42‧‧‧First body

43‧‧‧Second body

50‧‧‧Second body group

60‧‧‧Workpieces

Claims (13)

A vibration grinder structure includes: a body, the system is provided with a receiving groove, and a receiving portion is convexly disposed at a center of the receiving groove; and a rising group is fixed to the receiving portion In the department, the elevated group includes a first seat body and a second seat body, the first seat system is fixed at the receiving portion of the body, and the second seat system is raised relative to the first seat body Or descending; a first body group, the first body group being grouped with the elevated group, the first body group rising or falling with the second body of the elevated group; In the two body group, the plurality of second body groups are combined with the first body group, and when the first body group is driven or raised by the elevated group, the first body group is simultaneously Driving the second frame group to rise or fall simultaneously; a plurality of workpiece groups, each workpiece group is accommodated in the cavity of the body, and each workpiece group is assembled with each second frame group, each A workpiece set rises or falls with each second frame set. The vibration grinder structure according to claim 1, wherein the groove bottom of the cuvette has a curved shape, and the receiving portion has a cylindrical shape or the receiving portion has a rounded shape. The vibration grinder structure of claim 1, wherein the second seat system is accommodated in the first seat body, and the second seat system is raised or lowered in the first seat body, the first seat body And the second system is cylindrical, and the elevated group can be a hydraulic cylinder structure. The vibrating mill structure of claim 1, wherein a plurality of guide columns are provided, the guide columns are cylindrical, and the guide columns are fixed on the receiving portion, and the plurality of guide columns are connected by the rise The high group is arranged in a ring shape and is surrounded by the elevated group; the first frame body comprises: a first frame body, a plurality of first frame bodies and a second frame body; the first frame body The seat is fixed in the second seat of the elevated group The first frame system is simultaneously moved up or down with the second body, the first frame is in a round shape; the first first system and the first frame The first phase of the first frame is arranged in an annular shape with respect to the axis of the elevated group and the first frame, and the first frame is provided with a first joint at one end, the first combination The second frame is fixedly disposed at the other end of the first frame, and the second frame is disposed at a distance from the first joint portion; the second frame portion is away from the first joint portion; Attaching to the plurality of first body bodies, the second frame base is provided with a third joint portion, and each of the third joint portions is combined with the second joint portion of each first frame body, The second frame base is provided with a fourth joint portion; the first frame system is fixed to the first frame body when the first frame body is raised or lowered by the elevated group And being driven by the first body frame to rise or fall at the plurality of guide posts, and the second frame seat fixed to the plurality of first frame bodies is also driven by the plurality of first frame bodies Increased or decreased, i.e., when the rise of the second group to the first base body when the seat body to rise or fall, the system will drive the first set of frame body therewith raised or lowered. The vibration grinder structure of claim 4, wherein the first frame system is convexly provided with a guide plate, each guide plate is opposite to each guide post, and the guide plate is disposed adjacent to the second joint portion. Wherein, the end of the guide plate is provided with a slot, the through slot is disposed on the guide post, so that the plurality of first frame systems are sleeved on the plurality of guide columns, and the number of the first frame is Match the number of guide columns. The vibration grinder structure of claim 4, wherein each of the corner ends of the second frame base is provided with a third joint portion, and each of the second frame seats is provided with a fourth joint portion. The vibration grinder structure of claim 1, wherein each second frame body comprises: two second frame bodies, two second frame bodies, two fourth frame bodies, and a plurality of screwing members; The rack system is coupled to the first body group; the third frame system is combined with the second frame body, and the third frame system is provided with an accommodating space, and the accommodating space is open, and the accommodating space is One side is provided with a plurality of first snails The fourth system is in the shape of a rectangular bar, and the fourth system is disposed in the accommodating space of the third frame, and the second frame is provided with a plurality of second screwing portions. The second screwing portion is opposite to the first screwing portion; the screwing member is sequentially disposed at the second screwing portion and the receiving space and is snailed with the first screwing portion Hehe. The vibrating mill structure of claim 7, wherein a plurality of third coupling holes are formed in the center of the second frame, and the third coupling holes are in a circular groove shape; a plurality of fourth bonding holes are formed, the fourth bonding holes are opposite to the third bonding holes, and the number of the fourth bonding holes is matched with the number of the third bonding holes, and the fourth bonding holes are circularly through shape. The vibrating mill structure of claim 1, wherein the workpiece group comprises: a plurality of workpieces; the plurality of workpieces are grouped with the second frame group, and the plurality of workpieces are opposite to the second frame group Arranged in a straight line. The vibration grinder structure of claim 7, wherein the workpiece set comprises: a plurality of workpieces, a plurality of first spacer blocks, two first assembly members, and two second assembly members; the plurality of workpieces and the first The three body segments are arranged in a straight line with respect to the third frame system, and each of the two ends of the workpiece is provided with a first grouping portion, and the first grouping portion is rounded and grooved. The workpiece can be each frame on the bicycle; the plurality of first spacer blocks are assembled with the plurality of workpieces, and the first spacer block is disposed at two ends of each of the two workpieces, the first The spacer block is provided with a second assembly portion, the second assembly portion is opposite to the first assembly portion, and the second assembly portion is formed in a circular groove shape, and the plurality of first spacer blocks are accommodated In the accommodating space, the first spacer block has a rectangular block shape; the two first assembly members are disposed through the first assembly portion of the plurality of workpieces and the plurality of first spacer blocks The second set of parts is externally threaded; the second set of parts is threaded through the first set of the plurality of workpieces And the second set of the plurality of first spacer blocks And the plurality of first workpieces are assembled to form the plurality of workpieces and the plurality of first spacer blocks, wherein the second assembly is internally threaded; the plural of the workpiece group is first The spacer block is disposed in the accommodating space of the third frame body, and the plurality of screwing members are sequentially disposed on the second screwing portion of the fourth frame body and the accommodating space and the The first screwing portion of the three-frame body is screwed, and the plurality of first spacer blocks accommodated in the accommodating space are sandwiched between the third frame body and the fourth frame body. The vibration grinder structure of claim 5, wherein the number of the guide posts is five, the number of the first frame is five, and the second frame is in the shape of a pentagon. The number of the second body groups is five, and the number of the workpiece groups is five. The vibration grinder structure of claim 10, wherein the third frame body and the fourth frame system are integrally formed, and the first side of the accommodating space is provided with a plurality of first screwing portions, the first snail The joint portion is internally threaded, and after the first spacer block is received in the accommodating space, the plurality of screwing members are pressed against the side of the first spacer block, so that the workpiece group is assembled in the first portion On the two body groups. The vibration grinder structure of claim 10, wherein four second spacer blocks are provided, the second spacer block having a longer length than the first spacer block, and the second spacer block is received in the second spacer block In the accommodating space, the second spacer block is disposed at the top end of the workpiece at the top end and at the bottom end of the workpiece at the bottom end of the workpiece, the second spacer block is provided with a third An assembly unit, the third assembly portion is opposite to the first assembly portion and the second assembly portion, and the third assembly portion is axially penetrating, the first assembly member The second assembly unit is sequentially disposed in the third assembly portion, the first assembly portion, and the second assembly portion, and the second assembly member is sequentially disposed in the third assembly portion, the first The assembly portion and the second assembly portion are screwed with the first assembly member, and the second spacer block is provided with a through hole, and the through hole is away from the third assembly portion, and the perforation can be combined with The first screwing portion is relatively positive, The through hole is formed in a transversely penetrating shape, and the screwing member is sequentially threaded through the through hole of the first screwing portion and the second spacer block and screwed with the other first screwing portion. The workpiece set is assembled with the second frame set without being disengaged.