CN211991762U - Two-way promotion formula circle mechanism of piecing together - Google Patents

Abstract

A bidirectional pushing type circle splicing mechanism comprises a fixed mounting frame, a forming column, a sliding device, a hinge assembly and a driving device. The sliding device comprises guide rails symmetrically arranged on the fixed mounting frame, sliding blocks respectively arranged on the guide rails, and guide plates arranged on the sliding blocks. Each guide plate comprises a main body and two guide grooves, and the distance between one end of each guide groove close to the driving device and one end of each guide groove close to the hinge assembly is gradually increased. Each of the hinge assemblies includes a hinge assembly body, a coil receiving groove, and a guide rod. One end of each driving device is fixedly connected with one guide plate, so that the hinge assembly is driven to move and is enclosed on the forming column, and the coils on the hinge assembly are formed in a circle. This circle mechanism is pieced together to two-way promotion formula easy operation has reduced workman's intensity of labour, has promoted production efficiency and product quality.

Description

Two-way promotion formula circle mechanism of piecing together

Technical Field

The utility model belongs to the technical field of piece together circle tool equipment, especially a circle mechanism is pieced together to two-way promotion formula.

Background

The jig is an auxiliary device which is manufactured specifically for solving practical problems or realizing a certain function, and is mainly used in industrial production as a tool for assisting in controlling positions or actions so as to pre-position a plurality of workpieces which need positioning, mounting, dispensing, welding or pasting operations.

Currently, in the manufacturing process, a plurality of coils need to be enclosed in a circular shape. However, the coil is mainly assembled in a manual mode in the current market, and the coil is manually assembled by a large number of workers, so that the production cost is high, the assembly efficiency is low, and the industrial requirements of the modern society cannot be met.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a can be with improving production efficiency's two-way promotion formula circle mechanism of piecing together to satisfy the industrial demand.

The utility model provides a two-way promotion formula circle mechanism of piecing together includes a fixed mounting bracket, one sets up shaping post on the fixed mounting bracket, one sets up slider on the fixed mounting bracket, two settings are in slider is last and be used for the hinge subassembly of holding coil, and two fixed connection be in fixed mounting bracket both ends and connect slider's drive arrangement. The sliding device comprises two guide rails symmetrically arranged on the fixed mounting frame, four sliding blocks respectively arranged on the guide rails, and two guide plates arranged on the sliding blocks. Every two the slider is a set of, every guide plate all sets up on a set of the slider. Each guide plate comprises a main body and two guide grooves symmetrically arranged on the main body, and the distance between one end, close to the driving device, of each guide groove and one end, close to the hinge assembly, of each guide groove is gradually increased. The two hinge assemblies are symmetrically arranged on two sides of the forming column. Each of the hinge assemblies includes a hinge assembly body, a plurality of coil receiving grooves provided on the hinge assembly body, and two guide rods respectively provided at both ends of the hinge assembly body. The two guide rods are respectively inserted into the guide grooves of the two guide plates. One end of each driving device is fixedly connected with one guide plate, so that the hinge assembly is driven to move and is enclosed on the forming column, and the coils on the hinge assembly are formed in a circle.

Further, the fixed mounting frame comprises a first fixed mounting frame, a second fixed mounting frame arranged on the first fixed mounting frame, and two limiting plates arranged on the second fixed mounting frame.

Further, the forming column is fixedly connected to the second fixing and mounting frame, and the extending directions of the two limiting plates are the same as the moving direction of the sliding device.

Further, the hinge assembly main body includes a plurality of hinge blocks, and a plurality of rotation shafts disposed between the hinge blocks.

Furthermore, each hinge block comprises a connecting piece and a coil accommodating piece fixedly connected to the connecting piece, the coil accommodating groove is formed in the coil accommodating piece, and the side face, facing one side of the forming column, of the connecting piece is arc-shaped.

Further, on a section perpendicular to the symmetry axis of the hinge blocks, the outer contour of each hinge block is shaped like an isosceles trapezoid.

Further, every drive arrangement all includes a fixed connection cylinder on the first fixed mounting frame, one sets up on the cylinder and one end is connected the actuating lever of guide board.

Compared with the prior art, the utility model provides a two-way promotion formula circle mechanism of piecing together passes through drive arrangement drives slider removes, makes the setting and is in slider is last the hinge subassembly encloses to close on the shaping post. The guide plate of the sliding device is driven by the sliding block and the guide rail to move. Each guide plate all includes a main part, two symmetries set up the guiding groove on the main part. The hinge assembly includes a hinge assembly body, a plurality of coil receiving grooves provided on the hinge assembly body and receiving coils, and two guide rods respectively provided at both ends of the hinge assembly body. Each guide rod is respectively inserted into the guide grooves of the two guide plates, the distance between one end, close to the driving device, of each guide groove and one end, close to the hinge assembly, of each guide groove is gradually increased, when the guide plates drive the hinge assemblies to be close to the forming columns, the two hinge assemblies slide along the guide grooves and are close to each other, and when the two guide plates drive the two ends of the hinge assemblies to be close to each other, the two hinge assemblies symmetrically surround the forming columns, so that the coils on the hinge assemblies are also formed in a circle-splicing mode. This circle mechanism is pieced together to two-way promotion formula easy operation has reduced workman's intensity of labour, has promoted production efficiency and product quality.

Drawings

Fig. 1 is the utility model provides a two-way promotion formula piece together the structural schematic diagram of circle mechanism.

Fig. 2 is an exploded structural schematic view of the bidirectional pushing type circle splicing mechanism of fig. 1.

Fig. 3 is a schematic structural diagram of a hinge assembly in the bidirectional pushing rounding mechanism of fig. 1.

Detailed Description

Specific examples of the present invention will be described in further detail below. It should be understood that the description herein of embodiments of the invention is not intended to limit the scope of the invention.

As shown in fig. 1 to fig. 3, it is a schematic structural diagram of the bidirectional pushing type circle splicing mechanism provided by the present invention. The bidirectional pushing type circle splicing mechanism comprises a fixed mounting frame 10, a forming column 20 arranged on the fixed mounting frame 10, a sliding device 30 arranged on the fixed mounting frame 10, two hinge assemblies 40 arranged on the sliding device 30 and used for containing coils 1, and two driving devices 50 fixedly connected to two ends of the fixed mounting frame 10 and connected with the sliding device 30. The bidirectional pushing rounding mechanism further includes other functional modules, such as assembly components, etc., which are well known to those skilled in the art, and will not be described in detail herein.

The fixed mounting frame 10 comprises a first fixed mounting frame 11, a second fixed mounting frame 12 arranged on the first fixed mounting frame 11, and two limiting plates 13 arranged on the second fixed mounting frame 12. The second fixed mounting frame 12 includes a second fixed mounting frame body 121, and two mounting holes 122 symmetrically disposed on the second fixed mounting frame body 121. The mounting holes 122 are used to mount the hinge assembly 40, which will be described in connection with the hinge assembly 40. The first and second fixed mounts 11 and 12 integrally connect the forming post 20, the sliding device 30, the hinge assembly 40, and the first and second fixed mounts 11 and 12 are prior art. The forming post 20 is fixedly connected to the second fixed mounting frame 12, and the extending direction of the two limiting plates 13 is the same as the moving direction of the sliding device 30.

The forming column 20 is used for enabling the hinge assembly 40 to be attached to the outer side wall of the forming column 20, so that the coil 1 on the hinge assembly 40 is formed in a circle.

The sliding device 30 includes two guide rails 31 symmetrically disposed on the fixed mounting frame 10, four sliding blocks 32 respectively disposed on the guide rails, and two guide plates 33 disposed on the sliding blocks. Every two the slider 32 is a set, and each guide plate 33 all sets up on a set of the slider 32, guide plate 33 is in the slider 32 drives down along the guide rail 31 removes.

Each of the guiding plates 33 includes a main body 331, two guiding slots 332 symmetrically disposed on the main body 331, and a distance between one end of the two guiding slots 332 close to the driving device 40 and one end of the two guiding slots 332 close to the hinge assembly 40 is gradually increased, so that when the guiding plate 33 drives the hinge assembly 40 close to the forming post 20, the two hinge assemblies 40 slide along the guiding slots 332, and the two hinge assemblies 40 are close to each other, so that two ends of the two hinge assemblies 40 abut against each other. When the guide plate 33 is far away from one end of the forming post 20, the two ends of the hinge assemblies 40 are far away from each other, one side of each hinge assembly 40 is abutted against one limiting plate 13, so that the hinge assemblies 40 are stable in position, and the two hinge assemblies 40 are parallel to each other.

Each of the hinge assemblies 40 includes a hinge assembly body 41, a plurality of coil receiving grooves 42 provided on the hinge assembly body 41 for receiving the coil 1, two guide rods 43 respectively provided at both ends of the hinge assembly body 41, and a mounting shaft 44 provided on the hinge assembly body 41. The two hinge assemblies 40 are symmetrically arranged at two sides of the forming column 20.

The hinge assembly main body 41 includes a plurality of hinge blocks 411, and a plurality of rotation shafts 412 provided between the hinge blocks 411. Any two adjacent hinge blocks 411 are connected through the rotating shaft 412, and each hinge block 411 can rotate around the rotating shaft 412. In a cross section perpendicular to the symmetry axis of the hinge blocks 411, the outer contour of each hinge block 411 is shaped like an isosceles trapezoid, and the hinge blocks 411 can be attached together. Each hinge block 411 includes a connecting member 4111, and a coil receiving member 4112 fixedly connected to the connecting member 4111. The coil receiving groove 42 is provided on the coil receiving member 4112. The side of the connecting member 4111 facing the forming post 20 is curved so that the hinge block 411 can fit on the forming post 20.

The two guide rods 43 are respectively inserted into the guide grooves 332 of the two guide plates 33, two ends of each hinge assembly 40 are connected to different guide plates 33, one side of each guide plate 33 is connected to one driving device 50, and the two guide plates 33 drive two ends of each hinge assembly 40 to approach or separate from each other under the driving of the driving device 50 by the guide plates 33. When the two guide plates 33 bring the two ends of the hinge assembly 40 close to each other, the two hinge assemblies 40 symmetrically enclose the forming post 20.

The mounting shaft 44 is inserted into one of the mounting holes 122, thereby stabilizing the position of the hinge assembly main body 41 on the second fixed mounting frame 12. And the central axis of the mounting shaft 44 coincides with the symmetry axis of the hinge assembly main body 41, and both ends of the hinge assembly main body 41 can rotate around the mounting shaft 44, so that both ends of the hinge assembly main body 41 surround the molding column 20.

Each driving device 50 includes a cylinder 51 fixedly connected to the first fixing frame 11, and a driving rod 52 disposed on the cylinder 51 and having one end connected to the guide plate 33. One end of each driving device 50 is fixedly connected with one guide plate 33, so that the hinge assembly 40 is driven to move and enclose on the forming column 20, and the coils 1 on the hinge assembly 40 are formed in a circle. The cylinder 51 guides the driving rod 52 to perform linear reciprocating motion in the cylinder, and the cylinder 51 and the driving rod 52 are both a conventional technology and are not described in detail.

Compared with the prior art, the utility model provides a two-way promotion formula circle-piecing mechanism passes through drive arrangement 50 drives slider 30 removes, makes the setting be in slider 30 is last hinge subassembly 40 encloses to close on the shaping post 20. The guide plate 33 of the sliding device 30 is moved by the slider 32 and the guide rail 31. Each of the guide plates 33 includes a main body 331, and two guide slots 332 symmetrically disposed on the main body 331. The hinge assembly 40 includes a hinge assembly body 41, a plurality of coil receiving grooves 42 provided on the hinge assembly body 41 for receiving the coils 1, and two guide rods 43 respectively provided at both ends of the hinge assembly body 41. Each guide rod 43 is respectively inserted into the guide grooves 332 of the two guide plates 33, and the distance from one end of each of the two guide grooves 332 close to the driving device 40 to one end of each of the two guide plates close to the hinge assembly 40 is gradually increased, when the guide plates 33 drive the hinge assemblies 40 to be close to the forming posts 20, the two hinge assemblies 40 slide along the guide grooves 332, and the two hinge assemblies 40 are close to each other, when the two guide plates 33 drive the two ends of the hinge assemblies 40 to be close to each other, the two hinge assemblies 40 symmetrically surround the forming posts 20, and therefore the coils 1 on the hinge assemblies 40 are also formed in a circle. This circle mechanism is pieced together to two-way promotion formula easy operation has reduced workman's intensity of labour, has promoted production efficiency and product quality.

The above description is only for the preferred embodiment of the present invention and should not be construed as limiting the scope of the present invention, and any modification, equivalent replacement or improvement within the spirit of the present invention is encompassed by the claims of the present invention.

Claims (9)

1. The utility model provides a circle mechanism is pieced together to two-way promotion formula which characterized in that: the bidirectional pushing type circle splicing mechanism comprises a fixed mounting frame, a forming column arranged on the fixed mounting frame, a sliding device arranged on the fixed mounting frame, two hinge assemblies arranged on the sliding device and used for accommodating coils, and two driving devices fixedly connected to two ends of the fixed mounting frame and connected with the sliding device, wherein the sliding device comprises two guide rails symmetrically arranged on the fixed mounting frame, four sliding blocks respectively arranged on the guide rails, and two guide plates arranged on the sliding blocks, each two sliding blocks are in one group, each guide plate is arranged on one group of the sliding blocks, each guide plate comprises a main body, two hinge assemblies symmetrically arranged on the main body, and the distance from one end of each guide groove close to the driving device to the other end of each guide groove close to the driving device is gradually increased, the two hinge assemblies are symmetrically arranged on two sides of the forming column, each hinge assembly comprises a hinge assembly main body, a plurality of coil accommodating grooves formed in the hinge assembly main body and two guide rods arranged at two ends of the hinge assembly main body respectively, the two guide rods are inserted into the guide grooves of the two guide plates respectively, and one end of each driving device is fixedly connected with one guide plate, so that the hinge assemblies are driven to move and enclose the forming column, and the coils on the hinge assemblies are formed in a circle splicing mode.

2. The two-way push-type rounding mechanism of claim 1, characterized in that: the fixed mounting frame comprises a first fixed mounting frame, a second fixed mounting frame arranged on the first fixed mounting frame, and two limiting plates arranged on the second fixed mounting frame.

3. The two-way push-type rounding mechanism of claim 2, characterized in that: the forming column is fixedly connected to the second fixed mounting frame, and the extending directions of the two limiting plates are the same as the moving direction of the sliding device.

4. The two-way push-type rounding mechanism of claim 2, characterized in that: the second fixed mounting frame comprises a second fixed mounting frame main body and two mounting holes symmetrically arranged on the second fixed mounting frame main body.

5. The two-way push-type rounding mechanism of claim 4, characterized in that: each hinge assembly further comprises a mounting shaft arranged on the hinge assembly main body, the central axis of the mounting shaft is overlapped with the symmetry axis of the hinge assembly main body, and the mounting shaft is inserted into one mounting hole.

6. The two-way push-type rounding mechanism of claim 1, characterized in that: the hinge assembly main body includes a plurality of hinge blocks, and a plurality of rotation shafts disposed between the hinge blocks.

7. The two-way push-type rounding mechanism of claim 6, characterized in that: each hinge block comprises a connecting piece and a coil accommodating piece fixedly connected to the connecting piece, the coil accommodating groove is formed in the coil accommodating piece, and the side face, facing one side of the forming column, of the connecting piece is arc-shaped.

8. The two-way push-type rounding mechanism of claim 6, characterized in that: on a section perpendicular to the symmetry axis of the hinge blocks, the outer contour of each hinge block is shaped like an isosceles trapezoid.

9. The two-way push-type rounding mechanism of claim 2, characterized in that: every drive arrangement all includes a fixed connection cylinder on the first fixed mounting frame, one sets up on the cylinder and one end is connected the actuating lever of guide board.

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