CN211467529U - Multi-dimensional product assembling jig - Google Patents

Abstract

The utility model discloses a multi-dimensional product assembling jig, which comprises a positioning module, a left and a right push block modules and a lifting module, wherein the positioning module is provided with a positioning template, the positioning template is provided with a central through hole and a pair of push block abdicating holes positioned at the left and the right sides of the central through hole; the left and right push block modules are provided with a pair of push blocks which can be far away from each other or close to each other, and the pair of push blocks are matched in the pair of push block yielding holes in a one-to-one mode; the lifting module is provided with a profiling block, and the profiling block is positioned in the central through hole. Equipment tool, relate to about push block module about displacement, the upper and lower displacement of lift module, under the motion of a plurality of dimensions, cooperation workman's manual operation accomplishes the assembly of shelling and camera main part. Compare in full automatization rigging equipment, equipment tool belong to semi-automatization equipment, low cost compares in manual assembly shelling and camera main part, the utility model discloses obvious high efficiency has.

Description

Multi-dimensional product assembling jig

Technical Field

The utility model relates to an equipment of product.

Background

The rubber shell is called housing, generally in the wire-to-board connector, the rubber shell is classified into a plurality of classes, such as 1.0 MM, 1.25 MM, 2.0 MM, 2.5 MM, 2.54 MM, 3.0 MM, 3.96 MM, 4.2 MM, 5.08 MM and 6.35MM, the TXGA rubber shell is various in types, and is matched with a pin seat, a terminal and a wire harness.

The plastic shell, also referred to as the housing, is the outer shell of the connector and provides mechanical protection for the built-in insulated mounting plates and pins and provides alignment for the plug and socket when mated, thereby securing the connector to the device.

Referring to fig. 1, before the camera head part at the center of the camera is assembled to the camera body 60, a plastic shell needs to be installed in an installation hole 61 at the center of the camera body, and then the camera head part is matched with the plastic shell in an insertion manner, so that the shell removal plays a role in positioning and protecting the camera head part.

Wherein, the left and right sides of the installation hole site 61 of camera main part 60 central point puts is equipped with grip block 62, and the grip block part stretches into the installation hole site, and the part that the grip block did not stretch into the installation hole site is equipped with recess 63, and the workman can stretch into the recess by hand, stirs the grip block, makes the part that stretches into the installation hole site withdraw from the installation hole site, and the workman releases the grip block, and under the effect of elastic component, the grip block resets, and the former part that stretches into the installation hole site stretches into again in the installation hole site. Before the rubber case is assembled into the mounting hole site, the pair of clamping blocks are required to be far away from each other; after the rubber shell is assembled into the mounting hole position, the clamping blocks are mutually closed to clamp the rubber shell.

SUMMERY OF THE UTILITY MODEL

The utility model solves the technical problem that: and the installation of the rubber shell and the camera main body is completed manually by utilizing the mechanical jig.

In order to solve the technical problem, the utility model provides a following technical scheme: a multi-dimensional product assembling jig comprises a positioning module, a left push block module, a right push block module and a lifting module, wherein the positioning module is provided with a positioning template, and the positioning template is provided with a central through hole and a pair of push block abdicating holes positioned on the left side and the right side of the central through hole; the left and right push block modules are provided with a pair of push blocks which can be far away from each other or close to each other, and the pair of push blocks are matched in the pair of push block yielding holes in a one-to-one mode; the lifting module is provided with a profiling block, and the profiling block is positioned in the central through hole.

According to the technical scheme, the camera main body is positioned on the positioning template, the central through hole of the positioning template is vertically aligned with the profiling block, and the pair of clamping blocks on the camera main body is vertically aligned with the pair of pushing blocks. Then, the pair of push blocks rises, and the top ends of the push blocks are inserted into the grooves of the clamping blocks; thereafter, the pair of pushing blocks are moved away from each other, driving the pair of gripping blocks away from each other. Then, the profile modeling piece of lifting module rises along central through-hole, and the workman will glue the shell cooperation on the profile modeling piece, and the profile modeling piece takes the shell of glue to descend, and it is downthehole that the shell of glue is taken to central through-hole. Then, the pair of push blocks reset, namely are mutually closed, the pair of clamping blocks are driven to reset, namely are mutually closed, and the pair of clamping blocks clamp the rubber shell leftwards and rightwards. Thereafter, the worker can take the camera body fitted with the hulling out from the positioning jig.

Equipment tool, relate to about push block module about, displacement relates to the upper and lower displacement of lift module, constitutes the motion of a plurality of dimensions, under the motion of a plurality of dimensions, cooperation workman's manual operation accomplishes the assembly of shelling and camera main part. Compare in full automatization rigging equipment, equipment tool belong to semi-automatization equipment, low cost compares in manual assembly shelling and camera main part, the utility model discloses obvious high efficiency has.

Drawings

The invention will be further explained with reference to the drawings:

fig. 1 is a schematic view of a camera body 60;

FIG. 2 is a schematic view of a multi-dimensional product assembly fixture;

fig. 3 is a schematic diagram of the electrical control cabinet 41 and the housing 42 in fig. 2 after being hidden;

FIG. 4 is a schematic view of the product assembly jig of FIG. 3 viewed from below;

fig. 5 is a schematic view of the lifting module 30;

fig. 6 is a schematic view of the left and right push block modules 20.

The symbols in the drawings illustrate that:

10. a positioning module; 11. positioning a template; 12. a rotary compacting cylinder; 13. a limiting structure;

20. a left and right push block module; 21. a push block; 22. a first lifting cylinder; 23. a clamping jaw cylinder; 24. a first bracket; 25. a connecting plate;

30. a lifting module; 31. a contour block; 32. a second lifting cylinder;

40. a frame plate; 41. the electric control cabinet is arranged below the rack flat plate; 42. a housing covering the rotary compressing cylinder;

51. a first sensor; 52. a second sensor;

60. a camera body; 61. mounting hole sites; 62. a clamping block; 63. a groove; 64. and a clamping block part extending into the mounting hole.

Detailed Description

Referring to fig. 2 to 4, a multi-dimensional product assembling jig includes a positioning module 10, a left and right push block module 20, and a lifting module 30.

As shown in fig. 3, the positioning module 10 is provided with a positioning template 11, the positioning template is provided with a central through hole and a pair of pushing block abdicating holes located at the left and right sides of the central through hole; the left and right push block modules are provided with a pair of push blocks 21 which can be far away from each other or close to each other, and the pair of push blocks are matched in the pair of push block yielding holes in a one-to-one mode; the lifting module is provided with a profiling block 31 which is positioned in the central through hole.

The camera body 60 is positioned on the positioning template 11, the central through hole of the positioning template 11 is aligned with the copying block 31 up and down, and the pair of holding blocks 62 on the camera body is aligned with the pair of pushing blocks 21 up and down. Thereafter, the pair of push blocks are raised, and the tips of the push blocks are inserted into the grooves 63 of the grip block. Under the driving of the left and right push block modules 20, the pair of push blocks 21 are far away from each other, the pair of clamping blocks 62 are driven to be far away from each other, and the clamping block part originally extending into the camera main body mounting hole 61 exits from the mounting hole position, so that conditions are provided for the matching of the profiling block 31 and the rubber shell into the mounting hole position 61. Then, under the drive of the lifting module 30, the shape-imitating block 31 rises along the central through hole, a worker fits the rubber shell on the shape-imitating block, specifically, the shell is sleeved on the shape-imitating block 31, and the inserting structure of the shell is fitted with the inserting hole of the shape-imitating block, so that the accurate positioning of the rubber shell is realized. Then, driven by the lifting module 30, the copying block 31 lowers with the rubber case, and the rubber case is brought into the mounting hole 61. Under the driving of the left and right push block modules 20, the pair of push blocks 21 are reset, i.e. drawn close to each other, and the pair of clamping blocks 62 are driven to reset, i.e. drawn close to each other, and the pair of clamping blocks partially extend into the mounting hole sites 61 to clamp the rubber case left and right. The worker can remove the camera body 60 fitted with the hulling from the positioning jig 11.

The positioning template 11 is arranged on a frame flat plate 40, and a through hole which is vertically aligned with the central through hole and the pushing block abdicating hole is formed in the frame flat plate; as shown in fig. 6, the left and right push block modules 20 include a first lifting cylinder 22 disposed at the bottom of the frame plate, and a clamping jaw cylinder 23 connected to the first lifting cylinder, and a pair of push blocks are mounted on a pair of movable blocks of the clamping jaw cylinder in a one-to-one manner. Wherein, the first lifting cylinder 22 is installed on the first bracket 24, and the first bracket is fixed at the bottom of the frame plate 40. The piston of the first lifting cylinder 22 is connected with the cylinder body of the clamping jaw cylinder 23 through a connecting plate 25. A pair of movable block of clamping jaw cylinder is a pair of clamping jaw cylinder among the prior art promptly, in order to drive a pair of grip block 62, the utility model discloses set up on a pair of movable block can with the recess 63 complex ejector pad 21 of grip block. The first elevating cylinder 22 is used for elevating the pair of pushing blocks 21 to be inserted into the grooves 63 of the pair of holding blocks 62. The jaw cylinder 23 functions to move the pair of push blocks 21 away from or toward each other.

Referring to fig. 3 and 4, a second lifting cylinder 32 is disposed at the bottom of the frame plate 40, and the contour block 31 is connected to a piston of the second lifting cylinder. Wherein, the second lift cylinder is installed on second support 33, and the bottom at the frame flat board is fixed to the second support. The second lift cylinder and the profiling block are part of the lift module 30. Under the drive of the second lifting cylinder, the profiling block 31 can protrude upwards out of the mounting hole 61 of the camera main body 60, so that a worker can conveniently sleeve the rubber shell on the profiling block.

Referring to fig. 3, a pair of rotary pressing cylinders 12 are provided on the frame plate 40, and are located on the left and right sides of the positioning template 11, and are components of the positioning module 10. And a limiting structure 13 for limiting the product is arranged on the positioning template 11. The camera body 60 is positioned by being placed in the position restricting structure 13, the pair of rotary pressing cylinders 12 presses the camera body against the positioning die plate 11, the camera body is fixed, and then the left and right push block modules 20 and the lifting module 30 are operated.

As shown in fig. 3, the frame plate 40 is provided with a first sensor 51, the first sensor is located beside the positioning template 11, the profiling block 31 is provided with a second sensor 52 used in cooperation with the first sensor, and the first sensor is located obliquely above the second sensor. Alternatively, the first and second sensing devices are photosensors, one being a light source generating means and the other being a light source receiving means.

In actual operation, a worker places the camera body 60 on the positioning template 11, presses the first button, the pair of rotary compression cylinders 12 compress the camera body, presses the second button again, the pair of push blocks 21 ascend, presses the third button again, the pair of push blocks are far away from each other, the pair of clamping blocks 62 are spread, presses the fourth button again, the contour block 31 ascends, the worker manually sleeves the rubber shell on the contour block 31, presses the fifth button, the contour block resets, presses the sixth button, the pair of push blocks resets, presses the seventh button, the pair of rotary compression cylinders resets, and the worker can take the camera body away from the positioning template 11. Of course, the pair of rotary pressing cylinders 12 presses the camera body, the pair of pushing blocks 21 is lifted, the pair of pushing blocks are separated from each other, and the copying block 31 is lifted and can operate according to a program stored in the main control unit; after a worker places a rubber shell on the profiling block 31, light between the first sensor device 51 and the second sensor device 52 is blocked, a signal is generated, the main control unit controls the lifting module 30 to enable the profiling block 31 to descend, the pair of push blocks resets, and the pair of rotary type pressing cylinders resets. Wherein the first and second sensing devices function to: only when the plastic shell is matched with the profiling block 31, the positioning module 10, the left and right push block modules 20 and the lifting module 30 perform resetting actions, and the assembly of the plastic shell and the camera main body 60 is completed.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (6)

1. The utility model provides a multidimension degree product equipment tool, includes location module (10), controls ejector pad module (20) and lift module (30), its characterized in that: the positioning module is provided with a positioning template (11), and the positioning template is provided with a central through hole and a pair of pushing block abdicating holes positioned at the left side and the right side of the central through hole; the left and right push block modules are provided with a pair of push blocks (21), the pair of push blocks can be far away from each other or close to each other, and the pair of push blocks are matched in the pair of push block yielding holes in a one-to-one mode; the lifting module is provided with a profiling block (31), and the profiling block is positioned in the central through hole.

2. The assembly jig of claim 1, wherein: the positioning template (11) is arranged on a rack flat plate (40), and a through hole which is aligned with the central through hole and the pushing block abdicating hole up and down is arranged on the rack flat plate; left and right push block module (20) is including setting up first lift cylinder (22) in the dull and stereotyped bottom of frame, clamping jaw cylinder (23) of being connected with first lift cylinder, and a pair of ejector pad is installed on a pair of movable block of clamping jaw cylinder with a one-to-one mode.

3. The assembly jig of claim 2, wherein: the bottom of the frame flat plate (40) is provided with a second lifting cylinder (32), and the profiling block (31) is connected with a piston of the second lifting cylinder.

4. The assembly jig of claim 2, wherein: a pair of rotary pressing cylinders (12) is arranged on the frame flat plate (40) and positioned on the left side and the right side of the positioning template (11).

5. The assembly fixture of claim 4, wherein: and a limiting structure (13) for limiting the product is arranged on the positioning template (11).

6. The assembly jig of claim 2, wherein: a first sensing device (51) is arranged on the rack flat plate (40), the first sensing device is located on the side of the positioning template (11), a second sensing device (52) matched with the first sensing device is arranged on the profiling block (31), and the first sensing device is located obliquely above the second sensing device.

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