CN219142199U - Self-positioning plug force testing machine - Google Patents

Abstract

The utility model discloses a self-positioning plug force testing machine, which comprises an equipment box and a movable plate, wherein a bracket is fixedly arranged on the lower surface of the equipment box, upright posts are fixedly arranged on the upper surface of the equipment box, the upright posts are symmetrically distributed about the center of the equipment box, and a fixed plate is fixedly arranged on the surface of the upright posts; the movable plate is connected to the surface of the upright post in a sliding way, and is connected with an external driving device; further comprises: the sliding block is in sliding connection with the upright post, and a protection plate is fixedly arranged on the lower surface of the sliding block. This self-align plug power testing machine is when using, places the work piece on placing the board, and the starter motor, when the motor is rotatory, drive the grip block of left and right sides through first threaded rod and be close to each other, finally grasp the work piece, and control the movable plate and move down, make the riser remove the position of needs, rotatory second threaded rod can again, the riser of left and right sides can be toward being close to each other this moment to finally grasp fixed work piece.

Description

Self-positioning plug force testing machine

Technical Field

The utility model relates to the technical field of plugging force testing machines, in particular to a self-positioning plugging force testing machine.

Background

The plug force testing machine is used for testing the plug force, is mainly used for testing a SIM card connector or a battery connector and the like, such as a plug force testing machine with the publication number of CN205538052U, and belongs to the technical field of mechanical equipment; a control panel is arranged on one side of the case; a plurality of brackets are arranged on the case; a positioning beam and a supporting beam are arranged between the brackets from top to bottom; the positioning cross beam is provided with a detector; the middle of the positioning cross beam is connected with a press above the positioning cross beam; the bottom of the middle of the positioning cross beam is provided with a plug head; the plug head is provided with a first sensor; a clamping mechanism is arranged in the middle of the supporting beam; an elastic supporting rod is arranged below the supporting beam; the bottom of the elastic support rod is provided with the second sensor, so that the device has the advantages of reasonable structural design, convenience in operation, good flexibility, high detection stability, small error and high detection efficiency;

the device in above-mentioned application when using, has structural design rationally, convenient operation, and the flexibility is good, and the stability of detection is high, and the error is little, the efficient advantage of detection, but it is inconvenient quick fixed work piece, and work efficiency is lower, and it does not have better protection architecture simultaneously, and when plug detects the connector fracture, the circumstances that the piece is collapsed and flies can take place, the circumstances of the injury can take place.

Aiming at the problems, innovative design is urgently needed on the basis of the original plugging force testing machine.

Disclosure of Invention

The utility model aims to provide a self-positioning plug-in force testing machine, which solves the problems that the work piece is fixed inconvenient and fast, the work efficiency is low, a better protection structure is not provided, and when a plug-in detection connector breaks, the situation that scraps collapse can occur and the situation that accidental injury can occur can be solved.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the self-positioning plug-pull force testing machine comprises an equipment box and a moving plate, wherein a bracket is fixedly arranged on the lower surface of the equipment box, upright posts are fixedly arranged on the upper surface of the equipment box, the upright posts are symmetrically distributed about the center of the equipment box, and a fixing plate is fixedly arranged on the surface of the upright posts;

the movable plate is connected to the surface of the upright post in a sliding way, the movable plate is connected with an external driving device, and a connecting plate is fixedly arranged on the lower surface of the movable plate;

the self-positioning plug force testing machine further comprises:

the workbench is fixedly arranged on the upper surface of the equipment box, the motor is fixedly arranged on the upper surface of the workbench, and the output end of the motor is fixedly provided with a first threaded rod;

the clamping plate is in threaded connection with the first threaded rod, and a placing plate is fixedly arranged on the surface of the clamping plate on the left side;

the lapping plate is fixedly arranged on the lower surface of the connecting plate, a second threaded rod is rotatably connected in the lapping plate, and a lapping block is sleeved on the surface of the second threaded rod;

the sliding block is in sliding connection with the upright post, and a protection plate is fixedly arranged on the lower surface of the sliding block.

Preferably, the fixed block is fixedly arranged on the lower surface of the clamping plate, threads on the left side and the right side of the first threaded rod are opposite in rotation direction, when the clamping plate is used, a workpiece is placed on the placing plate, the motor is started, and when the motor rotates, the clamping plates on the left side and the right side are driven to be close to each other through the first threaded rod, and finally the workpiece is clamped.

Preferably, the second threaded rod is located the inside part of overlap joint board is protruding form, overlap joint piece's lower fixed surface installs the riser, and after the grip block gripped the work piece, rotatory second threaded rod again, the riser of the left and right sides is also close to each other this moment, and final riser also grips the work piece, and the control movable plate rises this moment and can accomplish test work.

Preferably, the inner wall of the upright post is fixedly provided with a limit post, the limit post penetrates through the slider, the slider is symmetrically distributed with respect to the center of the workbench, and the limit post enables the slider to move only in the vertical direction.

Preferably, the upper surface of the sliding block is fixedly provided with a first magnet, the inner wall of the moving plate is fixedly provided with a second magnet, and the second magnet is far away from the first magnet when the moving plate ascends.

Preferably, the second magnet with first magnet one-to-one, and the magnetic pole of second magnet upper surface with the magnetic pole of first magnet lower surface is opposite, and initially, the slider is under first magnet and second magnet interattraction magnetic force effect, and when the movable plate rises, the second magnet can keep away from first magnet, and the slider loses interattraction magnetic force gradually this moment, and then the slider descends under self gravity effect, and the slider drives the protection shield and descends in step, and the left and right sides of device is protected to the final protection shield, and during operation, the staff stand in the protection shield both sides can.

Compared with the prior art, the utility model has the beneficial effects that: the self-positioning plug force testing machine adopts a novel structural design, and comprises the following specific contents:

(1) When the self-positioning plug-pull force testing machine is used, a workpiece is placed on a placing plate, a motor is started, when the motor rotates, the clamping plates on the left side and the right side are driven to be close to each other through a first threaded rod, the workpiece is finally clamped, the moving plate is controlled to move downwards, the vertical plate is enabled to move to a required position, then the second threaded rod is rotated, at the moment, the vertical plates on the left side and the right side are close to each other, and the workpiece is finally clamped and fixed;

(2) This self-align plug power testing machine, when the movable plate rose, the first magnet was kept away from to the second magnet, and the slider lost the magnetic force of mutual suction gradually this moment, and then the slider descends under self gravity effect, and the slider drives the protection shield and descends in step, and the left and right sides of device is protected to final protection shield, and at the during operation, the staff stand in protection shield both sides can.

Drawings

FIG. 1 is a schematic diagram of an equipment cabinet in cross-section;

FIG. 2 is an enlarged schematic view of the structure of FIG. 1A according to the present utility model;

FIG. 3 is a schematic view of the connection structure of the clamping plate and the placing plate of the present utility model;

FIG. 4 is a schematic view of a slider and first magnet connection structure according to the present utility model;

FIG. 5 is an enlarged schematic view of the structure of FIG. 4B according to the present utility model;

fig. 6 is a schematic view of a connection structure of a slider and a protection plate according to the present utility model.

In the figure: 1. an equipment box; 2. a column; 3. a fixing plate; 4. a moving plate; 5. a connecting plate; 6. a work table; 7. a motor; 8. a clamping plate; 9. a first threaded rod; 10. placing a plate; 11. a fixed block; 12. a second threaded rod; 13. a riser; 14. a lapping plate; 15. a splicing block; 16. a limit column; 17. a slide block; 18. a first magnet; 19. a second magnet; 20. and a protective plate.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-6, the present utility model provides a technical solution: the self-positioning plug-pull force testing machine comprises an equipment box 1 and a movable plate 4, wherein a bracket is fixedly arranged on the lower surface of the equipment box 1, a stand column 2 is fixedly arranged on the upper surface of the equipment box 1, the stand columns 2 are symmetrically distributed about the center of the equipment box 1, a fixed plate 3 is fixedly arranged on the surface of the stand column 2, the movable plate 4 is slidably connected on the surface of the stand column 2, the movable plate 4 is connected with an external driving device, and a connecting plate 5 is fixedly arranged on the lower surface of the movable plate 4;

the self-positioning plug force testing machine further comprises:

the workbench 6 is fixedly arranged on the upper surface of the equipment box 1, a motor 7 is fixedly arranged on the upper surface of the workbench 6, a first threaded rod 9 is fixedly arranged at the output end of the motor 7, a clamping plate 8 is in threaded connection with the first threaded rod 9, and a placing plate 10 is fixedly arranged on the surface of the left clamping plate 8;

the lapping plate 14, the lapping plate 14 fixed mounting is at the lower surface of connecting plate 5, and the inside rotation of lapping plate 14 is connected with second threaded rod 12 to the surface cover of second threaded rod 12 is established and is connected with overlap joint piece 15, slider 17 and stand 2 be sliding connection, and the lower surface fixed mounting of slider 17 has protection shield 20.

The fixed block 11 is fixedly arranged on the lower surface of the clamping plate 8, threads on the left side and the right side of the first threaded rod 9 are opposite in rotation direction, the part of the second threaded rod 12 located inside the lapping plate 14 is in a protruding shape, and the vertical plate 13 is fixedly arranged on the lower surface of the lapping block 15.

When the test device is used, a workpiece is placed on the placing plate 10, the motor 7 is started, when the motor 7 rotates, the clamping plates 8 on the left side and the right side are driven to be close to each other through the first threaded rod 9, the workpiece is finally clamped, the moving plate 4 is controlled to move downwards, the vertical plate 13 is enabled to move to a required position, the second threaded rod 12 is rotated, the vertical plates 13 on the left side and the right side are close to each other at the moment, the workpiece is finally clamped and fixed, the second threaded rod 12 is rotated, the vertical plates 13 on the left side and the right side at the moment are also close to each other, the workpiece is finally clamped by the vertical plates 13, and the test work can be completed by controlling the moving plate 4 to rise at the moment.

The inner wall of the upright post 2 is fixedly provided with a limit post 16, the limit post 16 penetrates through the inside of the sliding block 17, the sliding block 17 is symmetrically distributed about the center of the workbench 6, the upper surface of the sliding block 17 is fixedly provided with a first magnet 18, the inner wall of the movable plate 4 is fixedly provided with a second magnet 19, the second magnets 19 are in one-to-one correspondence with the first magnets 18, and the magnetic poles of the upper surface of the second magnets 19 are opposite to the magnetic poles of the lower surface of the first magnets 18.

When the movable plate 4 ascends, the second magnet 19 is far away from the first magnet 18, at this time, the sliding block 17 gradually loses the mutual attraction magnetic force, and then the sliding block 17 descends in the vertical direction under the action of self gravity and the action of the limiting column 16, the sliding block 17 drives the protection plates 20 to synchronously descend, and finally the protection plates 20 symmetrically distributed on the two sides of the workbench 6 protect the left side and the right side of the device, and when in work, workers stand on the two sides of the protection plates 20.

The above is the working process of the whole device, and what is not described in detail in this specification belongs to the prior art known to those skilled in the art.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The self-positioning plug-pull force testing machine comprises an equipment box (1) and a movable plate (4), wherein a bracket is fixedly arranged on the lower surface of the equipment box (1), an upright post (2) is fixedly arranged on the upper surface of the equipment box (1), the upright posts (2) are symmetrically distributed about the center of the equipment box (1), and a fixed plate (3) is fixedly arranged on the surface of the upright post (2);

the movable plate (4) is connected to the surface of the upright post (2) in a sliding manner, the movable plate (4) is connected with an external driving device, and a connecting plate (5) is fixedly arranged on the lower surface of the movable plate (4);

characterized by further comprising:

the workbench (6), the workbench (6) is fixedly arranged on the upper surface of the equipment box (1), a motor (7) is fixedly arranged on the upper surface of the workbench (6), and a first threaded rod (9) is fixedly arranged at the output end of the motor (7);

the clamping plate (8), the clamping plate (8) is in threaded connection with the first threaded rod (9), and a placing plate (10) is fixedly arranged on the surface of the clamping plate (8) on the left side;

the lapping plate (14), the lapping plate (14) is fixedly arranged on the lower surface of the connecting plate (5), a second threaded rod (12) is rotatably connected in the lapping plate (14), and a lapping block (15) is sleeved on the surface of the second threaded rod (12);

the sliding block (17), the sliding block (17) is in sliding connection with the upright post (2), and a protection plate (20) is fixedly arranged on the lower surface of the sliding block (17).

2. The self-positioning plug force testing machine according to claim 1, wherein: the lower surface of the clamping plate (8) is fixedly provided with a fixed block (11), and threads on the left side and the right side of the first threaded rod (9) are opposite in screwing direction.

3. The self-positioning plug force testing machine according to claim 1, wherein: the part of the second threaded rod (12) positioned inside the lapping plate (14) is in a protruding shape, and a vertical plate (13) is fixedly arranged on the lower surface of the lapping block (15).

4. The self-positioning plug force testing machine according to claim 1, wherein: the inner wall of the upright post (2) is fixedly provided with a limiting column (16), the limiting column (16) penetrates through the sliding block (17), and the sliding block (17) is symmetrically distributed with respect to the center of the workbench (6).

5. The self-positioning plug force testing machine according to claim 1, wherein: the upper surface of the sliding block (17) is fixedly provided with a first magnet (18), and the inner wall of the moving plate (4) is fixedly provided with a second magnet (19).

6. The self-positioning plug force testing machine according to claim 5, wherein: the second magnets (19) are in one-to-one correspondence with the first magnets (18), and the magnetic poles of the upper surfaces of the second magnets (19) are opposite to the magnetic poles of the lower surfaces of the first magnets (18).

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