CN219235125U

CN219235125U - Machining detection device

Info

Publication number: CN219235125U
Application number: CN202320147606.2U
Authority: CN
Inventors: 江图文
Original assignee: Nanjing Qinyu Technology Co ltd
Current assignee: Nanjing Qinyu Technology Co ltd
Priority date: 2023-02-08
Filing date: 2023-02-08
Publication date: 2023-06-23
Anticipated expiration: 2033-02-08

Abstract

The utility model relates to a machining detection device, which aims to solve the technical problem that the working efficiency is reduced when a hand pulling block is manually rotated to clamp an object to be detected, and comprises a detection machine, a driving assembly, a moving assembly and an elastic assembly; the driving component is arranged on the detecting machine; the driving assembly comprises a fixed plate, a driving motor and a bidirectional screw rod; the two fixing plates are symmetrically arranged on two sides of the detector; the driving motor is fixedly arranged on one of the fixing plates through the motor seat, and the output end of the driving motor passes through the fixing plate; one end of the bidirectional screw rod is connected with the output end of the driving motor, and the other end of the bidirectional screw rod is connected with the fixed plate; the moving assembly is arranged on the bidirectional screw rod; the elastic component is arranged on the movable component, and the driving component, the movable component and the elastic component are arranged to improve the working efficiency, so that the problem that in the prior art, the manual rotation hand pulling block is adopted to clamp an object to be detected, the workload of workers is increased, and the working efficiency is reduced is solved.

Description

Machining detection device

Technical Field

The utility model relates to the technical field of machining detection, in particular to a machining detection device.

Background

Machining refers to a process of changing the external dimensions or properties of a workpiece by a mechanical device, and can be classified into cutting and pressing according to the difference in machining modes.

The utility model of China with publication number of CN214351262U provides a machining detection device, including hand pulling piece, movable rod, fixed ring, fixed fixture block, fixed draw-in groove, the pivot, the carousel, the connecting rod, swing depression bar, the regulation hole, the adjusting column, the sliding block, the squeeze lever, detect the clamp plate etc. the hand pulling piece, make the movable rod drive fixed fixture block break away from in the fixed fixture groove through fixed ring, rotate the hand pulling piece again, make the carousel rotate through the pivot, the carousel rotates and can make two connecting rods be close to each other, drive the swing depression bar and remove, make the swing depression bar under the effect of regulation hole and adjusting column, make the sliding block take place to remove and drive the squeeze lever, thereby make two squeeze levers drive two detection clamp plates and be close to each other, realize the clamp of treating the detected object, fix, although the device has more beneficial effect, still have following disadvantages: the manual rotation of the hand pulling block is adopted to clamp the object to be detected, so that the workload of workers is increased, and the working efficiency is reduced, therefore, how to provide a mechanical clamping detection device is particularly important, and in view of the above, we provide a mechanical processing detection device.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, adapt to the actual needs, and provide a machining detection device so as to solve the technical problem that the working efficiency is reduced when the manual rotation hand pulling block is used for realizing the clamping of an object to be detected.

In order to achieve the purpose of the utility model, the technical scheme adopted by the utility model is as follows: designing a machining detection device, which comprises a detection machine, a driving component, a moving component and an elastic component; the drive assembly is arranged on the detector; the driving assembly comprises a fixed plate, a driving motor and a bidirectional screw rod; the two fixing plates are symmetrically arranged on two sides of the detector; the driving motor is fixedly arranged on one of the fixing plates through the motor seat, and the output end of the driving motor penetrates through the fixing plate; one end of the bidirectional screw rod is connected with the output end of the driving motor, and the other end of the bidirectional screw rod is connected with the fixed plate; the moving assembly is arranged on the bidirectional screw rod; the resilient member is disposed on the moving member.

Preferably, the moving assembly comprises a moving block, a guide rod, an opening and a clamping plate; the two moving blocks are symmetrically arranged on the two-way screw rod; the guide rods penetrate through the two moving blocks, and the end parts of the guide rods are connected with the fixed plates; the opening is formed in the detector, and the end part of the moving block penetrates through the opening; the clamping plate is fixedly arranged at the end part of the moving block; wherein, the movable block is in sliding fit with the guide rod.

Preferably, the moving block is in threaded fit with the bidirectional screw rod.

Preferably, the elastic component comprises a chute, a spring and a wedge block; the sliding grooves are uniformly distributed on the opposite surfaces of the two clamping plates; the spring is arranged in the chute, and one end of the spring is connected with the inner wall of the chute; the wedge block is connected with the other end of the spring; wherein, the wedge block is in sliding fit with the chute.

Preferably, the wedge block is of a ladder-type structure.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the device, the driving assembly, the moving assembly and the elastic assembly are arranged, and the working efficiency can be improved by utilizing the functions of the driving assembly, the moving assembly and the elastic assembly, so that the problem that in the prior art, the manual rotation of the hand pulling block is adopted to clamp objects to be detected, the workload of workers is increased, and the working efficiency is reduced is solved.

2. According to the utility model, the moving blocks, the guide rods, the openings and the clamping plates are arranged, and the moving blocks are in sliding fit with the guide rods, so that the two moving blocks relatively move under the action of the driving motor, thereby playing a role in clamping objects to be detected, and being capable of clamping objects to be detected with different sizes.

3. According to the utility model, the sliding groove, the spring and the wedge block are arranged, and the wedge block is in sliding fit with the sliding groove and the elastic action of the spring, so that the wedge block is extruded by the object to be detected when the clamping plate clamps the object to be detected, and the spring is stressed, so that the wedge block can clamp the objects to be detected with different shapes, and the practicability of the utility model is improved.

4. According to the utility model, the wedge-shaped block is arranged into the ladder-shaped structure, so that the contact area between the wedge-shaped block and an object to be detected can be reduced when the clamping plate clamps the object to be detected, and the object to be detected is prevented from being damaged by the wedge-shaped block, so that the practicability of the utility model is improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a cross-sectional view of the overall structure of the present utility model;

FIG. 3 is an enlarged schematic view of the utility model at A;

in the figure:

1. a detecting machine; 2. a drive assembly; 3. a moving assembly; 4. an elastic component;

201. a fixing plate; 202. a driving motor; 203. a two-way screw rod;

301. a moving block; 302. a guide rod; 303. an opening; 304. a clamping plate;

401. a chute; 402. a spring; 403. wedge blocks.

Detailed Description

The utility model is further illustrated by the following examples in conjunction with the accompanying drawings:

example 1: a machining inspection device, see fig. 1-3, includes an inspection machine 1, a drive assembly 2, a movement assembly 3, and a resilient assembly 4; the driving assembly 2 is arranged on the detector 1; wherein, the driving assembly 2 comprises a fixed plate 201, a driving motor 202 and a bidirectional screw 203; the two fixing plates 201 are symmetrically arranged at two sides of the detector 1; the driving motor 202 is fixedly arranged on one of the fixing plates 201 through a motor seat, and the output end of the driving motor passes through the fixing plate 201; one end of the bidirectional screw rod 203 is connected with the output end of the driving motor 202, and the other end is connected with the fixed plate 201; the moving assembly 3 is arranged on the bidirectional screw 203; the resilient member 4 is arranged on the moving member 3. According to the device provided by the utility model, the driving component 2, the moving component 3 and the elastic component 4 are arranged, and the working efficiency can be improved by utilizing the functions of the driving component 2, the moving component 3 and the elastic component 4, so that the problem that the working efficiency is reduced due to the fact that the clamping of a to-be-detected object is realized by manually rotating a hand pulling block in the prior art is solved, and the workload of a worker is increased.

Specifically, the moving assembly 3 includes a moving block 301, a guide bar 302, an opening 303, and a clamping plate 304; the two moving blocks 301 are symmetrically arranged on the bidirectional screw 203; the guide rods 302 are arranged on the two moving blocks 301 in a penetrating way, and the end parts of the guide rods are connected with the fixed plate 201; an opening 303 is formed in the detector 1, and the end of the moving block 301 passes through the opening 303; the clamping plate 304 is fixedly arranged at the end part of the moving block 301; wherein the moving block 301 is in sliding fit with the guide bar 302. According to the utility model, the moving block 301, the guide rod 302, the opening 303 and the clamping plate 304 are arranged, and the moving block 301 is in sliding fit with the guide rod 302, so that the two moving blocks 301 relatively move under the action of the driving motor 202, thereby playing the role of clamping objects to be detected, and being capable of clamping objects to be detected with different sizes.

Further, the moving block 301 is in threaded engagement with the bi-directional screw 203. The moving block 301 is in threaded fit with the bidirectional screw 203 to transmit power.

Still further, the resilient member 4 includes a chute 401, a spring 402, and a wedge block 403; thirty-six sliding grooves 401 are uniformly distributed on the opposite surfaces of the two clamping plates 304; the spring 402 is arranged in the chute 401, and one end of the spring is connected with the inner wall of the chute 401; wedge 403 is connected to the other end of spring 402; the maximum size of the wedge block 403 is matched with the maximum size of the chute 401; wherein the wedge 403 is in sliding engagement with the chute 401. According to the utility model, the sliding groove 401, the spring 402 and the wedge block 403 are arranged, and the wedge block 403 is in sliding fit with the sliding groove 401 and the spring 402 is in elastic action, so that when the clamping plate 304 clamps an object to be detected, the object to be detected can press the wedge block 403, and the spring 402 is stressed, so that the wedge block 403 can clamp objects to be detected with different shapes, and the practicability of the utility model is improved.

It should be noted that the wedge block 403 has a ladder-shaped structure. According to the utility model, the wedge-shaped block 403 is arranged into the ladder-shaped structure, so that when the clamping plate 304 clamps an object to be detected, the contact area between the wedge-shaped block 403 and the object to be detected can be reduced, and the object to be detected is prevented from being damaged by the wedge-shaped block 403, so that the practicability of the utility model is improved.

Besides, the circuit, the electronic components and the modules are all in the prior art, and can be completely realized by a person skilled in the art, and needless to say, the protection of the utility model does not relate to the improvement of the internal structure and the method.

Working principle: when the device provided by the utility model is required to clamp an object to be detected, the object to be detected is placed on the detecting machine 1 and is positioned between the two clamping plates 304, the driving motor 202 is electrified, the driving motor 202 starts to rotate, the bidirectional screw 203 is rotated when the driving motor 202 rotates, the bidirectional screw 203 relatively moves the two moving blocks 301, the two moving blocks 301 relatively move, slide on the guide rod 302, the two clamping plates 304 relatively move when the two moving blocks 301 relatively move, the two clamping plates 304 relatively move towards the object to be detected until the end part of the wedge block 403 contacts the object to be detected, the wedge block 403 starts to move towards the chute 401 because the driving motor 202 still rotates, and the wedge block 403 moves towards the chute 401, the spring 402 is extruded, so that the spring 402 is stressed and contracted, the utility model can clamp objects to be detected with different shapes, the driving motor 202 is powered off until the objects to be detected are clamped, the objects to be detected can be detected, after the detection is finished, the driving motor 202 is powered on, the driving motor 202 starts to rotate in the opposite direction, when the driving motor 202 rotates in the opposite direction, the bidirectional screw 203 rotates in the opposite direction, when the bidirectional screw 203 rotates in the opposite direction, the two moving blocks 301 slide on the guide rod 302 in the opposite direction, the two moving blocks 301 move away from each other, when the two moving blocks 301 move away from each other, the two clamping plates 304 move away from each other, when the two clamping plates 304 move away from each other, the clamping force of the wedge-shaped blocks 403 to the objects to be detected is gradually reduced, and the spring 402 starts to stretch, so that the wedge-shaped block 403 gradually moves in the opposite direction in the chute 401 until the end of the wedge-shaped block 403 is no longer in contact with the object to be detected, at this time, the object to be detected can be removed, and when other objects to be detected are detected again, the above operation is repeated.

The embodiments of the present utility model are disclosed as preferred embodiments, but not limited thereto, and those skilled in the art will readily appreciate from the foregoing description that various modifications and variations can be made without departing from the spirit of the present utility model.

Claims

1. A machining inspection device, comprising:

a detector (1);

-a drive assembly (2) arranged on the detector (1);

the driving assembly (2) comprises a fixed plate (201), a driving motor (202) and a bidirectional screw rod (203); the two fixing plates (201) are symmetrically arranged on two sides of the detecting machine (1); the driving motor (202) is fixedly arranged on one of the fixing plates (201) through a motor seat, and the output end of the driving motor passes through the fixing plate (201); one end of the bidirectional screw rod (203) is connected with the output end of the driving motor (202), and the other end of the bidirectional screw rod is connected with the fixed plate (201);

-a moving assembly (3) arranged on said bi-directional screw (203);

-a resilient member (4) arranged on said moving member (3).

2. A machining inspection device according to claim 1, characterized in that said moving assembly (3) comprises:

the number of the moving blocks (301) is two, and the moving blocks are symmetrically arranged on the two-way screw rod (203);

the guide rods (302) penetrate through the two moving blocks (301), and the end parts of the guide rods are connected with the fixed plate (201);

an opening (303) which is arranged on the detector (1), and the end part of the moving block (301) passes through the opening (303);

the clamping plate (304) is fixedly arranged at the end part of the moving block (301);

wherein the moving block (301) is in sliding fit with the guide rod (302).

3. A machining inspection device according to claim 2, characterized in that the moving block (301) is in threaded engagement with a bi-directional screw (203).

4. A machining inspection device according to claim 2, wherein said resilient member (4) comprises:

the sliding grooves (401) are uniformly distributed on the opposite surfaces of the two clamping plates (304);

the spring (402) is arranged in the chute (401), and one end of the spring is connected with the inner wall of the chute (401);

the wedge block (403) is connected with the other end of the spring (402);

wherein the wedge block (403) is in sliding fit with the chute (401).

5. A machining inspection device according to claim 4, wherein the wedge (403) is of a ladder configuration.