CN220806970U - Positioning device for detecting laser processing precise instrument - Google Patents

Abstract

The utility model discloses a positioning device for detecting a laser processing precision instrument, which comprises: the installation component, be provided with on the installation component and conveniently fix a position and carry out the fixed locating component of centre gripping and conveniently rotate and detect the rotation subassembly that the direction was adjusted, the locating component includes fixed box, motor one, two screw rods, two regulating blocks, two slide rails, two cross pieces, two rectangle through-holes and two L shaped plates, fixed box sets up on the installation component, motor one fixed mounting is in fixed box, two screw rods set up in the installation component the equal screw thread of regulating block is installed on two screw rods, two the slide rail all sets up in the installation component, two cross pieces slidable mounting is in two slide rails respectively. The positioning device for detecting the laser processing precise instrument has the advantages of being convenient to position and clamp and fix detected objects.

Description

Positioning device for detecting laser processing precise instrument

Technical Field

The utility model relates to the technical field of precise instruments, in particular to a positioning device for detecting a laser processing precise instrument.

Background

Precision instruments refer to devices and apparatus for producing, measuring, and including observation, monitoring, measurement, verification, recording, transmission, transformation, display, analytical processing, and control of precision quantities. The precision instrument is an important branch of instruments and meters, and is used for fixing articles for inspection, measurement and analysis during laser processing.

Through searching, in the prior art, chinese patent application number: 202221746177.2, filing date: 2022.07.08 discloses a positioning device for detecting precise instruments, which comprises a detection seat, the top of detecting the seat is provided with the bottom plate, and the upside fixedly connected with of bottom plate attaches the case, the inside fixedly connected with roof that attaches the case, and the below of roof is provided with well plywood, well plywood and attaching between the case fixed connection, a plurality of equidistant round holes have all been seted up on roof and the well plywood, and the inside equal swing joint of round hole on the roof has the retainer rod, the outside of retainer rod has all bonded the rubber sleeve. The fixing operation of the to-be-detected products in different shapes can be met by utilizing the fixing rods which move up and down, the concave shape of the fixing rods is matched with the to-be-detected products after the to-be-detected products are pressed down, the to-be-detected products are limited by the fixing rods which are not pressed down on the outer sides in the original position, the to-be-detected products are prevented from moving in the subsequent detection process, and the rubber sleeve can play a role in protecting the outer wall of the to-be-detected products while increasing the contact effect with the to-be-detected products.

However, the above structure still has the disadvantage that a gap is left between the fixing rod and the fixing rod when the detection object is positioned and limited in the above structure, and the detection object may shake when being pushed by detection.

Disclosure of utility model

The utility model aims to provide a positioning device for detecting a laser processing precision instrument, which has the advantages of being capable of conveniently positioning and clamping and fixing a detected object so as to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a positioner for laser processing precision instruments detects, includes the installation component, be provided with on the installation component and conveniently fix a position and carry out the fixed locating component of centre gripping and conveniently rotate and detect the direction adjustment's rotating assembly, the locating component includes fixed box, motor one, two adjusting block, two slide rails, two cross pieces, two rectangle through openings and two L shaped plates, fixed box sets up on the installation component, a fixed mounting of motor is in fixed box, two the two screw rod sets up in the installation component the equal screw thread of adjusting block is installed on two screw rods, two the slide rail all sets up in the installation component, two cross pieces slidable mounting respectively is in two slide rails, two rectangle through openings all set up on the installation component, two L shaped plates set up respectively in two rectangle through openings, two L shaped plates respectively with two cross pieces fixed connection.

Further, the triangular support plates are fixedly installed on the two L-shaped plates, and the rubber plates are fixedly installed on the outer walls of the side, close to each other, of the two L-shaped plates.

Further, the mounting assembly comprises a mounting box, a mounting box and a mounting plate, wherein the mounting box is arranged above the mounting box, and the mounting plate is fixedly arranged in the mounting box.

Further, the rotating assembly comprises a rotating disc, a second motor, a first gear, a connecting column, a second gear and a rotating rod, wherein the rotating disc is rotatably installed in the installation box, the rotating disc is fixedly connected with the installation box, the second motor is fixedly installed on the inner wall of the bottom of the installation box, the first gear is fixedly installed on the output shaft of the second motor, the connecting column is arranged at the bottom of the rotating disc, the second gear is arranged below the connecting column, the rotating rod is rotatably installed on the installation box, and the rotating rod is fixedly connected with the second gear.

Further, a first circular plate is fixedly arranged at the bottom of the rotating disc, the connecting column is fixedly connected with the first circular plate, a second circular plate is fixedly arranged on the second gear, and the second circular plate is fixedly connected with the connecting column.

Further, the locating component further comprises a sliding rod, limiting plates, springs, mounting rods and protective sleeves, wherein the sliding rods are evenly distributed on the mounting plates, the limiting plates are evenly distributed on multiple groups of sliding rods, the springs are evenly distributed on the sliding rods, the bottoms of the springs are fixedly connected with the corresponding limiting plates respectively, the tops of the springs are fixedly connected with the mounting plates respectively correspondingly, the mounting rods are evenly distributed on the multiple groups of the sliding rods, and the protective sleeves are evenly distributed on the multiple groups of the mounting rods.

In summary, the beneficial effects of the utility model are as follows due to the adoption of the technology:

According to the utility model, the positioning assembly is arranged, the motor I is started, the motor I drives the bidirectional screw rod to rotate, the bidirectional screw rod drives the adjusting block to move and close to the center, the adjusting block drives the cross block to move, the cross block slides in the sliding rail, and the cross block drives the L-shaped plate to move in the rectangular through hole, so that the detection object can be positioned and clamped and fixed conveniently.

According to the utility model, the rotating assembly is arranged, the motor II is started, the motor II drives the gear I to rotate, the gear I is meshed with the gear II to rotate so as to drive the rotating rod to rotate, the gear II drives the connecting column to rotate, and the connecting column drives the rotating disc to rotate so as to facilitate the rotation to carry out detection direction adjustment.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a positioning device for laser processing precision instrument detection according to the present utility model;

FIG. 2 is a schematic diagram of a front cross-sectional structure of a positioning device for laser machining precision instrument detection according to the present utility model;

FIG. 3 is a schematic top cross-sectional view of a positioning device for laser machining precision instrument detection according to the present utility model;

FIG. 4 is a schematic top view of a positioning device for detecting a laser processing precision instrument according to the present utility model;

FIG. 5 is a schematic view of an assembly of the positioning assembly of the present utility model;

Fig. 6 is a schematic view of an assembly of a slide rail and a cross block according to the present utility model.

In the figure: 1. a mounting assembly; 101. a mounting box; 102. a mounting box; 103. a mounting plate; 2. a positioning assembly; 201. a fixed box; 202. a first motor; 203. a bidirectional screw; 204. an adjusting block; 205. a slide rail; 206. a cross block; 207. a rectangular through hole; 208. an L-shaped plate; 209. a slide bar; 210. a limiting plate; 211. a spring; 212. a mounting rod; 213. a protective sleeve; 3. a rotating assembly; 301. a rotating disc; 302. a second motor; 303. a first gear; 304. a connecting column; 305. a second gear; 306. and rotating the rod.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments. All other embodiments, based on the embodiments of the utility model, which are apparent to those of ordinary skill in the art without inventive faculty, are intended to be within the scope of the utility model. Thus, the following detailed description of the embodiments of the utility model, as presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, based on the embodiments of the utility model, which are apparent to those of ordinary skill in the art without inventive faculty, are intended to be within the scope of the utility model.

The utility model provides a positioning device for detecting laser processing precision instruments, as shown in figures 1-6, which comprises a mounting component 1, wherein the mounting component 1 is provided with a positioning component 2 which is convenient for positioning and clamping and fixing detected objects and a rotating component 3 which is convenient for rotating and adjusting the detection direction, the positioning component 2 comprises a fixed box 201, a motor I202, a bidirectional screw 203, two regulating blocks 204, two sliding rails 205, two cross blocks 206, two rectangular through holes 207 and two L-shaped plates 208, the fixed box 201 is arranged on the mounting component 1, the motor I202 is fixedly arranged in the fixed box 201, the bidirectional screw 203 is arranged in the mounting component 1, the two regulating blocks 204 are both arranged on the bidirectional screw 203 in a threaded manner, the two slide rails 205 are all arranged in the installation assembly 1, the two cross blocks 206 are respectively and slidably arranged in the two slide rails 205, the two rectangular through holes 207 are all arranged on the installation assembly 1, the two L-shaped plates 208 are respectively arranged in the two rectangular through holes 207, the two L-shaped plates 208 are respectively and fixedly connected with the two cross blocks 206, more specifically, the motor I202 is started, the motor I202 drives the bidirectional screw 203 to rotate, the bidirectional screw 203 drives the adjusting block 204 to move and close to the center, the adjusting block 204 drives the cross blocks 206 to move, the cross blocks 206 slide in the slide rails 205, the cross blocks 206 drive the L-shaped plates 208 to move in the rectangular through holes 207, and detection objects are conveniently positioned and clamped and fixed.

In some embodiments, the two L-shaped plates 208 are fixedly provided with triangular support plates, and the two L-shaped plates 208 are fixedly provided with rubber plates on outer walls of one sides of the two L-shaped plates, which are close to each other, more specifically, by being provided with the rubber plates, so that scratch is prevented from being generated on the surface of the detected article when the detected article is clamped.

In some embodiments, the mounting assembly 1 includes a mounting box 101, a mounting box 102, and a mounting plate 103, the mounting box 102 is disposed above the mounting box 101, and the mounting plate 103 is fixedly mounted within the mounting box 102.

In some embodiments, the rotating assembly 3 includes a rotating disc 301, a second motor 302, a first gear 303, a connecting post 304, a second gear 305, and a rotating rod 306, where the rotating disc 301 is rotatably installed in the installation box 101, the rotating disc 301 is fixedly connected with the installation box 102, the second motor 302 is fixedly installed on the bottom inner wall of the installation box 101, the first gear 303 is fixedly installed on the output shaft of the second motor 302, the connecting post 304 is disposed at the bottom of the rotating disc 301, the second gear 305 is disposed below the connecting post 304, the rotating rod 306 is rotatably installed on the installation box 101, the rotating rod 306 is fixedly connected with the second gear 305, more specifically, the second motor 302 is started, the second motor 302 drives the first gear 303 to rotate, the first gear 303 is meshed with the second gear 305 to rotate the rotating rod 306, the second gear 304 drives the connecting post 304 to rotate, the connecting post 304 drives the rotating disc 301 to rotate, and the rotation is convenient for detecting direction adjustment.

In some embodiments, the bottom of the rotating disc 301 is fixedly provided with a first circular plate, the connecting column 304 is fixedly connected with the first circular plate, the second circular plate 305 is fixedly provided with a second circular plate, and the second circular plate is fixedly connected with the connecting column 304.

In some embodiments, the positioning assembly 2 further includes a sliding rod 209, a limiting plate 210, a spring 211, a mounting rod 212 and a protective sleeve 213, where the sliding rod 209 is evenly distributed on the mounting plate 103, the limiting plate 210 is evenly distributed on the plurality of groups of sliding rods 209, the spring 211 is evenly distributed on the sliding rod 209, the bottom ends of the corresponding springs 211 are respectively fixedly connected with the corresponding limiting plate 210, the top ends of the corresponding springs 211 are respectively fixedly connected with the mounting plate 103, the mounting rod 212 is evenly distributed on the plurality of groups of mounting rods 212, and the protective sleeve 213 is evenly distributed on the plurality of groups of mounting rods 212.

Working principle: firstly, the detected article is placed on the mounting plate 103, the sliding rod 209 covered by the detected article moves downwards due to the weight of the article, the sliding rod 209 drives the limiting plate 210 to move downwards, the limiting plate 210 drives the spring 211 to stretch, the spring 211 is subjected to a pulling force to generate deformation accumulation elastic force, the sliding rod 209 drives the mounting rod 212 and the protective sleeve 213 to move downwards to limit the detected article, at the moment, the motor 202 is started, the motor 202 drives the bidirectional screw 203 to rotate, the bidirectional screw 203 drives the regulating block 204 to move and approach towards the center, the regulating block 204 drives the cross block 206 to move, the cross block 206 slides in the sliding rail 205, the cross block 206 drives the L-shaped plate 208 to move in the rectangular through opening 207, the L-shaped plate 208 is attached to the detected article and clamped, when the detected article is required to rotate, the motor 302 is started at the moment, the motor 302 drives the gear 303 to rotate, the gear 303 and the gear 305 are meshed to rotate to drive the rotating rod 306, the gear 305 drives the connecting column 304 to rotate, the rotating disk 301 drives the mounting box 102 to rotate, the mounting box 102 to drive the regulating block 204 to move towards the center, and the cross block 206 to move, and the detected article to move.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Claims (6)

1. A positioner for laser processing precision instruments detects, including installation component, its characterized in that: the utility model discloses a detection device, including installation component, motor, the fixed box sets up on the installation component, the fixed box is fixed to the motor, be provided with the locating component that conveniently fix a position the detected article and carry out the centre gripping is fixed and the rotation subassembly that conveniently rotates and detect the direction adjustment, locating component includes fixed box, motor one, two regulating blocks, two slide rails, two cross blocks, two cross blocks and two L shaped plates, fixed box sets up on the installation component, motor one fixed mounting is in fixed box, two screw sets up in the installation component, two regulating blocks equal screw thread installs on two screw on the two slide rails, two slide rails all set up in the installation component, two cross blocks slidable mounting respectively in two rectangular openings, two L shaped plates respectively with two cross blocks fixed connection.

2. The positioning device for detecting a laser processing precision instrument according to claim 1, wherein: the two L-shaped plates are fixedly provided with triangular support plates, and rubber plates are fixedly arranged on the outer walls of one sides of the two L-shaped plates, which are close to each other.

3. The positioning device for detecting a laser processing precision instrument according to claim 1, wherein: the installation component includes mounting box, mounting box and mounting panel, the mounting box sets up the top at the mounting box, mounting panel fixed mounting is in the mounting box.

4. The positioning device for detecting a laser processing precision instrument according to claim 1, wherein: the rotating assembly comprises a rotating disc, a motor II, a gear I, a connecting column, a gear II and a rotating rod, wherein the rotating disc is rotatably installed in an installation box, the rotating disc is fixedly connected with the installation box, the motor II is fixedly installed on the inner wall of the bottom of the installation box, the gear I is fixedly installed on an output shaft of the motor II, the connecting column is arranged at the bottom of the rotating disc, the gear II is arranged below the connecting column, the rotating rod is rotatably installed on the installation box, and the rotating rod is fixedly connected with the gear II.

5. The positioning device for detecting a laser machining precision instrument according to claim 4, wherein: the bottom of the rotating disc is fixedly provided with a first circular plate, the connecting column is fixedly connected with the first circular plate, the second circular plate is fixedly arranged on the second gear, and the second circular plate is fixedly connected with the connecting column.

6. The positioning device for detecting a laser processing precision instrument according to claim 1, wherein: the positioning assembly further comprises sliding rods, limiting plates, springs, mounting rods and protective sleeves, wherein the sliding rods are evenly distributed on the mounting plates, the limiting plates are evenly distributed on multiple groups of sliding rods, the springs are evenly distributed on the sliding rods, the bottoms of the springs are fixedly connected with the corresponding limiting plates respectively, the tops of the springs are fixedly connected with the mounting plates respectively, the mounting rods are evenly distributed on the multiple groups of mounting rods, and the protective sleeves are evenly distributed on the multiple groups of mounting rods.