CN221898442U - Off-line displacement detection tool - Google Patents

Abstract

The utility model relates to the technical field of displacement detection and discloses a displacement off-line detection tool which comprises a base, wherein a detection machine is arranged on the upper surface of the base, a connecting pipe is arranged on the side wall of the detection machine, a sleeve column is connected to the outer wall of the connecting pipe in a sliding mode, a sliding column I is connected to the inner part of the connecting pipe in a sliding mode, connecting columns are connected to the inner part of the connecting pipe and the inner part of the sliding column I in a sliding mode, a spring I is sleeved on the outer wall of each connecting column, a spring II is arranged in the sleeve column, a sliding block is connected to the inner part of the sleeve column in a sliding mode, a limiting ball is connected to the inner part of the sleeve column in a sliding mode, and the outer wall of the limiting ball is connected to the side wall of the sliding column in a sliding mode. According to the utility model, through the cooperation of the sleeve column, the connecting column, the limiting ball and other structures, the quick assembly and disassembly of the probe are realized, the later maintenance or the replacement of the probe is facilitated, the probe is faced with different detection requirements, and the applicability and the maintenance efficiency of the tool are improved.

Description

Off-line displacement detection tool

Technical Field

The utility model relates to the technical field of displacement detection, in particular to a displacement off-line detection tool.

Background

A displacement offline detection tool is a tool for detecting and analyzing changes in displacement of an object or system in an offline state. Such tools generally relate to sensor technology, data acquisition, signal processing and analysis algorithms, etc., and are intended to monitor and record information such as the position, movement trajectory or deformation of objects, and may be used to monitor deformations of buildings, bridges or other infrastructure; in the manufacturing industry, can be used for detecting displacement or deformation of mechanical parts, etc.

The search is carried out on the bulletin number: CN206387350U discloses a high-low displacement detection tool, which comprises a bracket and a depth gauge; the bracket comprises a bracket body and an extension section connected with one end of the bracket body, and the bracket body is coplanar with the bottom surface of the extension section; the extension base of the depth gauge is fixed with the bracket body, and the measuring needle of the depth gauge is positioned below the bracket body and is vertical to the bottom surface of the bracket body; the upper end face of the support body is provided with a leveling component, the lower end face is provided with a groove, and the bottom face of the leveling component and the top face of the groove are parallel to the bottom face of the support body. Simple structure, convenient to use, portable can have to reduce manual operation error, improves detection accuracy, and the distance that adopts in this application surveys the structure singlely, can't change detection probe, when meetting multiple detection condition or facing different work demands, can't the diversified work, has reduced this detection tool's suitability.

Disclosure of utility model

In order to make up for the defects, the utility model provides a displacement offline detection tool, which aims to improve the problems that the traditional displacement offline detection tool is single in distance detection structure, a detection probe cannot be replaced, and cannot work in a variety when meeting various detection conditions or facing different working demands, and the applicability of the detection tool is reduced.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a displacement off-line detection instrument, includes the base, the base upper surface is provided with the detection machine, the detection machine lateral wall is provided with the connecting pipe, connecting pipe outer wall sliding connection has the loop column, the inside sliding connection of connecting pipe has a smooth post one, smooth post one sliding connection is in inside the loop column, the connecting pipe with the equal sliding connection of smooth post one has the spliced pole, every the equal cover of spliced pole outer wall is equipped with spring one, the inside spring two that is provided with of loop column, the inside sliding connection of loop column has the slider, the inside sliding connection of loop column has spacing ball, spacing ball outer wall sliding connection is in smooth post one lateral wall, the base upper surface is provided with fixed subassembly.

Further, the fixing assembly comprises a fixing plate, and a plurality of fixing plates are fixedly connected to the upper surface of the base.

Further, the inside rotation of fixed plate is connected with the pivot, pivot outer wall sliding connection has the slide tube.

Further, the upper surface of the base is fixedly connected with a connecting piece, and a motor is arranged at the top of the connecting piece.

Further, the motor output end is fixedly connected with a rotating column, and the side wall of the rotating column is fixedly connected with a connecting table.

Further, a second sliding column is fixedly connected to the top of the sliding tube, a sliding table is slidably connected to the outer wall of the sliding column, and a scraping plate is arranged on the side wall of the sliding table.

Further, the side wall of the sliding table is rotationally connected with a rotary table, and the rotary table is fixedly connected to the top of the connecting table.

Further, the top of the connecting table is provided with a spring III.

The utility model has the following beneficial effects:

1. According to the utility model, the sleeve column is pulled to slide on the outer wall of the connecting pipe, so that the sliding block slides in the sleeve column, the limiting ball is ejected out by the first sliding column, the first sliding column is limited again by the limiting ball after the sleeve column is loosened, and meanwhile, the first spring can enable the connecting column to reset rapidly when the sliding column is detached, so that the quick assembly and disassembly of the probe are realized, the later maintenance or the replacement of the probe is facilitated, different detection requirements are met, and the applicability and the maintenance efficiency of the tool are improved.

2. According to the utility model, the motor is started to drive the rotary column and the connecting table to rotate, the rotating table is driven to rotate on the side wall of the sliding table when the connecting table rotates, meanwhile, the sliding table is driven to slide on the outer wall of the sliding column, the spring III helps the sliding table to reset rapidly, and the sliding table moves up and down and drives the sliding tube to slide on the outer wall of the rotating shaft, so that the scraping plate can clean the table surface of the base, errors of detection results caused by unclean table surface are avoided, and a guarantee is provided for displacement detection.

Drawings

FIG. 1 is a perspective view of an off-line displacement detection tool according to the present utility model;

FIG. 2 is a schematic diagram of a connecting pipe structure of a displacement offline detection tool according to the present utility model;

fig. 3 is a schematic diagram of a fixing plate structure of the displacement offline detection tool according to the present utility model.

Legend description:

1. A base; 2. a detecting machine; 3. a connecting pipe; 4. a sleeve column; 5. a connecting column; 6. a first spring; 7. a first sliding column; 8. a second spring; 9. a limit ball; 10. a slide block; 11. a fixing plate; 12. a rotating shaft; 13. a slide tube; 14. a connecting piece; 15. a motor; 16. a connection station; 17. a rotating column; 18. a second sliding column; 19. a sliding table; 20. a scraper; 21. a turntable; 22. and a third spring.

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 and 2, one embodiment provided by the present utility model is: the utility model provides a displacement off-line measuring instrument, including base 1, base 1 upper surface is provided with detects machine 2, detect machine 2 lateral wall is provided with connecting pipe 3, connecting pipe 3 outer wall sliding connection has the loop column 4, connecting pipe 3 inside sliding connection has a smooth post one 7, smooth post one 7 sliding connection is inside the loop column 4, connecting pipe 3 and smooth post one 7 inside all sliding connection have spliced pole 5, every spliced pole 5 outer wall all overlaps and is equipped with spring one 6, loop column 4 inside is provided with spring two 8, the inside sliding connection of loop column 4 has slider 10, the inside sliding connection of loop column 4 has spacing ball 9, spacing ball 9 outer wall sliding connection is at smooth post one 7 lateral walls, base 1 upper surface is provided with fixed subassembly.

In particular, the sleeve 4 is pulled so that it slides over the outer wall of the connecting tube 3. Along with the movement of the sleeve column 4, the second spring 8 in the sleeve column is compressed, and meanwhile, the sliding block 10 also slides along with the second spring, so that the limit ball 9 is not clamped any more. Next, the spool 7 is pulled so as to slide outward inside the connection pipe 3. The sliding of the first sliding column 7 can push the limiting ball 9 to slide towards the inside of the sleeve column 4, so that the limiting ball 9 does not clamp the first sliding column 7 any more, the first sliding column 7 is disassembled and assembled, and meanwhile, the probe can be quickly reset when being installed through the arrangement of the connecting column 5 and the first spring 6. The advantage of this design lies in that it makes the probe of detecting tool can quick assembly disassembly, makes things convenient for subsequent maintenance or change work. This flexibility allows the tool to accommodate different probing requirements while also improving the maintenance efficiency of the tool.

Referring to fig. 3, the fixing assembly comprises a fixing plate 11, a plurality of fixing plates 11 are fixedly connected to the upper surface of a base 1, a rotating shaft 12 is rotatably connected to the inside of the fixing plate 11, a slide tube 13 is slidably connected to the outer wall of the rotating shaft 12, a connecting piece 14 is fixedly connected to the upper surface of the base 1, a motor 15 is arranged at the top of the connecting piece 14, a rotating column 17 is fixedly connected to the output end of the motor 15, a connecting table 16 is fixedly connected to the side wall of the rotating column 17, a slide column second 18 is fixedly connected to the top of the slide tube 13, a sliding table 19 is slidably connected to the outer wall of the slide column second 18, a scraping plate 20 is arranged on the side wall of the sliding table 19, a rotary table 21 is rotatably connected to the side wall of the sliding table 19, the rotary table 21 is fixedly connected to the top of the connecting table 16, and a spring third 22 is arranged at the top of the connecting table 16.

Specifically, the motor 15 operates to output a rotational force through the top of the connecting member 14, thereby driving the rotary column 17 to start rotating. The movement of the rotary column 17 simultaneously guides the turntable 21 to rotate on the side wall of the slide table 19. At this time, since the connection table 16 and the sliding table 19 are not in parallel positions, the sliding table 19 slides on the outer wall of the second strut 18, and the sliding of the sliding table 19 also drives the turntable 21 to move. When the sliding table 19 approaches the connecting table 16 in height, the third spring 22 applies pressure to the turntable 21, so that the sliding tube 13 slides under the action of force on the outer wall of the rotating shaft 12. The design enables the sliding table 19 to move up and down, and the sliding tube 13 can slide left and right, so that the scraping plate 20 can clean the table top efficiently, detection result errors caused by unclean table top are avoided, necessary guarantee can be provided for displacement detection by cleaning the working table top regularly, and accuracy and reliability of detection results are ensured

Working principle: when the detection probe needs to be replaced or maintained, the sleeve column 4 is pulled firstly, so that the sleeve column 4 slides on the outer wall of the connecting pipe 3, the spring II 8 in the sleeve column 4 is compressed while the sleeve column 4 moves, then the sliding block 10 slides along the sleeve column 4 and does not clamp the limit ball 9, the sliding column I7 is pulled at the moment, so that the sliding column I7 slides outwards in the connecting pipe 3, the side wall of the sliding column I7 pushes the limit ball 9 to drive the limit ball 9 to slide inwards of the sleeve column 4 while the sliding column I7 slides, the limit ball 9 does not clamp the sliding column I7, so that the sliding column I7 can be separated from the connecting pipe 3, the disassembly and the assembly of the sliding column I7 can be realized, meanwhile, the setting of the connecting column 5 and the spring I6 can be quickly reset when the probe is installed, the detection probe of the detection tool can be quickly disassembled, the later maintenance or the probe replacement is facilitated, in order to meet different detection requirements, the applicability and maintenance efficiency of the tool are improved, when the working table of the tool is required to be cleaned, the motor 15 is started, the motor 15 outputs rotary force at the top of the connecting piece 14 to drive the rotary column 17 to rotate, the rotary column 17 rotates and simultaneously drives the rotary table 21 to rotate on the side wall of the sliding table 19, the sliding table 19 slides on the outer wall of the sliding column II 18 due to the fact that the connecting table 16 and the sliding table 19 are not in parallel positions, the sliding table 19 slides and simultaneously drives the rotary table 21 to slide in a following manner, when the sliding table 19 is close to the connecting table 16 in height, the spring III 22 outputs pressure to the rotary table 21 to enable the sliding tube 13 to slide on the outer wall of the rotary shaft 12, the scraping plate 20 can effectively clean the table by means of up-down displacement of the sliding table 19 and left-right sliding of the sliding tube 13, errors caused by unclean table surface detection results are avoided, and provides a guarantee for displacement detection.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present utility model, and although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present utility model.

Claims (8)

1. Displacement off-line detection instrument, including base (1), its characterized in that: the utility model discloses a detection device, including base (1), connecting pipe (4), connecting pipe (3) inside sliding connection has post (7), post (7) sliding connection is in post (4) inside, connecting pipe (3) with post (7) inside all sliding connection has spliced pole (5), every spliced pole (5) outer wall all overlaps and is equipped with spring one (6), post (4) inside is provided with spring two (8), post (4) inside sliding connection has slider (10), post (4) inside sliding connection has spacing ball (9), spacing ball (9) outer wall sliding connection is in post one (7) lateral wall, base (1) upper surface is provided with fixed subassembly.

2. The displacement offline detection tool according to claim 1, wherein: the fixing assembly comprises a fixing plate (11), and a plurality of fixing plates (11) are fixedly connected to the upper surface of the base (1).

3. The displacement offline detection tool according to claim 2, wherein: the inside rotation of fixed plate (11) is connected with pivot (12), pivot (12) outer wall sliding connection has slide tube (13).

4. A displacement offline detection tool according to claim 3, characterized in that: the upper surface of the base (1) is fixedly connected with a connecting piece (14), and a motor (15) is arranged at the top of the connecting piece (14).

5. The displacement offline detection tool of claim 4, wherein: the motor (15) output fixedly connected with swivel post (17), swivel post (17) lateral wall fixedly connected with connection platform (16).

6. The displacement offline detection tool of claim 5, wherein: the sliding tube is characterized in that a second sliding column (18) is fixedly connected to the top of the sliding tube (13), a sliding table (19) is slidably connected to the outer wall of the second sliding column (18), and a scraping plate (20) is arranged on the side wall of the sliding table (19).

7. The displacement offline detection tool according to claim 6, wherein: the side wall of the sliding table (19) is rotationally connected with a rotary table (21), and the rotary table (21) is fixedly connected to the top of the connecting table (16).

8. The displacement offline detection tool according to claim 7, wherein: and a spring III (22) is arranged at the top of the connecting table (16).