CN213021484U

CN213021484U - Building wall surface detection equipment

Info

Publication number: CN213021484U
Application number: CN202022394251.6U
Authority: CN
Inventors: 李建伟; 张凯; 王海洋
Original assignee: Zhejiang Zhongji Construction Engineering Detection Co ltd
Current assignee: Zhejiang Zhongji Construction Engineering Detection Co ltd
Priority date: 2020-10-23
Filing date: 2020-10-23
Publication date: 2021-04-20
Anticipated expiration: 2030-10-23

Abstract

The utility model belongs to the technical field of check out test set's technique and specifically relates to a building wall check out test set is related to, and it includes translation subassembly and runner assembly, the translation subassembly is including removing frame and guide rail, remove a swing joint in guide rail, the runner assembly includes laser range finder, laser range finder rotates to be located and removes on the frame. When the laser range finder rotates to measure two vertical points of the first blocking wall, the laser range finder rotates reversely to measure the vertical points of the first blocking wall and face the second blocking wall; then move the movable frame along guide rail length direction to rotate and measure the other vertical two points of first stifled wall, later reverse measurement second stifled wall, then handle the data of first stifled wall and second stifled wall respectively. This application has the advantage that improves wall flatness measurement efficiency.

Description

Building wall surface detection equipment

Technical Field

The application relates to the technical field of check out test set, especially relate to a building wall check out test set.

Background

The flatness of the building wall surface is an index of the structure quality, and the clearance gauge is generally matched with the guiding rule for measurement.

Through retrieval, a Chinese patent with an authorization publication number of CN210089596U discloses a building wall surface detection device, which comprises a bottom plate, a slide rail, a slide block, a support frame, a cylinder, a vertical plate, a movable rod and the like; two slide rails are arranged below the bottom plate, a slide block is arranged on the slide rails in a sliding mode, and the top of the slide block is fixedly connected with the bottom of the bottom plate.

With respect to the related art, the inventors consider that: after the building wall surface detection equipment measures the flatness of one wall, the flatness of the next wall can be continuously measured, so that the measurement efficiency of the related technology is low.

SUMMERY OF THE UTILITY MODEL

In order to improve the efficiency that the wall roughness was measured, this application provides a building wall check out test set.

The application provides a building wall check out test set adopts following technical scheme:

the utility model provides a building wall check out test set, its includes translation subassembly and runner assembly, the translation subassembly is including removing frame and guide rail, remove a swing joint in guide rail, the runner assembly includes laser range finder, laser range finder rotates to be located and removes on the frame.

Through above-mentioned technical scheme, settle the guide rail parallel earlier between relative wall, later will remove frame movable mounting on the guide rail, then open laser range finder. When the laser range finder rotates to measure two vertical points of the first blocking wall, the laser range finder rotates reversely to measure a second blocking wall opposite to the first blocking wall; and then, the moving frame moves along the length direction of the guide rail, other vertical two points of the first blocking wall are measured in a rotating mode, the second blocking wall is measured in a reverse mode, then the data of the first blocking wall and the data of the second blocking wall are processed respectively, and finally the wall surface flatness of the first blocking wall and the wall surface flatness of the second blocking wall are obtained.

Optionally, the movable frame comprises a groove body, the rotating assembly further comprises a rotating shaft, the rotating shaft is rotatably arranged in the groove body, and the laser range finder is arranged on the rotating shaft in the groove body.

Through above-mentioned technical scheme, laser range finder fixed mounting rotates the pivot alright messenger laser range finder and rotates in the pivot to measure the roughness of wall.

Optionally, the outer wall of the tank body is provided with a rotating motor, the side wall of the tank body is provided with a mounting hole, and an output shaft of the rotating motor penetrates through the mounting hole and is connected to the rotating shaft.

Through above-mentioned technical scheme, under the effect of rotating electrical machines, the pivot begins to rotate to drive laser range finder and rotate, stop rotating electrical machines during the measurement, laser range finder can stably launch laser and measured data.

Optionally, the rotating electrical machine is provided with a mounting plate, the mounting plate is provided with a bolt, and the bolt penetrates through the mounting plate and fixes the mounting plate on the outer wall of the tank body.

Through above-mentioned technical scheme, take out bolt spare alright separation mounting panel and cell body to conveniently dismantle or change the rotating electrical machines.

Optionally, a guide block is arranged on the inner wall of the groove body, and one end of the rotating shaft penetrating through the groove body is rotatably connected to the guide block.

Through above-mentioned technical scheme, the guide block has the guide effect, is difficult to deviate from the axial direction of pivot when the pivot rotates to make laser range finder stable output laser and measure.

Optionally, the movable frame further comprises a frame body, the groove body is arranged on the frame body, rollers are arranged at the bottom of the frame body, and the rollers are abutted to the guide rails.

Through the technical scheme, the support body is in rolling translation in the guide rail through the roller, so that the groove body and the laser range finder arranged on the groove body can carry out measurement along the length direction of the guide rail.

Optionally, a plurality of first limiting holes are formed in the guide rail, a second limiting hole is formed in the roller, and limiting parts for limiting the movement of the roller are arranged in the first limiting hole and the second limiting hole.

Through the technical scheme, the idler wheel is easy to deviate in the guide rail, so that the laser range finder shakes during measurement, the idler wheel is limited by the limiting part to move along the two sides of the idler wheel, the moving frame is stable, and the laser range finder is stable in measurement.

Optionally, the two ends of the guide rail are respectively provided with a tripod, the guide rail is provided with a first screw hole, the tripod is provided with a second screw hole, and the first screw hole and the second screw hole are internally provided with adjusting bolts.

Through above-mentioned technical scheme, when the ground unevenness of settling the guide rail, through at guide rail both ends installation tripod, adjust the tripod simultaneously and make the removal frame steady.

Optionally, a level gauge used for cooperating with a tripod to work is arranged on the moving frame.

Through the technical scheme, whether the rack body is in the horizontal state or not can be clearly observed through the display condition of the air bubbles in the level gauge

In summary, the present application includes at least one of the following beneficial technical effects:

1. the flatness measurement work of two wall surfaces can be simultaneously carried out;

2. the roller moves on the guide rail, so that the moving frame moves along the length direction of the guide rail, and the laser ranging measurement is facilitated;

3. through set up the tripod at guide rail both ends, then adjust the tripod for it is steady to remove the frame.

Drawings

FIG. 1 is a schematic overall structure diagram of a first embodiment of the present application;

FIG. 2 is a schematic structural view of a pan carriage and a rotation assembly according to an embodiment of the present disclosure;

FIG. 3 is a schematic overall structure diagram of a second embodiment of the present application;

fig. 4 is a schematic diagram of a partial explosion structure according to the second embodiment of the present application.

Description of reference numerals: 1. a translation assembly; 11. a movable frame; 111. a trough body; 112. a frame body; 113. a groove; 12. a guide rail; 121. a translation channel; 122. mounting holes; 123. a first limit hole; 124. a first screw hole; 125. a guide block; 126. a guide groove; 13. a roller; 131. a second limiting hole; 14. a limiting member; 2. a rotating assembly; 21. a laser range finder; 22. a rotating shaft; 23. a rotating electric machine; 231. mounting a plate; 232. a bolt member; 3. a tripod; 31. a second screw hole; 32. adjusting the bolt; 4. a level gauge.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

Example one

This embodiment discloses building wall check out test set, refer to fig. 1, and it includes translation subassembly 1 and

rotating assembly

2, and 2 roll connections of rotating assembly are in translation subassembly 1, and rotating assembly 2 rolls the translation along wall length direction between the wall that two stifled levels were established mutually to rotating assembly 2 rotates the data of measuring two walls on translation subassembly 1.

The translation assembly 1 comprises a moving frame 11 and a guide rail 12, wherein the bottom of the moving frame 11 is mounted on the guide rail 12, and the moving frame 11 can move along the length direction of the guide rail 12.

Referring to fig. 1 and 2, the movable frame 11 includes a trough 111 and a frame 112, and the bottom of the trough 111 is fixedly connected to the top of the frame 112. The groove 111 is formed with a rectangular groove 121 extending from one side to the other side, and the groove 121 is formed in a direction facing the wall surface.

The frame body 112 comprises three strip-shaped block bodies, wherein two strip-shaped block bodies are respectively and fixedly connected to the end part of the other strip-shaped block body, and the three strip-shaped block bodies form the ladder-shaped frame body 112. The end parts of the two strip-shaped blocks, which are far away from the other strip-shaped block, are respectively connected with a roller 13 in a rolling manner, and the two rollers 13 are embedded in the guide rail 12.

The guide rail 12 is rectangular, a rectangular translation channel 113 is formed by penetrating from one side to the other side, a plurality of first limiting holes 123 are formed in the side wall of the translation channel 113, and the distance between every two adjacent first limiting holes 123 is consistent with the distance between every two rollers 13.

The roller 13 is provided with a second limiting hole 131 corresponding to the first limiting hole 123, and a limiting member 14 for limiting the movement of the roller 13 is abutted in the first limiting hole 123 and the second limiting hole 131. The first limiting hole 123 and the second limiting hole 131 are both square, the limiting member 14 is a square pin adapted to the first limiting hole 123 and the second limiting hole 131, and the square limiting member 14 is inserted into the first limiting hole 123 and the second limiting hole 131 to limit the movement of the roller 13.

The rotating assembly 2 comprises a laser distance measuring device 21, a rotating shaft 22 and a rotating motor 23, wherein the laser distance measuring device 21 is fixedly arranged on the rotating shaft 22. The rotating electrical machine 23 is fixed with an installation plate 231 towards one side of the tank body 111, four corners of the installation plate 231 are respectively provided with a bolt 232, the bolt 232 is a bolt, and four bolts pass through the installation plate 231 and fix the installation plate 231 on the side wall of the tank body 111.

Meanwhile, a mounting hole 122 is formed in the outer wall of the groove body 111, one end of the output shaft of the rotating motor 23, which abuts against and penetrates through the mounting hole 122, is connected to the rotating shaft 22, the laser range finder 21 is fixedly mounted on the rotating shaft 22, and the laser range finder 21 is located in the groove 121.

A guide block 125 is fixed on one side of the groove 121 far away from the rotating motor 23, a guide groove 126 is formed on one side of the guide block 125 close to the laser range finder 21, and the guide groove 126 is circular and is matched with the end of the rotating shaft 22. The end of the rotating shaft 22 passing through the groove 121 is rotatably abutted to the guide groove 126, and the guide block 125 is used for sharing the acting force of the laser range finder 21 on the rotating shaft 22.

The implementation principle of the embodiment is as follows:

in the using step I, the guide rail 12 is arranged between two wall surfaces which are arranged in parallel;

using the second step, the roller 13 on the frame 112 is abutted to a position in the translation channel 113, and the position is taken as a first measuring station, and the movement of the roller 13 is limited by the limiting part 14;

starting the rotating motor 23, enabling the laser range finder 21 to emit laser to one of the walls from top to bottom, and recording a first group of data;

the using step four, reversely rotating the laser range finder 21 to enable the laser range finder 21 to face to the other wall, and measuring and recording a second group of data;

using the fifth step, translating the movable frame 11 to a second measuring station, and sequentially measuring and recording a third group of data and a fourth group of data according to the second, third and fourth using steps;

and finally, analyzing the data of the first measuring station and the second measuring station, and further calculating the flatness of the two walls, so that the scheme has the advantage of improving the measuring efficiency compared with the related technology.

Example two

Referring to fig. 3 and 4, the difference between the present embodiment and the first embodiment is:

uneven ground and the rotating motor 23 can make the moving frame 11 vibrate when working, and then make the measured data inaccurate, so respectively install a liftable tripod 3 at both ends of guide rail 12, and install the spirit level 4 that is used for observing the stationarity of frame body 112 on one side of frame body 112.

First screw 124 has been seted up to guide rail 12 one end, and tripod 3 has been seted up second screw 31 corresponding first screw 124, installs adjusting bolt 32 on the tripod 3, and adjusting bolt 32 passes second screw 31 and first screw 124 in proper order to be fixed in respectively on the tripod 3 with guide rail 12 both ends.

The implementation principle of the embodiment is as follows:

the two ends of the guide rail 12 are fixed on the tripod 3 through the adjusting bolts 32 respectively, then the operation is carried out according to the using steps in the implementation principle of the embodiment I, and finally the tripod 3 is adjusted respectively to enable the moving frame 11 to be stable and level, and the stability can be known by observing the level gauge 4. And in the state that the rotating motor 23 is operated, whether the level 4 is stable or not is observed, and if the level is deviated, the tripod 3 is readjusted and the moving frame 11 is used stably again.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides a building wall check out test set which characterized in that: including translation subassembly (1) and runner assembly (2), translation subassembly (1) is including removing frame (11) and guide rail (12), remove frame (11) swing joint in guide rail (12), runner assembly (2) includes laser range finder (21), laser range finder (21) rotate locate on removing frame (11).

2. The building wall detecting apparatus of claim 1, wherein: remove frame (11) and include cell body (111), runner assembly (2) still include pivot (22), pivot (22) are rotated and are located in cell body (111), laser range finder (21) are located on pivot (22) in cell body (111).

3. The building wall detecting apparatus of claim 2, wherein: the outer wall of the tank body (111) is provided with a rotating motor (23), the side wall of the tank body (111) is provided with a mounting hole (122), and an output shaft of the rotating motor (23) penetrates through the mounting hole (122) and is connected to the rotating shaft (22).

4. The building wall detecting apparatus of claim 3, wherein: be equipped with mounting panel (231) on rotating electrical machines (23), be equipped with bolt spare (232) on mounting panel (231), bolt spare (232) pass mounting panel (231) to be fixed in mounting panel (231) outer wall in cell body (111).

5. The building wall detecting apparatus of claim 2, wherein: be equipped with guide block (125) on the cell body (111) inner wall, the one end that pivot (22) wore through cell body (111) rotates and connects in guide block (125).

6. The building wall detecting apparatus of claim 2, wherein: the movable frame (11) further comprises a frame body (112), the groove body (111) is arranged on the frame body (112), the bottom of the frame body (112) is provided with a roller (13), and the roller (13) is abutted to the guide rail (12).

7. The building wall detecting apparatus of claim 6, wherein: the guide rail (12) is provided with a plurality of first limiting holes (123), the roller (13) is provided with second limiting holes (131), and limiting parts (14) used for limiting the movement of the roller (13) are arranged in the first limiting holes (123) and the second limiting holes (131).

8. The building wall detecting apparatus of claim 1, wherein: the guide rail (12) both ends all are equipped with tripod (3), first screw (124) have been seted up on guide rail (12), second screw (31) have been seted up on tripod (3), be equipped with adjusting bolt (32) in first screw (124) and second screw (31).

9. The building wall detecting apparatus of claim 8, wherein: the movable rack (11) is provided with a level (4) used for being matched with the tripod (3) to work.