CN220583272U

CN220583272U - Building thickness detection device

Info

Publication number: CN220583272U
Application number: CN202321853966.0U
Authority: CN
Inventors: 王树强
Original assignee: Yangzhou Construction Engineering Quality Testing Center Ltd
Current assignee: Yangzhou Construction Engineering Quality Testing Center Ltd
Priority date: 2023-07-14
Filing date: 2023-07-14
Publication date: 2024-03-12
Anticipated expiration: 2033-07-14

Abstract

The utility model belongs to the technical field of building thickness detection, in particular to a building thickness detection device, which comprises a measurement plate, wherein a first positioning plate is welded at the front end of the measurement plate, a chute is formed in the measurement plate, a fixed block is arranged in the chute, a spring is welded on the fixed block, the other end of the spring is connected with a moving block, a first groove is formed in a rear plate of the measurement plate, a first connecting block is arranged in the first groove, a second positioning plate is welded on the first connecting block, a second groove is formed in a front plate of the measurement plate, the moving block moves towards a wall surface under the thrust of the spring, at the moment, the wall body is simultaneously attached to the first positioning plate and the second positioning plate, the two sides of the moving block are respectively connected with the second positioning plate and the pointing plate, and the points of the pointing plate is the thickness value of the wall body.

Description

Building thickness detection device

Technical Field

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

Background

In the building construction process, the thickness of a building is required to be measured, so that the thickness of the wall body can be known, real-time monitoring of the thickness of the wall body is realized, construction operation is convenient, and a thickness detection device is required to be used in the process of detecting the thickness of the wall body of the building.

The thickness detection device mainly comprises tools such as a tape measure, and the tape measure is attached to the wall body, so that the tape measure and the wall body are in a vertical state, scale values are read, and the thickness detection of the wall body is realized.

The existing thickness detection device measures through a tape measure, and when the tape measure shakes in the measuring process, the end face of the tape measure cannot be attached to a wall surface, so that deviation occurs in a detection result, and the detection accuracy is affected; accordingly, a building thickness detection device is proposed to address the above-described problems.

Disclosure of Invention

In order to make up the defects of the prior art and solve the problems existing in the prior art, the utility model provides a building thickness detection device.

The technical scheme adopted for solving the technical problems is as follows: the utility model discloses a building thickness detection device, which comprises a measurement plate, wherein a first positioning plate is welded at the front end of the measurement plate, a chute is formed in the measurement plate, a fixed block is assembled in the chute, the fixed block slides in a matched manner with the chute, a spring is welded on the fixed block, the other end of the spring is connected with a moving block, the moving block is assembled in the chute, a first groove is formed in the rear plate of the measurement plate, a first connecting block is assembled in the first groove, a second positioning plate is welded on the first connecting block, the second positioning plate is attached to the rear plate of the measurement plate, a second groove is formed in the front plate of the measurement plate, a second connecting block is assembled in the second groove, a pointing plate is welded on the second connecting block, the pointing plate is attached to the front plate of the measurement plate, the front plate is provided with a scale mark, the moving block is pushed towards the fixed block at the moment, the spring is compressed on the two sides of a wall, the first positioning plate and the second positioning plate are placed on the two sides of the wall, the same side face as the moving block, and the two sides of the moving block are attached to the second positioning plate, and the two sides of the wall face are attached to the wall, namely, the pointing plate is attached to the two side of the wall face of the wall, and the wall face of the wall is attached to the second positioning plate, and the second positioning plate is attached to the second positioning plate.

Preferably, the draw-in groove has been seted up on the measuring board front bezel, the draw-in groove is provided with the multiunit and is array structure setting, symmetrical welding has two sets of connecting plates on the fixed block, rotates through the pin between two sets of connecting plates and is connected with the cardboard, the cardboard assembly is in the draw-in groove, through the cardboard card on the fixed block in a draw-in groove that is close to the right flank of wall body, has realized that the position of fixed block is motionless, is of value to the position of quick adjustment fixed block according to the thickness of wall body.

Preferably, the fixed plate is welded on the measuring plate bottom wall, the first clamping plate is welded on the fixed plate, the screw rod is connected to the first clamping plate through the rotation of the bearing, the supporting plate is connected to the fixed plate through the rotation, the screw rod penetrates through the fixed plate and the supporting plate, the second clamping plate is sleeved on the screw rod, threads are arranged on the second clamping plate and slide through the matching of the threads and the screw rod, the knob is welded on the top end of the screw rod, the base is welded on the bottom end of the supporting plate, the measuring plate can freely rotate on the supporting plate through the measuring plate, the first positioning plate on the measuring plate is attached to the left side face of the wall body, the measuring plate is in an inclined state, the measuring plate is in a vertical state with the wall body, the measuring plate is rapidly placed vertically with the wall body, the rotating knob is used for clamping the fixed plate and the supporting plate through the second clamping plate on the screw rod, the measuring plate is rapidly fixed in a state vertical to the wall body, and the detection efficiency is improved.

The utility model has the advantages that:

1. according to the utility model, the moving block is pushed to the fixed block, the springs are compressed at the moment, the first locating plate and the second locating plate are placed on two sides of the wall body, the first locating plate is attached to the left side face of the wall body, the moving block is released, the moving block moves towards the wall surface under the pushing force of the springs until the second locating plate is attached to the surface of the wall body, at the moment, the wall body is simultaneously attached to the first locating plate and the second locating plate, the two sides of the moving block are respectively connected with the second locating plate and the pointing plate, the points of the pointing plate are the thickness value of the wall body, the structure enables the first locating plate and the second locating plate to be tightly attached to the wall body, the detection accuracy is improved, and the fixed position of the fixed block is realized by clamping the clamping plate on the fixed block in the clamping groove close to the right side face of the wall body, so that the position of the fixed block can be quickly adjusted according to the thickness of the wall body.

2. According to the utility model, the measuring plate can freely rotate on the supporting plate, the first positioning plate on the measuring plate is attached to the left side surface of the wall body, the measuring plate is in an inclined state, the measuring plate is in a vertical state with the wall body, the measuring plate is rapidly placed vertically with the wall body, the knob is rotated, the second clamping plate and the first clamping plate on the screw rod clamp the fixing plate and the supporting plate, the angle of the measuring plate is fixed, the measuring plate is rapidly fixed in a state vertical to the wall body, and the detection efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained from these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a schematic perspective view of a first view;

FIG. 2 is a schematic view of a spring-mounted three-dimensional structure;

FIG. 3 is a schematic view of the internal three-dimensional structure of the chute;

fig. 4 is a schematic view of a perspective structure at a screw.

In the figure: 1. a measuring plate; 2. a first positioning plate; 3. a chute; 4. a fixed block; 5. a spring; 6. a moving block; 7. a first groove; 8. a first connection block; 9. a second positioning plate; 10. a second groove; 11. a second connection block; 12. a pointing plate; 13. a scale; 14. a clamping groove; 15. a connecting plate; 16. a clamping plate; 17. a fixing plate; 18. a first clamping plate; 19. a screw; 20. a support plate; 21. a second clamping plate; 22. a knob; 23. and (5) a base.

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. 1-3, a building thickness detection device includes a measurement board 1, a first positioning board 2 is welded at the front end of the measurement board 1, a chute 3 is provided in the measurement board 1, a fixed block 4 is assembled in the chute 3, the fixed block 4 slides in cooperation with the chute 3, a spring 5 is welded on the fixed block 4, the other end of the spring 5 is connected with a moving block 6, the moving block 6 is assembled in the chute 3, a first groove 7 is provided on the rear board of the measurement board 1, a first connecting block 8 is assembled in the first groove 7, a second positioning board 9 is welded on the first connecting block 8, a second groove 10 is provided on the front board of the measurement board 1, a second connecting block 11 is assembled in the second groove 10, a pointing board 12 is welded on the second connecting block 11, a scale 13 is marked on the front board of the measurement board 1, a clamping groove 14 is provided on the front board of the measurement board 1, a plurality of groups of clamping grooves 14 are arranged in an array structure, the fixed block 4 is symmetrically arranged, and two groups of clamping plates 16 are connected between two groups of clamping plates 16 by welding pins 16 in the two groups of connecting plates 16; during operation, the existing thickness detection device measures through the tape measure, when the tape measure shakes, the end face of the tape measure cannot be attached to the wall surface, deviation occurs to detection results, accuracy of detection is affected, through attaching the measuring plate 1 to the wall surface, the first positioning plate 2 is attached to the left side face of the wall body, the clamping plate 16 on the fixing block 4 is clamped in a clamping groove 14 close to the right side face of the wall body, at the moment, the position of the fixing block 4 is fixed, the spring 5 on the fixing block 4 is connected with the moving block 6, the moving block 6 is pushed to the fixing block 4, at the moment, the spring 5 is compressed, the first positioning plate 2 and the second positioning plate 9 are placed on two sides of the wall body, the moving block 6 is loosened, the moving block 6 moves towards the wall surface until the second positioning plate 9 is attached to the wall surface, at the moment, the wall body is attached to the first positioning plate 2 and the second positioning plate 9 at the same time, the two sides of the moving block 6 are respectively connected with the second positioning plate 9 and the pointing plate 12, at the moment, the thickness of the pointing plate 12 is the first positioning plate is the thickness 13, and the accuracy of the wall body is improved, and the thickness of the first positioning plate is enabled to be attached to the thickness of the wall body, and the thickness of the wall body is detected.

Referring to fig. 4, a fixed plate 17 is welded on the bottom wall of the measuring plate 1, a first clamping plate 18 is welded on the fixed plate 17, a screw 19 is rotatably connected to the first clamping plate 18 through a bearing, a supporting plate 20 is rotatably connected to the fixed plate 17, the screw 19 penetrates through the fixed plate 17 and the supporting plate 20, a second clamping plate 21 is sleeved on the screw 19, threads are formed on the second clamping plate 21 and slide in cooperation with the screw 19 through the threads, a knob 22 is welded at the top end of the screw 19, and a base 23 is welded at the bottom end of the supporting plate 20; during operation, the existing wall body is in a tilting state, the measuring tape cannot be in a vertical state with the wall body rapidly, so that detection efficiency is low, the base 23 is placed on the ground, the knob 22 is rotated, the screw 19 is driven to rotate, the second clamping plate 21 on the screw 19 moves horizontally, the fixing plate 17 and the supporting plate 20 are loosened, the measuring plate 1 can freely rotate on the supporting plate 20 at the moment, the first positioning plate 2 is vertically arranged with the measuring plate 1, the first positioning plate 2 on the measuring plate 1 is attached to the left side face of the wall body, the measuring plate 1 is in a tilting state, the measuring plate 1 is in a vertical state with the wall body, the measuring plate 1 is rapidly placed in a vertical state with the wall body, the knob 22 is reversely rotated, the second clamping plate 21 on the screw 19 clamps the fixing plate 17 and the supporting plate 20, the angle of the measuring plate 1 is rapidly fixed in a state perpendicular to the wall body, and detection efficiency is improved.

The working principle is that the existing thickness detection device measures through a tape measure, when the tape measure shakes, the end face of the tape measure cannot be attached to the wall surface, so that deviation occurs to the detection result, the accuracy of detection is affected, the first positioning plate 2 is attached to the left side face of the wall body, the clamping plate 16 on the fixing block 4 is clamped in a clamping groove 14 close to the right side face of the wall body, the position of the fixing block 4 is fixed, the spring 5 on the fixing block 4 is connected with the moving block 6, the moving block 6 is pushed to the fixing block 4, the spring 5 is compressed at the moment, the first positioning plate 2 and the second positioning plate 9 are placed on two sides of the wall body, the first positioning plate 2 is attached to the left side face of the wall body, the moving block 6 is released, the moving block 6 moves towards the wall surface under the thrust of the spring 5 until the second positioning plate 9 is attached to the surface of the wall body, the wall body is simultaneously attached to the first positioning plate 2 and the second positioning plate 9, the two sides of the moving block 6 are respectively connected with the second positioning plate 9 and the pointing plate 12, the scale 13 pointed by the pointing plate 12 is the thickness value of the wall body, the structure enables the first positioning plate 2 and the second positioning plate 9 to be tightly attached to the wall body, the detection accuracy is improved, in the existing wall body measuring process, the measuring tape cannot be quickly perpendicular to the wall body due to the inclined state of the wall body, the detection efficiency is lower, the screw 19 is driven to rotate by placing the base 23 on the ground, the second clamping plate 21 on the screw 19 horizontally moves, the fixed plate 17 and the supporting plate 20 are loosened, the measuring plate 1 can freely rotate on the supporting plate 20, the first positioning plate 2 is vertically arranged with the measuring plate 1, the first positioning plate 2 on the measuring plate 1 is attached to the left side surface of the wall body, the measuring board 1 is in an inclined state, the measuring board 1 and the wall body are in a vertical state, the measuring board 1 is quickly placed vertically with the wall body, the knob 22 is reversely rotated, the second clamping plate 21 and the first clamping plate 18 on the screw 19 clamp the fixing plate 17 and the supporting plate 20, the angle of the measuring board 1 is fixed, the measuring board 1 is quickly fixed in a state vertical to the wall body, and the detection efficiency is improved.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims.

Claims

1. The building thickness detection device is characterized by comprising a measurement plate (1), wherein a first positioning plate (2) is welded at the front end of the measurement plate (1), a sliding groove (3) is formed in the measurement plate (1), a fixed block (4) is assembled in the sliding groove (3), the fixed block (4) slides in cooperation with the sliding groove (3), a spring (5) is welded on the fixed block (4), a moving block (6) is connected to the other end of the spring (5), the moving block (6) is assembled in the sliding groove (3), a first groove (7) is formed in the rear plate of the measurement plate (1), a first connecting block (8) is assembled in the first groove (7), a second positioning plate (9) is welded on the first connecting block (8), a second groove (10) is formed in the front plate of the measurement plate (1), a second groove (10) is assembled in the second groove (11), and a second connecting block (11) is welded on the front plate (1), and is connected to the front connecting block (12) in a pointing mode.

2. A building thickness detection apparatus according to claim 1, wherein: the front plate of the measuring plate (1) is provided with clamping grooves (14), and the clamping grooves (14) are provided with a plurality of groups and are arranged in an array structure.

3. A building thickness detection apparatus according to claim 1, wherein: two groups of connecting plates (15) are symmetrically welded on the fixed block (4), clamping plates (16) are connected between the two groups of connecting plates (15) through pins in a rotating mode, and the clamping plates (16) are assembled in the clamping grooves (14).

4. A building thickness detection apparatus according to claim 1, wherein: the measuring plate is characterized in that a fixed plate (17) is welded on the bottom wall of the measuring plate (1), a first clamping plate (18) is welded on the fixed plate (17), and a screw (19) is connected to the first clamping plate (18) through a bearing in a rotating mode.

5. The building thickness detection apparatus according to claim 4, wherein: the fixing plate (17) is rotatably connected with a supporting plate (20), and the screw rod (19) penetrates through the fixing plate (17) and the supporting plate (20).

6. The building thickness detection apparatus according to claim 5, wherein: the screw rod (19) is sleeved with a second clamping plate (21), threads are formed on the second clamping plate (21) and slide in a matched mode with the screw rod (19) through the threads, a knob (22) is welded at the top end of the screw rod (19), and a base (23) is welded at the bottom end of the supporting plate (20).