CN220153543U - Concrete thickness detecting instrument for engineering quality detection - Google Patents

Abstract

The utility model discloses a concrete thickness detection instrument for engineering quality detection, which comprises a detector main body, a detector handle, four movable rollers and four auxiliary marking boxes, wherein the top of the detector main body is fixedly connected with the bottom of the detector handle, the four movable rollers are movably connected with the detector main body through a rotating shaft, the four movable rollers are uniformly and symmetrically distributed, one side, opposite to the four auxiliary marking boxes, is fixedly connected with the detector main body, the four auxiliary marking boxes are uniformly and symmetrically distributed, and a cavity is formed in the auxiliary marking boxes. According to the utility model, by arranging the detector main body, the detector handle, the four movable rollers and the four auxiliary scribing boxes, the effects that on the premise of not influencing the normal use of equipment, a worker can conveniently and rapidly use chalk, the accuracy of position marks is improved, the use of the worker is facilitated, the working efficiency of the worker is improved, and the whole process of quality detection is more accurate and rapid are achieved.

Description

Concrete thickness detecting instrument for engineering quality detection

Technical Field

The utility model belongs to the technical field of construction engineering quality detection, and particularly relates to a concrete thickness detection instrument for engineering quality detection.

Background

The construction project quality detection means that the materials, construction parts, equipment, project entity quality, use functions and the like of the construction project are tested and the quality characteristics of the construction project are determined according to relevant national laws, regulations and mandatory standards and design files of the project construction, the detection of the project quality has important significance, people cannot leave the construction with various sizes at ordinary times, so that the construction facilities with unqualified project quality have great danger hidden danger, the construction facilities are subjected to quality detection by the existing equipment in the process of finishing the construction project, so as to remove and prevent the danger hidden danger, people often need equipment to assist in the process of quality detection, the existing equipment is developed to assist people in detecting the concrete thickness, the existing equipment can also detect the objects such as steel bars mixed in the concrete in a marking mode, the detection of the concrete thickness can avoid the interference objects, the detection result is more accurate, the workers need to hold the equipment while carrying the equipment in the process of the construction projects in actual use, the chalk is not influenced by the accurate detection result, the chalk is not influenced by the chalk, the detection error is not convenient to use of the chalk, the quality of the chalk is greatly influenced by the accurate detection error of the equipment, and the chalk is not convenient to use the accurate detection of the chalk is brought forward to the accurate detection position of the workers, the whole flow of quality detection is more accurate and quicker.

Disclosure of Invention

Aiming at the problems existing in the prior art, the utility model provides the concrete thickness detection instrument for engineering quality detection, which has the advantage of convenient use, solves the problems that when the conventional equipment is in actual use, workers often need to hold equipment while using chalks to mark the positions in four corners, inconvenience is caused to the workers, meanwhile, the error of the position marks is larger, the accuracy of detection results is influenced, and the safety of people is compromised, so that the concrete thickness detection instrument for engineering quality detection is provided, and can enable the workers to conveniently and rapidly use the chalks on the premise that the normal use of the equipment is not influenced, improve the accuracy of the position marks, facilitate the use of the workers, improve the working efficiency of the workers, and enable the whole flow of quality detection to be more accurate and quicker.

The utility model discloses a concrete thickness detection instrument for engineering quality detection, which comprises a detector main body, a detector handle, four movable rollers and four auxiliary marking boxes, wherein the top of the detector main body is fixedly connected with the bottom of the detector handle, the four movable rollers are movably connected with the detector main body through a rotating shaft, the four movable rollers are uniformly and symmetrically distributed, one opposite sides of the four auxiliary marking boxes are fixedly connected with the detector main body, the four auxiliary marking boxes are uniformly and symmetrically distributed, a cavity is formed in the auxiliary marking box, the cavity comprises two transverse moving assemblies and a vertical moving assembly, the rear side of the transverse moving assembly penetrates through the rear side of the auxiliary marking box and penetrates through the inside of the detector main body, the front side of the transverse moving assembly is fixedly connected with the inner wall of the auxiliary marking box, the rear side of the vertical moving assembly is fixedly connected with the inner wall of the auxiliary marking box, and the top of the vertical moving assembly is fixedly connected with the inner wall of the auxiliary marking box.

As the preferable mode of the utility model, the transverse moving assembly comprises a transverse stretching spring, a transverse sliding rod and two transverse sliding blocks, the rear side of the transverse stretching spring is fixedly connected with the inside of the detector main body, the front side of the transverse stretching spring is fixedly connected with the rear side of the transverse sliding rod, the front side of the transverse sliding rod is fixedly connected with the inner wall of the auxiliary marking box, the left side and the right side of the transverse sliding rod are respectively fixedly connected with the opposite sides of the two transverse sliding blocks, the two transverse sliding blocks are uniformly and symmetrically distributed on the rear side of the transverse sliding rod, and by arranging the transverse moving assembly, a worker can move chalk through the operation of the transverse moving assembly, mark can be marked on a detected place, and the subsequent marking and measuring of the worker are facilitated.

As the preferable mode of the utility model, the vertical moving assembly comprises a vertical fixing rod, a vertical extension spring and a vertical moving sleeve, wherein the rear side and the top of the vertical fixing rod are fixedly connected with the inner wall of the auxiliary scribing box, the top of the vertical extension spring is fixedly connected with the top of the vertical fixing rod, the bottom of the vertical extension spring is fixedly connected with the top of the vertical moving sleeve, the front sides of the two horizontal sliding rods are sleeved on the surface of the vertical moving sleeve, and by arranging the vertical moving assembly, a worker can move the chalk through the operation of the vertical moving assembly, so that the operation of the moving roller is not delayed when the chalk is not needed, and the chalk can be contacted with a detected wall when the chalk is needed.

According to the utility model, two transverse sliding rod grooves are formed in four sides of the detector main body, the rear sides of the transverse sliding rod grooves are fixedly connected with the rear sides of the transverse tension springs, transverse sliding rod grooves are formed in the left side and the right side of the transverse sliding rod grooves, one opposite sides of the two transverse sliding rod grooves are respectively contacted with one opposite sides of the two transverse sliding blocks, the transverse sliding rod grooves are matched with the transverse moving assembly for use, and through the arrangement of the transverse sliding rod grooves and the transverse sliding rod grooves, the transverse sliding rod can move directionally in the detector main body, the moving track of the transverse sliding rod is limited, the transverse sliding rod is prevented from being separated from the detector main body due to the travel problem in the moving process, and the stability of the integral structure is protected.

As the utility model is preferable, the front sides of the two transverse sliding rods are respectively provided with a vertical sliding groove, the vertical sliding grooves are sleeved on the surface of the vertical moving sleeve, the vertical sliding grooves are matched with the vertical moving assembly for use, and by arranging the vertical sliding grooves, the vertical moving sleeve can move in an oriented manner in the two transverse sliding rods, the moving track of the vertical moving sleeve is limited, the vertical moving sleeve is prevented from being separated from the transverse interaction groove due to the stroke problem in the moving process, and the stability of the whole structure is protected.

As the utility model is preferable, the left side and the right side of the vertical moving sleeve are fixedly connected with the vertical limiting blocks, the vertical limiting blocks are matched with the transverse sliding rods for use, the top of the vertical moving sleeve is fixedly provided with the vertical moving rods, the tops of the vertical moving rods penetrate through the tops of the vertical fixing rods and continue to penetrate through the tops of the auxiliary scribing boxes, the tops of the vertical moving rods are fixedly provided with the pressing blocks, the pressing blocks are matched with the vertical moving assemblies for use, and by arranging the vertical limiting blocks, the vertical moving rods and the pressing blocks, the vertical moving sleeve can not be separated from the structural main body when moving, and workers can adjust the vertical moving assemblies more conveniently and rapidly.

As the utility model is preferable, the inner wall of the vertical moving sleeve is fixedly provided with the vertical marking sleeve, the vertical marking sleeve is clung to the inner wall of the vertical moving sleeve, the vertical marking sleeve is made of elastic rubber, and by arranging the vertical marking sleeve, a worker can conveniently and rapidly plug chalk into the vertical moving sleeve and prevent the chalk from falling off.

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

1. according to the utility model, the detector main body, the detector handle, the four movable rollers and the four auxiliary scribing boxes are arranged, and through adjustment of the auxiliary scribing boxes, a worker can not influence the operation of equipment when not using chalk, and can realize the operation of the auxiliary scribing boxes when using the chalk, so that the accuracy of position marking is improved, the use of the worker is facilitated, the working efficiency of the worker is improved, and the whole process of quality detection is more accurate and quicker.

2. According to the utility model, the transverse moving assembly and the vertical moving assembly are arranged, so that the chalk can move on a freely preset track, a worker can conveniently mark the detected places of articles such as steel bars, and the detection result becomes more accurate, and the operation of the worker is facilitated.

Drawings

FIG. 1 is a schematic perspective view of a structure provided in an embodiment of the present utility model;

FIG. 2 is a schematic perspective view of a detector body according to an embodiment of the present utility model;

FIG. 3 is a schematic perspective view of a lateral shifting assembly according to an embodiment of the present utility model;

FIG. 4 is a schematic perspective view of a vertically movable sleeve provided in accordance with an embodiment of the present utility model;

fig. 5 is a partial enlarged view of fig. 1 at a provided by an embodiment of the present utility model.

In the figure: 1. a detector body; 2. a detector handle; 3. moving the roller; 4. an auxiliary scribing box; 5. a cavity; 6. a lateral movement assembly; 601. a transverse tension spring; 602. a lateral sliding rod; 603. a lateral slider; 7. a vertical movement assembly; 701. a vertical fixing rod; 702. a vertical tension spring; 703. vertically moving the sleeve; 8. a transverse sliding bar groove; 9. a transverse slider groove; 10. a vertical sliding groove; 11. a vertical limiting block; 12. a vertically movable rod; 13. pressing the blocks; 14. and (5) a vertical scribing sleeve.

Detailed Description

For a further understanding of the utility model, its features and advantages, reference is now made to the following examples, which are illustrated in the accompanying drawings.

The structure of the present utility model will be described in detail with reference to the accompanying drawings.

As shown in fig. 1 to 5, the concrete thickness detection instrument for engineering quality detection provided by the embodiment of the utility model comprises a detector main body 1, a detector handle 2, a movable roller 3, an auxiliary scribing box 4, a cavity 5, a transverse moving assembly 6, a transverse tension spring 601, a transverse sliding rod 602, a transverse sliding block 603, a vertical moving assembly 7, a vertical fixing rod 701, a vertical tension spring 702, a vertical moving sleeve 703, a transverse sliding rod groove 8, a transverse sliding block groove 9, a vertical sliding groove 10, a vertical limiting block 11, a vertical moving rod 12, a pressing block 13 and a vertical scribing sleeve 14 which are matched for use, wherein the top of the detector main body 1, the detector handle 2, four movable rollers 3 and four auxiliary scribing boxes 4 are fixedly connected with the bottom of the detector handle 2, four remove gyro wheel 3 and detector main part 1 through pivot swing joint, four remove gyro wheel 3 even symmetric distribution, four supplementary relative one side of marking off box 4 and detector main part 1 fixed connection, four supplementary equal symmetric distributions of marking off box 4, cavity 5 has been seted up to the inside of supplementary marking off box 4, including two lateral shifting subassembly 6 and vertical shifting subassembly 7 in the cavity 5, the rear side of lateral shifting subassembly 6 runs through to the rear side of supplementary marking off box 4 and runs through to the inside of detector main part 1, the front side of lateral shifting subassembly 6 and the inner wall fixed connection of supplementary marking off box 4, the rear side of vertical shifting subassembly 7 and the inner wall fixed connection of supplementary marking off box 4, the top of vertical shifting subassembly 7 and the inner wall fixed connection of supplementary marking off box 4.

Referring to fig. 1 and 3, the lateral movement assembly 6 includes a lateral tension spring 601, a lateral sliding rod 602, and two lateral sliding blocks 603, wherein a rear side of the lateral tension spring 601 is fixedly connected with an inner portion of the detector body 1, a front side of the lateral tension spring 601 is fixedly connected with a rear side of the lateral sliding rod 602, a front side of the lateral sliding rod 602 is fixedly connected with an inner wall of the auxiliary scribing box 4, left and right sides of the lateral sliding rod 602 are respectively fixedly connected with opposite sides of the two lateral sliding blocks 603, and the two lateral sliding blocks 603 are uniformly and symmetrically distributed on the rear side of the lateral sliding rod 602.

The scheme is adopted: through setting up transverse moving subassembly 6, can make the staff remove the chalk through the operation to transverse moving subassembly 6, make it can draw the trace in the place of being detected, the subsequent mark of staff and measurement of being convenient for.

Referring to fig. 1 and 5, the vertical moving assembly 7 includes a vertical fixing rod 701, a vertical tension spring 702 and a vertical moving sleeve 703, wherein the rear side and the top of the vertical fixing rod 701 are fixedly connected with the inner wall of the auxiliary scribing box 4, the top of the vertical tension spring 702 is fixedly connected with the top of the vertical fixing rod 701, the bottom of the vertical tension spring 702 is fixedly connected with the top of the vertical moving sleeve 703, and the front sides of the two lateral sliding rods 602 are sleeved on the surface of the vertical moving sleeve 703.

The scheme is adopted: through setting up vertical movement assembly 7, can make the staff remove the chalk through the operation to vertical movement assembly 7, make it not delay the operation of moving gyro wheel 3 when not needing to use, can contact the chalk with the detected wall body when needing to use.

Referring to fig. 1 and 2, two lateral sliding rod grooves 8 are respectively formed in four sides of the detector main body 1, the rear sides of the lateral sliding rod grooves 8 are fixedly connected with the rear sides of the lateral extension springs 601, lateral sliding rod grooves 9 are respectively formed in the left side and the right side of the lateral sliding rod grooves 8, opposite sides of the two lateral sliding rod grooves 9 are respectively contacted with opposite sides of the two lateral sliding blocks 603, and the lateral sliding rod grooves 9 are matched with the lateral moving assembly 6.

The scheme is adopted: through setting up horizontal slide bar groove 8 and horizontal slider groove 9, can make horizontal slide bar 602 can carry out directional removal in detector main part 1 inside to and make its travel route limited, prevent that it from breaking away from detector main part 1 because of the stroke problem in the removal process, protect overall structure's stability.

Referring to fig. 1 and 5, the front sides of the two lateral sliding rods 602 are provided with vertical sliding grooves 10, the vertical sliding grooves 10 are sleeved on the surface of the vertical moving sleeve 703, and the vertical sliding grooves 10 are matched with the vertical moving assembly 7.

The scheme is adopted: through setting up vertical sliding tray 10, can make vertical moving sleeve 703 can carry out directional removal in the inside of two horizontal sliding bars 602 to and make its travel route receive the restriction, prevent that it from breaking away from horizontal interactive slot because of the stroke problem in the removal process, protect overall structure's stability.

Referring to fig. 1, the left and right sides of the vertical moving sleeve 703 are fixedly connected with vertical limiting blocks 11, the vertical limiting blocks 11 are matched with the lateral sliding rods 602, the top of the vertical moving sleeve 703 is fixedly provided with a vertical moving rod 12, the top of the vertical moving rod 12 penetrates through the top of the vertical fixing rod 701 and continues to penetrate out of the top of the auxiliary scribing box 4, the top of the vertical moving rod 12 is fixedly provided with a pressing block 13, and the pressing block 13 is matched with the vertical moving assembly 7.

The scheme is adopted: through setting up vertical stopper 11, vertical movable rod 12 and pressing block 13, can make vertical movable sleeve 703 can not break away from the main structure body when removing to make the staff can more convenient and fast adjust vertical movable assembly 7, facilitate the use.

Referring to fig. 4, the inner wall of the vertical moving sleeve 703 is fixedly provided with a vertical scribing sleeve 14, the vertical scribing sleeve 14 is tightly attached to the inner wall of the vertical moving sleeve 703, and the vertical scribing sleeve 14 is made of elastic rubber.

The scheme is adopted: by providing the vertical scribing sleeve 14, a worker can conveniently and quickly insert chalk into the vertical moving sleeve 703 and prevent the chalk from falling off.

The working principle of the utility model is as follows:

when the device is used, chalk is plugged into the inner walls of the four vertical scribing sleeves 14, the chalk is abutted against the top of the inner walls of the vertical scribing sleeves 14, then the device is started, when the device detects an interfering object such as a steel bar, the device is stopped, four red lasers are emitted from four sides of the device, the auxiliary scribing box 4 is pulled in the direction of the transverse sliding rod groove 8, meanwhile, the transverse stretching spring 601 is stretched, the transverse sliding block 603 is abutted against the front side of the transverse sliding block groove 9, the pressing block 13 is pressed down, the vertical moving sleeve 703 moves downwards through the fixed connection of the vertical moving rod 12 and the vertical moving sleeve 703, the vertical stretching spring 702 is stretched simultaneously, when the chalk contacts the surface of a detected wall, the chalk is slowly pulled back to the rear side in the direction of the transverse sliding rod groove 8, then the pressing block 13 is loosened, the vertical moving sleeve 703 moves upwards through the resilience force of the vertical stretching spring 702, the auxiliary scribing box 4 returns to a position which does not affect the normal use of the device, four auxiliary scribing boxes 4 are sequentially repeated, four marks are left on the wall, and after the four marks are positioned on the wall through the interfering object such as the chalk marks.

To sum up: this concrete thickness detecting instrument for engineering quality detection through setting up detector main part 1, detector handle 2, remove gyro wheel 3, supplementary marking box 4, cavity 5, transverse moving assembly 6, transverse tension spring 601, transverse sliding rod 602, transverse sliding block 603, vertical moving assembly 7, vertical dead lever 701, vertical tension spring 702, vertical moving sleeve 703, transverse sliding rod groove 8, transverse sliding block groove 9, vertical sliding groove 10, vertical stopper 11, vertical moving rod 12, press block 13 and vertical marking sleeve 14's cooperation is used, the staff often need carry out the four corners mark to the position while hand equipment in the in-service use, the error of position mark also can be great when causing inconvenience to the staff, influence the accuracy of testing result, harm people's safety, thereby put forward a concrete thickness detecting instrument for engineering quality detection, under the prerequisite that does not influence equipment normal use, make the staff can convenient and fast use, improve the accuracy of position mark, and the staff of being convenient for uses, improve the staff's efficiency of staff's work quality of chalk, and the whole accurate problem of the work flow of the detection of staff's work quality of making more convenient for use.

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.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a concrete thickness detecting instrument for engineering quality detects, includes detector main part (1), detector handle (2), four removal gyro wheels (3) and four supplementary marking off box (4), its characterized in that: the top of detector main part (1) and the bottom fixed connection of detector handle (2), four remove gyro wheel (3) and detector main part (1) through pivot swing joint, four remove gyro wheel (3) even symmetric distribution, one side that four supplementary marking off box (4) are relative and detector main part (1) fixed connection, four supplementary marking off box (4) even symmetric distribution, cavity (5) have been seted up to the inside of supplementary marking off box (4), including two lateral shifting subassembly (6) and vertical shifting subassembly (7) in cavity (5), the rear side of lateral shifting subassembly (6) runs through to the rear side of supplementary marking off box (4) and runs through the inside of detector main part (1), the front side of lateral shifting subassembly (6) and the inner wall fixed connection of supplementary marking off box (4), the rear side of vertical shifting subassembly (7) and the inner wall fixed connection of supplementary marking off box (4), the top of vertical shifting subassembly (7) and the inner wall fixed connection of supplementary marking off box (4).

2. A concrete thickness measuring apparatus for engineering quality inspection according to claim 1, wherein: the transverse moving assembly (6) comprises a transverse stretching spring (601), a transverse sliding rod (602) and two transverse sliding blocks (603), wherein the rear side of the transverse stretching spring (601) is fixedly connected with the inside of the detector main body (1), the front side of the transverse stretching spring (601) is fixedly connected with the rear side of the transverse sliding rod (602), the front side of the transverse sliding rod (602) is fixedly connected with the inner wall of the auxiliary marking box (4), the left side and the right side of the transverse sliding rod (602) are fixedly connected with one side, opposite to the two transverse sliding blocks (603), of the transverse sliding rod (602), and the two transverse sliding blocks (603) are uniformly and symmetrically distributed on the rear side of the transverse sliding rod (602).

3. A concrete thickness measuring apparatus for engineering quality inspection according to claim 2, wherein: the vertical moving assembly (7) comprises a vertical fixing rod (701), a vertical tension spring (702) and a vertical moving sleeve (703), wherein the rear side and the top of the vertical fixing rod (701) are fixedly connected with the inner wall of an auxiliary scribing box (4), the top of the vertical tension spring (702) is fixedly connected with the top of the vertical fixing rod (701), the bottom of the vertical tension spring (702) is fixedly connected with the top of the vertical moving sleeve (703), and the front sides of the two transverse sliding rods (602) are sleeved on the surface of the vertical moving sleeve (703).

4. A concrete thickness measuring apparatus for engineering quality inspection according to claim 2, wherein: two transverse sliding rod grooves (8) are formed in the four sides of the detector main body (1), the rear sides of the transverse sliding rod grooves (8) are fixedly connected with the rear sides of the transverse tension springs (601), transverse sliding block grooves (9) are formed in the left side and the right side of the transverse sliding rod grooves (8), one sides, opposite to the two transverse sliding block grooves (9), are respectively contacted with one side, opposite to the two transverse sliding blocks (603), of the transverse sliding rod grooves (9) and the transverse moving assembly (6) are matched.

5. A concrete thickness measuring apparatus for engineering quality inspection according to claim 3, wherein: the front sides of the two transverse sliding rods (602) are provided with vertical sliding grooves (10), the vertical sliding grooves (10) are sleeved on the surface of the vertical moving sleeve (703), and the vertical sliding grooves (10) are matched with the vertical moving assembly (7).

6. A concrete thickness measuring apparatus for engineering quality inspection according to claim 3, wherein: the utility model discloses a vertical movable sleeve (703) is characterized in that the left and right sides of the vertical movable sleeve (703) is fixedly connected with a vertical limiting block (11), the vertical limiting block (11) is matched with a transverse sliding rod (602) for use, a vertical movable rod (12) is fixedly arranged at the top of the vertical movable sleeve (703), the top of the vertical movable rod (12) penetrates to the top of a vertical fixed rod (701) and continuously penetrates out of the top of an auxiliary scribing box (4), a pressing block (13) is fixedly arranged at the top of the vertical movable rod (12), and the pressing block (13) is matched with a vertical movable assembly (7).

7. A concrete thickness measuring apparatus for engineering quality inspection according to claim 3, wherein: the inner wall of the vertical moving sleeve (703) is fixedly provided with a vertical marking sleeve (14), the vertical marking sleeve (14) is tightly attached to the inner wall of the vertical moving sleeve (703), and the vertical marking sleeve (14) is made of elastic rubber.