CN219284927U - Intensity detector - Google Patents
Intensity detector Download PDFInfo
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- CN219284927U CN219284927U CN202223303148.1U CN202223303148U CN219284927U CN 219284927 U CN219284927 U CN 219284927U CN 202223303148 U CN202223303148 U CN 202223303148U CN 219284927 U CN219284927 U CN 219284927U
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- resiliometer
- wall
- fixedly connected
- supporting
- block
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Abstract
The utility model discloses an intensity detector, which comprises a rebound instrument, and further comprises: the supporting member is arranged on the outer wall of the resiliometer; an operating member is mounted on the left side of the support member; the supporting member is used for supporting the resiliometer, and the operating member is used for operating the resiliometer. Through the supporting member who sets up in the use, reached and to support the use work to the resiliometer, through the use of annular plate in the supporting member, reached and to prevent that the resiliometer from appearing the slope in the inspection process, lead to detecting the numerical value inaccurate, when using through the operating member who sets up, reached and to operate the work to the resiliometer, can make the resiliometer lighter in the use, can increase the test numerical value.
Description
Technical field:
the utility model relates to the technical field of building construction, in particular to an intensity detector.
The background technology is as follows:
the basic principle of the resiliometer is that a spring is used for driving a heavy hammer, the heavy hammer impacts a striking rod vertically contacted with the surface of concrete with constant kinetic energy, so that partial concrete is deformed and absorbs part of energy, the other part of energy is converted into rebound kinetic energy of the heavy hammer, when the rebound kinetic energy is completely converted into potential energy, the heavy hammer rebound reaches the maximum distance, and the maximum rebound distance of the heavy hammer is displayed by the instrument in the name of rebound value (the ratio of the maximum rebound distance to the initial length of the spring);
at present, in the detection process of building engineering, the resiliometer is easy to incline in the detection process, so that the detected numerical value is inaccurate.
The utility model comprises the following steps:
the utility model aims to provide an intensity detector for solving the problem that the detected numerical value is inaccurate due to the fact that the rebound instrument is easy to incline in the detection process of the building engineering at present.
In order to achieve the above purpose, the present utility model provides the following technical solutions: an intensity detector comprising a resiliometer, the intensity detector further comprising: the supporting member is arranged on the outer wall of the resiliometer; an operating member is mounted on the left side of the support member; the supporting member is used for supporting the resiliometer, and the operating member is used for operating the resiliometer.
Preferably, the support member includes: the sleeve is sleeved on the outer wall of the resiliometer; the support blocks are fixedly connected with the upper end and the lower end of the outer wall of the sleeve; the stay bar is fixedly connected in the support block; the annular plate is fixedly connected to the right side of the stay bar; wherein, the sleeve pipe is used for carrying out installation work with vaulting pole and annular plate.
Preferably, a through hole is formed in the annular plate.
Preferably, the operation member includes: the sliding block is connected to the outer wall of the stay bar in a sliding way; the support block is fixedly connected to the front surface of the sliding block; the handle is rotationally connected to the outer wall of the supporting block; the top block is fixedly connected between the sliding blocks; the buckles are symmetrically fixedly connected to the upper end and the lower end of the front surface of the top block; the handle can rotate on the outer wall of the supporting block, and the buckle is used for fixing the handle.
Preferably, a gasket is processed at the joint of the top block and the resiliometer.
Compared with the prior art, the utility model has the beneficial effects that: through the supporting member who sets up in the use, reached and to support the use work to the resiliometer, through the use of annular plate in the supporting member, reached and to prevent that the resiliometer from appearing the slope in the inspection process, lead to detecting the numerical value inaccurate, when using through the operating member who sets up, reached and to operate the work to the resiliometer, can make the resiliometer lighter in the use, can increase the test numerical value.
Description of the drawings:
FIG. 1 is a schematic diagram of the structure of the present utility model.
Fig. 2 is a left side view of the operating member of fig. 1 in detail.
Fig. 3 is a detailed view of the connection structure of fig. 1 with the operating member position enlarged.
In the figure: 1. resiliometer, 2, support component, 201, sleeve pipe, 202, prop, 203, stay, 204, annular plate, 3, operating component, 301, slider, 302, prop, 303, handle, 304, top piece, 305, buckle.
The specific embodiment is as follows:
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, the present utility model provides a technical solution: an intensity detector, including resiliometer 1, intensity detector still includes: the supporting member 2 is provided on the outer wall of the rebound apparatus 1, and the operating member 3 is mounted on the left side of the supporting member 2, wherein the supporting member 2 is for supporting the rebound apparatus 1 and the operating member 3 is for operating the rebound apparatus 1.
Specifically, as shown in fig. 1, the support member 2 includes a sleeve 201, a stay 202, a stay 203, and a ring plate 204;
in order to support the resiliometer 1, the sleeve 201 is sleeved on the outer wall of the resiliometer 1, the resiliometer 1 can be inserted and pulled out in the sleeve 201, the supporting blocks 202 are fixedly connected to the upper end and the lower end of the outer wall of the sleeve 201, the supporting blocks 202 are used for fixing the supporting rods 203, the supporting rods 203 are fixedly connected to the inside of the supporting blocks 202, the annular plates 204 are fixedly connected to the right sides of the supporting rods 203, the annular plates 204 are used for increasing stability, and the sleeve 201 is used for installing the supporting rods 203 and the annular plates 204.
The ring plate 204 has a through hole formed therein, and the through hole is used for providing a space for mounting the rebound apparatus 1.
More specifically, as shown in fig. 1 and 2, the operating member 3 includes a slider 301, a stay 302, a handle 303, a top block 304, and a buckle 305;
in order to drive the resiliometer 1 to work, the sliding blocks 301 are slidably connected to the outer wall of the supporting rod 203, the sliding blocks 301 can slide left and right on the outer wall of the supporting rod 203, the supporting blocks 302 are fixedly connected to the front surface of the sliding blocks 301, the supporting blocks 302 can support the handles 303, the handles 303 are rotatably connected to the outer wall of the supporting blocks 302, the top blocks 304 are fixedly connected between the sliding blocks 301, the top blocks 304 can drive the resiliometer 1, the buckles 305 are symmetrically fixedly connected to the upper end and the lower end of the front surface of the top blocks 304, the handles 303 can rotate on the outer wall of the supporting blocks 302, and the buckles 305 are used for fixing the handles 303.
The gasket is formed at the joint between the top block 304 and the rebound apparatus 1, and the gasket is made of rubber.
Working principle: when the intensity detector starts to use, a user inserts the resiliometer 1 into the ring plate 204 and the sleeve 201, after the user inserts the resiliometer 1, the user rotates the handle 303 on the outer wall of the supporting block 302, the user attaches the ring plate 204 to the wall surface to be detected after the handle 303 rotates, the user pushes the handle 303 after attaching, the user can drive the sliding block 301 to slide on the outer wall of the supporting rod 203 when the handle 303 is pushed, the sliding block 301 can drive the top block 304 to squeeze the resiliometer 1 in the sliding process of the sliding block 301, so that the detection work is completed, when the resiliometer 1 is carried after the detection is completed, the user pulls out the resiliometer 1 from the sleeve 201 and the inner part of the ring plate 204, and after the pulling out, the handle 303 is folded inside the buckle 305 on the outer wall of the top block 304, so that the storage work is completed.
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 (4)
1. An intensity detector comprising a resiliometer (1), characterized in that the intensity detector further comprises:
a support member (2) provided on the outer wall of the rebound apparatus (1);
an operating member (3) mounted on the left side of the support member (2),
the support member (2) comprises:
the sleeve (201) is sleeved on the outer wall of the resiliometer (1);
the support blocks (202) are fixedly connected to the upper end and the lower end of the outer wall of the sleeve (201);
a stay bar (203) fixedly connected to the inside of the support block (202);
and the annular plate (204) is fixedly connected to the right side of the stay bar (203).
2. An intensity detector according to claim 1, characterized in that the inside of the ring plate (204) is provided with through holes.
3. An intensity detector according to claim 2, characterized in that the operating member (3) comprises:
a sliding block (301) which is connected to the outer wall of the stay bar (203) in a sliding way;
the support block (302) is fixedly connected to the front surface of the sliding block (301);
a handle (303) rotatably connected to the outer wall of the stay block (302);
a top block (304) fixedly connected between the sliding blocks (301);
the buckles (305) are symmetrically fixedly connected to the upper end and the lower end of the front surface of the top block (304).
4. A strength tester according to claim 3, wherein a gasket is formed at the joint of the top block (304) and the resiliometer (1).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202223303148.1U CN219284927U (en) | 2022-12-09 | 2022-12-09 | Intensity detector |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202223303148.1U CN219284927U (en) | 2022-12-09 | 2022-12-09 | Intensity detector |
Publications (1)
Publication Number | Publication Date |
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CN219284927U true CN219284927U (en) | 2023-06-30 |
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Family Applications (1)
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CN202223303148.1U Active CN219284927U (en) | 2022-12-09 | 2022-12-09 | Intensity detector |
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CN (1) | CN219284927U (en) |
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2022
- 2022-12-09 CN CN202223303148.1U patent/CN219284927U/en active Active
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