CN220932573U - Building concrete intensity check out test set - Google Patents

Abstract

The utility model discloses building concrete strength detection equipment, which relates to the technical field of concrete detection and comprises a detection box, wherein a glass sealing door is arranged on the outer surface of the detection box, a partition plate is fixedly connected to the inner wall of the detection box, a perforation is formed in the outer surface of the partition plate, a clamping mechanism is arranged on the upper surface of the partition plate, and a storage box is arranged on the inner wall of the detection box. It can be through setting up fixture, electronic cylinder, intensity detector and cold air pipe, the cooperation effect between the hot air pipe, fixture can carry out the centre gripping to not unidimensional building concrete fixed, and measure the size of concrete in the centre gripping fixed time, afterwards, start electronic cylinder and can drive intensity detector and detect the concrete to cooperate cold air pipe, the hot air pipe can carry out the intensity detection of the concrete under the hot and cold state of fixed size to the concrete, guarantee concrete detection data's accuracy.

Description

Building concrete intensity check out test set

Technical Field

The utility model relates to the technical field of concrete detection, in particular to building concrete strength detection equipment.

Background

The compressive strength of concrete is an important indicator for measuring the quality of concrete. The compressive strength of the concrete is obtained by detecting a concrete test block through a concrete compressive detecting device. The detection of the compressive strength of the concrete test block is carried out after the test block is cured in a curing room for a specified time, and the quality of the concrete test block is detected by using the compressive strength detection device after the concrete test block is cured for the specified time.

According to chinese patent application No. 202120994230.X, a device for detecting the strength of building concrete is disclosed. The novel sliding device comprises a base and a supporting frame, wherein the supporting frame is erected on the base, sliding rods are arranged between the supporting frame and the base, four groups of sliding rods are arranged on the supporting frame, hydraulic cylinders are arranged on the supporting frame and are provided with a plurality of groups, the bottom end of each hydraulic cylinder is connected with a lower pressing plate, sliding sleeves are arranged at four corners of each lower pressing plate, and the sliding sleeves are sleeved on the sliding rods.

By adopting the scheme, only simple strength detection can be carried out on the concrete, the data detected by the mode is incomplete, the temperature change in the air needs to be considered when the concrete is put into use in an external environment, and the strength of the material after the heat and cold change of the concrete needs to be considered; to this end, we provide a construction concrete strength detection apparatus that solves the above problems.

Disclosure of utility model

The utility model aims to make up the defects of the prior art and provides a building concrete strength detection device.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a building concrete intensity check out test set, includes the detection case, the surface mounting of detection case has glass seal door, the inner wall fixedly connected with baffle of detection case, the perforation has been seted up to the surface of baffle, the upper surface of baffle is provided with fixture, the magazine has been placed to the inner wall of detection case, the upper surface mounting of detection case has inlayed electronic cylinder, the inside of detection case is equipped with the mounting panel, the upper surface mounting of mounting panel is connected in electronic cylinder's surface, intensity detector is installed to the bottom surface of mounting panel, the cold air pipe is installed to the inner wall of detection case, the hot air pipe is installed to the inner wall of detection case, the bottom surface fixedly connected with two bases of detection case.

Further, the clamping mechanism comprises a placing table, the bottom surface of the placing table is fixedly connected to the upper surface of the partition plate, and two groups of symmetrical first sliding grooves are formed in the outer surface of the placing table.

Further, the inner wall of placing the platform rotates and is connected with the two-way threaded rod, the surface fixedly connected with first conical gear of two-way threaded rod, the inner wall of placing the platform rotates and is connected with the connecting axle, the one end fixedly connected with second conical gear of connecting axle, second conical gear meshes with first conical gear mutually, the one end fixedly connected with carousel of second conical gear is kept away from to the connecting axle.

Further, the surface threaded connection of two-way threaded rod has two symmetrical movable blocks, two the surface of movable block is equal fixedly connected with carriage, and the surface sliding connection of carriage in the inner wall of first spout, two the second spout has all been seted up to the surface of carriage.

Further, the surface fixedly connected with of placing the platform two symmetrical assembly blocks, two the guide way has all been seted up to the surface of assembly block, the inner wall sliding connection slider of guide way, the surface fixedly connected with slide bar of slider, and the surface sliding connection of slide bar is in the inner wall of assembly block, the one end fixedly connected with fixed block of slide bar.

Further, the surface fixedly connected with linking bridge of slider, the third spout has been seted up to the surface of linking bridge, the surface sliding connection of linking bridge is in the inner wall of second spout, the surface fixedly connected with cleaning brush of linking bridge, the surface mounting of linking bridge has the scale.

Compared with the prior art, the building concrete strength detection equipment has the following beneficial effects:

1. According to the utility model, through the arrangement of the clamping mechanism, the electric cylinder, the strength detector and the cooperation between the cold air pipe and the hot air pipe, the clamping mechanism can clamp and fix building concrete with different sizes, the size of the concrete is measured while the clamping mechanism is clamped and fixed, then the electric cylinder is started to drive the strength detector to detect the concrete, and the strength of the concrete in a hot and cold state under the fixed size can be detected by matching with the cold air pipe and the hot air pipe, so that the accuracy of concrete detection data is ensured.

2. According to the utility model, through the cooperation among the sliding block, the fixed block, the connecting support, the cleaning brush and the storage box, after detection is completed, the fixed block is pulled to drive the sliding block and the connecting support to slide, and the cleaning brush is driven to clean residual slag after detection on the surface of the placing table, and the cleaned slag falls into the storage box through the through holes to be stored, so that later cleaning is facilitated, the surface of the placing table is ensured to be clean, and the influence on subsequent detection of concrete is avoided.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic view of the internal structure of the present utility model;

FIG. 3 is a schematic perspective view of a clamping mechanism according to the present utility model;

fig. 4 is a schematic view of the internal structure of the clamping mechanism of the present utility model.

In the figure: 1. a detection box; 2. a glass sealing door; 3. a partition plate; 4. perforating; 5. a clamping mechanism; 501. a placement table; 502. a first chute; 503. a two-way threaded rod; 504. a first bevel gear; 505. a connecting shaft; 506. a second bevel gear; 507. a moving block; 508. a clamping frame; 509. a second chute; 510. a module block; 511. a guide groove; 512. a slide block; 513. a slide bar; 514. a fixed block; 515. a connecting bracket; 516. a third chute; 517. cleaning brushes; 518. a graduated scale; 519. a turntable; 6. a storage box; 7. an electric cylinder; 8. a mounting plate; 9. an intensity detector; 10. a cold air pipe; 11. a hot air pipe; 12. and (5) a base.

Detailed Description

The principles and features of the present utility model are described below with reference to the drawings, the examples are illustrated for the purpose of illustrating the utility model and are not to be construed as limiting the scope of the utility model.

This embodiment provides a building concrete intensity check out test set, the device is arranged in carrying out detailed detection to the concrete in the testing process of building concrete, through setting up fixture 5, electronic cylinder 7, intensity detector 9 and cold air pipe 10, the cooperation effect between the hot air pipe 11, fixture 5 can carry out the centre gripping to not unidimensional building concrete fixedly, when the centre gripping is fixed and measure the size of concrete, afterwards, start electronic cylinder 7 and can drive intensity detector 9 and detect the concrete, and cooperate cold air pipe 10, the hot air pipe 11 can carry out the intensity detection of the concrete under the hot and cold state under the fixed size, improve check out test set's practicality.

Referring to fig. 1 to 4, a construction concrete strength detecting apparatus includes a detecting box 1, and a glass sealing door 2 is installed on an outer surface of the detecting box 1.

The building concrete detected in the detection box 1 can be monitored in real time through the glass sealing door 2.

The inner wall fixedly connected with baffle 3 of detection case 1, perforation 4 has been seted up to the surface of baffle 3.

When the concrete detection is completed, the residues after detection are cleaned by the clamping mechanism 5 and fall into the storage box 6 through the perforation 4, thereby being convenient for cleaning.

The upper surface of the partition plate 3 is provided with a clamping mechanism 5.

Referring to fig. 1, 3 and 4, the clamping mechanism 5 includes a placement table 501, a bottom surface of the placement table 501 is fixedly connected to an upper surface of the partition board 3, and two groups of symmetrical first sliding grooves 502 are formed in an outer surface of the placement table 501.

The inner wall of placing the platform 501 rotates and is connected with two-way threaded rod 503, and the surface fixedly connected with of two-way threaded rod 503 is connected with first conical gear 504, and the inner wall of placing the platform 501 rotates and is connected with connecting axle 505, and the one end fixedly connected with second conical gear 506 of connecting axle 505, second conical gear 506 meshes with first conical gear 504.

In this embodiment, the rotation of the second bevel gear 506 drives the first bevel gear 504 to rotate, thereby driving the bi-directional threaded rod 503 to rotate, and thus stably driving the moving block 507 to move.

The end of the connecting shaft 505 remote from the second bevel gear 506 is fixedly connected with a turntable 519.

The outer surface threaded connection of two-way threaded rod 503 has two symmetrical movable blocks 507, and the surface of two movable blocks 507 is all fixedly connected with holder 508, and the surface sliding connection of holder 508 is in the inner wall of first spout 502.

The rotation of the bidirectional threaded rod 503 drives the two moving blocks 507 in threaded connection to move, and the moving blocks 507 are limited by the clamping frame 508 and the first sliding groove 502 while moving, so that the moving blocks 507 stably and synchronously move inwards or outwards.

The outer surfaces of the two clamping frames 508 are provided with second sliding grooves 509.

The outer surface of placing table 501 is fixedly connected with two symmetrical assembly blocks 510, guide slots 511 are all seted up to the surface of two assembly blocks 510, the inner wall sliding connection slider 512 of guide slots 511, the outer surface fixedly connected with slide bar 513 of slider 512, and the surface sliding connection of slide bar 513 is in the inner wall of assembly block 510, the one end fixedly connected with fixed block 514 of slide bar 513.

Pulling the fixing block 514 drives the sliding block 512 and the connecting bracket 515 to slide, and drives the cleaning brush 517 to clean the residual slag detected on the surface of the placing table 501.

The outer surface of the sliding block 512 is fixedly connected with a connecting bracket 515, a third sliding groove 516 is formed in the outer surface of the connecting bracket 515, and the outer surface of the connecting bracket 515 is slidably connected to the inner wall of the second sliding groove 509.

In this embodiment, the clamping frame 508 and the connecting bracket 515 are inserted into each other, and under the action of the second chute 509 and the third chute 516, when the clamping frame 508 clamps and fixes the building concrete, the clamping frame is not affected by the connecting bracket 515, and when the cleaning brush 517 cleans, the surface of the placing table 501 is affected by the second chute 509.

The cleaning brush 517 is fixedly connected with the surface of the connecting bracket 515, and the graduated scale 518 is arranged on the surface of the connecting bracket 515.

The storage box 6 has been placed to the inner wall of detecting case 1, and the upper surface fixed of detecting case 1 has inlayed electronic cylinder 7, and the inside of detecting case 1 is equipped with mounting panel 8, and the upper surface fixed connection of mounting panel 8 is in the surface of electronic cylinder 7.

The electric cylinder 7 is started to drive the strength detector 9 to detect the concrete, and the strength of the concrete in a hot and cold state under a fixed size can be detected by matching with the cold air pipe 10 and the hot air pipe 11.

The intensity detector 9 is installed to the bottom surface of mounting panel 8, and cold air pipe 10 is installed to the inner wall of detection case 1, and hot air pipe 11 is installed to the inner wall of detection case 1, and the bottom surface fixedly connected with of detection case 1 has two bases 12.

Working principle: when the concrete placement machine is used in the embodiment, firstly, concrete is placed on the surface of the placement table 501, at this time, the manual rotation moving block 507 drives the second bevel gear 506 to rotate, the first bevel gear 504 which is in meshed connection is driven to rotate and the bidirectional threaded rod 503 is driven to move, the rotation of the bidirectional threaded rod 503 drives the moving block 507 which is in threaded connection to synchronously move towards the middle, at this time, the moving block 507 moves the clamping frame 508 to clamp and fix the concrete, then, at the same time of clamping and fixing, the fixed concrete can be detected by matching with the graduated scale 518, secondly, the electric cylinder 7 is started to drive the strength detector 9 to detect the concrete, and the strength of the concrete in a hot and cold state in a fixed size can be detected by matching with the cold air pipe 10 and the hot air pipe 11, finally, after the detection is completed, the fixed block 514 is pulled at this time to drive the sliding block 512 and the connecting bracket 515 to slide, and drive the cleaning brush 517 to clean residual slag detected on the surface of the placement table 501, the cleaned slag falls into the storage box 6 through the perforation 4 to store the concrete, so that cleaning of workers at the later stage is convenient to clean the surface of the placement table 501.

The foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the utility model are intended to be included within the scope of the utility model.

Claims (6)

1. Building concrete intensity check out test set, including detecting case (1), its characterized in that: the outer surface of the detection box (1) is provided with a glass sealing door (2), the inner wall of the detection box (1) is fixedly connected with a partition board (3), the outer surface of the partition board (3) is provided with a perforation (4), the upper surface of the partition board (3) is provided with a clamping mechanism (5), the inner wall of the detection box (1) is provided with a storage box (6), the upper surface of the detection box (1) is fixedly embedded with an electric cylinder (7), the inside of detection case (1) is equipped with mounting panel (8), the upper surface fixed connection of mounting panel (8) is in the surface of electronic cylinder (7), intensity detector (9) are installed to the bottom surface of mounting panel (8), cold air pipe (10) are installed to the inner wall of detection case (1), hot air pipe (11) are installed to the inner wall of detection case (1), the bottom surface fixedly connected with two bases (12) of detection case (1).

2. A construction concrete strength detection apparatus according to claim 1, wherein: the clamping mechanism (5) comprises a placing table (501), the bottom surface of the placing table (501) is fixedly connected to the upper surface of the partition plate (3), and two groups of symmetrical first sliding grooves (502) are formed in the outer surface of the placing table (501).

3. A construction concrete strength detection apparatus according to claim 2, wherein: the inner wall of placing platform (501) rotates and is connected with two-way threaded rod (503), the surface fixedly connected with first conical gear (504) of two-way threaded rod (503), the inner wall of placing platform (501) rotates and is connected with connecting axle (505), the one end fixedly connected with second conical gear (506) of connecting axle (505), second conical gear (506) and first conical gear (504) mesh mutually, one end fixedly connected with carousel (519) of second conical gear (506) are kept away from to connecting axle (505).

4. A construction concrete strength detection apparatus according to claim 3, wherein: the outer surface threaded connection of two-way threaded rod (503) has two symmetrical movable blocks (507), two the surface of movable block (507) is all fixedly connected with carriage (508), and the surface sliding connection of carriage (508) is in the inner wall of first spout (502), and two second spout (509) have all been seted up to the surface of carriage (508).

5. A construction concrete strength detection apparatus according to claim 2, wherein: the outer surface fixedly connected with of placing platform (501) two symmetrical assembly piece (510), two guide way (511) have all been seted up to the surface of assembly piece (510), inner wall sliding connection slider (512) of guide way (511), the surface fixedly connected with slide bar (513) of slider (512), and the surface sliding connection of slide bar (513) is in the inner wall of assembly piece (510), the one end fixedly connected with fixed block (514) of slide bar (513).

6. The construction concrete strength detecting apparatus according to claim 5, wherein: the outer surface fixedly connected with linking bridge (515) of slider (512), third spout (516) have been seted up to the surface of linking bridge (515), the surface sliding connection of linking bridge (515) is in the inner wall of second spout (509), the surface fixedly connected with cleaning brush (517) of linking bridge (515), the surface mounting of linking bridge (515) has scale (518).