CN113376025A

CN113376025A - Building test block detection device

Info

Publication number: CN113376025A
Application number: CN202110638351.5A
Authority: CN
Inventors: 朱剑贤
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-06-08
Filing date: 2021-06-08
Publication date: 2021-09-10

Abstract

The invention discloses a building test block detection device which comprises a system host module and a hydraulic module, wherein the hydraulic module comprises a bottom equipment box, a clamping groove is formed in the surface of one end of a workbench, a first rotating shaft is installed on the bottom side of the clamping groove, an embedding plate is installed at the bottom end of the first rotating shaft, a magnetic block is installed on the upper side of the surface of the embedding plate, a blast hole is installed at the bottom side of the magnetic block, a handle is installed at the bottom end of the blast hole, a second rotating shaft is installed at the bottom end of the other end of the workbench, a leakage hole is installed at the bottom end of the second rotating shaft, a third rotating shaft is installed at the bottom end of the leakage hole, and a rear baffle is installed at the bottom end of the third rotating shaft. By arranging the structure convenient and fast to clean, dust and small particles near the pressure pad can be cleaned in time through wind power in the process of pressing the cubic test block, particularly when cracks or dust appear in the pressed cubic test block, the large-area pollution of the dust to the workbench can be reduced in time, and the cleaning time before the next cubic test block can be reduced.

Description

Building test block detection device

Technical Field

The invention relates to the field of building inspection, in particular to a building test block detection device.

Background

The concrete press is a press, mainly used for testing the compressive strength of building material test blocks such as concrete, cement, high strength brick, refractory material, also can be used for the test of the compressive strength of other non-metallic materials, and more commonly contains host computer and hydraulic system, and its hydraulic system generally comprises hydraulic pump, oil delivery valve, oil return valve, oil tank, oil filter and oil pipe etc. the cube test block in the pressure measurement flow is three or more usually, and all adopts standard maintenance.

However, in the conventional test block detection device, pressure test needs to be performed on a plurality of test blocks, and the most basic test flow also needs to ensure three cubic test blocks, so in the test flow, in order to reduce the influence of the last test block, the workbench is usually cleaned after a single detection is completed, in particular, when small dust or particles fall on the pressure pad, the pressure degree is uneven in the detection of the cubic test blocks, and finally, the detection result is abnormal, so that a lot of time is consumed for cleaning the dust and the particles on the workbench for a long time, and the inconvenience is caused.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a building test block detection device.

In order to solve the technical problems, the invention provides the following technical scheme:

the invention relates to a building test block detection device, which comprises a system host module and a hydraulic module, wherein the system host module comprises a control panel, a control valve and a built-in host, the hydraulic module comprises a bottom equipment box, the bottom equipment box comprises a driving device, a hydraulic rod, a fixed block, a pressurizing block, a groove plate, a pressurizing pad and a workbench are arranged at the top end of the bottom equipment box, the fixed block is fixedly connected with the hydraulic rod and the pressurizing block respectively, the hydraulic rod and the bottom equipment box are in transmission connection, the groove plate and the pressurizing pad are arranged on the inner side of the hydraulic rod, a buckling groove is arranged on the surface of one end of the workbench, a first rotating shaft is arranged at the bottom side of the buckling groove, an embedded plate is arranged at the bottom end of the first rotating shaft, a magnetic block is arranged on the upper side of the surface of the embedded plate, a blast port is arranged at the bottom side of the magnetic block, and a handle is arranged at the bottom end of the blast port, the novel rotary table is characterized in that a second rotating shaft is installed on the bottom side of the other end of the working table, a leakage opening is installed at the bottom end of the second rotating shaft, a third rotating shaft is installed at the bottom end of the leakage opening, a rear baffle is installed at the bottom end of the third rotating shaft, inserting buckles are installed in the middle of the two sides of the rear baffle, and inserting grooves are installed on the two sides of the leakage opening.

As a preferred technical solution of the present invention, the slot is fixedly connected to the bottom equipment box, the leak is rotatably connected to the bottom equipment box through the second rotating shaft, the leak is rotatably connected to the rear baffle through the third rotating shaft, the slot is correspondingly provided to the insert buckle, the panel is rotatably connected to the bottom equipment cabinet through the first rotating shaft, the magnetic block is correspondingly provided to the buckle groove, the latch bead buckle structure is provided on the inner side of the buckle groove, the handle is fixedly connected to the panel, and the panel is in embedded contact with the bottom equipment cabinet.

As a preferable technical solution of the present invention, a dust screen is disposed on a surface of the air outlet, a direct blowing fan is mounted inside the dust screen, the direct blowing fan is disposed on one side of the magnetic block, an inclined block is mounted on one side of the direct blowing fan, an inclined fan is mounted on a surface of the inclined block, and an inclination angle of the inclined fan is fifteen degrees.

As a preferred technical scheme of the present invention, the insert buckle and the rear baffle are fixedly connected, a welding block is arranged at one end of the insert buckle, a connecting rope is arranged at one end of the welding block, a buckle is arranged at one end of the connecting rope, the connecting rope is made of nylon material, a lower fixing ring is arranged at the bottom end of the leakage opening, an upper buckle ring is arranged at the top end of the lower fixing ring, the lower fixing ring and the third rotating shaft are fixedly connected, and the lower fixing ring and the upper buckle ring are in buckle connection.

As a preferred technical solution of the present invention, a camera is installed at one side of the handle, the camera is electrically connected to the system host module, and the system host module includes a storage hard disk and a CPU chip therein.

As a preferable technical solution of the present invention, a side baffle is installed on a top end surface of the workbench, and the side baffle is disposed outside the hydraulic rod on a side farther from the system host module.

As a preferable technical solution of the present invention, the back baffle is made of a transparent acrylic plate, a thickness of the back baffle is provided with an inclination angle, the inclination direction of the inclination angle gradually increases from one end away from the third rotation axis to the third rotation axis, and the inclination angle of the back baffle is not higher than ten degrees.

Compared with the prior art, the invention has the following beneficial effects:

1: by arranging the structure convenient and fast to clean, dust and small particles near the pressure pad can be cleaned in time through wind power in the process of pressing the cubic test block, particularly when cracks or dust appear in the pressed cubic test block, the large-area pollution of the dust to the workbench can be reduced in time, and the cleaning time before the next cubic test block can be reduced.

2: according to the invention, the collection device matched with the cleaning structure is arranged, so that dust and particles left on the workbench by the test block can be timely collected in the cleaning process and stored in the collected cloth bag or garbage bag, and further, the centralized treatment by workers is facilitated.

3: according to the invention, the camera is combined with the cleaning structure, so that the image of the test block in the inspection process can be shot by the camera in a short distance, and meanwhile, the cleaning structure adopts wind power cleaning, so that the camera can reduce the influence of crack generation in the vertical block and dust rising during fragmentation, the crack generation process can be directly and clearly shot, and the follow-up staff can conveniently analyze the test block.

4: the invention has simple structure and convenient unfolding and closing, the whole structure can be convenient for workers to observe in a short distance under the condition of ensuring the operation of the original equipment, and the hydraulic space of the whole structure forms a semi-open structure after the whole structure is unfolded, thereby further avoiding the phenomena of particle splashing and the like generated by the extrusion of the cubic test block and protecting the operation flow of the workers.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of a portion of the present invention;

FIG. 3 is a rear view of the hydraulic module structure of the present invention;

FIG. 4 is a sectional view of the blower clip of the present invention;

FIG. 5 is a schematic view of the inventive leak configuration;

in the figure: 1. a system host module; 101. a control panel; 102. a control valve; 2. a hydraulic module; 201. a bottom equipment box; 202. a hydraulic lever; 203. a fixed block; 204. pressing a block; 205. a groove plate; 206. a pressure pad; 207. a work table; 3. a fastening groove; 4. a first rotating shaft; 5. inlaying a plate; 501. a magnetic block; 502. a tuyere; 503. a handle; 504. a dust screen; 505. a direct-blowing fan; 506. an inclined block; 507. an inclined fan; 6. a second rotation shaft; 7. a leak port; 701. a lower retainer ring; 702. an upper buckle ring; 8. a third rotation axis; 9. a tailgate; 901. inserting and buckling; 902. welding the blocks; 903. connecting ropes; 904. buckling; 10. a slot; 11. a camera; 12. side dams.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example 1

As shown in fig. 1-5, the invention provides a building test block detection device, which includes a system host module 1 and a hydraulic module 2, wherein the system host module 1 includes a control panel 101, a control valve 102 and a built-in host, the hydraulic module 2 includes a bottom equipment box 201, the bottom equipment box 201 includes a driving device, a hydraulic rod 202, a fixing block 203, a pressurizing block 204, a groove plate 205, a pressure pad 206 and a worktable 207 are installed at the top end of the bottom equipment box 201, the fixing block 203 is respectively and fixedly connected with the hydraulic rod 202 and the pressurizing block 204, the hydraulic rod 202 and the bottom equipment box 201 are in transmission connection, the groove plate 205 and the pressure pad 206 are both installed inside the hydraulic rod 202, a buckling groove 3 is installed on one end surface of the worktable 207, a first rotating shaft 4 is installed at the bottom side of the buckling groove 3, a mosaic plate 5 is installed at the bottom end of the first rotating shaft 4, the utility model discloses a solar energy collector, including mosaic plate 5, handle, workstation 207, mouth 7, plug-in buckle 901, slot 10, mosaic plate 5's surperficial upside is installed magnetic block 501, tuyere 502 is installed to magnetic block 501's bottom side, handle 503 is installed to tuyere 502's bottom, second rotation axis 6 is installed to workstation 207's other end bottom side, leak 7 is installed to second rotation axis 6's bottom, third rotation axis 8 is installed to leak 7's bottom, backplate 9 is installed to third rotation axis 8's bottom, the both sides mid-mounting of backplate 9 has plug-in buckle 901, slot 10 is installed to leak 7's both sides.

Further, slot 10 and end equipment box 201 are fixed connection, leak 7 and end equipment box 201 are connected for rotating through second rotation axis 6, leak 7 and backplate 9 are connected for rotating through third rotation axis 8, slot 10 and buckle 901 set up for corresponding, mosaic plate 5 and end equipment cabinet are connected for rotating through first rotation axis 4, magnetism piece 501 and buckle groove 3 set up for corresponding, 3 inboards in buckle groove set up for bumping pearl buckle structure, handle 503 and mosaic plate 5 are fixed connection, mosaic plate 5 and end equipment cabinet set up for inlaying the contact.

The surface of the blast port 502 is provided with a dust screen 504, the inside of the dust screen 504 is provided with a direct blowing fan 505, the direct blowing fan 505 is arranged on one side of the magnetic block 501, one side of the direct blowing fan 505 is provided with an inclined block 506, the surface of the inclined block 506 is provided with an inclined fan 507, and the inclined angle of the inclined fan 507 is fifteen degrees.

Eye-splice 901 and backplate 9 are fixed connection, the one end of eye-splice 901 is provided with welded block 902, connect rope 903 is installed to the one end of welded block 902, the one end of connecting rope 903 is provided with buckle 904, connect rope 903 and form by the nylon materials preparation, retainer plate 701 is installed down to the bottom of leak 7, last buckle ring 702 is installed on the top of retainer plate 701 down, retainer plate 701 and third rotation axis 8 are fixed connection down, retainer plate 701 and last buckle ring 702 are the buckle connection.

The camera 11 is installed to one side of handle 503, camera 11 and system host module 1 are electric connection, system host module 1 is inside to include and stores hard disk and CPU chip.

The top end surface of the workbench 207 is provided with a side baffle 12, and the side baffle 12 is arranged on the outer side of the hydraulic rod 202 at the far side from the system host module 1.

The backplate 9 is formed by transparent acrylic plate preparation, the thickness of backplate 9 is provided with inclination, and its incline direction risees gradually for keeping away from third rotation axis 8 one end to third rotation axis 8, backplate 9's inclination is not higher than ten degrees.

Specifically, a user mainly controls the hydraulic rod 202, the fixed block 203, the pressurizing block 204 and the driving equipment inside the bottom equipment box 202 on the hydraulic module 2 through the control panel 101 and the control valve 102 on the system host module 1, and the cubic test block is placed on the pressure pad 206 and is limited by the groove plate 205 to be used;

then, the worker mainly rotates and pulls up the mosaic plate 5 along the first rotating shaft 4 through the handle 503 until the mosaic plate 5 is turned over by 180 degrees from the surface of the bottom equipment box 201, the magnetic block 501 is buckled through the buckling groove 3 after the rotation, double fixation is formed by adsorption according to the magnetic attraction effect of the magnetic block 501, the rear baffle plate 9 mainly rotates through the second rotating shaft 6 and rotates through the third rotating shaft 8, so that the leakage opening 7 is vertical to the bottom equipment box 201, the side walls of the rear baffle plate 9 and the bottom equipment box 201 are parallel, the rear baffle plate 9 forms a buckling structure with the inserting buckle 901 and the inserting groove 10 for fixation, the leakage opening 7 can be separated through the lower fixing ring 701 and the upper buckling ring 702, so that the edge of a storage cloth bag or a garbage bag is fixed through the lower fixing ring 701 and the upper buckling ring 702, and the storage bag is placed on the ground to form the garbage storage bag;

then, the control panel 101 controls the opening of the straight blowing fan 505 and the inclined fan 507 inside the blast opening 502, in the process of pressing the cube test block, the straight blowing fan 505 directly blows dust and small particles falling from the cube test block at the bottom, the inclined fan 507 forms a certain angle by the inclined block 506, the dust is obliquely blown onto the workbench 207 from top to bottom, the raised dust is returned to the surface of the workbench 207 by the inclined wind power, and the raised dust is blown out by the straight blowing fan 505, and the dust near the pressed pad 206 is directly cleaned;

in the clean flow, the side shield 12 of one side and the system host module 1 lateral wall of opposite side will form the wind channel structure, make wind-force mainly form ventilation effect in the front and back, near backplate 9 will be put into to the dust afterwards, and the dust is mainly blockked the back via backplate 9, by the inclination on surface and the space direct entering of leak 7 department accomodate the bag inside, can form the dust and accomodate the effect.

Its overall structure is simple, after mosaic plate 5 and backplate 9 are whole to be expanded, can form half open structure in the lump with side shield 12, the inside granule that can avoid producing because of pressure is arranged in to the cube test block and is spattered the phenomenon all around, meanwhile adopt backplate 9 and the netted tuyere 502 that sets up of transparent ya keli board also can be convenient for staff's observation, when opening the camera 11 of handle one side through control panel 101, its camera 11 will shoot the pressurized flow and the crack starting point of cube test block in real time, because the blowing of tuyere 502, the dust will be blown away during cube test block raise dust, make camera 11 can be more clear catch the pressurized flow of cube test block, be convenient for staff's subsequent work analysis, and further increased overall structure inspection efficiency to the cube test block.

Example 2

Go up buckle ring 702's top surface edge and be provided with U type baffle structure, mainly used and side shield 12 link up with system host module 1's lateral wall, make the gap part of wind channel structure filled by U type baffle, further increase wind channel structure's integrality, other structures are then all the same with embodiment 1.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A building test block detection device comprises a system host module (1) and a hydraulic module (2), wherein the system host module (1) comprises a control panel (101), a control valve (102) and a built-in host, the hydraulic module (2) comprises a bottom equipment box (201), the bottom equipment box (201) comprises a driving device, a hydraulic rod (202), a fixing block (203), a pressurizing block (204), a groove plate (205), a pressurizing pad (206) and a workbench (207) are installed at the top end of the bottom equipment box (201), the fixing block (203) is fixedly connected with the hydraulic rod (202) and the pressurizing block (204), the hydraulic rod (202) and the bottom equipment box (201) are in transmission connection, the groove plate (205) and the pressurizing pad (206) are both arranged on the inner side of the hydraulic rod (202), and the building test block detection device is characterized in that a clamping groove (3) is formed in the surface of one end of the workbench (207), first rotation axis (4) are installed to the bottom side of buckle groove (3), mosaic plate (5) are installed to the bottom of first rotation axis (4), magnetism piece (501) are installed to the surface upside of mosaic plate (5), tuyere (502) are installed to the bottom side of magnetism piece (501), handle (503) are installed to the bottom of tuyere (502), second rotation axis (6) are installed to the other end bottom side of workstation (207), leak (7) are installed to the bottom of second rotation axis (6), third rotation axis (8) are installed to the bottom of leak (7), backplate (9) are installed to the bottom of third rotation axis (8), the both sides mid-mounting of backplate (9) has eye-splice (901), slot (10) are installed to the both sides of leak (7).

2. The building test block detection device according to claim 1, wherein the slot (10) is fixedly connected with the bottom equipment box (201), the nozzle (7) is rotatably connected with the bottom equipment box (201) through a second rotating shaft (6), the nozzle (7) is rotatably connected with the rear baffle (9) through a third rotating shaft (8), the slot (10) is correspondingly arranged with the plug buckle (901), the panel (5) is rotatably connected with the bottom equipment box through a first rotating shaft (4), the magnetic block (501) is correspondingly arranged with the buckle groove (3), the inner side of the buckle groove (3) is provided with a ball-touch buckle structure, the handle (503) is fixedly connected with the panel (5), and the panel (5) is provided with a bottom equipment box in a mosaic contact manner.

3. The building test block detection device according to claim 2, wherein a dust screen (504) is arranged on the surface of the air outlet (502), a direct blowing fan (505) is arranged inside the dust screen (504), the direct blowing fan (505) is arranged on one side of the magnetic block (501), an inclined block (506) is arranged on one side of the direct blowing fan (505), an inclined fan (507) is arranged on the surface of the inclined block (506), and the inclination angle of the inclined fan (507) is fifteen degrees.

4. The building test block detection device according to claim 2, wherein the inserting buckle (901) and the rear baffle (9) are fixedly connected, a welding block (902) is arranged at one end of the inserting buckle (901), a connecting rope (903) is installed at one end of the welding block (902), a buckle (904) is arranged at one end of the connecting rope (903), the connecting rope (903) is made of nylon materials, a lower fixing ring (701) is installed at the bottom end of the leakage opening (7), an upper buckle ring (702) is installed at the top end of the lower fixing ring (701), the lower fixing ring (701) and the third rotating shaft (8) are fixedly connected, and the lower fixing ring (701) and the upper buckle ring (702) are connected in a buckle mode.

5. The building test block detection device according to claim 2, wherein a camera (11) is installed on one side of the handle (503), the camera (11) is electrically connected with the system host module (1), and the system host module (1) internally comprises a storage hard disk and a CPU chip.

6. The building block detection device according to claim 2, wherein a side baffle (12) is installed on the top surface of the workbench (207), and the side baffle (12) is arranged outside the hydraulic rod (202) at a far side from the system host module (1).

7. The building block detection device according to claim 2, wherein the rear baffle (9) is made of a transparent acrylic plate, the thickness of the rear baffle (9) is provided with an inclination angle, the inclination direction of the rear baffle is gradually increased from one end away from the third rotation axis (8) to the third rotation axis (8), and the inclination angle of the rear baffle (9) is not higher than ten degrees.