CN116678750A - Building materials resistance to compression detection device - Google Patents

Abstract

The invention provides a building material compression-resistant detection device which comprises a supporting table, wherein a workbench for placing building material test pieces is arranged at the top of the supporting table, a compression assembly for pressing down the building material test pieces placed on the workbench is arranged right above the workbench, a telescopic cylinder is further arranged on the supporting table, a protective cover is arranged at the output end of the telescopic cylinder and made of transparent materials, the protective cover is slidably sleeved with the workbench, a cleaning assembly for cleaning the inner wall of the protective cover when the protective cover moves up and down is arranged at the top of the workbench, and the problem that a large amount of dust accumulated on the protective cover in the use process of the building material compression-resistant detection device in the prior art influences the observation of working conditions in the protective cover by workers is solved.

Description

Building materials resistance to compression detection device

Technical Field

The invention relates to the technical field of material detection, in particular to a building material compression-resistant detection device.

Background

The hardness and the compressive strength of the concrete are very important indexes as common materials in constructional engineering, the concrete plays a very important role in the quality of the engineering, the compressive resistance of the concrete is detected, generally, before the concrete is constructed, the proportion of the concrete is tested, the concrete is made into a sample, then the test is pressurized by a corresponding pressure device, and the stress condition of the sample in the pressurizing process is measured by a related detection device, so that the compressive resistance of the concrete building material is judged.

Chinese patent publication No. CN212110959U discloses a recycled concrete compression resistance detection device, which is characterized in that an air-dried concrete block is placed at the center of the upper wall surface of an extrusion sleeve plate, and then a hydraulic driver drives a multi-stage hydraulic device, so that the multi-stage hydraulic device drives an extrusion driving plate below the multi-stage hydraulic device to extrude the concrete block on the upper wall surface of the extrusion sleeve plate until the concrete block is crushed, and in the extrusion process, pressure data are recorded by a pressure sensor and transmitted to a computer by a data transmission line, so that the compression resistance of the concrete building material is detected.

However, the inventor finds that in the process of implementing the patent, a protective cover is usually additionally arranged outside the concrete building material to prevent fragments generated during the concrete crushing from splashing to hurt people, and long time, the protective cover is fully covered with the fragments and dust, so that the follow-up observation of the concrete crushing is very unfavorable.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention provides a building material compression-resistant detection device, which solves the problem that a large amount of dust can be accumulated on a protective cover in the use process of the building material compression-resistant detection device in the prior art to influence workers to observe working conditions in the protective cover.

According to the embodiment of the invention, the building material compression-resistant detection device comprises a supporting table, a workbench for placing building material test pieces is arranged at the top of the supporting table, a compression component for pressing down the building material test pieces placed on the workbench is arranged right above the workbench, a telescopic cylinder is further arranged on the supporting table, a protective cover is arranged at the output end of the telescopic cylinder, the protective cover is made of transparent materials, the protective cover is sleeved with the workbench in a sliding mode, and a cleaning component for cleaning the inner wall of the protective cover when the protective cover moves up and down is arranged at the top of the workbench.

Compared with the prior art, the invention has the following beneficial effects: through adopting placing building materials sample piece on the workstation, flexible cylinder drives the guard shield and reciprocates and make the protection casing play the guard action at the device during operation, the outside injury people of sputtering when preventing that building materials sample piece is broken, the in-process of guard shield reciprocates, the clean subassembly at workstation top can clean the inner wall of protection casing, the staff has been guaranteed to observe the operating mode in the protection casing, be convenient for in time discover building materials sample piece and produce the breakage, be convenient for record data and start-stop device, thereby the staff has ensured the clear observation of operating mode in the protection casing, the quality of detection to building materials sample piece has been improved.

Further, the cleaning assembly includes: the two mounting rods are symmetrically arranged at one end of the top of the workbench, cleaning plates are arranged at the tops of the two mounting rods, brush plates are arranged on the side walls of the cleaning plates, which are close to the protective cover, and the brush plates are clung to the inner walls of the protective cover.

Further, the cleaning device further comprises a tight propping spring, the side wall of the cleaning plate is provided with an installation cavity, the brush plate is in sliding connection with the installation cavity, one end of the tight propping spring is connected with the side wall of the installation cavity, and the other end of the tight propping spring is connected with the side wall of the brush plate back separation protective cover.

Further, the method further comprises the following steps: the pushing plates are two, opposite sides of the two pushing plates are arc-shaped, the two pushing plates are horizontally and symmetrically arranged in the protective cover through the driving assembly, and the driving assembly is used for driving the two pushing blocks to be close to each other or to be far away from each other.

Further, the drive assembly includes: the two-way screw rod is horizontally and rotationally arranged in the protective cover, one ends of the two pushing blocks are respectively in threaded connection with two ends of the two-way screw rod, the other ends of the two pushing blocks horizontally penetrate through guide rods, the guide rods are horizontally and fixedly arranged between the inner walls of the protective cover, and a handle is arranged after one end of the two-way screw rod penetrates out of the protective cover.

Further, the pressurizing assembly includes: the support column, the support column is vertical and fixedly set up at the top of brace table, and the top of support column sets up the mounting panel, the top of mounting panel is equipped with the pneumatic cylinder, the output of pneumatic cylinder is equipped with the clamp plate after vertically passing the mounting panel downwards.

Further, an installation block is arranged at the output end of the telescopic cylinder and is in threaded connection with the bottom of the protective cover through a bolt.

Further, still include the mounting box, the mounting box sets up between two support columns, and the bottom of mounting box is equipped with the dust removal board through the guide rail slidingly, and the one end that the dust removal board is close to the workstation is equipped with the opening, and the one end that the dust removal board is close to the supporting bench still is equipped with the scraper, is equipped with the dust absorption pump in the mounting box, and the input of dust absorption pump communicates with the opening of dust removal board, still is equipped with the removal subassembly that the drive dust removal board removed towards the workstation in the mounting box.

Further, the moving assembly includes: the motor is fixedly arranged in the mounting box, a gear is arranged at the output end of the motor, a rack is embedded at the top of the dust removing plate, and one side of the gear stretches out of the mounting box and then is meshed with the rack.

Drawings

Fig. 1 is an isometric view of an embodiment of the invention.

Fig. 2 is a front view block diagram of an embodiment of the present invention.

Fig. 3 is a side view of an embodiment of the present invention.

Fig. 4 is a diagram showing the internal structure of the protective cover according to the embodiment of the invention.

Fig. 5 is a schematic view of a cleaning plate structure according to the present invention.

Fig. 6 is a schematic diagram of a moving assembly according to the present invention.

In the above figures: 1. a support table; 2. a work table; 3. a telescopic cylinder; 4. a protective cover; 5. a mounting rod; 6. a cleaning plate; 7. a brush plate; 8. a spring is abutted tightly; 9. a pushing plate; 10. a two-way screw rod; 11. a guide rod; 12. a handle; 13. a support column; 14. a mounting plate; 15. a hydraulic cylinder; 16. a pressing plate; 17. a mounting block; 18. a mounting box; 19. a dust removal plate; 20. a scraper; 21. a dust collection pump; 22. a motor; 23. a gear; 24. a rack.

Detailed Description

The technical scheme of the invention is further described below with reference to the accompanying drawings and examples.

As shown in fig. 1-3, an embodiment of the invention provides a building material compression-resistant detection device, which comprises a supporting table 1, wherein a workbench 2 for placing building material test pieces is arranged at the top of the supporting table 1, a pressurizing component for pressing down the building material test pieces placed on the workbench 2 is arranged right above the workbench 2, a telescopic cylinder 3 is further arranged on the supporting table 1, a protective cover 4 is arranged at the output end of the telescopic cylinder 3, the protective cover 4 is made of transparent materials, the protective cover 4 is slidably sleeved with the workbench 2, and a cleaning component for cleaning the inner wall of the protective cover 4 when the protective cover 4 moves up and down is arranged at the top of the workbench 2. In particular, the transparent material may be glass. When the anti-compression device is used, firstly, building material test pieces are placed on the workbench 2, then the telescopic cylinder 3 is started, the protective cover 4 is pushed by the telescopic cylinder 3 to cover the building material test pieces, splashing generated when the building material test pieces are broken is blocked by the protective cover 4, the inner wall of the protective cover 4 is cleaned by the cleaning component at the top of the workbench 2 in the process of moving up and down, workers can conveniently observe working conditions in the protective cover 4 through the protective cover 4 made of transparent materials, then the pressurizing component is started, the pressurizing component is enabled to pressurize the building material test pieces until the building material test pieces are broken, and the pressurizing component can be stopped after the workers observe the building material test pieces, so that the anti-compression detection of the building material test pieces is completed.

As shown in fig. 4-5, further, the cleaning assembly includes: the installation pole 5, installation pole 5 is two, and two installation poles 5 set up the one end at workstation 2 top symmetrically, and clean board 6 has been put up at the top of two installation poles 5, be equipped with brush board 7 on the lateral wall that clean board 6 is close to protection casing 4, brush board 7 is hugged closely with the inner wall of protection casing 4. When the protection casing 4 reciprocates under the promotion of flexible cylinder 3, because the brush board 7 of clean board 6 lateral wall is hugged closely with the inner wall of protection casing 4, consequently brush board 7 can clean the inner wall of protection casing 4 to conveniently do the resistance to compression that the building materials was done and detect the back, when the staff starts flexible cylinder 3 and promotes protection casing 4, just can clean protection casing 4, need not to wash in addition, make the detection staff can in time observe when the building materials sample piece in the protection casing 4 is broken, in time record relevant data, has guaranteed detection quality.

As shown in fig. 5, further, the cleaning device further comprises a tight abutting spring 8, a mounting cavity is formed in the side wall of the cleaning plate 6, the brush plate 7 is slidably connected with the mounting cavity, one end of the tight abutting spring 8 is connected with the side wall of the mounting cavity, and the other end of the tight abutting spring 8 is connected with the side wall, deviating from the protective cover 4, of the brush plate 7. In order to enable the side wall of the brush plate 7 to be always kept in a state of being clung to the inner wall of the protective cover 4, an installation cavity is formed in the side wall of the cleaning plate 6, and a tight propping spring 8 is arranged in the installation cavity, so that the side wall of the brush plate 7 can be always clung to the protective cover 4 under the action of the tight propping spring 8, and when the protective cover 4 moves up and down in the vertical direction, the tight propping spring 8 pushes the brush plate 7 to be clung to the inner wall of the protective cover 4, and force is applied to the side wall of the protective cover 4, so that a better cleaning effect is achieved.

As shown in fig. 4, further, the method further includes: the pushing plates 9, the pushing plates 9 are two, the opposite sides of the two pushing plates 9 are arc-shaped, the two pushing plates 9 are horizontally and symmetrically arranged in the protective cover 4 through a driving component, and the driving component is used for driving the two pushing blocks to be close to each other or far away from each other. In order to make the data that detects more accurate to the in-process that building materials resistance to compression detected, so when placing the building materials sample, the staff need place the building materials sample in the positive center of workstation 2, although mark corresponding central reference point on the workstation 2, because it places to be the manual work, often need many times to calibrate, excessive time has been spent, through setting up curved flitch 9 in protection casing 4, place the building materials sample on workstation 2 after, cover protection casing 4 on the building materials sample, at this moment be close to each other through drive assembly drive two curved flitch 9, under the promotion of two curved, the building materials sample is pushed to the central point of workstation 2 to need not many times to adjust the position of building materials sample, practiced thrift a large amount of time. After the building material sample is positioned, whether the building material sample is clamped by the two arc-shaped pushing plates 9 can be selected according to the detection requirement.

As shown in fig. 4, further, the driving assembly includes: the two-way lead screw 10, two-way lead screw 10 level just rotationally set up in protection casing 4, two one end of pushing the piece respectively with two end threaded connection of two-way lead screw 10, the guide bar 11 is worn to be equipped with horizontally by the other end of two pushing the piece, guide bar 11 level just sets up fixedly between the inner wall of protection casing 4, and the one end of two-way lead screw 10 is equipped with handle 12 after wearing out protection casing 4. When the building material sample piece is required to be positioned, the handle 12 is rotated, the handle 12 drives the bidirectional screw rod 10 to rotate, and as the two pushing blocks are respectively in threaded connection with the two ends of the bidirectional screw rod 10, which are opposite in rotation direction, the two pushing blocks are mutually close to each other along the guide rod 11, so that the two pushing plates 9 push the building material sample piece on the workbench 2 to be positioned at the right center of the workbench 2. According to the requirement, the detachable rubber cushion blocks can be arranged on the opposite sides of the two pushing blocks, so that the building material sample piece to be clamped is conveniently clamped. By arranging the screw rod, the pushing block and other parts in the protective cover 4 to push the building material sample, the destructive structural change of the workbench 2 is avoided, and the bearing strength of the workbench 2 is ensured.

As shown in fig. 1-4, further, the pressurizing assembly includes: the support column 13, the support column 13 is vertical and fixedly set up at the top of brace table 1, and the top of support column 13 sets up mounting panel 14, the top of mounting panel 14 is equipped with pneumatic cylinder 15, the output of pneumatic cylinder 15 is equipped with clamp plate 16 after vertically downwards passing mounting panel 14. When the building material sample piece on the supporting table 1 is pressurized, the hydraulic cylinder 15 on the mounting plate 14 is started, the hydraulic cylinder 15 drives the pressing plate 16 on the output end of the hydraulic cylinder to move downwards, so that the pressing plate 16 applies pressure to the building material sample piece until the building material sample piece is cracked and broken, and various data in the pressurizing process are recorded and analyzed through components such as a controller, a pressure sensor, a processor and the like which are externally connected in the process, so that the compression-resistant detection of the building material sample piece is realized.

As shown in fig. 1-4, further, a mounting block 17 is arranged on the output end of the telescopic cylinder 3, and the mounting block 17 is in threaded connection with the bottom of the protective cover 4 through bolts. In order to facilitate cleaning and replacement of various parts in the protective cover 4, an installation block 17 is arranged at the output end of the telescopic cylinder 3, and the installation block 17 is detachably connected with the protective cover 4 through bolts, so that the protective cover 4 is convenient to dismantle.

As shown in fig. 1 and 6, further, the dust collecting device further comprises a mounting box 18, the mounting box 18 is arranged between the two support columns 13, a dust collecting plate 19 is slidably arranged at the bottom of the mounting box 18 through a guide rail, an opening is formed at one end of the dust collecting plate 19 close to the workbench 2, a scraper 20 is further arranged at one end of the dust collecting plate 19 close to the support table 1, a dust collecting pump 21 is arranged in the mounting box 18, an input end of the dust collecting pump 21 is communicated with the opening of the dust collecting plate 19, and a moving assembly for driving the dust collecting plate 19 to move towards the workbench 2 is further arranged in the mounting box 18. Because the building materials sample piece is broken and can remain more fragments and dust on workstation 2, when need clear up the dust, start and remove subassembly and dust absorption pump 21, dust removal board 19 removes in the top of workstation 2 under the drive of remove subassembly, and the dust on workstation 2 can be scraped to scraper 20 on the dust removal board 19, then dust absorption pump 21 produces the negative pressure and will loosen the dust and pass through the opening of its tip and suck away.

As shown in fig. 1 and 6, further, the moving assembly includes: the motor 22, the fixed setting of motor 22 is equipped with gear 23 on the output of motor 22 in the mounting box 18, and the top of dust removal board 19 inlays and has set up rack 24, one side of gear 23 stretches out mounting box 18 back with rack 24 meshing. When the dust removing device works, the motor 22 is started, the motor 22 drives the gear 23 at the output end of the motor to rotate, and the gear 23 is meshed with the rack 24 embedded on the dust removing plate 19, so that the dust removing plate 19 moves along the guide rail towards the direction of the workbench 2. Specifically, the dust removing plate 19 can be controlled to reciprocate above the table 2 by the forward and reverse rotation of the motor 22, and the surface of the table 2 can be cleaned reciprocally.

Finally, it is noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the same, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the technical solution of the present invention, which is intended to be covered by the scope of the claims of the present invention.

Claims (9)

1. Building materials resistance to compression detection device, its characterized in that: including supporting bench (1), the top of supporting bench (1) is equipped with workstation (2) that are used for placing building materials sample piece, be equipped with directly over workstation (2) and be used for pushing down the pressurization subassembly of placing building materials sample piece on workstation (2), still be equipped with telescopic cylinder (3) on supporting bench (1), be equipped with protection casing (4) on the output of telescopic cylinder (3), protection casing (4) are made for transparent material, and protection casing (4) are established with workstation (2) slip cap, and the top of workstation (2) is equipped with carries out clear clean subassembly to the inner wall of protection casing (4) when protection casing (4) reciprocate.

2. A building material compression resistance detection apparatus as claimed in claim 1, wherein the cleaning assembly comprises: the installation pole (5), installation pole (5) are two, and two installation poles (5) set up the one end at workstation (2) top symmetrically, and cleaning board (6) have been set up at the top of two installation poles (5), be equipped with brush board (7) on the lateral wall that cleaning board (6) are close to protection casing (4), brush board (7) are hugged closely with the inner wall of protection casing (4).

3. A building material compression resistance detection apparatus as claimed in claim 2, wherein: still including supporting tight spring (8), the installation cavity has been seted up on the lateral wall of clean board (6), brush board (7) and installation cavity sliding connection, the one end that supports tight spring (8) is connected with the lateral wall of installation cavity, and the other end that supports tight spring (8) is connected with the lateral wall that brush board (7) deviates from protection casing (4).

4. A building material compression resistance detection apparatus as claimed in claim 3, further comprising: the pushing plates (9), the pushing plates (9) are two, the opposite sides of the two pushing plates (9) are arc-shaped, the two pushing plates (9) are horizontally and symmetrically arranged in the protective cover (4) through the driving assembly, and the driving assembly is used for driving the two pushing blocks to be close to or far away from each other.

5. A building material compression resistance detection apparatus as in claim 4 wherein the drive assembly comprises: the two-way screw rod (10), two-way screw rod (10) level and rotationally set up in protection casing (4), two one end of pushing the piece respectively with two end threaded connection of two-way screw rod (10), guide bar (11) are worn to be equipped with horizontally to the other end of two pushing the piece, guide bar (11) level and fixedly set up between the inner wall of protection casing (4), are equipped with handle (12) after one end of two-way screw rod (10) wears out protection casing (4).

6. A building material compression resistance detection apparatus as claimed in claim 1, wherein the compression assembly comprises: the support column (13), support column (13) are vertical and set up in the top of brace table (1) fixedly, and the top of support column (13) is provided with mounting panel (14), the top of mounting panel (14) is equipped with pneumatic cylinder (15), be equipped with clamp plate (16) behind the vertical downwardly penetrating mounting panel (14) of output of pneumatic cylinder (15).

7. A building material compression resistance detection apparatus as claimed in claim 1, wherein: the telescopic cylinder is characterized in that an installation block (17) is arranged at the output end of the telescopic cylinder (3), and the installation block (17) is connected with the bottom of the protective cover (4) through bolts in a threaded mode.

8. The building material compression resistance detection device according to claim 7, wherein: still including install bin (18), install bin (18) set up between two support columns (13), the bottom of install bin (18) is equipped with dust collecting plate (19) through the guide rail is slided, the one end that dust collecting plate (19) are close to workstation (2) is equipped with the opening, the one end that dust collecting plate (19) are close to brace table (1) still is equipped with scraper (20), be equipped with dust absorption pump (21) in install bin (18), the input and the opening intercommunication of dust collecting plate (19) of dust absorption pump (21), still be equipped with the removal subassembly that drive dust collecting plate (19) removed towards workstation (2) in install bin (18).

9. A building material compression resistance detection apparatus as defined in claim 8, wherein said moving assembly comprises: the motor (22), motor (22) are fixed to be set up in install bin (18), are equipped with gear (23) on the output of motor (22), and rack (24) are inlayed at the top of dust collecting plate (19), one side of gear (23) stretch out install bin (18) back with rack (24) meshing.