CN218382098U - Concrete compression test equipment - Google Patents

Abstract

The utility model relates to a concrete compression test equipment relates to the field of concrete compression detection technique, portable standard curing room includes the curing room body, a plurality of settings are used for placing the maintenance frame of concrete test block at the curing room body, the collection storehouse of setting below the maintenance frame, the setting is used for on the collection storehouse the piece that the concrete test block dropped to the collection storehouse along the mechanism that cleans that its length direction's both sides were moved to the collection storehouse, and set up and be used for carrying out the collection mechanism of collecting the piece along its length direction both sides at the collection storehouse. This application has the piece and the residue that are convenient for drop at the in-process of maintenance to the concrete test block and clear up the effect.

Description

Concrete compression test equipment

Technical Field

The application relates to the field of concrete resistance to compression detection technique, especially, relate to a concrete resistance to compression test equipment.

Background

Concrete compression test includes the preparation of concrete test block, the maintenance, test the test block through compression testing machine after that, wherein the maintenance link adopts standard curing room to maintain usually, standard curing room is one kind and has the inside ambient temperature of regulation, humidity, be used for maintaining concrete test block, the cement test block, the mortar, insulation material, coating, the structure is glued etc. to guarantee that it satisfies the experimental facility of test requirement, portable standard curing room has advantages such as the wholeness is good, it is convenient to remove, recycle, cost saving compared in traditional curing room.

At present, portable standard curing room includes the container, constant temperature and humidity control system, humidification system, heating system, refrigerating system, and be used for placing the maintenance frame of concrete test block, its mainly used maintains prefabricated concrete test block, treat to carry out compressive strength to it after the concrete test block maintenance shaping and detect, thereby assess the security to the building, guarantee the quality of construction, but the concrete test block can drop piece and residue at the in-process of maintenance, piece and residue can be followed the gap on the maintenance frame and dropped to the container bottom plate of support body below downwards, it not only is difficult to clear up, and if can solidify the bonding to the bottom plate for a long time not clear up concrete piece and residue, thereby make follow-up clearance more difficult.

SUMMERY OF THE UTILITY MODEL

In order to facilitate clearing up the piece and the residue that the in-process of concrete test block at the maintenance dropped, this application provides a concrete compression test equipment.

The application provides a concrete compression test equipment adopts following technical scheme:

the utility model provides a concrete compression test equipment, includes the curing room body, a plurality of settings are used for placing the curing frame of concrete test block at the curing room body, set up the collection storehouse in curing frame below, set up and be used for on the collection storehouse piece that the concrete test block dropped to collecting the storehouse and moving along its length direction's both sides cleaning mechanism and set up and be used for carrying out the collection mechanism of piece along its length direction both sides at the collection storehouse.

Through adopting the above technical scheme, when the staff places the concrete test block on the maintenance frame, piece and the residue that the concrete test block dropped at the in-process of maintenance can pass the collection storehouse of the gap that falls to the below on the maintenance frame, staff's periodic start cleans the mechanism after that, it drives residue and piece in collecting the storehouse and removes to collection mechanism one side to clean the mechanism, and collect the residue through collection mechanism, can accomplish the clearance to the piece that the concrete test block dropped and residue, it is convenient not only the simple operation, alleviate staff's intensity of labour, and be convenient for the staff in time clear up piece and residue fast, make difficult solidification of concrete piece and residue bond to the bottom plate of maintenance room body on.

Optionally, the cleaning mechanism includes a scraper disposed in the collecting bin, driving blocks disposed on two sides of the scraper in the length direction, a driving assembly disposed between the driving blocks and the collecting bin for driving the driving blocks to move along the length direction of the collecting bin, and a reversing assembly disposed between the driving blocks and the scraper for driving the scraper to rotate; the two sides of the scraper blade along the length direction of the scraper blade are abutted to the two side walls of the collecting bin, and the driving block is abutted to the side walls of the collecting bin.

By adopting the technical scheme, when the sweeping mechanism carries the scraps and the residues in the collecting bin to one side of the collecting mechanism, firstly, a worker drives the scraper to move to one side of the collecting mechanism along the length direction of the collecting bin through the driving assembly, then the driving assembly drives the driving block to move, and the driving block drives the scraper to move to one side of the collecting mechanism, so that the scraps and the residues are carried to one side of the collecting mechanism and are collected by the collecting mechanism; if when the staff carries next time to piece and residue in the collection storehouse, at first drive the scraper blade through the switching-over subassembly and rotate to the one side of waiting to remove, start drive assembly drive the scraper blade after that with piece and residue to collection mechanism one side transport can to make the scraper blade realize along the reciprocal clearance transport of collecting storehouse length direction.

Optionally, the scraper is an arc-shaped plate, and two ends of the cross section of the arc-shaped plate are arranged in a spine shape.

Through adopting above-mentioned technical scheme, the both ends of scraper blade cross section are the spine form and not only are convenient for shovel with piece and the residue on collecting the storehouse inner diapire to the inner diapire clearance that will collect the storehouse cleaner, the arc sets up and forms certain accommodation space moreover, makes in piece and residue can get into the arc cavity, is difficult for forming in scraper blade one side and piles up, thereby makes the scraper blade remove more smoothly.

Optionally, the reversing assembly comprises a band-type brake motor arranged on one side of the driving block and a rotating shaft fixedly arranged at one end of an output shaft of the band-type brake motor;

rotation axis one end runs through the drive block and with scraper blade fixed connection, it has seted up the groove of sliding to collect the storehouse on its length direction's the lateral wall, the rotation axis is located the inslot cunning that slides.

By adopting the technical scheme, when the reversing assembly drives the scraper to rotate reversely, firstly, a worker starts the contracting brake motor, the output shaft of the contracting brake motor drives the rotating shaft to rotate, the rotating shaft can drive the scraper to rotate reversely, and one side of the scraper, which is far away from the bottom wall of the collecting bin, is abutted against the inner bottom wall of the collecting bin, so that the reversing of the scraper is realized; and the contracting brake motor can realize the auto-lock of output shaft after the outage to the realization is to the auto-lock of scraper blade.

Optionally, the driving assembly includes two supporting plates respectively fixed at two sides of the maintenance frame in the length direction, a screw rod rotatably connected between the two supporting plates, and a driving motor arranged at one side of the screw rod; the screw rod is in threaded connection with the driving block.

Through adopting above-mentioned technical scheme, when driving the scraper blade through drive assembly and removing, at first the staff starts driving motor, and driving motor drives the screw rod and rotates after that, and the screw rod drives the drive block and removes, and the drive block can drive the scraper blade and remove along the length direction who collects the storehouse to realize the automatic clearance of scraper blade, alleviate staff's intensity of labour.

Optionally, the collecting mechanism includes a collecting hopper fixedly arranged on one side of the collecting bin, a collecting barrel arranged on one side of the collecting hopper far away from the collecting bin, and a fixing component arranged between the collecting barrel and the collecting hopper and used for fixing the collecting barrel to one side of the collecting hopper.

By adopting the technical scheme, when the residue and the scraps are collected by the collecting mechanism, the residue and the scraps are firstly carried into the collecting hopper at the end part of the collecting bin by the cleaning mechanism, then the residue and the scraps are cleaned into the collecting barrel by other cleaning tools such as a broom by a worker, the collection of the residue and the scraps can be completed, then the worker removes the fixed state of the fixed component and dumps the residue and the scraps in the collecting barrel; wherein fixed subassembly can be fixed the collecting vessel to make the collecting vessel be difficult for causing the export dislocation of collecting vessel and collecting hopper after the residue whereabouts leads to the collecting vessel lateral wall to assault, thereby improve the stability of collecting the mechanism.

Optionally, the fixing assembly includes an insertion block fixed on one side of the collecting barrel, a first magnet block fixed on one side of the insertion block away from the collecting barrel, and a second magnet block fixed on one side of the collecting hopper;

the first magnet block and the second magnet block can be mutually adsorbed, the material collecting hopper is provided with an insertion groove, and the insertion block is inserted into the insertion groove.

By adopting the technical scheme, when the collecting barrel is fixed through the fixing assembly, firstly, a worker inserts the inserting block into the inserting groove, and then the first magnet block and the second magnet block are mutually adsorbed, so that the collecting barrel can be fixed; when the staff need clear away the rubbish in the collecting vessel, to keeping away from the one side application of force of collecting hopper, make first magnet piece and second magnet piece alternate segregation, can remove the fixed to the collecting vessel.

Optionally, the collecting hopper is arranged from the collecting bin to one side close to the collecting barrel in a downward inclination mode.

Through adopting above-mentioned technical scheme, the whole downward sloping setting of collecting hopper makes the staff need not with the help of other supplementary cleaning tools, can make residue and piece slide down along the collecting hopper under its self action of gravity to the staff of being convenient for collects residue and piece.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the cleaning mechanism and the collecting mechanism are matched to be used, so that the chips and residues falling off the concrete test block can be cleaned, the operation is convenient, the labor intensity of workers is reduced, the workers can clean the chips and the residues quickly and timely, and the chips and the residues of the concrete test block are not easy to cure and adhere to the bottom plate of the curing room body;

2. the sweeping mechanism realizes automatic reversing of the arc-shaped scraping plates, so that the scraping plates can carry scraps and residues in a reciprocating manner along the length direction of the collecting bin, and the sweeping efficiency of the sweeping mechanism is improved;

3. the driving component can control and drive the scraper to move along the length direction of the collecting bin, so that the automatic cleaning of the scraper is realized, and the labor intensity of workers is reduced;

4. fixed subassembly can be fixed the collecting vessel to make the collecting vessel be difficult for causing the export that leads to collecting vessel and collecting hopper to take place the dislocation after the impact to the collecting vessel lateral wall in the residue whereabouts, thereby improve the stability of collecting mechanism.

Drawings

FIG. 1 is a schematic structural diagram of a concrete compression test apparatus in an embodiment of the present application;

FIG. 2 is a partial structural view showing a curing rack;

fig. 3 is a partial enlarged view illustrating a structure of a portion a of fig. 2;

fig. 4 is a partial sectional view showing the collecting mechanism.

Description of reference numerals: 1. a curing chamber body; 2. a maintenance frame; 3. testing concrete blocks; 4. a collection bin; 41. a sliding groove; 5. a cleaning mechanism; 51. a squeegee; 52. a drive block; 53. a drive assembly; 531. a support plate; 532. a screw; 533. a drive motor; 54. a commutation assembly; 541. a band-type brake motor; 542. a rotating shaft; 6. a collection mechanism; 61. a collection hopper; 611. inserting grooves; 62. a collection barrel; 63. a fixing assembly; 631. an insertion block; 632. a first magnet block; 633. a second magnet block.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses concrete compression test equipment. Referring to fig. 1 and 2, the concrete compression test equipment comprises a curing room body 1, wherein a plurality of curing frames 2 are arranged in the curing room body 1, and the curing frames 2 are used for placing concrete test blocks 3. The curing frame 2 below is provided with collects the storehouse 4, is provided with on collecting the storehouse 4 and cleans mechanism 5, cleans mechanism 5 and is used for transporting the piece that concrete test block 3 dropped on the curing frame 2 to collecting storehouse 4 along its length direction's both sides. The collecting bin 4 is further provided with collecting mechanisms 6 along two sides of the length direction of the collecting bin, and the collecting mechanisms 6 are used for collecting the debris.

When the staff places concrete test block 3 on maintenance frame 2, piece and the residue that concrete test block 3 dropped at the in-process of maintenance can pass the gap on maintenance frame 2 and fall to in the collection storehouse 4 of below, the staff regularly starts cleaning mechanism 5 after that, cleaning mechanism 5 can automatically drive the residue and the piece in collecting storehouse 4 and remove to 6 one side of collection mechanism, thereby alleviate staff's intensity of labour, collect the residue through collection mechanism 6 afterwards, can accomplish the timely clearance to piece and the residue that concrete test block 3 dropped, make difficult solidification of concrete piece and residue bond to the bottom plate of maintenance room body 1 on.

Referring to fig. 2 and 3, the cleaning mechanism 5 includes a scraper 51 disposed in the collection bin 4, and both sides of the scraper 51 along the length direction thereof are abutted to both side walls of the collection bin 4; the scraper 51 is provided with driving blocks 52 on both sides in the longitudinal direction, and the driving blocks 52 abut against the side walls of the collecting chamber 4. A driving component 53 is arranged between the driving block 52 and the collecting bin 4, and the driving component 53 is used for driving the driving block 52 to move along the length direction of the collecting bin 4; and scraper blade 51 is the arc, and the both ends of the cross section of arc are the spine form setting, and the spine form setting is convenient for shoveling piece and residue on collecting bin 4 inner diapire, and scraper blade 51 is the certain accommodation space of one side formation that the arc set up simultaneously, makes in piece and the residue can get into the arc chamber to be difficult for forming in scraper blade 51 one side and pile up, make scraper blade 51 remove more smoothly. A reversing assembly 54 is arranged between the driving block 52 and the scraper 51, and the reversing assembly 54 is used for driving the scraper 51 to rotate.

Referring to fig. 2 and 3, the reversing assembly 54 includes a contracting brake motor 541 disposed on one side of the driving block 52, one end of an output shaft of the contracting brake motor 541 is fixedly provided with a rotating shaft 542, one end of the rotating shaft 542 penetrates through the driving block 52 and is fixedly connected with the scraper 51, a sliding groove 41 is disposed on a side wall of the collecting bin 4 along the length direction thereof, and the rotating shaft 542 is located in the sliding groove 41 and slides.

Referring to fig. 2 and 3, the driving assembly 53 includes two supporting plates 531 respectively fixed at both sides of the maintenance frame 2 in the length direction, a screw 532 is rotatably connected between the two supporting plates 531, a driving motor 533 is disposed at one side of the screw 532, an output shaft of the driving motor 533 is fixedly connected to one end of the screw 532, and the screw 532 is threadedly connected to the driving block 52.

When the sweeping mechanism 5 conveys the scraps and residues in the collecting bin 4 to one side of the collecting mechanism 6, firstly, a worker starts the driving motor 533, then the driving motor 533 drives the screw rod 532 to rotate, the screw rod 532 drives the driving block 52 to move, the driving block 52 drives the rotating shaft 542 to move, and the rotating shaft 542 can drive the scraper 51 to move along the length direction of the collecting bin 4, so that the automatic cleaning of the scraper 51 is realized, and the scraps and the residues are conveyed to one side of the collecting mechanism 6 and collected by the collecting mechanism 6; if the staff carries next time to piece and residue in collecting the storehouse 4, at first start band-type brake motor 541, band-type brake motor 541 output shaft drives rotation axis 542 and rotates, rotation axis 542 can drive scraper blade 51 antiport, make scraper blade 51 keep away from the one side of collecting the 4 diapalls in storehouse and the interior diapire butt of collecting the storehouse 4, thereby realize scraper blade 51's switching-over, and band-type brake motor 541 can realize the auto-lock of output shaft after the outage, thereby realize the auto-lock to scraper blade 51 simultaneously, the staff starts driving motor 533 after that, driving motor 533 drives screw rod 532 antiport, can drive scraper blade 51 with piece and residue to the transport of collection mechanism 6 one side, thereby make scraper blade 51 realize the reciprocal clearance transport of following collection storehouse 4 length direction.

Referring to fig. 4, the collecting mechanism 6 includes a collecting hopper 61 fixed on one side of the collecting chamber 4, a collecting barrel 62 is disposed on one side of the collecting hopper 61 away from the collecting chamber 4, and the collecting hopper 61 is inclined downwards from the collecting chamber 4 to one side close to the collecting barrel 62. A fixing assembly 63 is provided between the collection bucket 62 and the collection bucket 61, and the fixing assembly 63 is used for fixing the collection bucket 62 to one side of the collection bucket 61.

Referring to fig. 4, the fixing assembly 63 includes an insertion block 631 fixed to one side of the collecting barrel 62, an insertion groove 611 is formed on the collecting barrel 61, and the insertion block 631 is inserted into the insertion groove 611. The inserting block 631 is provided with a first magnet block 632 at a side away from the collecting barrel 62, the collecting hopper 61 is provided with a second magnet block 633 at a side, and the first magnet block 632 and the second magnet block 633 can be mutually adsorbed.

When the residue and the debris are collected by the collecting mechanism 6, firstly, the residue and the debris are conveyed into the collecting hopper 61 at the end part of the collecting bin 4 by the cleaning mechanism 5, then the residue and the debris slide downwards along the collecting hopper 61 into the collecting barrel 62 under the action of the gravity of the residue and the debris, the collection of the residue and the debris can be completed, and then, a worker applies force to one side far away from the collecting hopper 61 to separate the first magnet block 632 and the second magnet block 633 from each other, so that the fixing of the collecting barrel 62 can be released, and the residue and the debris in the collecting barrel 62 are poured into the interface; after waiting that residue and piece in the collecting vessel 62 are emptyd and are accomplished, the staff pegs graft to inserting groove 611 with the inserted block 631 on the collecting vessel 62 in, first magnet block 632 and second magnet block 633 adsorb each other next, can realize the fixed to collecting vessel 62 to make collecting vessel 62 be difficult for causing the export that leads to collecting vessel 62 and collecting hopper 61 to take place the dislocation after the impact to collecting vessel 62 lateral wall in the residue whereabouts, improve collecting mechanism 6's stability.

The implementation principle of the concrete compression test equipment in the embodiment of the application is as follows: when the staff places concrete test block 3 on maintenance frame 2, piece and the residue that concrete test block 3 dropped at the in-process of maintenance can pass in the collection bin 4 that the gap that maintenance frame 2 went to the below, the staff starts driving motor 533 after that, driving motor 533 can control and drive residue and the piece in scraper blade 51 will collect bin 4 and remove to collecting vessel 62 one side, and collect the residue through collecting vessel 62, can accomplish the clearance to the piece that concrete test block 3 dropped and the clearance of residue, it is convenient operation not only, alleviate staff's intensity of labour, and the staff of being convenient for in time clears up piece and residue fast, the piece and the difficult solidification bonding of residue that make concrete test block 3 are to the bottom plate of maintenance room body 1.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a concrete compression test equipment which characterized in that: including maintenance room body (1), a plurality of settings are used for placing maintenance frame (2) of concrete test block (3) in maintenance room body (1), set up collection storehouse (4) in maintenance frame (2) below, set up and be used for on collecting storehouse (4) the piece that concrete test block (3) dropped to collecting storehouse (4) along cleaning mechanism (5) that its length direction's both sides were moved to collection storehouse (4) and set up and be used for carrying out the collection mechanism (6) of piece along its length direction both sides in collecting storehouse (4).

2. The concrete compression test apparatus of claim 1, wherein: the cleaning mechanism (5) comprises a scraping plate (51) arranged in the collecting bin (4), driving blocks (52) arranged on two sides of the scraping plate (51) in the length direction, a driving assembly (53) arranged between the driving blocks (52) and the collecting bin (4) and used for driving the driving blocks (52) to move along the length direction of the collecting bin (4), and a reversing assembly (54) arranged between the driving blocks (52) and the scraping plate (51) and used for driving the scraping plate (51) to rotate; the two sides of the scraper (51) along the length direction are abutted to the two side walls of the collecting bin (4), and the driving block (52) is abutted to the side walls of the collecting bin (4).

3. The concrete compression test apparatus of claim 2, wherein: the scraper (51) is an arc-shaped plate, and two ends of the cross section of the arc-shaped plate are arranged in a spine shape.

4. The concrete compression test apparatus of claim 3, wherein: the reversing assembly (54) comprises a band-type brake motor (541) arranged on one side of the driving block (52) and a rotating shaft (542) fixedly arranged at one end of an output shaft of the band-type brake motor (541);

rotation axis (542) one end runs through drive block (52) and with scraper blade (51) fixed connection, collection storehouse (4) has seted up on its length direction's the lateral wall and has slided groove (41), rotation axis (542) are located and slide in the groove (41) that slides.

5. The concrete compression test apparatus of claim 2, wherein: the driving component (53) comprises two supporting plates (531) which are fixedly arranged at two sides of the length direction of the curing frame (2) respectively, a screw rod (532) which is rotatably connected between the two supporting plates (531), and a driving motor (533) arranged at one side of the screw rod (532); the screw rod (532) is in threaded connection with the driving block (52).

6. A concrete compression test apparatus as claimed in any one of claims 1 to 5, wherein: the collecting mechanism (6) comprises a collecting hopper (61) fixedly arranged on one side of the collecting bin (4), a collecting barrel (62) arranged on one side, far away from the collecting bin (4), of the collecting hopper (61), and a fixing component (63) arranged between the collecting barrel (62) and the collecting hopper (61) and used for fixing the collecting barrel (62) to one side of the collecting hopper (61).

7. The concrete compression test apparatus of claim 6, wherein: the fixing component (63) comprises an inserting block (631) fixedly arranged on one side of the collecting barrel (62), a first magnet block (632) fixedly arranged on one side, far away from the collecting barrel (62), of the inserting block (631), and a second magnet block (633) fixedly arranged on one side of the collecting hopper (61);

the first magnet block (632) and the second magnet block (633) can be mutually adsorbed, the material collecting hopper (61) is provided with an insertion groove (611), and the insertion block (631) is inserted into the insertion groove (611).

8. The concrete compression test apparatus of claim 6, wherein: the collecting hopper (61) is arranged from the collecting bin (4) to one side close to the collecting barrel (62) in a downward inclined mode.

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