CN219657348U - Cement mortar compression-resistant clamp for concrete detection - Google Patents

Abstract

The utility model aims to provide a concrete detection cement mortar compression-resistant clamp, when equipment works, a concrete sample is firstly placed between clamping plates, then a clamping knob is screwed, and further the clamping threaded rod is driven to rotate, so that the clamping plates are moved to clamp and fix the concrete sample, then a telescopic oil cylinder works, further a pressing block is driven to press the concrete sample, then data are detected through a pressure sensor, when a specified value is reached, the axial position and the longitudinal position of the pressing block are further adjusted, the detection of a plurality of points on one surface of the concrete sample is further realized, then the rotation of a rotating motor is further driven, the detection of a plurality of surfaces of the concrete sample is further realized, the detection of a plurality of points on one surface of the concrete sample is finally realized, the detection of a plurality of surfaces can be continuously realized, and the detection efficiency and the detection data accuracy are greatly improved.

Description

Cement mortar compression-resistant clamp for concrete detection

Technical Field

The utility model relates to the technical field of concrete detection, in particular to a compression-resistant clamp for concrete detection of cement mortar.

Background

The utility model provides a cement compression fixture, a detection utensil for detecting cement performance, a compression strength for detecting cement, cement compression fixture generally cooperates with the pressure testing machine and survey cement test block compressive strength, compressive strength is an important index of cement concrete quality, for this reason need do the compression test of cement test block in construction, the test block anchor clamps is the important part of cement compression testing instrument, it fixes cement test block on the one hand, on the other hand accessible external force transmits the pressure that accords with the test requirement for cement test block, the cement compression fixture of present use, in the use, cement sample receives the displacement that extrudees and produces, lead to experimental data inaccuracy, because the cement sample that is detected can appear the size difference, the accuracy of its testing process of more difficult control.

The utility model discloses a cement mortar resistance to compression anchor clamps that concrete production detected usefulness, wherein current chinese patent with publication No. CN217542632U discloses a cement mortar resistance to compression anchor clamps that concrete production detected usefulness, including the equipment body, equipment body outer wall is equipped with the motor, motor output fixedly connected with bi-directional threaded rod, threaded connection has the slider on the bi-directional threaded rod, fixedly connected with splint on the slider, fixedly connected with cleaning brush on the slider, this cement mortar resistance to compression anchor clamps cement test block that concrete production detected usefulness is placed in the backup pad, in the backup pad was placed to cement, motor output drives bi-directional threaded rod and rotates to drive the removal of slider punch holder, when moving to suitable position, the cylinder drives the clamp plate of stretching out the end and moves down to laminating with the cement test block, presss from both sides tight cement test block, prevents that the cement test block from receiving the displacement that extrudees and produces, leads to experimental data inaccuracy.

However, the method still has the problem that in the actual use process, only one point on one surface of the concrete sample can be detected, a plurality of surfaces or a plurality of points on one surface cannot be continuously detected, the clamp is required to be loosened when the surface is replaced, and the sample is clamped after the surface is replaced, so that the detection efficiency and the accuracy of detection data are greatly reduced, and certain limitations exist.

Disclosure of Invention

The utility model aims to provide a compression-resistant clamp for concrete detection cement mortar, which is used for realizing detection of a plurality of points on one surface of a concrete sample by arranging a clamping device, a clamping device and a detection device, and simultaneously can continuously detect a plurality of surfaces, thereby greatly improving the detection efficiency and the accuracy of detection data and being convenient to popularize.

In order to achieve the aim of the utility model, the utility model adopts the following technical scheme:

the compression-resistant clamp for concrete detection cement mortar comprises a bottom plate, wherein a shell is fixedly arranged on the bottom plate, a driving box is fixedly arranged at the bottom of the shell, a strip-shaped through hole is formed in the upper end face of the driving box, a first supporting plate and a second supporting plate are symmetrically arranged above the driving box, a clamping device is fixedly arranged between the first supporting plate and the second supporting plate, a moving device is arranged between the first supporting plate, the second supporting plate and the driving box, and a detection device is fixedly arranged at the top of the shell;

clamping device is including fixed layer board and the rotation setting connecting plate one on the two inner walls of backup pad that set up on the outer wall of backup pad, fixed rotating electrical machines that are equipped with above the layer board, fixed being equipped with the connecting plate two on the rotating electrical machines output, the symmetry is equipped with fixed plate one and fixed plate two on the inner wall of connecting plate one and connecting plate two, fixed being equipped with the guiding axle between fixed plate one and the fixed plate two, the cover is equipped with guide block one and guide block two on the guiding axle, guide block one and guide block two keep away from connecting plate one and connecting plate two one side is fixed and is equipped with the grip block, threaded connection has the centre gripping threaded rod on fixed plate one and the fixed plate two, centre gripping threaded rod one end is fixed and is equipped with the centre gripping knob, the one end rotation that centre gripping threaded rod kept away from the centre gripping knob sets up on the grip block.

Further, mobile device is including fixed the biax driving motor that sets up in the driving box bottom, be equipped with threaded rod one and threaded rod two on the biax driving motor output respectively, threaded rod one and threaded rod two keep away from the one end rotation setting of biax driving motor output on the driving box inner wall, threaded connection has screw nut pair on threaded rod one and the threaded rod two, fixed being equipped with the dead lever above the screw nut is vice, the dead lever is kept away from screw nut pair one end and is passed strip through-hole fixed the setting under backup pad one and backup pad two.

Further, detection device is including the telescopic cylinder of symmetry setting at the casing top, the fixed pick-up board first that is equipped with on the telescopic cylinder piston rod, the symmetry is equipped with connecting plate three and connecting plate four below the pick-up board, fixed be equipped with electronic slide rail one between connecting plate three and the connecting plate four, electronic slide rail one slides and is equipped with electronic slider one, electronic slider is fixed and is equipped with connecting plate five below five, fixed be equipped with electronic slide rail two below the connecting plate five, electronic slide rail two slides and is equipped with electronic slider two, electronic slider two is fixed and is equipped with pick-up board two below, be equipped with pick-up board three below the pick-up board two, be equipped with pressure sensor between pick-up board three and the pick-up board two, fixed be equipped with the briquetting below the pick-up board three.

Further, the pressure sensor is of the type RPT8100.

Further, the threads of the first threaded rod and the second threaded rod are opposite in rotation direction.

Further, a first supporting leg and a second supporting leg which are arranged in pairs are symmetrically arranged below the bottom plate.

As an improvement, the utility model has the following beneficial effects:

according to the compression-resistant clamp for concrete detection cement mortar, when the equipment works, firstly, a concrete sample is placed between clamping plates, then the clamping knob is screwed, so that the clamping threaded rod is driven to rotate, the clamping plates are driven to clamp and fix the concrete sample, then the telescopic oil cylinder works, the pressing block is driven to press the concrete sample, then the pressure sensor detects data, when a specified value is reached, the telescopic oil cylinder stops working, then the electric sliding block slides in the electric sliding rail, so that the axial position and the longitudinal position of the pressing block are adjusted, so that a plurality of points on one surface of the concrete sample are detected, then the rotating motor rotates, so that the concrete sample is driven to rotate, so that a plurality of surfaces of the concrete sample are detected, the detection of a plurality of points on one surface of the concrete sample is finally realized, and meanwhile, the detection efficiency and the accuracy of detection data are greatly improved.

Drawings

FIG. 1 is a schematic diagram of the whole structure of a concrete detection cement mortar compression-resistant clamp;

FIG. 2 is an enlarged view of the utility model at A in FIG. 1;

FIG. 3 is an enlarged view of the utility model at B in FIG. 1;

reference numeral control table:

1. a bottom plate; 2. a housing; 3. a drive box; 4. a first supporting plate; 5. a second supporting plate; 6. a clamping device; 601. a supporting plate; 602. a first connecting plate; 603. a rotating electric machine; 604. a second connecting plate; 605. a first fixing plate; 606. a second fixing plate; 607. a guide shaft; 608. a first guide block; 609. a second guide block; 610. a clamping plate; 611. clamping the threaded rod; 612. a clamping knob; 7. a mobile device; 701. a double-shaft driving motor; 702. a first threaded rod; 703. a second threaded rod; 704. a screw nut pair; 705. a fixed rod; 8. a detection device; 801. a telescopic oil cylinder; 802. detecting a first plate; 803. a third connecting plate; 804. a fourth connecting plate; 805. an electric slide rail I; 806. an electric sliding block I; 807. a fifth connecting plate; 808. an electric sliding rail II; 809. an electric sliding block II; 810. a second detection plate; 811. detecting a third plate; 812. a pressure sensor; 813. briquetting; 9. a first supporting leg; 10. and a second supporting leg.

Detailed Description

Specific embodiments of the present utility model will be further described below with reference to the accompanying drawings. Wherein like parts are designated by like reference numerals. It should be noted that the words "front", "rear", "left", "right", "upper" and "lower" used in the following description refer to directions in the drawings, and the words "inner" and "outer" refer to directions toward or away from, respectively, the geometric center of a particular component.

In order to make the contents of the present utility model more clearly understood, the technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. Wherein like parts are designated by like reference numerals.

The utility model provides a concrete detects cement mortar resistance to compression anchor clamps, including bottom plate 1, fixed casing 2 that is equipped with above the bottom plate 1, casing 2 bottom is fixed and is equipped with driving case 3, driving case 3 up end is equipped with the strip through-hole, driving case 3 top symmetry is equipped with backup pad one 4 and backup pad two 5, fixed clamping device 6 that is equipped with between backup pad one 4 and the backup pad two 5, be equipped with mobile device 7 between backup pad one 4, backup pad two 5 and the driving case 3, casing 2 top is fixed and is equipped with detection device 8, the symmetry is equipped with supporting leg one 9 and supporting leg two 10 that set up in pairs below the bottom plate 1.

The clamping device 6 comprises a supporting plate 601 fixedly arranged on the outer wall of a supporting plate I4 and a connecting plate I602 rotatably arranged on the inner wall of a supporting plate II 5, a rotating motor 603 is fixedly arranged on the supporting plate 601, a connecting plate II 604 is fixedly arranged at the output end of the rotating motor 603, a fixing plate I605 and a fixing plate II 606 are symmetrically arranged on the inner walls of the connecting plate I602 and the connecting plate II 604, a guide shaft 607 is fixedly arranged between the fixing plate I605 and the fixing plate II 606, a guide block I608 and a guide block II 609 are sleeved on the guide shaft 607, a clamping plate 610 is fixedly arranged on one side of the guide block I608 and the guide block II 609 away from the connecting plate I602 and the connecting plate II 604, the clamping threaded rods 611 are connected to the first fixing plate 605 and the second fixing plate 606 in a threaded manner, the clamping knob 612 is fixedly arranged at one end of the clamping threaded rods 611, one end, far away from the clamping knob 612, of the clamping threaded rods 611 is rotatably arranged on the clamping plates 610, concrete samples are placed between the clamping plates 610, then the clamping knob 612 is screwed, the clamping threaded rods 611 are driven to rotate, the clamping plates 610 are driven to clamp and fix the concrete samples, the rotating motor 603 rotates, the concrete samples are driven to rotate, and then detection on multiple surfaces of the concrete samples is achieved.

The moving device 7 comprises a double-shaft driving motor 701 fixedly arranged at the bottom of the driving box 3, a first threaded rod 702 and a second threaded rod 703 are fixedly arranged at the output end of the double-shaft driving motor 701 respectively, one ends of the first threaded rod 702 and the second threaded rod 703, which are far away from the output end of the double-shaft driving motor 701, are rotatably arranged on the inner wall of the driving box 3, a screw nut pair 704 is connected to the first threaded rod 702 and the second threaded rod 703 in a threaded manner, a fixing rod 705 is fixedly arranged on the screw nut pair 704, one ends of the fixing rod 705, which are far away from the screw nut pair 704, penetrate through strip-shaped through holes and are fixedly arranged below the first supporting plate 4 and the second supporting plate 5, and the threads of the first threaded rod 702 and the second threaded rod 703 are opposite in rotation direction.

The detection device 8 comprises a telescopic cylinder 801 symmetrically arranged at the top of the shell 2, a detection plate I802 is fixedly arranged on a piston rod of the telescopic cylinder 801, a connection plate III 803 and a connection plate IV 804 are symmetrically arranged below the detection plate I802, an electric slide rail I805 is fixedly arranged between the connection plate III 803 and the connection plate IV 804, an electric slide block I806 is arranged on the electric slide rail I805 in a sliding mode, a connection plate V807 is fixedly arranged below the electric slide block I806, an electric slide rail II 808 is arranged on the electric slide rail II 808 in a sliding mode, a detection plate II 810 is fixedly arranged below the electric slide block II 809, a detection plate III 811 is arranged below the detection plate II 810, a pressure sensor 812 is arranged between the detection plate III 811 and the detection plate II 810, a pressing block 813 is fixedly arranged below the detection plate III, the type of the pressure sensor is RPT8100, the operation of the telescopic cylinder 801 is further carried out to drive the pressing block 813 to press concrete samples, then the pressing block 813 is detected through the pressure sensor 812 when a specified value is reached, the telescopic cylinder 801 stops working, then the electric slide block is fixedly arranged below the electric slide rail II 808, the axial position and the longitudinal position of the pressing block is adjusted to detect the pressing block 813, a plurality of points on the concrete samples are detected, and the concrete samples can be detected accurately, and the concrete can be detected at a plurality of points are detected simultaneously.

The above description is illustrative of the present utility model and is not intended to be limiting, but is to be construed as being included within the spirit and scope of the present utility model.

Claims (6)

1. The utility model provides a concrete detects cement mortar resistance to compression anchor clamps, includes bottom plate (1), its characterized in that, fixed casing (2) that are equipped with above bottom plate (1), casing (2) bottom is fixed and is equipped with drive case (3), drive case (3) up end is equipped with the strip through-hole, drive case (3) top symmetry is equipped with backup pad one (4) and backup pad two (5), fixed clamping device (6) that are equipped with between backup pad one (4) and the backup pad two (5), be equipped with mobile device (7) between backup pad one (4), backup pad two (5) and drive case (3), fixed detection device (8) that are equipped with in casing (2) top;

clamping device (6) are including fixed layer board (601) and the rotation that sets up on the outer wall of backup pad one (4) set up on the inner wall of backup pad two (5) connecting plate one (602), fixed rotating electrical machines (603) being equipped with above layer board (601), fixed being equipped with on rotating electrical machines (603) output connecting plate two (604), the symmetry is equipped with fixed plate one (605) and fixed plate two (606) on the inner wall of connecting plate one (602) and connecting plate two (604), fixed being equipped with guiding axle (607) between fixed plate one (605) and the fixed plate two (606), the cover is equipped with guide block one (608) and guide block two (609) on guiding axle (607), one side that connecting plate one (602) and connecting plate two (604) were kept away from to guide block one (608) and guide block two (609) is fixed to be equipped with grip block (610), threaded connection has grip threaded rod (611) on fixed grip threaded rod one end is equipped with grip knob (612), grip knob (611) are kept away from on grip knob (612) one end and are rotated grip knob (610).

2. The concrete detection cement mortar compression-resistant clamp according to claim 1, wherein the moving device (7) comprises a double-shaft driving motor (701) fixedly arranged at the bottom of the driving box (3), a first threaded rod (702) and a second threaded rod (703) are fixedly arranged at the output end of the double-shaft driving motor (701) respectively, one ends of the first threaded rod (702) and the second threaded rod (703), which are far away from the output end of the double-shaft driving motor (701), are rotatably arranged on the inner wall of the driving box (3), a screw nut pair (704) is connected to the first threaded rod (702) and the second threaded rod (703) in a threaded manner, a fixing rod (705) is fixedly arranged on the screw nut pair (704), and one end of the fixing rod (705), which is far away from the screw nut pair (704), penetrates through a strip-shaped through hole to be fixedly arranged below the first supporting plate (4) and the second supporting plate (5).

3. The compression-resistant clamp for concrete detection of cement mortar according to claim 1, wherein the detection device (8) comprises telescopic cylinders (801) symmetrically arranged at the top of the shell (2), detection plates I (802) are fixedly arranged on piston rods of the telescopic cylinders (801), connection plates III (803) and IV (804) are symmetrically arranged below the detection plates I (802), an electric slide rail I (805) is fixedly arranged between the connection plates III (803) and IV (804), an electric slide block I (806) is slidingly arranged on the electric slide rail I (805), a connection plate V (807) is fixedly arranged below the electric slide block I (806), an electric slide rail II (808) is fixedly arranged below the connection plate V (807), an electric slide block II (809) is fixedly arranged below the electric slide block II (809), a detection plate III (811) is arranged below the detection plates II (810), a pressure sensor (812) is arranged between the detection plates III (811) and II (810), and a pressure block (813) is fixedly arranged below the detection plates III (808).

4. A concrete inspection cement mortar compression clamp according to claim 3, characterized in that the pressure sensor (812) is of the type RPT8100.

5. The concrete detection cement mortar compression-resistant clamp according to claim 2, wherein the threads of the first threaded rod (702) and the second threaded rod (703) are in opposite directions.

6. The compression-resistant clamp for concrete detection cement mortar according to claim 1, wherein a first supporting leg (9) and a second supporting leg (10) which are arranged in pairs are symmetrically arranged below the bottom plate (1).