CN211825454U - Concrete compression resistance testing and collecting integrated device - Google Patents

Abstract

The utility model provides a mix earth compression test, collect integrative device, roof and base, the below fixed mounting of roof has the base, and the top fixed mounting of roof has the motor, and the one end swing joint of motor has the connecting band, and the one end swing joint of connecting band has the gear, and one side swing joint of gear has the support frame, and the top fixed mounting of support frame has the connecting block. The utility model discloses a separate the net and place the muddy earth of preparing the test, start first motor through the control box and drive the gear through connecting and rotate after that, drive the movable rod through the slip tooth and move down in gear revolve, the bracing piece through both sides is connected the spout simultaneously and is made the movable rod drive pressure plate move down the time can steady removal, the rethread connecting rod increases the stability of bracing piece after that, then detect data through the pressure detector when the fracture that muddy soil was pressed, the data that make the detection can be accurate.

Description

Concrete compression resistance testing and collecting integrated device

Technical Field

The utility model relates to a building equipment and technical field especially relate to a mix earth resistance to compression testing arrangement.

Background

Concrete is a general term for engineering composite materials formed by cementing aggregates into a whole by cementing materials, and the term concrete generally refers to cement as the cementing materials and sand and stone as the aggregates; cooperate with water according to a certain proportion, cement concrete through stirring, shaping, maintenance and get, also call ordinary concrete, its wide application in civil engineering, wherein the compressive capacity that the muddy earth after the shaping need detect muddy earth decides whether qualified with the quality of muddy earth, and the dregs of different sizes that can remain after will mixing the earth crushing of current device let the staff be difficult to clear up, and it is inconvenient to collect, consequently solves above problem and provides a muddy earth compressive test, collect integrative device.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the shortcoming that exists among the background art, and the muddy earth resistance to compression test that proposes, collect integrative device, the device places the muddy earth of preparing the test through separating the net, start first motor through the control box and drive the gear through connecting and rotate after that, drive the movable rod through the slip tooth and move down in gear revolve, the while is connected the spout through the bracing piece of both sides and is made the movable rod drive pressure plate can steady removal when moving down, rethread connecting rod increases the stability of bracing piece after that, then detect data through pressure detector when the fracture that muddy earth was pressed, make the data that detect accurate.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a concrete compression resistance testing and collecting integrated device comprises a top plate and a base, wherein the base is fixedly arranged below the top plate;

the top plate comprises a first motor, a connecting belt, a gear, a supporting frame, a connecting block, a sliding tooth, a movable rod, a supporting rod, a connecting rod, a sliding groove, a pressing plate and a pressure detector, the motor is fixedly mounted above the top plate, one end of the motor is movably connected with the connecting belt, one end of the connecting belt is movably connected with the gear, one side of the gear is movably connected with the supporting frame, the connecting block is fixedly mounted at the top end of the supporting frame, the sliding tooth is movably connected with the other side of the gear, the movable rod is fixedly mounted at one end of the sliding tooth, the supporting rod is fixedly mounted at one side of the movable rod, the connecting rod is fixedly mounted at one end of the supporting rod, the sliding groove is movably connected at one side of the connecting rod, the pressing plate;

the base comprises a baffle plate, a platform, a hydraulic telescopic cylinder, a telescopic rod, a push plate, a second motor, a rotating disc, sawteeth, a separation net, a collecting box, a sealing door and a control box, the two sides of the top end of the base are both fixedly provided with a baffle plate, the left side and the right side of the base are both fixedly provided with a platform, a hydraulic telescopic cylinder is fixedly arranged above the platform, one end of the hydraulic telescopic cylinder is movably connected with a telescopic rod, one end of the telescopic rod is fixedly provided with a push plate, the interior of the push plate is fixedly provided with a second motor, one end of the second motor is movably connected with a rotating disc, one side of the rotating disc is fixedly provided with sawteeth, a separation net is fixedly arranged below the push plate, a collecting box is fixedly arranged below the separation net, one side of the collecting box is movably connected with a sealing door, and a control box is fixedly mounted on one side face of the baffle.

As a further description of the above technical solution: the support frame is L-shaped, the top end of the support frame is connected to the bottom surface of the top plate through the connecting block, and the corners of the support frame are provided with triangular abutting blocks.

As a further description of the above technical solution: the sliding groove is in a concave shape, the two side faces of one end of the supporting rod are provided with convex blocks, and the side face of each convex block, which is close to the sliding groove, is provided with a groove.

As a further description of the above technical solution: the two ends of the support rod at one side face of the movable rod are both provided with the support rods, and the two support rods are connected through the connecting rod.

As a further description of the above technical solution: the sawtooth is triangle-shaped, and is equipped with a plurality ofly at a side of rolling disc.

As a further description of the above technical solution: push plates are arranged at the left end and the right end above the separation net.

As a further description of the above technical solution: and the signal end of the control box is electrically connected with the output ends of the first motor, the hydraulic telescopic cylinder and the second motor.

Has the advantages that:

1. the utility model discloses a separate the net and place the muddy earth of preparing the test, start first motor through the control box and drive the gear through connecting and rotate after that, drive the movable rod through the slip tooth and move down in gear revolve, the bracing piece through both sides is connected the spout simultaneously and is made the movable rod drive pressure plate move down the time can steady removal, the rethread connecting rod increases the stability of bracing piece after that, then detect data through the pressure detector when the fracture that muddy soil was pressed, the data that make the detection can be accurate.

2. Secondly, can produce the disintegrating slag of inconsistent size on separating the net after concrete detects, start hydraulic telescoping cylinder through the control box and drive the push pedal through the telescopic link and push to one side removal and extrude concrete, smash the disintegrating slag through the sawtooth, rethread second motor drives the rolling disc simultaneously and rotates and to let the sawtooth can rotate the crushing of messenger's disintegrating slag in the extruded thoroughly, the disintegrating slag falls into the collecting box through separating the net at last, clear up through opening sealing door when needs clear up.

Drawings

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

FIG. 2 is a schematic side view of the overall structure of the present invention;

fig. 3 is an enlarged schematic view of fig. 1A of the present invention.

Illustration of the drawings:

a top plate 1; a first motor 101; a connecting band 102; a gear 103; a support frame 104; a connecting block 105; the sliding teeth 106; a movable lever 107; a support bar 108; a connecting rod 109; a chute 110; a pressing plate 111; a pressure detector 112; a base 2; a baffle 201; a platform 202; a hydraulic telescopic cylinder 203; an expansion link 204; a push plate 205; a second motor 206; a rotating disk 207; serrations 208; a screen 209; a collection tank 210; a sealing door 211; a control box 212.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-3, the concrete compression resistance testing and collecting integrated device comprises a top plate 1 and a base 2, wherein the base 2 is fixedly arranged below the top plate 1;

the top plate 1 comprises a first motor 101, a connecting belt 102, a gear 103, a supporting frame 104, a connecting block 105, a sliding tooth 106, a movable rod 107, a supporting rod 108, a connecting rod 109, a chute 110, a pressure plate 111 and a pressure detector 112, a motor 101 is fixedly mounted above the top plate 1, one end of the motor 101 is movably connected with a connecting belt 102, one end of the connecting belt 102 is movably connected with a gear 103, one side of the gear 103 is movably connected with a supporting frame 104, the top end of the supporting frame 104 is fixedly mounted with a connecting block 105, the other side of the gear 103 is movably connected with a sliding tooth 106, one end of the sliding tooth 106 is fixedly mounted with a movable rod 107, one side of the movable rod 107 is fixedly mounted with a supporting rod 108, one end of the supporting rod 108 is fixedly mounted with a connecting rod 109, one side of the connecting rod 109 is movably connected with a chute 110, the bottom end of the movable rod 107 is fixedly mounted with a;

the base 2 comprises a baffle 201, a platform 202, a hydraulic telescopic cylinder 203, a telescopic rod 204, a push plate 205, a second motor 206, a rotating disc 207, saw teeth 208, a separation net 209, a collection box 210, a sealing door 211 and a control box 212, the equal fixed mounting in base 2's top both sides has baffle 201, the equal fixed mounting in base 2's the left and right sides has platform 202, the top fixed mounting of platform 202 has fluid pressure type telescoping cylinder 203, the one end swing joint of fluid pressure type telescoping cylinder 203 has telescopic link 204, the one end fixed mounting of telescopic link 204 has push pedal 205, the inside fixed mounting of push pedal 205 has second motor 206, the one end swing joint of second motor 206 has rolling disc 207, one side fixed mounting of rolling disc 207 has sawtooth 208, the below fixed mounting of push pedal 205 separates net 209, the below fixed mounting that separates net 209 has collecting box 210, one side swing joint of collecting box 210 has sealing door 211, a side fixed mounting of baffle 201 has control box 212.

The supporting frame 104 is L-shaped, the top end of the supporting frame 104 is connected to the bottom surface of the top plate 1 through the connecting block 105, the corners of the supporting frame 104 are provided with triangular supporting blocks, the gear 103 is not easy to swing when rotating through the supporting frame 104 and can be fixed under the top plate 1, and meanwhile, the gear 103 is prevented from being pressed too much through the triangular supporting blocks to drive the supporting frame 104 to deform.

The sliding groove 110 is concave, the two side surfaces of one end of the supporting rod 108 are both provided with a convex block, one side surface of the convex block close to the sliding groove 110 is provided with a groove, the movable rod 107 can stably move when moving downwards through the sliding groove 110, and data detected by the pressure detector 112 can be more accurate.

Wherein, bracing piece 108 all is equipped with at the both ends of movable rod 107 one side, and connects through connecting rod 109 between two bracing pieces 108, increases the stability of both sides bracing piece 108 through movable rod 107 to it is inaccurate to prevent that movable rod 107 from taking place the horizontal hunting and leading to the data that pressure detector 112 detected.

Wherein, sawtooth 208 is the triangle-shaped shape, and is equipped with a plurality of in the side of rolling disc 207, and push pedal 205 removes and to drive sawtooth 208 and smash the disintegrating slag, makes kibbling effectual, is convenient for collect.

Wherein, separate both ends about net 209 top and all be equipped with push pedal 205, smash the disintegrating slag through push pedal 205, make kibbling efficiency can be faster.

Wherein, the signal end of control box 212 and the output electric connection of first motor 101, fluid pressure type telescoping cylinder 203 and second motor 206, the staff of being convenient for through control box 212 operates, makes work efficiency can be faster.

The working principle is as follows: when the device is used, concrete to be tested is placed through the separation net 209, then the first motor 101 is started through the control box 212 to drive the gear 103 to rotate through the connecting belt 102, the movable rod 107 is driven to move downwards through the sliding teeth 106 while the gear 103 rotates to press the concrete blocks through the pressing plate 111, meanwhile, the supporting rods 108 on two sides are connected with the sliding grooves 110 to enable the movable rod 107 to drive the pressing plate 111 to move downwards, the stability of the supporting rods 108 is increased through the connecting rod 109, then data are detected through the pressure detector 112 when the concrete is cracked after being pressed, the detected data can be accurate, crushed slag with different sizes can be generated on the separation net 209 after the concrete is detected, the telescopic cylinder 203 is started through the control box 212 to drive the pushing plate 205 to move to one side through the telescopic rod 204 to extrude the concrete, smash the disintegrating slag through sawtooth 208, rethread second motor 206 drives rolling disc 207 and rotates simultaneously and lets sawtooth 208 can rotate the crushing thoroughly that makes the disintegrating slag in the extruded, and the disintegrating slag falls into collecting box 210 through separating net 209 in at last, clears up through opening sealing door 211 when needs are cleared up.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (7)

1. A concrete compression resistance testing and collecting integrated device comprises a top plate (1) and a base (2), and is characterized in that the base (2) is fixedly arranged below the top plate (1);

the roof (1) comprises a first motor (101), a connecting band (102), a gear (103), a supporting frame (104), a connecting block (105), sliding teeth (106), a movable rod (107), a supporting rod (108), a connecting rod (109), a sliding groove (110), a pressing plate (111) and a pressure detector (112), wherein the motor (101) is fixedly mounted above the roof (1), the connecting band (102) is movably connected to one end of the motor (101), the gear (103) is movably connected to one end of the connecting band (102), the supporting frame (104) is movably connected to one side of the gear (103), the connecting block (105) is fixedly mounted at the top end of the supporting frame (104), the sliding teeth (106) are movably connected to the other side of the gear (103), the movable rod (107) is fixedly mounted at one end of the sliding teeth (106), the supporting rod (108) is fixedly mounted at one side of the movable rod, a connecting rod (109) is fixedly installed at one end of the supporting rod (108), a sliding groove (110) is movably connected to one side of the connecting rod (109), a pressing plate (111) is fixedly installed at the bottom end of the movable rod (107), and a pressure detector (112) is fixedly installed inside the pressing plate (111);

the base (2) comprises a baffle (201), a platform (202), a hydraulic telescopic cylinder (203), a telescopic rod (204), a push plate (205), a second motor (206), a rotating disc (207), saw teeth (208), a separation net (209), a collecting box (210), a sealing door (211) and a control box (212), wherein the baffle (201) is fixedly installed on both sides of the top end of the base (2), the platform (202) is fixedly installed on both sides of the left side and the right side of the base (2), the hydraulic telescopic cylinder (203) is fixedly installed above the platform (202), the telescopic rod (204) is movably connected with one end of the hydraulic telescopic cylinder (203), the push plate (205) is fixedly installed at one end of the telescopic rod (204), the second motor (206) is fixedly installed inside the push plate (205), and the rotating disc (207) is movably connected with one end of the second motor (206), sawtooth (208) are fixedly installed on one side of the rotating disc (207), a separation net (209) is fixedly installed below the push plate (205), a collection box (210) is fixedly installed below the separation net (209), a sealing door (211) is movably connected to one side of the collection box (210), and a control box (212) is fixedly installed on one side face of the baffle plate (201).

2. A concrete compression testing and collecting integrated device as claimed in claim 1, wherein the supporting frame (104) is L-shaped, the top end of the supporting frame (104) is connected to the bottom surface of the top plate (1) through a connecting block (105), and triangular supporting blocks are arranged at the corners of the supporting frame (104).

3. A concrete compression testing and collecting integrated device as claimed in claim 1, wherein the sliding groove (110) is in a shape of Chinese character 'ao', and both side surfaces of one end of the supporting rod (108) are provided with protrusions, and one side surface of the protrusion clinging to the sliding groove (110) is provided with a groove.

4. A concrete compression testing and collecting integrated device according to claim 1, characterized in that the supporting rods (108) are arranged at two ends of one side surface of the movable rod (107), and the two supporting rods (108) are connected through a connecting rod (109).

5. A concrete compression testing and collecting integrated device as claimed in claim 1, wherein said saw teeth (208) are triangular and are provided in number on one side of the rotary disc (207).

6. A concrete compression testing and collecting integrated device according to claim 1, characterized in that the left and right ends above the partition net (209) are provided with push plates (205).

7. A concrete compression testing and collecting integrated device according to claim 1, wherein the signal end of the control box (212) is electrically connected with the output ends of the first motor (101), the hydraulic telescopic cylinder (203) and the second motor (206).

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