CN217359242U - Molding and compacting table with buffering structure for mortar test body - Google Patents

Abstract

The application relates to the technical field of molding of mortar test bodies, in particular to a mortar test body molding plain bumper with a buffering structure. This application includes the organism, the surface mounting of organism has places the board, the last surface mounting who places the board has the mould box, the surface of organism is equipped with auxiliary structure, auxiliary structure includes the fixed plate, the surface and the organism fixed connection of fixed plate, the three spring of last fixed surface of fixed plate is connected with, and is three the equal fixedly connected with plectane of one end that the fixed plate was kept away from to the spring, and is three one side that the fixed plate was kept away from to the plectane all with place board fixed connection, place two concave blocks of one side fixedly connected with of board near the fixed plate, two the inner wall of concave block all rotates and is connected with the rectangular plate, two one side that the rectangular plate is close to each other all rotates and is connected with the dead lever, two the equal sliding connection of arc surface of dead lever has the track board. The vibration force buffering device solves the problem that a worker is inconvenient to buffer the vibration force of the jolt ramming table.

Description

Molding and compacting table with buffering structure for mortar test body

Technical Field

The application relates to a mortar test body shaping technical field especially relates to mortar test body shaping plain bumper with buffer structure.

Background

Cement mortar plain bumper is a equipment that is used for cement strength to examine sample preparation, and the wide application is in the building engineering field, but at the in-process of plain bumper work, the staff is inconvenient cushions plain bumper's vibrational force, causes the equipment of jolting easily when plain bumper vibration intensity is too big and collides with, brings the inconvenience for the staff.

SUMMERY OF THE UTILITY MODEL

The utility model provides a have the shortcoming that the staff is inconvenient to the vibratory force of plain bumper cushion among the prior art in order to solve, and the gluey sand test body shaping plain bumper that has buffer structure that provides.

In order to achieve the purpose, the following technical scheme is adopted in the application: the mortar sample forming compaction table with a buffer structure comprises a machine body, wherein a placing plate is arranged on the surface of the machine body, the upper surface of the placing plate is provided with a mould box, the surface of the machine body is provided with an auxiliary structure, the auxiliary structure comprises a fixing plate, the surface of the fixed plate is fixedly connected with the machine body, the upper surface of the fixed plate is fixedly connected with three springs, one ends of the three springs, far away from the fixed plate, are fixedly connected with circular plates, one sides of the three circular plates, far away from the fixed plate, are fixedly connected with the placing plate, the fixing device is characterized in that two concave blocks are fixedly connected to one side, close to the fixing plate, of the placing plate, the inner walls of the concave blocks are connected with long plates in a rotating mode, one side, close to the long plates, of each long plate is connected with fixing rods in a rotating mode, the arc surfaces of the fixing rods are connected with track plates in a sliding mode, and one side, far away from the placing plate, of each track plate is fixedly connected with the fixing plate.

The effect that above-mentioned part reaches is: place the board and can drive the plectane and remove when the vibration, can become tensile state with the spring when the plectane rebound, can extrude the spring to compression state when the plectane rebound, reach the effect that the board was placed in the buffering, and then reach and make and place the board and be difficult for receiving to collide with, place the board when the vibration, the both ends of long slab can rotate with the inner wall of spill piece and the one end of dead lever respectively, because of the long slab is the tilt state always, so the dead lever will slide along the inner wall of track board, reach the spacing effect of board to placing.

Preferably, one side of the fixed plate, which is close to the placing plate, is fixedly connected with three limiting columns, and the arc surfaces of the three limiting columns are connected with the spring in a sliding manner.

The effect that above-mentioned part reaches does: when the spring is in a stretching or compressing state, the spring can slide along the arc surface of the limiting column, and the effect of limiting the elastic direction of the spring is achieved.

Preferably, one side of each circular plate, which is close to the fixed plate, is fixedly connected with a backing plate, and the backing plates are rubber pads.

The effect that above-mentioned part reaches is: when the circular plate is extruded downwards, the backing plate can move along with the movement of the circular plate until the backing plate contacts the surface of the limiting column, so that the effect of buffering the collision between the circular plate and the limiting column is achieved.

Preferably, the upper surface of placing the board is equipped with clean structure, clean structure includes two slide rails, two the lower surface of slide rail all with place board fixed connection, two the equal sliding connection of inner wall of slide rail has the round bar, two one end fixedly connected with shovel board that the round bar is close to each other, the surface of shovel board with place board sliding connection, the fixed surface of shovel board is connected with the haulage rope.

The effect that above-mentioned part reaches is: slide in two round bars along the inner wall of slide rail, directly stimulate the haulage rope after that, the shovel board can slide along the surface of placing the board along with the pulling of haulage rope, reaches the clearance and drops the effect of placing board surface concrete.

Preferably, the surface of the placing plate is fixedly connected with a rectangular plate, one side of the rectangular plate far away from the placing plate is fixedly connected with a supporting plate, a round hole is formed in the upper surface of the supporting plate, and the size of the round hole in the surface of the supporting plate is larger than that of the traction rope.

The effect that above-mentioned part reaches is: slide in the haulage rope along the inner wall of backup pad surface round hole, reach the spacing effect to the haulage rope, when need not using, directly put the shovel board on the surface of backup pad, reach the effect of accomodating the shovel board.

Preferably, one side fixedly connected with pole that the board was kept away from to the rectangular plate, the one end fixedly connected with ball that the rectangular plate was kept away from to the pole.

The effect that above-mentioned part reaches is: the traction rope is wound on the round bar, and the round balls on the round bar play a role in preventing the traction rope from sliding off.

Preferably, the circular arc surface of the round bar is in threaded connection with a threaded ring, and one side of the threaded ring, which is close to the placing plate, is in contact with the rectangular plate.

The effect that above-mentioned part reaches is: after winding the haulage rope on the arc surface of pole, twist and move the screw ring, reach the effect of accomodating the haulage rope until the screw ring with haulage rope extrusion fastening.

To sum up, the beneficial effect of this application is:

in this application, through setting up auxiliary structure, helped the staff when vibrating placing the board, can cushion the vibrational force of placing the board better, improved the protective effect of organism to a certain extent.

Drawings

FIG. 1 is a schematic perspective view of the present application;

FIG. 2 is a schematic view of a portion of an auxiliary structure according to the present application;

FIG. 3 is an enlarged view taken at A of FIG. 2 of the present application;

fig. 4 is a partial schematic structural view of the cleaning structure of the present application.

Illustration of the drawings: 1. a body; 2. placing the plate; 3. a mold box; 4. an auxiliary structure; 41. a fixing plate; 42. a spring; 43. a circular plate; 44. a limiting column; 45. a base plate; 46. a concave block; 47. a long plate; 48. fixing the rod; 49. a track plate; 5. cleaning the structure; 51. a slide rail; 52. a round bar; 53. a shovel plate; 54. a hauling rope; 55. a rectangular plate; 56. a support plate; 57. a circular hole; 58. a round bar; 59. a threaded ring.

Detailed Description

Referring to fig. 1, the present application provides a technical solution: mortar specimen shaping plain bumper with buffer structure, including organism 1, the surface mounting of organism 1 places board 2, and the last surface mounting who places board 2 has mould box 3, and the surface of organism 1 is equipped with auxiliary structure 4, and auxiliary structure 4 reaches the buffering and places the effect of board 2, and then reaches to make and places board 2 and be difficult for receiving to collide with, and the upper surface of placing board 2 is equipped with clean structure 5, and clean structure 5 reaches the clearance and drops the effect of placing board 2 surface concrete.

The specific arrangement and function of the auxiliary structure 4 and the cleaning structure 5 will be described in detail below.

Referring to fig. 2 and 3, in the present embodiment: the auxiliary structure 4 comprises a fixed plate 41, the surface of the fixed plate 41 is fixedly connected with the machine body 1, the upper surface of the fixed plate 41 is fixedly connected with three springs 42, one ends of the three springs 42, far away from the fixed plate 41, are fixedly connected with a circular plate 43, the placing plate 2 can drive the circular plate 43 to move when vibrating, the springs 42 can be changed into a stretching state when the circular plate 43 moves upwards, one sides of the three circular plates 43, far away from the fixed plate 41, are fixedly connected with the placing plate 2, the circular plates 43 can extrude the springs 42 into a compressing state when moving downwards, the effect of buffering the placing plate 2 is achieved, the placing plate 2 is further achieved to be not easy to be collided, one side of the fixed plate 41, close to the placing plate 2, is fixedly connected with three limiting columns 44, the arc surfaces of the three limiting columns 44 are all connected with the springs 42 in a sliding manner, the springs 42 can slide along the arc surfaces of the limiting columns 44 when changing into the stretching or compressing state, and the effect of limiting the direction of the springs 42 is achieved, the backing plates 45 are fixedly connected to one sides of the three circular plates 43 close to the fixing plate 41, the backing plates 45 are rubber pads, and when the circular plates 43 are pressed downwards, the backing plates 45 move along with the movement of the circular plates 43 until the backing plates 45 contact the surfaces of the limiting columns 44, so that the effect of buffering collision force between the circular plates 43 and the limiting columns 44 is achieved.

Referring to fig. 2 and 3, two concave blocks 46 are fixedly connected to one side of the placing plate 2 close to the fixing plate 41, the inner walls of the two concave blocks 46 are all rotatably connected with a long plate 47, one side of the two long plates 47 close to each other is all rotatably connected with a fixing rod 48, the placing plate 2 vibrates, two ends of the long plate 47 can respectively rotate with the inner walls of the concave blocks 46 and one end of the fixing rod 48, the arc surfaces of the two fixing rods 48 are all slidably connected with a track plate 49, one side of the two track plates 49 away from the placing plate 2 is all fixedly connected with the fixing plate 41, the long plate 47 is always in an inclined state, so the fixing rod 48 can slide along the inner walls of the track plate 49, and the effect of limiting the placing plate 2 is achieved.

Referring to fig. 4, specifically, the cleaning structure 5 includes two slide rails 51, lower surfaces of the two slide rails 51 are fixedly connected to the placing plate 2, inner walls of the two slide rails 51 are slidably connected to a round rod 52, one end of the two round rods 52 close to each other is fixedly connected to a shovel plate 53, the two round rods 52 slide in along the inner walls of the slide rails 51, a surface of the shovel plate 53 is slidably connected to the placing plate 2, a pulling rope 54 is fixedly connected to a surface of the shovel plate 53, then the pulling rope 54 is directly pulled, the shovel plate 53 slides along a surface of the placing plate 2 along with pulling of the pulling rope 54, so as to achieve an effect of cleaning concrete falling on the surface of the placing plate 2, the surface of the placing plate 2 is fixedly connected to a rectangular plate 55, a supporting plate 56 is fixedly connected to a side of the rectangular plate 55 far from the placing plate 2, a circular hole 57 is formed in an upper surface of the supporting plate 56, the size of the circular hole 57 formed in the surface of the supporting plate 56 is larger than that of the pulling rope 54, slide in haulage rope 54 along the inner wall of backup pad 56 surface round hole 57, reach the spacing effect to haulage rope 54, when need not using, directly put shovel plate 53 on the surface of backup pad 56, reach the effect of accomodating shovel plate 53.

Referring to fig. 4, specifically, one side fixedly connected with pole 58 that places board 2 is kept away from to rectangular plate 55, the one end fixedly connected with ball that rectangular plate 55 was kept away from to pole 58, twine haulage rope 54 on pole 58, wherein the ball on the pole 58 plays the effect that prevents haulage rope 54 landing, the arc surface threaded connection of pole 58 has threaded ring 59, threaded ring 59 is close to one side and the rectangular plate 55 contact of placing board 2, twine haulage rope 54 back on the arc surface of pole 58, twist threaded ring 59, until threaded ring 59 with haulage rope 54 extrusion fastening, reach the effect of accomodating haulage rope 54.

The working principle is as follows: when the placing plate 2 drives the circular plate 43 to move upwards, the spring 42 becomes a stretching state along with the movement of the circular plate 43 and slides along the arc surface of the limiting post 44, so as to achieve the effect of buffering the vibration force of the placing plate 2, when the placing plate 2 drives the circular plate 43 to press downwards, the spring 42 becomes a compressing state along with the movement of the circular plate 43 and slides along the arc surface of the limiting post 44, the backing plate 45 on the circular plate 43 moves downwards along with the circular plate 43 and contacts the surface of the limiting post 44, so as to achieve the effect of buffering the vibration force of the placing plate 2, wherein the limiting post 44 plays a role of limiting the elastic force direction of the spring 42, so as to prevent the elastic force of the spring 42 from deviating, when the placing plate 2 vibrates, two ends of the long plate 47 respectively rotate with the inner wall of the concave block 46 and one end of the fixing rod 48 along with the movement of the placing plate 2, at this time, the fixing rod 48 slides along the inner wall of the rail plate 49, so as to limit the position of the placing plate 2.

When concrete falling on the surface of the placing plate 2 needs to be cleaned, the two round rods 52 are directly slid in along the inner wall of the sliding rail 51, when the shovel plate 53 moves to a proper position, the pulling rope 54 is slid in along the inner wall of the round hole 57 on the surface of the supporting plate 56, then the pulling rope 54 is directly pulled, the shovel plate 53 can slide along the surface of the placing plate 2 along with the movement of the pulling rope 54, at the moment, the round rods 52 can slide along the inner wall of the sliding rail 51 along with the movement of the shovel plate 53, the effect of cleaning the surface of the placing plate 2 is achieved, when the shovel plate is not needed to be used, the shovel plate 53 is placed on the surface of the supporting plate 56, the threaded ring 59 is screwed until the threaded ring 59 is separated from the surface of the rectangular plate 55 by virtue of threads, then the pulling rope 54 is wound on the round rods 58, the threaded ring 59 is screwed, the pulling rope 54 is pressed on the rectangular plate 55 by the threaded ring 59, and the effect of storing the pulling rope 54 is achieved, thereby achieving the effect of housing the shovel plate 53.

Claims (7)

1. Moulding plain bumper of mortar examination body with buffer structure, including organism (1), its characterized in that: the surface of the machine body (1) is provided with a placing plate (2), the upper surface of the placing plate (2) is provided with a mold box (3), the surface of the machine body (1) is provided with an auxiliary structure (4), the auxiliary structure (4) comprises a fixing plate (41), the surface of the fixing plate (41) is fixedly connected with the machine body (1), the upper surface of the fixing plate (41) is fixedly connected with three springs (42), one ends of the three springs (42) far away from the fixing plate (41) are fixedly connected with a circular plate (43), one sides of the three circular plates (43) far away from the fixing plate (41) are fixedly connected with the placing plate (2), one side of the placing plate (2) close to the fixing plate (41) is fixedly connected with two concave blocks (46), the inner walls of the two concave blocks (46) are rotatably connected with a long plate (47), and one sides of the two long plates (47) close to each other are rotatably connected with a fixing rod (48), the arc surfaces of the two fixing rods (48) are connected with track plates (49) in a sliding mode, and one sides, far away from the placing plate (2), of the track plates (49) are fixedly connected with the fixing plates (41).

2. The mortar sample forming and tapping table with the buffering structure as set forth in claim 1, wherein: one side, close to the placing plate (2), of the fixing plate (41) is fixedly connected with three limiting columns (44), and arc surfaces of the three limiting columns (44) are connected with the springs (42) in a sliding mode.

3. The mortar sample forming and compacting table with the buffer structure as set forth in claim 1, wherein: the three circular plates (43) are fixedly connected with backing plates (45) on the sides close to the fixing plates (41), and the backing plates (45) are rubber pads.

4. The mortar sample forming and tapping table with the buffering structure as set forth in claim 1, wherein: the upper surface of placing board (2) is equipped with clean structure (5), clean structure (5) include two slide rails (51), two the lower surface of slide rail (51) all with place board (2) fixed connection, two the equal sliding connection of inner wall of slide rail (51) has round bar (52), two one end fixedly connected with shovel board (53) that round bar (52) are close to each other, the surface of shovel board (53) with place board (2) sliding connection, the fixed surface of shovel board (53) is connected with haulage rope (54).

5. The mortar sample forming and tapping table with the buffering structure as set forth in claim 4, wherein: the surface of the placing plate (2) is fixedly connected with a rectangular plate (55), one side, far away from the placing plate (2), of the rectangular plate (55) is fixedly connected with a supporting plate (56), a round hole (57) is formed in the upper surface of the supporting plate (56), and the size of the round hole (57) in the surface of the supporting plate (56) is larger than that of the traction rope (54).

6. The mortar sample forming and tapping table with the buffering structure as set forth in claim 5, wherein: one side fixedly connected with pole (58) of placing board (2) is kept away from in rectangular plate (55), the one end fixedly connected with ball that rectangular plate (55) was kept away from in pole (58).

7. The mortar sample forming and tapping table with the buffer structure as set forth in claim 6, wherein: the circular arc surface of the round rod (58) is in threaded connection with a threaded ring (59), and one side, close to the placing plate (2), of the threaded ring (59) is in contact with the rectangular plate (55).

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