CN215511523U - Cement balancing weight vibration platform who possesses second grade buffering - Google Patents

Abstract

The utility model relates to the technical field of cement counterweight processing, and discloses a cement counterweight vibration platform with secondary buffering, which comprises a working pool, wherein a buffering and extruding mechanism is arranged in the working pool, an operating box is arranged at the center of the bottom of the working pool, the operating box is divided into two symmetrical extruding grooves through a partition plate, a vibration motor is arranged at the bottom of each extruding groove, two groups of buffer tubes are respectively arranged on the symmetrical inner pool walls at two sides of the working pool, the two buffer tubes are arranged up and down, the tube bottoms of the buffer tubes are connected with springs, the other ends of the springs are connected with buffer rods, one ends of the buffer rods, which are close to the operating box, penetrate through the tube openings of the buffer tubes, extend outwards and are connected with buffer blocks, and the other sides of the buffer blocks are arranged on the outer box walls of the operating box. The utility model buffers the vibration effect generated during cement processing by arranging a simple mechanical structure, and prevents the raw materials from being wasted due to the fact that the shaking amplitude is large and the raw materials are splashed out.

Description

Cement balancing weight vibration platform who possesses second grade buffering

Technical Field

The utility model relates to the technical field of processing of cement balancing weights, in particular to a cement balancing weight vibration platform with secondary buffering.

Background

Cement is a hydraulic cement which is a finely ground material, becomes a plastic slurry by adding a proper amount of water, hardens in air and water, and can firmly bind materials such as sand and stone together to form a firm stone-like body. The cement is a building material and an engineering material with the largest use amount in inorganic non-metallic materials, and is widely applied to building, water conservancy, roads, petroleum, chemical engineering and military engineering.

However, when the existing cement counterweight block is produced, the mold frame is displaced and raw materials are splashed in the vibration process due to pouring and stirring, so that the production quality of the cement counterweight block is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problem that the production quality of a cement balancing weight is affected due to the fact that a mould frame is displaced and raw materials are splashed in the vibration process because of pouring and stirring when the existing cement balancing weight is produced, and provides a cement balancing weight vibration platform with secondary buffering.

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

a cement balancing weight vibration platform with secondary buffering comprises a working pool, wherein a buffering extrusion mechanism is arranged in the working pool;

the buffering and extruding mechanism comprises an operation box, the operation box is arranged at the center of the bottom of the working pool, the operation box is divided into two symmetrical extruding grooves by a partition plate, a vibrating motor is arranged at the bottom of the groove in the extruding grooves, two groups of buffer tubes are arranged on the inner pool walls which are symmetrical on two sides of the working pool, the two buffer tubes are arranged up and down, the tube bottoms in the buffer tubes are connected with springs, the other ends of the springs are connected with buffer rods, one ends of the buffer rods, which are close to the operation box, penetrate through the tube orifices of the buffer tubes and extend outwards and are connected with buffer blocks, the other sides of the buffer blocks are arranged on the outer pool walls of the operation box, the outer pool walls which are symmetrical on two sides of the working pool are connected with supporting plates, air cylinders are arranged at the upper ends of the supporting plates, the piston ends of the air cylinders are connected with pushing blocks, the upper ends of the pushing blocks are connected with pushing plates, the lower end of the pushing plate is symmetrically connected with two extrusion blocks, the extrusion blocks are matched with the extrusion grooves, and the extrusion blocks correspond to the extrusion grooves in position.

Preferably, the outer pool wall of working pool bilateral symmetry has all seted up the spout, sliding connection has the slider in the spout, the one end that the operation box was kept away from to the slider passes the spout notch and outwards extends and connect on promoting the piece.

Preferably, the sliding chute is internally and fixedly connected with a sliding rod, the sliding rod penetrates through the sliding block, and the sliding block is connected to the sliding rod in a sliding mode.

Preferably, a rolling groove is formed in the side wall, away from one end of the pushing block, of the sliding block, rolling balls are arranged in the rolling groove, the balls penetrate through the groove openings of the rolling groove, and the balls are connected to the groove bottom of the sliding groove in a rolling mode.

Preferably, the upper end of the supporting plate is symmetrically connected with two blocking plates around the cylinder.

Preferably, the pool bottom is connected with two limiting plates symmetrically about the operation box in the working pool.

Compared with the prior art, the utility model provides a cement counterweight block vibration platform with secondary buffering, which has the following beneficial effects:

1. this cement balancing weight vibration platform that possesses second grade buffering carries out machine-shaping to cement through setting up the cooperation each other between extrusion groove, vibrating motor, backup pad, cylinder, promotion piece, catch bar, catch plate and the extrusion piece isotructure, reduces the hand labor power, and save time improves work efficiency.

2. This cement balancing weight vibration platform that possesses second grade buffering comes to add man-hour to cement through setting up the mutually supporting between buffer tube, spring, buffer beam and the buffer block isotructure, plays the effect of a buffering to the control box, prevents that the control box range of rocking is big, makes the raw materials spill, causes the waste of raw materials.

Drawings

FIG. 1 is a schematic structural diagram of a vibrating platform with two-stage buffering for a cement counterweight according to the present invention;

FIG. 2 is a side view of a vibrating platform with two-stage buffering for a cement counterweight according to the present invention;

fig. 3 is an enlarged view of a portion a in fig. 1.

In the figure: 1. a working pool; 2. an operation box; 3. a partition plate; 4. extruding a groove; 5. a vibration motor; 6. a buffer tube; 7. a spring; 8. a buffer rod; 9. a buffer block; 10. a support plate; 11. a cylinder; 12. a pushing block; 13. a push rod; 14. a push plate; 15. extruding the block; 16. a chute; 17. a slider; 18. a slide bar; 19. a rolling groove; 20. a ball bearing; 21. a blocking plate; 22. and a limiting plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1-3, a cement counterweight vibration platform with secondary buffering comprises a working pool 1, wherein a buffering and extruding mechanism is arranged in the working pool 1;

the buffering and extruding mechanism comprises an operation box 2, the operation box 2 is arranged at the center of the pool bottom in a working pool 1, the operation box 2 is divided into two symmetrical extruding grooves 4 by a partition plate 3, a vibrating motor 5 is arranged at the bottom of the groove in each extruding groove 4, two groups of buffer tubes 6 are arranged on the symmetrical inner pool walls at two sides of the working pool 1, the two buffer tubes 6 are arranged up and down, the inner tube bottom of each buffer tube 6 is connected with a spring 7, the other end of each spring 7 is connected with a buffer rod 8, one end of each buffer rod 8, which is close to the operation box 2, penetrates through the tube opening of each buffer tube 6 and extends outwards and is connected with a buffer block 9, the other side of each buffer block 9 is arranged on the outer pool wall of the operation box 2, the symmetrical outer pool walls at two sides of the working pool 1 are connected with supporting plates 10, an air cylinder 11 is arranged at the upper end of each supporting plate 10, a pushing block 12 is connected with a pushing rod 13 at the piston end of each air cylinder 11, the upper ends of the two pushing rods 13 are connected with a pushing plate 14, the lower end of the pushing plate 14 is symmetrically connected with two extrusion blocks 15, the extrusion blocks 15 are matched with the extrusion grooves 4, the extrusion blocks 15 correspond to the extrusion grooves 4 in position, cement is poured into the two extrusion grooves 4, the vibration motor 5 is started, the vibration motor 5 starts to vibrate the cement, the air cylinder 11 is restarted, the operation of the air cylinder 11 drives the pushing block 12 to vertically move downwards, the movement of the pushing block 12 drives the pushing rod 13 to vertically move downwards, the movement of the pushing rod 13 drives the pushing plate 14 to vertically move downwards, the movement of the pushing plate 14 drives the extrusion blocks 15 to vertically move downwards, when the extrusion blocks 15 move into the extrusion grooves 4, the extrusion blocks 15 extrude the cement in an extrusion mode, the operation of the vibration motor 5 enables the operation box 2 to shake, the operation box 2 is shaken in a horizontal direction under the action force, the movement of the operation box 2 generates the action force on the buffer blocks 9, buffer block 9 receives the effort and will drive buffer beam 8 and be horizontal transverse motion in buffer tube 6, buffer beam 8's motion will extrude spring 7, and simultaneously, spring 7 also can produce a resistance to buffer beam 8, thereby, cushion impact force, buffer beam 8 receives the effort of buffering and will produce a resistance to operation box 2, thereby, reach the effect of a buffering to operation box 2, come to cushion operation box 2 at the during operation through the elastic potential energy that utilizes spring 7, it is big to prevent operation box 2 amplitude of rocking, make the raw materials spill, cause the waste of raw materials, rethread cylinder 11 drives extrusion block 15 and is vertical downstream, carry out extrusion to cement, reduce the hand labor power, and save time improves work efficiency.

All seted up spout 16 on the outer pool wall of 1 bilateral symmetry of working pool, sliding connection has slider 17 in spout 16, and the one end that operation box 2 was kept away from to slider 17 passes 16 notches of spout and outwards extends and connect on pushing block 12, prevents to push block 12 and takes place the skew in the motion process.

Slide bar 18 is fixedly connected in the spout 16, and slide bar 18 runs through slider 17 and sets up, and slider 17 sliding connection prevents that slider 17 from breaking away from in the spout 16 on slider 18.

The side wall of the slide block 17 far away from one end of the pushing block 12 is provided with a rolling groove 19, a rolling ball 20 is arranged in the rolling groove 19, the rolling ball 20 penetrates through the notch of the rolling groove 19, and the rolling ball 20 is connected to the bottom of the sliding groove 16 in a rolling manner, so that the friction force between the slide block 17 and the sliding groove 16 is reduced.

Two stop plates 21 are symmetrically connected to the upper end of the support plate 10 about the cylinder 11 to prevent the cylinder 11 from falling off the support plate 10.

The bottom of the pool is connected with two limiting plates 22 symmetrically about the operation box 2 in the working pool 1, so that the operation box 2 is prevented from rotating in the working process.

In the utility model, cement is poured into two extrusion grooves 4, a vibration motor 5 is started, the vibration motor 5 starts to vibrate the cement, then an air cylinder 11 is started, the operation of the air cylinder 11 can generate a vertical downward acting force on a pushing block 12, the pushing block 12 can vertically move downwards under the action of the acting force, the movement of the pushing block 12 can generate an acting force on a pushing rod 13, the pushing rod 13 can vertically move downwards under the action of the acting force, the movement of the pushing rod 13 can generate an acting force on a pushing plate 14, the pushing plate 14 can vertically move downwards under the action of the acting force, the movement of the pushing plate 14 can generate an acting force on an extrusion block 15, the extrusion block 15 can vertically move downwards under the action of the acting force, when the extrusion block 15 moves into the extrusion grooves 4, the extrusion block 15 can extrude the cement, and the operation of the vibration motor 5 can enable an operation box 2 to shake, the operation box 2 is shaken horizontally under the action of the acting force, the action of the operation box 2 generates the acting force on the buffer block 9, the action of the buffer block 9 generates the acting force on the buffer rod 8, the action of the buffer rod 8 generates the horizontal transverse movement in the buffer tube 6, the action of the buffer rod 8 generates the acting force on the spring 7, and simultaneously, the spring 7 also generates a resistance force on the buffer rod 8, so that the impact force is buffered, the action of the buffer rod 8 generates a resistance force on the operation box 2, thereby achieving a buffering effect on the operation box 2, buffering the operation box 2 when in operation by utilizing the elastic potential energy of the spring 7, preventing the operation box 2 from shaking to a large extent, enabling the raw materials to be splashed out and causing the waste of the raw materials, and driving the extrusion block 15 to vertically move downwards through the air cylinder 11, carry out extrusion to cement, reduce hand labor power, save time improves work efficiency.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (6)

1. A cement balancing weight vibration platform with secondary buffering comprises a working pool (1), and is characterized in that a buffering and extruding mechanism is installed in the working pool (1);

the buffer extrusion mechanism comprises an operation box (2), the operation box (2) is arranged at the center of the pool bottom in the working pool (1), two symmetrical extrusion grooves (4) are separated into the operation box (2) through a partition plate (3), a vibration motor (5) is arranged at the inner pool bottom of each extrusion groove (4), two groups of buffer tubes (6) are arranged on the inner pool walls of the bilateral symmetry of the working pool (1), the two buffer tubes (6) are arranged up and down, a spring (7) is connected at the inner pool bottom of each buffer tube (6), the other end of each spring (7) is connected with a buffer rod (8), one end of each buffer rod (8) close to the operation box (2) penetrates through the tube opening of each buffer tube (6) and extends outwards and is connected with a buffer block (9), the other side of each buffer block (9) is arranged on the outer pool wall of the operation box (2), and support plates (10) are connected on the outer pool walls of the bilateral symmetry of the working pool (1), cylinder (11) are installed to backup pad (10) upper end, cylinder (11) piston end is connected with and promotes piece (12), the upper end that promotes piece (12) is connected with catch bar (13), two the upper end of catch bar (13) is connected with catch plate (14) jointly, the lower extreme symmetric connection of catch plate (14) has two extrusion piece (15), and extrusion piece (15) and extrusion groove (4) phase-match, extrusion piece (15) are corresponding with the position in extrusion groove (4).

2. The vibrating platform with the secondary buffering function for the cement balancing weight as claimed in claim 1, wherein sliding grooves (16) are formed in the symmetrical outer wall of the working pool (1), sliding blocks (17) are connected in the sliding grooves (16), and one ends of the sliding blocks (17) far away from the operation box (2) penetrate through the notches of the sliding grooves (16), extend outwards and are connected to the pushing blocks (12).

3. The vibrating platform for the cement counterweight with the secondary buffering function as claimed in claim 2, wherein a sliding rod (18) is fixedly connected in the sliding groove (16), the sliding rod (18) penetrates through the sliding block (17), and the sliding block (17) is slidably connected to the sliding rod (18).

4. The vibrating platform with two-stage buffering for cement counterweight according to claim 2 is characterized in that a rolling groove (19) is formed on the side wall of one end of the sliding block (17) far away from the pushing block (12), a rolling ball (20) is arranged in the rolling groove (19), the rolling ball (20) passes through the notch of the rolling groove (19), and the rolling ball (20) is connected to the bottom of the sliding groove (16) in a rolling manner.

5. The vibrating platform for cement weights with two-stage buffering as claimed in claim 1, wherein two stop plates (21) are symmetrically connected to the upper end of the supporting plate (10) with respect to the cylinder (11).

6. The vibrating platform with the secondary buffering function for the cement balancing weight as claimed in claim 1, wherein two limiting plates (22) are symmetrically connected to the bottom of the working pool (1) with respect to the operation box (2).

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