CN213349601U

CN213349601U - Mining shale shaker structure

Info

Publication number: CN213349601U
Application number: CN202021432655.3U
Authority: CN
Inventors: 彭伟平
Original assignee: Individual
Current assignee: Chengdu Siyu Construction Development Co ltd
Priority date: 2020-07-20
Filing date: 2020-07-20
Publication date: 2021-06-04
Anticipated expiration: 2030-07-20

Abstract

The utility model provides a mining shale shaker structure belongs to mining technical field, including separation frame, pressure tank, piston cylinder, hang plate, screening board, hydraulic pressure post, piston plate, flexible section of thick bamboo, spacing ring, piston ring, fly leaf, pulling force steel wire, bracing piece, balancing weight and ejector pin, the bottom fixedly connected with pressure tank of separation frame, the left side embedding of separation frame is provided with the piston cylinder, the inner wall fixedly connected with hang plate of separation frame, the inner wall fixedly connected with screening board of separation frame. The utility model provides a push rod can reciprocate in the separation frame, and the push rod can push out the raw materials in the screening hole, avoids the raw materials to block up the screening hole, and the below in each screening hole all is equipped with the push rod, and the upward movement that the push rod can be synchronous, and then avoids the screening hole to be blockked up, guarantees the unobstructed of all screening holes, compares with traditional screening installation, and the screening hole can not block up, does not need people to clear up, has convenient to use, advantage that screening efficiency is high.

Description

Mining shale shaker structure

Technical Field

The utility model relates to a mining technical field, it is specific, relate to a mining shale shaker structure.

Background

The mining industry refers to the excavation of naturally occurring minerals such as solids, liquids or gases, including underground or above ground excavation, mine operation, and all auxiliary work generally undertaken at or near a mine site and aiming at processing raw materials, such as crushing, ore dressing and treatment, which belong to the activities, a screening structure is often required in the mining industry, a screening device comprises a frame, a mounting frame, a vibration mechanism, a first screening layer, a second screening layer and a third screening layer, the first, second and third screening layers are sequentially mounted on the mounting frame from top to bottom, the mounting frame is elastically connected with the frame, and in the screening structure in the prior art, particles are blocked in the screening holes due to the odd shapes of the raw materials in the screening process, so that the subsequent raw materials cannot pass through the screening holes, people are often required to clean the screening plates, and the raw materials cannot rapidly pass through the screening plates, the problems of low screening efficiency, inconvenient use and the like exist. Therefore, further research needs to be carried out on the basis of the screening structure, and a mining vibrating screen structure is provided.

SUMMERY OF THE UTILITY MODEL

This kind of mining shale shaker structure solves the above-mentioned screening process that proposes because the strange form of shape of raw materials, so the granule can be stifled in the screening hole, makes subsequent raw materials can't pass through this screening hole, often needs people to clear up the screening board, leads to the unable quick screening board that passes through of raw materials, has the problem that screening efficiency is low, use inconvenient etc. provides a mining shale shaker structure.

The utility model provides a following technical scheme: a mining vibrating screen structure comprises a separation frame, a pressure box, a piston cylinder, an inclined plate, a screening plate, a hydraulic column, a piston plate, a telescopic cylinder, limiting rings, a piston ring, a movable plate, a tension steel wire, a support rod, a balancing weight and a push rod, wherein the bottom of the separation frame is fixedly connected with the pressure box, the piston cylinder is embedded and arranged on the left side of the separation frame, the inclined plate is fixedly connected with the inner wall of the separation frame, the screening plate is fixedly connected with the inner wall of the separation frame, the hydraulic column is fixed on the inner wall of the piston cylinder through the support rod, the hydraulic column is arranged on the inner wall of the piston cylinder in a sliding manner, a plurality of telescopic cylinders are embedded and arranged on the top of the pressure box, the two limiting rings are fixedly connected on the inner wall of each telescopic cylinder, the piston ring is arranged on the inner wall of each telescopic cylinder in a sliding manner, the, the equal fixedly connected with four spinal branch vaulting poles in top of piston ring, the bracing piece is fixed connection respectively in the bottom of a plurality of balancing weight, the equal fixedly connected with ejector pin in top of balancing weight.

Further preferred embodiments: the inclined plate inclines by 5 degrees in height from left to right, and the screening plate inclines by 5 degrees in height from left to right, and the left and right sides of the separation frame are provided with discharge holes.

Further preferred embodiments: the opening is provided with a plurality of screening hole in the screening board, and the screening hole is latticed evenly distributed in the inside of separation frame to the diameter in screening hole is greater than the diameter of ejector pin.

Further preferred embodiments: the top of the pressure box inclines by 5 degrees from high left to low right and keeps parallel with the screening plate, the horizontal height of the ejector rod is decreased gradually from left to right, and the distance between the ejector rod and the screening plate is kept consistent.

Further preferred embodiments: the piston cylinder is embedded into the left side of the pressure box, the telescopic cylinders are evenly distributed on the top of the pressure box in a grid shape, and the sum of the volumes of all the telescopic cylinders is smaller than that of the piston cylinder.

Further preferred embodiments: the top of the tension steel wire is fixed at the bottom of the balancing weight, the diameter of the inner ring between the disc-shaped movable plates is larger than that of the piston ring, and the piston ring is matched with the inner wall of the telescopic cylinder.

Further preferred embodiments: the piston plate is matched with the inner wall of the piston cylinder, the piston plate is fixed on the left side of the hydraulic column, and the balancing weight is located between the two limiting rings.

Further preferred embodiments: the ejector rod movably penetrates through the inclined plate, the distance between the ejector rod and the top surface of the screening plate is smaller than the distance between the top of the balancing weight and the limiting ring above the balancing weight, and the middle of the tension steel wire is spiral.

Has the advantages that: the utility model provides a push rod can reciprocate in the separation frame, the push rod can push out the raw materials in the screening hole, avoid the raw materials to block up the screening hole, the below of each screening hole all is equipped with the push rod, the upward movement that the push rod can be synchronous, and then avoid the screening hole to be blockked up, guarantee the unobstructed of all screening holes, compare with traditional screening equipment, the screening hole can not block up, do not need people to clear up, and is convenient to use, the advantage that screening efficiency is high, the screening board high and low right side can make the raw materials quick roll at its top, quick completion screening work, the hang plate is passed by the push rod, the raw materials that the hang plate can accomplish will be carried out the separation frame, and then the edgewise screening efficiency that improves

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic top view of the present invention.

Fig. 3 is an enlarged schematic view of the telescopic cylinder of the present invention.

Fig. 4 is an enlarged schematic view of a portion a in fig. 1 according to the present invention.

In FIGS. 1-4: the device comprises a separation frame 1, a pressure box 2, a piston cylinder 3, an inclined plate 4, a screening plate 5, a hydraulic column 6, a piston plate 7, a telescopic cylinder 8, a limiting ring 9, a piston ring 10, a movable plate 11, a tension steel wire 12, a support rod 13, a balancing weight 14 and a mandril 15.

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 in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 4, in the embodiment of the present invention, a mining vibrating screen structure includes a separation frame 1, a pressure tank 2, a piston cylinder 3, an inclined plate 4, a screening plate 5, a hydraulic column 6, a piston plate 7, a telescopic cylinder 8, a limiting ring 9, a piston ring 10, a movable plate 11, a tension steel wire 12, a support rod 13, a counter weight 14 and a push rod 15, the bottom of the separation frame 1 is fixedly connected with the pressure tank 2, the left side of the separation frame 1 is embedded with the piston cylinder 3, the inner wall of the separation frame 1 is fixedly connected with the inclined plate 4, the inner wall of the separation frame 1 is fixedly connected with the screening plate 5, the inner wall of the piston cylinder 3 is fixed with the hydraulic column 6 through the support rod, the inner wall of the piston cylinder 3 is slidably provided with the hydraulic column 6, the top of the pressure tank 2 is embedded with a plurality of telescopic cylinders 8, the inner walls of the telescopic cylinders 8 are both fixedly connected with two, piston ring 10's bottom all has fly leaf 11 through hinge joint, the equal fixedly connected with pulling force steel wire 12 in top of fly leaf 11, four spinal branch vaulting poles 13 of the equal fixedly connected with in top of piston ring 10, bracing piece 13 respectively fixed connection in the bottom of a plurality of balancing weight 14, the equal fixedly connected with ejector pin 15 in top of balancing weight 14.

Preferably, 4 low right high slopes 5 on the left side of hang plate, and 5 low slopes 5 on the high right side of screening board, and the equal opening in the left and right sides of separation frame 1 is provided with the discharge opening, 5 high right low slopes on the high right side of top of pressure tank 2 keep parallel with screening board 5, and ejector pin 15 level diminishes progressively from a left side to the right in proper order, and ejector pin 15 all keeps unanimous with the interval of

screening board

5, 5 high right low sides of screening board can make the raw materials quick roll at its top, quick completion screening work, hang plate 4 is passed by the ejector pin, hang plate 4 can carry out separation frame 1 with the raw materials that the screening was accomplished, and then improve screening efficiency from the side.

Preferably, the opening is provided with a plurality of screening hole in the screening board 5, and the screening hole is latticed evenly distributed in the inside of separation frame 1, and the diameter of screening hole is greater than ejector pin 15's diameter, ejector pin 15 can reciprocate in separation frame 1, the ejector pin can 15 can push out the raw materials in the screening hole, avoid the raw materials to block up the screening hole, the below of each screening hole all is equipped with ejector pin 15, the rebound that ejector pin 15 can be synchronous, and then avoid the screening hole to be blockked up, guarantee unobstructed of all screening holes, compare with traditional screening installation, the screening hole can not block up, do not need people to clear up, and has convenient to use, the advantage that screening efficiency is high.

Preferably, the piston cylinder 3 is embedded in the left side of the pressure tank 2, the telescopic cylinders 8 are uniformly distributed on the top of the pressure tank 2 in a grid shape, the volume sum of all the telescopic cylinders 8 is smaller than the volume of the piston cylinder 3, the top of the tension steel wire 12 is fixed at the bottom of the balancing weight 14, the diameter of an inner ring of the piston ring 10 is larger between the movable plates 11 and the discs, the piston ring 10 is matched with the inner wall of the telescopic cylinder 8, the piston plate 7 is matched with the inner wall of the piston cylinder 3, the piston plate 7 is fixed with the left side of the hydraulic column 6, the balancing weight 14 is positioned between the two limiting rings 9, the ejector rod 15 movably penetrates through the inclined plate 4, the distance between the ejector rod 15 and the top surface of the screening plate 5 is smaller than the distance between the top of the balancing weight 14 and the limiting ring 9 above the same, the middle of the tension steel wire 12 is in a spiral, the piston plate 7 rapidly extrudes the air in the piston cylinder 3 into the pressure box 2, so that the air in the pressure box 2 rapidly enters the telescopic cylinder 8, the air can push the piston ring 9 in the telescopic cylinder 8 to move upwards, and the ejector rod 15 synchronously moves upwards.

When the mining vibrating screen structure is used, firstly, raw materials are sprinkled on the screening plate 5 in the separation frame 1, the raw materials with small particles pass through the screening plate 5 through the screening holes and fall on the inclined plate 4, the raw materials are discharged through the discharge holes on the two sides of the separation frame 1 respectively, after the mining vibrating screen structure is used for a while, the hydraulic column 6 rapidly drives the piston plate 7 to move rightwards in the piston cylinder 3, the piston plate 7 rapidly extrudes the air in the piston cylinder 3 into the pressure box 2, so that the air in the pressure box 2 rapidly enters the telescopic cylinder 8, the air can push the piston ring 9 in the telescopic cylinder 8 to move upwards, all the ejector rods 15 synchronously move upwards, the ejector rods 15 are inserted into the screening holes to eject the raw materials clamped in the screening holes, then the hydraulic column 6 drives the piston plate 7 to rapidly move leftwards in the piston cylinder 3, the piston plate 7 rapidly sucks the air in the pressure box 2 into the piston cylinder 3, the piston ring 10, the movable plate 11, the tension steel wire 12, the support rod 13, the counterweight 14 and the ejector rod 15 synchronously move downwards, the movable plate 11 inclines, the tension steel wire 12 can be stretched, air is sucked into the pressure tank 2 through the piston ring 10, and sufficient air in the pressure tank 2 is guaranteed.

The above is only the preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, without departing from the concept of the present invention, several modifications and improvements can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent.

Claims

1. The utility model provides a mining shale shaker structure, includes separation frame (1), pressure tank (2), piston cylinder (3), hang plate (4), screening board (5), hydraulic pressure post (6), piston plate (7), telescopic cylinder (8), spacing ring (9), piston ring (10), fly leaf (11), pulling force steel wire (12), bracing piece (13), balancing weight (14) and ejector pin (15), its characterized in that: the bottom of the separation frame (1) is fixedly connected with a pressure box (2), the left side of the separation frame (1) is embedded with a piston cylinder (3), the inner wall of the separation frame (1) is fixedly connected with an inclined plate (4), the inner wall of the separation frame (1) is fixedly connected with a screening plate (5), the inner wall of the piston cylinder (3) is fixed with a hydraulic column (6) through a support rod, the inner wall of the piston cylinder (3) is provided with the hydraulic column (6) in a sliding manner, the top of the pressure box (2) is embedded with a plurality of telescopic cylinders (8), the inner walls of the telescopic cylinders (8) are fixedly connected with two limiting rings (9), the inner walls of the telescopic cylinders (8) are provided with piston rings (10) in a sliding manner, the bottoms of the piston rings (10) are hinged with movable plates (11) through hinges, the tops of the movable plates (11) are fixedly connected with, the top of piston ring (10) all fixedly connected with four spinal branch vaulting poles (13), bracing piece (13) respectively fixed connection is in the bottom of a plurality of balancing weight (14), the equal fixedly connected with ejector pin (15) in top of balancing weight (14).

2. The mining shaker structure of claim 1, wherein: the left side of the inclined plate (4) is low, the right side of the inclined plate is high, the inclined plate is 5 degrees, the left side of the screening plate (5) is high, the right side of the screening plate is low, the inclined plate is 5 degrees, and discharging holes are formed in openings on the left side and the right side of the separation frame (1).

3. The mining shaker structure of claim 1, wherein: the screening plate (5) middle opening is provided with a plurality of screening holes, and the screening holes are in latticed uniform distribution in the separating frame (1), and the diameter of the screening holes is larger than that of the ejector rods (15).

4. The mining shaker structure of claim 1, wherein: the top of the pressure box (2) is inclined by 5 degrees in a left-high-right direction and is parallel to the screening plate (5), the horizontal height of the ejector rod (15) is sequentially decreased from left to right, and the distance between the ejector rod (15) and the screening plate (5) is kept consistent.

5. The mining shaker structure of claim 1, wherein: the piston cylinder (3) is embedded in the left side of the pressure box (2), the telescopic cylinders (8) are uniformly distributed on the top of the pressure box (2) in a grid shape, and the volume sum of all the telescopic cylinders (8) is smaller than that of the piston cylinder (3).

6. The mining shaker structure of claim 1, wherein: the top of the tension steel wire (12) is fixed at the bottom of the balancing weight (14), the disc-shaped space between the movable plates (11) is larger than the diameter of the inner ring of the piston ring (10), and the piston ring (10) is matched with the inner wall of the telescopic cylinder (8).

7. The mining shaker structure of claim 1, wherein: the piston plate (7) is matched with the inner wall of the piston cylinder (3), the piston plate (7) is fixed with the left side of the hydraulic column (6), and the balancing weight (14) is located between the two limiting rings (9).

8. The mining shaker structure of claim 1, wherein: the ejector rod (15) movably penetrates through the inclined plate (4), the distance between the ejector rod (15) and the top surface of the screening plate (5) is smaller than the distance between the top of the balancing weight (14) and the limiting ring (9) above the balancing weight, and the middle of the tension steel wire (12) is spiral.