CN220346437U - Diamond processing screening plant - Google Patents

Abstract

The utility model belongs to the technical field of diamond screening, in particular to a diamond processing screening device, which comprises a protection bin, wherein the top end of the protection bin is fixedly connected with a feed pipe, a screening bin is arranged in the protection bin, the inner wall of the top end of the screening bin is fixedly connected with a first filter bucket and a second filter bucket, the bottom end of the first filter bucket is fixedly connected with a first blanking pipe, the bottom end of the first blanking pipe is rotationally connected with a hollow rotary table, the inner wall of the top end of the screening bin is rotationally connected with a plurality of rotary rods, the side wall of each rotary rod is provided with a plurality of knocking balls, and the mode of up-and-down shaking and knocking vibration of diamonds in the first filter bucket and the second filter bucket is realized through the matched use of the rotary rods, so that diamond particles can be in up-and-down shaking and vibration states during rotation, more holes are prevented from being occupied, the screened particles cannot leak down, the condition of blocking meshes of a screen is caused, and the screening efficiency is improved.

Description

Diamond processing screening plant

Technical Field

The utility model belongs to the technical field of diamond screening, and particularly relates to a diamond processing and screening device.

Background

Synthetic diamond is synthesized under high temperature and high pressure, and is generally used as abrasive, and an important procedure in production is sieving, and by sieving, the synthetic diamond is divided into a plurality of grades with different particle size ranges so as to meet the needs of different tools, when sieving diamond, a sieve and a vibrator are often used, diamond particles vibrate on the sieve, the diamond particles with the size reaching the sieve fall off, the particles have the opportunity of passing through sieve holes, larger and non-passing particles occupy the positions of the sieve holes during sieving, so that the passing-through particles cannot pass through the space, and because some particles are irregular, half of the passing-through particles possibly leak and cannot pass through the sieve holes, and if the particles are too much, more holes are occupied, the passing-through particles cannot leak down, thus the sieve holes are blocked, and the sieving efficiency is affected.

Disclosure of Invention

The utility model provides a diamond processing and screening device which has the characteristic of solving the problem that screen holes are easy to be blocked during diamond screening.

The utility model provides the following technical scheme: including the protection storehouse, protection storehouse top fixedly connected with inlet pipe, be equipped with the screening storehouse in the protection storehouse, screening storehouse top inner wall fixedly connected with first filter pulp and second filter pulp, first filter pulp bottom fixedly connected with first unloading pipe, first unloading pipe bottom rotation is connected with the cavity carousel, screening storehouse top inner wall rotation is connected with a plurality of bull stick, the bull stick lateral wall is equipped with a plurality of and is used for right first filter pulp with the knocking ball that the second filter pulp lateral wall knocked, cavity carousel bottom is equipped with the second bevel gear, second bevel gear sliding connection in cavity carousel bottom, second bevel gear one end rotation is connected with L template, L template fixedly connected with in protection storehouse bottom inner wall.

The screening bin comprises a screening bin body, a screening bin top, a screening bin side wall, a screening bin cover, a screening bin, a protection bin top and a screening bin, wherein a spring is fixedly connected to the inner wall of the top of the protection bin, the spring is rotationally connected to the top of the screening bin, a limiting ring is slidably connected to the inner wall of the protection bin, the limiting ring is rotationally connected to the screening bin side wall, and a plurality of balls are arranged between the limiting ring and the screening bin side wall.

Wherein, a plurality of bull stick top all fixedly connected with gear, a plurality of the gear all with spacing ring inner wall tooth is connected.

The screening bin is characterized in that the bottom end of the second filter hopper is fixedly connected with a second blanking pipe, the bottom end of the screening bin is fixedly connected with a third blanking pipe, and the second blanking pipe and the third blanking pipe are fixedly connected to the side wall of the first blanking pipe.

The connecting rod is fixedly connected with the bottom end of the first blanking pipe, the connecting rod is not in contact with the hollow rotary table, a driving shaft used for driving the connecting rod is arranged in the protection bin, the connecting rod is slidably connected with the inner wall of the driving shaft, and a first bevel gear used for driving the second bevel gear is fixedly connected with the side wall of the driving shaft.

The beneficial effects of the utility model are as follows: through the bull stick, strike ball and second bevel gear's cooperation use, realize shaking about first filter pulp and the inside diamond of second filter pulp and strike the mode of vibration, supplementary diamond particle can be in the shake state from top to bottom when rotatory, help first filter pulp and the inside diamond particle of second filter pulp carry out the position change, increase the chance that granule and sieve mesh contacted, avoid piling up the condition that causes the granule to fall down, and can shake out the diamond of card at the sieve mesh, make diamond and sieve mesh break away from, avoid occupying more holes, and make the granule that this screen mesh removed can not leak down, cause the condition emergence of the mesh jam of screen cloth, improve screening efficiency.

None of the parts of the device are the same as or can be implemented using prior art.

Drawings

FIG. 1 is a schematic cross-sectional elevation view of the present utility model;

FIG. 2 is a schematic diagram of a cross-sectional elevation view of the present utility model in motion;

FIG. 3 is an enlarged schematic view of portion A of FIG. 1;

fig. 4 is a schematic cross-sectional front view of the first blanking pipe, the second blanking pipe and the third blanking pipe according to the present utility model.

In the figure: 1. a protective bin; 11. a feed pipe; 12. a spring; 13. a limiting ring; 14. a drive shaft; 141. a first bevel gear; 2. a screening bin; 21. a first filter bowl; 22. a second filter bowl; 23. a first blanking pipe; 231. a hollow turntable; 232. a connecting rod; 24. a second blanking pipe; 25. a third blanking pipe; 3. a rotating rod; 31. striking a ball; 32. a gear; 4. a second bevel gear; 41. an L-shaped plate.

Detailed Description

Referring to fig. 1-4, the present utility model provides the following technical solutions: including protection storehouse 1, protection storehouse 1 top fixedly connected with inlet pipe 11 is equipped with screening storehouse 2 in the protection storehouse 1, screening storehouse 2 top inner wall fixedly connected with first filter pulp hopper 21 and second filter pulp hopper 22, first filter pulp hopper 21 bottom fixedly connected with first unloading pipe 23, first unloading pipe 23 bottom rotates and is connected with cavity carousel 231, screening storehouse 2 top inner wall rotates and is connected with a plurality of bull stick 3, bull stick 3 lateral wall is equipped with a plurality of and is used for the knocking ball 31 that strikes first filter pulp hopper 21 and second filter pulp hopper 22 lateral wall, cavity carousel 231 bottom is equipped with second bevel gear 4, second bevel gear 4 sliding connection is in cavity carousel 231 bottom, second bevel gear 4 one end rotation is connected with L template 41, L template 41 fixedly connected with is given in protection storehouse 1 bottom inner wall.

In this embodiment: the protection bin 1 performs external protection and supporting functions on each component of the device, the screening bin 2 performs multistage screening on diamond through the first filter funnel 21 and the second filter funnel 22, the screening bin 2 performs external protection on each component in the screening bin 2, the mesh aperture of the first filter funnel 21 is larger than that of the second filter funnel 22, the first filter funnel 21 and the second filter funnel 22 are driven to rotate when the screening bin 2 rotates, the first filter funnel 21 drives the internal diamond material to rotate, diamond particles with proper size are screened out through the aperture of the first filter funnel 21 and enter the second filter funnel 22, and in the same way, the second filter funnel 22 screens out diamond with proper size and enters the screening bin 2, at the moment, the diamond in the space formed by the first filter funnel 21 and the second filter funnel 22 and the space formed by the second filter funnel 22 is divided into large, medium and small different types, the feed pipe 11 communicates the outside with the interior of the first filter funnel 21, the diamond raw material is conveyed into the first filter funnel 21 through the feeding pipe 11, the first discharging pipe 23 supports and drives the first filter funnel 21, the first discharging pipe 23 drives the first filter funnel 21 to rotate by controlling the first discharging pipe 23 to rotate, the first filter funnel 21 drives the screening bin 2 to rotate, the screening bin 2 drives the second filter funnel 22 to rotate, two protrusions are arranged on the side wall of the second bevel gear 4, the positions of the two protrusions on the second bevel gear 4 are adjusted in real time when the second bevel gear 4 rotates, the second bevel gear 4 and the protrusions on the second bevel gear are always contacted with the bottom end of the hollow turntable 231, so that when the two protrusions are contacted with the hollow turntable 231, the hollow turntable 231 can push and lift the hollow turntable 231 to drive the first discharging pipe 23 to move upwards, the first discharging pipe 23 drives corresponding components to move upwards to be matched with the first filter funnel 21 and the second filter funnel 22 to rotate and screen for assistance, the diamond particles can be in the upper and lower shaking state when rotatory, help first filter vat 21 and the inside diamond particles of second filter vat 22 carry out the position change, increase the chance that granule and first filter vat 21 or second filter vat 22 inner wall contact, avoid piling up the condition that causes the tiny particle to fall down and take place, and, through the mode of shaking from top to bottom, can shake away the diamond of card screen mesh on first filter vat 21 or second filter vat 22, avoid taking up more holes, and make this screen-removed granule can not leak down, cause the condition of the mesh jam of screen cloth to take place, improve screening efficiency, simultaneously, screening storehouse 2, first filter vat 21 and second filter vat 22 are rotatory, a plurality of bull stick 3 is also rotatory, be connected through the stay cord between the bull stick 3, bull stick 3 rotatory through the stay cord with strike ball 31, thereby make a plurality of strike ball 31 can strike first filter vat 21 and second filter vat 22, help first filter vat 21 and second filter vat 22 to realize vibrating, supplementary blocking and break away from with breaking away.

The inner wall of the top end of the protection bin 1 is fixedly connected with a spring 12, the spring 12 is rotationally connected to the top end of the screening bin 2, the inner wall of the protection bin 1 is slidably connected with a limiting ring 13, the limiting ring 13 is rotationally connected to the side wall of the screening bin 2, and a plurality of balls are arranged between the limiting ring 13 and the side wall of the screening bin 2; after each component on the screening bin 2 moves upwards, the spring 12 extrudes the screening bin 2 in the downward direction, so that the hollow rotary table 231 can always contact with the top end of the second bevel gear 4 and the bulge, vertical continuous movement is achieved, moreover, the screening bin 2 cannot be subjected to movement disorder of the limiting ring 13 when rotating, and the limiting ring 13 carries out auxiliary limiting in the horizontal direction on the screening bin 2 when the screening bin 2 rotates, so that the screening bin 2 is prevented from driving each component on the screening bin 2 to incline and deviate.

The top ends of the rotating rods 3 are fixedly connected with gears 32, and the gears 32 are meshed with the inner wall of the limiting ring 13; the limiting ring 13 is limited by the protection bin 1 and can only move up and down without rotating, the screening bin 2 drives the plurality of rotating rods 3 to rotate, the rotating rods 3 drive the gears 32 to rotate, the gears 32 do annular motion around the inner wall of the limiting ring 13, the gears 32 are driven to rotate by utilizing tooth grooves on the inner wall of the limiting ring 13, so that the gears 32 drive the rotating rods 3 to rotate, and the rotating rods 3 drive the plurality of knocking balls 31 to rotationally knock the first filter bucket 21 and the second filter bucket 22.

The bottom end of the second filter funnel 22 is fixedly connected with a second blanking pipe 24, the bottom end of the screening bin 2 is fixedly connected with a third blanking pipe 25, and the second blanking pipe 24 and the third blanking pipe 25 are fixedly connected to the side wall of the first blanking pipe 23; the first blanking pipe 23 is used for guiding and flowing out particles after screening the inside of the first filter bucket 21, the second blanking pipe 24 is used for guiding and flowing out particles after screening the inside of the second filter bucket 22, the third blanking pipe 25 is used for guiding and flowing out particles after screening the inside of the screening bin 2, the first blanking pipe 23 is used for supporting the second blanking pipe 24 and the third blanking pipe 25, the guided particles are conveyed out through openings of the first blanking pipe 23, the second blanking pipe 24 and the third blanking pipe 25, and the opening at the top ends of the first blanking pipe 23, the second blanking pipe 24 and the third blanking pipe 25 are provided with switching valves so as to cope with the blocking effect during diamond screening.

The bottom end of the first blanking pipe 23 is fixedly connected with a connecting rod 232, the connecting rod 232 is not contacted with the hollow turntable 231, a driving shaft 14 for driving the connecting rod 232 is arranged in the protection bin 1, the connecting rod 232 is slidably connected to the inner wall of the driving shaft 14, and the side wall of the driving shaft 14 is fixedly connected with a first bevel gear 141 for driving the second bevel gear 4; the drive shaft 14 is driven by the motor below, the cross-section of connecting rod 232 is rectangular design, be convenient for drive shaft 14 to drive rotatory to connecting rod 232, the second bevel gear 4 drives connecting rod 232 up-and-down motion through each subassembly transmission when to cavity carousel 231 up-and-down motion, connecting rod 232 slides in drive shaft 14 inner wall, thereby make drive shaft 14 can drive connecting rod 232 all the time, drive shaft 14 drives first bevel gear 141 and rotates, first bevel gear 141 carries out the tooth with second bevel gear 4 and is connected, thereby make second bevel gear 4 also obtain the rotation power source, L template 41 supports second bevel gear 4.

The working principle and the using flow of the utility model are as follows: when the diamonds are sieved, diamond raw materials are conveyed into the first filter funnel 21 through the feeding pipe 11, the motor below the driving shaft 14 is controlled to drive the driving shaft 14 to rotate, the driving shaft 14 drives the connecting rod 232 and the first bevel gear 141 to rotate, the connecting rod 232 drives the first blanking pipe 23 to rotate, the first bevel gear 141 drives the second bevel gear 4 to rotate, the first blanking pipe 23 drives the first filter funnel 21 to rotate, the first filter funnel 21 drives the sieving bin 2 to rotate, the sieving bin 2 drives the second filter funnel 22 to filter and sieve the diamonds by utilizing eccentricity, the second bevel gear 4 can push and lift the hollow turntable 231 when being in contact with the hollow turntable 231 through two bulges during rotation, the hollow turntable 231 drives the first blanking pipe 23 to move upwards, the first blanking pipe 23 drives corresponding components to move upwards and cooperates with the first filter funnel 21 and the second filter funnel 22 to rotate and sieve, and assist, simultaneously, the sieving bin 2 drives the plurality of rotating rods 3 to drive the gears 32 to rotate, the gears 32 to do annular motion around the inner wall of the limiting ring 13, and the toothed groove gears 32 are driven by the inner wall of the limiting ring 13, so that the gears 3 drive the rotating rods 31 drive the first rotating rods 21 and the second filter funnel 22 to rotate to separate from the first filter funnel 22 and the second filter funnel 22 to vibrate, thereby realizing the vibration and knocking of the first filter funnel 21.

Claims (5)

1. A diamond processing screening plant, its characterized in that: including the protection storehouse, protection storehouse top fixedly connected with inlet pipe, be equipped with the screening storehouse in the protection storehouse, screening storehouse top inner wall fixedly connected with first filter pulp and second filter pulp, first filter pulp bottom fixedly connected with first unloading pipe, first unloading pipe bottom rotation is connected with the cavity carousel, screening storehouse top inner wall rotation is connected with a plurality of bull stick, the bull stick lateral wall is equipped with a plurality of and is used for right first filter pulp with the knocking ball that the second filter pulp lateral wall knocked, cavity carousel bottom is equipped with the second bevel gear, second bevel gear sliding connection in cavity carousel bottom, second bevel gear one end rotation is connected with L template, L template fixedly connected with in protection storehouse bottom inner wall.

2. A diamond tooling screening device according to claim 1, wherein: the utility model discloses a screening bin, including screening bin, protection bin top inner wall fixedly connected with spring, the spring rotate connect in screening bin top, protection bin inner wall sliding connection has the spacing ring, the spacing ring rotate connect in screening bin lateral wall, the spacing ring with be equipped with a plurality of ball between the screening bin lateral wall.

3. A diamond tooling screening device according to claim 2, wherein: the top ends of the rotating rods are fixedly connected with gears, and the gears are connected with the engaging teeth on the inner wall of the limiting ring.

4. A diamond tooling screening device according to claim 1, wherein: the second hopper bottom fixedly connected with second unloading pipe, screening storehouse bottom fixedly connected with third unloading pipe, the second unloading pipe with the equal fixedly connected with of third unloading pipe in first unloading pipe lateral wall.

5. A diamond tooling screening device according to claim 1, wherein: the utility model discloses a drive shaft, including cavity carousel, protection storehouse, first unloading pipe bottom fixedly connected with connecting rod, the connecting rod with cavity carousel contactless is provided with in the protection storehouse and is used for right the connecting rod carries out driven drive shaft, connecting rod sliding connection in the drive shaft inner wall, drive shaft lateral wall fixedly connected with is used for right second bevel gear carries out driven first bevel gear.