CN219819624U - Silicon material crushing table capable of improving efficiency and reducing cost - Google Patents

Abstract

The utility model provides a silicon material crushing table of lifting effect cost reduction, includes bottom support and casing, is provided with the casing backup pad between the two, and the bottom support includes supporting leg and fixed leg, sets up 1 fixed leg between every adjacent 2 supporting legs; the shell comprises a front PP plate, a rear PP plate, a left PP plate, a right PP plate and a top PP plate, side material inlets are symmetrically arranged on the front baffle and the rear baffle PP plate, and side doors sliding up and down are arranged on the side material inlets; the right baffle PP plate is provided with an observation port, and an observation door which slides up and down is arranged on the observation port; a discharging hole is formed in the left-baffle PP plate, a left-and-right sliding discharging door is arranged on the discharging hole, a collecting hole is formed in the lower side of the discharging door, and a discharging cylinder is arranged in the lower side of the collecting hole; a screen with the same aperture is arranged on the shell supporting plate, and the aperture of the screen is 8mm; the lower end of the screen is also provided with a crushed aggregates leakage port; the utility model can reduce the splashing of crushed aggregates and screen the silicon materials during crushing, thereby realizing rapid charging.

Description

Silicon material crushing table capable of improving efficiency and reducing cost

Technical Field

The utility model relates to the field of silicon material crushing equipment, in particular to an efficiency-improving and cost-reducing silicon material crushing table.

Background

The monocrystalline silicon wafer is a silicon monocrystal, is a crystal with a basically complete lattice structure, and is a main raw material of the solar panel, after the silicon material is melted and pulled into a silicon rod in the monocrystalline furnace, the monocrystalline silicon rod is subjected to subsequent machining, before the silicon material is melted and pulled, a large silicon material is required to be crushed into small blocks, and qualified silicon material obtained after crushing is put into the furnace for drawing.

The prior art breaks big silicon materials and breaks by manual hand, the manual hand breaks the big silicon materials into small blocks by using tungsten hammers, and as broken silicon materials need to be separated into unqualified products (crushed aggregates with diameter outline smaller than 8 mm) when being separated manually, the broken silicon materials need to be manually screened again, and the manual silicon materials are rapidly charged by a shovel, namely, unqualified silicon material crushed aggregates are difficult to accurately screen in the manual screening and manual charging processes, the manual screening production efficiency is low, the condition of rapid charging is not provided, the large-batch production cannot be realized, and the broken silicon materials are extremely easy to be outside the crushed aggregates when being broken.

Disclosure of Invention

In order to overcome the manual screening inefficiency of manual work that silicon material exists when the breakage, do not possess quick loading condition and crushed aggregates outer base scheduling difficult problem, provide a silicon material breakage table of lifting effect cost reduction, the utility model discloses can reduce the crushed aggregates outwards splash and screen the silicon material when the breakage, realize quick loading, reduce manual work intensity, improve and smash material loading work efficiency. The utility model is realized by the following technical scheme:

the silicon material crushing table comprises a bottom bracket and a shell, wherein a shell supporting plate is arranged between the bottom bracket and the shell, the bottom bracket comprises supporting legs and fixing legs, and 1 fixing leg is arranged between every two adjacent 2 supporting legs; the shell comprises a front baffle PP plate, a rear baffle PP plate, a left baffle PP plate, a right baffle PP plate and a top PP plate, side material loading openings are symmetrically formed in the front baffle PP plate and the rear baffle PP plate, side doors capable of sliding up and down by virtue of sliding rails are arranged on the side material loading openings, and side door fixing plates are further arranged on the side doors; an observation port is formed in the right-baffle PP plate, and an observation door capable of sliding up and down by means of a sliding rail is arranged on the observation port; the left-baffle PP plate is provided with a discharge port, the discharge port is provided with a discharge door capable of sliding left and right by virtue of a sliding rail, the lower side of the discharge door is provided with a material collecting port, and the lower side of the material collecting port is provided with a discharge cylinder; the shell supporting plate is provided with a screen with the same aperture, the aperture of the screen is 8mm, the length of the screen is 900+/-5 mm, and the width of the screen is 600+/-5 mm; the screen mesh is communicated with the side loading opening; the lower end of the screen is also provided with a crushed aggregates leakage port; the top PP plate is formed by splicing 3 rectangular PP plates.

Preferably, the supporting legs and the fixing legs are vertically arranged.

Preferably, the support leg and the fixing leg are connected by adopting a screw or welding.

Preferably, the number of the supporting legs is 4, and the number of the fixing legs is 4.

Preferably, the shell supporting plate and the supporting legs are connected by adopting screws or welding.

Preferably, the thicknesses of the front PP plate, the rear PP plate, the left PP plate and the right PP plate are 20mm, and the thickness of the top PP plate is 10mm.

Preferably, the side door is provided with a side door handle, the observation door is provided with an observation door handle, and the discharging door is provided with a discharging door handle.

Preferably, the crushed aggregates leakage opening is arranged on the shell supporting plate.

Preferably, the material collecting port is arranged on the left baffle PP plate of the shell.

Preferably, the number of the discharging door is 2, the discharging door is arranged to slide oppositely, and the number of the discharging door handles is 2.

The utility model has the beneficial effects that:

1. the utility model can reduce the splashing of crushed aggregates when the silicon materials are crushed, screen and rapidly charge the silicon materials, reduce the manual work intensity and improve the work efficiency of smashing the materials;

2. the utility model discloses can realize quick bagging-off with crushed aggregates autofilter that crushing produced to the big material, efficiency and the quality when mainly used improves broken silicon material in the monocrystalline trade, make the staff can be with the quick bagging-off of the big silicon material after the breakage, ensure that the silicon material in bags is qualified.

3. The utility model discloses can realize the unqualified crushed aggregates of autofilter and get into the effect in the dust-free bag with qualified silicon material fast, can two people broken silicon material increase crushing efficiency simultaneously, and the crushed aggregates after the breakage need not artifical secondary to select separately, lighten artifical working strength.

Drawings

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

FIG. 2 is a schematic plan view of the present utility model;

fig. 3 is a schematic plan view of another view of the present utility model.

In the figure: 1. a screen; 2. a front PP plate; 3. support legs; 4. a fixed leg; 5. a top PP plate; 6. observing the door handle; 7. a side door fixing plate; 8. a housing support plate; 9. a side door handle; 10. a material collecting port; 11. a discharge cylinder; 12. a crushed aggregates leakage port; 13. a discharge door handle; 14. a discharge door; 15. a backstop PP plate; 16. a side door; 17. the door is observed.

Detailed Description

In order that the utility model may be readily understood, a more complete description of the utility model will be rendered by reference to the appended drawings. The preferred embodiments of the present utility model are illustrated in the drawings, however, the present utility model may be embodied in many different forms and is not limited to the embodiments described herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

The utility model will be further described with reference to the accompanying drawings and detailed description below:

example 1:

as shown in fig. 1 to 3, the silicon material crushing table for improving efficiency and reducing cost comprises a bottom bracket and a shell, wherein a shell supporting plate 8 is further arranged between the bottom bracket and the shell, the bottom bracket comprises supporting legs 3 and fixing legs 4, and 1 fixing leg 4 is arranged between every two adjacent 2 supporting legs 3; perpendicular setting between supporting leg 3 and the fixed leg 4 adopts screwed connection or welded connection between the two, also adopts screwed connection or welded connection between casing backup pad 8 and the supporting leg 3 for play firm fixed action, preferred, the quantity of supporting leg 3 is 4 in the utility model discloses, and the quantity of fixed leg 4 is 4 too.

The shell comprises a front baffle PP plate 2, a rear baffle PP plate 15, a left baffle PP plate, a right baffle PP plate and a top PP plate 5, wherein side material loading openings are symmetrically arranged on the front baffle PP plate 2 and the rear baffle PP plate 15, a side door 16 capable of sliding up and down by virtue of a sliding rail is arranged on the side material loading openings, and a side door fixing plate 7 is arranged on the side door 16 and used for playing a limiting role when the side door 16 is closed; likewise, an observation port is arranged on the right-baffle PP plate, and an observation door 17 capable of sliding up and down by virtue of a sliding rail is arranged on the observation port; the left baffle PP plate is also provided with a discharge hole, the discharge hole is provided with a discharge door 14 capable of sliding left and right by virtue of a sliding rail, the lower side of the discharge door 14 is provided with a material collecting hole 10, and the lower side of the material collecting hole 10 is provided with a discharge cylinder 11; the crushed aggregates leakage port 12 is arranged on the shell supporting plate 8, and the aggregate port 10 is arranged on the left baffle PP plate of the shell; and set up side door handle 9 on the side door 16, set up on the observation door 17 and observe door handle 6, be provided with ejection of compact door handle 13 on the ejection of compact door 14, but different, side door 16 and observation door 6 are 1 door, are all to promote from top to bottom and open, and ejection of compact door 14 sets up to 2 and for two doors to slide open and close, ejection of compact door handle 13 sets up to 2.

The shell supporting plate 8 is provided with a screen 1 with consistent aperture, the aperture of the screen 1 is 8mm, the length of the screen 1 is 900+/-5 mm, and the width is 600+/-5 mm; the screen 1 is communicated with the side loading opening; the lower end of the screen 1 is also provided with a particle leakage opening 12.

The top PP board 5 is formed by splicing 3 rectangular PP boards, and the thicknesses of the front retaining PP board 2, the rear retaining PP board 15, the left retaining PP board and the right retaining PP board are 20mm, and the thickness of the top PP board 5 is 10mm.

The utility model discloses at the in-process of broken silicon material, at first the manual side feed inlet is opened, will the big piece silicon material is packed into the broken bench with the material from the side feed inlet and is broken with the black hammer manually in, because broken bench vibrations phenomenon that produces in the broken process, can get rid of unqualified crushed aggregates from screen cloth 1, then collect the crushed aggregates together through crushed aggregates weeping port 12, will break good qualified material then draw into in the aggregate mouth 10 with appurtenance from the discharge gate, then put a dust-free bag in discharge drum 11 below and be used for packing into the dust-free bag with qualified material.

The large lump materials are manually charged into the crushing table and are crushed by the black hammer, 95% of the crushed materials are required qualified products, but unqualified crushed materials are generated in the process of crushing the materials, the crushed materials are screened out, so that holes which do not accord with the size of the silicon materials are punched on the crushing surface of the crushing table, namely, the hole diameter is set to 8mm and used for screening out the crushed materials with the diameter profile smaller than 8mm, vibration generated in the process of crushing the materials can automatically vibrate to the outside, a discharging cylinder 11 is charged at the discharging hole of the crushing table, the materials can be rapidly charged into the bag only by placing dust-free bags at the bottom of the cylinder during charging, two people can simultaneously crush the crushed materials after the crushing doors are arranged at the two sides of the crushing table, the crushed materials below 8mm fall down from the screen 1 in the crushing process, the rest crushed materials on the table surface can fall down to the material collecting holes 10 and 16 as lifting doors for manual work at the two sides in the process of the discharging door 14, and if the crushed materials are crushed by a single person, and the other side door 16 is opened for working.

It will be apparent to those skilled in the art from this disclosure that various other changes and modifications can be made which are within the scope of the utility model as defined in the appended claims.

Claims (10)

1. The utility model provides a silicon material crushing table of lifting effect cost reduction, includes bottom support and casing, its characterized in that is provided with the casing backup pad between bottom support and the casing, bottom support includes supporting leg and fixed leg, every adjacent 2 set up 1 fixed leg between the supporting leg; the shell comprises a front baffle PP plate, a rear baffle PP plate, a left baffle PP plate, a right baffle PP plate and a top PP plate, side material loading openings are symmetrically formed in the front baffle PP plate and the rear baffle PP plate, side doors capable of sliding up and down by virtue of sliding rails are arranged on the side material loading openings, and side door fixing plates are further arranged on the side doors; an observation port is formed in the right-baffle PP plate, and an observation door capable of sliding up and down by means of a sliding rail is arranged on the observation port; the left-baffle PP plate is provided with a discharge port, the discharge port is provided with a discharge door capable of sliding left and right by virtue of a sliding rail, the lower side of the discharge door is provided with a material collecting port, and the lower side of the material collecting port is provided with a discharge cylinder; the shell supporting plate is provided with a screen with the same aperture, the aperture of the screen is 8mm, the length of the screen is 900+/-5 mm, and the width of the screen is 600+/-5 mm; the screen mesh is communicated with the side loading opening; the lower end of the screen is also provided with a crushed aggregates leakage port; the top PP plate is formed by splicing 3 rectangular PP plates.

2. The silicon material crushing table for improving efficiency and reducing cost according to claim 1, wherein the supporting legs and the fixing legs are vertically arranged.

3. The silicon material crushing table for improving efficiency and reducing cost according to claim 2, wherein the supporting legs and the fixing legs are connected by screws or welding.

4. A silicon material crushing table for improving efficiency and reducing cost according to claim 3, wherein the number of the supporting legs is 4, and the number of the fixing legs is 4.

5. The silicon material crushing table for improving efficiency and reducing cost according to claim 1, wherein the shell supporting plate and the supporting legs are connected by screws or welded.

6. The silicon material crushing table for improving efficiency and reducing cost according to claim 1, wherein the thicknesses of the front PP plate, the rear PP plate, the left PP plate and the right PP plate are 20mm, and the thickness of the top PP plate is 10mm.

7. The silicon material crushing table capable of improving efficiency and reducing cost according to claim 1, wherein a side door handle is arranged on the side door, an observation door handle is arranged on the observation door, and a discharging door handle is arranged on the discharging door.

8. The silicon material crushing table for improving efficiency and reducing cost according to claim 1, wherein the crushed aggregates leakage opening is arranged on the shell supporting plate.

9. The silicon material crushing table for improving efficiency and reducing cost according to claim 1, wherein the material collecting port is arranged on a left baffle PP plate of the shell.

10. The silicon material crushing table capable of improving efficiency and reducing cost according to claim 1, wherein the number of the discharging doors is 2, the discharging doors are arranged to slide oppositely, and the number of the discharging door handles is 2.