CN215827085U - Packaging line for polycrystalline silicon production - Google Patents

Abstract

The utility model discloses a packaging line for polycrystalline silicon production, which belongs to the technical field of polycrystalline silicon production and comprises a crusher, wherein a first station for weighing and bagging polycrystalline silicon is arranged below the outlet end of the crusher, a conveying line is arranged on the side edge of the first station, the conveying line comprises a horizontal conveying line I for primary sealing of the polycrystalline silicon, an inclined downward conveying line II for secondary sleeving of the polycrystalline silicon, a horizontal conveying line III for secondary sealing of the polycrystalline silicon and a horizontal conveying line IV for printing a polycrystalline silicon label, and the conveying line I, the conveying line II, the conveying line III and the conveying line IV are sequentially connected. The utility model has the advantages of reducing labor intensity, saving labor cost, saving equipment investment and the like.

Description

Packaging line for polycrystalline silicon production

Technical Field

The utility model relates to the technical field of polycrystalline silicon production, in particular to a packaging line for polycrystalline silicon production.

Background

The polycrystalline silicon is a basic raw material of a solar cell and an integrated circuit, the polycrystalline silicon is manufactured, an improved Siemens process production method is mainly applied, the final product of the production method is rod-shaped polycrystalline silicon deposited from a reduction furnace in a vapor phase mode, and the rod-shaped polycrystalline silicon is generally required to be crushed into lump polycrystalline silicon according to actual requirements. In the related art, a manual packaging line is adopted for silicon materials after mechanical crushing of the rod-shaped polycrystalline silicon. The capacity of 1 mechanical crusher is 3 tons/hour, 11 persons are needed for 3 tons/hour corresponding to a manual packaging line, the production and conveying capacity of the actual manual packaging line is more than 3 tons/hour, 22 persons are needed for the conventional production application under the production configuration of 2 packaging lines, and the equipment utilization rate and the manual labor efficiency are lower due to the configuration of the operation method and the operation mode of the existing industrial enterprises.

Disclosure of Invention

The utility model aims to solve the problems in the prior art and provides a packaging line for producing polycrystalline silicon, wherein a crusher, a first station and a conveying line are sequentially reduced, the labor intensity is reduced, and polycrystalline silicon is sequentially subjected to crushing operation on the crusher, packaging and weighing operation on the first station, first sealing operation on the conveying line I, secondary sheathing operation on the conveying line II, second sealing operation on the conveying line III and label printing operation on the conveying line IV. The utility model has the advantages of reducing labor intensity, saving labor cost, saving equipment investment and the like.

The purpose of the utility model is realized by the following technical scheme:

the utility model provides a polycrystalline silicon is baling line for production, includes the breaker, its characterized in that: the polycrystalline silicon packaging machine is characterized in that a first station used for weighing and bagging polycrystalline silicon is arranged below the outlet end of the crusher, a conveying line is arranged on the side edge of the first station, the conveying line comprises a horizontal conveying line I used for sealing polycrystalline silicon for the first time, an inclined downward conveying line II used for sleeving polycrystalline silicon for the second time, a horizontal conveying line III used for sealing polycrystalline silicon for the second time and a horizontal conveying line IV used for printing polycrystalline silicon labels, and the conveying line I, the conveying line II, the conveying line III and the conveying line IV are sequentially connected.

Preferably, the number of the crushers is two.

Preferably, the mounting platform of the first station is higher than the mounting platform of the horizontal conveying line I.

Preferably, the conveying line I comprises a horizontal belt conveyor and a sealing machine arranged on the horizontal belt conveyor.

Preferably, the conveying line II comprises an inclined downward belt conveyor and a secondary sleeving station arranged beside the inclined downward belt conveyor.

Preferably, the conveying line III comprises a horizontal belt conveyor and a sealing machine arranged on the horizontal belt conveyor.

Preferably, the conveying line IV includes a horizontal belt conveyor and a label printer provided on the horizontal belt conveyor.

Preferably, a second station for polycrystalline silicon boxing and labeling is arranged behind the conveying line IV.

Preferably, a third station for polycrystalline silicon stacking is further arranged at the rear end of the second station.

The working principle is as follows: the method comprises the following steps that rodlike polycrystalline silicon flows out from an outlet end after being crushed by a crusher, an operator at a first station loads silicon materials into a layer of bags, then another operator weights each bag of silicon materials to 10Kg +/-5 g, the bagged silicon materials are placed on a conveying line I, 4 operators are arranged at the first station and divided into two groups, one operator in each group is responsible for bagging, and the other operator is responsible for weighing; the two crushers are matched with the conveying line, and the packing line is used for weighing and bagging 8 operators; the conveying line I is provided with an operator, the operator takes the bagged silicon material on the horizontal belt conveyor to a sealing machine for carrying out first sealing operation, and then the bagged silicon material is placed back to the horizontal belt conveyor; conveying the bagged silicon materials to a conveying line II, wherein two operators are arranged on the conveying line II, and the operators perform secondary bagging on the bagged silicon materials which are obliquely downwards conveyed to the belt conveyor and then put back to the obliquely downwards belt conveyor; conveying the secondarily sleeved silicon material to a conveying line III, wherein the conveying line III is provided with 1 operator, the operator takes the secondarily sleeved silicon material to a sealing machine to perform secondary sealing operation, and then the secondarily sleeved silicon material is placed back to the horizontal belt conveyor; conveying the secondarily sealed silicon material to a conveying line IV, wherein 1 operator is arranged on the conveying line IV, a label printer on a horizontal belt conveyor prints labels on the secondarily sealed silicon material, the operator transfers the bagged silicon material with the printed labels to a second station, the second station is provided with 2 operators, one operator attaches a bag label to the bagged silicon material, and the other operator puts the silicon material with the bag label in a packing box; an operator is arranged at the third station, the operator at the third station takes the packing box from the second station to the third station, and the packing box is stacked, wound with a film and pasted with a box label; and finishing the packaging of the polycrystalline silicon. The two crushers correspond to one conveying line, the total number of people in a packaging line is 16, and 6 people are reduced compared with 2 packaging lines; meanwhile, the equipment investment is reduced.

The beneficial effects of this technical scheme are as follows:

according to the packaging line for producing the polycrystalline silicon, the crusher, the first station and the conveying line are sequentially reduced, the labor intensity is reduced, the crushing operation of the polycrystalline silicon is sequentially carried out on the crusher, the packaging and weighing operation is carried out on the first station, the first sealing operation is carried out on the conveying line I, the secondary sheathing operation is carried out on the conveying line II, the secondary sealing operation is carried out on the conveying line III, the label printing operation is carried out on the conveying line IV, the boxing and labeling operation is carried out on the second station, and the stacking operation is carried out on the third station. The utility model has the advantages of reducing labor intensity, saving labor cost, saving equipment investment and the like.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a top view of another embodiment of the present invention;

wherein: 1. a crusher; 2. a first station; 3. conveying lines I; 4. a conveying line II; 5. conveying a line III; 6. conveying a line IV; 7. a belt conveyor; 8. a sealing machine; 9. secondary sleeving stations; 10. a label printer; 11. a second station; 12. and a third station.

Detailed Description

The present invention will be described in further detail with reference to examples, but the embodiments of the present invention are not limited thereto.

Example 1

As a most basic embodiment of the utility model, the embodiment discloses a packaging line for polysilicon production, which comprises a crusher 1, a first station 2 for weighing and bagging polysilicon is arranged below the outlet end of the crusher 1, a conveying line is arranged on the side of the first station 2, the conveying line comprises a horizontal conveying line I3 for primary sealing of polysilicon, an inclined downward conveying line II4 for secondary sheathing of polysilicon, a horizontal conveying line III5 for secondary sealing of polysilicon and a horizontal conveying line IV6 for printing of polysilicon labels, and the conveying line I3, the conveying line II4, the conveying line III5 and the conveying line IV6 are connected in sequence.

Example 2

As a preferred embodiment of the utility model, the embodiment discloses a packaging line for polysilicon production, which comprises a crusher 1, wherein a first station 2 for weighing and bagging polysilicon is arranged below the outlet end of the crusher 1, a conveying line is arranged on the side of the first station 2, the conveying line comprises a horizontal conveying line I3 for first sealing of polysilicon, an inclined downward conveying line II4 for secondary packaging of polysilicon, a horizontal conveying line III5 for secondary sealing of polysilicon and a horizontal conveying line IV6 for printing of polysilicon labels, and the conveying line I3, the conveying line II4, the conveying line III5 and the conveying line IV6 are connected in sequence.

Preferably, there are two crushers 1.

Preferably, the mounting platform of the first station 2 is higher than that of the horizontal conveying line I3.

Preferably, the conveying line I3 includes a horizontal belt conveyor 7 and a capper 8 disposed on the horizontal belt conveyor 7.

Preferably, the conveying line II4 comprises an inclined downward belt conveyor 7 and a secondary sheathing station 9 arranged beside the inclined downward belt conveyor 7.

Preferably, the conveying line III5 includes a horizontal belt conveyor 7 and a capper 8 disposed on the horizontal belt conveyor 7.

Preferably, the conveying line IV6 includes a horizontal belt conveyor 7 and a label printer 10 provided on the horizontal belt conveyor 7.

Preferably, a second station 11 for polycrystalline silicon boxing and labeling is arranged behind the conveying line IV 6.

Preferably, a third station 12 for polysilicon stacking is further arranged at the rear end of the second station 11.

The working principle is as follows: the method comprises the following steps that rod-shaped polycrystalline silicon flows out from an outlet end after being crushed by a crusher 1, an operator at a first station 2 loads silicon materials into a layer of bags, then another operator weights each bag of silicon materials to 10Kg +/-5 g, the bagged silicon materials are placed on a conveying line I3, the first station 2 is provided with 4 operators which are divided into two groups, one operator in each group is responsible for bagging, and the other operator is responsible for weighing; the two crushers 1 are matched with a conveying line, and the packing line is used for weighing and bagging 8 operators; the conveying line I3 is provided with an operator, the operator takes the bagged silicon material on the horizontal belt conveyor 7 to the sealing machine 8 for carrying out the first sealing operation, and then the bagged silicon material is put back on the horizontal belt conveyor 7; the bagged silicon materials are conveyed to a conveying line II4, two operators are arranged on the conveying line II4, the operators bag the bagged silicon materials which are obliquely downward on the belt conveyor 7 for the second time, and then the bagged silicon materials are placed back on the obliquely downward belt conveyor 7; conveying the secondarily sleeved silicon material to a conveying line III5, wherein the conveying line III5 is provided with 1 operator, the operator takes the secondarily sleeved silicon material to a sealing machine 8 to perform secondary sealing operation, and then the secondarily sleeved silicon material is placed back to the horizontal belt conveyor 7; conveying the secondarily sealed silicon material to a conveying line IV6, arranging 1-position operators on the conveying line IV6, carrying out label printing on the secondarily sealed silicon material by using a label printer 10 on a horizontal belt conveyor 7, transferring the bagged silicon material subjected to label printing to a second station 11 by using the operators, arranging 2-position operators on the second station 11, attaching a bag label to the bagged silicon material by using one operator, and placing the silicon material attached with the bag label into a packaging box by using the other operator; an operator is arranged at the third station 12, the operator at the third station 12 takes the packing box from the second station 11 to the third station 12, and the packing box is stacked, wound with a film and pasted with a box label; and finishing the packaging of the polycrystalline silicon. The two crushers 1 correspond to one conveying line, the total number of people in a packaging line is 16, and the number of people is reduced by 6 compared with 2 packaging lines; meanwhile, the equipment investment is reduced.

The beneficial effects of this technical scheme are as follows:

according to the packaging line for producing the polycrystalline silicon, the crusher 1, the first station 2 and the conveying line are sequentially reduced, the labor intensity is reduced, the crushing operation of the polycrystalline silicon is sequentially carried out on the crusher 1, the packaging and weighing operation is carried out on the first station 2, the first sealing operation is carried out on the conveying line I3, the secondary sleeving operation is carried out on the conveying line II4, the second sealing operation is carried out on the conveying line III5, the label printing operation is carried out on the conveying line IV6, the boxing and labeling operation is carried out on the second station 11, and the stacking operation is carried out on the third station 12. The utility model has the advantages of reducing labor intensity, saving labor cost, saving equipment investment and the like.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and all simple modifications and equivalent variations of the above embodiments according to the technical spirit of the present invention are included in the scope of the present invention.

Claims (9)

1. The utility model provides a polycrystalline silicon is baling line for production, includes breaker (1), its characterized in that: the utility model discloses a polycrystalline silicon label printing machine, including breaker (1) exit end below be provided with be used for polycrystalline silicon to weigh and bagged first station (2), first station (2) side is provided with the transfer chain, the transfer chain is including horizontal transfer chain I (3) that are used for polycrystalline silicon to seal for the first time, the slope that is used for polycrystalline silicon secondary suit down transfer chain II (4), horizontal transfer chain III (5) that are used for polycrystalline silicon to seal for the second time and horizontal transfer chain IV (6) that are used for polycrystalline silicon label printing, transfer chain I (3), transfer chain II (4), transfer chain III (5) and transfer chain IV (6) link to each other in proper order.

2. The packaging line for producing polycrystalline silicon according to claim 1, wherein: the number of the crushers (1) is two.

3. The polycrystalline silicon production packaging line according to claim 2, wherein: and the mounting platform of the first station (2) is higher than that of the horizontal conveying line I (3).

4. The polycrystalline silicon production packaging line according to claim 3, wherein: the conveying line I (3) comprises a horizontal belt conveyor (7) and a sealing machine (8) arranged on the horizontal belt conveyor (7).

5. The polycrystalline silicon production packaging line according to claim 4, wherein: and the conveying line II (4) comprises an inclined downward belt conveyor (7) and a secondary sleeving station (9) arranged beside the inclined downward belt conveyor (7).

6. The polycrystalline silicon production packaging line according to claim 5, wherein: and the conveying line III (5) comprises a horizontal belt conveyor (7) and a sealing machine (8) arranged on the horizontal belt conveyor (7).

7. The packaging line for producing polycrystalline silicon according to claim 6, wherein: the conveyor line IV (6) comprises a horizontal belt conveyor (7) and a label printer (10) arranged on the horizontal belt conveyor (7).

8. The polycrystalline silicon production packaging line according to claim 7, wherein: and a second station (11) for polycrystalline silicon boxing and labeling is arranged behind the conveying line IV (6).

9. The polycrystalline silicon production packaging line according to claim 8, wherein: the rear end of the second station (11) is also provided with a third station (12) for polycrystalline silicon stacking.

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