CN201932537U - Silicon material conveying device and storage tank - Google Patents

Abstract

The utility model discloses a silicon material storage tank which at least comprises a base and an upper cover arranged on the base. A containing space for containing silicon material is arranged between the base and the upper cover and comprises a first half slot and a second slot which correspond to each other; the first half slot is arranged on the base; the second half slot is arranged on the upper cover; and bodies of the first half slot and the second slot are polyurethane molded foam slot bodies. In the silicon material storage tank, the containing space formed between the base and the upper cover is used for containing the silicon material, and the shape of the containing space is mated with that of the silicon material, thereby preventing the silicon material from being polluted by contact or air diffusion. The first half slot and the second half slot are both the polyurethane molded foam slot bodies, and if a plurality of silicon materials are arranged in one layer, a plurality of containing spaces can be arranged correspondingly. Due to the separation function of the walls of the slots, the material can be prevented from being damaged due to vibration in the process of transporting and transferring. The utility model also discloses a conveying device with the silicon material storage tank.

Description

Silicon materials conveying arrangement and storage bin

Technical field

The utility model relates to silicon materials transportation and storing technology field, more particularly, relates to a kind of silicon materials conveying arrangement and storage bin.

Background technology

Silicon is the highest solid element of abundance in the earth's crust, and its content is about 1/4th of the earth's crust, but does not have monomer silicon at occurring in nature, is oxide or silicate state more.Silicon materials are pressed crystal structure and are formed, can be divided into polysilicon and monocrystalline silicon, polycrystalline silicon material is to be raw material reaches certain purity after the series of physical chemical reaction is purified silicon materials with the metallic silicon, it can directly apply to the semiconductor element manufacturing, simultaneously, it can be used as the raw material of monocrystalline silicon preparation again, and polycrystalline silicon material production is the important step that silicon materials are produced.

In the process of silicon core preparation, after drawing and finish, the silicon core need to use the specific device that contains to be transported to silicon core machine up operation, the purpose of machine up is supporting in order to make the silicon core satisfy reducing furnace graphite electrode, mainly be the processing of profile specification, after machine up operation silicon core is handled through cutting, grinding core etc., deliver to silicon core matting and handle, deliver to the reduction plant after cleaning is finished and use for reduction furnace.The used masterbatch of drawing silicon core is that diameter is the silicon rod about 80mm, also need be transported to the Product organization workshop after this material output from the reduction plant, carry out machine up to silicon rod in dressing floor, deliver to silicon rod after machining and clean, it is stand-by that the silicon rod after the cleaning is delivered to material storage room.Silicon core overlap joint crossbeam is that the silicon rod with the reduction furnace output cuts, and the further machine up of laggard row is finished in cutting, sends into the cleaning room subsequently, and through after the cleaning of cleaning apparatus, sending into material, to store the room stand-by.

Above-mentioned silicon materials need use specific device to contain and use transportation means repeatedly to transport between the room of the different lustration classes of each operation in this whole process, the silicon core is elongated, crossbeam is short carefully, silicon rod is heavy and length is not easy to contain and transport, to consider also in addition to prevent that silicon materials from introducing the contaminating impurity silicon materials in the process of depositing, transporting, and then the quality of silicon materials is exerted an influence.

So method and the device thereof of selecting scientific and reasonable silicon materials to deposit, transport are necessary.Silicon core and crossbeam plastic bag packaging that prior art normally draws out silicon core stove, one bag several are positioned in the corrosion-resistant steel dolly, in this way, the pack of silicon core takes time and effort, and,, will cause significant wastage if do not reclaim with the plastic bag of crossing, also need through cleaning link as if reclaiming, efficient is low and owing to increased the also increase greatly of cleaning link expense.Silicon rod adopts stainless steel trough body to deposit and transport, and introduces metallic pollution easily, and if adopt plastic bag packaging, also because plastic bag is not easy to recycle, causes cost higher.Because silicon materials are crisp firmly, fracture or broken very easily takes place if vibrate, collide in the packing that mixes simultaneously.

The utility model content

In view of this, the utility model provides a kind of silicon materials conveying arrangement and storage bin, is subjected to owing to the pollution that contacts or the air diffusion causes to avoid silicon materials, and effectively prevents to damage owing to shaking the material that causes in transportation, transfer process.

For achieving the above object, the utility model provides following technical scheme:

A kind of silicon materials storage bin, storage bin comprises base and the loam cake that places on the described base at least, be formed with the spatial accommodation that holds described silicon materials between described base and the described loam cake, this spatial accommodation comprises and mutually coorespondingly is positioned at the first half grooves on the described base and is positioned at the second half grooves that cover on described, and the cell body of described the first half grooves and described the second half grooves is polyurethane moulded foam cell body.

Preferably, in above-mentioned silicon materials storage bin, the bottom of described loam cake is provided with positioning key, and the relevant position on the top of described base is provided with the positioning groove adaptive with described positioning key;

Or the bottom of described loam cake is provided with positioning groove, and the relevant position on the top of described base is provided with the positioning key adaptive with described positioning groove.

Preferably, in above-mentioned silicon materials storage bin, be equipped with on described loam cake and the described base and be convenient to lift the handle of putting.

Preferably, in above-mentioned silicon materials storage bin, also comprise several middle reservoirs that are arranged between described loam cake and the base, between the middle reservoir of top layer and described loam cake, be formed with the spatial accommodation that holds described silicon materials, between the middle reservoir of bottom and described base, be formed with the spatial accommodation that holds described silicon materials, in the middle of top layer, be formed with the spatial accommodation that holds described silicon materials respectively between the reservoir in the middle of middle the reservoir between the reservoir and its upper strata centre reservoir and the lower floor in the middle of reservoir and the bottom.

Preferably, in above-mentioned silicon materials storage bin, be equipped with on the described middle reservoir and be convenient to lift the handle of putting.

Preferably, in above-mentioned silicon materials storage bin, the top that is positioned at the middle reservoir of top layer is provided with and described loam cake locating slot at bottom or adaptive positioning key or the positioning groove of positioning key;

The bottom that is positioned at the middle reservoir of bottom is provided with positioning groove or adaptive positioning key or the positioning groove of positioning key with described base top;

In the middle of the top layer in the middle of reservoir and the bottom top of middle the reservoir between the reservoir be provided with its upper strata in the middle of positioning groove or adaptive positioning key or the positioning groove of positioning key on the reservoir, the bottom be provided with its lower floor in the middle of positioning groove or adaptive positioning key or the positioning groove of positioning key on the reservoir.

Preferably, in above-mentioned silicon materials storage bin, described spatial accommodation be specially with described silicon core, crossbeam and silicon rod in one or more adaptive spatial accommodations.

Preferably, in above-mentioned silicon materials storage bin, described loam cake is the polypropylene loam cake, and described base is the polypropylene base, and described middle reservoir is a reservoir in the middle of the polypropylene.

Preferably, in above-mentioned silicon materials storage bin, also comprise the polyacrylic film that places the described silicon materials of parcel between described the first half grooves and described the second half grooves.

A kind of silicon materials conveying arrangement comprises the corrosion-resistant steel travelling bogie, and is arranged on the aforesaid silicon materials storage bin on the described corrosion-resistant steel travelling bogie.

From above-mentioned technical scheme as can be seen, compare with prior art, the utility model embodiment adopts the method for physical isolation, foam damping to realize low cost packing, the transportation of silicon materials and stores.Load silicon materials by the spatial accommodation that forms between base and the loam cake, the shape of this spatial accommodation and silicon materials is adaptive, this spatial accommodation is after being fastened by loam cake and base, the first half grooves on it and the second half grooves form, thereby can avoid silicon materials to be subjected to because the pollution that contact or air diffusion cause.Because the cell body of the first half grooves and the second half grooves is polyurethane moulded foam cell body, if in one deck, place a plurality of silicon materials, so can the corresponding a plurality of spatial accommodations of corresponding setting, by the iris action of cell wall, so can effectively prevent in transportation, transfer process owing to shake, collide the material damage that causes.

Description of drawings

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, to do to introduce simply to the accompanying drawing of required use in embodiment or the description of the Prior Art below, apparently, accompanying drawing in describing below only is embodiment more of the present utility model, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.

The structural representation of the silicon materials conveying arrangement that Fig. 1 provides for the utility model embodiment;

The structural representation of the travelling bogie that Fig. 2 provides for the utility model embodiment;

Fig. 3 was provided for the utility model embodiment being used to of providing by the decomposition texture scheme drawing of the silicon materials storage bin of silicon core;

Fig. 4 was provided for the utility model embodiment being used to of providing by the decomposition texture scheme drawing of the silicon materials storage bin of crossbeam;

Fig. 5 was provided for the utility model embodiment being used to of providing by the decomposition texture scheme drawing of the silicon materials storage bin of silicon rod;

Fig. 6 was provided for the utility model embodiment being used to of providing by the plan structure scheme drawing of the middle reservoir of silicon core;

Fig. 7 was provided for the utility model embodiment being used to of providing by the plan structure scheme drawing of the middle reservoir of crossbeam;

Fig. 8 was provided for the utility model embodiment being used to of providing by the plan structure scheme drawing of the middle reservoir of silicon rod;

Fig. 9 was provided for the utility model embodiment being used to of providing by the plan structure scheme drawing of the middle reservoir of crossbeam and silicon core;

Figure 10 was provided for the utility model embodiment being used to of providing by the plan structure scheme drawing of the middle reservoir of silicon rod, crossbeam and silicon core.

The specific embodiment

The utility model discloses a kind of silicon materials conveying arrangement and storage bin, be subjected to owing to the pollution that contacts or the air diffusion causes, and effectively prevent from transportation, transfer process, to damage owing to shaking the material that causes to avoid silicon materials.

Below in conjunction with the accompanying drawing among the utility model embodiment, the technical scheme among the utility model embodiment is clearly and completely described, obviously, described embodiment only is the utility model part embodiment, rather than whole embodiment.Based on the embodiment in the utility model, those of ordinary skills are not making the every other embodiment that is obtained under the creative work prerequisite, all belong to the scope of the utility model protection.

See also Fig. 3-Fig. 5, Fig. 3 was provided for the utility model embodiment being used to of providing by the decomposition texture scheme drawing of the silicon materials storage bin of silicon core, Fig. 4 places the decomposition texture scheme drawing of the silicon materials storage bin of crossbeam for the utility model embodiment being used to of providing, and Fig. 5 was provided for the utility model embodiment being used to of providing by the decomposition texture scheme drawing of the silicon materials storage bin of silicon rod.

The silicon materials storage bin that the utility model provides, storage bin comprises base and the loam cake that places on the described base at least, be formed with the spatial accommodation that holds described silicon materials between described base and the described loam cake, this spatial accommodation comprises and mutually coorespondingly is positioned at the first half grooves on the described base and is positioned at the second half grooves that cover on described, and the cell body of described the first half grooves and described the second half grooves is polyurethane moulded foam cell body.Promptly after loam cake and base fasten, form this spatial accommodation by the first half grooves and the second half grooves.

Wherein silicon materials generally comprise silicon core, crossbeam and silicon rod.As shown in Figure 1, the silicon materials storage bin that is used to load the silicon core comprise at least base 103 and and place loam cake 101 on the described base 103, be formed with the spatial accommodation that holds described silicon materials between described base 103 and the described loam cake 101, this spatial accommodation comprises and mutually coorespondingly is positioned at the first half grooves on the described base 103 and is positioned at the second half grooves on the described loam cake 101, promptly after loam cake and base fasten, form this spatial accommodation by the first half grooves and the second half grooves.The cell body of described the first half grooves and described the second half grooves is polyurethane moulded foam cell body.

As shown in Figure 4, the silicon materials storage bin that is used to load crossbeam comprise at least base 203 and and place loam cake 201 on the described base 203, be formed with the spatial accommodation that holds described silicon materials between described base 203 and the described loam cake 201, this spatial accommodation comprises and mutually coorespondingly is positioned at the first half grooves on the described base 203 and is positioned at the second half grooves on the described loam cake 201, promptly after loam cake and base fasten, form this spatial accommodation by the first half grooves and the second half grooves.The cell body of described the first half grooves and described the second half grooves is polyurethane moulded foam cell body.

As shown in Figure 5, the silicon materials storage bin that is used to load silicon rod comprise at least base 303 and and place loam cake 301 on the described base 303, be formed with the spatial accommodation that holds described silicon materials between described base 303 and the described loam cake 301, this spatial accommodation comprises and mutually coorespondingly is positioned at the first half grooves on the described base 303 and is positioned at the second half grooves on the described loam cake 301, promptly after loam cake and base fasten, form this spatial accommodation by the first half grooves and the second half grooves.The cell body of described the first half grooves and described the second half grooves is polyurethane moulded foam cell body.

The method of physical isolation, foam damping that adopts the utility model embodiment has realized the low cost packing of silicon materials and has stored.Load silicon materials by the spatial accommodation that forms between base and the loam cake, the shape of this spatial accommodation and silicon materials is adaptive, this spatial accommodation is after being fastened by loam cake and base, the first half grooves on it and the second half grooves form, thereby can avoid silicon materials to be subjected to because the pollution that contact or air diffusion cause.Because the cell body of the first half grooves and the second half grooves is polyurethane moulded foam cell body, if in one deck, place a plurality of silicon materials, so can the corresponding a plurality of spatial accommodations of corresponding setting, by the iris action of cell wall, so can effectively prevent in transportation, transfer process because the material that vibrations cause damage.

The bottom of loam cake is provided with positioning key 7, the relevant position on the top of described base is provided with the positioning groove 11 adaptive with described positioning key 7, or the bottom of described loam cake is provided with positioning groove 11, and the relevant position on the top of described base is provided with the positioning key 7 adaptive with described positioning groove 11.By on loam cake and base one, positioning key 7 being set, the positioning groove 11 adaptive with this positioning key 7 is set, quick assembling and the location that can realize loam cake and base on another.Improve the speed of loading of silicon materials.

Be equipped with on loam cake and the described base and be convenient to lift the handle of putting 6, preferably be equipped with around loam cake and described base and be convenient to lift the handle of putting 6, loam cake and base are rectangle, are equipped with handle 6 on four sides of this rectangle.

By shown in Figure 3, the silicon materials storage bin that is used to load the silicon core also comprises and is arranged on reservoirs 102 in the middle of between described loam cake 101 and the base 103 several.In the disclosed embodiment of Fig. 3, the quantity of middle reservoir 102 is 1, and it will be understood by those skilled in the art that can also be for a plurality of.Wherein, between the middle reservoir of top layer and described loam cake, be formed with the spatial accommodation that holds described silicon core, between the middle reservoir of bottom and described base 103, be formed with the spatial accommodation that holds described silicon core, be formed with the spatial accommodation that holds described silicon core respectively between the reservoir in the middle of reservoir and the lower floor in the middle of the middle reservoir between the middle reservoir of the middle reservoir of top layer and bottom and its upper strata.By present embodiment as can be known, can form the spatial accommodation that holds the silicon core between adjacent two in middle reservoir, loam cake and the base.

By shown in Figure 4, the silicon materials storage bin that is used to load crossbeam also comprises and is arranged on reservoirs 202 in the middle of between described loam cake 201 and the base 203 several.In the disclosed embodiment of Fig. 4, the quantity of middle reservoir 202 is 1, and it will be understood by those skilled in the art that can also be for a plurality of.Wherein, between the middle reservoir of top layer and described loam cake, be formed with the spatial accommodation that holds described crossbeam, between the middle reservoir of bottom and described base 203, be formed with the spatial accommodation that holds described crossbeam, be formed with the spatial accommodation that holds described crossbeam respectively between the reservoir in the middle of reservoir and the lower floor in the middle of the middle reservoir between the middle reservoir of the middle reservoir of top layer and bottom and its upper strata.By present embodiment as can be known, can form the spatial accommodation that holds crossbeam between adjacent two in middle reservoir, loam cake and the base.

By shown in Figure 5, the silicon materials storage bin that is used to load silicon rod also comprises and is arranged on reservoirs 302 in the middle of between described loam cake 301 and the base 303 several.In the disclosed embodiment of Fig. 5, the quantity of middle reservoir 302 is 1, and it will be understood by those skilled in the art that can also be for a plurality of.Wherein, between the middle reservoir of top layer and described loam cake, be formed with the spatial accommodation that holds described silicon rod, between the middle reservoir of bottom and described base 303, be formed with the spatial accommodation that holds described silicon rod, be formed with the spatial accommodation that holds described silicon rod respectively between the reservoir in the middle of reservoir and the lower floor in the middle of the middle reservoir between the middle reservoir of the middle reservoir of top layer and bottom and its upper strata.By present embodiment as can be known, can form the spatial accommodation that holds silicon rod between adjacent two in middle reservoir, loam cake and the base.

In sum, the silicon materials storage bin that the utility model provides can also comprise several middle reservoirs that are arranged between described loam cake and the base, between the middle reservoir of top layer and described loam cake, be formed with the spatial accommodation that holds described silicon materials, between the middle reservoir of bottom and described base, be formed with the spatial accommodation that holds described silicon materials, in the middle of top layer, be formed with the spatial accommodation that holds described silicon materials respectively between the reservoir in the middle of middle the reservoir between the reservoir and its upper strata centre reservoir and the lower floor in the middle of reservoir and the bottom.

Accordingly, be equipped with on the middle reservoir and be convenient to lift the handle of putting 6, preferably being equipped with all around of reservoir is convenient to lift the handle of putting 6 in the middle of each layer, and middle reservoir is a rectangle, is equipped with handle 6 on four sides of this rectangle.

The top that is positioned at the middle reservoir of top layer is provided with and described loam cake locating slot at bottom or adaptive positioning key 7 or the positioning groove 11 of positioning key; The bottom that is positioned at the middle reservoir of bottom is provided with positioning key 7 or the positioning groove 11 adaptive with the positioning groove 11 on described base top or positioning key 7; In the middle of the top layer in the middle of reservoir and the bottom top of middle the reservoir between the reservoir be provided with its upper strata in the middle of adaptive positioning key 7 or the positioning groove 11 of positioning groove 11 on the reservoir or positioning key 7, the bottom be provided with its lower floor in the middle of adaptive positioning key 7 or the positioning groove 11 of positioning groove 11 on the reservoir or positioning key 7.Thereby can realize quick assembling and location between loam cake, middle reservoir and the base, improve the speed of loading of silicon materials.

See also Fig. 6-Figure 10, Fig. 6 was provided for the utility model embodiment being used to of providing by the plan structure scheme drawing of the middle reservoir of silicon core; Fig. 7 was provided for the utility model embodiment being used to of providing by the plan structure scheme drawing of the middle reservoir of crossbeam; Fig. 8 was provided for the utility model embodiment being used to of providing by the plan structure scheme drawing of the middle reservoir of silicon rod; Fig. 9 was provided for the utility model embodiment being used to of providing by the plan structure scheme drawing of the middle reservoir of crossbeam and silicon core; Figure 10 was provided for the utility model embodiment being used to of providing by the plan structure scheme drawing of the middle reservoir of silicon rod, crossbeam and silicon core.

As shown in Figure 6, can only offer silicon core half groove 9 that holds the silicon core on the middle reservoir, also can only offer crossbeam half groove 10 that holds crossbeam as shown in Figure 7, also can only offer silicon rod half groove 8 that holds silicon rod as shown in Figure 8, not only offer crossbeam half groove 10 but also offer silicon core half groove 9 on the reservoir in the middle of same that can also be as shown in Figure 9, not only offer crossbeam half groove 10 and silicon core half groove 9 on the reservoir in the middle of same that also can be as shown in figure 10 but also offered silicon rod half groove 8.Not only be confined to extend on loam cake and the base on the middle reservoir about crossbeam half groove 10, silicon core half groove 9 and silicon rod half groove 8.

In sum, spatial accommodation be specially with described silicon core, crossbeam and silicon rod in one or more adaptive spatial accommodations.The material shape that can make loam cake, middle reservoir, base place is identical, and the silicon materials shape of placing with layer is also identical.The material shape difference that loam cake, middle reservoir, base are placed, but the silicon materials shape of placing with layer is identical, and assembly set is different owing to adopt different middle reservoir structure combinations.The material shape difference that loam cake, middle reservoir, base are placed, and also inequality with the silicon materials shape of layer placement, assembly set is different owing to adopt different middle reservoir structure combinations.

Loam cake, base and middle reservoir that the utility model preferably adopts PP (polypropylene) plate to make.The silicon materials storage bin that the utility model provides can also comprise the PP plastic sheeting that places the described silicon materials of parcel between described the first half grooves and described the second half grooves.

See also Fig. 1 and Fig. 2, the structural representation of the travelling bogie that the structural representation of the silicon materials conveying arrangement that Fig. 1 provides for the utility model embodiment, Fig. 2 provide for the utility model embodiment.

The silicon materials conveying arrangement that the utility model provides comprises the corrosion-resistant steel travelling bogie, and is arranged on the aforesaid silicon materials storage bin on the described corrosion-resistant steel travelling bogie.Rust steel travelling bogie comprises base plate, is arranged on the roller 4 of base plate bottom, and the handle 5 that links to each other with base plate.The silicon materials storage bin can comprise loam cake 1, base 3 and be arranged on loam cake 1 and base 3 between middle reservoir 2.

The purpose of this utility model is for the transportation that solves used silicon materials in the production of polysilicon technology, deposits the problem of inconvenience, the utility model can avoid silicon materials to be subjected to because contact or air spread the pollution that causes, and has effectively prevented in transportation, transfer process because the material that vibrations cause damage.The method of physical isolation, foam damping that adopts the utility model has realized low cost packing, the transportation of silicon materials and has stored.This device is the stratiform placement platform (loam cake of being made by PP sheet material, middle reservoir, base), the dolly that stainless steel is made, the PP plastic sheeting is formed and polyurethane moulded foam cell body, silicon materials can directly be positioned over it in stratiform flat-bed foam cell body before not cleaning, silicon materials are through processing, after the cleaning, on stratiform flat-bed cell body, place layer of plastic film, silicon materials are put into the cell body cell body that constituted of the corresponding polyurethane moulded foam of size with it, cover one deck PP plastic sheeting at the silicon materials upper surface, realize the silicon materials of placing in the cell body that polyurethane moulded foam constituted are wrapped up with up and down two-layer PP plastic sheeting, the stratiform flat-bed self gravitation that utilizes stored silicon materials own wt and PP plate to make is realized wrapping up the air exhaustion in gap, and stratiform platform multiple-level stack is positioned on the dolly in each inter process transportation.

The utility model is owing to adopted the cell body transportation of polyurethane moulded foam material, avoided the introducing of metallic impurity, the parcel mode of two-layer PP plastic sheeting is packed about adopting, effectively avoided staining of impurity, pack simple and easy simultaneously, it is convenient to reclaim, the mode of multiple-level stack, increased the once transportation volume of transportation, simultaneously, rely on every layer own wt to realize sealed package, reduced the risk of material contamination silicon materials, owing to adopted discrete cell body to place, avoided because the risk of fracture takes place in the silicon materials collision.

Each embodiment adopts the mode of going forward one by one to describe in this specification sheets, and what each embodiment stressed all is and the difference of other embodiment that identical similar part is mutually referring to getting final product between each embodiment.

To the above-mentioned explanation of the disclosed embodiments, make this area professional and technical personnel can realize or use the utility model.Multiple modification to these embodiment will be conspicuous concerning those skilled in the art, and defined herein General Principle can realize under the situation that does not break away from spirit or scope of the present utility model in other embodiments.Therefore, the utility model will can not be restricted to these embodiment shown in this article, but will meet and principle disclosed herein and features of novelty the wideest corresponding to scope.

Claims (10)

1. silicon materials storage bin, it is characterized in that, storage bin comprises base and the loam cake that places on the described base at least, be formed with the spatial accommodation that holds described silicon materials between described base and the described loam cake, this spatial accommodation comprises and mutually coorespondingly is positioned at the first half grooves on the described base and is positioned at the second half grooves that cover on described, and the cell body of described the first half grooves and described the second half grooves is polyurethane moulded foam cell body.

2. silicon materials storage bin as claimed in claim 1 is characterized in that the bottom of described loam cake is provided with positioning key, and the relevant position on the top of described base is provided with the positioning groove adaptive with described positioning key;

Or the bottom of described loam cake is provided with positioning groove, and the relevant position on the top of described base is provided with the positioning key adaptive with described positioning groove.

3. silicon materials storage bin as claimed in claim 1 is characterized in that, is equipped with on described loam cake and the described base and is convenient to lift the handle of putting.

4. silicon materials storage bin as claimed in claim 1, it is characterized in that, also comprise several middle reservoirs that are arranged between described loam cake and the base, between the middle reservoir of top layer and described loam cake, be formed with the spatial accommodation that holds described silicon materials, between the middle reservoir of bottom and described base, be formed with the spatial accommodation that holds described silicon materials, in the middle of top layer, be formed with the spatial accommodation that holds described silicon materials respectively between the reservoir in the middle of middle the reservoir between the reservoir and its upper strata centre reservoir and the lower floor in the middle of reservoir and the bottom.

5. silicon materials storage bin as claimed in claim 4 is characterized in that, is equipped with on the described middle reservoir and is convenient to lift the handle of putting.

6. silicon materials storage bin as claimed in claim 4 is characterized in that, the top that is positioned at the middle reservoir of top layer is provided with and described loam cake locating slot at bottom or adaptive positioning key or the positioning groove of positioning key;

The bottom that is positioned at the middle reservoir of bottom is provided with positioning groove or adaptive positioning key or the positioning groove of positioning key with described base top;

In the middle of the top layer in the middle of reservoir and the bottom top of middle the reservoir between the reservoir be provided with its upper strata in the middle of positioning groove or adaptive positioning key or the positioning groove of positioning key on the reservoir, the bottom be provided with its lower floor in the middle of positioning groove or adaptive positioning key or the positioning groove of positioning key on the reservoir.

7. silicon materials storage bin as claimed in claim 4 is characterized in that, described spatial accommodation be specially with described silicon core, crossbeam and silicon rod in one or more adaptive spatial accommodations.

8. silicon materials storage bin as claimed in claim 4 is characterized in that, described loam cake is the polypropylene loam cake, and described base is the polypropylene base, and described middle reservoir is a reservoir in the middle of the polypropylene.

9. silicon materials storage bin as claimed in claim 4 is characterized in that, also comprise the polyacrylic film that places the described silicon materials of parcel between described the first half grooves and described the second half grooves.

10. a silicon materials conveying arrangement is characterized in that, comprises the corrosion-resistant steel travelling bogie, and be arranged on the described corrosion-resistant steel travelling bogie as each described silicon materials storage bin of claim 1-9.

Images