CN202189819U - Solar silicon chip storage disc - Google Patents

Abstract

The utility model discloses a solar silicon chip storage disc, which comprises a plurality of flat-bottom grooves which are arranged in array, wherein the flat-bottom grooves are respectively used for placing solar silicon chips, a pair of transversal first stoppers and a pairs of longitudinal second stoppers are placed at the periphery of each flat-bottom groove, the first stoppers and the second stoppers are respectively arranged at intervals, and a through hole is respectively formed in each second stopper. According to the solar silicon chip disc disclosed by the utility model, the flat-bottom grooves are used for placing the solar silicon chips, the stoppers which are arranged at the peripheries of the flat-bottom grooves can prevent the solar silicon chips from sliding, and the through holes in the stoppers can be used as pipelines for the solar silicon chip storage disc to dehumidify, so that the silicon chips in the solar silicon chip storage disc can be dry.

Description

A kind of solar silicon wafers tray

Technical field

The utility model relates to solar silicon wafers processing device, is specifically related to a kind of solar silicon wafers tray.

Background technology

Along with the development of scientific and technological industry, have the solar silicon wafers that a precision is housed in many electronic products inside, and solar silicon wafers can be placed in the dish solar silicon wafers so that transportation after producing the encapsulation completion.

Existing solar silicon wafers tray such as Fig. 1, shown in Figure 2; Solar silicon wafers tray A has a plurality of solar silicon wafers that are arranged and deposits shallow bid A1; The periphery of depositing shallow bid A1 at solar silicon wafers is provided with four block A2; Solar silicon wafers X is placed on and deposits in the shallow bid A1 and receive that side bumper piece A2's backward is spacing; And offer through hole A3 on the shallow bid A1 depositing, the moisture that through hole A3 is used in the solar silicon wafers tray A is discharged, and keeps being housed in the drying of the solar silicon wafers X in the solar silicon wafers tray A.Yet, have a plurality of tin ball X1 in the bottom side of solar silicon wafers X, when leaving in, solar silicon wafers X puts shallow bid A1, and said tin ball X1 can touch the through hole A3 that deposits shallow bid A1, and the edge of through hole A3 just probably produces scratch or damage to tin ball X1.

Another kind of tray commonly used is as shown in Figure 3; The storage part of sheet tray B is the funnel-form that is made up of four inclined-plane B1, and tray also has a through hole B2, so not only has the effect of ventilation; And solar silicon wafers X can not touch the edge of through hole B2 yet, reduces the situation generation that scratch damages.Yet; Because tray is to be funnel-form; Therefore solar silicon wafers X just is placed on on-plane surface, the funnelform tray, and so solar silicon wafers X just can not be placed on the tray very reposefully, also just must be very accurately careful when placing or take out solar silicon wafers; Can be placed on this solar silicon wafers X on the tray restfully; Otherwise it is crooked that solar silicon wafers X just is easy to produce, crooked if solar silicon wafers X produces, and then therefore the tin ball X1 of solar silicon wafers X just might produce the situation generation of damaged in collision.

The utility model content

The purpose of the utility model is to overcome the defective that exists in the prior art, and a kind of solar silicon wafers tray is provided, and it can be for solar silicon wafers provides deposit position stably, and hydrofuge can be provided, and keeps the drying of solar silicon wafers.

For realizing above-mentioned purpose; The technical scheme of the utility model has provided a kind of solar silicon wafers tray, it is characterized in that, said tray includes several flat bottomed recess that is arranged in array; Said flat bottomed recess is respectively applied for the placement solar silicon wafers; Periphery at said flat bottomed recess is provided with a pair of horizontal first block and a pair of vertical second block, and said first block and second block all are provided with at interval, all offer through hole at said second block.

As optimized technical scheme, said through hole is to offer along the direction of vertical flat bottomed recess.

As optimized technical scheme, said through hole is to offer along the direction of parallel flat bottomed recess.

As optimized technical scheme, said first dog height is higher than the height of second block.

As optimized technical scheme, between said interconnective four flat bottomed recess, form an open-work.

As optimized technical scheme,, has a range upon range of space at the bottom of the said base at the outer rim of said solar silicon wafers tray moulding one base more.

Further optimized technical scheme, said several solar silicon wafers tray are range upon range of, and have a ventilation space between the adjacent solar silicon wafers tray.

Further optimized technical scheme is provided with the ear that protrudes out at the side of said base.

Further optimized technical scheme, said tray is a vinyl disc.

The advantage and the beneficial effect of the utility model are: this solar silicon wafers tray is placed solar silicon wafers through flat bottomed recess; And the block that is arranged on the flat bottomed recess periphery is placed restrictions on the solar silicon wafers slippage; Through hole on the block then provides the pipeline of this solar silicon wafers tray hydrofuge, keeps the drying of solar silicon wafers in the solar silicon wafers tray.

Description of drawings

Fig. 1 is the three-dimensional appearance sketch map of existing solar silicon wafers tray;

Fig. 2 is the side sectional view of existing solar silicon wafers tray;

Fig. 3 is the side sectional view of another kind of existing solar silicon wafers tray;

Fig. 4 is the three-dimensional appearance sketch map of the utility model solar silicon wafers tray;

Fig. 5 is that the utility model solar silicon wafers tray is deposited the side sectional view that carries solar silicon wafers;

Fig. 6 is that the another kind of the utility model solar silicon wafers tray through hole is offered the mode sketch map;

Fig. 7 is the user mode sketch map of the range upon range of placement of the utility model solar silicon wafers tray;

Fig. 8 is the side sectional view that the utility model solar silicon wafers tray cooperates a base to use;

Fig. 9 is that the utility model solar silicon wafers tray cooperates base to use the also user mode sketch map of range upon range of placement.

Description of reference numerals among the figure:

Among Fig. 1 to Fig. 3: A, be tray; A1, for depositing the portion of carrying;

A2, be block; A3, be through hole;

B, be tray; B1, be the inclined-plane;

B2, be through hole; X, be solar silicon wafers;

X1, be the tin ball;

Among Fig. 4 to Fig. 9: 100, be the solar silicon wafers tray; 10, for depositing the portion of carrying;

20, be first block; 30, be second block;

31, be through hole; 40, be open-work;

50, be base, 51, be range upon range of space;

D1, be the gap; D2, be ventilation space;

X, be solar silicon wafers.

Embodiment

Below in conjunction with accompanying drawing and embodiment, the embodiment of the utility model is further described.Following examples only are used for more clearly explaining the technical scheme of the utility model, and can not limit the protection range of the utility model with this.

Extremely shown in Figure 7 like Fig. 4 is the preferred embodiment of the utility model solar silicon wafers tray 100; Solar silicon wafers tray 100 comprises a plurality of flat bottomed recess 10; Those flat bottomed recess 10 are arranged; Each flat bottomed recess 10 is provided with depositing a slice solar silicon wafers X respectively; And at each flat bottomed recess 10 periphery a pair of horizontal first block 20 is set and is provided with at interval, and the height of each first block 20 is higher than the height of each second block 30 with a pair of vertical second block, 30, the first blocks 20 and second block 30; And each second block 30 is offered a through hole 31 along vertical this direction of depositing solar silicon wafers flat bottomed recess 10 again, and interconnective four deposit formation one open-work 40 between the solar silicon wafers flat bottomed recess 10.This solar silicon wafers tray 100 has plastics to process

Solar silicon wafers tray 100 can be deposited a plurality of solar silicon wafers X; The flat solar silicon wafers flat bottomed recess 10 of depositing supplies each solar silicon wafers X to put setting reposefully; And each block 20,30 is placed restrictions on each solar silicon wafers X side direction slippage in depositing solar silicon wafers flat bottomed recess 10; The through hole 31 of each second block 30 and respectively deposit the pipeline that open-work 40 between the solar silicon wafers flat bottomed recess 10 then provides circulation of air; And can let moisture discharge by each through hole 31 and open-work 40, keep the drying of each solar silicon wafers X.

As shown in Figure 6, the through hole 31 of each second block 30 also can be to offer the same effect that also can reach ventilation, hydrofuge along the parallel direction that this respectively deposits solar silicon wafers flat bottomed recess 10.

In the time will delivering solar silicon wafers X; Can be with a plurality of solar silicon wafers tray 100 ranked and stacked piles; As shown in Figure 7; When a plurality of solar silicon wafers tray 100 ranked and stacked piles,, can produce a clearance D 1 between each solar silicon wafers tray 100 of therefore range upon range of back because the height of first block 20 is higher than the height of this second block 30; Clearance D 1 is exactly the difference in height between first block 20 and second block 30; So solar silicon wafers tray 100 range upon range of after, the clearance D 1 that first block 20 and second block, 30 height falls form, through hole 31 and this open-work of respectively depositing between year portion 10 40 that should each second block 30 provide moisture sufficient discharge line, even the 100 range upon range of storings of a plurality of solar silicon wafers tray also can keep the drying of solar silicon wafers X.

Like Fig. 8, shown in Figure 9; First block 20 of solar silicon wafers tray 100 and the height such as height of second block 30; And solar silicon wafers tray 100 external application edge reshapings one base 50, and base 50 bottoms have a range upon range of space 51, when a plurality of solar silicon wafers tray 100 range upon range of storings; Adjacent solar silicon wafers tray 100 can partly receive in the range upon range of space 51 of this base 50; And make and have a ventilation space D2 between the adjacent solar silicon wafers tray 100, the pipeline that ventilation space D2 also just can provide these solar silicon wafers tray 100 hydrofuges to ventilate fully, and keep solar silicon wafers X dry; And base 50 sides are provided with the ear that protrudes out, and this ear makes things convenient for the user to move solar silicon wafers tray 100.

The above only is the preferred implementation of the utility model; Should be understood that; For those skilled in the art; Under the prerequisite that does not break away from the utility model know-why, can also make some improvement and retouching, these improvement and retouching also should be regarded as the protection range of the utility model.

Claims (9)

1. solar silicon wafers tray; It is characterized in that; Said tray includes several flat bottomed recess that is arranged in array, and said flat bottomed recess is respectively applied for the placement solar silicon wafers, at the periphery of said flat bottomed recess a pair of horizontal first block and a pair of vertical second block is set; Said first block and second block all are provided with at interval, all offer through hole at said second block.

2. solar silicon wafers tray as claimed in claim 1 is characterized in that, said through hole is to offer along the direction of vertical flat bottomed recess.

3. solar silicon wafers tray as claimed in claim 1 is characterized in that, said through hole is to offer along the direction of parallel flat bottomed recess.

4. solar silicon wafers tray as claimed in claim 1 is characterized in that the height of said first block is higher than the height of second block.

5. solar silicon wafers tray as claimed in claim 1 is characterized in that, between said interconnective four flat bottomed recess, forms an open-work.

6. solar silicon wafers tray as claimed in claim 1 is characterized in that, at the outer rim of said solar silicon wafers tray moulding one base more, has a range upon range of space at the bottom of the said base.

7. solar silicon wafers tray as claimed in claim 6 is characterized in that, said several solar silicon wafers tray are range upon range of, and has a ventilation space between the adjacent solar silicon wafers tray.

8. solar silicon wafers tray as claimed in claim 6 is characterized in that, is provided with the ear that protrudes out at the side of said base.

9. like any described solar silicon wafers tray of claim 1 to 8, it is characterized in that said tray is a vinyl disc.

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