CN105235987A - Storage box for optical film - Google Patents

Abstract

The present invention relates to a storage box for an optical film having improved sealability, comprising: a cover wherein a multi-stage cover outer wall is provided, and an accommodating space is provided inside; an intermediate plate having a holder to support a side of an optical film to make the optical film be seated inside the cover; and a bottom plate to support an intermediate plate wherein a multi-stage bottom plate outer wall is provided. In addition to this, a hinge is provided to make the cover and the bottom plate adhere and be fixated to each other. The bottom plate has a honeycomb. According to an embodiment of the present invention, a plurality of protrusions is provided on the multi-stage cover outer wall and the multi-stage bottom plate outer wall to make the protrusions be engaged with each other in order to prevent an inflow of foreign substances. A sealing member is inserted into a space between the protrusions to improve sealability. A rotatable hinge wherein first and second wings have a bending structure to press the cover and bottom plate allows for effective sealing.

Description

Optical thin film storage box

Technical field

The present invention relates to a kind of optical thin film storage box, in order to prevent impurity from flowing into, make optical thin film be arranged to the optical thin film storage box of closed structure from external impact when particularly relating to a kind of keeping and carrying optical thin film.

Background technology

Usually, display film (sheet) can be divided into optical thin film and sealing film.Described optical thin film comprises light polarizing film, diffusion barrier, reflectance coating, bright enhancement film etc.Described sealing film comprises metallic membrane, adhesive film etc.

Particularly showing with film, in order to give function on resin film, needing to be formed by manufacture technics such as stretching, compression, surface coating, lamination, cuttings.The each procedure manufacture adopted when described display film is generally by folding Special Film forms, and needs film is loaded receiver and is transported to subsequent processing after a procedure terminates.

But in conveying or process to be conveyed, under the impact of the factors such as impurity, scratch, moisture, temperature, external impact, Loaded goods weight, optical thin film can form bad product.

In order to solve the problem, prior art utilizes the receiver not with lid to load and carrying display film.But, need when adopting in this way to pack the receiver not with lid, so that the impact that the factor such as despumation, moisture produces.Like this, not only waste material resources and manpower, and film surface also easily produces cut or impaired in packaging process.

Display blister-pack housing is have developed in order to make up above-mentioned deficiency.In the casing of described display blister-pack housing, support is installed, support is provided with pressing means, covers lid in this case, with fixing and packaging at interior film, and then prevent film surface in course of conveying from being scratched and electrostatic occurs.

But this storage box being provided with lid is not completely fixed due to pallet and lid, therefore, when being subject to making a fault from inner or outside impact or staff, optical thin film is damaged with regard to likely causing lid to depart from pallet.In addition, pallet and lid are not closed structures, therefore, are subject to the impact such as impurity, moisture.

Summary of the invention

The object of the invention is to make up the deficiencies in the prior art, provide the leakproofness between a kind of lid and base plate good, be provided with the reinforcement that can bear optical thin film weight, the optical thin film storage box that its stability can be guaranteed when lamination arranges storage box.

The technical solution used in the present invention is as follows in order to achieve the above object:

Optical thin film storage box of the present invention comprises the lid that lid is peripheral, inside is formed with spatial accommodation being provided with multistage; For optical thin film being surely loaded on the dividing plate being provided with the support for support of optical side surface of thin film in described lid; And be provided with multistage sole periphery, for supporting the base plate of described dividing plate.

The lowermost of described lid periphery is formed with the first inner process down and the first outer process, described first inner process and the first outer process are around formation first space; The uppermost of described sole periphery is formed with the second inner process upward and the second outer process, described second inner process and the second outer process, around formation second space, are arranged at the projection of the peripheral lowermost of described lid and are arranged at the interlaced occlusion of projection of described sole periphery uppermost.

Sealing member is inserted with at least one space in described first space and second space.

Also comprise the first hinge and the second hinge and be bending structure and rotating hinge and the hinge that is positioned at the peripheral lowermost of described lid depart from preventing member, a part for described first hinge is formed with peristome and hinge bar, can hang in described hinge disengaging preventing member and rotate, described first hinge and the second hinge are bending structure, pin below described sole periphery uppermost to make described second hinge.

Another part of described first hinge is provided with to be fixed convex when removing the locking states of described lid and base plate for the hinge position of fixing described hinge.

Described second hinge is formed with hinge convex, below described sole periphery uppermost, is formed with the convex latch recess of corresponding described hinge.

The glued on top of described base plate has honeycomb boards.

Be formed with fin above described lid, below described base plate, be formed with the groove be engaged mutually with described fin.

The grid rods be provided with above for the formation of at least two partition spaces of described base plate.

Honeycomb boards is stained with in described partition space.

The lower protruding block that at least two have one fixed width is formed below described base plate.

The beneficial effect of optical thin film storage box of the present invention is: the lid periphery of multistage and sole periphery are formed with multiple mutually engageable projection respectively, therefore, effectively can prevent the inflow of impurity.

Be inserted with double-layer seal part between described projection, thus can leakproofness be improved.

Described first hinge and the second hinge are provided with the rotatable hinge in bending structure, therefore, can push down lid and base plate, thus improve leakproofness.

Fix convex for the hinge position of Fixed hinge when described first hinge being also provided with the locking removing lid and base plate, therefore, described hinge can not overslaugh film loading and take out, thus can significantly to increase work efficiency.

Described second hinge is formed with hinge convex, is provided with below the uppermost of sole periphery and is engaged in the convex latch recess of described hinge, can further improve the leakproofness of hinge thus.Further, because the glued on top of described base plate has honeycomb boards, therefore, can the weight of support of optical film, and can available protecting optical thin film, make optical thin film not by external impact.

Described lid be above formed with fin, be formed with the groove being engaged in fin below described base plate, thus stability when lamination places multiple storage box can be improved.

Accompanying drawing explanation

Fig. 1 is the decomposing schematic representation of optical thin film storage box of the present invention.

Fig. 2 is the diaphragm structure schematic diagram of optical thin film storage box of the present invention.

Fig. 3 is the section-drawing of optical thin film storage box of the present invention.

Fig. 4 is the hinge structure schematic diagram of optical thin film storage box of the present invention.

Fig. 5 is the hinge stationary state schematic diagram of optical thin film storage box of the present invention.

Fig. 6 is the appearance schematic diagram of optical thin film storage box of the present invention.

Fig. 7 is the base arrangement schematic diagram of optical thin film storage box of the present invention.

Fig. 8 is the honeycomb boards schematic diagram adhering to base plate of optical thin film storage box of the present invention.

Fig. 9 is the base plate bottom schematic view of optical thin film storage box of the present invention.

Figure 10 is schematic diagram when optical thin film storage box of the present invention being loaded into waggon.

Figure 11 is waggon for loading optical thin film storage box of the present invention and guiding carrier enlarged diagram.

In figure, 100, lid; 200, the first sealing member; 300, dividing plate; 400, the second sealing member; 500, base plate; 501, lower projection; 502, roller; 503, waggon; 504, buffer part; 505, guiding carrier; 600, hinge; 611, hinge position is fixed convex; 700, honeycomb boards.

Detailed description of the invention

The detailed description carried out the present invention by reference to the accompanying drawings and preferred implementation, can further to define its object, beneficial effect and newly-increased technical characteristic etc.In this specification sheets, identical label is employed to same parts, and, eliminate the detailed description to techniques well known, with outstanding main points of the present invention.

Below in conjunction with accompanying drawing, preferred embodiments of the present invention is described in detail.

Fig. 1 is the decomposing schematic representation of optical thin film storage box of the present invention.Fig. 1 is mainly used in the overlying relation illustrated between each assembly, and its concrete structure and the assembly set up will clearly show in fig. 2.

As shown in Figure 1, optical thin film storage box of the present invention comprises lid 100, first sealing member 200, dividing plate 300, second sealing member 400 and base plate 500.

Described lid 100 is in square shape, and described lid 100 is provided with the lid periphery 110 of multistage, and inside is formed with the space that can hold described dividing plate 300 and optical thin film etc.Described lid 100 can by for preventing charged ABS resin to form, also can by being convenient to confirm that the transparent material of inner Loaded goods is formed.

The square shape of described first sealing member 200 in hollow, is inserted in the space between the multiple projections being formed in peripheral 110 lower ends of described lid, for improving leakproofness.Described first sealing member 200 can be made up of silica gel.

Described dividing plate 300 for placing optical thin film in described lid 100, and described dividing plate 300 is provided with the support for support of optical side surface of thin film.Described support can be divided into fixed support and traversing carriage, and described traversing carriage can move along guide rail, thus effectively can support the optical thin film of all size.The material of described dividing plate 300 can adopt and can prevent charged ABS resin, also can adopt coloured material.

Described base plate 500, in square shape, is provided with the sole periphery 510 of multistage, and is formed and can holds and support the space of described dividing plate 300.The material of described base plate 500 can adopt and can prevent charged ABS resin, also can adopt transparent or coloured material.

Described second sealing member 400 is banded in quadrangle, is inserted in the space that is formed between the multiple projection of described sole periphery 510 uppermost, for improving leakproofness.Described second sealing member 400 can be made up of silica gel.

Fig. 2 is the diaphragm structure schematic diagram of optical thin film storage box of the present invention.

As shown in Figure 2, described dividing plate 300 is arranged at above described base plate 500.The projection be formed at above described base plate 500 is plugged in the through hole that is formed at described dividing plate 300 or is formed in the clip slot below described dividing plate 300.When being inserted in through hole, the projection be formed at above described base plate 500 can not be exposed to above described dividing plate 300.

Described dividing plate 300 outer above places the fixed support 310 and traversing carriage 320 that are provided with institute's set a distance of being separated by with the sole periphery 510 of multistage.Described fixed support 310 adheres to one side of described dividing plate 300, for the side of support of optical film.As one of embodiment, the quantity of described fixed support 310 can select 4, as shown in Figure 2.

Described traversing carriage 320 be arranged at be not provided with described fixed support 310 other limit on, described traversing carriage 320 can move along guide rail 321.As one of embodiment, seven traversing carriages 320 and 7 guide rails 321 can be set, as shown in Figure 2.

Described guide rail 321 is recessed in described dividing plate 300, and is formed with oblong-shaped opening along guiding direction.The lower end of described traversing carriage 320 is provided with the intermediate plate of the bond length corresponding to described oblong-shaped opening, moves along guiding direction to make described traversing carriage 320.Described traversing carriage 320 is provided with handle 322, is combined after being arranged at the bolt-through traversing carriage 320 of described handle 322 in the bottom surface of described oblong-shaped opening with nut.Specifically, after moving described traversing carriage 320 according to the size of optical thin film, by rotating described handle 322, traversing carriage 320 is fixed on any position on guide rail 321.

Fig. 3 is the section-drawing of optical thin film storage box of the present invention.

As shown in Figure 3, described lid 100 is provided with the lid periphery 110 of multistage, and described base plate 500 is provided with the sole periphery 510 of multistage.In one embodiment of the invention, described lid periphery 110 is by first paragraph 1 ＇ section, second segment 2 ＇ section, and three sections such as the 3rd section of 3 ＇ section are formed, and described sole periphery 510 is made up of first paragraph 1 section, second segment 2 sections, three sections such as the 3rd section 3 sections.The first paragraph 1 ＇ section of described lid periphery 110 is the lowermost of lid periphery 110, and the 3rd section 3 sections of periphery, described floor 510 is the uppermost of sole periphery 510.

The lowermost of described lid periphery 110 is formed with the first inner process 112 and the first outer process 111 down, and described first inner process 112 and the first outer process 111 are around formation first space.The uppermost of described sole periphery 510 is formed with the second inner process 511 and the second outer process 512 upward, and described second inner process 511 and the second outer process 512 are around formation second space.

The projection of peripheral 110 lowermost of described lid and the projection of described sole periphery 510 uppermost is interlaced can mutually be engaged.Specifically, described second outer process 512 is inserted in described first space, forms sawtooth occlusion.Also can be that the first outer process 111 is inserted in described second space, form sawtooth occlusion.

That is, described first outer process 111 outermost can be placed in as required, also described second outer process 512 outermost can be placed in.

Because optical thin film storage box of the present invention adopts bilayer combination structure, therefore, the Absorbable organic halogens ground described lid 110 of combination and base plate 500.Described first sealing member 200 can be plugged in described first space, described second sealing member 400 in described second space, can be plugged.That is, at least one in described sealing member 200,400 can be inserted in described space.Sealing member 200,400 according to circumstances also can be utilized simultaneously to insert in space with double-decker, thus improve the leakproofness of optical thin film storage box.

Fig. 4 is the hinge structure schematic diagram of optical thin film storage box of the present invention.

As shown in Figure 3, Figure 4, described hinge 600 is the rotatable coupling that the first hinge 610 and the second hinge 620 bending are formed.Described hinge 600 is also provided with the hinge being positioned at peripheral 110 lowermost of described lid and departs from preventing member 130, a part for described first hinge 610 is formed with peristome 630 and hinge bar 640, and described peristome and hinge bar are hung on described hinge and depart from preventing member 130 and rotate.Described hinge 600 can be made up of polypropylene (PP) coloured material.

Described hinge departs from preventing member 130 and carry out furnace run after the lowermost of described lid periphery 110 vertically penetrates, and its side 120 to peripheral 110 lowermost of described lid is bent.Described hinge of the present invention departs from preventing member 130 can also carry out furnace run after described side 120 is vertically penetrated, and makes it bend to described side 120.

Described first hinge 610 and the second hinge 620 are arranged to bending structure, described second hinge 620 can be pushed down below described sole periphery 510 uppermost.That is, the distance that the distance between described first hinge 610 and the second hinge 620 corresponds between the lowermost of described lid periphery 110 and described sole periphery 510 uppermost is adjusted to " " shape.

Described second hinge 620 is also formed with hinge convex 621, below described sole periphery 510 uppermost, is formed with the latch recess 513 corresponding to described hinge convex 621, thus can more stably in conjunction with described lid 100 and base plate 500.

Fig. 5 is the stationary state schematic diagram of optical thin film storage box hinge of the present invention.

As shown in Figure 4, Figure 5, another part of optical thin film storage box first hinge 610 of the present invention is provided with fixes convex 611 when removing and locking between described lid 100 and base plate 500 for the hinge position of Fixed hinge 600, and described hinge position fixes convex 611 in triangle column.

As shown in Figure 5, A pattern is the locking mode of described lid 100 and described base plate 500, and B-mode is the unlock mode of described lid 100 and described base plate 500, and C mode is the fixed mode of hinge 600 described in unlock mode.

The present invention also has additional described hinge position and fixes convex 611.Why arranging described hinge position and fix convex 611, is because when pulling open described hinge 600 counterclockwise under described A pattern, described hinge converts B-mode to.Under B-mode, described hinge 600 gravitate produces the rotational force departing from axle centered by preventing member 130 by described hinge, and under the effect of rotational force, described hinge 600 axle centered by hinge departs from preventing member 130 rocks back and forth.

When described hinge rocks back and forth, be difficult to lock described lid 100 and described base plate 500 or unlock, and very loaded down with trivial details.Specifically, remove the locking of described lid 100 and described base plate 500, when taking out described lid 100, described hinge 600 likely hangs over below the part of described sole periphery 510 uppermost under the effect of rotational force, now, physical force puts on described base plate 500 and damages the optical thin film loaded.Equally, when described lid 100 is arranged at described base plate 500, described hinge 600 likely hangs over above the part of described sole periphery 510 uppermost under rotational force effect.

In order to certain part preventing described hinge 600 to be hung on described sole periphery 510 uppermost, need staff to hold described hinge 600 and carry described lid 100.But, because the volume and weight of optical thin film storage box is all very large, be difficult to realize above-mentioned action.Therefore, need to be fixed when described hinge 600 is in released state.

As shown in Figure 5, rotate if further described hinge 600 to be pressed anticlockwise direction under B-mode, the side 120 that convex 611 will be contacted with peripheral 110 lowermost of described lid is fixed in so described hinge position.When described hinge 600 reaches critical angle of rotation, described hinge position is fixed convex 611 power putting on the peripheral 110 lowermost sides 120 of described lid and is reached maxim.Therefore, when reaching described critical angle of rotation described hinge 600 just Absorbable organic halogens fix.

Fig. 6 is the appearance schematic diagram of optical thin film storage box of the present invention.

As shown in Figure 6, be formed with fin 140 above described lid 100, described fin 140 can be meshed with the following groove be formed at below described base plate 500, therefore, arranges optical thin film storage box by fin and groove Absorbable organic halogens lamination.Be provided with multiple fin 140 above described lid 100, can reticulation be formed.

Further, owing to being provided with multiple described hinge 600, can be fixed described lid 100 and described base plate 500.The optional position of described lid 100 or base plate 500 is provided with hand handle, so that staff's carrying.Described hand, being protruding type, also can be umbilicate type.

Fig. 7 is the base arrangement schematic diagram of optical thin film storage box of the present invention.

As shown in Figure 7, the groove 520 of corresponding described fin 140 is formed below described base plate 500.Along with the formation of described groove 520, above described base plate 500, likely there is projection phenomenon.Be provided with grid rods 530 above described base plate 500, form multiple partition space.

Fig. 8 is the honeycomb board structure schematic diagram adhering to base plate of optical thin film storage box of the present invention.

As shown in Figure 8, the glued on top of the base plate 500 of optical thin film storage box of the present invention has honeycomb boards 700.Honeycomb boards (honeycomb) is the honeycomb structure reinforcement utilizing film (sheet) shape metal, process of resin material etc. to make, and the specific compress strength of described honeycomb boards top and bottom is high and lightweight.Therefore, honeycomb boards 700 is sticked to above described base plate 500, the weight of the optical thin film of loading can be supported, thus optical thin film is preserved on Absorbable organic halogens ground.

Described honeycomb boards 700 can stick in multiple partition spaces of being formed at above described base plate 500, also can adhere to be not provided with grid rods 530 base plate 500 above.

Fig. 9 be optical thin film storage box of the present invention base plate below schematic diagram.Figure 10 is the view of optical thin film storage box of the present invention when being loaded into waggon.

As shown in Figures 9 to 11, below described base plate 500, be formed with multiple lower protruding block 501 with one fixed width, can safekeeping optical thin film by described multiple lower protruding block 501.

As shown in Figure 10, optical thin film storage box of the present invention (base plate 500) is held in place above the multiple rollers 502 on waggon 503, and described roller 502 can be utilized to be easy to advance to 500a direction or release optical thin film storage box.

The both sides of described waggon 503 are also provided with guiding carrier 505, to insert optical thin film storage box (base plate 500).

Due between described multiple lower protruding block 501 determine in groove, to be provided with described roller 502, when carrying after thus optical thin film storage box (base plate) 500 of the present invention being loaded into waggon 503, can prevent storage box from rocking to 500b direction.

In order to prevent rocking of 500a direction, described waggon 503 is also provided with multiple buffer part 504 from both sides fixed optics film storage box.Wherein, the buffer part 504 of side is fixed, and the buffer part 504 of opposite side is arranged on the door (not shown) be formed on waggon 503.

Described buffer part 504 is by having certain elastomeric polyurethane or resin series material is made.

Specifically, first open the door be formed on waggon 503, then optical thin film storage box is inserted along guiding carrier 505, roller 502 is placed between multiple lower protruding block 501.

Close after the buffer part 504 that insertion optical thin film storage box makes it be contacted with side and visit (not shown), make the buffer part 504 of the opposite side be arranged on door (not shown) be contacted with storage box.Namely prevent rocking of 500a direction by the buffer part 504 of both sides.

Above-mentioned explanation is only with reference to the accompanying drawings to the detailed description that the preferred embodiment of the present invention is carried out, but scope is not limited to above-mentioned embodiment.By some amendments within claims and specification sheets and scope shown in the drawings thereof, different embodiments can be realized, and this amendment should belong to scope of the present invention.

Claims (11)

1. an optical thin film storage box, is characterized in that: it comprises the lid that lid is peripheral, inside is formed with spatial accommodation being provided with multistage; For optical thin film being surely loaded on the dividing plate being provided with the support for support of optical side surface of thin film in described lid; And be provided with multistage sole periphery, for supporting the base plate of described dividing plate.

2. optical thin film storage box according to claim 1, is characterized in that: the lowermost of described lid periphery is formed with the first inner process down and the first outer process, and described first inner process and the first outer process are around formation first space; The uppermost of described sole periphery is formed with the second inner process upward and the second outer process, described second inner process and the second outer process, around formation second space, are arranged at the projection of the peripheral lowermost of described lid and are arranged at the interlaced occlusion of projection of described sole periphery uppermost.

3. optical thin film storage box according to claim 2, is characterized in that: be inserted with sealing member at least one space in described first space and second space.

4. the optical thin film storage box according to Claims 2 or 3, it is characterized in that: also comprise the first hinge and the second hinge and be bending structure and rotating hinge and the hinge that is positioned at the peripheral lowermost of described lid depart from preventing member, a part for described first hinge is formed with peristome and hinge bar, can hang in described hinge disengaging preventing member and rotate, described first hinge and the second hinge are bending structure, pin below described sole periphery uppermost to make described second hinge.

5. optical thin film storage box according to claim 4, is characterized in that: another part of described first hinge is provided with to be fixed convex when removing the locking states of described lid and base plate for the hinge position of fixing described hinge.

6. optical thin film storage box according to claim 5, is characterized in that: described second hinge is formed with hinge convex, is formed with the convex latch recess of corresponding described hinge below described sole periphery uppermost.

7. the optical thin film storage box according to any one in claims 1 to 3, is characterized in that: the glued on top of described base plate has honeycomb boards.

8. the optical thin film storage box according to any one in claims 1 to 3, is characterized in that: be formed with fin above described lid, be formed with the groove be engaged mutually with described fin below described base plate.

9. optical thin film storage box according to claim 8, is characterized in that: the grid rods be provided with above for the formation of at least two partition spaces of described base plate.

10. optical thin film storage box according to claim 9, is characterized in that: be stained with honeycomb boards in described partition space.

11. optical thin film storage boxes according to any one in claims 1 to 3, is characterized in that: be formed with the lower protruding block that at least two have one fixed width below described base plate.