CN1958405A - Packing box for glass base plates, and packed composition - Google Patents

Abstract

A packing box of glass substrates and its packing assembly are disclosed. Said packing assembly has at least one glass substrate, at least one isolating plate and a packing box with a buffer structure on the inner surface of its bottom for preventing the glass substrate from being damaged by external vibration or collision.

Description

Glass substrate packing box and packaged combination thereof

[technical field]

The present invention relates to a kind of packing box and packaged combination, relate in particular to a kind of packing box and packaged combination thereof that is used to transport glass substrate.

[background technology]

Along with digital development of science and technology, liquid crystal display product has been widely used in each aspect of daily life.For the liquid crystal display module, it is wafer in the semiconductor industry that glass substrate institute role cans be compared to, and therefore, the liquid crystal display industry is close to perfect to the requirement of glass substrate.

Glass is a kind of hard brittle material, when being subjected to the external force collision or dropping ground, is easy to break so that can not use.This glass substrate can show with glass substrate and general glass substrate for liquid crystal glass base, electricity slurry, can also be used to transporting backlight, color filter etc. simultaneously.With this glass substrate is that liquid crystal glass base is an example, fringe region at this liquid crystal glass base is provided with critical elements such as sealing liquid crystal mouth, thin film transistor pin, IC chip and flexible circuit board usually, in the process of transporting, need avoid being subjected to external force collision and phase mutual friction and cause damage to above-mentioned critical elements in the process of making display panels, the problem of transporting of glass substrate is most important.Transporting in the process of glass substrate, it is subject to chemical pollution, and when producing static focus when friction takes place between the substrate, equally can be because electrostatic induction make glass substrate in-to-in circuit to be damaged.

It mainly is that glass substrate is placed in the packing box that the glass substrate of prior art transports, and separates each glass substrate to transport by dividing plate.According to the difference of glass substrate packing box material, can be divided into following two types:

A kind of glass substrate packing box is that two alkene-(AcrylonitrileButadiene Styrene, ABS) (Poly Vinyl Chloride PVC) makes styrene the employing acrylic nitrile-butadiene-for resin and polyvinylchloride.

Yet, this kind do not have resiliency because being used to transport the packing box material of glass substrate, so when glass substrate packing box falls or shake, this manner of packing does not have buffer capacity substantially, the problem that easily causes breaking glass panel or packing box box body to be damaged.And the weight of packing box own is about the 5-6 kilogram, also causes simultaneously in the inconvenience that moves, piles up and carry.

In addition, higher in order to the ejection shaping die cost of making glass substrate packing box, and quite consume the resin cost.

Another kind of glass substrate packing box is that the employing expansion ratio is that 3-30 resin foamed material is doubly made.As shown in Figure 1, this packing box 10 comprises a box body 120 and a lid 110, and 110 mutually nested cooperations of this box body 120 and this lid, the receiving space of glass substrate is accommodated in formation one.120 liang of relative inside faces of this box body are provided with a plurality of grooves 130 in order to the support glass substrate.Transport in the process, glass substrate is installed in the groove 130 of box body 120, cooperatively interact then nested this box body 120 and lid 110 when needs are extracted glass substrate out, make this lid 110 break away from these box bodys 120, take out glass substrate and get final product.

And transport with this kind glass substrate packing box, the box body 120 of this packing box 10 is made by resin foamed material, though this material has the advantage that cushion characteristic is good, in light weight and die cost is low slightly, but still has following shortcoming:

At first, this packing box inner surface structure homogeneous, buffer capacity is poor, and when being subjected to external impacts, the easy stress of glass substrate is concentrated to cause and is damaged or break, and reduces and transports the process safe coefficient.

Secondly, adopt this manner of packing, glass substrate easily with the too much chip of packing box friction generation, influence the cleanliness of glass substrate.

[summary of the invention]

For solving the stress concentration of above-mentioned glass substrate packing box, the damage that external force collision causes glass substrate, transport the low problem of safety factor in the process, be necessary to provide a kind of stress concentration of avoiding, the damage that the buffering external force collision causes glass substrate and improve the glass substrate packing box that transports safety factor in the process.

For the glass substrate that solves above-mentioned packaged combination damages, transport the low problem of safety factor in the process, be necessary to provide a kind of glass substrate that prevents to damage, the damage that the buffering external force collision causes glass substrate and improve the glass substrate package combination of transporting safety factor in the process.

A kind of packing box that is used to transport glass substrate, it comprises: a box body and a lid, this box body have a bottom and a plurality of sidewall, and this box body and this lid cooperatively interact and are nested to form a receiving space, and wherein this cartridge inner surface is provided with buffer structure.

A kind of glass substrate package combination, it comprises: at least one glass substrate, an at least one dividing plate and a packing box, this glass substrate and this carrier ring stack and are set to a superimposed body, this packing box comprises a box body and a lid, this box body and this lid fit in an accommodation space in order to accommodate this superimposed body, and this box body has a bottom and a plurality of sidewall, and this cartridge inner surface is provided with buffer structure.

Improvement for above-mentioned glass substrate package combination is: this separator material is a polyolefin-based resins.

Compared to prior art, the above-mentioned packing box that is used to transport glass substrate, the surface is provided with the buffer structure of tool elasticity within it, reduces stress concentration by this buffer structure, effectively cushions the vibrations of external force, the damage that bump causes glass substrate.

Compared to prior art, above-mentioned glass substrate package array mode, the packing box that adopts inside face that the elastomeric buffer structure of tool is set transports glass substrate, prevent the damage that external force vibrations, bump cause glass substrate, can also pack flexibly, conveniently transport, improve and transport safety factor in the process, save cost simultaneously.

In addition, the dividing plate and the stacked superimposed body that is placed to of glass substrate that adopt the polyolefin-based resins material to make, replace the manner of packing that prior art adopts resin or pvc material directly to pack glass substrate, only have the denier chip to produce, thereby keep the cleanliness of glass substrate.

[description of drawings]

Fig. 1 is a kind of glass substrate packing box schematic perspective view of prior art.

The glass substrate package combination perspective exploded view that Fig. 2 is disclosed for a kind of better embodiment of the present invention.

Fig. 3 is the solid assembling scheme drawing of the present invention's packaged combination shown in Figure 2.

The glass substrate package combination perspective exploded view that Fig. 4 is disclosed for the another kind of better embodiment of the present invention.

Fig. 5 is the present invention's antistatic diaphragm schematic perspective view shown in Figure 4.

Fig. 6 is the present invention's another kind of superimposed body structure decomposing schematic representation shown in Figure 4.

Fig. 7 is the solid assembling scheme drawing after the present invention's packing box packing shown in Figure 4.

The glass substrate package combination perspective exploded view that Fig. 8 is disclosed for another better embodiment of the present invention.

Fig. 9 is another angle schematic perspective view of the present invention's box body shown in Figure 8.

Figure 10 is the solid assembling scheme drawing of the present invention's packaged combination shown in Figure 8.

[specific embodiment]

See also Fig. 2, be the packaged combination perspective exploded view of a kind of glass substrate that a kind of better embodiment disclosed.This exploded drawings is the keystone configuration of expressing this packaged combination with minimum number.This packaged combination 2 comprises a superimposed body 21 and a packing box 20 (consulting Fig. 3).Wherein this superimposed body 21 comprises two dividing plates 212 and a glass substrate 211 of stacked placement.This packing box 20 comprises a box body 201 and a lid 202, and this box body 201 and this lid 202 cooperatively interact nested, and forms a receiving space.This superimposed body 21 is housed in the receiving space of this box body 201 and lid 202 formation.

The box body 201 of this packing box 20 is one end box body to be arranged, and this box body 201 comprises four madial walls 2011, a bottom 2012 and four lateral walls 2013.These four lateral walls 2013 are respectively perpendicular to this bottom 2012, and these lateral wall 2013 head and the tail connect successively, and cooperate this bottom 2012 to surround a rectangle uncovered receiving space, and this madial wall 2011 is formed in one with this lateral wall 2013, and is higher than this lateral wall 2013.Wherein these box body 201 bottoms 2012 inside faces are provided with a plurality of concaveconvex structures, and these a plurality of concaveconvex structures and this box body 201 are one-body molded.In two adjacent madial walls, 2011 inboard intersections, be respectively arranged with four grooves 2014.

This lid 202 is one the top cover body to be arranged, this lid 202 have one with these box body 201 madial walls 2011 corresponding madial wall 2021, one tops 2022 and lateral walls 2023.Same this lateral wall 2023 is respectively perpendicular to this top 2022, and these lateral wall 2023 head and the tail connect successively, and cooperates this top 2022 to surround a rectangle not have end receiving space.This madial wall 2021 and this lateral wall 2023 are one, and this madial wall 2021 is lower than this lateral wall 2023, and the madial wall 2011 that 2021 pairs of the madial walls of this lid 202 should box body 201.These lid 202 tops 2022 inside faces also are provided with a plurality of concaveconvex structures, and these a plurality of concaveconvex structures and this lid 202 are one-body molded.In two adjacent madial walls, 2021 inboard intersections, be respectively arranged with four grooves 2014 equally.

The elastic buffer structure that is arranged on these packing box 20 tops 2022 and bottom 2012 inside faces is the concaveconvex structure that exceeds inside face or dent into inside face, and this elastic buffer structure thickness is suitable at 0.5～1mm.Its structure can be strip, arcuation etc.The powerful glass substrate 211 that impacts when this elasticity concaveconvex structure can effectively be buffered in external impacts, the stress concentration that causes in the time of more can avoiding packing box 20 bumps, effectively cover glass substrate 211.The groove 2014 in its corner can avoid the corner angle of glass substrate 211 and madial wall 2013 to rub impaired.

The box body 201 of this packing box 20 is to adopt resin foamed material to make, as the high density polyethylene (HDPE) of polyolefin foaming body, polypropylene, low density polyethylene (LDPE), ethane-acetic acid ethyenyl ester co-polymer etc.Resin foamed material is that polyolefin bead or its foaming body of containing foaming agent are filled in the mould, makes with the uniform temperature heating, and its expansion ratio is controlled at 3～30 times.This foaming method can adopt the low pressure foaming, so can use aluminium pattern tool cheaply.The formed each several part thickness of resin foamed material according to strength demand, serves as suitable with 15～100mm.

The box body 201 of packing box 20 and lid 202 parts are to adopt the method that contains electric conductive polymer or antistatic behaviour material doping foaming, and obtaining resistance coefficient is 10 ³～10 ¹²The resin foamed material of Ω cm makes glass substrate 211 can not destroy glass substrate 211 in-to-in circuit because of the static that produces.

See also Fig. 3 again, Fig. 3 is the schematic perspective view after packaged combination shown in Figure 2 is packed.It is nested to rely on the madial wall 2021 of the madial wall 2011 of this box body 201 and this lid 202 to make that this box body 201 and this lid 202 cooperatively interact, and forms one in order to accommodate the receiving space of this superimposed body 21.At these packing box 20 outside faces, there are two continuous bundle grooves 205 to be distributed in this box body 201 and this lid 202 correspondence positions, it is used for holding two bands 204.When transporting at a distance, can also be increased in these packing box 20 outside faces along this bundle groove 205, with the get one's things ready step of this packing box 20 of two bands 204.

The size of this dividing plate 212 and profile and this glass substrate 211 match, shape can be plate shaped or shaped as frame, and the surface that this dividing plate 212 contacts with this glass substrate 211 has the negotiable relief pattern of air, simultaneously, this relief pattern has certain elasticity, plays the effect of buffering external force.When the glass substrate 211 of reduced size and dividing plate 212 are stacked; main stress area on the glass substrate 211 is its edge; in order to reach the purpose of critical elements on safe transport and the effective cover glass substrate 211; this dividing plate 212 uses shaped as frame; this dividing plate 212 is stacked gradually placement with this glass substrate 211, and the bottom and the superiors place dividing plate 212 respectively.When glass substrate 211 sizes are big, consider itself intensity needs, this dividing plate 212 can also be designed to plate shaped, to support this substrate 211.And the design that the surface that this dividing plate 212 contacts with this glass substrate 211 has a relief pattern can be avoided air to be overstock between glass substrate 211 can't getting rid of, and atomizating phenomenon that causes even fragmentation.

This dividing plate 212 is high density polyethylene (HDPE) (the HDPE, (C by the higher antistatic property of a kind of tool ₂H ₂) _n) material moulded section makes, compared with prior art, adopt high-density polyethylene material, replace the manner of packing that ABS resin or pvc material are directly packed glass substrate as dividing plate 212, only there is the denier chip to produce, thereby keeps the cleanliness of glass substrate 211.This high density polyethylene (HDPE) is to form with the cracking of polyethylene raw material, does not have toxicity, can not endanger the carrying personnel health; Have the high corrosion resistance energy, needn't worry glass substrate 211 is caused damage; And light weight, density are 0.955kg/cm ², be easy to carrying.

Consider weight and the convenient in carrying transport counter in the process, cooperate the dividing plates 212 stacked superimposed bodies 21 that are set to ten to 30 sheet glass substrates 211 usually.The superimposed mode of this superimposed body 21 also has following situation:

If the quantity of glass substrate 211 is n (n＞2) sheet, then dividing plate quantity can be good for the n+1 sheet.

When this superimposed body 21 was contained in this packing box 20, this superimposed body 21 was positioned at the bottom interior surface that undermost dividing plate 212 is connected to these packing box 20 box bodys 201.

The step that adopts this packing box to pack this glass substrate 201 is:

At first, provide a packing box box body 201, on the concaveconvex structure of its bottom interior surface, place a dividing plate 212;

Then, this dividing plate 212 and this glass substrate 211 intersectings are placed acquisition one superimposed body 21, wherein the superiors of this superimposed body 21 are 212 layers on dividing plate;

At last, lid 202 is covered on this box body 201, and make the superiors' dividing plate 22 of this superimposed body 21 be connected to the concaveconvex structure of these lid 202 top inner surface.When the discontented packing box 20 of glass substrate 211, replenish and avoid the loosening of packing box 20 by dosing other weighting material.

See also packaged combination 3 scheme drawings of the employing packing box that another kind of better embodiment disclosed packing glass substrate shown in Figure 4 again.In this embodiment, the keystone configuration of expressing this packaged combination 3 with minimum number equally.The packaged combination difference that is disclosed with a last better embodiment is: be equipped with an antistatic diaphragm 303 at these packing box 30 (consulting Fig. 7) box body 301 inside faces, so that this superimposed body 31 is isolated with these packing box 30 inside faces.

Consult Fig. 5, be the plan sketch of this antistatic diaphragm 303.This antistatic matrix 303 has four bending zone 3031, one main areas 3032 and a bending outline line 3033, the bottom 3012 of the profile of this main areas 3032 and this box body 3031 matches, and this kink 3031 can freely bend along the bending outline line 3033 of this main areas 3032.Through bending, can be so that the side of these kink 3031 close these superimposed bodies 31.

This antistatic diaphragm 303 is to adopt the high-density polyethylene resin material to make, and adopts to contain electric conductive polymer or the doping of preventing property of static material, and making and obtaining resistance coefficient is 10 ⁹～10 ¹²The high-antistatic diaphragm of Ω cm, be about 2 years its service life.

Because the antistatic property of packing box 30 descends gradually along with the growth of period of service, the antistatic material of the expendable of Can Zaing wherein, tenure of use, average out to was 1 year.Generally, packing box 30 loses antistatic property and will not re-use, and causes material loss bigger, and cost increases.Increase antistatic diaphragm 303 in packing box 30, can prolong more than 3 years, effectively reduce packaging material and repeat acquisition cost with the antistatic property that guarantees packing box 30.Can also substitute and upgrade the antistatic diaphragm 303 that loses antistatic property, needn't and can not use, further save cost because of packing box 303 antistatic effects declines own.

Owing in box body 301, increase antistatic diaphragm 303, isolate box body 301 and superimposed body 31, the dust debris influence glass substrate 311 of avoiding packing box 30 to produce, at this moment, glass substrate 311 and dividing plate 312 can adopt superimposed body 31 ' structure as shown in Figure 6.Equally with minimum number express this superimposed body 31 ' keystone configuration.This superimposed body 31 ' comprise the glass substrate 311 and a dividing plate 312 of stacked setting, wherein this two glass substrate 311 inserts and puts this dividing plate 312.

Same consider this superimposed body 31 ' weight and convenient in carrying of counter in the process of transporting, cooperate dividing plates 312 stacked settings to form ten to 30 sheet glass substrates 311 usually.This superimposed body 31 ' superimposed mode also have following situation:

If the quantity of glass substrate 311 is n (n＞2) sheet, then dividing plate quantity can be good for the n-1 sheet.

The superimposed body 31 of this kind structure ' can reduce the quantity of dividing plate 312 as shown in Figure 7, cooperatively interacts when nested at the lid 302 and the box body 301 of this packing box 30, because dividing plate 312 quantity reduce, can reduce packing box 30 integral thickness, helps carrying.When remote transportation, can adopt band 304 to be arranged in the bundle groove 305 equally, further protect superimposed body 31.

See also Fig. 8, Fig. 9 and Figure 10, the structure decomposing schematic representation of packing box 40 (consulting Figure 10) the packing glass substrate 411 that Fig. 8 is disclosed for a better embodiment again, Fig. 9 is box body 401 another angle schematic perspective views of this embodiment, and Figure 10 is the solid assembling scheme drawing after these packing box 40 packings.This packaged combination 4 comprises superimposed body 41, one lids 402 and two box bodys 401.Wherein this packing box 40 is with a last embodiment difference: these box body 401 bottoms 4012 outside faces are provided with a depressed part 4014, it is corresponding that this depressed part 4014 and lateral wall 4013 exceed madial wall 4011 parts, be provided with the elastomeric concaveconvex structure of a plurality of tools equally as buffer structure at box body 401 bottoms, 4012 inside faces and lid 402 tops 4022 inside faces, these a plurality of concaveconvex structures and this packing box 40 are one-body molded.When two box bodys 401 were stacked, it is nested that the depressed part 4014 of bottom 4012 outside faces of upper strata box body 401 and the raised area of lower floor box body 401 madial walls 4011 cooperatively interact, and forms two receiving spaces simultaneously, and each receiving space is accommodated a superimposed body 41.

Each box body 401 inside face can also be laid an antistatic diaphragm 403, prolongs the service life of packing box 40.

Certainly, packing box 40 can also be by further these packing boxes 40 of constraint of the bundle groove 405 of two bands on 404 along its, as shown in figure 10, are convenient to carrying and transport.

This embodiment can transport multi-disc glass substrate 411 simultaneously, and convenient a large amount of glass substrates 411 transport.

Claims (10)

1. glass substrate packing box, it comprises: a box body and a lid, this box body and this lid cooperatively interact and be nested to form a receiving space, and this box body has a bottom, it is characterized in that: this box body bottom interior surface is provided with buffer structure.

2. glass substrate packing box as claimed in claim 1 is characterized in that: this buffer structure is a plurality of and the integrated concaveconvex structure of this box body.

3. glass substrate packing box as claimed in claim 1 is characterized in that: this lid has a top, and its top inner surface is provided with a plurality of integrated concaveconvex structures.

4. glass substrate packing box as claimed in claim 1 is characterized in that: this packing box material is the polyolefin expanded material.

5. glass substrate package combination, it comprises: at least one glass substrate, at least one dividing plate and a packing box, this glass substrate and this dividing plate wall stack and are set to a superimposed body; This packing box comprises a box body and a lid, and this box body has a bottom, and this cartridge inner surface is provided with a buffer structure; This box body and this lid fit in a receiving space in order to accommodate this superimposed body.

6. glass substrate package combination as claimed in claim 5, it is characterized in that: this buffer structure is a plurality of and the integrated concaveconvex structure of this box body.

7. glass substrate package combination as claimed in claim 5, it is characterized in that: this lid has a top, and its top inner surface is provided with a plurality of integrated concaveconvex structures.

8. glass substrate package combination as claimed in claim 5 is characterized in that: this glass substrate package combination comprises that also one is laid on this cartridge inner surface, and the antistatic diaphragm that makes the superimposed body isolation of this packing box inside face and this.

9. glass substrate package combination as claimed in claim 5, it is characterized in that: this separator material is a polyolefin resin.

10. glass substrate package combination as claimed in claim 5, it is characterized in that: this packing box material is the polyolefin expanded material.

Images