CN202634965U - Substrate shield - Google Patents

Abstract

The utility model discloses a substrate shield used to clamp a substrate. The substrate shield comprises a conductive sleeve body and an elastic sleeve body. The elastic sleeve body is used to clamp on an edge of the substrate. The conductive sleeve body is wrapped outside the elastic sleeve body. Through clamping the substrate shield on the edge of the substrate, the conductive sleeve body is wrapped outside the elastic sleeve body. When the substrate is hit, the elastic sleeve body buffers the hit, so that the conductive sleeve body can prevent the substrate from being damaged by static. Therefore, the conductive sleeve body and the elastic sleeve body can prevent the substrate from being damaged by hit or static in a follow-up manufacturing process or operation process.

Description

The substrate protector

Technical field

The utility model relates to a kind of protector of substrate, specially refers to a kind of protector that is used to make the substrate of liquid crystal panel.

Background technology

In the process of making liquid crystal panel; Because the complexity of processing procedure; The substrate that is used for making liquid crystal panel is in a plurality of manufacturing equipments of processing procedure meeting turnover, and mechanical arm is located between the manufacturing equipment, is used for substrate is carried to from a manufacturing equipment manufacturing equipment of next processing procedure.In the process of carrying substrate, be used for carrying substrate mechanical arm and manufacturing equipment with static all can exert an influence to substrate.In addition, in the process of carrying substrate, substrate can receive the bump of external strength inevitably.Well-known substrate itself is comparatively fragile, and the bump of external force or static all can cause the damage even the fragmentation of substrate, cause scrapping of substrate, and have improved manufacturing cost.And the substrate fragments in the manufacturing equipment also is difficult to remove fully, and substrate fragments can produce tremendous influence equally to follow-up other substrate yields.Therefore, how to reduce even eliminate static and external force collision, become one of problem demanding prompt solution in the industry the influence of substrate.

The utility model content

The main purpose of the utility model provides a kind of substrate protector, is intended to cushion and avoid substrate to receive static to the bump that substrate suffers and wounds.

The utility model embodiment provides a kind of substrate protector; Be used to hold a substrate; Said substrate protector comprises conduction body and elasticity body, and said resilient sleeve body is used to be clamped in the edge of substrate, and said conduction body is wrapped in the outside of said elasticity body.

Preferably, said elasticity body offers first draw-in groove, and the edge clamping of substrate is held in first draw-in groove.

Preferably, the thickness of the said substrate of aspect ratio of said first draw-in groove big 0.1 millimeter～0.3 millimeter.

Preferably, the thickness of the said substrate of aspect ratio of said first draw-in groove is big 0.2 millimeter.

Preferably, it is different with the thickness of part correspondence position that it is held in said substrate downside that said elasticity body is held in the thickness of part of said substrate upside.

Preferably, the said elasticity body thickness that is held in the part of said substrate upside is held in the thickness of the part correspondence position of said substrate downside greater than it.

Preferably, said elasticity body is processed by high-temperature resistant rubber, sponge or other materials with pooling feature, and said conduction body is that electric conducting material is processed.

Preferably, said conduction body is established second draw-in groove, and the inwall of said second draw-in groove is fitted in the outer surface of said elasticity body.

Preferably, said resilient sleeve external surface caves inward and forms the holding section, and said conduction body is provided with the jut adaptive with said holding section, and said elasticity body cooperatively interacts through said holding section and said jut and is fixed in said second draw-in groove.

Preferably, said conduction body is a thin metal layer, and said conduction body is through screw or the glue fixing outer surface at the elasticity body.

The utility model is through holding the substrate protector on substrate; The edge card that is about to substrate is held in first draw-in groove of elasticity body; The conduction body is wrapped in the outside of elasticity body; The elasticity body cushions this bump when the bump that substrate receives, and the conduction body can avoid substrate wounded by static, so the elasticity body can avoid substrate in successive process or operating process, to be clashed into or static and damaging with the conduction body.

Description of drawings

Fig. 1 is assembled in substrate front view all around for the utility model substrate protector;

Partial sectional view when Fig. 2 holds substrate for the utility model substrate protector;

Fig. 3 is the cutaway view of the elasticity body of the utility model substrate protector;

Fig. 4 is the cutaway view of the conduction body of the utility model substrate protector;

Partial sectional view when Fig. 5 holds substrate for another embodiment of the utility model substrate protector.

The realization of the utility model purpose, functional characteristics and advantage will combine embodiment, further specify with reference to accompanying drawing.

Embodiment

Should be appreciated that specific embodiment described herein only in order to explanation the utility model, and be not used in qualification the utility model.

See figures.1.and.2, Fig. 1 is assembled in substrate front view all around for the utility model substrate protector, the partial sectional view when Fig. 2 holds substrate for the utility model substrate protector.The utility model substrate protector 1 comprises elasticity body 11 and conduction body 12, and the edge card of substrate 2 is held in the elasticity body 11, and conduction body 12 is wrapped in the outside of elasticity body 11.1 one-tenth strip of substrate protector; Some substrate protectors 1 join end to end substrate 2 are held in wherein, and promptly the edge of substrate 2 is trapped in the elasticity body 11, and plurality of elastic body 11 is wrapped in some conduction bodies 12; Two adjacent elasticity bodies 11 join end to end; Two adjacent conductive bodies 12 join end to end, and the impact that the periphery of 11 pairs of substrates 2 of elasticity body receives cushions, and conduction body 12 avoids the periphery of substrate 2 wounded by static.Certainly, in other embodiments, said substrate protector 1 also can only be clamped in three limits or the both sides of substrate.

Please combine Fig. 3, it is the cutaway view of the elasticity body 11 of the utility model substrate protector.Said elasticity body 11 comprises first draw-in groove 111 and holding section 112.First draw-in groove 111 is used for the shape of clamping substrate 2, the first draw-in grooves 111 and the shape adaptation of substrate 2 peripheries.Like substrate in specific embodiment 2 is cuboid, and then the cross section of first draw-in groove 111 is rectangular.Said holding section 112 is the formation that caves inward of the outer surface of elasticity body 11, and said holding section 112 is used for holding fixing with conduction body 12.

Please consult Fig. 4 in the lump, it is the cutaway view of the conduction body 12 of the utility model substrate protector.Said conduction body 12 is processed for electric conducting material, and it comprises second draw-in groove 121, and the inwall of said second draw-in groove 121 is fitted in the outer surface of said elasticity body 11.The downside of said conduction body 12 is provided with the jut 122 adaptive with holding section 112, elasticity body 11 and conduction body 12 cooperating together through holding section 112 and jut 122.Like the cuboid that is shaped as of jut in specific embodiment 122, then holding section 112 is for holding the cuboid groove of the jut 122 that is shaped as cuboid; Conduction body 12 is set in the outside of elasticity body 11, and the jut 122 of cuboid is fastened in the holding section 112 of cuboid, thereby elasticity body 11 is fixed in second draw-in groove 121.

Owing to the impact that substrate 2 upper surfaces and lower surface receive may be different, in specific embodiment, the thickness that elasticity body 11 holds substrate 2 upsides also equates with the thickness that holds substrate 2 downsides not to the utmost.The impact that the impact that receives like 2 upper surfaces of substrate in specific embodiment receives greater than its lower surface, then elasticity body 11 hold substrate 2 upsides the thickness of part greater than its thickness that is held in the part correspondence position of said substrate downside, vice versa.

In order to guarantee that substrate 2 can more easily pack in first draw-in groove 111 of elasticity body 11, and be difficult for from wherein coming off, preferably, the thickness of the aspect ratio substrate 2 of first draw-in groove 111 is big 0.1 millimeter～and 0.3 millimeter.Big 0.1 millimeter or 0.3 millimeter like the thickness of first draw-in groove, 111 aspect ratio substrates 2.Preferably, the thickness of the aspect ratio substrate 2 of first draw-in groove 111 is big 0.2 millimeter.

As everyone knows, because the needs of processing procedure, substrate 2 can place hot environment, and in order to protect the substrate 2 in hot environment, elasticity body 11 is preferably processed by resistant to elevated temperatures elastomeric material, sponge or other materials with pooling feature.When elasticity body 11 can be high temperature resistant, can get into hot environment and it is protected together with substrate 2, and need not elasticity body 11 is taken off from substrate 2 in order to avoid damage elasticity body 11; When elasticity body 11 can not be high temperature resistant,, substrate 2 needs elasticity body 11 is taken off in order to avoid damage elasticity body 11 when getting in the hot environments.As those skilled in the art known elastomeric material can be materials such as elastomeric material or sponge.

Elasticity body 11 can be arbitrary shape with conduction body 12 in the utility model, and like Fig. 3 and shown in Figure 4, the inboard of elasticity body 11 has first draw-in groove 111, its outer surface camber, and conduction body 12 is the arc-shaped conductive film of parcel elasticity body 11.

As shown in Figure 5, the partial sectional view when it holds substrate for another embodiment of the utility model substrate protector.The difference of this embodiment and the foregoing description is, elasticity body 11 ' the inboard have first draw-in groove, outer surface is a rectangle, conduction body 12 ' for parcel elasticity body 11 ' the rectangle body.

In other embodiments; The elasticity body is the arbitrary shape with first draw-in groove that holds substrate; The conduction body is the metal level that is wrapped in the external side of resilient sleeve; Through screw or the glue fixing outer surface at the elasticity body, this moment, the elasticity body need not to be provided with the holding section, and the conduction body need not to be provided with jut.

The utility model is through holding substrate protector 1 on substrate 2; The edge card that is about to substrate 2 is held in first draw-in groove 111 of elasticity body 11; Conduction body 12 is wrapped in the outside of elasticity body 11; 11 pairs of these bumps of elasticity body cushion when the bump that substrate 2 receives, and conduction body 12 can avoid substrate 2 wounded by static, so elasticity body 11 can avoid substrate 2 in successive process or operating process, to be clashed into conduction body 12 or static and damaging.

The above is merely the preferred embodiment of the utility model; Be not thus the restriction the utility model claim; Every equivalent structure or equivalent flow process conversion that utilizes the utility model specification and accompanying drawing content to be done; Or directly or indirectly be used in other relevant technical fields, all in like manner be included in the scope of patent protection of the utility model.

Claims (10)

1. a substrate protector is used to hold a substrate, it is characterized in that: said substrate protector comprises conduction body and elasticity body, and said resilient sleeve body is used to be clamped in the edge of substrate, and said conduction body is wrapped in the outside of said elasticity body.

2. substrate protector according to claim 1 is characterized in that, said elasticity body offers first draw-in groove, and the edge clamping of substrate is held in first draw-in groove.

3. substrate protector according to claim 2 is characterized in that, the thickness of the said substrate of aspect ratio of said first draw-in groove is big 0.1 millimeter ~ and 0.3 millimeter.

4. substrate protector according to claim 3 is characterized in that, the thickness of the said substrate of aspect ratio of said first draw-in groove is big 0.2 millimeter.

5. substrate protector according to claim 1 is characterized in that, it is different with the thickness of part correspondence position that it is held in said substrate downside that said elasticity body is held in the thickness of part of said substrate upside.

6. substrate protector according to claim 5 is characterized in that, the thickness that said elasticity body is held in the part of said substrate upside is held in the thickness of the part correspondence position of said substrate downside greater than it.

7. substrate protector according to claim 1 is characterized in that, said elasticity body is processed by high-temperature resistant rubber or sponge material, and said conduction body is that electric conducting material is processed.

8. substrate protector according to claim 1 is characterized in that, said conduction body is provided with second draw-in groove, and the inwall of said second draw-in groove is fitted in the outer surface of said elasticity body.

9. substrate protector according to claim 8; It is characterized in that; Said resilient sleeve external surface caves inward and forms the holding section; Said conduction body is provided with the jut adaptive with said holding section, and said elasticity body cooperatively interacts through said holding section and said jut and is fixed in said second draw-in groove.

10. the substrate protector described in according to Claim 8 is characterized in that, said conduction body is through screw or the glue fixing outer surface at the elasticity body.

Images