CN215324024U - Plastic sucking box - Google Patents

Abstract

The utility model relates to a plastic uptake box relates to the field of product transfer device in a poor light, and it includes the plastic uptake box body, the plastic uptake box body shaping has a plurality of standing grooves that are used for placing the product in a poor light, the shaping has a plurality of corresponding products in a poor light to spout the groove of dodging in yard region in the standing groove. The influence of the static liquid on the dyne value test of the backlight product can be effectively reduced.

Description

Plastic sucking box

Technical Field

The application relates to a product transfer device's field is shaded especially relates to a plastic uptake box.

Background

In the backlight module industry, after the production of backlight products is completed, a tiled plastic suction box is often adopted to package and transport the backlight products. However, in the related art, the tiled plastic uptake box is made of plastic, and in the transferring process, certain friction is generated between the backlight product and the tiled plastic uptake box, which can cause generation of static electricity, thereby having relatively great influence on the qualification rate of the backlight product.

In order to reduce the influence of static electricity on the backlight product, in the related art, a layer of static electricity liquid is coated on the combined wall of the flat plastic suction box so as to reduce the influence of the static electricity on the backlight product in the transportation process.

However, in the actual production and manufacturing process, after the transfer is completed, the two-dimensional code is sprayed on the backlight product through the ink, so that each backlight product is conveniently recorded, before the two-dimensional code is sprayed, in order to ensure the quality of ink spraying, a cause value test is required to be performed on the backlight product, and after the cause value reaches the standard, different inks are selected according to the cause value for spraying.

In view of the above related technologies, the inventor believes that, as the electrostatic liquid is coated in the plastic suction box, in the transferring process, the plastic suction box and the backlight product are prone to vibration and friction, the electrostatic liquid on the plastic suction box is transferred to the backlight product, and the electrostatic liquid is transferred to the backlight product, so that the dyne value test of the backlight product is not up to standard, and the qualification rate of the backlight product is affected.

SUMMERY OF THE UTILITY MODEL

In order to reduce the influence of the electrostatic liquid on the dyne value test of a backlight product, the application provides a plastic uptake box.

The application provides a blister pack adopts following technical scheme:

the utility model provides a blister box, includes the blister box body, the blister box body shaping has a plurality of standing grooves that are used for placing the product in a poor light, the shaping has a plurality of corresponding products in a poor light to spout the groove of dodging in the yard region.

Through adopting above-mentioned technical scheme, dodge the groove and can make the product of being shaded place when the standing groove, be shaded and need spout the yard region position and dodge the inslot on the product, can make the product of being shaded spout the yard region and be the clearance setting with the inner wall of plastic uptake box body to can effectually reduce the transportation in-process electrostatic liquid and shift to the product of being shaded and spout the yard region, thereby can effectually reduce because of the influence that the electrostatic liquid spouts the regional reach of yard because of the value test to the product of being shaded.

Optionally, the sum of the depths of the placing groove and the avoiding groove is smaller than the overall thickness of the plastic suction box body.

Through adopting above-mentioned technical scheme, at the in-process of placing, because the standing groove is less than the holistic thickness of blister box body with the degree of depth sum of dodging the groove, can effectually reduce the standing groove and dodge the diapire of groove and contact the blister box body that ground or below stacked to reduce the influence of rigid shock transmission to the product of being shaded to the product in a poor light in the transportation.

Optionally, the edge of the outer ring of the blister box body is folded to form a first supporting part; the cross section of the first supporting part is in a step shape.

Through adopting above-mentioned technical scheme, supporting part one can be supported the blister box body, further reduces the standing groove and dodges the possibility that the position that the groove corresponds the blister box body contacts ground or other debris to reduce the standing groove and dodge the possibility that the flute profile becomes, lead to the possibility of dodging groove and product contact in a poor light because of deformation in order to reduce, and the transversal stairstepping of personally submitting of supporting part, structural strength that can effectual enhancement supporting part one optimizes the stability of supporting.

Optionally, a plurality of dislocation supporting parts are formed in the first supporting part in a concave manner; the dislocation supporting part sets up to a plurality ofly, a plurality of dislocation supporting part interval distribution is in the different step face of supporting part one.

Through adopting above-mentioned technical scheme, when the dislocation supporting part can further assist the intensity of strengthening the blister box body border, can also be when a plurality of blister box bodies superpose, for separating two adjacent blister box bodies provide comparatively stable application of force point relatively to supplementary will two adjacent blister box bodies part.

Optionally, a plurality of placing grooves are arranged, and at least one first auxiliary groove is concavely formed between every two adjacent placing grooves.

By adopting the technical scheme, the first auxiliary groove can provide a certain moving space for taking and placing the backlight product from the side part of the placing groove, so that the backlight product can be taken out of the placing groove conveniently; simultaneously, the first auxiliary groove can also be supported at the edge between the adjacent placing grooves of the adjacent blister box bodies through abutting connection, so that the possibility of deformation of the groove walls of the placing grooves is further reduced.

Optionally, an auxiliary groove ii for assisting in taking out the backlight product is formed at the edge of the placement groove.

Through adopting above-mentioned technical scheme, when needs take out the product in a poor light from the standing groove, auxiliary groove two can provide certain activity space for taking out the product in a poor light.

Optionally, at least one groove for placing the backlight product protruding module is formed at the edge of the placing groove.

By adopting the technical scheme, the protruding module of the backlight product can be placed in the groove.

Optionally, at least one adsorption area which is arranged flatly is formed on the plastic suction box body.

Through adopting above-mentioned technical scheme, when needs are transported to the blister pack box body, accessible vacuum adsorption device adsorbs in the adsorption zone, takes out the blister pack box body and does the transportation.

Optionally, the blister box body is provided with at least one air hole.

Through adopting above-mentioned technical scheme, when the gas pocket can effectually destroy a plurality of plastic uptake box bodys stack and place, the negative pressure that produces between two adjacent plastic uptake box bodys to reduce the possibility of taking out a plurality of plastic uptake box bodys simultaneously.

Optionally, the depth of the avoidance groove is 0.2-0.5 mm.

Through adopting above-mentioned technical scheme, when can reduce the box wall of plastic uptake box body and the possibility of being shaded the product contact, can also reduce the influence of making the shaping of plastic uptake box body itself.

In summary, the present application includes at least one of the following beneficial technical effects:

the shaping is when dodging the groove in the blister pack body can make the product of being shaded place in the standing groove, and the product of being shaded is gone up to need to spout a yard region and is located and dodge the inslot, can be so that the inner wall that spouts a yard region and blister pack body of product in a poor light be the clearance setting to can effectually reduce the transportation in-process electrostatic liquid and shift to the product of being shaded and spout a yard region, thereby can effectually reduce because of the influence that the value tested that reaches of electrostatic liquid spouts a yard region to the product of being shaded.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present application;

fig. 2 is a schematic sectional view of line a-a in fig. 1.

Description of reference numerals: 1. a plastic suction box body; 11. a placement groove; 111. a second auxiliary groove; 112. a groove; 12. an avoidance groove; 13. a first support part; 131. a support ring plate; 132. a dislocation support part; 14. a first auxiliary groove; 15. an adsorption zone; 16. and (4) air holes.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses a plastic uptake box. In this application the "dyne value" is the surface tension coefficient. Is defined as the force between two adjacent parts of the surface of the object which pulls each other in a unit length. Wherein, 1 dyne =10^-5And (4) cattle.

Referring to fig. 1 and 2, the blister box includes a blister box body 1, and the blister box body 1 is a rectangular box body structure. Of course, in other embodiments, the blister case 1 may have other shapes, such as a polygonal case structure, e.g., a triangle, a pentagon, etc., as required.

The box wall of the plastic uptake box body 1 is concavely formed with a plurality of placing grooves 11 for placing backlight products. The placing grooves 11 may be provided in one or more according to the size of the backlight product. In the embodiment of the application, the placing grooves 11 are arranged to be six, six placing grooves 11 are uniformly distributed on the blister box body 1 in an array manner, the six placing grooves 11 are divided into two groups, each group comprises three placing grooves 11, the three placing grooves 11 in the same group are linearly arranged, the arrangement directions of the two groups of placing grooves 11 are parallel to each other, and the protruding parts between the two adjacent placing grooves 11 are larger than the thickness of the backlight product, so that the backlight product is completely placed in the placing grooves 11. In other embodiments, the placing slots 11 may also be provided in one, two, three or any other number, and the placing slots 11 may be arranged arbitrarily, for example, in a ring shape, a polygonal distribution, etc., according to the arrangement requirement.

Referring to fig. 1 and 2, a plurality of avoiding grooves 12 corresponding to the code spraying area on the backlight product are formed in the groove wall of the placing groove 11 in a concave manner, the depth of the avoiding grooves 12 is 0.2-0.5mm, and the depth of the avoiding grooves 12 can be any value within 0.2-0.5mm, such as 0.2mm, 0.3mm, 0.4mm and the like, and is 0.3mm in the embodiment of the present application. When the plastic suction box is used, the depth of the avoiding groove 12 is 0.2-0.5mm, so that the influence on the forming of the plastic suction box body 1 can be reduced, a relatively good avoiding effect is kept, and the possibility that static liquid on the plastic suction box body 1 is transferred to a backlight product is reduced; in addition, when taking out the backlight product from the placing groove 11, the avoiding groove 12 can further provide a certain space for taking and placing the backlight product, so that the backlight product can be taken out more conveniently.

The avoiding groove 12 can be set to be one or more, the avoiding groove 12 in the placing groove 11 is set to be one, so that in the process of transferring the backlight product, the area of the backlight product needing ink jet corresponds to the avoiding groove 12, the electrostatic liquid on the plastic suction box body 1 can be effectively reduced, the area of the backlight product needing ink jet is transferred, and the possibility that the backlight product is unqualified in the dyne value test can be effectively reduced.

The side of the placing groove 11 is concavely formed with at least one groove 112 for placing the backlight product protruding module, and one or more grooves 112 may be arranged on the same placing groove 11. And in the present embodiment, the grooves 112 of two adjacent placing grooves 11 communicate with each other.

Referring to fig. 1 and 2, the outer ring edge of the blister box body 1 is formed with a first supporting portion 13 by folding, the first supporting portion 13 is formed by folding the outer ring edge of the blister box body 1 in a direction opposite to the opening of the placing groove 11, and the length of the first supporting portion 13 in the depth direction of the placing groove 11 is greater than the sum of the depths of the placing groove 11 and the avoiding groove 12, so that the sum of the depths of the placing groove 11 and the avoiding groove 12 is smaller than the thickness of the whole blister box body 1.

The cross section outline of the first support part 13 is in a step shape, so that the strength of the plastic suction box body 1 and the stability supported by the first support part 13 are improved. When the blister box body 1 is placed, the supporting part 13 can be used for supporting, the possibility that the groove walls of the placing groove 11 and the avoiding groove 12 contact the ground or other sundries is reduced, and therefore the possibility that the electrostatic liquid is transferred to a backlight product in the transferring process is further reduced. In other embodiments, the cross section of the first support portion 13 may also be arc-shaped, zigzag-shaped, or linear.

Referring to fig. 1 and 2, the sunken shaping of outer wall of the ladder profile shape of supporting part one 13 has a plurality of dislocation supporting parts 132, dislocation supporting part 132 can set up to one or more, dislocation supporting part 132 sets up to a plurality ofly in the embodiment of this application, and a plurality of dislocation supporting parts 132 encircle the setting of plastic uptake box body 1, in order to be used for in the use, when further strengthening supporting part one 13's support intensity, can also be when a plurality of plastic uptake box bodies 1 superpose and place, for separating two adjacent plastic uptake box bodies 1, provide comparatively stable application of force point, so that separate two adjacent plastic uptake box bodies 1, optimize the result of use.

In addition, a plurality of dislocation supporting parts 132 are interval distribution on the different step faces of a supporting part 13, in order to reach when a plurality of plastic uptake box bodys 1 superpose mutually and place, can be through misplacing the supporting part 132 dislocation on the different plastic uptake box bodys 1, make the diapire of dislocation supporting part 132 can butt in the step face of a supporting part 13 on another plastic uptake box body 1 that stacks, make two adjacent plastic uptake box bodys 1 form the clearance, reach the effect that the plastic uptake box body 1 supported to the top, reduce the possibility that the product is pressed bad in a poor light when placing.

The edge of the first supporting part 13 is turned over towards the direction far away from the center of the plastic suction box body 1 to form a supporting ring plate 131, so that the contact area between the first supporting part and the supporting surface is increased, the stability during supporting is optimized, and the possibility that the first supporting part 13 deforms during supporting can be reduced.

At least one auxiliary groove I14 for auxiliary support is formed between every two adjacent placing grooves 11, the auxiliary groove I14 is formed by sinking the part between every two adjacent placing grooves 11 in the direction opposite to the opening of the placing groove 11, one or more auxiliary grooves I14 can be arranged, the depth of the auxiliary groove I14 is larger than that of the avoiding groove 12 so as to support the side part of the placing groove 11, and the possibility that the groove wall of the avoiding groove 12 is contacted with a backlight product due to the deformation of the edge of the side part of the placing groove 11 is reduced; and simultaneously, the backlight product can be taken and placed from the side part of the backlight product through the auxiliary groove I14.

In addition, in order to facilitate taking out the backlight product from the placing groove 11, at least one second auxiliary groove 111 is concavely formed on the opening edge of the placing groove 11, and the second auxiliary groove 111 is communicated with the placing groove 11, so that when the backlight product needs to be taken out, a moving space for taking out the backlight product can be provided through the second auxiliary groove 111, and the backlight product can be taken out conveniently; meanwhile, the strength of the edge of the placing groove 11 can be enhanced, and the possibility of extrusion on a backlight product is reduced.

Referring to fig. 1 and 2, the molding of blister pack body 1 has at least one adsorption zone 15 that levels the setting, and adsorption zone 15 sets up to four in the embodiment of this application to four adsorption zones 15 set up respectively in four bight positions of blister pack body 1, when doing the transportation to blister pack body 1 through equipment, accessible adsorption equipment adsorbs in four adsorption zones 15, for example adsorbs in four adsorption zones 15 through vacuum chuck, so that when transporting, can also increase the stability of adsorbing the transportation in-process.

Simultaneously, because before transporting, the plastic uptake box body 1 is placed for a plurality of superpositions, in order to reduce the negative pressure that produces because of closely laminating between the adjacent plastic uptake box body 1, the condition that leads to a plurality of plastic uptake box bodies 1 of disposable absorption appears, and at least one gas pocket 16 has been seted up to plastic uptake box body 1, and gas pocket 16 runs through in the box wall of plastic uptake box body 1.

Referring to fig. 1 and 2, the number of the air holes 16 may be one or more, in the embodiment of the present invention, five air holes 16 are provided between two sets of the placing grooves 11, and the five air holes 16 are linearly arranged, so as to exhaust air in the middle of the blister box 1 and reduce the possibility of negative pressure generation.

The implementation principle of this application embodiment plastic uptake box does: before transportation, when the blister box bodies 1 need to be adsorbed, the possibility of negative pressure generated between two adjacent blister box bodies 1 can be effectively reduced through the plurality of air holes 16; during transportation, the plastic box body 1 can be adsorbed in the adsorption area 15 through a vacuum adsorption device so as to transport the plastic box body; and after the product of being shaded is placed in standing groove 11, dodge the setting of groove 12 corresponding dodge groove 12, can be through dodging the effectual region that needs the inkjet in the product of being shaded and the possibility of the electrostatic liquid contact on the blister pack box body 1 that reduces of groove 12 to can support the border and the middle part intermediate position of blister pack box body 1 through a supporting part 13 and an auxiliary tank 14, reduce and make because of the deformation of blister pack box body 1 and dodge the possibility of groove 12 and the product contact of being shaded.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a blister box, includes blister box body (1), its characterized in that: the plastic uptake box body (1) is provided with a plurality of placing grooves (11) for placing backlight products, and a plurality of avoiding grooves (12) corresponding to code spraying areas of the backlight products are formed in the placing grooves (11).

2. A blister pack according to claim 1, wherein: the sum of the depths of the placing groove (11) and the avoiding groove (12) is less than the thickness of the whole plastic suction box body (1).

3. A blister pack according to claim 1, wherein: the edge of the outer ring of the plastic suction box body (1) is folded and formed with a first supporting part (13); the cross section of the first supporting part (13) is in a step shape.

4. A blister pack according to claim 3, wherein: a plurality of dislocation supporting parts (132) are concavely formed on the first supporting part (13); the dislocation supporting part (132) is arranged to be a plurality of, and the dislocation supporting part (132) is distributed on different step surfaces of the first supporting part (13) at intervals.

5. A blister pack according to claim 1, wherein: the plurality of placing grooves (11) are provided, and at least one auxiliary groove I (14) is concavely formed between every two adjacent placing grooves (11).

6. A blister pack according to claim 1, wherein: and a second auxiliary groove (111) for assisting the taking out of the backlight product is formed at the edge of the placing groove (11).

7. A blister pack according to claim 1, wherein: the edge of the placing groove (11) is formed with at least one groove (112) for placing a backlight product protruding module.

8. A blister pack according to claim 1, wherein: at least one adsorption area (15) which is arranged flatly is formed on the plastic suction box body (1).

9. A blister pack according to any one of claims 1 to 8, wherein: the plastic suction box body (1) is provided with at least one air hole (16).

10. A blister pack according to any one of claims 1 to 8, wherein: the depth of the avoiding groove (12) is 0.2-0.5 mm.

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