CN218663288U - Shockproof anti-falling plastic uptake box - Google Patents

Abstract

The application discloses a shock-proof and drop-resistant plastic uptake box, which comprises a plastic uptake box body, wherein the middle part of the plastic uptake box body is sunken to form a first accommodating groove matched with the shape of a packaged product, and the bottom of the first accommodating groove is sunken downwards to form a second accommodating groove; the side wall of the first accommodating groove forms a limiting wall and a buffer wall which are distributed in a crossed manner, the size of the limiting wall is matched with that of a packaged product so as to clamp the packaged product, and the size of the buffer wall is larger than that of the packaged product and is communicated with the second accommodating groove; the side wall of the plastic uptake box body is provided with a reinforcing groove, the reinforcing groove is positioned between the spacing positions of the limiting wall and the buffer wall, and the reinforcing groove is communicated with the first accommodating groove; thereby solved current plastic uptake box whole comparatively singly thin, the shockproof effect is relatively poor, vibrations in the transportation easily lead to the product to rock and produce circumstances such as extrusion, collision or aversion, lead to the product to warp and impaired, influence subsequent transportation or the technical problem of selling.

Description

Shockproof anti-falling plastic uptake box

Technical Field

The application relates to a plastic uptake box technical field especially relates to a plastic uptake box that takes precautions against earthquakes and resist falling.

Background

The plastic-sucking box is a packaging box with a specific groove made of plastic hard sheets by adopting a plastic-sucking process, and the product is placed in the groove, so that the functions of protecting, packaging and beautifying the product are achieved, or the product is convenient to transport. The application of the plastic sucking disc is very wide, and the plastic sucking disc is used in the industries of plastic packaging, decoration, electronics, cosmetics, health care products and the like; to ensure the integrity of the product during shipping and distribution.

The existing plastic uptake box is thin and thin in whole, the shockproof effect is poor, vibration in the transportation process easily causes the product to shake, so that the conditions of extrusion, collision or displacement and the like are generated, the product is deformed and damaged, and subsequent transportation or sale is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem and provide an anti plastic uptake box that falls takes precautions against earthquakes, the plastic uptake box of this application has better shockproof and anti deformability, is difficult for leading to the product impaired in the transportation.

In order to achieve the above purpose, the technical scheme of the utility model has:

a shock-proof and anti-falling plastic uptake box comprises a plastic uptake box body, wherein the middle part of the plastic uptake box body is sunken to form a first accommodating groove matched with the shape of a packaged product, and the bottom of the first accommodating groove is sunken downwards to form a second accommodating groove; the side wall of the first accommodating groove forms a limiting wall and a buffer wall which are distributed in a crossed manner, the size of the limiting wall is matched with that of a packaged product so as to clamp the packaged product, and the size of the buffer wall is larger than that of the packaged product and is communicated with the second accommodating groove; the side wall of the plastic uptake box body is provided with a reinforcing groove, the reinforcing groove is located between the spacing positions of the limiting wall and the buffer wall, and the reinforcing groove is communicated with the first accommodating groove.

In the application, the plastic uptake box body is manufactured through a plastic uptake process, the first accommodating groove formed in the middle is used for fixing a packaged product, and the two sides of the product are clamped and fixed through the limiting walls, so that the product is stably placed on the plastic uptake box body, is not easy to fall off in the transportation process, and has good bearing stability; the limiting wall and the buffering wall are arranged in a crossed mode, and a space exists between the buffering wall and the product, so that the first accommodating groove is prevented from extruding the product during collision to further cause product deformation, and the first accommodating groove has shockproof and anti-falling functions while fixing the product; the second accommodating groove is arranged below the first accommodating groove and can be used for accommodating other accessories, the space is fully utilized, and the cavity enables the plastic uptake box body to have a certain deformation space when being extruded, so that the extrusion of the product in the vibration and collision processes is buffered, and the product is not easy to deform and damage; the reinforcing groove is positioned in the area between the limiting wall and the buffer wall and communicated with the first accommodating groove, the structural strength between the inner wall of the first accommodating groove and the outer wall of the plastic uptake box body is improved due to the arrangement of the reinforcing groove, the plastic uptake box body is not easy to deform when other contact objects collide hard, the anti-falling performance is good, and the product is easy to operate after being taken out of the plastic uptake box body; the plastic uptake box has simple integral structure and reasonable design, and has better shockproof and anti-deformation capabilities.

Preferably, the plastic uptake box body is square, the limiting wall and the buffer wall respectively correspond to the corners around the plastic uptake box, and the limiting wall and the buffer wall are both inclined.

Preferably, the reinforcing groove has an inverted trapezoidal shape.

Preferably, the outer side wall of the plastic uptake box body gradually inclines downwards from the top, and a square groove corresponding to the reinforcing groove is formed in the periphery of the plastic uptake box body.

Preferably, a plurality of strip-shaped arc-shaped grooves are formed in the periphery of the outer side wall of the plastic uptake box body. The structural strength of the outer side wall of the plastic uptake box body is enhanced by the arc-shaped grooves.

Preferably, the buffer wall is arc-shaped and communicated to the bottom surface of the second accommodating groove, and an inclined surface is arranged at the joint. The buffer wall and the second accommodating groove form a communicated state, the structure is simple, and the inclined surface is arranged to prevent the accessory from being displaced easily.

Preferably, the bottom surface of the second accommodating groove is provided with an anti-slip area; the anti-skid area is formed by arranging a plurality of conical convex blocks. The friction force of the bottom surface of the second accommodating groove is increased by the aid of the anti-slip area, and the accessory is not prone to shaking when placed.

Preferably, the plastic uptake box body is made of PVC material.

Drawings

FIG. 1 is a schematic view of the overall structure of a shock-proof and drop-resistant blister box provided by the present invention;

fig. 2 is a schematic structural view of the plastic uptake box body at another angle provided by the present invention;

fig. 3 is a schematic view of the bottom structure of the plastic uptake box body provided by the present invention.

Detailed Description

The embodiment of the application provides a shockproof anti-falling plastic uptake box for solving the whole single thin of current plastic uptake box, shockproof effect is relatively poor, vibrations in the transportation easily lead to the product to rock and then produce the circumstances such as extrusion, collision or aversion, lead to the product to warp and impaired, influence subsequent transportation or the technical problem of selling.

In order to make the objects, features and advantages of the present invention more apparent and understandable, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the embodiments described below are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort belong to the protection scope of the present application.

Referring to fig. 1 to 3, an embodiment of the present application provides a shock-proof and drop-resistant blister box, which includes a blister box body 100, wherein a first receiving groove 200 adapted to a shape of a packaged product is formed in a central portion of the blister box body 100, and a second receiving groove 300 is formed in a downward recess of a bottom of the first receiving groove 200; the side wall of the first accommodating groove 200 forms a limiting wall 210 and a buffer wall 220 which are distributed in a crossed manner, the size of the limiting wall 210 is matched with that of a packaged product so as to clamp the packaged product, and the size of the buffer wall 220 is larger than that of the packaged product and is communicated with the second accommodating groove 300; the side wall of the plastic uptake box body 100 is provided with a reinforcing groove 230, the reinforcing groove 230 is located between the spacing positions of the limiting wall 210 and the buffer wall 220, and the reinforcing groove 230 is communicated with the first receiving groove 200.

Specifically, the plastic uptake box body 100 is formed in one step through a plastic uptake process, the upper end surface of the plastic uptake box body 100 is recessed downwards to form a first accommodating groove 200 and a second accommodating groove 300 with different depths, the shape of the first accommodating groove 200 is matched with the shape of a product, the product is clamped and fixed through the first accommodating groove 200, and the bottom surface of the first accommodating groove 200 is a supporting surface of the product; the second accommodating groove 300 is formed by sinking the middle part of the bottom surface of the first accommodating groove 200 downwards, and is in a track shape, and the integral depth is less than the depth of the plastic uptake box body 100; the first accommodating groove 200 is circular, the side walls form a limiting wall 210 and a buffer wall 220 which are distributed in a crossed manner, and the limiting walls 210 on the two sides clamp the outside of the product so as to fix the product in the blister box; the size of the buffer wall 220 is larger than that of the product, a space exists between the buffer wall 220 and the outer side of the product, the buffer walls 220 on the two sides are communicated to the bottom of the second accommodating groove 300 and form a whole with the second accommodating groove 300, and the buffer wall is simple in structure and convenient to process; the second accommodating groove 300 can be used for accommodating other accessories, so that the space is fully utilized, and meanwhile, when the plastic uptake box body 100 deforms due to collision and extrusion, the second accommodating groove 300 and the buffer wall 220 both provide buffer spaces, so that the product is prevented from deforming and damaging due to collision and extrusion caused by vibration; the reinforcing groove 230 of the plastic uptake box body 100 is recessed downward from the upper end surface and is communicated with the first accommodating groove 200, so that the structural strength between the side wall of the first accommodating groove 200 and the side wall of the plastic uptake box body 100 is increased, and the outer side wall of the plastic uptake box body 100 is not easy to deform in the collision extrusion process during the transportation process, thereby ensuring the complete packaging of the product.

Further, the plastic uptake box body 100 is square, the limiting wall 210 and the buffer wall 220 correspond to the corners of the plastic uptake box, and the limiting wall 210 and the buffer wall 220 are both inclined. Spacing wall 210 is the crisscross distribution with buffer wall 220, is located four turnings of plastic-absorbing box body 100 respectively for form trapezoidal form between spacing wall 210 and the turning, form three horn shapes between buffer wall 220 and the turning, strengthened the structural strength of corner, plastic-absorbing box body 100 non-deformable, spacing wall 210 of slope form is more fastened when making fixed product, and has reduced the size cooperation precision of spacing wall 210 and product, sparingly processing cost.

Further, the reinforcement groove 230 has an inverted trapezoidal shape. The reinforcing groove 230 is arranged on the peripheral side wall of the plastic uptake box body 100, is recessed from the top, is arranged in the area between the limiting wall 210 and the buffer wall 220, and is communicated with the first accommodating groove 200; the reinforcing groove 230 increases the connecting wall between the side wall of the first receiving groove 200 and the outer side wall of the blister pack, thereby enhancing the structural strength of the first receiving groove 200.

Further, the outer sidewall of the plastic uptake box body 100 is gradually inclined from the top to the bottom, and the outer periphery is provided with a square groove 110 corresponding to the position of the reinforcing groove 230. The outer side wall of the plastic uptake box body 100 is surrounded with a plurality of strip-shaped arc-shaped grooves 120. The peripheral side walls of the plastic uptake box bodies 100 are all gradually inclined from top to bottom, the space between the interior and the side walls of the first accommodating groove 200 and the second accommodating groove 300 is gradually increased from the upper end face to bottom, and when the plurality of plastic uptake box bodies 100 are assembled, the inclined outer side walls enable the plastic uptake box bodies 100 not to easily shake to cause displacement; the position of square groove 110 is corresponding with the position of reinforcing groove 230, and down extends by the upper end, forms the space of operation, is convenient for getting of plastic uptake box body 100 and puts, and a plurality of arc grooves 120 that the lateral wall encloses and establishes extend to terminal surface down by the up end, strengthen the structural strength of lateral wall.

Further, the buffer wall 220 is arc-shaped and connected to the bottom surface of the second receiving groove 300, and the connection portion is provided with an inclined surface 310. The two sides of the second receiving groove 300 and the buffer wall 220 form a continuous runway-shaped groove, the buffer wall 220 and the bottom of the second receiving groove 300 form an inclined surface 310, when accessories of packaged products are placed in the second receiving groove 300, the inclined surfaces 310 on the two sides form clamping surfaces, the two ends of the accessories can be limited, the accessories are not prone to being separated from the second receiving groove 300 in the transportation process, and the whole package is kept stable.

Further, the bottom surface of the second receiving groove 300 is provided with an anti-slip region 320; the anti-slip region 320 is formed by arranging a plurality of conical bumps. The anti-slip region 320 is located at the bottom of the second receiving groove 300, the friction force at the bottom of the second receiving groove 300 is increased by the tapered protruding block, when the accessory is placed in the second receiving groove 300, the moving resistance is increased, and the accessory is not easy to shake and shift during the use of the plastic uptake box.

In this embodiment, the side walls of the first receiving groove 200 of the plastic uptake box body 100 are separated to form the limiting walls 210 and the buffering walls 220, and are distributed in a pairwise crossing manner, the first receiving groove 200 is used for fixing the packaged product, the product is clamped and fixed by the limiting walls 210 distributed oppositely, the fixing and taking out are both convenient to implement, the size of the buffering walls 220 is larger than the size of the product, a space exists between the buffering walls and the product, and the buffering walls are communicated with the bottom of the second receiving groove 300, when the plastic uptake box body 100 deforms due to collision and extrusion, the space of the second receiving groove 300 and the buffering walls 220 form a space for buffering deformation, so that the packaged product is not easy to deform and damage; the reinforcing groove 230 of the plastic uptake box body 100 is in an inverted trapezoid shape, so that the structural strength between the first accommodating groove 200 and the outer side wall is enhanced; the plastic uptake box body 100 has simple integral structure and production process, is easy to implement, and effectively prevents the product from deforming and damaging in the transportation process.

Variations and modifications to the above-described embodiments may occur to those skilled in the art, in light of the above teachings and teachings. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and changes to the present invention should fall within the protection scope of the claims of the present invention. Furthermore, although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.

Claims (8)

1. A shock-proof and anti-falling plastic uptake box is characterized by comprising a plastic uptake box body, wherein the middle part of the plastic uptake box body is sunken to form a first accommodating groove matched with the shape of a packaged product, and the bottom of the first accommodating groove is sunken downwards to form a second accommodating groove; the side wall of the first accommodating groove forms a limiting wall and a buffer wall which are distributed in a crossed manner, the size of the limiting wall is matched with that of a packaged product so as to clamp the packaged product, and the size of the buffer wall is larger than that of the packaged product and is communicated with the second accommodating groove; the side wall of the plastic uptake box body is provided with a reinforcing groove, the reinforcing groove is located between the spacing positions of the limiting wall and the buffer wall, and the reinforcing groove is communicated with the first accommodating groove.

2. The plastic uptake box of claim 1, wherein the plastic uptake box body is square, the limiting wall and the buffering wall respectively correspond to the corners of the plastic uptake box, and the limiting wall and the buffering wall are both inclined.

3. A shock and drop resistant blister pack according to claim 1, wherein said stiffening channel is in the shape of an inverted trapezoid.

4. The plastic uptake box of claim 1, wherein the outer sidewall of the plastic uptake box body is inclined gradually from the top to the bottom, and a square groove corresponding to the reinforcing groove is provided at the periphery.

5. The shock-proof and drop-resistant blister box according to claim 1, wherein the outer side wall of the blister box body is surrounded by a plurality of strip-shaped arc-shaped grooves.

6. The shock-proof and drop-resistant blister box according to claim 1, wherein the buffer wall is circular and is connected to the bottom surface of the second receiving groove, and an inclined surface is provided at the connection.

7. The shock-proof and drop-resistant blister box according to claim 1, wherein the bottom surface of the second receiving groove is provided with a non-slip region; the anti-skid area is formed by arranging a plurality of conical convex blocks.

8. The shock and fall resistant blister pack according to claim 1, wherein the blister pack body is made of PVC material.

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