CN213293019U - Packaging structure for hyperbolic aluminum plate - Google Patents

Abstract

The application relates to a packaging structure for a hyperbolic aluminum plate, which comprises a first packaging box, a second packaging box sleeved outside the first packaging box, and a hyperbolic aluminum plate placed inside the first packaging box; the four side edges of the hyperbolic aluminum plate are abutted against the inner wall of the first packaging box, and the two curved surfaces are not in contact with the two inner walls of the first packaging box; the first packaging box comprises a corrugated paper layer arranged on the outer layer and a buffer layer arranged on the inner layer, and the corrugated paper layer and the buffer layer are bonded together. The double-curved aluminum plate is arranged inside the first packaging box, and the double-curved aluminum plate is isolated from the outside by the packaging structure, so that the double-curved aluminum plate is prevented from directly colliding with the outside, and the corrosion and the rusting of the double-curved aluminum plate caused by the direct contact with the outside environment are avoided; set up first packing carton into a cube square box that panel is folding, is connected into, reduced the joint line of first packing carton to a certain extent, reduce the inside effect of possibility of external liquid entering first packing carton.

Description

Packaging structure for hyperbolic aluminum plate

Technical Field

The application relates to the technical field of product packaging, in particular to a packaging structure for a hyperbolic aluminum plate.

Background

The hyperbolic aluminum plate mainly comprises a panel, reinforcing ribs and corner codes, wherein the corner codes are directly formed by bending and punching the panel, particularly, a polygonal plate is formed under the control of a computer data transmission module, a novel technology, a novel process and novel high-energy equipment are adopted, and fluorocarbon paint is sprayed on the corner codes, so that the hyperbolic aluminum plate has good cold and hot performances such as high temperature, baking, curing, processing and the like, can inhibit strong ultraviolet irradiation, and can keep the hyperbolic aluminum plate from fading and chalking for a long time, and has the advantages of long service life and the like.

Hyperbolic aluminum plate packing is the key, and inlayer waterproof packaging, the outer empty cardboard packing that much, aluminum plate etc. must accomplish dampproofing rain-proof in the transportation, and the anticorrosive liquid can not be mixed with materials such as humidity, oil, industrial chemicals and adorn. In the transportation process, collision prevention work needs to be carried out, particularly, the aluminum foil is easy to be damaged and collided, so that protection work needs to be carried out when goods are loaded, unloaded and transported, and the lifting appliance comprises a soft belt and a corner protector and the like, so that the goods can be safely reached.

SUMMERY OF THE UTILITY MODEL

In order to in transportation process and storage process, protection hyperbolic aluminum plate not damaged by the gouge, not corroded by external liquid, this application provides a packaging structure that hyperbolic aluminum plate used.

The application provides a packaging structure that hyperbolic aluminum plate used adopts following technical scheme:

a packaging structure for a hyperbolic aluminum plate comprises a first packaging box, a second packaging box sleeved outside the first packaging box, and the hyperbolic aluminum plate placed inside the first packaging box; four sides of hyperbolic aluminum plate and the inner wall butt of first packing carton do not contact between two curved surfaces and two inner walls of first packing carton.

Through adopting above-mentioned technical scheme, with hyperbolic aluminum plate setting in the inside of first packing carton, packaging structure keeps apart hyperbolic aluminum plate and external, prevents that hyperbolic aluminum plate is direct to collide with external, avoids leading to hyperbolic aluminum plate's corruption, corrosion with external environment direct contact.

Preferably, the first pack is provided as a flat cuboid cubic box, six faces of which are sealed.

By adopting the technical scheme, external water and corrosive solution are prevented from contacting the hyperbolic aluminum plate, and the hyperbolic aluminum plate is protected from corrosion and rusting.

Preferably, the first pack case includes a corrugated paper layer provided at an outer layer and a buffer layer provided at an inner layer, the corrugated paper layer and the buffer layer being bonded together.

Through adopting above-mentioned technical scheme, corrugated paper layer sets up at the skin, and when the light collision took place for the packing carton, corrugated paper layer can absorb the energy of light collision to protect packaging structure.

Preferably, a plurality of buffer cavities are uniformly arranged inside the buffer layer, and buffer strips are placed in the buffer cavities.

Through adopting above-mentioned technical scheme, set up the buffering strip in the inside of buffer layer, when packaging structure takes place great collision, if corrugated paper layer is destroyed, the inside buffering strip of buffer layer plays a role, absorbs the energy that the collision produced.

Preferably, the cross section of the buffer strip is zigzag, and two arms of the buffer strip abut against the inner wall of the buffer cavity.

Through adopting above-mentioned technical scheme, the buffering strip absorbs the energy, and its both arms draw close each other, and after the collision, buffering strip release energy resets, continues to protect the inside hyperbolic aluminum plate of packaging structure.

Preferably, a waterproof and corrosion-resistant layer is further bonded between the corrugated paper layer and the buffer layer.

By adopting the technical scheme, the water-resistant anticorrosive coating blocks outside permeated liquid, and prevents the hyperbolic aluminum plate from being corroded and rusted by the outside liquid.

Preferably, the waterproof and corrosion-resistant layer is a polytetrafluoroethylene plate.

By adopting the technical scheme, the polytetrafluoroethylene has good waterproof and corrosion-resistant capabilities, and can protect the hyperbolic aluminum plate from being corroded and rusted.

Preferably, the inner wall and the outer wall of the first packing box are tightly attached to the outer wall and the inner wall and the outer wall of the second packing box are same in cross-sectional structure.

Through adopting above-mentioned technical scheme, set packaging structure to bilayer structure, make packaging structure have better protective capacities.

Preferably, the first packing box is filled with foam particles for fixing the position of the hyperbolic aluminum plate.

Through adopting above-mentioned technical scheme, in certain size within range, can fix the hyperbolic aluminum plate of different shapes in packaging structure's inside, in the transportation, prevent that hyperbolic aluminum plate from rocking inside packaging structure.

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

1. the hyperbolic aluminum plate is arranged inside the first packaging box, the packaging structure isolates the hyperbolic aluminum plate from the outside, the hyperbolic aluminum plate is prevented from directly colliding with the outside, and corrosion and rusting of the hyperbolic aluminum plate due to direct contact with the outside environment are avoided;

2. the first packaging box is arranged into a cubic square box formed by folding and connecting one plate, so that the connecting seams of the first packaging box are reduced to a certain extent, and the possibility that external liquid enters the first packaging box is reduced;

3. when packaging structure takes place great collision, if corrugated paper layer is destroyed, the inside buffering strip of buffer layer plays a role, absorbs the energy that the collision produced, after the collision, buffering strip release energy resets, continues to protect the inside hyperbolic aluminum plate of packaging structure, and the water-resistant anticorrosive coating keeps off external infiltration's liquid, prevents that external liquid from corroding hyperbolic aluminum plate, corrosion.

Drawings

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

Fig. 2 is a plate body structure schematic diagram of a first packing box and a second packing box in the embodiment of the present application.

Description of reference numerals: 1. a first packaging box; 11. a corrugated paper layer; 12. a waterproof corrosion-resistant layer; 13. a buffer layer; 131. a buffer cavity; 132. a buffer strip; 14. foam particles; 2. a second packaging box; 3. a double curved aluminum plate.

Detailed Description

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

The embodiment of the application discloses packaging structure that hyperbolic aluminum plate used. Referring to fig. 1, a packaging structure for a hyperbolic aluminum plate includes a first packaging box 1, a second packaging box 2 sleeved outside the first packaging box 1, and a hyperbolic aluminum plate 3 disposed inside the first packaging box 1. The first packing box 1 is a flat and closed cubic box formed by folding and connecting a plate, so that connecting seams on the first packing box 1 are reduced to a certain extent, and the possibility that external liquid enters the inside of the first packing box 1 is reduced. Hyperbolic aluminum plate 3 sets up in first packing carton 1's inside, and its four sides and first packing carton 1's inner wall butt are gapped between two curved surfaces and first packing carton 1's the inner wall.

The second packing box 2 is sleeved outside the first packing box 1 and is tightly attached to the first packing box 1. The second packing box 2 and the first packing box 1 adopt the same cross section structure and mode to form a closed cubic box, and the materials of the second packing box and the first packing box are the same. The joint line dislocation set between second packing carton 2 and first packing carton 1 prevents that external water and the solution that has corrosivity from permeating into second packing carton 2's inside through joint line on second packing carton 2, and direct joint line department from first packing carton 1 gets into packaging structure, prevents to corrode hyperbolic aluminum plate 3, corrosion.

At first packing carton 1's inside packing foam particle 14, foam particle 14 fixes first packing carton 1 inside hyperbolic aluminum plate 3, in the transportation, prevents that hyperbolic aluminum plate 3 in the packaging structure from taking place to rock to protection hyperbolic aluminum plate 3 can not damage.

Referring to fig. 2, first packing carton 1 divides into interior middle and outer three-layer, the inlayer is buffer layer 13, buffer layer 13's inside is provided with the buffering cavity 131 of a plurality of rectangular shapes uniformly, buffering cavity 131 vertically sets up on each side of first packing carton 1, set up buffering strip 132 in buffering cavity 131, the cross section of buffering strip 132 is the Z style of calligraphy, two arms are parallel, with the inner wall butt of buffering cavity 131, when bumping, buffering strip 132 energy absorption, its two arms draw close each other, after the collision, buffering strip 132 release energy resets, continue to protect the inside hyperbolic aluminum plate 3 of packaging structure.

The middle layer is a waterproof anticorrosion layer 12, the waterproof anticorrosion layer 12 is a polytetrafluoroethylene plate, and polytetrafluoroethylene has good waterproof performance and corrosion resistance. When the external liquid permeates into the waterproof corrosion-resistant layer 12, the polytetrafluoroethylene plate blocks the external liquid to the outside, and the corrosion of the hyperbolic aluminum plate 3 by the external liquid are prevented.

The outer corrugated paper layer 11 that is, set up corrugated paper layer 11 outwardly, corrugated paper layer 1 can protect waterproof anti-corrosion layer 12, and when packaging structure bumps, corrugated paper layer 11 plays the effect of buffering in waterproof anti-corrosion layer 12 outside, and waterproof anti-corrosion layer 12 of protection can not be damaged by the bump when bumping.

The implementation principle of the packaging structure for the hyperbolic aluminum plate in the embodiment of the application is as follows: the corrugated paper layer 11, the waterproof and corrosion-resistant layer 12 and the buffer layer 13 are bonded together to form an organic whole of the whole packaging box structure. Divide into first packing carton 1 and second packing carton 2 with whole packaging structure to the joint dislocation set on first packing carton 1 and the second packing carton 2 prevents that external liquid from getting into packing carton inner structure from second packing carton 2's joint department infiltration, can not get into first packing carton 1 from first packing carton 1's joint department once more inside, has protected hyperbolic aluminum plate 3 not corroded, corrosion.

When collision happens, the corrugated paper layer 11 on the outer layer is firstly deformed and buffered, and the waterproof and corrosion-resistant layer 12 on the middle layer is protected from being deformed and broken due to collision to lose efficacy. The buffer strip 131 in the buffer layer 13 of the inner layer deforms and absorbs energy to protect the hyperbolic aluminum plate 3 in the packaging structure. The hyperbolic aluminum plate 3 is fixed by the foam particles 14 filled in the first packaging box 1, and the hyperbolic aluminum plate 3 does not slide relative to the first packaging box 1. The foam particles also act as a cushion when the impact is severe, if the packaging structure breaks.

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 (8)

1. The utility model provides a packaging structure that hyperbolic aluminum plate used which characterized in that: comprises a first packing box (1), a second packing box (2) sleeved outside the first packing box (1) and a hyperbolic aluminum plate (3) placed inside the first packing box (1); four sides of hyperbolic aluminum plate (3) and the inner wall butt of first packing carton (1), contactless between two curved surfaces and two inner walls of first packing carton (1), the inside packing of first packing carton (1) has foam particle (14) that are used for fixed hyperbolic aluminum plate (3) position.

2. The packaging structure for hyperbolic aluminum sheet according to claim 1, characterized in that: the first packaging box (1) is a flat rectangular cubic box, and six faces of the first packaging box (1) are sealed.

3. The packaging structure for the hyperbolic aluminum sheet according to claim 2, wherein: the first packaging box (1) comprises a corrugated paper layer (11) arranged on the outer layer and a buffer layer (13) arranged on the inner layer, wherein the corrugated paper layer (11) and the buffer layer (13) are bonded together.

4. The packaging structure for hyperbolic aluminum sheet according to claim 3, characterized in that: a plurality of buffer cavities (131) are uniformly arranged in the buffer layer (13), and buffer strips (132) are placed in the buffer cavities (131).

5. The packaging structure for hyperbolic aluminum sheet according to claim 4, characterized in that: the cross section of the buffer strip (132) is Z-shaped, and two arms of the buffer strip (132) are abutted against the inner wall of the buffer cavity (131).

6. The packaging structure for hyperbolic aluminum sheet according to claim 5, characterized in that: and a waterproof and corrosion-resistant layer (12) is further bonded between the corrugated paper layer (11) and the buffer layer (13).

7. The packaging structure for hyperbolic aluminum sheet according to claim 6, characterized in that: the waterproof and corrosion-resistant layer (12) is a polytetrafluoroethylene plate.

8. The packaging structure for hyperbolic aluminum sheet according to claim 1, characterized in that: the inner wall and the outer wall of the first packing box (1) are tightly attached to the outer wall and the inner wall and the outer wall of the second packing box (2), and the cross section structures of the first packing box and the second packing box are the same.

Images