CN216183505U - Paperboard capable of realizing efficient buffering function - Google Patents

Abstract

The utility model discloses a paperboard capable of realizing a high-efficiency buffering function, which comprises: go up the cardboard, one side is connected with cuts apart the cardboard, what cut apart the cardboard overlook is horizontal and longitudinal array and distributes, and cuts apart the inside equidistant groove of having seted up the rhombus of cardboard, the surface connection who cuts apart the cardboard has the shock attenuation cardboard, the wave structure is regarded as to the owner of shock attenuation cardboard, lower cardboard, one side is connected with the shock attenuation cardboard, down cardboard and shock attenuation cardboard be connected with one side and cut apart the cardboard. This can realize high-efficient buffer function's cardboard, it cuts apart cardboard and shock attenuation cardboard to go up cardboard one side and be connected with respectively, later will descend the cardboard to install in the one side of cutting apart cardboard and shock attenuation cardboard and keeping away from the cardboard, when cardboard and last cardboard receive external force extrusion down, the wave type of shock attenuation cardboard and the rhombus structure of cutting apart the cardboard cushion external force to make by last cardboard, cut apart the cardboard, the cardboard that shock attenuation cardboard and lower cardboard constitute has fine buffer function.

Description

Paperboard capable of realizing efficient buffering function

Technical Field

The utility model relates to the technical field of paperboards, in particular to a paperboard capable of realizing an efficient buffering function.

Background

The paperboard is also called paperboard. The thick paper sheet is made up by using various paper pulps and making them be mutually interwoven. The distinction between cardboard and paper is usually made in terms of basis weight and thickness, and the cardboard is used by placing it in a given position or by folding it into a box for storage of the objects.

This prior art solution also presents the following problems when in use:

1. the cardboard does not have a buffering function when in use, so that the inner part of the device is easy to damage when in use;

2. the paperboard has no protective structure when in use, and when the device is subjected to rainwater, the paperboard is easy to damage;

improvements are needed to address the above issues to meet market demands.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a paperboard capable of realizing an efficient buffering function, and aims to solve the problem that the paperboard does not have a buffering function when in use, so that the inner part of the device is easy to damage when in use.

In order to achieve the purpose, the utility model provides the following technical scheme: a paperboard capable of achieving an efficient cushioning function, comprising:

the shock absorption paperboard comprises an upper paperboard, wherein one side of the upper paperboard is connected with split paperboards, the split paperboards are transversely and longitudinally distributed in an array mode when being overlooked, rhombic grooves are formed in the split paperboards at equal intervals, the surfaces of the split paperboards are connected with shock absorption paperboards, and the shock absorption paperboards are mainly in a wave-shaped structure;

lower cardboard, one side is connected with the shock attenuation cardboard, lower cardboard is connected with the same one side of shock attenuation cardboard and cuts apart the cardboard, the shock attenuation cardboard is kept away from one side of cardboard down and is connected with the cardboard.

Preferably, one side surface of lower cardboard is connected with the waterproof membrane, the waterproof membrane is provided with two, and one side of another waterproof membrane is connected with the cardboard, and through above-mentioned structure, the waterproof membrane can protect the surface of last cardboard and lower cardboard.

Preferably, the surface of the upper paperboard is connected with a compression column, the compression column is of a cylindrical structure, the surface of the compression column is tangent to the surface of the waterproof membrane, and the compression column can compress and position the waterproof membrane through the structure.

Preferably, the two ends of the compression column are fixedly connected with clamping blocks, the overlooking cross section of each clamping block is of an I-shaped structure, the clamping blocks are clamped on the surface of the frame, and the clamping blocks can be clamped on the surface of the frame through the structure.

Preferably, frame one end gomphosis is on last cardboard and lower cardboard, and mutual riveting between frame and last cardboard and the lower cardboard to the inner wall size of frame and the outer wall size phase-match of last cardboard and lower cardboard, through above-mentioned structure, the frame can protect the edge of going up cardboard and lower cardboard.

Preferably, the inner wall of the frame is fixedly connected with a butt-joint block, the surface of the butt-joint block is fixedly connected with a convex block, the cross section of the convex block is of a semicircular structure, the convex block is connected with the upper paperboard and the lower paperboard in a clamping manner, and the convex block can be clamped on the inner walls of the upper paperboard and the lower paperboard through the structure.

Compared with the prior art, the utility model has the beneficial effects that: this can realize high-efficient buffer function's cardboard, by last cardboard, cut apart cardboard, shock attenuation cardboard and the cardboard that the cardboard constitutes down have fine buffer function, the water-proof membrane can carry out waterproofly down cardboard and last cardboard surface, avoids the marginal damage of cardboard and last cardboard down.

1. Will go up cardboard one side and be connected with respectively and cut apart cardboard and shock attenuation cardboard, later will descend the cardboard to install in the one side of cutting apart cardboard and shock attenuation cardboard and keeping away from the cardboard, when cardboard and last cardboard receive external force extrusion down, the wave type of shock attenuation cardboard and the rhombus structure of cutting apart the cardboard cushion external force to make by last cardboard, cut apart the cardboard, the cardboard that shock attenuation cardboard and lower cardboard constitute have fine buffer function.

2. Place the one side of cardboard and last cardboard under with the waterproof membrane, later with the compression leg and butt joint the waterproof membrane to make the fixture block and the mutual block of frame at compression leg both ends, thereby install the waterproof membrane on the surface of cardboard and last cardboard down, make the waterproof membrane carry out waterproofly to cardboard and last cardboard surface down.

3. Install the frame on the surface of cardboard and last cardboard down for the butt joint piece gomphosis is under between cardboard and the last cardboard, and the lug is mutually block with cardboard and last cardboard down simultaneously, thereby installs cardboard and last cardboard under with the frame location, makes the frame protect the edge of cardboard and last cardboard down, avoids the marginal damage of cardboard and last cardboard down.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic top view of the cross-sectional structure of the present invention;

FIG. 3 is a schematic top view of the upper paperboard of the present invention;

FIG. 4 is an enlarged schematic view of the structure of the present invention A.

In the figure: 1. feeding a paperboard; 2. cutting the paper board; 3. a shock absorbing paperboard; 4. a paper board is put; 5. a water-resistant film; 6. pressing the column; 7. a clamping block; 8. a frame; 9. a butt joint block; 10. and (4) a bump.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a paperboard capable of achieving an efficient cushioning function, comprising:

one side of the upper paper board 1 is connected with a partition paper board 2, the partition paper boards 2 are distributed in a transverse and longitudinal array in a overlooking way, rhombic grooves are formed in the dividing paper boards 2 at equal intervals, the surfaces of the dividing paper boards 2 are connected with damping paper boards 3, the main view of the damping paperboard 3 is a wave-shaped structure, one side of the lower paperboard 4 is connected with the damping paperboard 3, the same side of the lower paper board 4 and the damping paper board 3 is connected with a partition paper board 2, one side of the damping paper board 3 far away from the lower paper board 4 is connected with an upper paper board 1, one side of the upper paper board 1 is respectively connected with the partition paper board 2 and the damping paper board 3, then the lower paper board 4 is arranged at one side of the partition paper board 2 and the damping paper board 3 far away from the upper paper board 1, when the lower paper plate 4 and the upper paper plate 1 are extruded by external force, the wave shape of the damping paper plate 3 and the rhombic structure of the dividing paper plate 2 buffer the external force;

the surface of one side of the lower paper board 4 is connected with two waterproof films 5, one side of the other waterproof film 5 is connected with the upper paper board 1, the surface of the upper paper board 1 is connected with a press column 6, the press column 6 is of a cylindrical structure, the surface of the press column 6 is tangent to the surface of the waterproof film 5, two ends of the press column 6 are fixedly connected with fixture blocks 7, the overlooking cross section of each fixture block 7 is of an I-shaped structure, the fixture blocks 7 are clamped on the surface of the frame 8, the waterproof film 5 is placed on one side of the lower paper board 4 and one side of the upper paper board 1, then the press column 6 is in butt joint with the waterproof film 5, the fixture blocks 7 at two ends of the press column 6 are mutually clamped with the frame 8, and the waterproof film 5 is installed on the surfaces of the lower paper board 4 and the upper paper board 1;

the gomphosis of 8 one ends of frame is on last cardboard 1 and lower cardboard 4, and mutual riveting between frame 8 and last cardboard 1 and the lower cardboard 4 to the inner wall size of frame 8 and the outer wall size phase-match of last cardboard 1 and lower cardboard 4, the inner wall fixedly connected with butt joint piece 9 of frame 8, the fixed surface of butt joint piece 9 is connected with lug 10, the cross-section of lug 10 is semi-circular structure, and is connected for the block between lug 10 and last cardboard 1 and the lower cardboard 4, installs frame 8 on cardboard 4 and the surface of last cardboard 1 down for butt joint piece 9 gomphosis is under between cardboard 4 and last cardboard 1, lug 10 and cardboard 4 and last cardboard 1 block each other down simultaneously.

In summary, the following steps: as shown in fig. 1 to 4, when using the paper board capable of realizing the high-efficiency buffering function, first, the upper paper board 1 is connected with the dividing paper board 2 and the shock-absorbing paper board 3 on one side, and then the lower paper board 4 is installed on the dividing paper board 2 and the shock-absorbing paper board 3 on the side far from the upper paper board 1, when the lower paper board 4 and the upper paper board 1 are squeezed by external force, the wave shape of the damping paper board 3 and the diamond structure of the partition paper board 2 buffer the external force, the waterproof film 5 is placed on one side of the lower paper board 4 and the upper paper board 1, then the compression columns 6 are butted with the waterproof film 5, clamping blocks 7 at two ends of the pressing column 6 are clamped with the frame 8, the frame 8 is arranged on the surfaces of the lower paper board 4 and the upper paper board 1, the butt joint block 9 is embedded between the lower paper board 4 and the upper paper board 1, meanwhile, the bump 10 is mutually clamped with the lower paperboard 4 and the upper paperboard 1, which is the characteristic of the paperboard capable of realizing the efficient buffer function.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A paperboard capable of realizing an efficient buffering function is characterized by comprising:

the shock absorption paperboard is characterized by comprising an upper paperboard (1), wherein one side of the upper paperboard is connected with a partition paperboard (2), the partition paperboards (2) are transversely and longitudinally distributed in an array manner in a overlooking manner, rhombic grooves are formed in the partition paperboard (2) at equal intervals, the surface of the partition paperboard (2) is connected with a shock absorption paperboard (3), and the shock absorption paperboard (3) is mainly regarded as a wave-shaped structure;

lower cardboard (4), one side is connected with shock attenuation cardboard (3), cardboard (4) are connected with the same one side of shock attenuation cardboard (3) down and cut apart cardboard (2), one side that cardboard (4) were kept away from down in shock attenuation cardboard (3) is connected with cardboard (1).

2. The paperboard capable of realizing a high-efficiency buffering function according to claim 1, characterized in that a waterproof film (5) is connected to one side surface of the lower paperboard (4), two waterproof films (5) are provided, and an upper paperboard (1) is connected to one side of the other waterproof film (5).

3. The paperboard capable of realizing the efficient buffering function according to claim 2, wherein the surface of the upper paperboard (1) is connected with a compression column (6), the compression column (6) is of a cylindrical structure, and the surface of the compression column (6) is tangent to the surface of the waterproof membrane (5).

4. The paperboard capable of realizing the efficient buffering function according to claim 3, wherein the two ends of the compression leg (6) are fixedly connected with fixture blocks (7), the top cross section of each fixture block (7) is of an I-shaped structure, and the fixture blocks (7) are clamped on the surface of the side frame (8).

5. The paperboard capable of achieving the efficient buffering function as claimed in claim 4, wherein one end of the frame (8) is embedded in the upper paperboard (1) and the lower paperboard (4), the frame (8) and the upper paperboard (1) and the lower paperboard (4) are riveted with each other, and the size of the inner wall of the frame (8) is matched with the size of the outer wall of the upper paperboard (1) and the lower paperboard (4).

6. The paperboard capable of achieving the efficient buffering function as claimed in claim 5, wherein a butt-joint block (9) is fixedly connected to an inner wall of the side frame (8), a convex block (10) is fixedly connected to a surface of the butt-joint block (9), a cross section of the convex block (10) is of a semicircular structure, and the convex block (10) is in snap-fit connection with the upper paperboard (1) and the lower paperboard (4).

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