CN211002691U - Packaging paperboard with high buffering performance - Google Patents

Abstract

The utility model discloses a packaging paperboard with high buffering performance, which comprises a packaging plate body, an outer layer buffering structure, an interlayer buffering structure and an inner layer buffering structure, wherein the packaging plate body comprises an outer layer panel, a first buffering structure, an inner splint, a second buffering structure and an inner layer panel, the inner side surface of the outer layer panel is provided with the first buffering structure, the inner side end of the first buffering structure is fixedly connected with the outer side surface of the inner splint, the inner side surface of the inner splint is provided with the second buffering structure, the inner side end of the second buffering structure is fixedly connected with the outer side surface of the inner layer panel, the outer layer buffering structure is arranged inside the outer layer panel, the packaging paperboard with high buffering performance is formed by compounding various plate layers, the connection and the preparation of the structures are convenient, the manufacturing burden of personnel is lightened, the stress damping and buffering are carried out at multiple levels, a proper storage environment is provided for an, the use requirement of the packaging paperboard is met.

Description

Packaging paperboard with high buffering performance

Technical Field

The utility model relates to a packaging plate body technical field specifically is a packaging paperboard that shock-absorbing capacity is high.

Background

The packaging paperboard is a general name of paperboards for packaging, and comprises white paperboard, yellow paperboard, kraft paperboard, corrugated paperboard and the like, and the packaging paperboard has the characteristics of low production cost, recoverability and the like, and is widely applied to various packages, but the packaging paperboard commonly used at present has a plurality of defects, a single board layer structure, even though the packaging board of a composite structure is also inconvenient in preparation of structural connection, the manufacturing burden of personnel is increased invisibly, the cushioning property is not high, the cushioning structure is single, multi-level damping and buffering for stress cannot be realized, the board layer of the composite board body and the cushioning property between adjacent board layers are poor, so that a proper storage environment cannot be provided for internal packaging products well, the use requirement of the packaging paperboard cannot be met, and the realization of the packaging paperboard with high cushioning property, which can solve the problems, is imperative.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide a packaging paperboard that shock-absorbing capacity is high, each sheet layer is compound to be formed, and each structural connection preparation is convenient, has alleviateed personnel's preparation burden, and multi-level to atress shock attenuation buffering, for the inside packing product provides suitable environment of depositing, has satisfied packaging paperboard's user demand, can effectively solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: a packaging paperboard with high buffering performance comprises a packaging board body, an outer layer buffering structure, an interlayer buffering structure and an inner layer buffering structure;

packaging a plate body: the packaging board body comprises an outer layer panel, a first buffer structure, an inner clamping plate, a second buffer structure and an inner layer panel, wherein the first buffer structure is arranged on the inner side surface of the outer layer panel, the inner side end of the first buffer structure is fixedly connected with the outer side surface of the inner clamping plate, the second buffer structure is arranged on the inner side surface of the inner clamping plate, and the inner side end of the second buffer structure is fixedly connected with the outer side surface of the inner layer panel;

outer layer buffer structure: the outer layer buffer structure is arranged inside the outer layer panel;

the interlayer buffer structure: the interlayer buffer structure is arranged in the inner clamping plate;

inner layer buffer structure: the inner-layer buffer structure is arranged inside the inner-layer panel;

wherein: still include rubber and plastic foaming panel, rubber and plastic foaming panel sets up in the lateral surface of outer panel, and each sheet layer is compound to be formed, and each structural connection preparation is convenient, has alleviateed personnel's preparation burden, and multi-level to the atress shock attenuation buffering, the cushioning nature between sheet layer self and the adjacent sheet layer is better, provides suitable environment of depositing for the inside packaging product, has satisfied packing board's user demand.

Further, outer buffer structure includes installation cavity, internal stay panel and flute buffer board, the installation cavity sets up in the inside of outer panel, and the internal stay panel level sets up in the inside of installation cavity, and the flute buffer board evenly sets up on the inside and outside both sides face of internal stay panel, and all with the inner wall fixed connection of installation cavity, high-efficient buffering when realizing outer panel atress.

Further, intermediate layer buffer structure includes honeycomb holes and alternately buffer board, honeycomb holes evenly set up in the inside of inner plate, alternately the buffer board sets up inside corresponding honeycomb holes, the high-efficient buffering when realizing the inner plate atress.

Further, inlayer buffer structure includes buffer chamber, foaming plastics and bubble cloth, buffer chamber sets up in the inside of inlayer panel, and foaming plastics sets up on buffer chamber is close to the inner wall of inner splint, and foaming plastics's length is unanimous with buffer chamber's length, and the bubble is laid on arranging foaming plastics's medial surface, and the lateral wall of bubble cloth all with buffer chamber's inner wall fixed connection, the high-efficient buffering when realizing inlayer panel atress.

Further, first buffer structure includes buffer board and folding buffer board, the inside and outside both ends of buffer board respectively with the medial surface of outer panel and the lateral surface fixed connection of interior splint, buffer board evenly distributed, the inside and outside both ends of folding buffer board respectively with the medial surface of outer panel and the lateral surface fixed connection of interior splint, folding buffer board evenly distributed plays the inter-laminar buffering of connecting each other.

Furthermore, the second buffer structure comprises connecting buffer vertical plates, crease grooves and light foam beads, the inner end and the outer end of each connecting buffer vertical plate are fixedly connected with the inner side face of the inner clamping plate and the outer side face of the inner face plate respectively, the connecting buffer vertical plates are uniformly distributed, the crease grooves are uniformly arranged on the left side wall and the right side wall of the corresponding connecting buffer vertical plates, and the light foam beads are filled in the gaps between the two adjacent connecting buffer vertical plates to achieve the effect of connection between the vertical plates and buffer between the vertical plates.

Compared with the prior art, the beneficial effects of the utility model are that: the packaging paperboard with high buffering performance has the following advantages:

1. the rubber and plastic foaming panel is fixed on the outer side surface of the outer panel through glue solution adhesion, the inner end and the outer end of the buffer board which is uniformly distributed are fixed through the glue solution and the inner side surface of the outer panel and the outer side surface of the inner clamping plate, the inner end and the outer end of the folding buffer board which is uniformly distributed are fixed through the glue solution and the inner side surface of the outer panel and the outer side surface of the inner clamping plate, the folding buffer board is located between two adjacent buffer boards, the connecting and buffering vertical boards which are uniformly distributed are fixedly connected through the glue solution and the inner side surface of the inner clamping plate and the outer side surface of the inner panel, light foam balls are filled in the gap between the two adjacent connecting and buffering vertical boards and are compacted, each board layer is formed in a composite mode, each structural connection is convenient to prepare.

2. The outer layer panel, the first buffer structure, the inner splint, the package plate body composed of the second buffer structure and the inner layer panel, the outer layer buffer structure, the interlayer buffer structure, the inner layer buffer structure and the rubber-plastic foam panel are in the process of packaging and using, when external force is received, because the rubber-plastic foam panel has stronger rebound resilience and tension resistance, the toughness is high, the rubber-plastic foam panel has good shock resistance and buffer performance, the rubber-plastic foam panel plays a role in first layer shock absorption and buffering, then because the corrugated buffer plates uniformly distributed on two sides of the inner supporting panel in the installation cavity have better rebound resilience and partial plasticity, thereby quickly buffering and absorbing shock, playing a role in second layer shock absorption and buffering, because the honeycomb holes are uniformly arranged in the inner splint, the unique structural design of the honeycomb holes ensures that the inner splint has higher energy absorption value per unit volume, thereby achieving better toughness and rebound resilience, the crossed buffer plates ensure that the honeycomb holes are not easily deformed, realize further buffering shock attenuation, thereby realize the third layer shock attenuation buffering through honeycomb holes and alternately buffer board, it equallys divide other mark groove to connect to be equipped with on the wall of buffering riser both sides, can certain degree receipts when guaranteeing outside atress receive the buffering, light foam bobble is filled in two adjacent connection buffering riser gap departments, also play the energy-absorbing buffering of certain degree, and then realize the fourth layer shock attenuation buffering through being equipped with the connection buffering riser and the light foam bobble that roll over the mark groove, foaming plastics and bubble cloth in the cushion chamber play the buffering of fifth layer shock attenuation, it is multi-level to atress shock attenuation buffering, the cushioning nature between sheet layer self and the adjacent sheet layer is better, provide suitable environment of depositing for the inside packing product, the user demand of packing cardboard has been satisfied.

Drawings

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

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

fig. 3 is an enlarged schematic view of the a position of the present invention.

In the figure: 1 packing plate body, 11 outer layer panel, 12 first buffer structure, 121 buffer board, 122 folding buffer board, 13 interior splint, 14 second buffer structure, 141 connect buffering riser, 142 creased groove, 143 light foam bobble, 15 inlayer panels, 2 outer layer buffer structure, 21 installation cavity, 22 internal stay panel, 23 flute buffer board, 3 intermediate layer buffer structure, 31 honeycomb holes, 32 buffering board that intersects, 4 inlayer buffer structure, 41 buffer chamber, 42 expanded plastics, 43 bubble cloth, 5 rubber and plastic foaming panels.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: a packaging paperboard with high buffering performance comprises a packaging board body 1, an outer-layer buffering structure 2, an interlayer buffering structure 3 and an inner-layer buffering structure 4;

packaging plate body 1: the packaging plate body 1 comprises an outer layer panel 11, a first buffer structure 12, an inner clamping plate 13, a second buffer structure 14 and an inner layer panel 15, wherein the inner side surface of the outer layer panel 11 is provided with the first buffer structure 12, the first buffer structure 12 comprises a buffer plate 121 and a folding buffer plate 122, the inner end and the outer end of the buffer plate 121 are respectively fixedly connected with the inner side surface of the outer layer panel 11 and the outer side surface of the inner clamping plate 13, the buffer plate 121 is uniformly distributed, the inner end and the outer end of the folding buffer plate 122 are respectively fixedly connected with the inner side surface of the outer layer panel 11 and the outer side surface of the inner clamping plate 13, the folding buffer plate 122 is uniformly distributed, the inner end of the first buffer structure 12 is fixedly connected with the outer side surface of the inner clamping plate 13, the inner side surface of the inner clamping plate 13 is provided with the second buffer structure 14, the second buffer structure 14 comprises a connecting buffer vertical plate 141, a crease groove 142 and a light foam small ball 143, the inner end and the outer end, the connecting buffer vertical plates 141 are uniformly distributed, the crease grooves 142 are uniformly arranged on the left and right side walls of the corresponding connecting buffer vertical plates 141, the light foam balls 143 are filled in the gaps between the two adjacent connecting buffer vertical plates 141, and the inner ends of the second buffer structures 14 are fixedly connected with the outer side surfaces of the inner layer panels 15;

outer layer buffer structure 2: the outer-layer buffer structure 2 is arranged inside the outer-layer panel 11, the outer-layer buffer structure 2 comprises an installation cavity 21, an inner supporting panel 22 and corrugated buffer plates 23, the installation cavity 21 is arranged inside the outer-layer panel 11, the inner supporting panel 22 is horizontally arranged inside the installation cavity 21, and the corrugated buffer plates 23 are uniformly arranged on the inner side surface and the outer side surface of the inner supporting panel 22 and are fixedly connected with the inner wall of the installation cavity 21;

interlayer buffer structure 3: the sandwich buffer structure 3 is arranged inside the inner clamping plate 13, the sandwich buffer structure 3 comprises honeycomb holes 31 and crossed buffer plates 32, the honeycomb holes 31 are uniformly arranged inside the inner clamping plate 13, and the crossed buffer plates 32 are arranged inside the corresponding honeycomb holes 31;

inner layer buffer structure 4: the inner-layer buffering structure 4 is arranged inside the inner-layer panel 15, the inner-layer buffering structure 4 comprises a buffering cavity 41, foamed plastic 42 and bubble cloth 43, the buffering cavity 41 is arranged inside the inner-layer panel 15, the foamed plastic 42 is arranged on the inner wall, close to the inner clamping plate 13, of the buffering cavity 41, the length of the foamed plastic 42 is consistent with that of the buffering cavity 41, the bubble cloth 43 is arranged on the inner side face of the foamed plastic 42, and the side wall of the bubble cloth 43 is fixedly connected with the inner wall of the buffering cavity 41;

wherein: still include rubber and plastic foaming panel 5, rubber and plastic foaming panel 5 sets up in the lateral surface of outer panel 11.

When in use: the rubber-plastic foaming panel 5 is adhered and fixed on the outer side surface of the outer panel 11 through glue solution, the inner end and the outer end of the evenly distributed buffer plates 121 are adhered and fixed with the inner side surface of the outer panel 11 and the outer side surface of the inner clamping plate 13 through glue solution, the inner end and the outer end of the evenly distributed folding buffer plates 122 are adhered and fixed with the inner side surface of the outer panel 11 and the outer side surface of the inner clamping plate 13 through glue solution, at the moment, the folding buffer plates 122 are positioned between two adjacent buffer plates 121, the evenly distributed connecting buffer vertical plates 141 are adhered and fixed with the inner side surface of the inner clamping plate 13 and the outer side surface of the inner panel 15 through glue solution, the light foam small balls 143 are filled in the gap between the two adjacent connecting buffer vertical plates 141 and are compacted, and the outer panel 11, the first buffer structure 12, the inner clamping plate 13, the second buffer structure 14 and the inner panel 15 form a packaging plate body 1 and, Interlayer buffer structure 3, inner buffer structure 4 and rubber and plastic foaming panel 5 are in the packing use, when receiving external force, because rubber and plastic foaming panel 5 possesses stronger resilience and tension resistance, toughness is high, have good shock-proof, buffer performance, rubber and plastic foaming panel 5 plays the first layer shock attenuation buffering, later because the corrugated buffer plate 23 that internal stay panel 22 both sides evenly distributed has better resilience and partial plasticity in the installation cavity 21, thereby cushion and inhale fast, play the second layer shock attenuation buffering, because honeycomb holes 31 evenly set up in the inside of inner clamping plate 13, honeycomb holes 31's unique structural design, let inner clamping plate 13 have higher unit volume energy absorption value, thereby reach better toughness and resilience, cross buffer plate 32 guarantees under the prerequisite that honeycomb holes 31 atress non-deformable, realize further buffering shock attenuation, thereby realize third layer shock attenuation buffering through honeycomb holes 31 and cross buffer plate 32, connect and be equipped with on the wall of buffering riser 141 both sides and equallyd divide respectively crease groove 142, can receive to close the buffering to a certain extent when guaranteeing outside atress, light foam bobble 143 is filled in two adjacent connection buffering riser 141 clearance departments, also play the energy-absorbing buffering of a certain extent, and then realize fourth layer shock attenuation buffering through connection buffering riser 141 and light foam bobble 143 that are equipped with crease groove 142, foamed plastic 42 and bubble cloth 43 in the buffering cavity 41 play the buffering of fifth layer shock attenuation, each sheet layer is compound to be formed, each structural connection preparation is convenient, personnel's work burden has been alleviateed, it is multi-level to atress shock attenuation buffering, provide suitable environment of depositing for the inside packing product.

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 invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A packaging paperboard with high buffering performance is characterized in that: comprises a packaging plate body (1), an outer layer buffer structure (2), an interlayer buffer structure (3) and an inner layer buffer structure (4);

packaging board body (1): the packaging plate body (1) comprises an outer layer panel (11), a first buffer structure (12), an inner clamping plate (13), a second buffer structure (14) and an inner layer panel (15), wherein the first buffer structure (12) is arranged on the inner side surface of the outer layer panel (11), the inner side end of the first buffer structure (12) is fixedly connected with the outer side surface of the inner clamping plate (13), the second buffer structure (14) is arranged on the inner side surface of the inner clamping plate (13), and the inner side end of the second buffer structure (14) is fixedly connected with the outer side surface of the inner layer panel (15);

outer-layer buffer structure (2): the outer layer buffer structure (2) is arranged inside the outer layer panel (11);

interlayer buffer structure (3): the interlayer buffer structure (3) is arranged in the inner clamping plate (13);

inner layer buffer structure (4): the inner-layer buffer structure (4) is arranged inside the inner-layer panel (15);

wherein: the plastic-rubber composite panel is characterized by further comprising a plastic-rubber foaming panel (5), wherein the plastic-rubber foaming panel (5) is arranged on the outer side surface of the outer layer panel (11).

2. A packaging board with high cushioning property as claimed in claim 1, wherein: outer buffer structure (2) are including installation cavity (21), internal stay panel (22) and flute buffer board (23), installation cavity (21) set up in the inside of outer panel (11), and internal stay panel (22) level sets up in the inside of installation cavity (21), and flute buffer board (23) evenly set up on the inside and outside both sides face of internal stay panel (22), and all with the inner wall fixed connection of installation cavity (21).

3. A packaging board with high cushioning property as claimed in claim 1, wherein: sandwich buffer structure (3) include honeycomb holes (31) and alternately buffer board (32), honeycomb holes (31) evenly set up in the inside of inner clamping plate (13), alternately buffer board (32) set up in that honeycomb holes (31) correspond are inside.

4. A packaging board with high cushioning property as claimed in claim 1, wherein: inner buffer structure (4) are including buffer chamber (41), expanded plastics (42) and bubble cloth (43), buffer chamber (41) set up in the inside of inlayer panel (15), and expanded plastics (42) set up on buffer chamber (41) are close to the inner wall of inner splint (13), and the length of expanded plastics (42) is unanimous with the length of buffer chamber (41), and bubble cloth (43) set up on the medial surface of expanded plastics (42), and the lateral wall of bubble cloth (43) all with the inner wall fixed connection of buffer chamber (41).

5. A packaging board with high cushioning property as claimed in claim 1, wherein: first buffer structure (12) are including buffer board (121) and folding buffer board (122), the inside and outside both ends of buffer board (121) respectively with the medial surface of outer panel (11) and the lateral surface fixed connection of interior splint (13), buffer board (121) evenly distributed, the inside and outside both ends of folding buffer board (122) respectively with the medial surface of outer panel (11) and the lateral surface fixed connection of interior splint (13), folding buffer board (122) evenly distributed.

6. A packaging board with high cushioning property as claimed in claim 1, wherein: the second buffer structure (14) comprises a connecting buffer vertical plate (141), crease grooves (142) and light foam beads (143), the inner end and the outer end of the connecting buffer vertical plate (141) are fixedly connected with the inner side surface of the inner clamping plate (13) and the outer side surface of the inner layer panel (15) respectively, the connecting buffer vertical plate (141) is uniformly distributed, the crease grooves (142) are uniformly arranged on the left side wall and the right side wall of the corresponding connecting buffer vertical plate (141), and the light foam beads (143) are filled in the gap between the two adjacent connecting buffer vertical plates (141).

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