CN112265744A

CN112265744A - Novel composite buffering packaging paper box for electronic equipment

Info

Publication number: CN112265744A
Application number: CN202011177434.0A
Authority: CN
Inventors: 胡青; 陶广武; 黄伟军; 张志文
Original assignee: Huizhou Jingyi Printing Co ltd
Current assignee: Huizhou Jingyi Printing Co ltd
Priority date: 2020-10-28
Filing date: 2020-10-28
Publication date: 2021-01-26

Abstract

The application provides a novel compound buffering packing carton for electronic equipment. The novel composite buffering packaging paper box for the electronic equipment comprises a hard paper inner seat, a bottom buffering assembly, a hard paper base support, a composite upper support, a hard paper sliding outer cover and a top buffering assembly. Be provided with the middle part in the hard paper collet and carry and draw the strengthening rib, carry through the middle part and carry the strengthening rib and carry to draw the hard paper collet, can make the hard paper collet avoid warping or be torn in carrying the process of drawing, and then protect effectively and place the electronic equipment in the hard paper collet. The composite upper support comprises a paper outer cover, a buffer cotton inner seat and a lifting ribbon, wherein the lifting ribbon is bonded with the paper outer cover and the buffer cotton inner seat respectively, and the composite upper support can be easily lifted through the lifting ribbon, so that the composite upper support is not easy to tear in the lifting process, and electronic equipment placed in the composite upper support can be better protected. The top buffer component can effectively buffer the impact force on the electronic equipment product in the vertical direction.

Description

Novel composite buffering packaging paper box for electronic equipment

Technical Field

The invention relates to the field of packaging paper boxes, in particular to a novel composite buffering packaging paper box for electronic equipment.

Background

The electronic products on the market are various in varieties and various in packages, so that the quality of the products is emphasized, the packaging is emphasized, and the good packaging can play a role in protecting the products to keep sanitary, facilitating circulation and storage, improving the aesthetic effect of the products and improving the market competitiveness of the products. Can attract the eyes of consumers and increase the purchasing desire of the consumers. With the rising of environmental protection and low carbon sound, the paper box package is replacing the plastic package gradually as a safer and more environment-friendly material than plastic. The existing paper boxes for packaging electronic products or some precision products need to be internally provided with a foam board to protect the products.

However, the foam board in the existing carton is generally pulled by a hole-opening method, so that the foam board is easily torn when being pulled, and the composite support body in the carton is not easily protected, thereby being not beneficial to protecting products, especially electronic equipment. And for the whole electronic equipment product, a protection blind area is always arranged in the vertical direction of the product.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides a novel composite buffering packaging paper box for electronic equipment, wherein a composite upper support is not easy to tear when being lifted, and an internal electronic equipment product can be better protected in the vertical direction.

The purpose of the invention is realized by the following technical scheme:

a novel compound buffering packing carton for electronic equipment comprises:

the hard paper inner seat is provided with a placing groove;

the bottom buffer assembly comprises a plurality of bottom buffer cotton bodies, and the bottom buffer cotton bodies are bonded at the bottom of the placing groove at intervals;

the hard paper bottom support comprises a bottom support body and a middle lifting reinforcing rib, the bottom support body is used for being placed in the placing groove, the bottom of the bottom support body is used for being abutted to each buffering cotton body respectively, and the middle lifting reinforcing rib is arranged in the bottom support body;

the composite upper support comprises a paper outer cover, a buffer cotton inner seat and a lifting ribbon, wherein the paper outer cover is bonded on the outer surface of the buffer inner seat, a lifting hollow-out hole is formed in the base of the buffer cotton inner seat, the lifting ribbon is bonded with the paper outer cover and the buffer cotton inner seat respectively, the composite upper support is placed in the placing groove, and the paper outer cover is abutted against the hard paper bottom support;

the hard paper sliding outer cover is used for covering the hard paper inner seat;

a top buffer assembly disposed at a bottom of the interior space of the cardboard sliding housing.

In one embodiment, the bottom buffer assembly comprises four bottom buffer cotton bodies, and the four bottom buffer cotton bodies are spaced at equal intervals.

In one embodiment, the bottom support body is provided with a plurality of storage grooves, and the storage grooves are respectively positioned on two sides of the middle lifting reinforcing rib.

In one embodiment, hollow areas are respectively arranged between the plurality of storage grooves and the side end of the bottom support body and between the plurality of storage grooves and the bottom of the bottom support body.

In one embodiment, the lifting hollowed-out openings are circular holes.

In one embodiment, the lifting wire bands are respectively adhered to the edges of one side end of the paper outer cover and one side end of the buffer cotton inner seat.

In one embodiment, two sides of the inner buffer cotton seat are respectively provided with an inner buffer cotton body, and the inner buffer cotton bodies are respectively bonded to two opposite sides of the inner buffer cotton seat.

In one embodiment, the height of the inner buffer cotton body is smaller than the height of two sides of the inner buffer cotton seat.

In one embodiment, the top cushioning element comprises a plurality of top cushioning batts, each of which is bonded to the bottom of the interior space of the cardboard slip cover at spaced intervals.

In one embodiment, the top cushion assembly comprises four top cushion cotton bodies, and the four top cushion cotton bodies are spaced at equal intervals.

Compared with the prior art, the invention has at least the following advantages:

1. the middle lifting reinforcing rib is arranged in the hard paper bottom support of the novel composite buffer packaging paper box for the electronic equipment, and the hard paper bottom support is lifted through the middle lifting reinforcing rib, so that the hard paper bottom support can be prevented from being deformed or torn in the lifting process, and the electronic equipment placed in the hard paper bottom support is effectively protected. And because the composite upper support comprises the paper outer cover, the buffer cotton inner seat and the lifting and pulling ribbon, the lifting and pulling ribbon is respectively bonded with the paper outer cover and the buffer cotton inner seat, the composite upper support can be easily lifted through the lifting and pulling ribbon without applying force to the fragile lifting and pulling hollow holes, the buffer cotton inner seat cannot be damaged, the composite upper support is not easily torn in the lifting and pulling process, and the electronic equipment placed in the composite upper support can be better protected.

2. The novel composite buffering packaging paper box for the electronic equipment comprises a top buffering component, wherein the top buffering component is arranged at the bottom of the inner space of a hard paper sliding outer cover. The vertical direction of product is a protection blind area always, can slow down the electronic equipment product effectively through top buffering subassembly because rock or the impact force that other foreign objects caused the product vertical direction in transportation process, and then makes the electronic equipment with novel compound buffering packing carton can all-round protect inside electronic equipment product better.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural view of a novel composite buffer packaging paper box for an electronic device in an embodiment;

FIG. 2 is a schematic structural diagram of a cardboard base of the novel composite buffering packaging carton for the electronic device shown in FIG. 1;

FIG. 3 is a schematic structural diagram of a cardboard sliding outer cover and a top buffer assembly in the novel composite buffer packaging carton for the electronic device shown in FIG. 1;

fig. 4 is a schematic structural view of a composite upper tray in the novel composite buffering packaging paper box for the electronic device shown in fig. 1.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The invention provides a novel composite buffering packaging paper box for electronic equipment, which comprises a hard paper inner seat, a bottom buffering component, a hard paper base support, a composite upper support, a hard paper sliding outer cover and a top buffering component. The hard paper inner seat is provided with a placing groove; the bottom buffer assembly comprises a plurality of bottom buffer cotton bodies, and the bottom buffer cotton bodies are bonded to the bottom of the placing groove at intervals; the hard paper bottom support comprises a bottom support body and a middle lifting reinforcing rib, the bottom support body is used for being placed in the placing groove, the bottom of the bottom support body is used for being abutted to each buffering cotton body respectively, and the middle lifting reinforcing rib is arranged in the bottom support body; the composite upper support comprises a paper outer cover, a buffer cotton inner seat and a lifting ribbon, the paper outer cover is bonded on the outer surface of the buffer inner seat, a lifting hollow-out hole is formed in the base of the buffer cotton inner seat, the lifting ribbon is bonded with the paper outer cover and the buffer cotton inner seat respectively, the composite upper support is placed in the placing groove, and the paper outer cover is abutted to the hard paper bottom support; the hard paper sliding outer cover is used for covering the hard paper inner seat; the top buffer assembly is disposed at a bottom of the interior space of the cardboard sliding housing.

Please refer to fig. 1, which is a schematic structural diagram of a novel composite buffering packaging paper box 10 for an electronic device according to an embodiment of the present invention.

Referring to fig. 2 and fig. 3, the novel composite buffering packaging carton 10 for electronic devices of an embodiment includes a hard paper inner seat 100, a bottom buffering component 200, a hard paper bottom support 300, a composite upper support 400, a hard paper sliding outer cover 500, and a top buffering component 600. The hard paper inner seat 100 is provided with a placing groove 112; the bottom buffer assembly 200 comprises a plurality of bottom buffer cottons 210, and each bottom buffer cottons 210 are adhered to the bottom of the placing groove 112 at intervals; the hard paper cork base 300 comprises a cork base body 310 and middle lifting reinforcing ribs 320, wherein the cork base body 310 is used for being placed in the placing groove 112, the bottom of the cork base body 310 is used for being abutted to each bottom buffering cotton body 210, and the middle lifting reinforcing ribs 320 are arranged in the cork base body 310; the composite upper support 400 comprises a paper outer cover 410, a buffer cotton inner seat 420 and a lifting ribbon 430, wherein the paper outer cover 410 is bonded on the outer surface of the buffer cotton inner seat 420, a lifting hollow-out hole 422 is formed in the base of the buffer cotton inner seat 420, the lifting ribbon 430 is bonded with the paper outer cover 410 and the buffer cotton inner seat 420 respectively, the composite upper support 400 is placed in the placing groove 112, and the paper outer cover 410 is abutted to the hard paper bottom support 300; the hard paper sliding outer cover 500 is used for covering the hard paper inner base 100; the top cushioning assembly 600 is disposed at the bottom of the interior space of the cardboard sliding housing 500.

In this embodiment, the hard paper inner seat 100 is provided with a placing groove 112, the placing groove 112 is mainly used for placing the hard paper bottom support 300 and the composite upper support 400, the hard paper bottom support 300 is used for placing auxiliary components of the electronic device, such as a charger and a data line, and the composite upper support 400 is used for placing a main body of the electronic device, so that all components of the electronic device can be placed together through the placing groove 112, and the accommodating space is saved. The bottom cushioning module 200 includes a plurality of bottom cushioning cottons 210, each bottom cushioning cotton 210 being adhered to the bottom of the placement channel 112 at spaced intervals. It can be understood that the placement groove 112 is mainly used for placing the cardboard bottom support 300 and the composite upper support 400, the bottom of the placement groove 112 is easily subjected to a large bearing force, and the bottom of the placement groove 112 is the most frequently contacted part with the ground or the goods shelf and is easily subjected to external impact. Through bonding many bottom buffering cotton 210 at the bottom interval of standing groove 112, can slow down the outside impact that the standing groove 112 bottom received effectively, and then protect the electronic equipment product in the box better.

Further, because the middle part of the hard paper bottom support 300 is provided with the middle lifting reinforcing rib 320, the hard paper bottom support 300 is lifted through the middle part of the middle lifting reinforcing rib 320, the hard paper bottom support 300 can be prevented from being deformed or torn in the lifting process, and the electronic equipment placed in the hard paper bottom support 300 is effectively protected. And because the composite upper support 400 comprises the paper outer cover 410, the buffer cotton inner seat 420 and the lifting ribbon 430, and the lifting ribbon 430 is respectively bonded with the paper outer cover 410 and the buffer cotton inner seat 420, the composite upper support 400 can be easily lifted by the lifting ribbon 430 without applying force to the fragile lifting hollowed-out holes, and the buffer cotton inner seat 420 cannot be damaged, so that the composite upper support 400 is not easily torn in the lifting process, and electronic equipment placed in the composite upper support 400 can be better protected. Further, the novel composite buffer packaging carton 10 for electronic equipment further comprises a top buffer assembly 600, wherein the top buffer assembly 600 is arranged at the bottom of the inner space of the hard paper sliding outer cover 500. The vertical direction of product is a protection blind area always, can slow down the electronic equipment product effectively through top buffering subassembly 600 because rock or the impact force that other foreign objects caused the product vertical direction in transportation process, and then makes the electronic equipment with novel compound buffering packing carton 10 can all-round better protect inside electronic equipment product. In addition, the hard paper sliding outer cover 500 is used for covering the hard paper inner seat 100, and sealing and opening of the novel composite buffering packaging paper box 10 for the electronic equipment are more convenient by adopting the slidable hard paper outer cover.

In one embodiment, the bottom cushioning assembly 200 includes four bottom cushioning cottons 210, and the four bottom cushioning cottons 210 are equally spaced. It can be understood that the placement groove 112 is mainly used for placing the cardboard bottom support 300 and the composite upper support 400, the bottom of the placement groove 112 is easily subjected to a large bearing force, and the bottom of the placement groove 112 is the most frequently contacted part with the ground or the goods shelf and is easily subjected to external impact. Through bonding many bottom buffering cotton 210 at the bottom interval of standing groove 112, can slow down the outside impact that the standing groove 112 bottom received effectively, and then protect the electronic equipment product in the box better. In the present embodiment, the bottom cushioning assembly 200 includes four bottom cushioning cotton bodies 210, and the four bottom cushioning cotton bodies 210 are spaced apart at equal intervals. Through setting up four cotton bodies 210 of bottom buffering, can slow down the outside impact that standing groove 112 bottom received effectively, under the prerequisite that reaches better buffering effect, can also save space and cushion cotton body material simultaneously. In addition, the spacing distance between the four bottom buffering cotton bodies 210 is equal, so that the impact force received at the bottom of the placing groove 112 can be uniformly dispersed, a better buffering effect is achieved, and electronic equipment products in the box can be better protected.

As shown in fig. 1, in one embodiment, the bottom bracket body 310 defines a plurality of storage recesses 312, and the storage recesses 312 are respectively located at two sides of the middle lifting rib 320. In this embodiment, the mounting body 310 is mainly used for placing the auxiliary components of the electronic device, and the plurality of object placing grooves 312 are formed in the mounting body 310, so that the object placing grooves 312 can be formed according to the shape of the auxiliary components of the electronic device, and the auxiliary components of the electronic device can be better fixed and protected. Meanwhile, according to the condition that the electronic device has a plurality of auxiliary components in different shapes, the bottom support body 310 is provided with a plurality of accommodating grooves 312, so that the accommodating space can be effectively saved. Further, a plurality of thing recesses 312 are located the both sides that the strengthening rib 320 was drawn to the middle part respectively, and it can be understood that, a plurality of thing recesses 312 all avoid the middle part to draw the strengthening rib 320 and set up, can avoid putting the electronic equipment auxiliary component in the recess 312 and cause the interference to middle part to draw the strengthening rib 320 in the process of drawing, make things convenient for the middle part to draw the operation of drawing of strengthening rib 320. In addition, a plurality of article placing grooves 312 are uniformly arranged on two sides of the middle lifting and pulling reinforcing rib 320 respectively, so that the gravity borne by two sides of the bottom support body 310 is uniform in the lifting and pulling process of the middle lifting and pulling reinforcing rib 320, and the bottom support body 310 is stably taken out.

As shown in fig. 1 and 2, in order to effectively protect the electronic device auxiliary components placed in the placement grooves 312 and prevent the electronic device auxiliary components from being damaged by external impact, in one embodiment, hollow areas 314 are respectively disposed between the placement grooves 312 and the side ends of the bottom support body 310 and the bottom of the bottom support body 310. It can be understood that, put thing recess 312 mainly used places electronic equipment's auxiliary component, puts thing recess 312 and sets up in collet body 310, and collet body 310 is the cardboard material, and the cardboard material can play better fixed and supporting effect, but the cardboard material can't slow down outside impact effectively, that is to say, the cardboard material can't protect electronic equipment auxiliary component effectively and avoid the damage of outside striking. In this embodiment, the plurality of object placing grooves 312, the side end of the bottom bracket body 310 and the bottom of the bottom bracket body 310 are respectively provided with the hollow areas 314, when the bottom bracket body 310 receives an impact force from the side or the bottom, the impact force must pass through the hollow areas 314 between the object placing grooves 312, the side end of the bottom bracket body 310 and the bottom of the bottom bracket body 310, and the energy of the impact force can be effectively dissipated in the hollow areas 314, so that the auxiliary components of the electronic device placed in the object placing grooves 312 can be effectively protected.

As shown in fig. 1 and 4, in one embodiment, the lifting cutouts 422 are circular holes. It can be understood that the lifting hollow 422 is disposed on the base of the inner buffer cotton seat 420, and after the electronic device disposed on the inner buffer cotton seat 420 is taken away, the composite upper support 400 can be taken out through the lifting hollow 422. In this embodiment, the lifting hollow 422 is a circular hole, and the lifting hollow 422 of the circular hole is more suitable for the shape of a finger of a person, so that the composite upper support 400 can be more easily taken out by lifting the lifting hollow 422.

As shown in fig. 1 and 4, in order to easily separate the composite upper tray 400 from the placement groove 112 and then remove the composite upper tray 400 by lifting the ribbon 430, in one embodiment, the ribbon 430 is adhered to the edges of one side end of the paper outer cover 410 and the inner buffer cotton seat 420. It can be understood that the composite upper support 400 comprises a paper outer cover 410, a buffering cotton inner seat 420 and a lifting ribbon 430, the paper outer cover 410 is bonded on the outer surface of the buffering inner seat, a lifting hollow-out opening 422 is formed in the base of the buffering cotton inner seat 420, that is, the main material of the composite upper support 400 is a cotton material, and the cotton material is extremely easy to be damaged in the lifting process, so that the protection effect of the cotton material is damaged, and particularly when a heavier electronic device product is placed in the composite upper support 400. The pulling ribbon 430 is respectively bonded with the paper outer cover 410 and the buffer cotton inner seat 420, and the composite upper support 400 can be pulled up by the action of the pulling ribbon 430 without damaging cotton materials. In this embodiment, the lifting ribbon 430 is respectively adhered to the edges of one side end of the paper outer cover 410 and the inner buffer cotton seat 420, when the lifting ribbon 430 is lifted, the lifting ribbon 430 applies a force to one side end of the composite upper support 400, and the other side end opposite to the one side end of the force is used as a supporting point, so that the lifting process is more labor-saving, and thus the lifting ribbon 430 can more easily separate a part of the composite upper support 400 from the placing groove 112, and then the composite upper support 400 can be easily taken out with two hands without damaging the cotton material of the composite upper support 400.

As shown in fig. 1 and 4, in one embodiment, two inner cushion cotton bodies 4220 are respectively disposed on two sides of the inner cushion cotton seat 420, and the inner cushion cotton bodies 4220 are respectively adhered to two opposite sides of the inner cushion cotton seat 420. It can be understood that the inner seat 420 of the buffering cotton is mainly used for placing the main body of the electronic device, and therefore the buffering protection effect of the inner seat 420 of the buffering cotton is particularly important. Although the inner buffer cotton seat 420 is made of cotton material and has a good buffer effect, it is easy to shake or be impacted by foreign objects during transportation of the electronic device product. In this embodiment, the both sides of seat 420 are equipped with an inside buffering cotton 4220 respectively in the buffering cotton, and inside buffering cotton 4220 bonds respectively in the relative both sides of seat 420 in the buffering cotton, through the inside buffering cotton 4220 of two relative settings, can play the effect of further fixed electronic equipment main part, promote the cushioning effect of seat 420 in the buffering cotton simultaneously, protect electronic equipment's main part better.

Further, the height of the inner cushion cotton 4220 is less than the height of the two sides of the inner cushion cotton seat 420. It can be understood that, the height of the inner buffering cotton 4220 is less than the height of the two sides of the inner buffering cotton seat 420, and the height difference between the inner buffering cotton 4220 and the two sides of the inner buffering cotton seat 420 can form a clamping groove matched with the appearance of the electronic device main body, so that the electronic device main body can be more stably fixed in the inner buffering cotton seat 420, and the electronic device main body is better protected.

As shown in FIG. 3, in one embodiment, the top cushioning module 600 includes a plurality of top cushioning cotton 610, each top cushioning cotton 610 being spaced apart from and bonded to the bottom of the interior space of the cardboard slip cover 500. It will be appreciated that the vertical orientation of the product is always a dead zone. In this embodiment, the top cushion assembly 600 includes a plurality of top cushion cotton bodies 610, and each of the top cushion cotton bodies 610 is bonded to the bottom of the inner space of the cardboard sliding cover 500 at intervals. Through the cotton body 610 of top buffering can slow down the electronic equipment product effectively because rock or the impact force that other foreign objects caused the product vertical direction in transportation process, and then make the electronic equipment with novel compound buffering packing carton 10 can all-round protect inside electronic equipment product better.

Further, the top cushion assembly 600 includes four top cushion cotton bodies 610, and the four top cushion cotton bodies 610 are equally spaced apart. Through setting up four cotton bodies 210 of bottom buffering, can slow down the outside impact that the product vertical direction received effectively, under the prerequisite that reaches better buffering effect, can also save space and cushion cotton body material simultaneously. In addition, the spacing distance between the four bottom buffering cotton bodies 210 is equal, so that the impact force applied to the product in the vertical direction can be uniformly dispersed, a better buffering effect is achieved, and the electronic equipment products in the box can be better protected.

In one embodiment, the height of the hard paper slip cover 500 is greater than the height of the hard paper inner seat 100. It can be understood that, the cardboard slides dustcoat 500 and is used for covering and establish outside seat 100 in the cardboard, after electronic equipment stood for a period of time with novel compound buffering packing carton 10, the automatic landing of open end of cardboard slide dustcoat 500 to the horizontal plane the same with seat 100 in the cardboard, at this moment, because the height that highly is greater than seat 100 in the cardboard of cardboard slide dustcoat 500, have a space region between the top of cardboard slide dustcoat 500 and seat 100 in the cardboard, can make electronic equipment with novel compound buffering packing carton 10 when standing through this space region, the electronic equipment product in the box can effectively avoid the impact that the box body vertical direction received, thereby protect the electronic equipment product in the box better.

In one embodiment, one side of the hard paper inner seat is abutted against the bottom of the inner space of the hard paper sliding outer cover, a first magnetic piece is arranged at the bottom of the inner space of the hard paper sliding outer cover, and a second magnetic piece is arranged at the position, corresponding to the first magnetic piece, of one side of the hard paper inner seat and is used for being in magnetic connection with the first magnetic piece. In this embodiment, the bottom on the inner space of cardboard slip dustcoat is equipped with first magnetism spare, the position that one side and first magnetism spare of seat correspond in the cardboard is equipped with second magnetism spare, that is to say, first magnetism spare sets up the position that the seat was put into in corresponding the cardboard in the bottom of cardboard slip dustcoat inner space, so, can not only be through the magnetic force effect of first magnetism spare and second magnetism spare with the cardboard slip dustcoat can more firmly be combined together in with the cardboard, but also can inspect the orientation of seat when the cardboard slip dustcoat of packing into in the cardboard, the seat is openly up or the back up in the cardboard this moment promptly. If the hard paper inner seat faces upwards, the first magnetic piece and the second magnetic piece are in the same position and can generate an attractive force; if the back of the hard paper inner seat faces upwards, the first magnetic piece and the second magnetic piece are not located at the same position, attraction force does not exist between the hard paper inner seat and the hard paper sliding outer cover, and the direction of the hard paper inner seat needs to be adjusted, so that the situation that when a user takes out a product, the hard paper inner seat faces downwards to cause component sliding can be avoided. It should be noted that, first magnetism spare has anodal magnetism, and the second magnetism spare has negative pole magnetism, through the effect of inhaling between first magnetism spare and the second magnetism spare, makes seat and the cardboard slip dustcoat can be in the same place more firmly in the cardboard, and then improves the steadiness of novel compound buffer packaging carton for electronic equipment.

Further, the first magnetic member is identical in size with the second magnetic member. It can be understood that, among the electronic equipment with novel compound buffering packing carton, the size of seat agrees with in cardboard slip dustcoat and the cardboard mutually, if the size of first magnetism spare is inconsistent with the second time magnetism spare, causes easily that first magnetism spare and second time magnetism spare can't accurate counterpoint when the seat is packed into the cardboard slip dustcoat in the cardboard, or the problem that can't easily break away from when the seat is taken out from the cardboard slip dustcoat in the cardboard. In this embodiment, first magnetism spare is unanimous with the size of second time magnetism spare, can make first magnetism spare and second time magnetism spare in pack into with take out operation in-process homoenergetic accurate counterpoint to the operation of packing into and taking out of seat in the convenience hard paper in the hard paper slip dustcoat.

In one embodiment, a lifting plastic belt is arranged on the other side surface of the hard paper inner seat opposite to the side surface provided with the second magnetic piece, one end of the lifting plastic belt penetrates through the hard paper inner seat and is adhered to the inside of the hard paper inner seat, so that the fixing effect of the lifting plastic belt and the hard paper inner seat is enhanced, and the other end of the lifting plastic belt is exposed out of the hard paper inner seat and is used for lifting the hard paper inner seat out of the hard paper sliding outer cover. When the hard paper sliding outer cover and the hard paper inner seat are connected together through the magnetic action of the first magnetic piece and the second magnetic piece, the hard paper inner seat can be easily separated from the hard paper sliding outer cover through lifting and pulling the plastic belt, and then electronic equipment in the hard paper inner seat can be conveniently taken out. In addition, take out the interior seat of cardboard through drawing the plastic tape, can not cause any destruction to the packing carton, can guarantee the integrality of packing carton outward appearance and the protective action of packing carton to electronic equipment.

In order to improve the friction force on the surface of the lifting plastic belt, in one embodiment, the surface of the lifting plastic belt is provided with the raised strip patterns, and the raised strip patterns are arranged on the surface of the lifting plastic belt, so that the friction force on the surface of the lifting plastic belt can be effectively increased, the hard paper inner seat can be favorably lifted out of the hard paper sliding outer cover, and the effect of saving more labor can be achieved. In another embodiment, the raised stripe pattern on the surface of the lifting plastic belt can also be the identification pattern of the electronic equipment product in the packing carton.

In order to facilitate the grabbing of the novel composite buffer packaging paper box for the electronic equipment and avoid the pressure or damage to the packaging box in the grabbing process, in one embodiment, a hanging ring is arranged outside the hard paper sliding outer cover and comprises a ring body and a bonding block, the bonding block is connected with the ring body, the ring body penetrates through the hard paper sliding outer cover and is at least partially exposed outside the hard paper sliding outer cover, and the bonding block is bonded with the bottom of the inner space of the hard paper sliding outer cover. It can be understood that, for the convenience of grabbing of the novel composite buffer packaging paper box for the electronic equipment, the pressure or damage to the packaging box caused by the grabbing process is avoided, and then the hanging ring is arranged in the novel composite buffer packaging paper box for the electronic equipment. In this embodiment, the outside of cardboard slip dustcoat is equipped with the link, the link includes ring body and bonding piece, bonding piece and ring body coupling, the ring body is worn to locate cardboard slip dustcoat and at least part exposes in the outside of cardboard slip dustcoat, thereby make things convenient for snatching of link, bonding piece bonds with the bottom of cardboard slip dustcoat inner space, can effectively strengthen the adhesion force between link and the cardboard slip dustcoat, and bonding piece bonds in the bottom of cardboard slip dustcoat inner space, when carrying out the pulling to electronic equipment with novel compound buffering packing carton, can not cause the tearing to cardboard slip dustcoat, can better protect electronic equipment with novel compound buffering packing carton.

1. the middle lifting reinforcing rib 320 is arranged in the hard paper bottom support 300 of the novel composite buffering packaging paper box 10 for the electronic equipment, and the hard paper bottom support 300 is lifted through the middle lifting reinforcing rib 320, so that the hard paper bottom support 300 can be prevented from being deformed or torn in the lifting process, and the electronic equipment placed in the hard paper bottom support 300 is effectively protected. And because the composite upper support 400 comprises the paper outer cover 410, the buffer cotton inner seat 420 and the lifting ribbon 430, and the lifting ribbon 430 is respectively bonded with the paper outer cover 410 and the buffer cotton inner seat 420, the composite upper support 400 can be easily lifted by the lifting ribbon 430 without applying force to the fragile lifting hollowed-out holes, and the buffer cotton inner seat 420 cannot be damaged, so that the composite upper support 400 is not easily torn in the lifting process, and electronic equipment placed in the composite upper support 400 can be better protected.

2. The novel composite buffering packaging paper box 10 for the electronic equipment comprises a top buffering component 600, wherein the top buffering component 600 is arranged at the bottom of the inner space of the hard paper sliding outer cover 500. The vertical direction of product is a protection blind area always, can slow down the electronic equipment product effectively through top buffering subassembly 600 because rock or the impact force that other foreign objects caused the product vertical direction in transportation process, and then makes the electronic equipment with novel compound buffering packing carton 10 can all-round better protect inside electronic equipment product.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. The utility model provides an electronic equipment is with novel compound buffering packing carton which characterized in that includes:

the hard paper inner seat is provided with a placing groove;

2. The novel compound buffer packaging paper box for the electronic equipment as claimed in claim 1, wherein the bottom buffer assembly comprises four bottom buffer cotton bodies, and the separation distances between the four bottom buffer cotton bodies are equal.

3. The novel compound buffering packaging paper box for the electronic equipment as claimed in claim 1, wherein the bottom support body is provided with a plurality of storage grooves, and the storage grooves are respectively located at two sides of the middle lifting rib.

4. The new composite buffering packaging paper box for electronic equipment as claimed in claim 3, wherein hollow areas are respectively provided between the plurality of article placing grooves and the side end of the bottom support body and the bottom of the bottom support body.

5. The new composite buffer packaging paper box for electronic equipment as claimed in claim 1, wherein the lifting hollow-out hole is a circular hole.

6. The new composite buffer packaging paper box for electronic equipment as claimed in claim 1, wherein the lifting and drawing bands are respectively bonded to the edges of one side end of the paper outer cover and the buffer cotton inner seat.

7. The novel composite buffer packaging paper box for the electronic equipment as claimed in claim 1, wherein two sides of the buffer cotton inner seat are respectively provided with an inner buffer cotton body, and the inner buffer cotton bodies are respectively adhered to two opposite sides of the buffer cotton inner seat.

8. The novel composite buffer packaging paper box for the electronic equipment as claimed in claim 7, wherein the height of the inner buffer cotton body is smaller than the height of the two sides of the inner buffer cotton seat.

9. The novel composite buffer packaging carton for electronic equipment as claimed in claim 1, wherein the top buffer assembly comprises a plurality of top buffer cotton bodies, and each top buffer cotton body is bonded to the bottom of the inner space of the hard paper sliding outer cover at intervals.

10. The novel compound buffer packaging carton for the electronic equipment as claimed in claim 9, wherein the top buffer assembly comprises four top buffer cotton bodies, and the separation distances between the four top buffer cotton bodies are equal.