CN218949740U - Packing box and server work package assembly - Google Patents

Abstract

The application discloses packing box and server worker package subassembly, the packing box includes the box, first paper angle bead and second paper angle bead, the box includes first roof, the second roof, the first roof is interior to the first roof, the second roof is interior to rock the board, first bottom plate, the second bottom plate, rock the board in the first end and the second end, rock the board in the first roof, rock the board in the second roof and be equipped with first portion of dodging, the second is dodged the board in the second roof and is equipped with the second portion of dodging, the first bottom is interior to rock the board and be equipped with the third portion of dodging, the second is dodged the board in the second end and is equipped with the fourth portion of dodging, when the packing box is closed, the top of first paper angle bead is passed first portion of dodging and is prop first roof, the bottom of first paper angle bead is passed the third portion of dodged and is prop first roof, the second paper angle is passed on the second portion of dodging, the bottom of second paper angle bead is passed the fourth portion of dodged and is prop first bottom plate. The hardness of the first paper corner protector and the second paper corner protector is larger than that of the box body. The pressure-bearing effect of the first paper corner protector and the second paper corner protector is better, and the pressure-bearing capacity of the packaging box is better.

Description

Packing box and server work package assembly

Technical Field

The application relates to the technical field of packaging, in particular to a packaging box and a server work package assembly.

Background

At present, most of the packaging boxes for storage and transportation servers are cartons with low cost and convenient transportation. In order to improve the competitiveness, the weight of the product is heavier and heavier, and the requirement on the pressure bearing capacity of the packaging box is higher and heavier.

Disclosure of Invention

The application provides a packing box and server worker package subassembly, first paper angle bead of packing box passes first portion of dodging and third dodging and directly supports first roof and first bottom plate to and second roof and second bottom plate, and second paper angle bead passes second portion of dodging and fourth dodging and directly supports first roof and first bottom plate to and second roof and second bottom plate, and the pressure-bearing effect of first paper angle bead and second paper angle bead is better, thereby helps promoting the static pressure capacity of packing box, and the packing box is better to the guard action of server.

In a first aspect, the application provides a packing box, the packing box is used for packaging the server, the packing box includes the box, first paper angle bead and second paper angle bead, the box includes first curb plate, the second curb plate, the third curb plate, the fourth curb plate, first roof, the second roof, in the first roof the rocker plate, in the second roof the rocker plate, first bottom plate, the second bottom plate, in the first bottom rocker plate and the second bottom the rocker plate, first curb plate sets up relatively with the third curb plate, the second curb plate sets up relatively with the fourth curb plate, first curb plate, the second curb plate, third curb plate and fourth curb plate connect gradually, surround and form rectangular space. The first top plate and the second top plate are respectively connected with the top sides of the first side plate and the third side plate, the first top inner rocker plate and the second top inner rocker plate are respectively connected with the top sides of the second side plate and the fourth side plate, the first bottom plate and the second bottom plate are respectively connected with the bottom sides of the first side plate and the third side plate, and the first bottom inner rocker plate and the second bottom inner rocker plate are respectively connected with the bottom sides of the second side plate and the fourth side plate. The first top is internally provided with a first avoiding part, the second top is internally provided with a second avoiding part, the first bottom is internally provided with a third avoiding part, and the second bottom is internally provided with a fourth avoiding part. When the packing box is closed, the top side in rectangular space is covered by the first top plate and the second top plate, the bottom side in rectangular space is covered by the first bottom plate and the second bottom plate, the top end of the first paper corner protector passes through the first avoiding part to abut against the first top plate, the bottom end of the first paper corner protector passes through the third avoiding part to abut against the first bottom plate, the top end of the second paper corner protector passes through the second avoiding part to abut against the first top plate, and the bottom end of the second paper corner protector passes through the fourth avoiding part to abut against the first bottom plate. The hardness of the first paper corner protector and the second paper corner protector is larger than that of the box body.

In this implementation mode, the hardness of first paper angle bead and second paper angle bead all is greater than the hardness of box, and the structural strength and the bearing capacity of first paper angle bead and second paper angle bead all are greater than the structural strength and the bearing capacity of box. Compared with a traditional packing box in which a first paper corner protector is abutted against a first top inner rock plate and a first bottom inner rock plate, a second paper corner protector is abutted against a second top inner rock plate and a second bottom inner rock plate, the first paper corner protector in the embodiment of the application penetrates through a first avoiding part of the first top inner rock plate and a third avoiding part of the first bottom inner rock plate, is directly abutted against a first top plate and a first bottom plate, the second paper corner protector penetrates through a second avoiding part of the second top inner rock plate and a fourth avoiding part of the second bottom inner rock plate, is directly abutted against the first top plate and the first bottom plate, is higher in height of the first paper corner protector and the second paper corner protector, and is directly pressed, and the pressure-bearing effect of the first paper corner protector and the second paper corner protector is better. On the other hand, because tolerance clearance is great in first roof, second roof, in first roof, the board, in the second roof in the board of rock when the lid, when first paper angle bead direct supports first roof and first bottom plate, and second roof and second bottom plate, second paper angle bead direct supports first roof and first bottom plate, and when second roof and second bottom plate, the installation tolerance between first paper angle bead and second paper angle bead and the box is less, the bearing effect of first paper angle bead and second paper angle bead is better, thereby help promoting the hydrostatic capacity of packing box, the guard action of packing box to the server is better.

In some possible implementations, the first in-roof panel includes a first portion and a second portion, one end of the second portion is connected to the second side panel, the first portion is connected to the other end of the second portion, a length of the first portion in a first direction is smaller than a length of the second portion in the first direction to form the first avoiding portion, and the first direction is directed from the first top panel to the second top panel.

In this implementation mode, the first portion of first top interior rocker board is less than the second portion in first ascending length of direction X in order to form first portion of dodging in first direction X ascending length, and first portion of dodging of first top interior rocker board simple structure, the processing degree of difficulty is low, helps reducing the design degree of difficulty of box to reduce the box cost. In addition, the first portion of dodging of board is reserved in the first top is big, and the first paper angle bead of being convenient for is installed, block in the box, and the optional position between first portion and first curb plate or between first portion and the third curb plate can be installed to first paper angle bead.

In some possible implementations, the first paper corner protector includes a first plate and a second plate, the first plate being connected to the second plate, the first plate and the second plate forming an included angle therebetween.

In this implementation mode, form the contained angle between first board and the second board of first paper angle bead, when first paper angle bead was installed in the box, form triangle-shaped between first board, second board and the first curb plate (or the third curb plate), because triangle-shaped has good stability for first paper angle bead can promote the compressive property of packing box by a wide margin. In addition, the first paper corner protector is simple in structure, so that the first paper corner protector has the advantages of simplicity in processing and low cost.

In some possible implementations, the packaging box further includes a first support, a second support, and a third support, one end of the second support is clamped to the first support, another end of the second support is clamped to the third support, and hardness of the second support is smaller than that of the first support and that of the third support. The first support piece and the third support piece are used for supporting two ends of the server, and the second support piece is used for supporting the middle part of the server.

In this implementation mode, the hardness of second support piece is less than the hardness of first support piece and third support piece, and first support piece is used for supporting the head end that the server was equipped with the hangers, and third support piece is used for supporting the tail end that the server was equipped with structure such as loose not take off the screw, but the both ends of server pressure-bearing, and first support piece and third support piece's hardness is higher, and the resistance to compression is better, can form effective support to structures such as server both ends convex arris, closed angle. And the first support piece and the third support piece with high hardness are not easy to be pierced by structures such as edges and sharp corners at two ends of the server, so that the stability of the bottom support piece is improved, and a better protection effect is formed on the server. The inner side of the middle part of the support server is provided with devices such as a central processing unit, and the devices such as the central processing unit are fixed on the main board through welding or bonding, so that when the server falls down, larger impact stress is required to bear, and the devices on the main board are easy to shake off. The second supporting piece with smaller hardness is high in elasticity and good in energy absorption effect, and stress in the falling process of the server can be effectively reduced, so that damage of the server when the server is impacted is reduced. The second supporting part is used for supporting the middle part of the server, so that devices such as a central processing unit and the like can be effectively prevented from shaking off when the server falls down, and the server is effectively protected.

In some possible implementations, the material of the first support and the third support is foamed polypropylene, and the material of the second support is foamed polyethylene.

In the implementation mode, the foaming polypropylene is an environment-friendly packaging material, has the advantages of pressure resistance, good stability and high reliability, and can be integrally formed through a die. The first support piece and the third support piece which are made of foaming polypropylene have good compression resistance and high structural strength, and can well protect edges and sharp corners at two ends of the server. The foamed polyethylene is an environment-friendly packaging material, has the characteristics of shock resistance, good plasticity, strong collision resistance and the like, and the second support piece made of the foamed polyethylene has high elasticity and good energy absorption effect, and can effectively reduce the stress in the falling process of the server.

In some possible implementations, the second support is provided with a plurality of grooves, the plurality of grooves being spaced apart to form a network of the second support.

In this implementation mode, the second support piece is the network structure that has a plurality of recesses, and network structure's elastic deformation ability is stronger, helps further promoting the energy-absorbing effect of second support piece to can effectively reduce the stress of server in-process that falls.

In some possible implementations, the second support may include a first connection portion, a second connection portion, and a third connection portion, the second connection portion connecting the first connection portion and the third connection portion, a length of the second connection portion in the first direction being smaller than a length of the first connection portion and the third connection portion in the first direction. The first support piece is provided with a first lug and a second lug, the first lug and the second lug are oppositely arranged, and the first connecting part and at least part of the second connecting part are clamped with the first lug and the second lug. The third supporting piece is provided with a third lug and a fourth lug, the third lug and the fourth lug are oppositely arranged, and the third connecting part and at least part of the second connecting part are clamped with the third lug and the fourth lug.

In this implementation manner, the length of the second connecting portion of the second supporting member in the first direction X is smaller than the length of the first connecting portion and the third connecting portion in the first direction X, at least the second connecting portion and the first connecting portion are clamped with the first lug and the second lug, the other end of the same second supporting member is clamped with the third lug and the fourth lug of the third supporting member, so that the connection between the second supporting member and the first supporting member and the connection between the second supporting member and the third supporting member are more stable, and the second supporting member is prevented from being separated from the first supporting member and the third supporting member in the second direction Y, so that stability and reliability of the packaging box are improved.

In some possible implementations, the first support includes a first portion and a second portion, the first portion being engaged with the second portion, the first portion having a density greater than a density of the second portion, the first portion being configured to support the hanger of the server.

In this implementation, the first portion of the first support has a density that is greater than the density of the second portion such that the hardness of the first portion is greater than the hardness of the second portion. The first part is used for supporting the hangers of the server, and the buffering and supporting effects of the first part with higher hardness on the hangers are better. Even in the transportation, the first part collides with the hangers, and the first part with higher hardness is not easy to be pierced by the hangers, and the stability of the first support piece is higher, so that the first support piece can form good protection effect on the server. In some possible implementations, the third support includes a first support block and a second support block, the first support block having a density greater than a density of the second support block, the first support block being embedded in the second support block, the first support block for supporting the trailing end of the server.

In this implementation, the density of the first supporting block of the third supporting piece is greater than the density of the second supporting block, so that the hardness of the first supporting block is greater than that of the second supporting block, and the strength of the first supporting block is higher. The first supporting block is used for supporting the tail end of the server, and because the tail end of the server is provided with the structures such as the loose screw and the power supply, the structures at the tail end of the server cannot be stressed, the contact area between the first supporting block and the tail end of the server is small, and the buffering and supporting effects of the first supporting block with higher hardness on the structures such as the loose screw and the power supply are better. Even in the transportation, collision takes place for first supporting shoe and the tail end of server, and the edge angle that intensity is higher is difficult for also being pierced by the server tail end for first supporting shoe, and first support piece's stability is higher to make third support piece can form good guard action to the server.

In a second aspect, the present application further provides a server work package assembly, the server work package assembly including a server and a package box according to any one of the above, the server being disposed inside the package box.

Drawings

FIG. 1 is a schematic diagram of a server toolkit assembly provided in embodiments of the present application in some embodiments;

FIG. 2 is a partially exploded view of the package of FIG. 1;

FIG. 3 is a schematic view of the structure of the case shown in FIG. 2;

FIG. 4A is a schematic illustration of the first paper corner protector of FIG. 2 in some embodiments;

FIG. 4B is a schematic view of the first paper corner protector of FIG. 2 in alternative embodiments;

FIG. 5 is a schematic view of a portion of the construction of the server toolkit assembly of FIG. 1;

FIG. 6A is a schematic view of the bottom support of FIG. 5;

FIG. 6B is a schematic view of a partially exploded construction of the bottom support shown in FIG. 6A;

FIG. 7 is an exploded view of the first support of FIG. 6B;

FIG. 8 is an exploded view of the third support member of FIG. 6B;

FIG. 9 is a schematic view of the top support of FIG. 2;

fig. 10 is a schematic view of the package of fig. 1 in alternative embodiments.

Detailed Description

The technical solutions in the embodiments of the present application will be described below with reference to the accompanying drawings. Wherein, in the description of the embodiments of the present application, "/" means or is meant unless otherwise indicated, for example, a/B may represent a or B; the text "and/or" is merely an association relation describing the associated object, and indicates that three relations may exist, for example, a and/or B may indicate: the three cases where a exists alone, a and B exist together, and B exists alone, and in addition, in the description of the embodiments of the present application, "plural" means two or more than two.

In the following, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as implying or implying relative importance or as implying a number of such features. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature.

References to directional terms in the embodiments of the present application, such as "inner", "outer", "side", "top", "bottom", etc., are merely with reference to the directions of the drawings, and thus, the directional terms are used in order to better and more clearly describe and understand the embodiments of the present application, rather than to indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the embodiments of the present application.

In the description of the embodiments of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "disposed on … …" are to be construed broadly, and for example, "connected" may be either detachably connected or non-detachably connected; may be directly connected or indirectly connected through an intermediate medium.

For ease of understanding, the following description will first explain and describe related technical terms related to the embodiments of the present application.

Static pressure: the ability of a package to bear pressure during transport can be modeled, typically by the apparatus, as the ability to withstand static pressure of a package.

The application provides a packing box and server worker package subassembly, the packing box is used for packaging the server, the first paper angle bead of packing box passes the first portion of dodging of rock board in the first roof and the third portion of dodging of rock board in the first end, directly support first roof and first bottom plate, and second roof and second bottom plate, the second paper angle bead passes the second portion of dodging of rock board in the second roof and the fourth portion of dodging of rock board in the second end, directly support second roof and second bottom plate, and second roof and second bottom plate, the pressure-bearing effect of first paper angle bead and second paper angle bead is better, thereby help promoting the hydrostatic capacity of packing box, the packing box is better to the guard action of server.

Referring to fig. 1 to 3 in combination, fig. 1 is a schematic structural diagram of a server work package assembly 100 according to some embodiments of the present application, fig. 2 is a schematic partially exploded structural diagram of a packaging box 10 shown in fig. 1, and fig. 3 is a schematic structural diagram of a box 1 shown in fig. 2.

In some embodiments, the present application provides a server toolkit assembly 100. The server toolkit assembly 100 may include a server (not shown in fig. 1) and a packing box 10, the server being placed inside the packing box 10. A server is a high availability computer on a network that provides various services to client computers. The package 10 has functions of storing, transporting and protecting a server.

In some embodiments, the package 10 may include a box 1, a first paper corner protector 2, a second paper corner protector 3, a bottom support 4, and a top support 5. The first paper corner protector 2 and the second paper corner protector 3 are both arranged between the bottom support 4 and the box 1 and between the top support 5 and the box 1, the bottom support 4 and the top support 5 are oppositely arranged, and the server is placed in the accommodating space between the bottom support 4 and the top support 5.

In some embodiments, the case 1 may include a first side plate 111, a second side plate 112, a third side plate 113, a fourth side plate 114, a first top plate 121, a second top plate 122, a first top inner swing plate 123, a second top inner swing plate 125, a first bottom plate 131, a second bottom plate 132, a first bottom inner swing plate 133, and a second bottom inner swing plate 135, where the first side plate 111 is disposed opposite to the third side plate 113, the second side plate 112 is disposed opposite to the fourth side plate 114, and the first side plate 111, the second side plate 112, the third side plate 113, and the fourth side plate 114 are sequentially connected to form a rectangular space. The first top plate 121 and the second top plate 122 are respectively connected to top sides of the first side plate 111 and the third side plate 113, the first top inner pan plate 123 and the second top inner pan plate 125 are respectively connected to top sides of the second side plate 112 and the fourth side plate 114, the first bottom plate 131 and the second bottom plate 132 are respectively connected to bottom sides of the first side plate 111 and the third side plate 113, and the first bottom inner pan plate 133 and the second bottom inner pan plate 135 are respectively connected to bottom sides of the second side plate 112 and the fourth side plate 114.

Wherein, the first top inner rocker plate 123 is provided with a first avoiding portion 124, the second top inner rocker plate 125 is provided with a second avoiding portion 126, the first bottom inner rocker plate 133 is provided with a third avoiding portion 134, and the second bottom inner rocker plate 135 is provided with a fourth avoiding portion 136. When the packaging box 10 is closed, that is, when the box body 1 is closed, the first top plate 121 and the second top plate 122 cover the top side of the rectangular space, the first bottom plate 131 and the second bottom plate 132 cover the bottom side of the rectangular space, the top end of the first paper corner protector 2 passes through the first avoiding portion 124 to abut against the first top plate 121, the bottom end of the first paper corner protector 2 passes through the third avoiding portion 134 to abut against the first bottom plate 131, the top end of the second paper corner protector 3 passes through the second avoiding portion 126 to abut against the first top plate 121, and the bottom end of the second paper corner protector 3 passes through the fourth avoiding portion 136 to abut against the first bottom plate 131. The hardness of the first paper corner protector 2 and the second paper corner protector 3 is larger than that of the box body 1. In this embodiment, the "top" and "bottom" directions of each structure of the case 1 are descriptions of relative directions, wherein the propping of the top end of the first paper corner protector 2 against the first top plate 121 means that the top end of the first paper corner protector 2 and the first top plate 121 are in contact with each other, and an interaction force exists between the two, and the following "propping" is similarly understood, which is not repeated in this application. The direction from the first bottom plate 131 to the first top plate 121 is the direction from "bottom" to "top". For example, the first top plate 121 is located at a top side of the first bottom plate 131, and the first bottom plate 131 is located at a bottom side of the first top plate 121.

In this embodiment, the hardness of the first paper corner protector 2 and the second paper corner protector 3 are both greater than that of the case 1, and the structural strength and the bearing capacity of the first paper corner protector 2 and the second paper corner protector 3 are both greater than that of the case 1. Compared with the conventional packing box in which the first paper corner protector is abutted against the first top inner rock plate and the first bottom inner rock plate, the second paper corner protector is abutted against the second top inner rock plate and the second bottom inner rock plate, in the embodiment of the application, the first paper corner protector 2 passes through the first avoiding portion 124 of the first top inner rock plate 123 and the third avoiding portion 134 of the first bottom inner rock plate 133, and directly abuts against the first top plate 121 and the first bottom plate 131, the second paper corner protector 3 passes through the second avoiding portion 126 of the second top inner rock plate 125 and the fourth avoiding portion 136 of the second bottom inner rock plate 135, and directly abuts against the first top plate 121 and the first bottom plate 131, the heights of the first paper corner protector 2 and the second paper corner protector 3 are higher, and the first paper corner protector 2 and the second paper corner protector 3 directly bear pressure, so that the pressure-bearing effect of the first paper corner protector 2 and the second paper corner protector 3 is better. On the other hand, because the tolerance gap is larger when the first top plate 121, the second top plate 122, the first top inner plate 123 and the second top inner plate 125 are closed, when the first paper corner protector 2 directly abuts against the first top plate 121 and the first bottom plate 131, and the second top plate 122 and the second bottom plate 132, the second paper corner protector 3 directly abuts against the first top plate 121 and the first bottom plate 131, and the second top plate 122 and the second bottom plate 132, the installation tolerance between the first paper corner protector 2 and the second paper corner protector 3 and the box body 1 is smaller, the bearing effect of the first paper corner protector 2 and the second paper corner protector 3 is better, thereby being helpful for improving the static pressure capability of the packaging box 10, and the protection effect of the packaging box 10 on the server is better.

Compared with the traditional packing box in which the first paper corner protector is propped against the first top inner rock plate and the first bottom inner rock plate, the second paper corner protector is propped against the second top inner rock plate and the second bottom inner rock plate, in the simulation, the first top plate 121 and the first bottom plate 131, the first paper corner protector 2 and the second paper corner protector 3 of the second top plate 122 and the second bottom plate 132 are directly propped against the first top plate 121 and the first bottom plate 131 in the application, and the pressure bearing capacity of the traditional packing box 10 can be improved to 10000 newtons from 7000 newtons, so that the pressure resistance of the packing box 10 is effectively improved.

In this embodiment, the "first direction", "second direction" and "third direction" of the package 10 are descriptions of opposite directions, where the package 10 may be a substantially rectangular parallelepiped, and the package 10 rectangular parallelepiped includes three faces approximately perpendicular to each other, and the direction parallel to one of the faces of the package 10 rectangular parallelepiped is taken as the first direction, the direction parallel to the other face of the package 10 rectangular parallelepiped is taken as the second direction, and the direction parallel to the third face of the package 10 rectangular parallelepiped is taken as the third direction.

In some embodiments, the first in-roof deck 123 may include a first portion 127 and a second portion 128, one end of the second portion 128 being connected to the second side plate 112, the first portion 127 being connected to the other end of the second portion 128, a length of the first portion 127 in a first direction X being smaller than a length of the second portion 128 in the first direction X to form the first escape portion 124, the first direction X being directed from the first top plate 121 to the second top plate 122. The first portion 127 and the second portion 128 are substantially rectangular, and the first portion 127 and the second portion 128 are approximately symmetrical about the same symmetry axis, so that two first avoiding portions 124 are formed between the first top inner swing plate 123 and the first side plate 111, and between the first top inner swing plate and the third side plate 113, respectively, and the space size of the two first avoiding portions 124 is approximately, so that the first paper corner protector 2 with standardized specifications is conveniently installed on the two first avoiding portions 124, respectively.

The first and second portions of the second top inner pan plate 125, the first bottom inner pan plate 133, and the second bottom inner pan plate 135 may be set with reference to the first and second portions 127 and 128 of the first top inner pan plate 123, which is not described in detail herein. Therefore, two first paper corner protectors 2 and two second paper corner protectors 3 are mounted on the inner side of the box body 1, and four paper corner protectors are mounted on the inner side of the box body. In this embodiment, referring to fig. 3, the x direction is the first direction, the Y direction is the second direction, and the Z direction is the third direction. In the related description, the relative orientations of the first direction, the second direction, and the third direction are similarly understood, and will not be described in detail.

In this embodiment, the length of the first portion 127 of the first top inner swing plate 123 in the first direction X is smaller than the length of the second portion 128 in the first direction X to form the first avoiding portion 124, and the first avoiding portion 124 of the first top inner swing plate 123 has a simple structure and low processing difficulty, and is conducive to reducing the design difficulty of the box 1, thereby reducing the cost of the box 1. In addition, the first avoiding portion 124 of the first top inner swing plate 123 has a large reserved space, so that the first paper corner protector 2 is convenient to be mounted and clamped in the box 1, and the first paper corner protector 2 can be mounted at any position between the first portion 127 and the first side plate 111 or between the first portion 127 and the third side plate 113.

In some embodiments, the number of the first paper corner protectors 2 and the second paper corner protectors 3 is two, the number of the first avoiding portions 124 on the first top inner swing plate 123 is two, the number of the second avoiding portions 126 on the second top inner swing plate 125 is two, the number of the third avoiding portions 134 on the first bottom inner swing plate 133 is two, and the number of the fourth avoiding portions 136 on the second bottom inner swing plate 135 is two. The top end of one of the first paper corner protectors 2 passes through the first avoiding portion 124 to abut against the first top plate 121, and the bottom end of the first paper corner protector 2 passes through the third avoiding portion 134 to abut against the first bottom plate 131. The top end of one second paper corner protector 3 passes through the second avoiding part 126 to abut against the first top plate 121, and the bottom end of the second paper corner protector 3 passes through the fourth avoiding part 136 to abut against the first bottom plate 131. The top end of the other first paper corner protector 2 passes through the first avoiding portion 124 to abut against the second top plate 122, and the bottom end of the first paper corner protector 2 passes through the third avoiding portion 134 to abut against the second bottom plate 132. The top end of the other second paper corner protector 3 passes through the second avoiding portion 126 to abut against the second top plate 122, and the bottom end of the second paper corner protector 3 passes through the fourth avoiding portion 136 to abut against the second bottom plate 132.

In other embodiments, the first avoiding portion 124 of the first in-roof plate 123 may have other shapes, for example, the first in-roof plate 123 may be hollowed out at a position where the first paper corner protector 2 is installed to form the first avoiding portion 124, so that the first paper corner protector 2 passes through the first avoiding portion 124 to abut against the first top plate 121 or the second top plate 122, which is not strictly limited in this application.

Referring to fig. 1 and 4A in combination, fig. 4A is a schematic structural view of the first paper corner protector 2 shown in fig. 2 in some embodiments.

In some embodiments, the first paper corner protector 2 may include a first plate 21 and a second plate 22, the first plate 21 being connected to the second plate 22, the first plate 21 forming an included angle with the second plate 22. The first and second plates of the second paper corner protector 3 may be disposed with reference to the first and second plates 21 and 22 of the first paper corner protector 2, which will not be described in detail herein.

In this embodiment, an included angle is formed between the first plate 21 and the second plate 22 of the first paper corner protector 2, and when the first paper corner protector 2 is mounted on the box 1, a triangle is formed between the first plate 21, the second plate 22 and the first side plate 111 (or the third side plate 113), and the triangle has good stability, so that the first paper corner protector 2 can greatly improve the compression resistance of the packaging box 10. In addition, the first paper corner protector 2 is simple in structure, so that the first paper corner protector 2 has the advantages of simplicity in processing and low cost.

The first paper corner protector 2 and the second paper corner protector 3 can be directly purchased for standardized finished products, and the standardized finished products are cut into proper lengths and then directly used for the packaging box 10 of the application, so that the production cost of the packaging box 10 is reduced.

Referring to fig. 4B, fig. 4B is a schematic structural view of the first paper corner protector 2 shown in fig. 2 in other embodiments.

In other embodiments, the first paper corner protector 2 may have other shapes, for example, the first paper corner protector 2 may include a first plate 21, a second plate 22, a third plate 23 and a fourth plate 24, where the third plate 23 is located on the top side of the first plate 21 and the second plate 22 and connects the first plate 21 and the second plate 22, the fourth plate 24 is located on the bottom side of the first plate 21 and the second plate 22 and connects the first plate 21 and the second plate 22, a stable triangle structure is formed between the third plate 23 and the first plate 21 and the second plate 22, and a stable triangle structure is formed between the fourth plate 24 and the first plate 21 and the second plate 22, so as to help to enhance the structural stability of the first paper corner protector 2 and improve the compression resistance of the first paper corner protector 2. The first paper corner protector 2 may have a rectangular frame structure or the like, and is not limited to this.

Referring again to fig. 1 and 4A, in some embodiments, the first paper corner protector 2 and the second paper corner protector 3 may be high strength, dense paper structures made from recycled paper stock, smooth and flat surfaces, with no significant burrs. The first paper corner protector 2 and the second paper corner protector 3 have the remarkable advantages of being firm, strong in compression resistance, simple in structure, light in weight, environment-friendly and low in cost, are ideal green packaging materials, and can greatly reduce damage to a server in transportation when applied to the packaging box 10. The box 1 can be made of corrugated board, the price of corrugated board is lower, use corrugated board as box 1 makes the cost of packing box 10 lower to corrugated paper can folding transportation, and the space that needs to occupy is less, and the cost of transportation of box 1 is lower relatively.

Referring to fig. 5, fig. 6A and fig. 6B in combination, fig. 5 is a schematic view of a part of the structure of the server packet assembly 100 shown in fig. 1, fig. 6A is a schematic view of the bottom support 4 shown in fig. 5, and fig. 6B is a schematic view of a part of the exploded structure of the bottom support 4 shown in fig. 6A.

In some embodiments, the package 10 may further include a first support 41, a second support 42, and a third support 43, where one end of the second support 42 is engaged with the first support 41, and the other end of the second support 42 is engaged with the third support 43, and the hardness of the second support 42 is less than the hardness of the first support 41 and the third support 43. The first support 41, the second support 42 and the third support 43 together constitute the bottom support 4 of the package 10. When the server 20 is placed inside the package box 10 (see fig. 1), the bottom support 4 wraps around a portion of the bottom of the server 20, so as to form a good protection support for the server 20. Wherein the first support 41 and the third support 43 are used for supporting both ends of the server 20, and the second support 42 is used for supporting the middle of the server 20. Illustratively, the first support 41 is used for supporting a head end of the server 20, and the head end of the server 20 is mounted with the hanger 201. The third supporting member 43 is used for supporting the tail end of the server 20, and the tail end of the server 20 is provided with a structure (not shown in fig. 5) such as a loose screw, a power supply, etc. The central processing unit (Central Processing Unit, CPU) and the like are mounted on the inner side of the middle of the support server 20.

In this embodiment, the hardness of the second supporting member 42 is smaller than that of the first supporting member 41 and the third supporting member 43, the first supporting member 41 is used for supporting the head end of the server 20 with the hanging lugs 201, the third supporting member 43 is used for supporting the tail end of the server 20 with the structure such as loose and non-loose screws, the two ends of the server 20 cannot bear pressure, the hardness of the first supporting member 41 and the third supporting member 43 is higher, the compression resistance is better, and effective support can be formed for the structures such as the raised edges and sharp corners at the two ends of the server 20. And the first supporting member 41 and the third supporting member 43 with high rigidity are not easy to be pierced by the structures such as edges and sharp corners at the two ends of the server 20, so that the stability of the bottom supporting member 4 is improved, and a better protection effect is formed on the server 20. The central processing unit and other devices are mounted on the inner side of the middle part of the support server 20, and because the central processing unit and other devices are fixed on the main board through welding or bonding, when the server 20 falls down, larger impact stress is required to bear, and the devices on the main board are easy to shake off. The second supporting member 42 with smaller rigidity has high elasticity and good energy absorption effect, and can effectively reduce the stress in the falling process of the server 20, thereby reducing the damage of the server 20 when impacted and collided. The second supporting portion is used for supporting the middle portion of the server 20, so that devices such as a central processing unit and the like of the server 20 can be effectively prevented from shaking off when the server 20 falls down, and effective protection is formed for the server 20.

In some embodiments, the material of the first support 41 and the third support 43 is foamed polypropylene (Expanded polypropylene, EPP), and the material of the second support 42 is foamed polyethylene (Expandable Polyethylene, EPE). For example, the first support 41 and the third support 43 may be integrally formed using foamed polypropylene through a die, and the second support 42 may be formed of foamed polyethylene sheet material through knife die cutting.

In the embodiment, the foaming polypropylene is an environment-friendly packaging material, has the advantages of pressure resistance, good stability and high reliability, and can be integrally formed through a die. The first supporting piece 41 and the third supporting piece 43 which are made of foamed polypropylene have good compression resistance and high structural strength, and can well protect edges and sharp corners at two ends of the server 20. The foamed polyethylene is an environment-friendly packaging material, has the characteristics of shock resistance, good plasticity, strong collision resistance and the like, and the second support piece 42 made of the foamed polyethylene has high elasticity and good energy absorption effect, so that the stress of the server 20 in the falling process can be effectively reduced.

In some embodiments, the second support 42 is provided with a plurality of grooves 421, and the plurality of grooves 421 are spaced apart to form a mesh structure of the second support 42. In this embodiment, the second supporting member 42 is a mesh structure with a plurality of grooves 421, and the elastic deformation capability of the mesh structure is stronger, which is helpful to further improve the energy absorbing effect of the second supporting member 42, so as to effectively reduce the stress in the dropping process of the server 20.

In some embodiments, the second supporting member 42 may include a first connection portion 422, a second connection portion 423, and a third connection portion 424, the second connection portion 423 connecting the first connection portion 422 and the third connection portion 424, the second connection portion 423 being provided with a mesh structure. The second support 42 may have a substantially plate shape, and the length of the second connection portion 423 in the first direction X is smaller than the lengths of the first and third connection portions 422 and 424 in the first direction X. The first supporting member 41 is provided with a first lug 411 and a second lug 412, the first lug 411 and the second lug 412 are oppositely arranged, an accommodating space is formed between the first lug 411 and the second lug 412, and the first connecting portion 422 and at least part of the second connecting portion 423 are clamped between the first lug 411 and the second lug 412. The first lug 411 may include a first connection plate 4111 and a second connection plate 4112, the length of the first connection plate 4111 in the first direction X is smaller than the length of the second connection plate 4112 in the first direction X, the second lug 412 may include a third connection plate 4121 and a fourth connection plate 4122, the third connection plate 4121 is disposed opposite the first connection plate 4111, the fourth connection plate 4122 is disposed opposite the second connection plate 4112, and the length of the third connection plate 4121 in the first direction X is smaller than the length of the fourth connection plate 4122 in the first direction X. The first connection portion 422 is mounted in the first receiving space 413 formed between the third connection plate 4121 and the first connection plate 4111, the second receiving space 414 is formed between the fourth connection plate 4122 and the second connection plate 4112, and the second connection portion 423 is at least partially located in the second receiving space 414, so that one end of the second support member 42 is clamped to the first support member 41. The third supporting member 43 is provided with a third lug 432 and a fourth lug 433, the third lug 432 and the fourth lug 433 are disposed opposite to each other, and the third connecting portion 424 and at least part of the second connecting portion 423 are clamped to the third lug 432 and the fourth lug 433. The specific structures of the third lug 432 and the fourth lug 433 may be respectively set with reference to the first lug 411 and the second lug 412 of the first support member 41, so as to achieve that the other end of the second support member 42 is clamped to the third support member 43, which is not described herein.

In the present embodiment, the length of the second connecting portion 423 of the second supporting member 42 in the first direction X is smaller than the length of the first connecting portion 422 and the third connecting portion 424 in the first direction X, at least the second connecting portion 423 and the first connecting portion 422 are clamped with the first lug 411 and the second lug 412, and the other end of the same second supporting member 42 is clamped with the third lug 432 and the fourth lug 433 of the third supporting member 43, so that the connection between the second supporting member 42 and the first supporting member 41 and the third supporting member 43 is more stable, and the second supporting member 42 is prevented from being separated from the first supporting member 41 and the third supporting member 43 in the second direction Y, thereby helping to improve the stability and reliability of the packaging case 10.

Referring to fig. 2 and 6B again, in some embodiments, a first mounting groove 415 is formed on a side of the first support member 41, the second paper corner protector 3 is mounted on the first mounting groove 415, a second mounting groove 431 is formed on a side of the third support member 43, the second mounting groove 431 is disposed with the first mounting groove 415, and the first paper corner protector 2 is mounted on the second mounting groove 431. Wherein the shape of the first mounting groove 415 is adapted to the shape of the second paper corner protector 3, and the shape of the second mounting groove 431 is adapted to the shape of the first paper corner protector 2.

In this embodiment, the first mounting groove 415 and the second mounting groove 431 play a role in positioning and/or limiting the second paper corner protector 3 and the first paper corner protector 2 respectively, so that the first paper corner protector 2 and the second paper corner protector 3 are prevented from being shifted when the packaging box 10 is shocked or impacted, the supporting reliability of the first paper corner protector 2 and the second paper corner protector 3 to the box body 1 is high, and meanwhile, the assembling difficulty of the packaging box 10 is reduced.

Referring to fig. 5 and 7 in combination, fig. 7 is an exploded view of the first supporting member 41 shown in fig. 6B.

In some embodiments, the first support 41 may include a first portion 416 and a second portion 417, the first portion 416 being engaged with the second portion 417, the first portion 416 having a density greater than a density of the second portion 417, the first portion 416 being configured to support the hanger 201 of the server 20. Illustratively, the first support 41 may be integrally formed by a mold using a density of the expanded polypropylene used to form the first portion 416 that is greater than a density of the expanded polypropylene used to form the second portion 417. Wherein the expanded polypropylene used to make the first portion 416 may have a density of 30 kilograms per cubic meter (kg/m) ³ ) The density of the expanded polypropylene used to make the first portion 416 may be 20 kilograms per cubic meter (kg/m) ³ )。

In this embodiment, the density of the first portion 416 of the first support 41 is greater than the density of the second portion 417 such that the hardness of the first portion 416 is greater than the hardness of the second portion 417. The first portion 416 is used for supporting the hanger 201 of the server 20, and the first portion 416 with higher hardness has better buffering and supporting effects on the hanger 201. Even if the first portion 416 collides with the hanging tab 201 during transportation, the first portion 416 with higher hardness is not easily pierced by the hanging tab 201, and the stability of the first support 41 is higher, so that the first support 41 can form a good protection effect on the server 20. In addition, the first supporting member 41 is integrally formed by the mold from two materials with different densities, and the first portion 416 and the second portion 417 do not need to be separately processed, so that the production efficiency is higher, and the production cost of the packing case 10 is reduced.

Referring to fig. 5 and 8 in combination, fig. 8 is an exploded view of the third supporting member 43 shown in fig. 6B.

In some embodiments, third support 43 may include a first support block 434 and a second support block 435, the first support block 434 having a density greater than the density of the second support block 435, the first support block 434 being embedded in the second support block 435, the first support block 434 for supporting the trailing end of server 20. Exemplary, the expanded polypropylene used to make first support block 434 The second support 42 may be integrally formed by a mold having a density greater than the density of the expanded polypropylene used to make the second support block 435. Wherein the density of the expanded polypropylene used to make the first support block 434 may be 45 kilograms per cubic meter (kg/m) ³ ) The density of the expanded polypropylene used to make the first support block 434 may be 20 kilograms per cubic meter (kg/m) ³ ). The second support block 435 is provided with a receiving groove 436, and the first support block 434 is inserted into the receiving groove 436 of the second support block 435.

In the present embodiment, the density of the first supporting block 434 of the third supporting member 43 is greater than that of the second supporting block 435, so that the hardness of the first supporting block 434 is greater than that of the second supporting block 435, and the strength of the first supporting block 434 is higher. The first supporting block 434 is used for supporting the tail end of the server 20, and because the tail end of the server 20 is provided with the structures such as the loose screw and the power supply, the structures at the tail end of the server 20 cannot be stressed, the contact area between the first supporting block 434 and the tail end of the server 20 is smaller, and the buffering and supporting effects of the first supporting block 434 with higher hardness on the structures such as the loose screw and the power supply are better. Even if the first supporting block 434 collides with the tail end of the server 20 during transportation, the first supporting block 434 with higher strength is not easily penetrated by the corner of the tail end of the server 20, and the stability of the first supporting member 41 is higher, so that the third supporting member 43 can form a good protection effect on the server 20. In addition, the third supporting member 43 is integrally formed of two materials having different densities through a mold, and the first supporting block 434 and the second supporting block 435 do not need to be separately processed, so that the production efficiency is higher, and the production cost of the packing case 10 is reduced.

Referring to fig. 2 and 9 in combination, fig. 9 is a schematic view of the top support 5 shown in fig. 2.

In some embodiments, the side edge of the top support 5 is provided with a third mounting groove 51 and a fourth mounting groove 52, the third mounting groove 51 and the fourth mounting groove 52 are disposed opposite, the third mounting groove 51 is disposed opposite to the first mounting groove 415, the fourth mounting groove 52 is disposed opposite to the second mounting groove 431, the second paper corner protector 3 is mounted in the third mounting groove 51, and the first paper corner protector 2 is mounted in the fourth mounting groove 52. Wherein the shape of the third mounting groove 51 is adapted to the shape of the second paper corner protector 3 and the shape of the fourth mounting groove 52 is adapted to the shape of the first paper corner protector 2.

In this embodiment, the third mounting groove 51 and the fourth mounting groove 52 play a role in positioning and/or limiting the second paper corner protector 3 and the first paper corner protector 2 respectively, so that the first paper corner protector 2 and the second paper corner protector 3 are prevented from being shifted when the packaging box 10 is shocked or impacted, the supporting reliability of the first paper corner protector 2 and the second paper corner protector 3 to the box body 1 is high, and meanwhile, the assembling difficulty of the packaging box 10 is reduced.

Referring to fig. 3 and 10 in combination, fig. 10 is a schematic view of the package 10 shown in fig. 1 in other embodiments. The present embodiment may include most of the technical features of the foregoing embodiments, and the differences between the two are mainly described below, and most of the same contents of the two will not be described again.

In some embodiments, the package 10 may further include a third paper corner protector 6 and a fourth paper corner protector 7, the third paper corner protector 6 being similar in shape to the first paper corner protector 2, the first and second panels of the third paper corner protector 6 each having a length less than the first and second panels 21, 22 of the first paper corner protector 2. The number of the third paper corner protector 6 and the fourth paper corner protector 7 is two, wherein one third paper corner protector 6 is installed between the first paper corner protector 2 and the first side plate 111, and the other third paper corner protector 6 is installed between the first paper corner protector 2 and the third side plate 113. The top end of one third paper corner protector 6 passes through the first avoiding portion 124 to abut against the first top plate 121, the bottom end of the third paper corner protector 6 passes through the third avoiding portion 134 to abut against the first bottom plate 131, the top end of the other third paper corner protector 6 passes through the first avoiding portion 124 to abut against the second top plate 122, and the bottom end of the third paper corner protector 6 passes through the third avoiding portion 134 to abut against the second bottom plate 132 (please refer to fig. 3). The fourth paper corner protector 7 is similar in shape to the second paper corner protector 3, and the lengths of the first and second plates of the fourth paper corner protector 7 are smaller than those of the first and second plates 21 and 22 of the second paper corner protector 3, wherein one fourth paper corner protector 7 is mounted between the second paper corner protector 3 and the first side plate 111, and the other fourth paper corner protector 7 is mounted between the second paper corner protector 3 and the third side plate 113. The top end of one fourth paper corner protector 7 passes through the second avoiding part 126 to abut against the first top plate 121, the bottom end of the fourth paper corner protector 7 passes through the fourth avoiding part 136 to abut against the first bottom plate 131, the top end of the other fourth paper corner protector 7 passes through the second avoiding part 126 to abut against the second top plate 122, and the bottom end of the fourth paper corner protector 7 passes through the fourth avoiding part 136 to abut against the second bottom plate 132. Therefore, two first paper corner protectors 2, two second paper corner protectors 3, two third paper corner protectors 6 and two fourth paper corner protectors 7 are mounted on the inner side of the box body 1 in total.

In this embodiment, eight paper corner protectors are disposed between the first top plate 121 and the first bottom plate 131, and between the second top plate 122 and the second bottom plate 132 of the box 1, so that the eight paper corner protectors have better supporting effect on the box 1, which is helpful for further improving the static pressure capability of the packaging box 10, and the packaging box 10 has better protecting effect on the server.

In other embodiments, paper corner protectors may be provided between the four corners of the bottom support 4 and the top support 5 (see fig. 2) and the four corners of the case 1, so as to further enhance the static pressure capability of the package 10, which is not strictly limited in this application.

Referring again to fig. 3, in other embodiments, the end of the first top inner pan plate 123 facing the second side plate 112 and the end of the first bottom inner pan plate 133 facing the second side plate 112 may be provided with a relief for mounting a paper corner protector, the end of the second top inner pan plate 125 facing the fourth side plate 114 and the end of the second bottom inner pan plate 135 facing the fourth side plate 114 may be provided with a relief for mounting a paper corner protector. The paper corner protector may be installed at any position between the first top plate 121 and the first bottom plate 131, and the paper corner protector may be installed at any position between the second top plate 122 and the second bottom plate 132, which is not strictly limited in this application.

The above embodiments are only for illustrating the technical solution of the present application, and are not limiting thereof; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the corresponding technical solutions from the scope of the technical solutions of the embodiments of the present application.

Claims (10)

1. The utility model provides a packing box, the packing box is used for packing the server, its characterized in that, the packing box includes box, first paper angle bead and second paper angle bead, the box includes first curb plate, second curb plate, third curb plate, fourth curb plate, first roof, second roof, first roof in the back side plate, second roof in the back side plate, first bottom plate, second bottom plate, first bottom in the back side plate and second bottom in the back side plate, first curb plate with third curb plate sets up relatively, second curb plate with fourth curb plate sets up relatively, first curb plate, second curb plate, third curb plate and fourth curb plate connect gradually, surround and form rectangular space;

The first top plate and the second top plate are respectively connected with the top sides of the first side plate and the third side plate, the first top inner swing plate and the second top inner swing plate are respectively connected with the top sides of the second side plate and the fourth side plate, the first bottom plate and the second bottom plate are respectively connected with the bottom sides of the first side plate and the third side plate, and the first bottom inner swing plate and the second bottom inner swing plate are respectively connected with the bottom sides of the second side plate and the fourth side plate;

the first top inner rocker plate is provided with a first avoiding part, the second top inner rocker plate is provided with a second avoiding part, the first bottom inner rocker plate is provided with a third avoiding part, and the second bottom inner rocker plate is provided with a fourth avoiding part;

when the packaging box is closed, the first top plate and the second top plate cover the top side of the rectangular space, the first bottom plate and the second bottom plate cover the bottom side of the rectangular space, the top end of the first paper corner protector passes through the first avoiding part to abut against the first top plate, the bottom end of the first paper corner protector passes through the third avoiding part to abut against the first bottom plate, the top end of the second paper corner protector passes through the second avoiding part to abut against the first top plate, and the bottom end of the second paper corner protector passes through the fourth avoiding part to abut against the first bottom plate;

The hardness of the first paper corner protector and the second paper corner protector is greater than that of the box body.

2. The package of claim 1, wherein the first top inner pan comprises a first portion and a second portion, one end of the second portion is connected to the second side panel, the first portion is connected to the other end of the second portion, a length of the first portion in a first direction is less than a length of the second portion in the first direction to form the first avoidance portion, the first direction being directed from the first top panel to the second top panel.

3. The package of claim 1, wherein the first paper corner protector comprises a first panel and a second panel, the first panel being connected to the second panel, the first panel and the second panel forming an included angle therebetween.

4. The package of claim 2, further comprising a first support, a second support, and a third support, one end of the second support being snapped to the first support and the other end of the second support being snapped to the third support, the second support having a hardness less than the first and third supports;

The first supporting piece and the third supporting piece are used for supporting two ends of the server, and the second supporting piece is used for supporting the middle of the server.

5. The package of claim 4 wherein the material of the first and third supports is foamed polypropylene and the material of the second support is foamed polyethylene.

6. A package according to claim 4 or claim 5, wherein the second support is provided with a plurality of grooves, a plurality of the grooves being spaced apart to form a network of the second support.

7. The package of claim 4 or 5, wherein the second support member comprises a first connecting portion, a second connecting portion, and a third connecting portion, the second connecting portion connecting the first connecting portion and the third connecting portion, the second connecting portion having a length in the first direction that is less than the length of the first connecting portion and the third connecting portion in the first direction;

the first supporting piece is provided with a first lug and a second lug, the first lug and the second lug are oppositely arranged, and the first connecting part and at least part of the second connecting part are clamped with the first lug and the second lug;

The third supporting piece is provided with a third lug and a fourth lug, the third lug and the fourth lug are oppositely arranged, and the third connecting part and at least part of the second connecting part are clamped with the third lug and the fourth lug.

8. The package of claim 4 or 5, wherein the first support comprises a first portion and a second portion, the first portion being snapped into the second portion, the first portion having a density greater than a density of the second portion, the first portion being configured to support a hanger of the server.

9. The package of claim 4 or 5, wherein the third support comprises a first support block and a second support block, the first support block having a density greater than a density of the second support block, the first support block being embedded in the second support block, the first support block being for supporting a trailing end of the server.

10. A server kit comprising a server and the package of any one of claims 1 to 9, the server being disposed inside the package.

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