CN216735280U - Packaging assembly - Google Patents

Abstract

The application discloses package assembly for packing electronic equipment includes: a first accommodating member having an accommodating recess accommodating at least a part of the electronic apparatus; a first assembly member capable of being assembled with the first receiving member to occupy a part of the in-groove space of the receiving recess; wherein the first assembly and the first accommodating member have a plurality of assembly postures, and the volumes of the in-groove spaces occupied by the first assembly are different in different assembly postures, so that the remaining space of the in-groove spaces can be matched to accommodate the electronic equipment with different sizes. The packaging assembly can be used for packaging various electronic equipment with different models, so that the types of packaging structures are reduced, production management is facilitated, and the production cost is reduced.

Description

Packaging assembly

Technical Field

The application relates to the technical field of electronic equipment, in particular to a packaging assembly.

Background

At present, the same electronic equipment generally has multiple models, and different models have different volumes, so that multiple different packaging structures need to be designed for the electronic equipment with different volumes, and the increase of the packaging structures is not only unfavorable for production management, but also can lead to the increase of production cost.

SUMMERY OF THE UTILITY MODEL

In view of this, the present application provides a packaging assembly, which can realize packaging of various electronic devices of different models, thereby reducing the variety of packaging structures, facilitating production management and reducing production cost.

In order to achieve the above purpose, the present application provides the following technical solutions:

a packaging assembly for packaging an electronic device, comprising:

a first accommodating member having an accommodating recess accommodating at least a part of the electronic apparatus;

a first assembly member capable of being assembled with the first receiving member to occupy a part of the in-groove space of the receiving recess;

wherein the first assembly and the first accommodating member have a plurality of assembly postures, and the volumes of the in-groove spaces occupied by the first assembly are different in different assembly postures, so that the remaining space of the in-groove spaces can be matched to accommodate the electronic equipment with different sizes.

Preferably, in the above packaging assembly, the first assembly includes:

a positioning part;

the first protruding part is arranged on the first side of the positioning part in a protruding mode;

the second protruding part is arranged on a second side of the positioning part in a protruding mode, and the second side is the opposite side of the first side;

the protruding length of the first protruding part is greater than that of the second protruding part, the positioning part and the first protruding part are located in the accommodating groove in the first assembling posture, and the occupied volume of the space in the groove is a first volume; in a second assembly posture, the positioning portion and the second protruding portion are located in the accommodating groove, the volume of the groove inner space occupied by the positioning portion and the second protruding portion is a second volume, and the second volume is smaller than the first volume.

Preferably, in the above packaging assembly, the positioning portion is provided with a first insertion block, the first accommodating member is provided with a first insertion groove communicated with the accommodating groove, the first insertion block is inserted into the first insertion groove to realize assembly of the first assembly member and the first accommodating member, and the positioning portion and the first protruding portion or the second protruding portion are located in the groove inner space.

Preferably, in the above packaging assembly, the first accommodating part is provided with a second insertion groove communicated with the accommodating groove, and in the first assembly posture, the second protrusion is inserted into the second insertion groove to avoid occupying the volume of the in-groove space; in the second assembly posture, the first projection is inserted into the second insertion groove to avoid occupying a volume of the in-groove space.

Preferably, the package assembly further comprises a second assembly, wherein the second assembly can be assembled with the first container and the first assembly and occupies part of the groove inner space.

Preferably, in the above packaging assembly, a third slot is provided on the second assembly, and the first protrusion or the second protrusion located in the slot space can be inserted into the third slot to assemble the first assembly and the second assembly.

Preferably, in the above packaging assembly, a second insert block is disposed on the second assembly, and a fourth slot and a fifth slot which are communicated with the accommodating groove are disposed on the first accommodating member;

wherein, when the second projection is inserted into the third slot, the second insert block is inserted into the fourth slot to assemble the second assembly and the first accommodating part, and the second assembly is located in the in-slot space; when the first protrusion is inserted into the third slot, the second insert block is inserted into the fifth slot to assemble the second assembly and the first accommodating member, and the second assembly is located in the in-slot space.

Preferably, in the above packaging assembly, the first insertion block and the first slot are both multiple and are inserted one to one, and both ends of the positioning portion are provided with the first insertion block and the first slot; the second slot, the first protruding part and the second protruding part are all multiple, and different protruding parts are all in one-to-one insertion connection with the second slot.

Preferably, in the above packaging assembly, the second insert block, the fourth insert slot and the fifth insert slot are all multiple, different insert slots are all in one-to-one insertion connection with the second insert block, and the second insert block, the fourth insert slot and the fifth insert slot are respectively arranged at two ends of the second assembly; the third slot, the first protruding part and the second protruding part are all multiple, and different protruding parts are all in one-to-one insertion connection with the third slot.

Preferably, the package assembly further includes a second accommodating member, and each of the second accommodating member and the first accommodating member accommodates only a part of the electronic device;

wherein the first assembly is only capable of being assembled with the first receptacle, or is capable of being assembled with both the first receptacle and the second receptacle.

The application provides a packaging assembly, use first container to hold electronic equipment, use first subassembly to adjust the position of holding of electronic equipment in the holding groove of first container, and first subassembly and first container have multiple equipment gesture, first subassembly has occupied the different volumes of the inslot space that holds the recess under the different equipment gesture, make the volume of the residual space of inslot space change, and then make the residual space of different volumes can match with the electronic equipment of equidimension not when holding electronic equipment, so just realized the packing to the electronic equipment of multiple different volumes, the model through same packaging assembly, thereby packaging structure's kind has been reduced, be convenient for production management and reduced manufacturing cost.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, it is obvious that the drawings in the following description are only embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic structural view of a first container of a packaging assembly provided by an embodiment of the present application;

fig. 2 is a schematic structural view illustrating the first assembly and the second assembly being engaged when the second protrusion is inserted into the third slot;

fig. 3 is a schematic structural view illustrating the first assembly and the second assembly being engaged when the first protrusion is inserted into the third slot;

FIG. 4 is a schematic view of the first assembly member and the first receiving member assembled in a first assembly position;

fig. 5 is a structural schematic diagram of the first assembly member and the first accommodating member assembled in the second assembly posture.

In fig. 1-5:

1-a first accommodating piece, 2-an accommodating groove, 3-a first assembly piece, 4-a first slot, 5-a second slot, 6-a second assembly piece, 7-a second insertion block, 8-a third slot, 9-a fourth slot, and 10-a fifth slot;

301-a positioning portion, 302-a first protrusion, 303-a second protrusion, 304-a first insert, 305-a first surface, 306-a second surface.

Detailed Description

The application provides a package assembly, it can realize the packing to the electronic equipment of multiple different models to reduce packaging structure's kind, be convenient for production management and reduced manufacturing cost.

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

As shown in fig. 1 to fig. 5, the present application provides a packaging assembly, which is used for packaging electronic devices such as a server, a display, a host, and the like, where the electronic devices all have multiple models, and the different models have different volumes, and the packaging assembly mainly includes a first container 1 and a first assembly 3, where the first container 1 is a main body part for packaging the electronic device, and plays a role in protecting, isolating, buffering, and the like for the electronic device, the first container 1 has a container 2, the container 2 is a structure for placing the electronic device, and the container 2 contains at least a part of the electronic device, that is, the electronic device can be packaged by the container, and can also be packaged by cooperation of multiple containers; the first assembly 3 is a component capable of being assembled to the first receiving member 1, when the first assembly 3 is assembled to the first receiving member 1, the first assembly 3 occupies part of the in-groove space of the receiving recess 2, that is, the first assembly 3 is assembled to the receiving recess 2, and the first assembly 3 and the first receiving member 1 have a plurality of assembling postures, the volumes of the in-groove spaces occupied by the first assembly 3 are different in different assembling postures, and when the first assembly 3 occupies different volumes of the in-groove spaces, the volumes of the remaining spaces of the in-groove spaces not occupied by the first assembly 3 (the remaining spaces refer to the spaces left by subtracting the spaces occupied by the first assembly 3 from the in-groove spaces) are changed, so that electronic devices of different sizes can be received in the remaining spaces of the respective volumes to match the electronic devices with the remaining spaces, therefore, the packaging assembly can package electronic equipment with various sizes. Specifically, when the electronic device is a server, the server in the same unit (the same unit refers to 1U, 2U, 4U, etc., U is a unit of height of the server, and 1U is 44.5mm) has multiple models, the servers in different models have different volumes, and the difference in volume is mainly reflected in the difference in length of the server, namely, the servers of various models are in a cuboid shape, the width and the height of the servers of various models are the same, the difference is that the length is different due to the different layout of internal devices, the length of the remaining space can be varied (the sum of the length occupied by the first assembly 3 and the length of the remaining space is the length of the space in the slot) by varying the manner in which the first assembly 3 is assembled in the receiving recess 2 so that it occupies different lengths of the space in the slot, thereby matching the length of the remaining space to the length of the packaged electronic device.

The packaging assembly with the structure comprises a first assembly part 3 and a first accommodating part 1, the size of the residual space for accommodating electronic equipment of the accommodating groove 2 can be changed by changing the assembly posture of the first assembly part 3 and the first accommodating part 1, and further the residual space can be matched with the electronic equipment accommodating different sizes, so that the matching and packaging of the electronic equipment with different sizes can be realized by changing the assembly posture between the components without changing the structure of each component of the packaging assembly, only one structure is required for the packaging assembly, the purpose of the common packaging structure for the electronic equipment with multiple models is achieved, the various different packaging structures are not required to be designed for the electronic equipment with different sizes, the types of the packaging structures are reduced, the production management is convenient, and the production cost is also reduced.

Preferably, as shown in fig. 2 and 3, the first assembly 3 comprises: a positioning portion 301; a first projection 302 protrudingly provided on a first side of the positioning portion 301; a second protrusion 303 protrudingly provided on a second side of the position fixing part 301, the second side being opposite to the first side; wherein the protruding length of the first protruding part 302 is greater than that of the second protruding part 303, and in the first assembly posture, the positioning part 301 and the first protruding part 302 are located in the accommodating groove 2, and the volume of the space in the groove occupied by the positioning part and the first protruding part is a first volume; in the second assembly posture, the positioning portion 301 and the second projecting portion 303 are located in the accommodating recess 2, and the volume of the in-groove space occupied is a second volume which is smaller than the first volume. In this structure, the positioning portion 301 is used to position the entire first assembly 3 in the accommodating recess 2 so that one of the first protruding portion 302 and the second protruding portion 303 and the positioning portion 301 are located at a specific position in the space in the recess, and since the accommodating recess 2 is used to accommodate an electronic apparatus in a matching manner and the electronic apparatus is preferably rectangular parallelepiped-shaped, the accommodating recess 2 is also preferably a rectangular recess having a certain depth (that is, the space in the recess is rectangular parallelepiped-shaped), while sides in a width direction of the accommodating recess 2 (the width direction is indicated by an arrow in fig. 1) correspond to wide sides of the electronic apparatus, sides in a length direction of the accommodating recess 2 (the length direction is indicated by an arrow in fig. 1) correspond to long sides of the electronic apparatus, and since the purpose of changing the assembly posture of the first assembly 3 is to change the length of the remaining space, the specific position at which one of the first protruding portion 302 and the second protruding portion 303 and the positioning portion 301 are located is the length direction of the space in the recess The one end toward which the positioning portion 301 is provided is close to the side in the width direction of the accommodating recess 2 (hereinafter, this side is simply referred to as a wide side); since the first projecting portion 302 and the second projecting portion 303 are provided on opposite sides of the elongated positioning portion 301, as shown in fig. 4, when the first assembly member 3 is assembled into the accommodating recess 2 in the first assembly posture, since the positioning portion 301 and the first projecting portion 302 having a large projecting length are located in the in-recess space, the positioning portion 301 and the first projecting portion 302 occupy a large volume (i.e., a first volume) of the in-recess space, so that the volume of the remaining space is small, and thus the electronic apparatus having a small volume can be fittingly accommodated in the remaining space, and when the first assembly member 3 is placed in the accommodating space upside down, i.e., when the first assembly member 3 is assembled into the accommodating recess 2 in the second assembly posture, as shown in fig. 5, since the positioning portion 301 and the second projecting portion 303 having a small projecting length are located in the in-recess space, the positioning portion 301 and the second projecting portion 303 occupy a small volume (i.e., a second volume) of the in-recess space, so just so make the volume of residual space great, and then make the great electronic equipment of volume can match and hold in the residual space, just so can adopt different directions of placing through making first subassembly piece 3, make the different bulge of bulge length and the cooperation of first holding member 1 to reach the electronic equipment sharing packaging structure's of different length purpose.

In the above structure, the first assembly 3 is preferably an integral structure, that is, the positioning portion 301, the first protruding portion 302 and the second protruding portion 303 are different parts of the first assembly 3, and in order to better protect, isolate and cushion the electronic device, the first assembly 3 is preferably an elastic EPE (Expandable Polyethylene) (also called pearl wool), and similarly, the first accommodating member 1 and the second assembly 6 described later are also preferably an EPE.

As shown in fig. 1 to 5, it is preferable that the positioning portion 301 is provided with a first insertion block 304, the first accommodating member 1 is provided with a first insertion groove 4 communicating with the accommodating groove 2, the first insertion block 304 is inserted into the first insertion groove 4 to assemble the first assembly member 3 and the first accommodating member 1, and the positioning portion 301 and the first protruding portion 302 or the second protruding portion 303 are located in the groove space. Specifically, the assembly of the first assembly 3 on the first accommodating member 1 or the positioning of the positioning portion 301 in the space inside the groove is realized by inserting the first insert block 304 and the first slot 4, specifically, as shown in fig. 1 and 2, the first insert block 304 is convexly provided at an end portion of the positioning portion 301, the first slot 4 is opened on a side in the longitudinal direction of the accommodating recess 2 (hereinafter, this side is simply referred to as a long side), and when the first assembly 3 is assembled on the first accommodating member 1, as shown by an arrow in fig. 4 and 5, the first insert block 304 is inserted into the first slot 4 in the depth direction of the accommodating recess 2 and is locked by the first slot 4, so that the first assembly 3 is fixed on the first accommodating member 1. Further, the first insertion block 304 and the first insertion groove 4 may not be provided, and the first assembly 3 and the first receiving member 1 may be assembled by abutting the end of the first assembly 3 against the long side of the receiving groove 2.

In the present application, two surfaces of the positioning portion 301 parallel to the protruding direction of the first protruding portion 302 or the second protruding portion 303 may be defined as a first surface 305 and a second surface 306, respectively, and after the first insert block 304 is inserted into the first insertion groove 4, as shown in fig. 3 and 4, if the first surface 305 is the top surface of the positioning portion 301 (i.e., the first surface 305 is far away from the bottom wall of the accommodating recess 2), the first protruding portion 302 is located in the in-groove space; as shown in fig. 2 and 5, if the second surface 306 is the top surface of the positioning portion 301 (i.e., the first surface 305 is close to the bottom wall of the accommodation groove 2), the second projecting portion 303 is located in the in-groove space.

More preferably, as shown in fig. 1 to fig. 3, a plurality of first insertion blocks 304 and a plurality of first insertion slots 4 are inserted into one another, and the two ends of the positioning portion 301 are provided with the first insertion blocks 304 and the first insertion slots 4; the second slot 5, the first protrusion 302 and the second protrusion 303 are all multiple, and different protrusions are all plugged with the second slot 5 one to one. Through so setting up, can make the both ends of location portion 301 all be located, and then make the equipment fastness of first assembled part 3 on first holding 1 higher, make the local volume that occupies the inslot space that first assembled part 3 can be more firm to more firm with the electronic equipment butt, thereby more reliable protects and cushions electronic equipment, makes electronic equipment's packing effect obtain promoting.

As shown in fig. 1, 4 and 5, the first receiving member 1 is provided with a second insertion groove 5 communicating with the receiving recess 2, and in the first assembly posture, the second projection 303 is inserted into the second insertion groove 5 to avoid occupying the volume of the in-groove space; in the second assembly posture, the first projecting portion 302 is inserted into the second insertion groove 5 to avoid occupying the volume of the in-groove space. The second slot 5 is provided to enable the second slot to be in inserting fit with the first protruding portion 302 and the second protruding portion 303, so that the inserting structure is provided, on one hand, the first assembly 3 (or the positioning portion 301) can be further improved in assembling firmness by inserting the second slot 5 into the first protruding portion 302 or the second protruding portion 303 on the basis that the end portion of the first assembly is inserted into the first slot 4 through the first inserting block 304, and on the other hand, the side surface of the positioning portion 301 (i.e., the surface provided with the first protruding portion 302 or the second protruding portion 303) can be fully contacted and attached to the side wall in the width direction of the accommodating groove 2, so that the assembling firmness is improved, the electronic equipment can be better buffered, and the packaging effect of the packaging assembly is further improved. Specifically, the depth of the second slot 5 (i.e., the size of the second slot 5 in the length direction) is not less than the protruding length of the first protruding portion 302, so that the first protruding portion 302 in the second assembly posture can completely extend into the second slot 5, and it is ensured that the side surface of the positioning portion 301 can be sufficiently attached to the side wall in the width direction of the accommodating groove 2, because the second slot 5 can completely accommodate the first protruding portion 302, and the protruding length of the second protruding portion 303 is less than the protruding length of the first protruding portion 302, the second protruding portion 303 in the first assembly posture can also completely extend into the second slot 5, and as shown in fig. 4, a gap exists between one end of the second protruding portion 303 far away from the positioning portion 301 and the bottom wall of the second slot 5.

In addition, the second slot 5 may not be disposed on the first accommodating member 1, that is, the assembly of the first assembly member 3 on the first accommodating member 1 is realized only by the insertion and engagement of the first insertion block 304 and the first slot 4, and the adjustment manner of the first assembly member 3 to the remaining space length in different assembly postures is as follows: with the center line of the positioning portion 301 perpendicular to the long side of the receiving groove 2 as a reference, as shown in fig. 4, when the first surface 305 is the top surface of the positioning portion 301, the first protruding portion 302 is close to the remaining space, and the distance between the end of the first protruding portion 302 away from the positioning portion 301 and the center line is a, and when the second surface 306 is the top surface of the positioning portion 301, as shown in fig. 5, the second protruding portion 303 is close to the remaining space, and the distance between the end of the second protruding portion 303 away from the positioning portion 301 and the center line is b, since the protruding length of the first protruding portion 302 is greater than the protruding length of the second protruding portion 303, a > b, and a and b are not equal, thus achieving the adjustment of the length of the remaining space.

In the present application, as shown in fig. 2 to 5, it is preferable that the second assembly unit 6 is further included, and the second assembly unit 6 can be assembled with the first container 1 and the first assembly unit 3 and occupies a part of the space in the groove. This second assembly 6 is provided for the purpose of enhancing the protection and cushioning effect for the electronic device, i.e. the second assembly 6 is located between the electronic device and the first assembly 3, is a component in direct contact with the electronic device, and has a larger contact area between the second assembly 6 and the electronic device relative to the first assembly 3. On the basis of the addition of the second assembly 6, the remaining space is the space remaining from the space in the cell minus the space occupied by the first assembly 3 and the space occupied by the second assembly 6. The second assembly 6 can be assembled with the first assembly 3 and can be assembled into the receiving groove 2, the second assembly 6 has a different assembly manner from the first assembly 3 due to a different assembly posture of the first assembly 3 (i.e., a later-described first protrusion 302 or second protrusion 303 is inserted into the third insertion groove 8), and an assembly position in the receiving groove 2 can be changed according to the assembly manner from the first assembly 3, so as to adjust the volume or length of the remaining space. Furthermore, without considering the enhanced packaging effect, the second assembly 6 may not be provided, and the first protruding portion 302 or the second protruding portion 303 of the first assembly 3 may be directly contacted with the electronic device.

As shown in fig. 2 to 5, the second assembly member 6 is provided with a third insertion groove 8, and the first projection 302 or the second projection 303 located in the groove space can be inserted into the third insertion groove 8 to assemble the first assembly member 3 and the second assembly member 6. That is, the first assembly unit 3 and the second assembly unit 6 are preferably assembled in a plug-in manner, wherein the second assembly unit 6, such as the positioning portion 301, is also generally long, and the side surface of the second assembly unit, which is close to the remaining space after being assembled on the first accommodating member 1, is a surface in contact with the electronic device, in order to ensure sufficient contact to enhance the protection and buffering effect on the electronic device, the surface is a complete plane without a notch, a groove, etc., and the other side surface opposite to the surface is provided with a third slot 8, the first protruding portion 302 and the second protruding portion 303 can be inserted into the third slot 8, and in order to ensure that the packaging assembly has a good length adjustment effect, the depth of the third slot 8 in the length direction is preferably matched with the second protruding portion 303, as shown in fig. 2, that the second protruding portion 303 can be completely inserted into the third slot 8, while the first projection 302 cannot be fully inserted into the third slot 8, as shown in fig. 3, only a part thereof away from the positioning portion 301 can be inserted into the third slot 8, so that a gap is provided between the first assembly 3 and the second assembly 6, or it can be understood that the second assembly 6 is away from the first assembly 3 under abutment of the first projection 302 (i.e. the assembly position of the second assembly 6 in the receiving recess 2 is changed), since the assembly position of the first assembly 3 on the first receiving member 1 is unchanged, by providing a gap between the first assembly 3 and the second assembly 6, both can occupy a larger volume of the in-groove space in the first assembly posture, thereby achieving a larger range of adjustment of the length.

As shown in fig. 1 to 5, the second assembly member 6 is provided with a second insert block 7, and the first accommodating member 1 is provided with a fourth slot 9 and a fifth slot 10 which are communicated with the accommodating groove 2; when the second protrusion 303 is inserted into the third slot 8, as shown in fig. 5, the second insert block 7 is inserted into the fourth slot 9 to assemble the second assembly 6 and the first accommodating member 1, and the second assembly 6 is located in the slot inner space; when the first projection 302 is inserted into the third slot 8, as shown in fig. 4, the second insert 7 is inserted into the fifth slot 10 to assemble the second assembly 6 and the first receiving member 1, and the second assembly 6 is located in the in-slot space. In this construction, too, the second assembly part 6 and the first receiving part 1 are assembled in a plug-in manner, and since the third slot 8 of the second assembly 6 is plugged with the first projection 302 and the second projection 303, respectively, since the assembly position of the second assembly 6 in the receiving groove 2 is changed, a plurality of slots for assembling the second assembly 6, i.e. a fourth slot 9 and a fifth slot 10, are provided on the first receiving member 1, and different slots are located at different positions of the first receiving member 1 in the length direction, in the second assembly posture, as shown in fig. 5, the second projection 303 is fully inserted into the third insertion groove 8, no gap exists between the second assembly 6 and the first assembly 3, and the second insert 7 arranged on the second assembly 6 can be inserted into the fourth slot 9 to position the second assembly 6 in the receiving groove 2; in the first assembly posture, as shown in fig. 4, a part of the first protruding portion 302 is inserted into the third slot 8, a gap exists between the second assembly 6 and the first assembly 3, and the second insert 7 provided on the second assembly 6 can be inserted into the fifth slot 10 (the fifth slot 10 is farther away from the first slot 4 relative to the fourth slot 9, as shown in fig. 1) to achieve positioning of the second assembly 6 in the receiving recess 2.

Further, as shown in fig. 1 to 5, preferably, a plurality of second insertion blocks 7, a plurality of fourth insertion slots 9 and a plurality of fifth insertion slots 10 are provided, different insertion slots are respectively inserted into the second insertion blocks 7 in a one-to-one manner, and the second insertion blocks 7, the fourth insertion slots 9 and the fifth insertion slots 10 are provided at two ends of the second assembly unit 6; the third slot 8, the first protrusion 302 and the second protrusion 303 are all multiple, and different protrusions are all plugged with the third slot 8 one to one. Through all setting up second inserted block 7, fourth slot 9 and fifth slot 10 at the both ends of second subassembly spare 6 to make first subassembly spare 3 and second subassembly spare 6 all through a plurality of first bulges 302 and a plurality of third slots 8 one-to-one grafting or a plurality of second bulges 303 and a plurality of third slots 8 one-to-one grafting, can further improve the equipment fastness of second subassembly spare 6 and first container 1, first subassembly spare 3, thereby make the package subassembly obtain further promotion to electronic equipment's packing effect.

In addition, the preferred packaging assembly of the present application further comprises a second container (not shown in the figures), wherein the second container and the first container 1 each only contain a part of the electronic equipment; wherein the first assembly 3 can be assembled with the first receptacle 1 only, or with both the first receptacle 1 and the second receptacle. That is, it is preferable that the same electronic device is packaged by a plurality of receiving members, and the structure of the second receiving member may be the same as or different from that of the first receiving member 1. Specifically, the first accommodating member 1 and the second accommodating member can accommodate both ends of the electronic device in the length direction respectively, while the first assembly 3 and the second assembly 6 may be provided on only one or both of the first receptacle 1 and the second receptacle, since the first assembly member 3 and the second assembly member 6 and the assembly structure thereof are arranged on the first accommodating member 1, the volume of the remaining space for accommodating the electronic equipment can be adjusted well, in order to simplify the construction of the packaging assembly, it is therefore preferred that the first assembly 3 and the second assembly 6 can only be assembled to the first receptacle 1, the first assembly 3 and the second assembly 6 no longer being provided on the second receptacle, and the second accommodating part is not provided with structures such as a first slot 4, a second slot 5, a fourth slot 9 and a fifth slot 10 for assembling the first assembly part 3 and the second assembly part 6.

The structure of each part is described in a progressive mode in the specification, the structure of each part is mainly described to be different from the existing structure, and the whole structure and the part structure of the packaging component can be obtained by combining the structures of the parts.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A packaging assembly for packaging an electronic device, comprising:

a first accommodating member having an accommodating recess accommodating at least a part of the electronic apparatus;

a first assembly member capable of being assembled with the first receiving member to occupy a part of the in-groove space of the receiving recess;

wherein the first assembly and the first accommodating member have a plurality of assembly postures, and the volumes of the in-groove spaces occupied by the first assembly are different in different assembly postures, so that the remaining space of the in-groove spaces can be matched to accommodate the electronic equipment with different sizes.

2. The packaging assembly according to claim 1, wherein the first assembly comprises:

a positioning part;

the first protruding part is arranged on the first side of the positioning part in a protruding mode;

the second protruding part is arranged on a second side of the positioning part in a protruding mode, and the second side is the opposite side of the first side;

the protruding length of the first protruding part is larger than that of the second protruding part, the positioning part and the first protruding part are positioned in the accommodating groove in the first assembling posture, and the occupied space in the groove is a first volume; in a second assembly posture, the positioning portion and the second protruding portion are located in the accommodating groove, the volume of the groove inner space occupied by the positioning portion and the second protruding portion is a second volume, and the second volume is smaller than the first volume.

3. The packaging assembly according to claim 2, wherein the positioning portion is provided with a first insertion block, the first receiving member is provided with a first insertion groove communicating with the receiving groove, the first insertion block is inserted into the first insertion groove to assemble the first assembly member and the first receiving member, and the positioning portion and the first protruding portion or the second protruding portion are located in the groove inner space.

4. The packaging assembly according to claim 3, wherein the first container is provided with a second slot communicating with the receiving recess, the second projection being inserted into the second slot in the first assembly position to avoid occupying a volume of the in-slot space; in the second assembly posture, the first projection is inserted into the second insertion groove to avoid occupying a volume of the in-groove space.

5. The packaging assembly according to claim 2, further comprising a second assembly capable of being assembled with the first container and the first assembly and occupying a portion of the in-groove space.

6. The packaging assembly according to claim 5, wherein a third slot is provided on the second assembly, into which the first or second protrusion located in the in-slot space can be inserted to enable assembly of the first and second assemblies.

7. The packaging assembly according to claim 6, wherein a second insert is provided on the second assembly, and a fourth slot and a fifth slot are provided on the first container in communication with the receiving recess;

when the second protrusion is inserted into the third slot, the second insertion block is inserted into the fourth slot to assemble the second assembly and the first accommodating part, and the second assembly is located in the in-slot space; when the first protrusion is inserted into the third slot, the second insert block is inserted into the fifth slot to assemble the second assembly and the first accommodating member, and the second assembly is located in the in-slot space.

8. The packaging assembly according to claim 4, wherein the first insertion block and the first insertion groove are both plural and inserted one-to-one, and both ends of the positioning portion are provided with the first insertion block and the first insertion groove; the second slot, the first protruding part and the second protruding part are all multiple, and different protruding parts are all in one-to-one insertion connection with the second slot.

9. The packaging assembly according to claim 7, wherein the second insert block, the fourth insert slot and the fifth insert slot are all plural, different ones of the insert slots are all one-to-one inserted with the second insert block, and both ends of the second assembly are provided with the second insert block, the fourth insert slot and the fifth insert slot; the third slot, the first protruding part and the second protruding part are all multiple, and different protruding parts are all in one-to-one insertion connection with the third slot.

10. The packaging assembly according to claim 1, further comprising a second container, the second container and the first container each containing only a portion of the electronic device;

wherein the first assembly is only capable of being assembled with the first receptacle, or is capable of being assembled with both the first receptacle and the second receptacle.

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