CN111439482A - Liner and packaging structure - Google Patents

Abstract

The invention provides a liner and a packaging structure. The liner is arranged on the outer side of the electronic equipment and used for protecting the electronic equipment, the liner comprises a connecting part and two frames, the connecting part is correspondingly arranged on the outer side of a corner part of the electronic equipment, two ends of the connecting part are respectively connected with one frame, the frames are correspondingly arranged on the outer sides of the side edges of the electronic equipment, deformable bending structures are arranged on the connecting part and the frames, and the bending structures protrude to the circumferential outer side of the electronic equipment. The invention can buffer and protect the electronic equipment.

Description

Liner and packaging structure

Technical Field

The invention relates to the field of transportation and packaging, in particular to a liner and a packaging structure.

Background

With the continuous development of science and technology and the progress of the living standard of people, electronic products such as liquid crystal displays and the like are more and more widely applied.

At present, because electronic products are generally thin-walled structures, the electronic products are easily damaged due to external force in the transportation and storage processes. For example, local fracture may be caused by external force and bump in the transportation process, or the spliced structure may be dislocated and separated. In order to protect the electronic product structure, the electronic product is usually packaged by adopting a plastic or paper packaging box, supports such as sponge pads made of soft materials are arranged in the packaging structure, and the sponge pads can be wrapped outside the electronic product and play a certain buffering role, so that the phenomenon that the electronic product is damaged due to external force in the transportation and storage processes is avoided.

However, when the corners of an electronic product such as a liquid crystal display are wrapped and protected by using the sponge pad, if a large impact such as a bump or a collision occurs, the sponge pad is greatly deformed by an external force, and the corners of the electronic product cannot be sufficiently protected, so that the corners are damaged.

Disclosure of Invention

The invention provides a pad and a packaging structure, which can buffer and protect electronic equipment.

In one aspect, the invention provides a gasket, which is arranged on the outer side of an electronic device and used for protecting the electronic device, the gasket comprises a connecting part and two frames, the connecting part is correspondingly arranged on the outer side of a corner of the electronic device, two ends of the connecting part are respectively connected with one frame, the frames are correspondingly arranged on the outer sides of the electronic device, deformable bending structures are arranged on the connecting part and the frames, and the bending structures protrude to the circumferential outer side of the electronic device.

Optionally, each frame includes an extending portion and at least one first bending portion disposed on the extending portion, the extending portion and the first bending portion are staggered along a length direction of the frame, two ends of the first bending portion are connected to the extending portion, and the first bending portion is bent toward a side away from the electronic device to form a bending structure.

Optionally, the first bending portion includes two bending sections that are connected to each other and symmetrically disposed, and a bending angle protruding to the outer side of the electronic device in the circumferential direction is formed between the two bending sections.

Optionally, the bending angle is smaller than 90 degrees.

Optionally, the connecting portion includes a deformable buffer section, and a space is provided between the buffer section and the corner of the electronic device to form a bending structure.

Optionally, the buffer section is a straight line section, and an included angle is formed between the extending direction of the buffer section and the extending direction of the frame.

Optionally, the connecting portion further includes two connecting sections respectively located at two ends of the buffer section, the connecting section is connected between the buffer section and the frame, and the connecting section has a fillet.

Optionally, the distance between the buffer section and the frame is greater than or equal to twice the fillet radius of the connection section.

Optionally, the connecting portion and/or the frame are plate-shaped structures.

In another aspect, the present invention provides a packaging structure for packaging outside an electronic device, the packaging structure comprising at least one pad as described above, the pad being adapted to be disposed outside a corner of the electronic device.

The liner and the packaging structure provided by the invention have the advantages that the liner specifically comprises the connecting part and the two frames, the connecting part is correspondingly arranged on the outer side of the corner part of the electronic equipment, the two ends of the connecting part are respectively connected with one frame, the frames are correspondingly arranged on the outer sides of the side edges of the electronic equipment, deformable bending structures are arranged on the connecting part and the frames, and the bending structures protrude to the circumferential outer side of the electronic equipment. The structure of buckling in the liner like this because there is certain angle of buckling between each position of self, when the liner received external force and assaulted, can rely on the change of the angle of buckling between each position of structure of buckling and produce certain elastic deformation, absorbed external impact energy to let the liner can cushion external force and impact, play the guard action to electronic equipment, avoid electronic equipment to damage.

Drawings

In order to more clearly illustrate the embodiments of the present invention 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, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a gasket according to an embodiment of the present invention;

fig. 2 is a schematic view illustrating a pad mounted on an electronic device according to an embodiment of the present invention;

FIG. 3 is a side view of a gasket provided in accordance with one embodiment of the present invention;

FIG. 4 is a partial schematic view of a first bend portion of a gasket according to an embodiment of the invention;

FIG. 5 is a schematic diagram of the force applied to the pad according to one embodiment of the present invention;

FIG. 6 is a partial structural view of a connection portion of a gasket according to an embodiment of the present invention;

FIG. 7 is a schematic structural diagram of a packaging structure according to a second embodiment of the present invention;

fig. 8 is a partial schematic view of the package structure of fig. 7 at a corner.

Description of reference numerals:

1-connecting part, 2-frame, 11-buffer section, 12-connecting section, 21-extending part, 22-bending part, 221-bending section, 100-gasket, 101-packaging box, 102-buffer pad, 200-liquid crystal display, 300-packaging structure, α -bending angle, F-external force, F1 and F2-component force.

Detailed Description

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

Since electronic devices generally include relatively delicate electronic components and mounting structures that are physically weak and susceptible to damage from external forces, it is desirable to protect the electronic devices during transportation and storage. Therefore, the gasket provided by the invention can be used in occasions such as packaging and storage of electronic equipment and is arranged on the outer side of the electronic equipment, so that physical protection is provided for the electronic equipment, and the phenomenon that the electronic equipment is damaged when being squeezed, collided or dropped by external force is avoided.

Fig. 1 is a schematic structural diagram of a gasket according to an embodiment of the present invention. Fig. 2 is a schematic view illustrating a pad mounted on an electronic device according to an embodiment of the present invention. Fig. 3 is a side view of a gasket provided in accordance with an embodiment of the present invention. As shown in fig. 1 to 3, the gasket provided by the present invention specifically includes a connecting portion 1 and two frames 2, the connecting portion 1 is correspondingly disposed on the outer side of a corner of an electronic device, two ends of the connecting portion 1 are respectively connected to one frame 2, the frames 2 are correspondingly disposed on the outer side of a side of the electronic device, and the connecting portion 1 and the frames 2 are both provided with deformable bending structures, and the bending structures protrude to the outer side of the electronic device in the circumferential direction.

Specifically, the electronic device may be a liquid crystal display, a liquid crystal television, or a common electronic device such as a mobile terminal, and the electronic device generally has a square shape, and a large-area component such as a display screen or a display panel is generally disposed on one side of the electronic device, so that the side has a corner protruding outward and adjacent sides perpendicular to each other in the circumferential direction. For convenience of description, the electronic device is taken as an example of a liquid crystal display.

When an electronic device, such as a liquid crystal display, having a square overall shape is bumped or dropped, the outwardly protruding corners and sides of the liquid crystal display may be damaged significantly. In order to protect the corner and the side of the liquid crystal display, the gasket is provided with a connecting part 1 correspondingly arranged outside the corner of the liquid crystal display and a frame 2 connected with the connecting part 1 and used for protecting the side outside the liquid crystal display, and deformable bending structures are arranged on the connecting part 1 and the frame 2. When the liquid crystal display is squeezed and impacted by external force, the bending structure can form buffer between the liquid crystal display and the external force through the deformation of the bending structure, and the energy of the external force and the impact is absorbed, so that the liquid crystal display is prevented from being damaged under the action of the external squeezing force. Therefore, the corners and the sides of the liquid crystal display can be effectively buffered and protected, and the damage of convex structures at the corners and other outer sides of the liquid crystal display caused by collision, falling or other external impact actions is avoided.

In order to avoid the body structure of the lcd from being affected by the deformation of the bending structure, the bending structure generally protrudes outward in the circumferential direction of the lcd. Thus, the bending structure forms a certain buffer space at the outer side of the liquid crystal display. When the structure of buckling receives the external force that comes from the LCD circumference outside, can produce the inside deformation of direction orientation buffer space under the external force impact effect, and correspondingly, the outside convex height of structure of buckling self can reduce, and the angle of buckling of self also can correspondingly change to the realization is to the absorption of external force's the power of unloading and external impact energy, and the deformation of structure of buckling still can not exert an influence to the structure of LCD body. In addition, because the two frames 2 of the gasket are connected by the connecting part 1 with the bending structure, when the bending structure of the connecting part 1 bears external load, the angle between the frame 2 and the side edge of the liquid crystal display is also changed correspondingly, thereby improving the force unloading effect.

When the bending structure forms buffering through self deformation and absorbs external energy, the bending structure has certain elasticity due to certain bending angles among all parts of the bending structure, and when external acting force acts on the bending structure, the bending angles of all parts in the bending structure can be changed firstly, so that the bending structure generates certain elastic deformation; when the elastic deformation of the bending structure still can not completely absorb the external energy, the bending structure can generate plastic deformation to continuously absorb the external impact, thereby completing the protection effect on the liquid crystal display. Because the bending structure has a structure which generates elastic deformation and then generates plastic deformation, the bending structure not only has a controllable damage mode, but also can resist stronger impact load, and has better protection performance and environmental adaptability.

When the device such as the liquid crystal display is protected by the gasket, since the liquid crystal display generally includes four corners in the circumferential direction, accordingly, a plurality of gaskets may be used to protect and cushion different corners of the liquid crystal display. The plurality of spacers may be separate independent elements, or the plurality of spacers may be integrally formed to surround the outer circumference of the lcd and simultaneously protect the corners and sides of the lcd.

In addition, the pad can be formed by a material with less rigidity and better elasticity, such as plastic, corrugated paper, etc., without limitation.

Therefore, the gasket of the present embodiment is provided with the bending structures corresponding to the connecting portion 1 disposed at the corner of the liquid crystal display and the frame 2 disposed outside the side edge of the liquid crystal display, so that the gasket can absorb external impact and load through bending deformation of the bending structures, thereby preventing the liquid crystal display from being structurally damaged.

Various possible implementations and specific components of the gasket are further described and illustrated below.

In an alternative structure, each frame 2 of the gasket includes an extending portion 21 and at least one first bending portion 22 disposed on the extending portion, the extending portion 21 and the first bending portion 22 are staggered along the length direction of the frame 2, two ends of the first bending portion 22 are connected to the extending portion 21, and the first bending portion 22 is bent toward a side away from the liquid crystal display to form a bending structure.

Specifically, the overall extending direction of the frame 2 of the gasket is consistent with the side direction of the liquid crystal display, and the frame 2 covers the outer side of one side of the liquid crystal display, so as to protect the side of the liquid crystal display. The gasket may include a plurality of extension portions 21 arranged parallel to the length direction of the frame 2, and the extension portions 21 serve as a main protection structure of the frame 2 and can protect the outer sides of the lcd. The bending portion 22 can release external impact and load by bending deformation itself, and form a buffer on the outer side of the liquid crystal display.

Because the extending portions 21 and the bending portions 22 are staggered along the length direction of the frame 2, when the bending portions 22 bent outwards are impacted by external force, the bending angle of the bending portions 22 can be reduced, and the bending portions 22 can transmit the impact of the external force to the two adjacent extending portions 21 through the deformation of the bending portions 22, so that the whole frame 2 is used for bearing the impact of the external force.

Wherein, the quantity of kink 22 can be one, also can be a plurality of, and when kink 22 quantity was a plurality of, a plurality of kinks 22 can set up along the length direction interval of frame 2 to undertake the impact that comes from the external world simultaneously, and is bigger to the protection scope of LCD side like this, has better cushioning effect.

On the basis of the above embodiment, optionally, the first bending portion 22 may specifically include two bending sections 221 connected to each other and symmetrically disposed, and a bending angle protruding to the circumferential outer side of the liquid crystal display or other electronic devices is formed between the two bending sections 221.

At this time, the length directions of the two bending sections 221 are not the same as the length direction of the extending portion 21 of the frame 2, but a certain included angle exists, and the length directions of the two bending sections 221 also have an included angle fig. 4 is a schematic view of a partial structure of the first bending portion of the gasket according to the first embodiment of the present invention.

Specifically, the two bending sections 221 may be straight sections or have a certain arc. When the bending sections 221 are straight line sections, the bending section 22 formed by two bending sections 221 is a triangular structure protruding to the outside of the lcd. When the bending portion 221 has a curvature, the bending portion 22 may be a circular arc structure protruding to the outside of the liquid crystal display. The triangular and arc-shaped bent portions 22 can be used for receiving external force impact, and the bent portion 22 having the triangular structure and the bent section 221 as a straight line is described as an example unless otherwise specified.

When the bending portion 22 includes two bending sections and the two bending sections 221 together form a triangular bending structure, the entire frame 2 of the gasket is composed of the extending portion 21 parallel to the side of the lcd and the bending portion 22 protruding toward the outside of the lcd in a triangular shape. When the side of the lcd receives external force or impact, because the direction of the external force can point to the inside of the side of the lcd, when the frame 2 of the gasket bears load, the bending portion 22 can be pressed to the inside of the side of the lcd, at this moment, the whole body of the bending portion 22 is compressed in the direction, the length directions of the two bending sections 221 all change, so that the height of the bending portion 22 in the direction is reduced, the bending angle is increased, and the elastic deformation generated between the two bending sections 221 can absorb the impact energy of the external force, thereby achieving buffering.

Accordingly, since the extending portion 21 is connected to the bending portion 22, when the length direction of the bending portion 221 changes, the length direction of the extending portion 21 changes from being originally parallel to the side of the lcd to being inclined to the side of the lcd. At this time, the extending portion 21 is driven by the bending portion 22 to form a new bending structure at the connection position of the extending portion 21 and the bending portion 22. The newly formed bending structure can also adopt a principle similar to that of the bending part 22, and absorb the impact caused by external force through self elastic deformation, thereby improving the load unloading and buffering effects.

Specifically, fig. 5 is a schematic diagram of the stress of the pad according to the first embodiment of the present invention, as shown in fig. 5, assuming that the magnitude of the external force is F, the external force F can be decomposed into two force components F1 and F2 along the length direction of the bending section 221, and the bending angle formed between the two bending sections 221 is α, it can be easily known that F1 is F2, and F2 is F1 is cos (α/2).

As the bending portion 22 deforms, the bending angle α increases, and when the external force F is constant, as can be seen from the above formula, as the bending angle α increases, the magnitudes of the component forces F1 and F2 acting on the bending portion 221 also increase, and the elastic force and the buffer strength of the bending structure gradually decrease until finally reaching a balance with the external force.

In order to provide the bending portion 22 of the frame 2 with a sufficient elastic deformation space and ensure that the bending portion 22 has sufficient structural strength, the bending angle of the bending structure formed by the bending portion 22 of the frame 2 is generally small. In one alternative embodiment of the bezel 2, the bending angle formed by the two bending segments 221 of the bending portion 22 may be less than 90 degrees. At this time, the bending angle formed by the two bending sections 221 is acute, so that when an external force impacts the frame 2 of the gasket, a large portion of the external force acts in the longitudinal direction of the bending sections 221. The component force of the external force in the direction perpendicular to the bending section 221 is small, and the bending section 221 is not easy to break.

Like the frames 2, the connection part 1 connected between the two frames 2 also has a function of buffering external loads by deformation. In one alternative embodiment, the connecting portion 1 may include a deformable buffer section 11, the buffer section 11 has a space from the corner of the electronic device, and the buffer section 11 may be used to form a bending structure.

Specifically, since the length directions of the two frames 2 are perpendicular to each other, the connecting portion 1 can directly serve as a bending structure connected between the two frames 2 to buffer external force impact. The connecting portion 1 may include a buffer section 11, and the buffer section 11 also has a certain elastic deformation capability, and can effectively absorb external impact energy. The space between the buffer segment 11 and the corner of the lcd can provide enough buffer space to prevent the buffer segment 11 from contacting and affecting the corner of the lcd when the buffer segment is deformed.

Wherein, because connecting portion 1 can form the structure of buckling between two frames 2, so when LCD received external force and assaulted, parts such as connecting portion 1's buffering section 11 can produce deformation, thereby cushion external force, at this moment, it is corresponding, because connecting portion 1 has taken place deformation, the relative angle between two frames 2 that rely on connecting portion 1 to connect also can change, when not being assaulted by external force, the angle between two frames 2 generally can be the right angle, after connecting portion 1 produced deformation under the external force effect, the relative angle between two frames 2 can increase to being greater than 90 degrees.

The buffer section 11 may be directly connected to the frame 2, or may be indirectly connected to the frame 2 through other deformable structures.

In an alternative embodiment, the buffer section 11 may be directly connected to the frame 2. At this time, in order to provide a sufficient interval between the buffer segment 11 and the corner of the liquid crystal display, the buffer segment 11 may be shaped like a circular arc, with the convex direction of the circular arc facing away from the corner of the liquid crystal display. Therefore, because the protruding direction of the buffer section 11 deviates from the corner of the liquid crystal display, a sufficient interval and a buffer space can be formed between the buffer section 11 and the liquid crystal display, and in addition, the arc-shaped buffer section 11 can bear a strong load, so that the buffer section 11 is prevented from being damaged under the action of a large external force.

In another alternative, the buffer section 11 and the frame 2 may be connected by other elastically deformable structures. Connecting portion 1 has great deformation range like this, can let the relative angle between two frames 2 have great adjustable range to improve the elastic deformation ability of whole liner, make the buffering effect better.

Fig. 6 is a partial structural diagram of a connection portion in a gasket according to an embodiment of the present invention. As shown in fig. 1 to fig. 6, at this time, optionally, the buffer section 11 is a straight line section, and an extending direction of the buffer section 11 forms an included angle with an extending direction of the frame 2. Thus, the buffer section 11 is disposed obliquely with respect to the frame 2, and the outer side of the buffer section 11 is used for bearing external force and impact. The buffer section 11 adopting the structure has smaller size protruding towards the outer side of the corner of the liquid crystal display, so that the gasket has smaller overall size, and the overall size of the external packaging structure of the electronic equipment such as the liquid crystal display is favorably reduced.

Specifically, at this time, the connection portion 1 may further include two connection sections 12 respectively located at two ends of the buffer section 11, the connection sections 12 are connected between the buffer section 11 and the frame 2, and the connection sections 12 have rounded corners.

When the connection portion 1 is substantially composed of the buffer section 11 and the connection section, since the connection section 12 has a round corner, a smooth transition structure can be formed between the buffer section 11 and the frame 2, and a stress concentration phenomenon at the connection portion of the connection portion 1 and the frame 2 when the buffer section 11 is impacted is avoided, thereby effectively preventing the gasket from being broken and damaged.

In order to provide the connecting portion 1 with a strong buffering capacity, it is necessary to provide a sufficient buffering space between the buffering section 11 of the connecting portion 1 and the corner of the liquid crystal display. Therefore, in an alternative connecting part 1 structure, the distance between the buffer section 11 of the connecting part 1 and the frame 2 is greater than or equal to two times the fillet radius of the connecting section.

Specifically, in fig. 6, the distance between the buffer section 11 and the frame 2 is equal to the distance H from the connection point between the connection portion 1 and the frame 2 to the buffer section 11, and the fillet radius of the connection section 12 is R, so that H is greater than or equal to 2 × R in order to form a larger buffer space for the buffer section 11. At this time, a sufficient distance is reserved between the buffer section 11 and the corner of the liquid crystal display, so that the liquid crystal display can be prevented from being damaged by touching the corner of the liquid crystal display when the buffer section 11 deforms excessively.

In addition, when the distance between the buffer section 11 of the connecting portion 1 and the frame 2 is greater than or equal to twice the radius of the fillet of the connecting portion, the bending degree of the connecting portion 12 is also smaller, so that the stress concentration phenomenon caused by excessive bending of the connecting portion 12 is avoided, and the gasket is effectively prevented from being broken at the connecting portion 12 of the connecting portion 1.

When the gasket in this embodiment is used for protecting electronic equipment such as a liquid crystal display, on one hand, when the connecting portion 1 and the frame 2 of the gasket are subjected to external impact, certain elastic deformation is generated to slow down and eliminate impact and load from the outside, so that the electronic equipment such as a liquid crystal display protected by the gasket is prevented from being damaged, and thus the connecting portion 1 and the frame 2 are required to have strong elasticity and toughness so as to have a large deformation range; on the other hand, the spacers are protected outside the corners and sides of the lcd, and thus need to have a larger coverage area for the lcd to have a larger protection area. Therefore, in order to combine the advantages of good elasticity and large protection area, at least one of the connection portion 1 or the frame 2 in the pad may be a plate-shaped structure.

The plate surface direction of the plate-shaped structure is parallel to the side edge direction of the liquid crystal display, and the thickness direction of the plate-shaped structure is vertical to the side edge direction of the liquid crystal display, so that the plate-shaped structure is vertical or nearly vertical to the plane where the side edge of the liquid crystal display is located. The plate-shaped structure can have a wider width, so that the gasket can protect the liquid crystal display comprehensively, and the smaller thickness can enable the connecting part 1 or the frame 2 to realize better elasticity and a larger deformation range.

Wherein, only the connecting part 1 in the pad can be a plate-shaped structure, and the frame 2 can be other forms of structures; it is also possible to make only the frame 2 in the pad a plate-like structure; alternatively, the connection portion 1 and the frame 2 of the gasket may have a plate-like structure. The specific structure of the pad can be adjusted according to the actual protection requirement and the shape of the electronic device, and is not limited herein.

When the connecting part 1 and the frame 2 in the gasket are both of plate-shaped structures, the gasket with a bent structure can be manufactured by adopting a mode of bending and deforming the plate, so that the gasket is convenient to process and low in cost.

In addition, it should be noted that the cushion can be used alone or in combination with other cushion structures. When the pad and other cushions are used in combination, the pad and other cushions can be arranged outside the corner of the electronic device from inside to outside in sequence, so that the protection effect on the corner of the electronic device is improved. At this time, other cushions on the outer side of the pad can absorb energy by using the deformation of the material, and specifically, the cushions can be sponge pads, foam plastic pads or pads made of honeycomb paperboard and the like.

In this embodiment, the liner specifically includes connecting portion and two frames, and connecting portion correspond the setting in the bight outside of electronic equipment, and the both ends of connecting portion are equallyd divide and are do not connected a frame, and the frame corresponds the setting in the side outside of electronic equipment, all is provided with the structure of buckling of deformability on connecting portion and the frame, and the structure of buckling is protruding to the circumference outside of electronic equipment. The liner can cushion external force and impact like this to protect electronic equipment, avoid electronic equipment to damage.

Fig. 7 is a schematic structural diagram of a packaging structure according to a second embodiment of the present invention. Fig. 8 is a partial schematic view of the package structure of fig. 7 at a corner. As shown in fig. 7 and 8, the packaging structure 300 provided in this embodiment is used for packaging outside of an electronic device, and the packaging structure 300 may specifically include a packaging box 101 and at least one pad 100 described in the first embodiment, where the pad 100 is used to be disposed outside a corner of the electronic device, and the pad 100 and the electronic device 200 are both disposed in the packaging box 101. The specific structure, function and operation principle of the pad 100 are similar to those of the pad in the first embodiment, and are not described herein again.

Specifically, the packaging structure 300 provided in this embodiment may include a packaging box 101 and one or more gaskets 101, and when the liquid crystal display 200 or other electronic devices are packaged, the gaskets 101 and other cushioning structures may be disposed outside corners of the liquid crystal display 200, and then the liquid crystal display 200 with the gaskets 101 is loaded into the packaging box 101, so as to complete the packaging of the liquid crystal display 202. The packing box 101 may be made of a common box material such as a honeycomb paperboard.

The number of the pads 100 may be one or more, and the plurality of pads 100 may be split structures, and each pad 100 corresponds to one corner of the liquid crystal display 200, specifically, the pads 100 may be disposed outside the corners of the liquid crystal display 200; or a plurality of pads 100 may be connected together to form an integrated structure, in which the integrated structure formed by the plurality of pads 100 is disposed around the outer side of the liquid crystal display 200 in the circumferential direction and protects a plurality of corners of the liquid crystal display 200 and the sides between adjacent corners. In this embodiment, the pad 100 is described as a separate structure, and in this case, the packaging structure 300 includes 4 pads 100, and each pad 100 is disposed at a corner of the liquid crystal display 200.

In addition, other cushioning structures may be included in the packaging structure 300 in order to further protect and cushion structures such as corners of the liquid crystal display 200. Optionally, the packaging structure 300 further includes a plurality of cushions 102, the cushions 102 are correspondingly disposed outside the corners of the lcd 200, and the cushions 102 may have shapes matching with the inner walls of the packaging container 101. In this embodiment, the number of the cushion pads 102 may be 4, and each cushion pad 102 is correspondingly disposed at one corner of the liquid crystal display 200 and between the cushion pad 100 and the inner wall of the packing box 101. Wherein, the cushion pad 102 may be made of foam, sponge or honeycomb cardboard.

When the package structure 300 includes the cushion pad 102, on one hand, the cushion pad 102 can further absorb the energy of the external force impact by utilizing the deformation of itself, and the protection effect on the liquid crystal display 200 is improved, on the other hand, the cushion pad 102 is located between the liner 100 and the inner wall of the package box 101, so that the cushion pad 100 and the liquid crystal display 200 can be conveniently positioned by utilizing the structure of itself, the liner 100 is prevented from falling off from the corner position of the liquid crystal display 200, and the liquid crystal display 200 is prevented from shaking in the package box 101.

Further, in order to position the pad 100, the inner side of the cushion pad 102 may be provided with a positioning structure such as a groove, the shape of the groove is matched with that of the pad 100, so that the pad 100 and the corner of the liquid crystal display 200 can be clamped in the groove, thereby positioning the pad 100 relative to the cushion pad 102.

In this embodiment, the packaging structure is used for packaging the electronic device, and specifically includes at least one pad; wherein, the liner specifically includes connecting portion and two frames, and connecting portion correspond the setting in the bight outside of electronic equipment, and the both ends of connecting portion are equallyd divide and are do not connected a frame, and the frame corresponds the setting in the side outside of electronic equipment, all is provided with the structure of buckling of deformability on connecting portion and the frame, and the structure of buckling is protruding to the circumference outside of electronic equipment. The structure of buckling in the liner like this because there is certain angle of buckling between each position of self, when the liner received external force and assaults, can rely on the change of the angle of buckling between each position of structure of buckling and produce certain elastic deformation, absorbed external impact energy to let the liner in the packaging structure cushion external force and impact, realize the guard action to electronic equipment, avoid electronic equipment to damage.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. The utility model provides a liner, sets up in the electronic equipment outside and is used for the protection electronic equipment, a serial communication port, the liner includes connecting portion and two frames, connecting portion correspond the setting and are in the bight outside of electronic equipment, just one is equallyd divide at the both ends of connecting portion do not connect the frame, the frame corresponds the setting and is in the side outside of electronic equipment, connecting portion with all be provided with deformable's structure of buckling on the frame, the structure of buckling is protruding to the circumference outside of electronic equipment.

2. The gasket according to claim 1, wherein each of the frames includes an extending portion and at least one first bending portion disposed on the extending portion, the extending portion and the first bending portion are staggered along a length direction of the frame, two ends of the first bending portion are connected to the extending portion, and the first bending portion is bent toward a side away from the electronic device to form the bending structure.

3. The gasket according to claim 2, wherein the first bending portion comprises two symmetrically arranged bending sections connected to each other, and a bending angle protruding to the outer side of the electronic device in the circumferential direction is formed between the two bending sections.

4. The cushion according to claim 3, wherein the bend angle is less than 90 degrees.

5. The gasket of any of claims 1-4, wherein the connecting portion includes a deformable cushioning section having a space between the cushioning section and a corner of the electronic device to form the folded structure.

6. The cushion according to claim 5, wherein the buffering section is a straight line section, and the extending direction of the buffering section forms an included angle with the extending direction of the frame.

7. The cushion according to claim 6, wherein the connecting portion further comprises two connecting sections respectively located at both ends of the cushion section, the connecting sections are connected between the cushion section and the frame, and the connecting sections have rounded corners.

8. The cushion according to claim 7, wherein a distance between the cushioning segment and the bezel is greater than or equal to two times a corner radius of the connecting segment.

9. A pad according to any one of claims 1 to 4, wherein the connection portion and/or the frame is/are of plate-like construction.

10. A packaging structure for packaging outside an electronic device, comprising a packaging case and at least one pad according to any one of claims 1 to 9, the pad being adapted to be disposed outside a corner of the electronic device, the pad and the electronic device being disposed within the packaging case.

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