CN114590484B - Packaging buffer structure and packaging structure - Google Patents

Abstract

The invention discloses a packaging buffer structure and a packaging structure, wherein the packaging buffer structure is used for packaging and buffering products, the products comprise a main body and a screen connected with the main body, the packaging buffer structure comprises a buffer base and a screen buffer piece, the buffer base is provided with a placing groove for placing the products, a limiting boss is convexly arranged at a notch of the buffer base adjacent to the placing groove and is used for limiting and abutting against the main body, a buffer cavity is further arranged in the buffer base and is positioned in a groove wall of the placing groove, the screen buffer piece is provided with a limiting groove, the limiting groove is used for limiting the screen, part of the screen buffer piece is detachably inserted into the placing groove, and an isolation cavity is arranged in the screen buffer piece. The invention aims to provide a packaging buffer structure for limiting and buffering packaging of products, which is applied to the packaging structure and effectively avoids the problems of multiple packaging problems such as running, falling, abrasion and the like of the products in the packaging caused by falling and rolling in the carrying process.

Description

Packaging buffer structure and packaging structure

Technical Field

The invention relates to the technical field of product packaging, in particular to a packaging buffer structure and a packaging structure using the same.

Background

In the field of electronic product packaging, it is generally necessary to carry out whole-box transportation after packaging electronic products. For example, audio products are typically provided in a main body structure and a screen portion attached to the main body such that the appearance of the audio product is irregularly shaped. In the related art, a packing box is generally adopted to pack products, and for products with irregular structures, the packing box cannot well limit the products, and in the process of carrying the products after packing, falling and rolling can occur, so that the audio products in the packing can be caused to have various packing problems such as position running, falling, abrasion and the like.

Disclosure of Invention

The invention mainly aims to provide a packaging buffer structure and a packaging structure, and aims to provide a packaging buffer structure for limiting and buffering packaging of products.

To achieve the above object, the present invention provides a packing buffer structure for packing and buffering a product, the product including a main body and a screen connected to the main body, the packing buffer structure comprising:

the buffer base is provided with a placing groove for placing products, a limiting boss is arranged adjacent to a notch of the placing groove in a protruding mode, the limiting boss is used for being in limiting butt joint with the main body, a buffer cavity is further arranged in the buffer base, and the buffer cavity is located in the groove wall of the placing groove; and

the screen buffer piece, the screen buffer piece is formed with the spacing groove, the spacing groove is used for spacing the screen, part screen buffer piece detachably inserts and locates in the standing groove, be equipped with the isolation chamber in the screen buffer piece.

In one embodiment, the buffer base includes:

the base body comprises a bottom plate and a side pad connected to the periphery of the bottom plate, the side pad and the bottom plate are enclosed to form the placing groove, a first buffer cavity is arranged in the side pad, and one side of the side pad facing the placing groove is provided with the limit boss; and

the bottom pad is arranged in the placing groove and is in butt joint with the bottom plate, a second buffer cavity is arranged in the bottom pad, and the first buffer cavity and the second buffer cavity are matched to form the buffer cavity.

In an embodiment, the bottom plate is quadrilateral, the side pads comprise four side pads, each side pad is rotationally connected with one side edge of the bottom plate, the four side pads are rotationally folded relative to the bottom plate so as to enclose and form the placing groove, and each side pad is internally provided with the first buffer cavity.

In an embodiment, two or three sides of the side pads facing the placing groove are respectively provided with the limiting boss in a protruding mode, and the limiting bosses are located at one end, far away from the bottom plate, of the side pads;

and/or the four side pads and the bottom plate are of an integrated structure.

In an embodiment, the buffer base further includes a first reinforcing member, where the first reinforcing member is disposed in the first buffer cavity, and the first reinforcing member is disposed in a bending manner.

In one embodiment, the first stiffener includes at least one first bend angle;

the vertex of the first bending angle is abutted with the side cavity wall of the first buffer cavity adjacent to the placing groove; and/or the angle of the first bending angle is smaller than or equal to 80 degrees; and/or, the first reinforcement and the side pad are of an integrated structure.

In an embodiment, the buffer base further includes a second reinforcing member, the second reinforcing member is disposed in the second buffer cavity, and the second reinforcing member is disposed in a bending manner.

In one embodiment, the second reinforcement comprises at least one second inflection angle;

the vertex of the second bending angle is abutted with the side cavity wall of the second buffer cavity adjacent to the placing groove; and/or the angle range of the second bending angle is 40-80 degrees; and/or the second reinforcement and the bottom pad are of an integrated structure.

In one embodiment, the screen buffer includes:

the side wall is internally provided with a first isolation cavity; and

the two limiting convex walls are symmetrically connected to two sides of the side wall, the two limiting convex walls and the side wall are enclosed to form the limiting groove, and a second isolation cavity is arranged in each limiting convex wall;

and an inclined surface is formed on one side of the side wall facing the limiting groove, and the inclined surface is in adaptive abutting connection with the screen.

In an embodiment, the screen buffer further includes a third reinforcement member, the third reinforcement member is disposed in the first isolation cavity, and the third reinforcement member includes at least one bending portion.

In an embodiment, the third reinforcement and the side wall are integrally formed;

and/or the bending part is in a V shape, a U shape, a W shape, a Y shape or a semicircle shape;

and/or the side wall and the two limiting convex walls are of an integrated structure;

and/or, an outer wall surface is formed on one side of the side wall, which is opposite to the limiting groove, and an included angle formed by the outer wall surface and the inclined surface is smaller than or equal to 30 degrees.

In an embodiment, the packaging buffer structure further comprises a fitting box, the fitting box is placed in a notch of the placing groove and is abutted to the limiting boss and the screen buffer piece, a placing cavity is formed in the fitting box, and the placing cavity is used for placing fittings of the product.

In an embodiment, the placing cavity comprises a first placing cavity and a second placing cavity which are arranged at intervals, the outer wall of the accessory box is also provided with an accessory groove and a notch communicated with the first placing cavity, the accessory comprises a first accessory and a second accessory, part of the first accessory is placed in the first placing cavity, part of the first accessory passes through the notch to be placed in the accessory groove, and the second accessory is placed in the second placing cavity;

and/or the accessory box is also provided with a grabbing groove.

The invention also proposes a packaging structure for packaging a product, the packaging structure comprising:

the packaging shell is provided with a containing cavity; and

above-mentioned packing buffer structure, packing buffer structure holds in hold the intracavity.

According to the packaging buffer structure, the placing grooves are formed in the buffer base, the limiting bosses are arranged on the notch, adjacent to the placing grooves, of the buffer base in a protruding mode, so that the placing grooves are used for placing and storing products, the limiting bosses are used for limiting the main body of the products, meanwhile, the buffer cavities are arranged in the buffer base, so that the buffer cavities are located in the groove walls of the placing grooves, a certain buffer space is provided for the products by the buffer cavities, the effect of reducing impact force is achieved, and therefore when falling and rolling situations occur in the carrying process, a plurality of packaging problems such as position running, falling, abrasion or collision damage of the products are prevented; simultaneously, through forming the spacing groove on screen bolster for partial screen bolster detachably inserts and locates in the standing groove, so that the screen is spacing in the spacing inslot, thereby realize further spacing and location to the irregular part of product, simultaneously through being equipped with the isolation chamber in screen bolster, thereby utilize the isolation chamber to provide certain buffer space and the effect of slowing down the impact force to the screen, thereby when falling the circumstances of rolling appear in the in-process of transport, a plurality of packing problems such as running, falling out, wearing and tearing or crashing appear in the screen that prevent the product to some extent.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a package buffer structure according to an embodiment of the present invention;

FIG. 2 is a schematic view of a base body according to an embodiment of the present invention;

FIG. 3 is a schematic view of a bottom pad according to an embodiment of the present invention;

FIG. 4 is a schematic view of a screen buffer according to an embodiment of the invention;

FIG. 5 is a schematic cross-sectional view of a screen buffer according to an embodiment of the invention;

FIG. 6 is a schematic structural view of a accessory case according to an embodiment of the present invention;

FIG. 7 is a schematic cross-sectional view of a cartridge according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of a product according to an embodiment of the invention.

Reference numerals illustrate:

the achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present invention are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly.

Meanwhile, the meaning of "and/or" and/or "appearing throughout the text is to include three schemes, taking" a and/or B "as an example, including a scheme, or B scheme, or a scheme that a and B satisfy simultaneously.

Furthermore, descriptions such as those referred to as "first," "second," and the like, are provided for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implying an order of magnitude of the indicated technical features in the present disclosure. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present invention.

In the field of electronic product packaging, it is generally necessary to carry out whole-box transportation after packaging electronic products. For example, audio products are typically provided in a main body structure and a screen portion attached to the main body such that the appearance of the audio product is irregularly shaped. In the related art, a packing box is generally adopted to pack products, and for products with irregular structures, the packing box cannot well limit the products, and in the process of carrying the products after packing, falling and rolling can occur, so that the audio products in the packing can be caused to have various packing problems such as position running, falling, abrasion and the like.

Based on the above-described concepts and problems, the present invention proposes a package cushioning structure 100. It can be appreciated that the packaging buffer structure 100 is also applied to a packaging structure, and can limit the product 400, and meanwhile, the packaging buffer structure plays a role in buffering the product 400, namely, after the product 400 is packaged in the packaging structure, when the product 400 falls and rolls over in the process of carrying, the packaging buffer structure 100 can buffer and slow down the impact force on the product 400, so as to avoid the problems of running, falling, wearing, breaking or bumping the product 400 in the packaging structure.

In this embodiment, as shown in fig. 8, the product 400 includes a main body 410 and a screen 420 connected to the main body 410. It will be appreciated that the product 400 has an irregular structure, the main body 410 of the product 400 has a spherical shape or a cylindrical shape, a square shape, a polygonal shape or other shapes, the screen 420 of the product 400 is disposed at one side of the main body 410, and one end of the screen 420 protrudes out of the top of the main body 410. Optionally, the screen 420 of the product 400 is disposed obliquely, i.e. the screen 420 is disposed at an angle to the axial direction of the main body 410.

Referring to fig. 1 to 5 and 8 in combination, in the embodiment of the present invention, the packaging buffer structure 100 is used for packaging and buffering a product 400, the packaging buffer structure 100 includes a buffer base 1 and a screen buffer 2, wherein the buffer base 1 is formed with a placement groove 121 for placing the product 400, a notch of the buffer base 1 adjacent to the placement groove 121 is convexly provided with a limiting boss 1232, the limiting boss 1232 is used for limiting and abutting against the main body 410, a buffer cavity 11 is further provided in the buffer base 1, the buffer cavity 11 is located in a groove wall of the placement groove 121, the screen buffer 2 is formed with a limiting groove 21, the limiting groove 21 is used for limiting a screen 420, a part of the screen buffer 2 is detachably inserted into the placement groove 121, and an isolation cavity 22 is provided in the screen buffer 2.

In the present embodiment, the package cushioning structure 100 is configured as the cushioning base 1 and the screen cushioning member 2, so that the cushioning base 1 is utilized to store, position and limit the entirety of the product 400, particularly the main body 410 of the product 400. It will be appreciated that the buffer base 1 is formed with a placement groove 121, the placement groove 121 may have a groove structure or a through groove structure, and the shape profile of the placement groove 121 may be circular, elliptical, square or other shapes, which are not limited herein. Storage and positioning of product 400 may be accomplished using placement slot 121.

It can be appreciated that the limiting boss 1232 is convexly arranged on the buffer base 1 adjacent to the notch of the placing groove 121, so that the limiting boss 1232 is in limiting butt with the main body 410, and the main body 410 of the product 400 placed in the placing groove 121 is further limited by the limiting boss 1232, so that the main body 410 is prevented from falling out through the notch of the placing groove 121.

In this embodiment, the buffer cavity 11 is further disposed in the buffer base 1, so that the buffer cavity 11 is located in the groove wall of the placement groove 121, and thus, a buffer space is provided for the product 400 by using the buffer cavity 11, and when a drop or collision occurs during the handling or transportation process, the impact force can be relieved by using the buffer cavity 11 to damage the main body 410 of the product 400.

Further, through setting up screen bolster 2 to be formed with spacing groove 21 on screen bolster 2, so in partial screen bolster 2 detachably inserts and locates standing groove 121, so that screen 420 is spacing in spacing groove 21, thereby utilize screen bolster 2's spacing groove 21 to realize further spacing and locate action to the screen 420 of product 400, also utilize screen bolster 2 to further realize location and spacing packing to the irregular position (for example screen 420) of product 400, and screen bolster 2 and buffer base 1 detachable connection, can make things convenient for the assembly of product 400, improve the convenience. Meanwhile, the isolation cavity 22 is arranged in the screen buffer 2, so that the isolation cavity 22 is utilized to provide a screen 420 buffer space for the product 400, and when falling or collision occurs in the process of carrying or transporting, the screen 420 of the product 400 can be damaged by the impact force relieved by the isolation cavity 22.

It will be appreciated that the buffer chamber 11 of the buffer base 1 is separated from the placement groove 121 by a sidewall, and the isolation chamber 22 of the screen buffer 2 is separated from the limit groove 21 by a sidewall. In this embodiment, the buffer chamber 11 and the isolation chamber 22 may be sealed chambers, or may not be sealed chambers, such as through grooves or through chamber structures, which are not limited herein.

In this embodiment, the buffer base 1 and the screen buffer 2 of the package buffer structure 100 may be made of a single piece of material (cardboard), and may be obtained by performing less cutting processes, so that the leftover materials are greatly reduced, the utilization rate of the material (cardboard) is improved, waste is avoided, and the cost is reduced. It can be appreciated that the cushion base 1 and the screen cushion 2 of the package cushion structure 100 are flat structures before being folded, which can greatly facilitate stacking and transportation, have high space utilization and are not easy to damage.

Alternatively, the cushion chassis 1 and the screen cushion 2 of the package cushioning structure 100 may be made of corrugated cardboard, honeycomb core cardboard, or kraft cardboard or folded. It will be appreciated that various types of paperboard can achieve the technical effects of the present invention, which can make the processing, forming, and manufacturing of the packaging cushioning structure 100 of the present invention more flexible, efficient, and more practical and reliable.

According to the packaging buffer structure 100, the placing groove 121 is formed in the buffer base 1, the limiting boss 1232 is arranged on the buffer base 1 in a protruding mode adjacent to the notch of the placing groove 121, so that the placing groove 121 is used for placing and storing the product 400, the limiting boss 1232 is used for limiting the main body 410 of the product 400, meanwhile, the buffer cavity 11 is formed in the buffer base 1, so that the buffer cavity 11 is located in the groove wall of the placing groove 121, a certain buffer space is provided for the product 400 by the buffer cavity 11, the impact force is relieved, and when falling and rolling situations occur in the carrying process, a plurality of packaging problems such as running, falling, abrasion or crashing of the product 400 are prevented; meanwhile, the limiting groove 21 is formed on the screen buffer piece 2, so that part of the screen buffer piece 2 is detachably inserted into the placing groove 121, the screen 420 is limited in the limiting groove 21, further limiting and positioning are achieved on irregular parts of the product 400, meanwhile, the isolating cavity 22 is arranged in the screen buffer piece 2, a certain buffering space is provided for the screen 420 through the isolating cavity 22, the effect of reducing impact force is achieved, and therefore when a rolling situation occurs in the process of carrying, a plurality of packaging problems such as running, falling, abrasion or crashing of the screen 420 of the product 400 are prevented.

In an embodiment, the buffering base 1 includes a base body 12 and a bottom pad 13, wherein the base body 12 includes a bottom plate 122 and a side pad 123 connected to a periphery of the bottom plate 122, the side pad 123 and the bottom plate 122 enclose to form a placement groove 121, a first buffering cavity 1231 is disposed in the side pad 123, a limit boss 1232 is disposed on a side of the side pad 123 facing the placement groove 121, the bottom pad 13 is disposed in the placement groove 121 and is abutted to the bottom plate 122, a second buffering cavity 131 is disposed in the bottom pad 13, and the first buffering cavity 1231 and the second buffering cavity 131 cooperate to form the buffering cavity 11.

In the present embodiment, as shown in fig. 1 to 3, by providing the buffer base 1 as a two-part structure of the base body 12 and the bottom pad 13, and the base body 12 includes the bottom plate 122 and the side pad 123 connected to the periphery of the bottom plate 122, the side pad 123 and the bottom plate 122 enclose to form the placement groove 121, thereby forming the accommodating space for placing the product 400.

It will be appreciated that by providing the first cushion chamber 1231 within the side pad 123, the side pad 123 is conveniently utilized to cushion the periphery of the product 400. And be equipped with spacing boss 1232 through the one side that is facing to standing groove 121 at the side pad 123 for spacing boss 1232 is located the one end that the bottom plate 122 was kept away from to the side pad 123, thereby utilizes spacing boss 1232 effectively to avoid the main part 410 of the product 400 of holding in standing groove 121 to fall out.

In this embodiment, the bottom pad 13 is disposed in the placement groove 121 and abuts against the bottom plate 122, and the second buffer chamber 131 is disposed in the bottom pad 13, so that the product 400 in the placement groove 121 is supported by the bottom pad 13, and the bottom of the main body 410 of the product 400 is buffered by the second buffer chamber 131.

It will be appreciated that the bottom plate 122 of the base body 12 is integrally connected to the side pads 123 to provide support and mounting for the base pad 13 and the product 400. Optionally, the bottom pad 13 is detachably disposed in the placement groove 121. Since the base pad 13 serves to mainly carry the product 400, the structural strength of the base pad 13 is greater than that of the side pads 123.

In an embodiment, as shown in fig. 1 to 3, the bottom plate 122 is quadrilateral, the side pads 123 include four, each side pad 123 is rotatably connected to one side edge of the bottom plate 122, and the four side pads 123 are rotatably turned over relative to the bottom plate 122 to enclose and form the placement groove 121, and a first buffer cavity 1231 is provided in each side pad 123.

In the present embodiment, the four side pads 123 are respectively connected to four sides of the bottom plate 122, and each side pad 123 is rotatably connected to one side of the bottom plate 122, so that the four side pads 123 are rotatably turned over relative to the bottom plate 122 to enclose the placement groove 121, and thus the irregular product 400 can be conveniently placed in the placement groove 121.

It can be appreciated that the four side pads 123 and the bottom plate 122 are integrally formed, so that the processing steps of the base body 12 can be simplified, and the structural strength of the base body 12 can be improved. In this embodiment, each side pad 123 is integrally connected to one side of the bottom plate 122, and a crease is formed at the connection, so that the side pad 123 can be turned and folded with respect to the bottom plate 122 conveniently.

In this embodiment, the base body 12 may be integrally folded using a single piece of material (cardboard) to form the bottom plate 122 and the four side pads 123, so that the first cushion chamber 1231 is formed during the folding of the side pads 123.

In an embodiment, two or three side pads 123 are each provided with a protruding limiting boss 1232 on a side facing the placement groove 121, and the limiting boss 1232 is located at an end of the side pad 123 away from the bottom plate 122. It can be appreciated that by providing the limiting boss 1232 on two or three of the four side pads 123, the positioning and limiting effects on the body 410 placed in the placement groove 121 are achieved by using the two or three limiting bosses 1232, so that the body 410 of the product 400 is effectively prevented from being separated from the placement groove 121.

It can be appreciated that the limiting boss 1232 and the side pad 123 are integrally formed, and the limiting boss 1232 can be integrally formed by folding the cardboard during the process of forming the side pad 123. Of course, in other embodiments, the limiting boss 1232 and the side pad 123 may be disposed separately, such as by bonding, detachable connection, etc., which is not limited herein.

In order to further enhance the structural strength of the side pad 123 of the base body 12, in an embodiment, the buffer base 1 further includes a first reinforcing member 14, the first reinforcing member 14 is disposed in the first buffer cavity 1231, and the first reinforcing member 14 is disposed in a bending manner.

In the present embodiment, as shown in fig. 1 and 2, the structural strength of the side pad 123 is reinforced by the first reinforcement 14 by providing the first reinforcement 14 in the first buffer chamber 1231. It can be appreciated that the first reinforcement 14 is provided in a bent manner, so that the bending structure of the first reinforcement 14 is utilized to reinforce the structural strength of the side pad 123 on one hand, and form a buffering space structure on the other hand, so as to ensure the buffering effect of the side pad 123.

It will be appreciated that the first reinforcement member 14 and the side pad 123 are integrally formed, and that the first reinforcement member 14 may be integrally formed by cardboard during the folding process of forming the side pad 123. Of course, in other embodiments, the first reinforcement member 14 and the side pad 123 may be provided separately, such as by bonding, detachable connection, etc., which is not limited herein.

In one embodiment, the first reinforcement 14 includes at least one first bending angle 141, and an apex of the first bending angle 141 abuts against a side cavity wall of the first buffer cavity 1231 adjacent to the placement groove 121. It will be appreciated that the first bending angle 141 of the first reinforcement 14 may be selected from a V-shaped angle, a U-shaped angle, a W-shaped angle, or a semicircular structure as shown in fig. 1 and 2, which is not limited herein.

In this embodiment, the first reinforcement 14 extends along the length or width direction of the side pad 123, that is, the apex of the first bending angle 141 of the first reinforcement 14 abuts against the side wall of the first buffer cavity 1231 adjacent to the placement groove 121, so that the apex of the first bending angle 141 and the end of the first reinforcement 14 abut against the side wall of the first buffer cavity 1231 respectively, on one hand, elastic support is achieved, and the apex of the first bending angle 141 of the first reinforcement 14 can divide the first buffer cavity 1231 into a plurality of buffer spaces, so that the strength of the side pad 123 can be improved, and the buffer effect can be ensured.

It can be appreciated that when a drop or a drop occurs during the handling process, the impact force of the main body 410 of the product 400 can be dispersed by using the vertex of the first bending angle 141 of the first reinforcing member 14, so as to achieve a good buffering effect. Optionally, the angle of the first bending angle 141 is less than or equal to 80 °, so that the structure strength of the side pad 123 can be effectively improved, and meanwhile, the buffering effect is improved.

In order to further strengthen the structural strength of the bottom pad 13 of the base body 12, in an embodiment, the buffer base 1 further includes a second reinforcing member 15, where the second reinforcing member 15 is disposed in the second buffer cavity 131, and the second reinforcing member 15 is disposed in a bending manner.

In the present embodiment, as shown in fig. 1 and 3, the structural strength of the base mat 13 is reinforced by the second reinforcement 15 by providing the second reinforcement 15 in the second buffer chamber 131. It will be appreciated that the second reinforcement 15 is provided in a bent configuration, so that the structural strength of the base pad 13 is reinforced by the bent structure of the second reinforcement 15, and a cushioning space structure is formed to ensure the cushioning effect of the base pad 13.

It will be appreciated that the second reinforcement 15 is integrally formed with the base pad 13, and that the second reinforcement 15 may be integrally formed from cardboard during folding to form the base pad 13. Of course, in other embodiments, the second reinforcement member 15 and the base pad 13 may be provided separately, such as by bonding, detachable connection, etc., which is not limited herein.

In an embodiment, the second reinforcement member 15 includes at least one second bending angle 151, and an apex of the second bending angle 151 abuts against a side cavity wall of the second buffer cavity 131 adjacent to the placement groove 121. It will be appreciated that, as shown in fig. 1 and 3, the second bending angle 151 of the second reinforcement 15 may be selected to be a V-shaped angle, a U-shaped angle, a W-shaped angle, or a semicircular structure, which is not limited herein.

In this embodiment, the second reinforcement member 15 extends along the length or width direction of the bottom pad 13, that is, the vertex of the second bending angle 151 of the second reinforcement member 15 abuts against the side wall of the second buffer cavity 131 adjacent to the placement groove 121, so that the vertex of the second bending angle 151 and the end of the second reinforcement member 15 may abut against the cavity wall of the second buffer cavity 131 respectively, on one hand, elastic support is achieved, and the vertex of the second bending angle 151 of the second reinforcement member 15 partitions the second buffer cavity 131 into a plurality of buffer spaces, so that not only the strength of the bottom pad 13 can be improved, but also the buffer effect can be ensured.

It can be appreciated that when a drop or a drop occurs during the handling process, the impact force of the main body 410 of the product 400 can be dispersed by using the vertex of the second bending angle 151 of the second reinforcing member 15, so as to achieve a good buffering effect. Optionally, the second bending angle 151 ranges from 40 ° to 80 °, so that the structural strength of the base pad 13 can be effectively improved, and meanwhile, the buffering effect is improved.

Since the bottom pad 13 mainly plays a role of supporting the product 400, in the present embodiment, the second reinforcement member 15 includes a plurality of second bending corners 151, and the plurality of second bending corners 151 are spaced apart and respectively abutted against two opposite sidewalls of the second buffer chamber 131. As shown in fig. 3, one second bending angle 151 abutting against the opposite side of the second buffer chamber 131 is provided between two adjacent second bending angles 151 abutting against the same side of the second buffer chamber 131.

In an embodiment, the screen buffer 2 includes a side wall 23 and two limiting convex walls 24, wherein a first isolation cavity 231 is disposed in the side wall 23, the two limiting convex walls 24 are symmetrically connected to two sides of the side wall 23, the two limiting convex walls 24 and the side wall 23 enclose to form a limiting groove 21, and a second isolation cavity 241 is disposed in each limiting convex wall 24; wherein, the side wall 23 is formed with inclined plane 232 towards the side of spacing groove 21, inclined plane 232 and screen 420 adaptation butt.

In the present embodiment, as shown in fig. 1, 4 and 5, by providing the screen buffer 2 as the side wall 23 and the two limiting convex walls 24, the two limiting convex walls 24 and the side wall 23 enclose to form the limiting groove 21, thereby realizing the limiting installation of the screen 420 by using the limiting groove 21. It can be appreciated that the side wall 23 is formed with an inclined surface 232 facing the limiting groove 21, and the inclined surface 232 is adapted to abut against the screen 420, so that the screen 420 can be further protected.

It will be appreciated that the two spacing ledges 24 provide clamping spacing and positioning on opposite sides of the screen 420, further enhancing the spacing of the screen 420, avoiding rocking or deflection of the screen 420 relative to the body 410, etc. In the present embodiment, by providing the first isolation chamber 231 in the side wall 23 and the second isolation chamber 241 in the limiting convex wall 24, the screen 420 is buffer-protected by the cooperation of the first isolation chamber 231 and the second isolation chamber 241.

In the present embodiment, the side wall 23 and the two limiting convex walls 24 of the screen buffer 2 are integrally connected, and the shape profile of the side wall 23 is adapted to the shape profile of the screen 420. Optionally, the side wall 23 and the two limiting protruding walls 24 of the screen buffer 2 are integrally formed, so that the processing steps of the screen buffer 2 can be simplified, and the structural strength of the screen buffer 2 can be improved. It will be appreciated that each of the retaining ledges 24 is integrally connected to one side of the side wall 23 and a crease is formed at the connection to facilitate the pivotal folding of the retaining ledges 24 relative to the side wall 23.

It will be appreciated that the screen buffer 2 may be integrally folded from a single piece of material (cardboard) to form the side wall 23 and the two spacing flanges 24, such that the first and second isolation chambers 231 and 241 are formed during folding of the side wall 23 and the two spacing flanges 24, respectively.

In an embodiment, the screen buffer 2 further includes a third reinforcing member 25, the third reinforcing member 25 is disposed in the first isolation cavity 231, and the third reinforcing member 25 includes at least one bending portion 251. It will be appreciated that by providing the third reinforcement 25, the structural strength of the side wall 23 of the screen buffer 2 can be further reinforced with the third reinforcement 25.

In this embodiment, as shown in fig. 1, 4 and 5, by disposing the third reinforcement member 25 in the first isolation cavity 231 and bending the third reinforcement member 25, the third reinforcement member 25 includes at least one bending portion 251, so that the bending structure of the third reinforcement member 25 is utilized to strengthen the structural strength of the side wall 23 on one hand and form a buffer space structure on the other hand, so as to ensure the buffering effect of the side wall 23.

It will be appreciated that the third reinforcement 25 is integrally formed with the side wall 23, and that the third reinforcement 25 may be integrally formed from cardboard during folding to form the side wall 23. Of course, in other embodiments, the third reinforcement member 25 and the side wall 23 may be provided separately, such as by bonding, detachable connection, etc., which is not limited herein.

In one embodiment, the third reinforcement member 25 includes at least one bending portion 251, and the bending portion 251 extends toward the first isolation cavity 231. Alternatively, the bending portion 251 has a V-shape, a U-shape, a W-shape, a Y-shape, or a semicircular shape, which is not limited herein.

In an embodiment, as shown in fig. 4 and 5, an outer wall surface 233 is formed on a side of the side wall 23 facing away from the limiting groove 21, and an included angle formed by the outer wall surface 233 and the inclined surface 232 is less than or equal to 30 °. It will be appreciated that, by this arrangement, the side wall 23 of the screen buffer 2 can be limited in the space between the side pad 12 and the screen 420, so that the side wall 23 can be used to limit the screen 420, and the first isolation cavity 231 of the side wall 23 can be used to buffer the screen 420.

It can be appreciated that the screen 420 can swing up and down relative to the main body 410, so that, in order to make the inclined surface 232 of the side wall 23 abut against the screen 420 in a matching manner, an included angle formed by the inclined surface 232 of the side wall 23 and the outer wall surface 233 can be adjusted, that is, an included angle can be adjusted at an end of the inclined surface 232 of the side wall 23 connected to the outer wall surface 233.

In an embodiment, the package cushioning structure 100 further includes a fitting box 3, where the fitting box 3 is placed in a notch of the placement groove 121 and is abutted to the limiting boss 1232 and the screen cushioning member 2, and a placement cavity 31 is disposed in the fitting box 3, and the placement cavity 31 is used for placing a fitting of the product 400.

In the present embodiment, as shown in fig. 1, 6 and 7, by providing the set-up kit 3, it is convenient to install the set-up of the product 400 using the placement cavity 31 of the set-up kit 3, while the placement cavity 31 of the set-up kit 3 is abutted with the stopper boss 1232 and the screen buffer 2, so that the placement cavity 31 of the set-up kit 3 can provide a buffer space for the top of the main body 400 of the product 400 and the top of the screen 420.

It is understood that the accessories of the product 400 include instructions, data lines, plugs, and the like. In order to facilitate the placement of different accessories, in an embodiment, the placement cavity 31 includes a first placement cavity 311 and a second placement cavity 312 that are disposed at intervals, the outer wall of the accessory box 3 is further provided with an accessory slot 32 and a notch 33 that communicates with the first placement cavity 311, the accessory includes a first accessory and a second accessory, a part of the first accessory is placed in the first placement cavity 311, a part of the first accessory is placed in the accessory slot 32 through the notch 33, and the second accessory is placed in the second placement cavity 312.

In the present embodiment, as shown in fig. 1, 6 and 7, the placement chamber 31 of the component cassette 3 includes a first placement chamber 311 and a second placement chamber 312 which are provided in a stacked manner, that is, the first placement chamber 311 and the second placement chamber 312 are partitioned by a partition. It will be appreciated that in order to avoid that accessories of the product 400, such as instructions, fall out of the placement cavity 31, the first placement cavity 311 and the second placement cavity 312 of the placement cavity 31 may be provided as sealed cavities. Of course, the first placing chamber 311 and the second placing chamber 312 may be provided as open chambers, but in order to avoid the fitting from falling off, stoppers may be provided at the chamber openings of the first placing chamber 311 and the second placing chamber 312, which is not limited herein.

It will be appreciated that, in order to facilitate placement of the components of the product 400, such as the data line and the plug, the outer wall of the component box 3 is further provided with a component groove 32 and a notch 33 communicating with the first placement cavity 311, so that the first placement cavity 311 can be used for placing the components of the data line, etc., and through the notch 33, a space for avoiding and positioning the components of the data line, etc. passing through is provided, so as to facilitate placement of the components of the plug, etc. in the component groove 32.

In an embodiment, the accessory magazine 3 is further provided with a gripping groove 34. It will be appreciated that, as shown in fig. 1, 6 and 7, by providing the gripping groove 34 on the accessory cassette 3, the accessory cassette 3 can be conveniently taken by using the gripping groove 34, providing convenience. Alternatively, the gripping groove 34 may be a groove structure, a buckle groove structure, a through hole structure, or the like, which is not limited herein.

The present invention also proposes a packaging structure for packaging a product 400, as shown in fig. 8, the product 400 including a main body 410 and a screen 420 connected to the product 400. The packaging structure comprises a packaging shell and the packaging buffer structure 100, wherein the packaging shell is provided with a containing cavity, and the packaging buffer structure 100 is contained in the containing cavity. The specific structure of the package buffer structure 100 refers to the foregoing embodiments, and since the present package structure adopts all the technical solutions of all the foregoing embodiments, at least has all the beneficial effects brought by the technical solutions of the foregoing embodiments, which are not described in detail herein.

It will be appreciated that the package may be in the form of a pack, box or strip. The package may be made of plastic, foam or cardboard construction, without limitation. The package buffer structure 100 is sleeved outside the package buffer structure 100, namely the package buffer structure 100 is accommodated in the accommodating cavity, so that the package buffer structure 100 is utilized to package the buffer base 1, the screen buffer 2 and the accessory box 3 into a whole, and meanwhile, the package buffer structure can also be utilized to fix the side pad 123 of the base main body 12 with the bottom plate 122, so that the side pad 123 can be selected to be perpendicular to the bottom plate 122 to enclose to form the placing groove 121, and the product 400, the screen buffer 2 and the accessory box 3 placed in the placing groove 121 are effectively prevented from falling or scattering and the like.

In this embodiment, the product 400 may be a sound box, a shaped sound box, or the like, which is not limited herein.

The foregoing description is only of the optional embodiments of the present invention, and is not intended to limit the scope of the invention, and all equivalent structural modifications made by the present description and accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the present invention.

Claims (12)

1. A package cushioning structure for cushioning a product package, the product comprising a main body and a screen attached to the main body, the package cushioning structure comprising:

the buffer base is provided with a placing groove for placing products, a limiting boss is arranged on the buffer base adjacent to a notch of the placing groove in a protruding mode, the limiting boss is used for being in limiting butt joint with the main body, a buffer cavity is further arranged in the buffer base, the buffer cavity is located in the groove wall of the placing groove, the buffer base comprises a base main body and a bottom pad, the base main body comprises a bottom plate and a side pad connected to the periphery of the bottom plate, the side pad and the bottom plate enclose to form the placing groove, a first buffer cavity is arranged in the side pad, the side pad faces one side of the placing groove and is provided with the limiting boss, the bottom pad is arranged in the placing groove and is in butt joint with the bottom plate, a second buffer cavity is arranged in the bottom pad, and the first buffer cavity and the second buffer cavity are matched to form the buffer cavity; and

the screen buffer piece is provided with a limiting groove, the limiting groove is used for limiting the screen, part of the screen buffer piece is detachably inserted into the placing groove, an isolation cavity is formed in the screen buffer piece, the screen buffer piece comprises a side wall and two limiting convex walls, a first isolation cavity is formed in the side wall, the two limiting convex walls are symmetrically connected to two sides of the side wall, the two limiting convex walls and the side wall are enclosed to form the limiting groove, and a second isolation cavity is formed in each limiting convex wall;

and an inclined surface is formed on one side of the side wall facing the limiting groove, and the inclined surface is in adaptive abutting connection with the screen.

2. The packaging cushioning structure of claim 1, wherein the base plate is quadrilateral, the side pads comprise four, each side pad is rotatably connected with one side edge of the base plate, the four side pads are rotatably folded relative to the base plate to enclose the placement groove, and each side pad is internally provided with the first cushioning cavity.

3. The packaging cushioning structure of claim 2, wherein two or three of the side pads are each provided with the limit boss protruding from a side thereof facing the placement groove, and the limit boss is located at an end of the side pad away from the bottom plate;

and/or the four side pads and the bottom plate are of an integrated structure.

4. The package cushioning structure of claim 1, wherein the cushioning base further comprises a first stiffener disposed within the first cushioning cavity, and wherein the first stiffener is in a bent configuration.

5. The package cushioning structure of claim 4, wherein said first reinforcement includes at least one first bend angle;

the vertex of the first bending angle is abutted with the side cavity wall of the first buffer cavity adjacent to the placing groove; and/or the angle of the first bending angle is smaller than or equal to 80 degrees; and/or, the first reinforcement and the side pad are of an integrated structure.

6. The package cushioning structure of claim 1, wherein the cushioning base further comprises a second reinforcement member disposed within the second cushioning cavity, and wherein the second reinforcement member is in a bent configuration.

7. The package cushioning structure of claim 6, wherein said second reinforcement includes at least one second bend angle;

the vertex of the second bending angle is abutted with the side cavity wall of the second buffer cavity adjacent to the placing groove; and/or the angle range of the second bending angle is 40-80 degrees; and/or the second reinforcement and the bottom pad are of an integrated structure.

8. The package cushioning structure of claim 1, wherein the screen cushioning member further comprises a third reinforcement member disposed within the first isolation cavity, the third reinforcement member comprising at least one bend.

9. The package cushioning structure of claim 8, wherein said third reinforcement is an integral structure with said side wall;

and/or the bending part is in a V shape, a U shape, a W shape, a Y shape or a semicircle shape;

and/or the side wall and the two limiting convex walls are of an integrated structure;

and/or, an outer wall surface is formed on one side of the side wall, which is opposite to the limiting groove, and an included angle formed by the outer wall surface and the inclined surface is smaller than or equal to 30 degrees.

10. The packaging cushioning structure of any one of claims 1 to 9, further comprising a fitment box disposed in the notch of the placement groove and abutting the limit boss and the screen cushioning member, a placement cavity being provided in the fitment box for placement of a fitment of the product.

11. The packaging cushioning structure of claim 10, wherein the placement cavity comprises a first placement cavity and a second placement cavity arranged at intervals, the outer wall of the accessory box is further provided with an accessory groove and a notch communicated with the first placement cavity, the accessory comprises a first accessory and a second accessory, a part of the first accessory is placed in the first placement cavity, a part of the first accessory passes through the notch to be placed in the accessory groove, and the second accessory is placed in the second placement cavity;

and/or the accessory box is also provided with a grabbing groove.

12. A packaging structure for packaging a product, the packaging structure comprising:

the packaging shell is provided with a containing cavity; and

a package cushioning structure according to any one of claims 1 to 11, which is received within the cavity.