CN218858936U - Fragile wine bottle is from turning over a bundle environmental protection packaging structure - Google Patents

Abstract

The utility model provides a self-turning and bundling environment-friendly packaging structure for fragile wine bottles, which comprises a box body structure formed by paper and a protective buffering structure; the box body structure comprises a first folded surface, a second folded surface, a third folded surface and a fourth folded surface which are sequentially connected, wherein a first side folded surface and a second side folded surface are sequentially formed on two opposite sides of the second folded surface in the width direction respectively, and third side folded surfaces are formed on two opposite sides of the fourth folded surface in the width direction respectively; the protective buffer structure comprises a fifth folding surface, a sixth folding surface, a seventh folding surface, an eighth folding surface and a ninth folding surface which are sequentially connected with the fourth folding surface; fourth folded surfaces are formed on two opposite sides of the fifth folded surface, the sixth folded surface, the seventh folded surface, the eighth folded surface and the ninth folded surface in the width direction; the fifth folding surface, the sixth folding surface, the seventh folding surface, the eighth folding surface and the ninth folding surface are sequentially folded inwards by 90 degrees around the box body structure to form a protective buffer structure; can be directly folded, turned and formed, thereby not only protecting the environment, but also improving the efficiency on the basis of ensuring the safety of the product.

Description

Fragile beverage bottle is from turning over a bundle environmental protection packaging structure

Technical Field

The utility model relates to the field of packaging technology, especially, relate to a breakable beverage bottle is from turning over a bundle environmental protection packaging structure.

Background

In the logistics industry, the packaging mode of fragile wine bottles generally adopts a conventional packaging carton, and then foam or air capsules are filled in the packaging carton, so that a courier needs to carry more packaging tools to package the fragile wine bottles, and more physical burdens are caused to the courier on one hand; on the other hand, the packaging is time-consuming and labor-consuming, and the packaging needs to be sealed by gummed paper, so that the efficiency of collecting the articles every time is extremely low; third, the filler is not environmentally friendly. In view of such circumstances, improvement is urgently required.

SUMMERY OF THE UTILITY MODEL

Based on this, the utility model aims to provide an it is breakable beverage bottle from turning over a bundle environmental protection packaging structure to improve, a paper shaping structure need not to pack the foreign object and also need not the adhesive tape sealed, can directly fold and turn over a bundle shaping, on guaranteeing the basis of product security, both environmental protection have improved packing efficiency again greatly.

The utility model provides a fragile wine bottle self-turning bundle environment-friendly packaging structure, which comprises a box body structure formed by paper and a protection buffer structure; the box body structure comprises a first folded surface, a second folded surface, a third folded surface and a fourth folded surface which are sequentially connected, wherein a first side folded surface and a second side folded surface are sequentially formed on two opposite sides of the second folded surface in the width direction respectively, and a third side folded surface is formed on two opposite sides of the fourth folded surface in the width direction; a first jack is cut at the bending part between the first side folding surface and the second folding surface at the two sides; first inserting tongues are formed on one sides, far away from the fourth folding surface, of the third folding surfaces on the two sides; the lengths of the first folding surface, the second folding surface, the third folding surface and the fourth folding surface are equal; when in molding, the third folding surface, the second folding surface and the first folding surface are folded at an angle of 90 degrees, and the second side folding surfaces at two opposite sides are respectively folded inwards at an angle of 180 degrees and are in contact with the first side folding surfaces; the first side folding surfaces at two sides are folded inwards by 90 degrees; the third side folding surfaces on two opposite sides are folded upwards by 90 degrees and are in contact with the first side folding surface in a sticking way; the first inserting tongues on two sides are correspondingly inserted into the first inserting holes to form a box body structure; the protective buffer structure comprises a fifth folding surface, a sixth folding surface, a seventh folding surface, an eighth folding surface and a ninth folding surface which are sequentially connected with the fourth folding surface; fourth folded surfaces are formed on two opposite sides of the fifth folded surface, the sixth folded surface, the seventh folded surface, the eighth folded surface and the ninth folded surface in the width direction; the lengths of the fifth folding surface, the sixth folding surface, the seventh folding surface, the eighth folding surface and the ninth folding surface are equal and are all greater than the length of the protective buffer structure; a second jack is formed at the joint between the fifth folding surface and the sixth folding surface in a cutting mode, and second inserting tongues are formed at the joint between the fifth folding surface and the sixth folding surface in a cutting mode and at positions corresponding to the second jack; a third inserting tongue is formed at a position, corresponding to the second inserting hole, of one side, far away from the eighth folding surface, of the ninth folding surface, and third inserting holes are formed in bending positions between the third inserting tongues and the ninth folding surface at two sides in a cutting mode; when in molding, each fourth side folding surface is folded inwards for 180 degrees; the fifth folding surface, the sixth folding surface, the seventh folding surface, the eighth folding surface and the ninth folding surface are sequentially folded inwards by 90 degrees around the box body structure to form a protective buffer structure; the third inserting tongue is correspondingly inserted into the second inserting hole, and the second inserting tongue is correspondingly inserted into the third inserting hole to form a protective buffering structure; the relative both sides of protection buffer structure width direction with form buffer space between the box body structure.

Preferably, an arc-shaped inward-folding surface is formed between the first side folding surface at two sides and the first folding surface in the width direction; an arc-shaped inward-folded surface is formed between the first side folded surface and the third folded surface at two sides in the width direction; hollow holes are cut at the axis of each arc-shaped inward-folding surface; during forming, after the third folding surface, the second folding surface and the first folding surface are mutually folded by 90 degrees, the arc inner folding surfaces are oppositely folded along the central line to form an inner cavity of the box body structure.

Preferably, the fifth folding surface is provided with a handle A in a cutting way; a handle B is formed at a position, corresponding to the handle A, of one side, far away from the eighth folding surface, of the ninth folding surface; when the handle A is formed, the handle A is turned outwards for 180 degrees and then is attached to the handle B to contact with the handle B to form a handle part.

Preferably, an abdicating space corresponding to the third inserting tongue is formed between the fourth folding surface of the fifth folding surface and the fourth folding surface of the sixth folding surface.

The beneficial effects of the utility model are that: a paper shaping structure, simple environmental protection, place breakable beverage bottle in the box body structure, rethread protection buffer structure turns over the formula of tying closely to establish to the surface of box body structure, ensure that this structure has good antidetonation buffer function, form buffer space between protection buffer structure width direction's relative both sides and the box body structure, further promote by the buffer function at structure both ends, it is sealed to need not the filler foreign object also to need not the adhesive tape, on ensuring the basis of product security, both environmental protection, and the packaging efficiency is greatly improved again.

Drawings

Fig. 1 is a fully expanded schematic view of the present invention.

Fig. 2 is a schematic view illustrating a box structure folded into a first shape.

Fig. 3 is a schematic diagram of the box structure folded into a second shape.

Fig. 4 is a third schematic diagram of the box structure being folded into a shape.

Fig. 5 is a first schematic view of the protective buffer structure being folded.

Fig. 6 is a second schematic view of the folding and forming of the protection buffer structure.

Fig. 7 is a third schematic view of the protection buffer structure being folded into a shape.

Fig. 8 is a schematic diagram of the finished product of the present invention.

The reference signs are: the folding box comprises a fifth folding surface 14, a sixth folding surface 13, a seventh folding surface 12, an eighth folding surface 11, a ninth folding surface 10, a first folding surface 18, a second folding surface 17, a third folding surface 16, a fourth folding surface 15, a first side folding surface 19, an arc-shaped inward folding surface 20, a first insertion hole 21, a second side folding surface 22, a first insertion tongue 23, a handle A24, a second insertion hole 25, a second insertion tongue 26, a fourth side folding surface 27, a third insertion tongue 28, a handle B29, a third insertion hole 30, a box body structure 32, a protective buffering structure 31, a third side folding surface 33, a buffering space 34, a handle part 35 and an abdicating space 36.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the following detailed description and the accompanying drawings.

In the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly, e.g., as a fixed connection, a detachable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

Referring to fig. 1-8, the present invention provides a fragile wine bottle self-turning bundle environment-friendly packaging structure, which comprises a box body structure 32 formed by paper and a protective buffer structure 31; the box body structure 32 comprises a first folded surface 18, a second folded surface 17, a third folded surface 16 and a fourth folded surface 15 which are sequentially connected, wherein a first side folded surface 19 and a second side folded surface 22 are respectively and sequentially formed on two opposite sides of the second folded surface 17 in the width direction, and a third side folded surface 33 is formed on two opposite sides of the fourth folded surface 15 in the width direction; a first jack 21 is cut at the bending part between the first side folding surface 19 and the second folding surface 17 at the two sides; the first inserting tongues 23 are formed on the sides of the third side folding surfaces 33 on the two sides, which are far away from the fourth folding surface 15; the first folding surface 18, the second folding surface 17, the third folding surface 16 and the fourth folding surface 15 are equal in length.

When in molding, the third folding surface 16, the second folding surface 17 and the first folding surface 18 are folded at 90 degrees, and the second side folding surfaces 22 at two opposite sides are respectively folded inwards at 180 degrees and are attached and contacted with the first side folding surfaces 19; the first side folding surfaces 19 at the two sides are folded inwards by 90 degrees; the third side folding surfaces 33 on the two opposite sides are folded upwards by 90 degrees and are attached and contacted with the first side folding surface 19; the first inserting tongues 23 on two sides are correspondingly inserted into the first inserting holes 21 to form the box body structure 32.

The protective buffer structure 31 comprises a fifth folding surface 14, a sixth folding surface 13, a seventh folding surface 12, an eighth folding surface 11 and a ninth folding surface 10 which are sequentially connected with the fourth folding surface 15; the opposite sides of the fifth folding surface 14, the sixth folding surface 13, the seventh folding surface 12, the eighth folding surface 11 and the ninth folding surface 10 in the width direction are respectively provided with a fourth folding surface 27; the fifth folding surface 14, the sixth folding surface 13, the seventh folding surface 12, the eighth folding surface 11 and the ninth folding surface 10 are equal in length and are all larger than the protective buffer structure 31.

A second jack 25 is formed at the joint between the fifth folding surface 14 and the sixth folding surface 13, and second insertion tongues 26 are formed at the joint between the fifth folding surface 14 and the sixth folding surface 13 and at positions corresponding to the second jack 25; a third inserting tongue 28 is formed at a position, corresponding to the second inserting hole 25, of one side of the ninth folding surface 10 far away from the eighth folding surface 11, and a third inserting hole 30 is cut at a bending part between the third inserting tongue 28 at two sides and the ninth folding surface 10.

When molding, each fourth folding surface 27 is folded inward for 180 degrees; the fifth folding surface (14), the sixth folding surface 13, the seventh folding surface 12, the eighth folding surface 11 and the ninth folding surface 10 are folded inwards by 90 degrees around the box body structure 32 in sequence to form a protective buffer structure 31; the third inserting tongue 28 is correspondingly inserted into the second inserting hole 25, and the second inserting tongue 26 is correspondingly inserted into the third inserting hole 30 to form a protective buffering structure 31; buffer spaces 34 are formed between the opposite sides of the protective buffer structure 31 in the width direction and the box structure 32.

An arc-shaped inward-folding surface 20 is formed between the first side folding surface 19 at the two sides and the first folding surface 18 in the width direction; an arc-shaped inward-folded surface 20 is formed between the first lateral folded surface 19 and the third folded surface 16 on the two sides in the width direction; hollow holes are cut at the axle center of each arc-shaped inward-folding surface 20; during forming, after the third folding surface 16, the second folding surface 17 and the first folding surface 18 are folded at 90 degrees, the arc-shaped inner folding surfaces 20 are folded along the central line and formed in the inner cavity of the box body structure 32. Through the structure arrangement, the box body structure 32 is folded and formed, a linkage function is generated under the connection effect of the arc-shaped inward folding surfaces 20, and the forming speed of the box body structure 32 is accelerated.

The fifth folding surface 14 is provided with a handle A24; a handle B29 is formed at the side of the ninth folding surface 10 far away from the eighth folding surface 11 and at the position corresponding to the handle A; when the handle A is formed, the handle A is turned outwards by 180 degrees and then is attached to the handle B to contact with the handle B to form a handle part 35. After the shaping, can directly will through handle 35 the utility model discloses take to have good portable function.

An abdicating space 36 corresponding to the third inserting tongue 28 is formed between the fifth folding surface 14 and the fourth folding surface 27 of the sixth folding surface 13.

In this embodiment, a paper shaping structure, simple environmental protection, place breakable beverage bottle in box body structure, rethread protection buffer structure is to the surface of box body structure the formula of turning over the bundle closely book establish, ensure that this structure has good antidetonation buffer function, form buffer space between protection buffer structure width direction's relative both sides and the box body structure, further promote by the buffer function at structure both ends, it also need not the adhesive tape sealed to need not to pack foreign object, ensure on the basis of product security, both environmental protection, packaging efficiency has been improved greatly again.

The above-mentioned embodiments only represent one embodiment of the present invention, and the description thereof is specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for those skilled in the art, without departing from the concept of the present invention, several variations and modifications can be made, which all fall within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (4)

1. The utility model provides a breakable beverage bottle is from turning over a bundle environmental protection packaging structure which characterized in that: comprises a box body structure (32) and a protective buffer structure (31) which are formed by paper; the box body structure (32) comprises a first folded surface (18), a second folded surface (17), a third folded surface (16) and a fourth folded surface (15) which are sequentially connected, wherein a first side folded surface (19) and a second side folded surface (22) are sequentially formed on two opposite sides of the second folded surface (17) in the width direction respectively, and a third side folded surface (33) is formed on two opposite sides of the fourth folded surface (15) in the width direction; first insertion holes (21) are respectively cut at the bending positions between the first side folding surfaces (19) and the second folding surfaces (17) at the two sides; first inserting tongues (23) are formed on one sides, far away from the fourth folding surface (15), of the third folding surfaces (33) on the two sides; the lengths of the first folding surface (18), the second folding surface (17), the third folding surface (16) and the fourth folding surface (15) are equal;

when in molding, the third folding surface (16), the second folding surface (17) and the first folding surface (18) are mutually folded at 90 degrees, and the second side folding surfaces (22) at two opposite sides are respectively folded inwards at 180 degrees and are in contact with the first side folding surface (19); the first side folding surfaces (19) at two sides are folded inwards by 90 degrees; the third side folding surfaces (33) on the two opposite sides are folded upwards by 90 degrees and are in contact with the first side folding surface (19) in a sticking way; the first inserting tongues (23) on two sides are correspondingly inserted into the first inserting holes (21) to form a box body structure (32);

the protective buffer structure (31) comprises a fifth folding surface (14), a sixth folding surface (13), a seventh folding surface (12), an eighth folding surface (11) and a ninth folding surface (10) which are sequentially connected with the folding surface of the fourth folding surface (15); the opposite sides of the fifth folding surface (14), the sixth folding surface (13), the seventh folding surface (12), the eighth folding surface (11) and the ninth folding surface (10) in the width direction are respectively provided with a fourth folding surface (27); the lengths of the fifth folding surface (14), the sixth folding surface (13), the seventh folding surface (12), the eighth folding surface (11) and the ninth folding surface (10) are equal and are all greater than the length of the protective buffer structure (31);

a second insertion hole (25) is formed at the joint between the fifth folding surface (14) and the sixth folding surface (13) in a cutting mode, and second insertion tongues (26) are formed at the joint between the fifth folding surface (14) and the sixth folding surface (13) in a cutting mode and at positions corresponding to the second insertion hole (25); a third inserting tongue (28) is formed at a position, corresponding to the second inserting hole (25), of one side, far away from the eighth folding surface (11), of the ninth folding surface (10), and a third inserting hole (30) is formed in a bent part between the third inserting tongue (28) and the ninth folding surface (10) on two sides in a cutting mode;

when in molding, each fourth folding surface (27) is folded inwards for 180 degrees; the fifth folding surface (14), the sixth folding surface (13), the seventh folding surface (12), the eighth folding surface (11) and the ninth folding surface (10) are folded inwards by 90 degrees around the box body structure (32) in sequence to form a protective buffer structure (31); the third inserting tongue (28) is correspondingly inserted into the second inserting hole (25), and the second inserting tongue (26) is correspondingly inserted into the third inserting hole (30) to form a protective buffering structure (31); buffer spaces (34) are formed between the two opposite sides of the protective buffer structure (31) in the width direction and the box body structure (32).

2. The self-turning bale environment-friendly packaging structure for the fragile wine bottles of claim 1, wherein: an arc-shaped inward folding surface (20) is formed between the first side folding surface (19) at the two sides and the first folding surface (18) in the width direction; an arc-shaped inward folding surface (20) is formed between the first lateral folding surface (19) and the third folding surface (16) on the two sides in the width direction; hollow holes are cut at the axis of each arc-shaped inward-folding surface (20); during forming, after the third folding surface (16), the second folding surface (17) and the first folding surface (18) are mutually folded by 90 degrees, the arc-shaped inner folding surfaces (20) are oppositely folded along the central line to form an inner cavity of the box body structure (32).

3. The self-turning and bundling environment-friendly packaging structure for fragile wine bottles according to claim 1, characterized in that: the fifth folding surface (14) is provided with a handle A (24) in a cutting way; a handle B (29) is formed on one side of the ninth folding surface (10) far away from the eighth folding surface (11) and at a position corresponding to the handle A; when the handle A is formed, the handle A is turned outwards by 180 degrees and then is attached to the handle B to contact with the handle B to form a handle part (35).

4. The self-turning and bundling environment-friendly packaging structure for fragile wine bottles according to claim 1, characterized in that: an abdicating space (36) corresponding to the third inserting tongue (28) is formed between the fifth folding surface (14) and the fourth folding surface (27) of the sixth folding surface (13).

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