CN218344244U - Packaging structure for spinning - Google Patents

Abstract

The utility model provides a spinning packaging structure, which comprises a corrugated paper outer box, wherein a first buffering support piece, a second buffering support piece, a first accessory box, a second accessory box, a third buffering support piece, a third accessory box, a fourth accessory box, a fifth accessory box, a limiting buffering support piece, a fifth buffering support piece, a sixth buffering support piece, a seventh buffering support piece, an eighth buffering support piece and a limiting fixing piece which are formed by folding corrugated paper are arranged in the outer box; the internal structure is compact, and the anti-seismic and anti-falling capability is strong.

Description

Packaging structure for spinning

Technical Field

The utility model relates to a corrugated paper packing carton field especially relates to a packaging structure for spinning.

Background

The packing to the spinning adopts corrugated paper packing box basically, is convenient for transport in order to reduce the whole area of packing box and deposits, generally can place spinning partition, mainly includes bicycle body frame, handle and connects some scattered widgets at bicycle body frame relevant position after the partition. In the prior art, because the shape of the bicycle main frame is irregular, the conventional packaging mode is that the bicycle main frame is arranged in an outer box, a handle and scattered small parts are correspondingly arranged in the outer box by adopting a box, and the rest spaces are filled with foam, so that the anti-falling function is realized; the packaging method has the following defects: is not environment-friendly; the structure is not compact, and the bicycle body frame takes place easily and rocks or the displacement outside the box to the antidetonation is prevented falling the ability weak, can not carry out effectual protection to the product. In view of such circumstances, improvement is urgently required.

SUMMERY OF THE UTILITY MODEL

Based on this, the utility model aims at providing a packaging structure for spinning, inner structure is compact, and the antidetonation is prevented falling the ability reinforce.

The utility model provides a spinning is with packaging structure, including the corrugated paper outer container, be provided with the first buffering support piece, second buffering support piece, first accessory box, second accessory box, third buffering support piece, third accessory box, fourth accessory box, fifth accessory box, spacing buffering support piece, fifth buffering support piece, sixth buffering support piece, seventh buffering support piece, eighth buffering support piece, spacing mounting that are established by the corrugated paper book in the outer container;

the first buffering support piece, the second buffering support piece and the third accessory box are sequentially overlapped from bottom to top and are in contact with the inner wall of one side of the outer box in the width direction;

the other side of the outer box in the width direction is provided with a limiting buffer support piece, one side of the limiting buffer support piece is in contact with the inner side wall and the bottom of the outer box in the width direction; a yielding space A is formed at one side of the lower part of the limiting buffer support piece, which is close to the inner side wall of the outer box in the width direction, and the third buffer support piece is correspondingly embedded in the yielding space A; one side of the limiting buffer support piece, which is close to the third accessory box, is provided with an abdicating space for the insertion of the spinning wheels; a sixth buffering supporting piece is arranged on the upper surface of the limiting buffering supporting piece;

the limit buffer support piece, the sixth buffer support piece, the first buffer support piece, the second buffer support piece and the third accessory box are arranged in an enclosing manner to form a placing space of the spinning main frame;

a second accessory box, a fifth accessory box and a first accessory box which are contacted with the inner side wall of the outer box in the length direction are sequentially arranged between the limiting buffer support piece and the third accessory box; the other sides of the second accessory box, the fifth accessory box and the first accessory box are in contact with one side of the spinning main frame; one side of the second accessory box is in contact with one side of the limiting buffer supporting piece in a pasting mode, and the other side of the second accessory box is in contact with one side of the fifth accessory box in a pasting mode; one side of the first accessory box is respectively attached and contacted with one side of the first buffering supporting piece, one side of the second buffering supporting piece and one side of the third accessory box, and a yielding space of the spinning treading rod is formed between the other side of the first accessory box and the fifth accessory box;

the first accessory box) is provided with a fourth accessory box which is attached to and contacted with one side of the third accessory box; one side surface of the fourth accessory box in the length direction is in contact with the inner side wall of the outer box in an attaching manner, and the other side surface of the fourth accessory box in the length direction is in contact with one side of the spinning main frame;

an eighth buffer support piece and a seventh buffer support piece are sequentially arranged between the sixth buffer support piece and the third accessory box; one side of the eighth buffering supporting piece is abutted and contacted with the upper part of the limiting buffering supporting piece, and the other side of the eighth buffering supporting piece is abutted and contacted with the seventh buffering supporting piece; a headstock embedding space is formed at a position, corresponding to the headstock of the spinning main frame, of the eighth buffer supporting piece; two opposite side surfaces of the eighth buffer support piece are respectively attached to and contacted with the inner walls of two opposite sides of the outer box; a handle abdicating space is formed at one side of the seventh buffering supporting piece, which is close to the fifth accessory box; a limiting fixing piece is arranged in the handle abdicating space; the lower surface of the seventh buffer supporting piece is in contact with the upper surfaces of the fifth accessory box and the fourth accessory box;

a fifth buffer support piece embedding space is formed by enclosing the fourth accessory box, the third accessory box and the inner side wall of the outer box, and a fifth buffer support piece is arranged in the fifth buffer support piece embedding space; a lower surface of the fifth buffer support is in contact with a desired surface of the fourth accessory box; one side surface of the fifth buffer supporting piece is attached and contacted with one side surface of the third accessory box.

Preferably, an upper surface of a side of the seventh cushion support, which is close to the eighth cushion support, is provided with a first tubular filling support.

As preferred scheme, the relative both sides that the outer container is located opening part width direction all are provided with the L shape angle bead spare that corresponds with the outer container case lid.

As a preferred scheme, a tubular packing support piece abdicating groove is formed in the middle of the lower surface of the sixth buffering support piece, a second tubular packing support piece is arranged in the tubular packing support piece abdicating groove, and the lower surface of the tubular packing support piece abdicating groove is in contact with the upper surface of the limiting buffering support piece.

Preferably, the seventh buffering supporting part comprises a first folded surface a, a second folded surface a, a third folded surface a, a fourth folded surface a, a fifth folded surface a, a sixth folded surface a, a seventh folded surface a and an eighth folded surface a which are formed by paper; the sixth folding surface A and the fourth folding surface A are folded at the same side; the third folding surface A is folded towards one side far away from the sixth folding surface A; the second folding surface A is folded towards one side of the fifth folding surface A; the first folding surface A is folded towards one side of the sixth folding surface A; the seventh folding surface A is folded towards one side far away from the fourth folding surface A; the eighth folding surface A is folded towards one side of the fifth folding surface A; the fourth folding surface A, the fifth folding surface A and the sixth folding surface A enclose to form a handle abdicating space; the sixth folding surface A and the fourth folding surface A are both cut to form outward turning buffer lugs;

the limiting fixing piece comprises a first folded surface B, a second folded surface B, a third folded surface B, a fourth folded surface B, a fifth folded surface B and a sixth folded surface B which are formed by paper; the first folding surface B is attached to and folded with the fourth folding surface B, and the third folding surface B is attached to and folded with the sixth folding surface B; the first folding face B, the fourth folding face B, the second folding face B, the third folding face B and the fifth folding face B are folded at the same side for 90 degrees and are enclosed to form a middle embedded space of the handle.

Preferably, the eighth buffer supporting member includes a first folded surface C, a second folded surface C, a third folded surface C, a fourth folded surface C, and a fifth folded surface C formed by paper; the second folding surface C, the third folding surface C, the fourth folding surface C and the fifth folding surface C are folded in the same direction by 90 degrees; the length of the fourth folding surface C is equal to that of the third folding surface C; the length of the fourth folded surface C is smaller than that of the second folded surface C; the length of the fifth folding surface C is less than that of the fourth folding surface C; a sixth folding surface C is integrally formed on two opposite sides of the fifth folding surface C in the width direction; a first rectangular buffer box body is integrally formed on the lower part, away from the fifth folding surface C, of the second folding surface C and the lower part, away from the fifth folding surface C, of the third folding surface C;

the rectangular buffer box body comprises a seventh folded surface C, an eighth folded surface C, a ninth folded surface C and a tenth folded surface C which are connected in sequence; the seventh folding surfaces C on the two sides are respectively connected with the third folding surface C and the second folding surface C; the opposite two sides of the eighth folding surface C in the width direction are respectively connected with an eleventh folding surface C and a twelfth folding surface C; a thirteenth folding surface C is connected to one side, far away from the eighth folding surface C, of the twelfth folding surface C; tongue plates are connected to two opposite sides of the twelfth folding surface C in the width direction and the eleventh folding surface C in the width direction.

Preferably, the fifth buffer supporting member includes a first folding surface D, a second folding surface D, a third folding surface D, a fourth folding surface D, a fifth folding surface D, and a sixth folding surface D, which are integrally formed, the length of the fourth folding surface D is smaller than that of the third folding surface D, and a seventh folding surface D is cut on a side of the fifth folding surface D, which is close to the fourth folding surface D; the third folding surface D, the fourth folding surface D, the fifth folding surface D and the sixth folding surface D are sequentially folded inwards by 90 degrees, the second folding surface D is folded by 90 degrees with the sixth folding surface D and then is contacted with the sixth folding surface D in a pasting manner, and the first folding surface D is folded by 90 degrees and then is contacted with the fifth folding surface D in a pasting manner; the seventh folding surface D is folded towards one side of the third folding surface D by 90 degrees;

one side of the third folding surface D, which is far away from the seventh folding surface D, is connected with a buffering supporting box body; the buffering supporting box body comprises an eighth folding surface D and a ninth folding surface D which are sequentially connected, wherein the opposite two sides of the ninth folding surface D in the width direction are both connected with tenth folding surfaces D, one side of each of the tenth folding surfaces D, which is far away from the ninth folding surface D, is connected with an eleventh folding surface D, and one side of each of the tenth folding surfaces D, which is close to the eighth folding surface D, is connected with a twelfth folding surface D;

the eighth folding surface D is folded towards one side of the fifth folding surface D by 90 degrees, and the ninth folding surface D is folded towards one side of the seventh folding surface D; the tenth folding surfaces D on the two sides are respectively folded towards one sides of the second folding surface D and the fourth folding surface D; the eleventh folding surfaces D on the two sides are folded oppositely; the twelfth folding surfaces D on the two sides are folded oppositely and contacted with the eighth folding surfaces D in a sticking way.

Preferably, the fifth accessory box comprises a first folded surface E, a second folded surface E, a third folded surface E, a fourth folded surface E, a fifth folded surface E, a sixth folded surface E, a seventh folded surface E, and an eighth folded surface E which are integrally formed;

the second folded surface E and the eighth folded surface E are respectively formed on two opposite sides of the first folded surface E in the width direction; the sixth folding surface E and the fourth folding surface E are respectively formed on two opposite sides of the first folding surface E in the length direction;

the fifth folding surface E is formed on one side, far away from the first folding surface E, of the fourth folding surface E;

the third folding surface E is formed on one side, far away from the first folding surface E, of the second folding surface E;

the seventh folding surface E is formed on one side, far away from the first folding surface E, of the sixth folding surface E;

a ninth folding surface E is formed on one side, far away from the first folding surface E, of the eighth folding surface E; a tenth folding surface E is formed on one side, far away from the eighth folding surface E, of the ninth folding surface E; an eleventh folding surface E is formed on one side, far away from the ninth folding surface E, of the tenth folding surface E; a twelfth folding surface E, a thirteenth folding surface E and a fourteenth folding surface E are sequentially formed on one side of the tenth folding surface E, which is close to the sixth folding surface E;

the second folding surface E, the fourth folding surface E, the sixth folding surface E and the eighth folding surface E are folded at the same side 90; the third folding surface E, the fifth folding surface E, the seventh folding surface E and the ninth folding surface E are oppositely folded by 90 degrees; two opposite sides of the third folding surface E and the ninth folding surface E in the width direction are respectively provided with a tongue plate which is respectively abutted against the fourth folding surface E and the sixth folding surface E; the tenth folding surface E is folded towards one side of the first folding surface E by 90 degrees; the eleventh folding surface E is folded by 90 degrees towards one side of the eighth folding surface E and is in contact with the first folding surface E;

the twelfth folding surface E is folded towards one side of the second folding surface E; the thirteenth folding surface E is folded towards one side of the sixth folding surface E; the fourteenth folding surface E is folded towards one side of the eighth folding surface E;

the sum of the lengths of the fifth folding surface E and the seventh folding surface E in the width direction is less than the length of the first folding surface E in the width direction; the sum of the lengths of the third folding surface E and the ninth folding surface E in the width direction is less than the length of the first folding surface E in the length direction;

and the second folded surface E, the fourth folded surface E, the tenth folded surface E and the sixth folded surface E enclose to form an accessory containing space.

Preferably, the limiting buffer supporting part is formed by a first folded surface F, a second folded surface F, a third folded surface F, a fourth folded surface F and a fifth folded surface F which are formed by paper; a sixth folding surface F is formed in the width direction of the second folding surface F in one step; a seventh folding surface F is formed in the width direction of the fourth folding surface F and on the same side as the sixth folding surface F; an eighth folded surface F is formed in the width direction of the third year folded surface F and on the same side as the seventh folded surface F; a ninth folding surface F and a tenth folding surface F are sequentially formed on one side, close to the seventh folding surface F, of the eighth folding surface F;

the first folding face F and the fifth folding face F are divided into four folding faces through three folding lines, and the four folding faces are sequentially folded at 90 degrees;

the second folding surface F and the fourth folding surface F are folded in the same direction by 90 degrees;

the eighth folding surface F is folded towards one side of the second folding surface F by 90 degrees; the sixth folding surface F and the seventh folding surface F are folded towards one side of the eighth folding surface F by 90 degrees; the ninth folding surface F is folded towards one side of the eighth folding surface F and is respectively contacted with the sixth folding surface F and the seventh folding surface F; the tenth folding surface F is folded towards one side of the eighth folding surface F and is in contact with the eighth folding surface F in a sticking way;

the second folded surface F, the third folded surface F, the fourth folded surface F and the ninth folded surface F are encircled to form an abdicating space for inserting the spinning wheels;

and the second folded surface F, the third folded surface F and the fourth folded surface F are far away from one side of the eighth folded surface F, and a yielding space A is formed by cutting.

The utility model has the advantages that: by arranging the first buffering support piece, the second buffering support piece, the first accessory box, the second accessory box, the third buffering support piece, the third accessory box, the fourth accessory box, the fifth accessory box, the limiting buffering support piece, the fifth buffering support piece, the sixth buffering support piece, the seventh buffering support piece, the eighth buffering support piece and the limiting fixing piece in the outer box, all parts of the spinning bicycle are tightly arranged in the outer box, so that the product is effectively prevented from shaking in the box, the inner structure is compact, and the anti-seismic and anti-falling capability is strong; the full corrugated paper structure, green is very environmental protection.

Drawings

Fig. 1 is a perspective view of the present invention in a disassembled state.

Fig. 2 is a partial view of a product disposed within an outer box.

FIG. 3 is a second partial view of a product disposed within the outer carton.

FIG. 4 is a partial view three of the product disposed within the outer carton.

FIG. 5 is a perspective view and an expanded contrast view of a seventh cushioning support member.

Fig. 6 is a perspective view and an expanded contrast view of the spacing fixing member.

FIG. 7 is a perspective view and an expanded contrast view of the eighth cushioning support member.

FIG. 8 is a perspective view and an expanded contrast view of a fifth cushioning support member.

Fig. 9 is a perspective view and an expanded contrast view of the fifth accessory case.

FIG. 10 is a perspective view and an expanded contrast view of a positive stop cushioning support.

The reference signs are: the motorcycle luggage compartment comprises an outer box 10, a first buffer support 11, a second buffer support 12, a first accessory box 13, a second accessory box 15, a third buffer support 14, a third accessory box 17, a fourth accessory box 18, a fifth accessory box 19, a limiting buffer support 16, a fifth buffer support 21, a sixth buffer support 20, a seventh buffer support 24, an eighth buffer support 23, a limiting fixing 22, a first tubular filling support 25, an L-shaped corner protector 26, a motorcycle main frame 27, a handle 28, a second tubular filling support 29, a handle abdicating space 30, a first folding surface A31, a second folding surface A32, a third folding surface A33, a fourth folding surface A34, a fifth folding surface A35, a sixth folding surface A36, a seventh folding surface A37, an eighth folding surface A38, an everting buffer bump 39, a first folding surface B40, a rectangular folding surface B41, a third folding surface B42, a fourth folding surface B43, a fifth folding surface B44, a sixth folding surface B45, a sixth folding surface B46, a first folding buffer box 46, a buffer support 20, a sixth folding surface B44, a fourth folding surface B44, a third folding surface B a thirteenth folded surface C47, a first folded surface C51, a second folded surface C49, a third folded surface C48, a fourth folded surface C52, a fifth folded surface C50, a sixth folded surface C53, a seventh folded surface C54, an eighth folded surface C59, a ninth folded surface C58, a tenth folded surface C57, a tongue plate 55, an eleventh folded surface C56, a twelfth folded surface C60, a first folded surface D61, a second folded surface D62, a third folded surface D63, a fourth folded surface D64, a fifth folded surface D65, a sixth folded surface D66, a tenth folded surface D67, a a ninth fold face D69, an eleventh fold face D70, an eighth fold face D68, a seventh fold face D71, a twelfth fold face D72, a first fold face E75, a second fold face E74, a third fold face E73, a fourth fold face E77, a fifth fold face E76, an eighth fold face E78, an accessory storage space 79, a tenth fold face E80, an eleventh fold face E81, a ninth fold face E82, a twelfth fold face E83, a thirteenth fold face E86, a fourteenth fold face E87, a sixth fold face E85, a thirteenth fold face E81, a ninth fold face E82, a twelfth fold face E83, a thirteenth fold face E86, a fourteenth fold face E87, A seventh folding surface E84, a first folding surface F88, a second folding surface F89, a third folding surface F90, a fourth folding surface F91, a fifth folding surface F92, a sixth folding surface F93, an eighth folding surface F94, a seventh folding surface F95, a ninth folding surface F96, a tenth folding surface F97, a abdicating space 98 and an abdicating space A99.

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 skilled in the art.

Referring to fig. 1-10, the present invention provides a packaging structure for a spinning, including a corrugated paper outer box 10, in which a first buffering supporting member 11, a second buffering supporting member 12, a first fitting box 13, a second fitting box 15, a third buffering supporting member 14, a third fitting box 17, a fourth fitting box 18, a fifth fitting box 19, a limiting buffering supporting member 16, a fifth buffering supporting member 21, a sixth buffering supporting member 20, a seventh buffering supporting member 24, an eighth buffering supporting member 23, and a limiting fixing member 22 are arranged, which are formed by folding corrugated paper;

the first buffer support piece 11, the second buffer support piece 12 and the third accessory box 17 are sequentially stacked from bottom to top and are in contact with the inner wall of one side of the outer box 10 in the width direction;

the other side of the outer box 10 in the width direction is provided with a limiting buffer support piece 16, one side of which is in contact with the inner side wall of the outer box 10 in the width direction and the bottom in a pasting manner; an abdicating space A is formed at one side of the lower part of the limiting buffer support piece 16 close to the inner side wall in the width direction of the outer box 10, and the third buffer support piece 14 is correspondingly embedded in the abdicating space A; an abdicating space 98 for inserting the spinning wheels is formed at one side of the limiting buffer support piece 16 close to the third accessory box 17; a sixth buffer supporting part 20 is arranged on the upper surface of the limiting buffer supporting part 16;

a spacing buffer support part 16, a sixth buffer support part 20, a first buffer support part 11, a second buffer support part 12 and a third accessory box 17 are arranged in an enclosing manner to form a placing space of the spinning main frame 27;

a second accessory box 15, a fifth accessory box 19 and a first accessory box 13 which are in contact with the inner side wall of the outer box 10 in the length direction are sequentially arranged between the limiting buffer support piece 16 and the third accessory box 17; the other sides of the second accessory box 15, the fifth accessory box 19 and the first accessory box 13 are in contact with one side of the spinning main frame; one side of the second accessory box 15 is in contact with one side of the limiting buffer supporting piece 16, and the other side of the second accessory box 15 is in contact with one side of the fifth accessory box 19; one side of the first accessory box 13 is respectively attached and contacted with one side of the first buffer support piece 11, one side of the second buffer support piece 12 and one side of the third accessory box 17, and a yielding space of the spinning treading rod is formed between the other side of the first accessory box 13 and the fifth accessory box 19;

a fourth component box 18 which is in contact with one side of the third component box 17 is arranged on the upper surface of the first component box 13; one side surface of the fourth accessory box 18 in the length direction is in contact with the inner side wall of the outer box 10 in a sticking manner, and the other side surface of the fourth accessory box 18 in the length direction is in contact with one side of the spinning main frame;

an eighth buffer support 23 and a seventh buffer support 24 are sequentially arranged between the sixth buffer support 20 and the third fitting box 17; one side of the eighth buffering supporting piece 23 is in contact with the upper part of the limiting buffering supporting piece 16 in an abutting mode, and the other side of the eighth buffering supporting piece 23 is in contact with the seventh buffering supporting piece 24 in an abutting mode; a headstock embedding space is formed at the position of the eighth buffer support piece 23 corresponding to the headstock of the spinning main frame; the opposite two side surfaces of the eighth buffer support 23 are respectively contacted with the inner walls of the opposite two sides of the outer box 10; a handle avoiding space 30 is formed at one side of the seventh buffer supporting piece 24 close to the fifth accessory box 19; the handle abdicating space 30 is internally provided with a limiting fixing piece 22; the lower surface of the seventh buffer support 24 is in abutting contact with the upper surfaces of the fifth component case 19 and the fourth component case 18;

a fifth buffer support embedded space is formed by enclosing the fourth accessory box 18, the third accessory box 17 and the inner side wall of the outer box 10, and a fifth buffer support 21 is arranged in the fifth buffer support embedded space; the lower surface of the fifth buffer support 21 is in contact with the desired surface of the fourth accessory box 18; one side surface of the fifth buffer support 21 is in abutting contact with one side surface of the third component case 17.

The upper surface of the seventh buffer support 24 on the side close to the eighth buffer support 23 is provided with a first tubular filling support 25, so that the compactness of the embodiment is improved, and the internal shaking is further enhanced.

The relative both sides that outer container 10 is located opening part width direction all are provided with the L shape angle bead spare 26 that corresponds with outer container 10 case lid, promote the compactness of this embodiment, further strengthen inside emergence and rock.

The middle part of the lower surface of the sixth buffering support member 20 forms a tubular packing support member abdicating groove, a second tubular packing support member 29 is arranged in the tubular packing support member abdicating groove, and the lower surface of the tubular packing support member abdicating groove is in contact with the upper surface of the limiting buffering support member 16, so that the product is better protected.

The seventh buffering supporting part 24 comprises a first folded surface a31, a second folded surface a32, a third folded surface a33, a fourth folded surface a34, a fifth folded surface a35, a sixth folded surface a36, a seventh folded surface a37 and an eighth folded surface a38 which are formed by paper; the sixth folding surface A36 and the fourth folding surface A34 are folded at the same side; the third folding surface A33 is folded towards the side far away from the sixth folding surface A36; the second folding surface A32 is folded towards one side of the fifth folding surface A35; the first folding surface A31 is folded towards one side of the sixth folding surface A36; the seventh folding surface A37 is folded towards one side far away from the fourth folding surface A34; the eighth folding surface A38 is folded towards one side of the fifth folding surface A35; the fourth folding surface A34, the fifth folding surface A35 and the sixth folding surface A36 are arranged to form a handle abdicating space 30 in an enclosing way; the sixth folding surface A36 and the fourth folding surface A34 are both cut to form outward turning buffer convex blocks 39; the limiting fixing piece 22 comprises a first folded surface B40, a second folded surface B41, a third folded surface B42, a fourth folded surface B43, a fifth folded surface B44 and a sixth folded surface B45 which are formed by paper; the first folding surface B40 is attached to and folded with the fourth folding surface B43, and the third folding surface B42 is attached to and folded with the sixth folding surface B45; the first folding surface B40, the fourth folding surface B43, the second folding surface B41, the third folding surface B42 and the fifth folding surface B44 are folded at the same side for 90 degrees to form a middle embedding space of the handle. During the in-service use, place the handle correspondence in handle abdication space 30, and the handle middle part has the protruding department to correspond to imbed in the middle part gomphosis space of hand, realizes protecting handle 28 middle part on the one hand, and on the other hand further promotes antidetonation buffer function.

The eighth buffering supporting member 23 includes a first folded surface C51, a second folded surface C49, a third folded surface C48, a fourth folded surface C52, and a fifth folded surface C50; the second folded surface C49, the third folded surface C48, the fourth folded surface C52 and the fifth folded surface C50 are folded in the same direction by 90 degrees; the length of the fourth folding surface C52 is equal to the length of the third folding surface C48; the length of the fourth folded surface C52 is smaller than that of the second folded surface C49; the length of the fifth folding surface C50 is less than that of the fourth folding surface C52; the two opposite sides of the fifth folding surface C50 in the width direction are integrally formed with a sixth folding surface C53; the first rectangular buffer box body 46 is integrally formed on the lower parts of the second folded surface C49 and the third folded surface C48, which are far away from the fifth folded surface C50; the rectangular buffer box body 46 comprises a seventh folded surface C54, an eighth folded surface C59, a ninth folded surface C58 and a tenth folded surface C57 which are connected in sequence; the seventh folding surfaces C54 on the two sides are respectively connected with the third folding surface C48 and the second folding surface C49; the opposite sides of the eighth folded surface C59 in the width direction are respectively connected with an eleventh folded surface C56 and a twelfth folded surface C60; a thirteenth folding surface C47 is connected to one side of the twelfth folding surface C60, which is far away from the eighth folding surface C59; tongue plates 55 are connected to the opposite sides of the twelfth folding surface C60 and the eleventh folding surface C56 in the width direction.

The fifth buffer supporting piece 21 comprises a first folded surface D61, a second folded surface D62, a third folded surface D63, a fourth folded surface D64, a fifth folded surface D65 and a sixth folded surface D66 which are integrally formed, the length of the fourth folded surface D64 is smaller than that of the third folded surface D63, and a seventh folded surface D71 is cut on one side, close to the fourth folded surface D64, of the fifth folded surface D65; the third folding surface D63, the fourth folding surface D64, the fifth folding surface D65 and the sixth folding surface D66 are sequentially folded inwards by 90 degrees, the second folding surface D62 and the sixth folding surface D66 are folded by 90 degrees and then are in contact with each other, and the first folding surface D6190 degrees is folded and then is in contact with the fifth folding surface D65; the seventh folding surface D71 is folded by 90 degrees toward the third folding surface D63 side.

One side of the third folding surface D63, which is far away from the seventh folding surface D71, is connected with a buffering support box body 70; the buffering supporting box body 70 comprises an eighth folding surface D68 and a ninth folding surface D69 which are sequentially connected, wherein the opposite two sides of the ninth folding surface D69 in the width direction are both connected with tenth folding surfaces D67, one side of each of the tenth folding surfaces D67 far away from the ninth folding surface D69 is both connected with an eleventh folding surface D70, and one side of each of the tenth folding surfaces D67 close to the eighth folding surface D68 is connected with a twelfth folding surface D72.

The eighth folding surface D68 is folded by 90 degrees toward one side of the fifth folding surface D65, and the ninth folding surface D69 is folded toward one side of the seventh folding surface D71; the tenth folding surfaces D67 on the two sides are respectively folded towards one sides of the second folding surface D62 and the fourth folding surface D64; the eleventh folding surfaces D70 on the two sides are respectively folded in opposite directions; the twelfth folding surfaces D72 on the two sides are respectively folded towards each other and are attached and contacted with the eighth folding surface D68.

During the in-service use, fifth buffering support piece 21 cover is established outside the connecting rod of electric bicycle seat lower part, can play better guard action when the emergence is fallen.

The fifth component case 19 includes a first folded surface E75, a second folded surface E74, a third folded surface E73, a fourth folded surface E77, a fifth folded surface E76, a sixth folded surface E85, a seventh folded surface E84, and an eighth folded surface E78 that are integrally formed; the second folding surface E74 and the eighth folding surface E78 are respectively formed on two opposite sides of the first folding surface E75 in the width direction; the sixth folding surface E85 and the fourth folding surface E77 are formed on opposite sides of the first folding surface E75 in the longitudinal direction, respectively.

The fifth folding surface E76 is formed on the side of the fourth folding surface E77 away from the first folding surface E75. The third folding surface E73 is formed on the side of the second folding surface E74 far away from the first folding surface E75; the seventh folding surface E84 is formed on the side of the sixth folding surface E85 away from the first folding surface E75; a ninth folding face E82 is formed on one side, away from the first folding face E75, of the eighth folding face E78; a tenth folding surface E80 is formed on one side, away from the eighth folding surface E78, of the ninth folding surface E82; an eleventh folding surface E81 is formed on one side, away from the ninth folding surface E82, of the tenth folding surface E80; a twelfth folding surface E83, a thirteenth folding surface E86 and a fourteenth folding surface E87 are formed on one side of the tenth folding surface E80 close to the sixth folding surface E85 in sequence; the second folding surface E74, the fourth folding surface E77, the sixth folding surface E85 and the eighth folding surface E78 are folded at the same side 90; the third folding surface E73, the fifth folding surface E76, the seventh folding surface E84 and the ninth folding surface E82 are folded in 90 degrees opposite to each other; two opposite sides of the third folding surface E73 and the ninth folding surface E82 in the width direction are provided with tongue plates which are respectively abutted against the fourth folding surface E77 and the sixth folding surface E85; the tenth folding surface E80 is folded by 90 degrees close to one side of the first folding surface E75; the eleventh folding surface E81 is folded by 90 degrees towards one side of the eighth folding surface E78 and is contacted with the first folding surface E75 in a sticking way; the twelfth folding surface E83 is folded towards one side of the second folding surface E74; the thirteenth folding surface E86 is folded towards one side of the sixth folding surface E85; the fourteenth folding surface E87 is folded toward one side of the eighth folding surface E78; the sum of the lengths of the fifth folding surface E76 and the seventh folding surface E84 in the width direction is less than the length of the first folding surface E75 in the width direction; the sum of the lengths of the third folding surface E73 and the ninth folding surface E82 in the width direction is less than the length of the first folding surface E75 in the length direction; the second fold surface E74, the fourth fold surface E77, the tenth fold surface E80, and the sixth fold surface E85 enclose the accessory housing space 79.

The limiting buffer supporting part 16 is formed by a first folded surface F88, a second folded surface F89, a third folded surface F90, a fourth folded surface F91 and a fifth folded surface F92 which are formed by paper; a sixth fold surface F93 is formed in the second fold surface F89 in the width direction at one time; a seventh folding surface F95 is formed in the width direction of the fourth folding surface F91 and on the same side as the sixth folding surface F93; an eighth folded surface F94 is formed in the width direction of the third year folded surface F90 and on the same side as the seventh folded surface F95; a ninth folding surface F96 and a tenth folding surface F97 are sequentially formed on one side of the eighth folding surface F94 close to the seventh folding surface F95; the first folding surface F88 and the fifth folding surface F92 are divided into four folding surfaces through three folding lines, and the four folding surfaces are sequentially folded at 90 degrees; the second folding surface F89 and the fourth folding surface F91 are folded at 90 degrees in the same direction; the eighth folding surface F94 is folded by 90 degrees towards one side of the second folding surface F89; the sixth folding surface F93 and the seventh folding surface F95 are folded by 90 degrees close to one side of the eighth folding surface F94; the ninth folding surface F96 is folded toward one side of the eighth folding surface F94 and is in contact with the sixth folding surface F93 and the seventh folding surface F95 respectively; the tenth folding surface F97 is folded toward one side of the eighth folding surface F94 and is in contact with the eighth folding surface F94; a abdicating space 98 for inserting the spinning wheels is formed by the second folding surface F89, the third folding surface F90, the fourth folding surface F91 and the ninth folding surface F96 in a surrounding way;

and the sides of the second folded surface F89, the third folded surface F90 and the fourth folded surface F91 far away from the eighth folded surface F94 are cut to form an abdicating space A99.

In this embodiment, through setting up in the outer container again, first buffering support piece, second buffering support piece, first accessory box, second accessory box, third buffering support piece, third accessory box, fourth accessory box, fifth accessory box, spacing buffering support piece, fifth buffering support piece, sixth buffering support piece, seventh buffering support piece, eighth buffering support piece, spacing mounting, closely set up each part of spinning in the outer container, prevent effectively that the product from taking place to rock in the incasement, compact structure, the anti-seismic is prevented falling the ability reinforce, first buffering support piece and third buffering support piece divide and establish in the relative both sides bottom of outer container width direction, protect the bight of outer container better. The utility model discloses full corrugated paper structure, green very environmental protection.

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 (9)

1. The utility model provides a packaging structure for spinning, includes corrugated paper outer container (10), its characterized in that: a first buffer support piece (11), a second buffer support piece (12), a first accessory box (13), a second accessory box (15), a third buffer support piece (14), a third accessory box (17), a fourth accessory box (18), a fifth accessory box (19), a limiting buffer support piece (16), a fifth buffer support piece (21), a sixth buffer support piece (20), a seventh buffer support piece (24), an eighth buffer support piece (23) and a limiting fixing piece (22) which are formed by folding corrugated paper are arranged in the outer box;

the first buffer support piece (11), the second buffer support piece (12) and the third accessory box (17) are sequentially stacked from bottom to top and are in contact with the inner wall of one side of the outer box (10) in the width direction in a sticking manner;

the other side of the outer box (10) in the width direction is provided with a limiting buffer support piece (16) of which one side is in contact with the inner side wall of the outer box (10) in the width direction and the bottom; an abdicating space A is formed at one side of the lower part of the limiting buffer support piece (16), which is close to the inner side wall of the outer box (10) in the width direction, and the third buffer support piece (14) is correspondingly embedded in the abdicating space A; an abdicating space (98) for inserting the wheels of the spinning is formed at one side of the limiting buffer support piece (16) close to the third accessory box (17); a sixth buffer supporting piece (20) is arranged on the upper surface of the limiting buffer supporting piece (16);

the limit buffer support piece (16), the sixth buffer support piece (20), the first buffer support piece (11), the second buffer support piece (12) and the third accessory box (17) are arranged in an enclosing manner to form a placing space of the spinning main frame;

a second accessory box (15), a fifth accessory box (19) and a first accessory box (13) which are in contact with the inner side wall of the outer box (10) in the length direction are sequentially arranged between the limiting buffer supporting piece (16) and the third accessory box (17); the other sides of the second accessory box (15), the fifth accessory box (19) and the first accessory box (13) are in contact with one side of the spinning main frame; one side of the second accessory box (15) is in contact with one side of the limiting buffer supporting piece (16), and the other side of the second accessory box (15) is in contact with one side of the fifth accessory box (19); one side of the first accessory box (13) is respectively attached and contacted with one side of the first buffer support piece (11), one side of the second buffer support piece (12) and one side of the third accessory box (17), and an abdicating space of the dynamic bicycle pedal rod is formed between the other side of the first accessory box (13) and the fifth accessory box (19);

a fourth accessory box (18) which is in contact with one side of the third accessory box (17) is arranged on the upper surface of the first accessory box (13); one side surface of the fourth accessory box (18) in the length direction is in contact with the inner side wall of the outer box (10) in a sticking manner, and the other side surface of the fourth accessory box (18) in the length direction is in contact with one side of the spinning main frame;

an eighth buffer supporting piece (23) and a seventh buffer supporting piece (24) are sequentially arranged between the sixth buffer supporting piece (20) and the third accessory box (17); one side of the eighth buffering supporting piece (23) is in abutting contact with the upper part of the limiting buffering supporting piece (16), and the other side of the eighth buffering supporting piece (23) is in abutting contact with the seventh buffering supporting piece (24); a bicycle head embedding space is formed at the position, corresponding to the bicycle head of the spinning main frame, of the eighth buffer supporting piece (23); two opposite side surfaces of the eighth buffer support (23) are respectively attached to and contacted with the inner walls of two opposite sides of the outer box (10); a handle yielding space (30) is formed at one side, close to the fifth accessory box (19), of the seventh buffer supporting piece (24); a limiting fixing piece (22) is arranged in the handle abdicating space (30); the lower surface of the seventh buffer support (24) is in contact with the upper surfaces of the fifth accessory box (19) and the fourth accessory box (18);

a fifth buffer support piece embedding space is formed by enclosing the fourth accessory box (18), the third accessory box (17) and the inner side wall of the outer box (10), and a fifth buffer support piece (21) is arranged in the fifth buffer support piece embedding space; a lower surface of the fifth cushion support (21) is in contact with a desired surface of the fourth accessory box (18); one side surface of the fifth buffer supporting piece (21) is attached and contacted with one side surface of the third accessory box (17).

2. The packaging structure for spinning according to claim 1, wherein: the upper surface of one side of the seventh buffer support (24) close to the eighth buffer support (23) is provided with a first tubular filling support (25).

3. The packaging structure for spinning according to claim 1, wherein: l-shaped corner protecting pieces (26) corresponding to the box covers of the outer box (10) are arranged on two opposite sides of the outer box (10) in the width direction of the opening.

4. The packaging structure for spinning according to claim 1, wherein: the middle part of the lower surface of the sixth buffering supporting piece (20) forms a tubular packing supporting piece yielding groove, a second tubular packing supporting piece (29) is arranged in the tubular packing supporting piece yielding groove, and the lower surface of the tubular packing supporting piece yielding groove is in contact with the upper surface of the limiting buffering supporting piece (16).

5. The packaging structure for spinning according to claim 1, wherein: the seventh buffer supporting piece (24) comprises a first folded surface A (31), a second folded surface A (32), a third folded surface A (33), a fourth folded surface A (34), a fifth folded surface A (35), a sixth folded surface A (36), a seventh folded surface A (37) and an eighth folded surface A (38) which are formed by paper; the sixth folding surface A (36) and the fourth folding surface A (34) are folded at the same side; the third folding surface A (33) is folded towards one side far away from the sixth folding surface A (36); the second folding surface A (32) is folded towards one side of the fifth folding surface A (35); the first folding surface A (31) is folded close to one side of the sixth folding surface A (36); the seventh folding surface A (37) is folded towards one side far away from the fourth folding surface A (34); the eighth folding surface A (38) is folded towards one side of the fifth folding surface A (35); the fourth folding surface A (34), the fifth folding surface A (35) and the sixth folding surface A (36) enclose to form a handle abdicating space (30); the sixth folding surface A (36) and the fourth folding surface A (34) are both cut to form outward turning buffer lugs (39);

the limiting and fixing part (22) comprises a first folding surface B (40), a second folding surface B (41), a third folding surface B (42), a fourth folding surface B (43), a fifth folding surface B (44) and a sixth folding surface B (45) which are formed by paper; the first folding surface B (40) and the fourth folding surface B (43) are attached and folded, and the third folding surface B (42) and the sixth folding surface B (45) are attached and folded; the handle is characterized in that the first folding surface B (40), the fourth folding surface B (43), the second folding surface B (41), the third folding surface B (42) and the fifth folding surface B (44) are folded at the same side for 90 degrees and are enclosed to form a handle middle embedding space.

6. The packaging structure for spinning according to claim 1, wherein: the eighth buffer supporting piece (23) comprises a first folding surface C (51), a second folding surface C (49), a third folding surface C (48), a fourth folding surface C (52) and a fifth folding surface C (50) which are formed by paper; the second folding surface C (49), the third folding surface C (48), the fourth folding surface C (52) and the fifth folding surface C (50) are folded in the same direction for 90 degrees; the length of the fourth folding surface C (52) is equal to the length of the third folding surface C (48); the length of the fourth fold plane C (52) is less than the length of the second fold plane C (49); the length of the fifth folding surface C (50) is less than that of the fourth folding surface C (52); a sixth folding surface C (53) is integrally formed on two opposite sides of the fifth folding surface C (50) in the width direction; a first rectangular buffer box body (46) is integrally formed on the lower part, away from the fifth folding surface C (50), of the second folding surface C (49) and the third folding surface C (48);

the rectangular buffer box body (46) comprises a seventh folding surface C (54), an eighth folding surface C (59), a ninth folding surface C (58) and a tenth folding surface C (57) which are connected in sequence; the seventh folding surfaces C (54) on two sides are respectively connected with the third folding surface C (48) and the second folding surface C (49); the opposite two sides of the eighth folding surface C (59) in the width direction are respectively connected with an eleventh folding surface C (56) and a twelfth folding surface C (60); a thirteenth folding surface C (47) is connected to one side, far away from the eighth folding surface C (59), of the twelfth folding surface C (60); tongue plates (55) are connected to two opposite sides of the twelfth folding surface C (60) and the eleventh folding surface C (56) in the width direction.

7. The packaging structure for spinning according to claim 1, wherein: the fifth buffer supporting piece (21) comprises a first folding surface D (61), a second folding surface D (62), a third folding surface D (63), a fourth folding surface D (64), a fifth folding surface D (65) and a sixth folding surface D (66) which are integrally formed, the length of the fourth folding surface D (64) is smaller than that of the third folding surface D (63), and a seventh folding surface D (71) is cut at one side, close to the fourth folding surface D (64), of the fifth folding surface D (65); the third folding surface D (63), the fourth folding surface D (64), the fifth folding surface D (65) and the sixth folding surface D (66) are folded inwards by 90 degrees in sequence, the second folding surface D (62) is folded by 90 degrees with the sixth folding surface D (66) and then is contacted with the sixth folding surface D (65), and the first folding surface D (61) is folded by 90 degrees and then is contacted with the fifth folding surface D (65); the seventh folding surface D (71) is folded by 90 degrees towards one side of the third folding surface D (63);

one side of the third folding surface D (63) far away from the seventh folding surface D (71) is connected with a buffer supporting box body (70); the buffer supporting box body (70) comprises an eighth folding surface D (68) and a ninth folding surface D (69) which are sequentially connected, wherein the opposite two sides of the ninth folding surface D (69) in the width direction are both connected with tenth folding surfaces D (67), one sides of the tenth folding surfaces D (67) at the two sides, which are far away from the ninth folding surface D (69), are both connected with eleventh folding surfaces D (70), and one sides of the tenth folding surfaces D (67) at the two sides, which are close to the eighth folding surface D (68), are connected with twelfth folding surfaces D (72);

the eighth folding surface D (68) is folded by 90 degrees close to one side of the fifth folding surface D (65), and the ninth folding surface D (69) is folded close to one side of the seventh folding surface D (71); the tenth folding surfaces D (67) on the two sides are respectively folded towards one sides of the second folding surface D (62) and the fourth folding surface D (64); the eleventh folding surfaces D (70) at the two sides are respectively folded in opposite directions; the twelfth folding surfaces D (72) on the two sides are respectively folded towards each other and are attached and contacted with the eighth folding surfaces D (68).

8. The packaging structure for spinning according to claim 1, wherein: the fifth accessory box (19) comprises a first folding surface E (75), a second folding surface E (74), a third folding surface E (73), a fourth folding surface E (77), a fifth folding surface E (76), a sixth folding surface E (85), a seventh folding surface E (84) and an eighth folding surface E (78) which are integrally formed;

the second folded surface E (74) and the eighth folded surface E (78) are respectively formed on two opposite sides of the first folded surface E (75) in the width direction; the sixth folding surface E (85) and the fourth folding surface E (77) are respectively formed on two opposite sides of the first folding surface E (75) in the length direction;

the fifth folding surface E (76) is formed on one side of the fourth folding surface E (77) far away from the first folding surface E (75);

the third folding surface E (73) is formed on one side of the second folding surface E (74) far away from the first folding surface E (75);

the seventh folding surface E (84) is formed on one side of the sixth folding surface E (85) far away from the first folding surface E (75);

a ninth folding surface E (82) is formed on one side, away from the first folding surface E (75), of the eighth folding surface E (78); a tenth folding surface E (80) is formed on one side, away from the eighth folding surface E (78), of the ninth folding surface E (82); an eleventh folding surface E (81) is formed on one side, away from the ninth folding surface E (82), of the tenth folding surface E (80); a twelfth folding surface E (83), a thirteenth folding surface E (86) and a fourteenth folding surface E (87) are formed on one side of the tenth folding surface E (80) close to the sixth folding surface E (85) in sequence;

the second folding surface E (74), the fourth folding surface E (77), the sixth folding surface E (85) and the eighth folding surface E (78) are folded at the same side 90; the third folding surface E (73), the fifth folding surface E (76), the seventh folding surface E (84) and the ninth folding surface E (82) are folded in opposite directions by 90 degrees; two opposite sides of the third folding surface E (73) and the ninth folding surface E (82) in the width direction are respectively provided with a tongue plate which is respectively abutted against the fourth folding surface E (77) and the sixth folding surface E (85); the tenth folding surface E (80) is folded by 90 degrees towards one side of the first folding surface E (75); the eleventh folding surface E (81) is folded by 90 degrees towards one side of the eighth folding surface E (78) and is in contact with the first folding surface E (75);

the twelfth folding surface E (83) is folded close to one side of the second folding surface E (74); the thirteenth folding surface E (86) is folded close to one side of the sixth folding surface E (85); the fourteenth folding surface E (87) is folded close to one side of the eighth folding surface E (78);

the sum of the lengths of the fifth folding surface E (76) and the seventh folding surface E (84) in the width direction is less than the length of the first folding surface E (75) in the width direction; the sum of the lengths of the third folding surface E (73) and the ninth folding surface E (82) in the width direction is less than the length of the first folding surface E (75) in the length direction;

and the second folding surface E (74), the fourth folding surface E (77), the tenth folding surface E (80) and the sixth folding surface E (85) enclose to form an accessory accommodating space (79).

9. The packaging structure for spinning according to claim 1, wherein: the limiting buffer supporting piece (16) is formed by a first folding surface F (88), a second folding surface F (89), a third folding surface F (90), a fourth folding surface F (91) and a fifth folding surface F (92) which are formed by paper; a sixth fold surface F (93) is formed in the second fold surface F (89) in the width direction in one step; a seventh folding surface F (95) is formed on the same side of the fourth folding surface F (91) in the width direction as the sixth folding surface F (93); an eighth folding surface F (94) is formed in the width direction of the third year folding surface F (90) and on the same side as the seventh folding surface F (95); a ninth folding surface F (96) and a tenth folding surface F (97) are sequentially formed on one side, close to the seventh folding surface F (95), of the eighth folding surface F (94);

the first folding face F (88) and the fifth folding face F (92) are divided into four folding faces through three folding lines, and the four folding faces are sequentially folded at 90 degrees;

the second folding surface F (89) and the fourth folding surface F (91) are folded in the same direction by 90 degrees;

the eighth folding surface F (94) is folded by 90 degrees close to one side of the second folding surface F (89); the sixth folding surface F (93) and the seventh folding surface F (95) are folded by 90 degrees towards one side of the eighth folding surface F (94); the ninth folding surface F (96) is folded close to one side of the eighth folding surface F (94) and is respectively contacted with the sixth folding surface F (93) and the seventh folding surface F (95); the tenth folding surface F (97) is folded close to one side of the eighth folding surface F (94) and is in contact with the eighth folding surface F (94);

the second folded surface F (89), the third folded surface F (90), the fourth folded surface F (91) and the ninth folded surface F (96) are encircled to form an abdicating space (98) for inserting the spinning wheels;

the second folded surface F (89), the third folded surface F (90) and the fourth folded surface F (91) are far away from one side of the eighth folded surface F (94) is cut to form a yielding space A (99).

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