CN218056377U - Buffering packaging structure - Google Patents

Abstract

The utility model provides a buffer packaging structure, which comprises an upper support, a lower support, an upper support card structure, a lower support card structure, a bottom support card structure, a first accessory box body, a second accessory box body, a third accessory box body and a rectangular filling card A; the upper support and the lower support are identical in structure, and the inner cavities of the upper support and the lower support are divided into a first object placing space and a second object placing space through a rectangular filling card B; the upper support is reversely covered on the upper surface of the lower support, the upper and lower first object placing spaces form a product placing cavity, and the upper and lower second object placing spaces form an accessory placing cavity; the utility model has the advantages that: has good shock-proof buffer function.

Description

Buffering packaging structure

Technical Field

The utility model relates to a corrugated paper packing technical field especially relates to a buffering packaging structure.

Background

Corrugated paper for corrugated packaging is a plate-like object formed by bonding liner paper and corrugated paper formed by processing with a corrugating roller, and is generally divided into two types, i.e., single corrugated paper board and double corrugated paper board, and is divided into five types, i.e., A, B, C, E and F, according to the size of the corrugations. In the field of packaging, corrugated paper packaging has good environmental protection performance, and has good shock-resistant buffer function when being folded for transportation, so the corrugated paper packaging is becoming the main force of product packaging in the market. Among the prior art, in order to strengthen the holistic antidetonation cushion nature of packing, generally can set up other antidetonation mechanisms in the outer box and assist, for example add spring or some plastic slabs etc. can complicate the internal structure of packing on the one hand like this, and on the other hand has increased the whole weight of packing to unusual environmental protection not, difficult recovery, also be convenient for transport. In view of such circumstances, improvement is urgently required.

SUMMERY OF THE UTILITY MODEL

Based on this, the utility model aims at providing a buffering packaging structure has good antidetonation buffer function.

A buffer packaging structure comprises an upper support, a lower support, an upper support clamping structure, a lower support clamping structure, a bottom support clamping structure, a first accessory box body, a second accessory box body, a third accessory box body and a rectangular filling card A;

the upper support and the lower support have the same structure, and the inner cavities of the upper support and the lower support are divided into a first object placing space and a second object placing space through a rectangular filling card B; the upper support is reversely covered on the upper surface of the lower support, the upper first object containing space and the lower first object containing space form a product placing cavity, and the upper second object containing space and the lower second object containing space form an accessory placing cavity;

the bottom support clamp structure is correspondingly arranged in the first object placing space of the lower support;

the lower supporting card structure is arranged in the product placing cavity and on the other side opposite to the rectangular filling card B, the upper surface of the lower supporting card structure is in contact with the top wall of the inner cavity of the upper support in an attaching manner, and the lower surface of the lower supporting card structure is in contact with the upper surface of the bottom supporting card structure in an attaching manner;

the upper supporting card structure is arranged in the product placing cavity and on the other side opposite to the lower supporting card structure, and the upper surface of the upper supporting card structure is in contact with the top wall of the inner cavity of the upper support;

the first accessory box body is arranged on one side in the accessory placing cavity, the upper surface of the first accessory box body is in contact with the top wall of the inner cavity of the upper support in a sticking manner, and the lower surface of the first accessory box body is in contact with the bottom wall of the inner cavity of the lower support in a sticking manner; one side surface of the first accessory box body is respectively attached and contacted with the inner side walls of the upper support and the lower support;

the second accessory box body and the third accessory box body are arranged on the other side of the accessory placing cavity in parallel, and one side surfaces of the second accessory box body and the third accessory box body are in contact with the side surface of the first accessory box body in an attached mode; the other side surfaces of the second accessory box body and the third accessory box body are respectively contacted with the inner side walls of the upper support and the lower support in a sticking way;

the rectangular filling card A is arranged on the upper surfaces of the second accessory box body and the third accessory box body, and the upper surface of the rectangular filling card A is in contact with the top wall of the inner cavity of the upper support in a pasting mode.

Further, the lower supporting clamp structure comprises an integrally formed main folding face A, the main folding face A forms a first buffering portion through four folding faces connected in sequence along one side of the length direction of the main folding face A, the main folding face A forms a second buffering portion through five folding faces connected in sequence along the other side of the length direction of the main folding face A, and the main folding face A forms a third buffering portion through four folding faces along the two opposite sides of the width direction of the main folding face A.

Further, the bottom supporting clamp structure comprises a main folding surface B and a reinforcing folding surface, wherein a fourth buffering part is formed on two opposite sides of the main folding surface B along the length direction of the main folding surface B through four folding surfaces which are sequentially connected, three folding surfaces are formed in the main folding surface B by cutting along one side of the main folding surface B along the width direction of the main folding surface B, a fifth buffering part is formed by sequentially folding the three folding surfaces, and three folding surfaces are formed in the main folding surface B by cutting on one side far away from the fifth buffering part and sequentially folding the three folding surfaces to form a sixth buffering part; three clamping surfaces which are vertically turned up at 90 degrees and respectively form a vertical relation with the fifth buffering part and the sixth buffering part are formed in the main folding surface B and between the fifth buffering part and the sixth buffering part through cutting, and each clamping surface is provided with a clamping groove A along the length direction; the reinforcing folding surfaces are folded to form a U shape and are arranged on the upper surfaces of the three clamping surfaces in a crossing manner, and a plurality of clamping grooves B matched with the clamping grooves A are formed in the two opposite side surfaces of the reinforcing folding surfaces along the length direction; one side surface of the reinforcing folding surface is in contact with one side surface of the fifth buffer part in a sticking manner; the other side surface of the reinforcing folding surface is in contact with one side surface of the sixth buffering part; the reinforced folding surface, the clamping surface, the fifth buffering part and the sixth buffering part form a padding buffer assembly.

Furthermore, the upper support clamping structure comprises an upper support buffering part, a lower support buffering part and three inclined abutting parts;

the upper supporting buffer part comprises a first folded surface, a second folded surface, a third folded surface and a fourth folded surface which are integrally formed, the widths of the first folded surface and the fourth folded surface are the same, and the widths of the second folded surface and the third folded surface are the same and are both larger than the widths of the first folded surface and the second folded surface;

the lower supporting buffer part comprises a fifth folded surface, a sixth folded surface, a seventh folded surface and an eighth folded surface which are integrally formed, the widths of the fifth folded surface, the eighth folded surface and the sixth folded surface are the same, and the width of the sixth folded surface is smaller than that of the seventh folded surface;

the widths of the second folding surface and the third folding surface are greater than the width of the sixth folding surface;

the free ends of the first folded surface, the fourth folded surface, the fifth folded surface and the eighth folded surface are provided with clamping grooves C along one side of the length direction;

the inclined abutting part comprises a ninth folding surface, a tenth folding surface and an eleventh folding surface which are integrally folded and formed, the tenth folding surface and the eleventh folding surface are cut to form a right trapezoid, the ninth folding surface is rectangular, the tenth folding surface and the eleventh folding surface are respectively formed on two opposite sides of the ninth folding surface along the length direction of the ninth folding surface, and the folding lines of the tenth folding surface and the eleventh folding surface are oblique edges of the tenth folding surface and the eleventh folding surface;

the free ends of the three sides of the tenth folding surface and the eleventh folding surface are respectively provided with a clamping groove D corresponding to the clamping grooves C of the upper support buffer part and the lower support buffer part;

when the supporting device is in a use state, the upper supporting buffering part and the lower supporting buffering part are vertically overlapped, and the inclined abutting parts are respectively and tightly connected with the upper supporting buffering part and the lower supporting buffering part along the length direction of the upper supporting buffering part and the lower supporting buffering part.

Further, in the use state, the area of the upper surface of the inclined abutting part is larger than that of the lower surface thereof.

Further, the upper surface of the upper support is cut to form a specification accommodating and abdicating groove.

Further, the first accessory box body is arranged to be a filter basket placing box.

Further, the third accessory case is configured as a power supply holding case.

The beneficial effects of the utility model are that: through the upper bracket and the lower bracket are fixed in a full-wrapping mode, the product is fixed and has higher buffering protection level through the mutual matching of the upper supporting card structure, the lower supporting card structure, the bottom supporting card structure and the rectangular filling card A, the internal compactness of the structure is further enhanced through the arrangement of the first accessory box body, the second accessory box body and the third accessory box body, the full-corrugated paper structure is simple to process, the strength is high, and the environment is easy to recover.

Drawings

Fig. 1 is an exploded perspective view of the present invention.

Fig. 2 is a perspective view of the lower tray.

Fig. 3 is a perspective view of the lower support card structure.

Fig. 4 is a plan expanded view of the lower support card structure.

Fig. 5 is a perspective view of a bottom support card structure.

Fig. 6 is an exploded view of the bottom support card structure.

Fig. 7 is a plan expanded view of the bottom support card structure.

Fig. 8 is a perspective view of an upper support card structure.

Fig. 9 is a perspective view and a planar development view of the upper support cushioning portion.

Fig. 10 is a perspective view and a planar development view of the lower support cushion.

Fig. 11 is a perspective view and a planar development view of the inclined abutment portion.

The reference signs are: the upper tray 10, the lower tray 17, the upper support card structure 11, the lower support card structure 12, the bottom support card structure 13, the first component case 20, the second component case 16, the third component case 15, the rectangular packing card a14, the first storage space 21, the second storage space 18, the rectangular packing card B19, the first buffer 22, the main folded surface a26, the third buffer 23, the ninth folded surface 30, the tenth folded surface 24, the second buffer 25, the main folded surface B27, the reinforcing folded surface 32, the fourth buffer 28, the chucking surface 35, the fifth buffer 34, the sixth buffer 31, the padding buffer assembly 29, the card slot a37, the card slot B33, the instruction book housing relief slot 36, the upper support buffer 38, the lower support buffer 39, the three inclined abutting portion 40, the fifth folded surface 41, the sixth folded surface 42, the seventh folded surface 43, the eighth folded surface 45, the first folded surface 46, the second folded surface 47, the third folded surface 48, the fourth folded surface 49, the eleventh folded surface 49, and the eleventh folded surface 51.

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. 1-11, a cushioning packaging structure includes an upper holder 10, a lower holder 17, an upper supporting clip structure 11, a lower supporting clip structure 12, a bottom supporting clip structure 13, a first accessory case 20, a second accessory case 16, a third accessory case 15, and a rectangular filling card a14. The first accessory cassette 20 is configured as a filter basket holding cassette. The third accessory case 15 is provided as a power supply placing case.

The upper support 10 and the lower support 17 have the same structure, and the inner cavities of the upper support 10 and the lower support 17 are divided into a first object containing space 21 and a second object containing space 18 through a rectangular filling card B19; the upper support 10 is reversely covered on the upper surface of the lower support 17, the upper and lower first storage spaces 21 form a product storage cavity, and the upper and lower second storage spaces 18 form an accessory storage cavity.

The bottom support clip structure 13 is correspondingly disposed in the first storage space 21 of the lower tray 17.

The lower support card structure 12 is arranged in the product placing cavity and on the other side opposite to the rectangular filling card B19, the upper surface of the lower support card structure 12 is in contact with the top wall of the cavity of the upper support 10, and the lower surface of the lower support card structure 12 is in contact with the upper surface of the bottom support card structure 13.

Go up support card structure 11 and set up in the product and place the intracavity and with the opposite side of lower support card structure 12, go up the upper surface of support card structure 11 and paste the contact with the inner chamber roof of pop-up 10 mutually.

The first accessory box body 20 is arranged on one side in the accessory placing cavity, the upper surface of the first accessory box body 20 is in contact with the top wall of the inner cavity of the upper support 10 in an attaching mode, and the lower surface of the first accessory box body 20 is in contact with the bottom wall of the inner cavity of the lower support 17 in an attaching mode; one side of the first kit housing 20 is in abutting contact with the inner side walls of the upper tray 10 and the lower tray 17, respectively.

The second accessory box 16 and the third accessory box 15 are arranged at the other side of the accessory placing cavity in parallel, and one side surfaces of the second accessory box 16 and the third accessory box 15 are in contact with the side surface of the first accessory box 20; the other sides of the second and third kit parts 16 and 15 are in abutting contact with the inner side walls of the upper and lower trays 10 and 17, respectively.

A rectangular filler card a14 is disposed on the upper surfaces of the second and third accessory cases 16, 15, and the upper surface of the rectangular filler card a14 is in abutting contact with the top wall of the internal cavity of the upper tray 10.

The lower support card structure 12 includes an integrally formed main folding surface a26, the main folding surface a26 forms a first buffer portion 22 through four folding surfaces connected in sequence along one side of the length direction of the main folding surface a26, the main folding surface a26 forms a second buffer portion 25 through five folding surfaces connected in sequence along the other side of the length direction of the main folding surface a26, and the main folding surface a26 forms a third buffer portion 23 through four folding surfaces along two opposite sides of the width direction of the main folding surface a 26.

The bottom support card structure 13 comprises a main folding surface B27 and a reinforcing folding surface 32, wherein the opposite two sides of the main folding surface B27 along the length direction form fourth buffer parts 28 through four folding surfaces which are sequentially connected, one side of the main folding surface B27 along the width direction forms three folding surfaces through cutting, the three folding surfaces are sequentially folded to form a fifth buffer part 34, one side of the main folding surface B27 far away from the fifth buffer part 34 forms three folding surfaces through cutting, and the three folding surfaces are sequentially folded to form a sixth buffer part 31; three clamping surfaces 35 which are vertically turned up vertically at 90 degrees and respectively form a vertical relation with the fifth buffering part 34 and the sixth buffering part 31 are formed in the main folding surface B27 and between the fifth buffering part 34 and the sixth buffering part 31 through cutting, and each clamping surface 35 is provided with a clamping groove A37 along the length direction; the reinforced folding surface 32 is folded to form a U shape and is arranged on the upper surfaces of the three clamping surfaces 35 in a crossing manner, and a plurality of clamping grooves B33 matched with the clamping grooves A37 are formed in the two opposite side surfaces of the reinforced folding surface 32 along the length direction; one side surface of the reinforcing folded surface 32 is in contact with one side surface of the fifth buffer part 34; the other side surface of the reinforcing folded surface 32 is in contact with one side surface of the sixth buffer part 31; the reinforced folding surface 32, the clamping surface 35, the fifth buffer part 34 and the sixth buffer part 31 form a heightening buffer component 29. By forming the heightening buffer member 29, the center of the main body portion is heightened, so that the product is weak in an overhead state.

The upper support structure 11 includes an upper support cushioning portion 38, a lower support cushioning portion 39, and three inclined abutment portions 40.

The upper support buffer 38 includes a first folded surface 46, a second folded surface 47, a third folded surface 48, and a fourth folded surface 49 that are integrally formed, the first folded surface 46 and the fourth folded surface 49 have the same width, and the second folded surface 47 and the third folded surface 48 have the same width and are both greater than the width of the first folded surface 46 and the width of the second folded surface 47.

The lower supporting buffer part 39 includes a fifth folding surface 41, a sixth folding surface 42, a seventh folding surface 43, and an eighth folding surface 45, which are integrally formed, the fifth folding surface 41, the eighth folding surface 45 and the sixth folding surface 42 have the same width, and the width of the sixth folding surface 42 is smaller than the width of the seventh folding surface 43.

The widths of the second folding surface 47 and the third folding surface 48 are larger than the width of the sixth folding surface 42.

The free ends of the first folding surface 46, the fourth folding surface 49, the fifth folding surface 41 and the eighth folding surface 45 are all provided with a clamping groove C44 along one side of the length direction.

The inclined abutting part 40 comprises a ninth folding surface 30, a tenth folding surface 24 and an eleventh folding surface 50 which are integrally folded and formed, wherein the tenth folding surface 24 and the eleventh folding surface 50 are both cut to form a right trapezoid, the ninth folding surface 30 is rectangular, the tenth folding surface 24 and the eleventh folding surface 50 are respectively formed on two opposite sides of the ninth folding surface 30 along the length direction, and the folding line positions of the tenth folding surface 24 and the eleventh folding surface 50 are the inclined edges of the tenth folding surface 24 and the eleventh folding surface 50.

Three free ends of the tenth folding surface 24 and the eleventh folding surface 50 are respectively provided with a clamping groove D51 corresponding to the clamping groove C44 of the upper support buffer part 38 and the lower support buffer part 39.

In the use state, the upper support buffer part 38 and the lower support buffer part 39 are vertically stacked, and each inclined abutting part 40 is respectively clamped and connected with the upper support buffer part 38 and the lower support buffer part 39 along the length direction of the upper support buffer part 38 and the lower support buffer part 39. The inclined abutment 40 has an upper surface with a larger area than a lower surface thereof. One side of the upper surface area is in close contact with the top wall of the inner cavity of the upper support 10. Through setting up support card structure 11, through the inclined plane laminating atress of the cooperation product of slope butt portion 40, further promote the buffering effort of product.

The upper surface of the upper support 10 is cut to form a specification accommodating and abdicating groove 36 for accommodating the product specification, so that the space utilization rate of the structure is further improved.

In this embodiment, it is fixed with the package entirely through holding in the palm and holding in the palm down, and the card A is filled in the rethread and is mutually supported to support card structure, under bracing card structure, end support card structure, rectangle and fixed the product and have higher buffering protection rank, through setting up first accessory box body, second accessory box body, third accessory box body, further strengthens the inside compactness of this structure, and full corrugated paper structure, processing is simple, and intensity is big, and the environmental protection is easily retrieved.

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 spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (8)

1. A cushion packaging structure is characterized in that: the box body comprises an upper support (10), a lower support (17), an upper supporting card structure (11), a lower supporting card structure (12), a bottom supporting card structure (13), a first accessory box body (20), a second accessory box body (16), a third accessory box body (15) and a rectangular filling card A (14);

the upper support (10) and the lower support (17) have the same structure, and the inner cavities of the upper support (10) and the lower support (17) are divided into a first object containing space (21) and a second object containing space (18) through rectangular filling cards B (19); the upper support (10) is reversely covered on the upper surface of the lower support (17), the upper and lower first object placing spaces (21) form a product placing cavity, and the upper and lower second object placing spaces (18) form an accessory placing cavity;

the bottom supporting clamp structure (13) is correspondingly arranged in the first object placing space (21) of the lower support (17);

the lower support card structure (12) is arranged in the product placing cavity and on the other side opposite to the rectangular filling card B (19), the upper surface of the lower support card structure (12) is in contact with the top wall of the cavity of the upper support (10), and the lower surface of the lower support card structure (12) is in contact with the upper surface of the bottom support card structure (13);

the upper supporting card structure (11) is arranged in the product placing cavity and on the other side opposite to the lower supporting card structure (12), and the upper surface of the upper supporting card structure (11) is in contact with the top wall of the inner cavity of the upper support (10);

the first accessory box body (20) is arranged on one side of the accessory placing cavity, the upper surface of the first accessory box body (20) is in contact with the top wall of the inner cavity of the upper support (10) in a pasting mode, and the lower surface of the first accessory box body (20) is in contact with the bottom wall of the inner cavity of the lower support (17) in a pasting mode; one side surface of the first accessory box body (20) is respectively attached and contacted with the inner side walls of the upper support (10) and the lower support (17);

the second accessory box body (16) and the third accessory box body (15) are arranged on the other side of the accessory placing cavity in parallel, and one side surfaces of the second accessory box body (16) and the third accessory box body (15) are in contact with the side surface of the first accessory box body (20) in an attached mode; the other side surfaces of the second accessory box body (16) and the third accessory box body (15) are respectively attached and contacted with the inner side walls of the upper support (10) and the lower support (17);

the rectangular filling card A (14) is arranged on the upper surfaces of the second accessory box body (16) and the third accessory box body (15), and the upper surface of the rectangular filling card A (14) is attached to and contacted with the top wall of the inner cavity of the upper support (10).

2. The cushioning packaging structure of claim 1, wherein: lower support card structure (12) are including integrated into one piece's main face A (26) that rolls over, main face A (26) that rolls over forms first buffer portion (22) through four faces that connect gradually along its length direction's one side, main face A (26) that rolls over forms second buffer portion (25) through five faces that connect gradually along its length direction's opposite side, main face A (26) that rolls over all forms third buffer portion (23) through four faces along its width direction's relative both sides.

3. The cushioning packaging structure of claim 1, wherein: the bottom supporting clamp structure (13) comprises a main folded surface B (27) and a reinforcing folded surface (32), wherein the opposite two sides of the main folded surface B (27) along the length direction of the main folded surface B form a fourth buffering part (28) through four folded surfaces which are sequentially connected, one side of the main folded surface B (27) along the width direction of the main folded surface B is cut to form three folded surfaces, the three folded surfaces are sequentially folded to form a fifth buffering part (34), one side of the main folded surface B (27) far away from the fifth buffering part (34) is cut to form three folded surfaces, and the three folded surfaces are sequentially folded to form a sixth buffering part (31); three clamping surfaces (35) which are vertically turned up at 90 degrees and respectively form a vertical relation with the fifth buffering part (34) and the sixth buffering part (31) are formed in the main folding surface B (27) and between the fifth buffering part (34) and the sixth buffering part (31) through cutting, and clamping grooves A (37) are formed in each clamping surface (35) along the length direction of the clamping surface; the reinforcing folding surface (32) is folded to form a U shape and is covered on the upper surfaces of the three clamping surfaces (35), and a plurality of clamping grooves B (33) matched with the clamping grooves A (37) are formed in the two opposite side surfaces of the reinforcing folding surface (32) along the length direction; one side surface of the reinforcing folded surface (32) is in contact with one side surface of the fifth buffer part (34); the other side surface of the reinforcing folding surface (32) is in contact with one side surface of the sixth buffer part (31); the reinforced folding surface (32), the clamping surface (35), the fifth buffer part (34) and the sixth buffer part (31) form a padding buffer assembly (29).

4. The cushioning packaging structure of claim 1, wherein: the upper support clamping structure (11) comprises an upper support buffer part (38), a lower support buffer part (39) and three inclined abutting parts (40);

the upper supporting buffer part (38) comprises a first folding surface (46), a second folding surface (47), a third folding surface (48) and a fourth folding surface (49) which are integrally formed, the widths of the first folding surface (46) and the fourth folding surface (49) are the same, and the widths of the second folding surface (47) and the third folding surface (48) are the same and are both larger than the widths of the first folding surface (46) and the second folding surface (47);

the lower supporting buffer part (39) comprises a fifth folding surface (41), a sixth folding surface (42), a seventh folding surface (43) and an eighth folding surface (45) which are integrally formed, the widths of the fifth folding surface (41) and the eighth folding surface (45) are the same as the width of the sixth folding surface (42), and the width of the sixth folding surface (42) is smaller than the width of the seventh folding surface (43);

the widths of the second folding surface (47) and the third folding surface (48) are greater than the width of the sixth folding surface (42);

the free ends of the first folding surface (46), the fourth folding surface (49), the fifth folding surface (41) and the eighth folding surface (45) are provided with clamping grooves C (44) along one side of the length direction;

the inclined abutting part (40) comprises a ninth folding surface (30), a tenth folding surface (24) and an eleventh folding surface (50) which are integrally folded and formed, the tenth folding surface (24) and the eleventh folding surface (50) are cut into right-angled trapezoids, the ninth folding surface (30) is rectangular, the tenth folding surface (24) and the eleventh folding surface (50) are respectively formed on two opposite sides of the ninth folding surface (30) along the length direction of the ninth folding surface, and the folding line positions of the tenth folding surface (24) and the eleventh folding surface (50) are the inclined edges of the tenth folding surface (24) and the eleventh folding surface;

the three free sides of the tenth folding surface (24) and the eleventh folding surface (50) are respectively provided with a clamping groove D (51) corresponding to the clamping grooves C (44) of the upper support buffer part (38) and the lower support buffer part (39);

when the supporting device is in a use state, the upper supporting buffer part (38) and the lower supporting buffer part (39) are vertically overlapped, and each inclined abutting part (40) is respectively clamped and connected with the upper supporting buffer part (38) and the lower supporting buffer part (39) along the length direction of the upper supporting buffer part (38) and the lower supporting buffer part (39).

5. The cushioning packaging structure of claim 4, wherein: in the use state, the area of the upper surface of the inclined abutting part (40) is larger than that of the lower surface thereof.

6. The cushioning packaging structure of claim 1, wherein: the upper surface of the upper support (10) is cut to form a specification accommodating and abdicating groove (36).

7. The cushioning packaging structure of claim 1, wherein: the first accessory box body (20) is arranged to be a filter basket placing box.

8. The cushioning packaging structure of claim 1, wherein: the third accessory case (15) is configured as a power supply holding case.

Images