CN109896158B - Corrugated board buffer packaging assembly of food processor - Google Patents

Abstract

Aiming at the problem that a square bottom plate and a buffer structure supporting goods to be transported beside the square bottom plate in the corrugated board buffer package of the cooking machine are easy to loose in the prior art, the invention provides a corrugated board buffer package assembly of the cooking machine, which comprises a bottom buffer structure, a middle buffer structure and a top buffer structure, wherein the bottom buffer structure is formed by one piece of paper and is arranged below the cooking machine, the middle buffer structure is arranged above the bottom buffer structure, and the top buffer structure is arranged below the middle buffer structure. According to the invention, the first middle slot and the second slot are arranged on the square fixing plate, and the turnover connecting plate is bent inwards for a plurality of times and then is continuously inserted into the first middle slot and the second slot for two times, so that a double-insertion structure for preventing the structure from loosening is formed, the structure is more firm, the shock resistance is strong in the transportation process, and the structure is not easy to loosen.

Description

Corrugated board buffer packaging assembly of food processor

Technical Field

The invention belongs to the field of packaging devices, and particularly relates to an integrally formed corrugated board buffer packaging assembly of a cooking machine, which aims at small household appliances and is divided into an upper part, a middle part and a lower part.

Background

At present, along with the continuous improvement of the living standard of people, various high technologies are continuously invented and manufactured just like various kitchen appliances in a kitchen, thereby providing a lot of convenience for people to cook food. Many things do not need people to personally handle, only need click the button, and the delight of food is ascertained, so kitchen household appliances play an increasingly important role in life.

In the current life, due to popularization of the Internet, online shopping market and online shopping groups are continuously expanded, online shopping systems are gradually perfected, people are enthusiastically shopping online, and products of the heart instrument can be purchased without going out, so that convenience and rapidness are realized. Kitchen appliances are of course also located in online shopping areas.

Through investigation and research on kitchen appliance packaging, most of the current food processor product packaging uses corrugated cartons as outer boxes and EPS foamed plastics as buffer structure materials. As is well known, EPS is regarded as an environmentally-friendly material internationally and resists elimination because of various disadvantages such as no decomposition after discarding, toxicity upon combustion, etc., so that it is imperative to find a substitute material for EPS as a buffer structure material.

Moreover, as an internal buffer structure of the corrugated paper packaging box, a corrugated paper structure formed by one piece of paper is generally used for buffering and protecting goods to be transported in an up-down fixed mode. This is particularly important for the bottom buffer structure which is located at the bottom of the goods to be transported.

Because of the shaping of a paper, the strength of square bottom plate is not high in the current bottom buffer structure, and the square bottom plate and the buffer structure that supports commodity to be transported beside it usually adopt ninety degrees once to splice to accomplish between them. In practice, the square bottom plate with the structure has poor extrusion resistance, is easy to loosen and is extremely unfavorable for long-distance commodity transportation.

Disclosure of Invention

Aiming at the problem that a square bottom plate and a buffering structure for supporting goods to be transported beside the square bottom plate in the corrugated board buffering package of the food processor in the prior art are easy to loosen, the invention provides the corrugated board buffering package assembly of the food processor, which has the advantages of simple structure and difficult loosening.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

the corrugated board buffer packaging assembly of the food processor is arranged in a 0201-type box and comprises a bottom buffer structure, a middle buffer structure and a top buffer structure, wherein the bottom buffer structure is formed by paper and arranged below the food processor, the middle buffer structure is arranged above the bottom buffer structure, and the top buffer structure is arranged below the middle buffer structure; the method is characterized in that:

the bottom buffer structure comprises a square bottom plate, a first buffer component arranged on one side of the square bottom plate and used for fixing the ring handle cup, and a second buffer component arranged on the other side of the bottom plate and used for fixing the straight handle cup; the first buffer assembly and the second buffer assembly have the same structure, and the second buffer assembly is obtained by rotating the first buffer assembly by 180 degrees by taking the midpoint of the vertical axis of the square bottom plate as the center of a circle;

the first buffer assembly comprises a square connecting plate, a square cup handle plate and a square fixing plate which are sequentially connected with the square bottom plate;

the square cup handle plate is used for placing a placing plane of the straight handle cup and the ring handle cup through multiple times of bending, the bent square cup handle plate is arranged in parallel with the square bottom plate, and the placing plane is connected with a turnover connecting plate which is connected with the square fixing plate in an inserting mode for two times after being bent inwards for multiple times;

wherein, two long limit middle parts of square bottom plate are provided with the bearing structure that inwards buckles many times that is used for preventing square bottom plate length direction bending.

The beneficial effects of the invention are as follows: according to the invention, the first middle slot and the second slot are arranged on the square fixing plate, and the turnover connecting plate is bent inwards for a plurality of times and then is continuously inserted into the first middle slot and the second slot for two times, so that a double-insertion structure for preventing the structure from loosening is formed, the structure is more firm, the shock resistance is strong in the transportation process, and the structure is not easy to loosen.

Drawings

Fig. 1 is a general structural view of the present invention.

FIG. 2 is an expanded view of the bottom cushioning structure of the present invention.

Fig. 3 is a perspective view of fig. 2.

FIG. 4 is an expanded view of the middle buffer structure of the present invention.

Fig. 5 is a perspective view of fig. 4.

FIG. 6 is an expanded view of the top cushioning structure of the present invention.

Fig. 7 is a perspective view of fig. 6.

Fig. 8 is an expanded view of the 0201-type case.

Fig. 9 is a perspective view of a 0201-type case.

Fig. 10 is a schematic view of a ring handle cup.

Fig. 11 is a schematic view of a straight handle cup.

Fig. 12 is a schematic structure diagram of the present invention applied to a cell wall breaking machine of the type of supol JP 08P-1300.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

The technical scheme adopted by the invention is as follows: as shown in fig. 12, a corrugated board buffer packaging assembly of a food processor is used for packaging and protecting a kapo 08P-1300 broken wall food processor, is arranged in a 0201-type box, and comprises a bottom buffer structure 1, a middle buffer structure 2 and a top buffer structure 3, wherein the bottom buffer structure 1 is formed by paper and is arranged below the food processor, the middle buffer structure 2 is arranged above the bottom buffer structure 1, and the top buffer structure 3 is arranged below the middle buffer structure 2; the method is characterized in that:

as shown in fig. 1 to 9, the bottom buffer structure 1 comprises a square bottom plate 101, a first buffer component arranged on one side of the square bottom plate 101 and used for fixing a ring handle cup, and a second buffer component arranged on the other side of the bottom plate 101 and used for fixing a straight handle cup; the first buffer assembly and the second buffer assembly have the same structure, and the second buffer assembly is obtained by rotating the first buffer assembly 180 degrees by taking the midpoint of the vertical axis of the square bottom plate 101 as the center of a circle;

the first buffer assembly comprises a square connecting plate 102, a square cup handle plate 103 and a square fixing plate 104 which are sequentially connected with a square bottom plate 101;

wherein the longer side of the square connecting plate 102 is connected with the longer side of the square bottom plate 101, and the shorter side of the square connecting plate 102 is level with the shorter side of the square bottom plate 101; the shorter side of the square connecting plate 102 is connected with the longer side of the square cup handle plate 103, and the other longer side of the square connecting plate 102 which is not connected with the bottom plate 101 at the connection is level with the shorter side of the square cup handle plate 103; the other long side of the square cup handle plate 103 which is not connected with the square connecting plate 102 is connected with the short side of the square fixing plate 104;

the long side of the square fixing plate 104 is level with the other long side of the square connecting plate 102 which is not connected with the bottom plate 101;

wherein, the square connecting plate 102 is provided with a first folded edge 1A which is bent downwards along the connecting line of the square connecting plate and the square bottom plate 101 and a second folded edge 1B which is bent inwards along the connecting position of the square connecting plate and the square cup handle plate 103; the joint of the square cup handle plate 103 and the square fixing plate 104 is provided with a third folded edge 1C which is bent inwards;

wherein, a first placing fold line 103A which is bent downwards is arranged on the square cup handle plate 103 along the extension line of the long side of the square fixing plate 104; an inwardly bent second placement fold line 103B provided in parallel with the first placement fold line 103A, and an outwardly folded third placement fold line 103C provided in parallel with the first placement fold line 103A;

wherein, the square fixing plate 104 is provided with a first fixing edge 104A parallel to the third folding edge 1C, and a first middle slot 104B and a second slot 104C which are horizontally arranged at one end of the square fixing plate 104 far away from the square bottom plate 101 and extend towards the direction of the square bottom plate 101;

wherein, the middle parts of two long sides of the square bottom plate 101 are provided with a first extension plate 1011 and a second extension plate 1012 which extend outwards; the connection parts of the first extension boards 1011 and the square bottom board 101 are respectively provided with an installation slot for being inserted into a first middle slot 104B on the square fixed board 104;

wherein, a circular slot 103E for placing the bottom of the ring handle cup is arranged between the third folded edge 1C of the square cup handle plate 103 and the end part thereof;

wherein, the second flange 1B of the square cup handle plate 103 in the first buffer component is provided with a square groove 103D for placing a cup handle in the ring handle cup; an insertion groove 103H for placing a cup handle in the straight handle cup is provided in the second buffer member.

A T-shaped lower inserting piece 103F is further arranged between the third folded edge 1C and the circular groove 103E; the horizontal section of the T-shaped lower inserting piece 103F is connected with the square cup handle plate 103;

a socket 101A is arranged on one side of the square bottom plate 101, which is close to the square cup handle plate 103; the socket 101A is connected with the vertical section of the T-shaped lower insert 103F in a matched manner after being bent inwards by 90 degrees along the third folded edge 1C.

The middle part of the short side end part of the square cup handle plate 103, which is close to the third folded edge 1C, is connected with a folded connecting plate 1031; the folding connection plate 1031 is provided with a first folding edge 1031A and a second folding edge 1031B parallel to the third folding edge 1C;

wherein, the first folding edge 1031A is positioned at the joint of the folding connection plate 1031 and the square cup handle plate 103; the second turnup edge 1031B is located in the middle of the turnup connection board 1031;

the folded connection plate 1031 is folded by 90 degrees along the first folded edge 1031A toward the direction of the square bottom plate 101, and is folded by 90 degrees along the second folded edge 1031B toward the direction away from the center line of the length direction of the square bottom plate 101; the height between the first turnup edge 1031A and the second turnup edge 1031B is equal to the distance between the first middle slot 104B and the second slot 104C, and the turnup connection plate 1031 is inserted along the first middle slot 104B and the second slot 104C to form a fixed structure. By two insertions, a stable structure is formed, preventing loosening during transport.

A horizontal groove 104D parallel to the square bottom plate 101 is formed at the joint of the square cup handle plate 103 and the square fixing plate 104; the horizontal slit 104D is engaged with the junction of the square cup handle plate 103 and the square fixing plate 104, and protrudes inward for supporting the square bottom plate 101.

The middle buffer structure 2 comprises a supporting plate 201 parallel to the square bottom plate 101; the supporting plate is provided with a round through hole for fixing the machine body, the ring handle cup and the straight handle cup; a plurality of bending lines bending toward the longitudinal center direction of the support plate 201 are symmetrically provided at both ends of the support plate in the longitudinal direction.

The top buffer structure 3 comprises a top plate 301; a first fixing hole 3A, a second fixing hole 3B and a third fixing hole 3C which are positioned on the neck of the machine body, the ring handle cup cover and the straight handle cup cover are respectively arranged on one side of the top plate 301 in the length direction; the other side of the top plate 301 in the length direction is provided with a first cover button fixing hole 3D and a second cover Niu Guding hole 3E for fixing the top of the cup cover by the fixing ring and the top of the straight cup cover;

wherein, a first structural folded edge 30A and a second structural folded edge 30B which are parallel to the width edge of the top plate 301 are arranged between the first fixing hole 3A and the second fixing hole 3B; a third structural folded edge 30C and a fourth structural folded edge 30D which are parallel to the first structural folded edge 30A are arranged between the second fixing hole 3B and the third fixing hole 3C; a fifth structural flange 30E, a sixth structural flange 30F, a seventh structural flange 30H and an eighth structural flange 30G which are parallel to the first structural flange 30A are arranged between the third fixing hole 3C and the second cover Niu Guding hole 3E; a ninth structural flange 30K, a tenth structural flange 30M, an eleventh structural flange 30L and a twelfth structural flange 30N which are parallel to the first structural flange 30A are arranged between the second cover Niu Guding hole 3E and the first cover button fixing hole 3D; a thirteenth structural flange 30O, a fourteenth structural flange 30P and a fifteenth structural flange 30Q parallel to the first structural flange 30A are provided between the first cover button fixing hole 3D and the end of the top plate 301 remote from the first fixing hole 3A;

wherein, the distance between the fifth structural folded edge 30E and the sixth structural folded edge 30F is equal to the distance between the fifteenth structural folded edge 30Q and the end of the top plate 301 far from the first fixing hole 3A;

wherein the seventh structural flange 30H, the eighth structural flange 30G, the ninth structural flange 30K, and the tenth structural flange 30M are disposed from both sides near the second cap Niu Guding hole 3E and are symmetrical along the vertical center line of the second cap Niu Guding hole 3E;

the eleventh structural folded edge 30L, the twelfth structural folded edge 30N, the thirteenth structural folded edge 30O and the fourteenth structural folded edge 30P are arranged close to the first cover button fixing hole 3D from two sides and are symmetrical along the vertical center line of the first cover button fixing hole 3D;

wherein, the top plate 301 is turned clockwise by 90 degrees along the first structural folded edge 30A, and turned counterclockwise by 90 degrees along the second structural folded edge 30B, so that the plane of the first fixing hole 3A is parallel to the top plate 301; then, the third structural flange 30C is folded clockwise by 90 degrees and the fourth structural flange 30D is folded counterclockwise by 90 degrees; the plane of the second fixing hole 3B is made to be downwards convex compared with the plane of the top plate 301;

then, the fifth structural hem 30E is turned clockwise by 90 degrees, and the sixth structural hem 30F is turned clockwise by 90 degrees;

then, the seventh structural hem 30H is turned clockwise by 90 degrees, the eighth structural hem 30G is turned counterclockwise by 90 degrees, the ninth structural hem 30K is turned counterclockwise by 90 degrees, and the tenth structural hem 30M is turned clockwise by 90 degrees;

then, the eleventh structural flange 30L is turned clockwise by 90 degrees and the twelfth structural flange 30N is turned counterclockwise by 90 degrees in sequence; the thirteenth structural flange 30O is turned over 90 degrees counterclockwise and then turned over 90 degrees clockwise along the fourteenth structural flange 30P;

finally, the fifteenth structural flange 30Q is folded clockwise by 90 degrees so that both ends in the longitudinal direction of the top plate 301 are vertically contacted.

The tenth structural folded edge 30M is provided with a reverse pressing structure for installing a cleaning brush; the eleventh structure hemming 30L is provided with a reverse pressing structure for fixing the measuring cup.

The anti-press structure is a structure common in the prior art.

The first extension board 1011 and the second extension board 1012 are respectively provided with three parallel first support folds 1011A and second support folds 1012A parallel to the length edge of the square bottom board 101; the first extension board 1011 is turned inwardly three times along the first support flange 1011A thereon; the second extension plate 1012 is folded inwardly three times along the second support folds 1012A thereon to form a support structure in the length direction of the two square base plates 101.

What needs to be clarified is: after the first extension plate 1011 and the second extension plate 1012 are bent three times, a triangle with the bottom contacting the square bottom plate 101 is formed. It is well known that the triangle shape has stability, which increases strength in the length direction of the square base plate 101, preventing the square base plate 101 from being bent in the length direction due to external force during transportation.

Taking the proposer JP08P-1300 type broken wall food processor as an example, the ring handle cup is shown in fig. 10, and is a cup with a ring handle. For convenient taking, most of the crushing cups are ring handle cups; similarly, the straight handle cup is an L-shaped cup, as shown in FIG. 11, and for convenience of distinction, the straight handle cup is generally used for cold drink cups.

The foregoing description of the preferred embodiment of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (7)

1. The corrugated board buffer packaging assembly of the food processor is arranged in a 0201-type box and comprises a bottom buffer structure (1) which is formed by paper and arranged below the food processor, a middle buffer structure (2) arranged above the bottom buffer structure (1) and a top buffer structure (3) arranged below the middle buffer structure (2); the method is characterized in that:

the bottom buffer structure (1) comprises a square bottom plate (101), a first buffer component arranged on one side of the square bottom plate (101) and used for fixing the ring handle cup, and a second buffer component arranged on the other side of the bottom plate (101) and used for fixing the straight handle cup; the first buffer assembly and the second buffer assembly have the same structure, and the second buffer assembly is obtained by rotating the first buffer assembly 180 degrees by taking the midpoint of the vertical axis of the square bottom plate (101) as the center of a circle;

the first buffer assembly comprises a square connecting plate (102), a square cup handle plate (103) and a square fixing plate (104) which are sequentially connected with the square bottom plate (101);

the square cup handle plate (103) is used for placing a placing plane of the straight handle cup and the ring handle cup through multiple times of bending, the bent square cup handle plate (103) is parallel to the square bottom plate (101), and the placing plane is connected with a turnover connecting plate (1031) which is connected with the square fixing plate (104) in an inserting mode for two times after being bent inwards for multiple times;

the middle parts of two long sides of the square bottom plate (101) are provided with supporting structures which are used for preventing the square bottom plate (101) from bending inwards for a plurality of times along the length direction; the middle buffer structure (2) comprises a supporting plate (201) parallel to the square bottom plate (101); the supporting plate is provided with a round through hole for fixing the machine body, the ring handle cup and the straight handle cup; a plurality of bending lines which are bent towards the length center direction of the supporting plate (201) are symmetrically arranged at two ends of the length direction of the supporting plate; the top buffer structure (3) comprises a top plate (301); a first fixing hole (3A), a second fixing hole (3B) and a third fixing hole (3C) which are positioned at the neck of the machine body, the ring handle cup quilt cover and the straight handle cup cover are respectively arranged at one side of the top plate (301) in the length direction; a first cover button fixing hole (3D) and a second cover Niu Guding hole (3E) for fixing the top of the cup cover by the fixing ring and the top of the cup cover by the straight handle are formed in the other side of the length direction of the top plate (301);

wherein, a first structural folded edge (30A) and a second structural folded edge (30B) which are parallel to the width edge of the top plate (301) are arranged between the first fixing hole (3A) and the second fixing hole (3B); a third structural folded edge (30C) and a fourth structural folded edge (30D) which are parallel to the first structural folded edge (30A) are arranged between the second fixing hole (3B) and the third fixing hole (3C); a fifth structural folded edge (30E), a sixth structural folded edge (30F), a seventh structural folded edge (30H) and an eighth structural folded edge (30G) which are parallel to the first structural folded edge (30A) are arranged between the third fixing hole (3C) and the second cover Niu Guding hole (3E); a ninth structural flange (30K), a tenth structural flange (30M), an eleventh structural flange (30L) and a twelfth structural flange (30N) which are parallel to the first structural flange (30A) are arranged between the second cover Niu Guding hole (3E) and the first cover button fixing hole (3D); a thirteenth structural folded edge (30O), a fourteenth structural folded edge (30P) and a fifteenth structural folded edge (30Q) which are parallel to the first structural folded edge (30A) are arranged between the first cover button fixing hole (3D) and the end part of the top plate (301) far away from the first fixing hole (3A);

wherein, the distance between the fifth structural folded edge (30E) and the sixth structural folded edge (30F) is equal to the distance between the fifteenth structural folded edge (30Q) and the end part of the top plate (301) away from the first fixing hole (3A);

the seventh structural folded edge (30H), the eighth structural folded edge (30G) and the ninth structural folded edge (30K) and the tenth structural folded edge (30M) are arranged close to the second cover Niu Guding hole (3E) from two sides and are symmetrical along the vertical center line of the second cover Niu Guding hole (3E);

the eleventh structural folded edge (30L), the twelfth structural folded edge (30N), the thirteenth structural folded edge (30O) and the fourteenth structural folded edge (30P) are arranged close to the first cover button fixing hole (3D) from two sides and are symmetrical along the vertical center line of the first cover button fixing hole (3D);

the top plate (301) is turned clockwise by 90 degrees along the first structural folded edge (30A), and turned anticlockwise by 90 degrees along the second structural folded edge (30B), so that the plane of the first fixing hole (3A) is parallel to the top plate (301); then, the third structural flange (30C) is turned clockwise by 90 degrees and the fourth structural flange (30D) is turned anticlockwise by 90 degrees; the plane of the second fixing hole (3B) is downwards protruded compared with the plane of the top plate (301);

then, sequentially turning over the fifth structural folded edge (30E) clockwise for 90 degrees, and turning over the sixth structural folded edge (30F) clockwise for 90 degrees;

then, the folding edge is turned clockwise for 90 degrees along a seventh structural folding edge (30H), turned anticlockwise for 90 degrees along an eighth structural folding edge (30G), turned anticlockwise for 90 degrees along a ninth structural folding edge (30K), and turned clockwise for 90 degrees along a tenth structural folding edge (30M);

then, the folding edge is turned clockwise for 90 degrees along the eleventh structural folding edge (30L) and turned anticlockwise for 90 degrees along the twelfth structural folding edge (30N); the thirteenth structural folded edge (30O) is turned anticlockwise for 90 degrees and then turned clockwise for 90 degrees along the fourteenth structural folded edge (30P);

finally, the fifteenth structural flange (30Q) is folded clockwise by 90 degrees so that the two ends of the top plate (301) in the length direction are vertically contacted.

2. The corrugated board cushioning packaging assembly of a food processor of claim 1, wherein: the longer side of the square connecting plate (102) is connected with the longer side of the square bottom plate (101), and the shorter side of the square connecting plate (102) is flush with the shorter side of the square bottom plate (101); the shorter side of the square connecting plate (102) is connected with the longer side of the square cup handle plate (103), and the other longer side of the square connecting plate (102) which is not connected with the bottom plate (101) at the connection position is level with the shorter side of the square cup handle plate (103); the other long side of the square cup handle plate (103) which is not connected with the square connecting plate (102) is connected with the short side of the square fixing plate (104);

the long side of the square fixing plate (104) is level with the other long side which is not connected with the bottom plate (101) in the square connecting plate (102);

the square connecting plate (102) is provided with a first folded edge (1A) which is bent downwards along the connecting line of the square connecting plate and the square bottom plate (101) and a second folded edge (1B) which is bent inwards along the connecting position of the square connecting plate and the square cup handle plate (103); a third folded edge (1C) which is bent inwards is arranged at the joint of the square cup handle plate (103) and the square fixing plate (104);

wherein, a first placing fold line (103A) which is bent downwards is arranged on the square cup handle plate (103) along the extension line of the long side of the square fixing plate (104); an inwardly bent second placement fold line (103B) provided in parallel with the first placement fold line (103A), and an outwardly folded third placement fold line (103C) provided in parallel with the first placement fold line (103A);

the square fixing plate (104) is provided with a first fixing edge (104A) parallel to the third folded edge (1C), and a first middle slot (104B) and a second slot (104C) which are horizontally arranged at one end, far away from the square bottom plate (101), of the square fixing plate (104) and extend towards the square bottom plate (101);

wherein, the middle parts of two long sides of the square bottom plate (101) are respectively provided with a first extension plate (1011) and a second extension plate (1012) which extend outwards; the connection parts of the first extension plates (1011) and the square bottom plate (101) are respectively provided with an installation slot for being inserted into a first middle slot (104B) on the square fixed plate (104);

wherein, a circular slot (103E) for placing the bottom of the ring handle cup is arranged between the third folded edge (1C) of the square cup handle plate (103) and the end part of the third folded edge;

wherein, a square slot (103D) for placing a cup handle in the ring handle cup is arranged on a second folded edge (1B) of the square cup handle plate (103) in the first buffer component; an insertion groove (103H) for placing the cup handle in the straight handle cup is arranged in the second buffer component ^， ）。

3. The corrugated board cushioning packaging assembly of a food processor as set forth in claim 2, wherein: a T-shaped lower inserting piece (103F) is further arranged between the third folding edge (1C) and the round groove (103E); the horizontal section of the T-shaped lower inserting piece (103F) is connected with the square cup handle plate (103);

a socket (101A) is arranged on one side of the square bottom plate (101) close to the square cup handle plate (103); the vertical section of the socket (101A) and the T-shaped lower inserting sheet (103F) are bent inwards for 90 degrees along the third folded edge (1C) and then are connected in a matched mode.

4. The corrugated board cushioning packaging assembly of a food processor as set forth in claim 2, wherein: the middle part of the short side end part of the square cup handle plate (103) close to the third folded edge (1C) is connected with a folding connecting plate (1031); a first flanging (1031A) and a second flanging (1031B) which are parallel to the third flanging (1C) are arranged on the turnover connecting plate (1031);

the first turnover edge (1031A) is positioned at the joint of the turnover connecting plate (1031) and the square cup handle plate (103); the second turnover edge (1031B) is positioned in the middle of the turnover connecting plate (1031);

the turnover connecting plate (1031) is bent for 90 degrees along the first turnover edge (1031A) towards the direction of the square bottom plate (101), and is bent for 90 degrees along the second turnover edge (1031B) towards the direction far away from the center line of the length direction of the square bottom plate (101); the height between the first turnover edge (1031A) and the second turnover edge (1031B) is equal to the distance between the first middle slot (104B) and the second slot (104C), and the turnover connecting plate (1031) is inserted along the first middle slot (104B) and the second slot (104C) to form a fixed structure.

5. The corrugated board cushioning packaging assembly of a food processor as set forth in claim 2, wherein: a horizontal groove (104D) parallel to the square bottom plate (101) is arranged at the joint of the square cup handle plate (103) and the square fixing plate (104); the horizontal groove (104D) is matched with the joint of the square cup handle plate (103) and the square fixing plate (104), and protrudes inwards to be used for supporting the square bottom plate (101).

6. The corrugated board cushioning packaging assembly of a food processor of claim 1, wherein: a reverse pressing structure for installing the cleaning brush is arranged on the tenth structural folded edge (30M); the eleventh structure flanging (30L) is provided with a reverse pressing structure for fixing the measuring cup.

7. The corrugated board cushioning packaging assembly of a food processor of claim 1, wherein: three parallel first support folds (1011A) and second support folds (1012A) which are parallel to the length edge of the square bottom plate (101) are arranged on the first extension plate (1011) and the second extension plate (1012); the first extension plate (1011) is turned inwards three times along the first support folded edge (1011A) on the first extension plate; the second extension plate (1012) is turned inwards three times along the second support folded edge (1012A) on the second extension plate to form a support structure in the length direction of the two square bottom plates (101).