CN214777242U - Carton with buffer gear - Google Patents

Abstract

The utility model relates to a carton field especially relates to a have buffer gear carton, and it includes box and buffer assembly, is provided with buffer assembly in the box, and buffer assembly includes a plurality of buffer boards, fixed plate and connecting plate, and the buffer board is the U type, and a plurality of buffer boards stack and form the buffering portion, and two buffering portions form and place the space; the fixing plate is provided with a plurality of fixing grooves, and the buffer plate is matched with the fixing grooves to form buffer gaps; the connecting plate sets up in the relative department of two buffering portions, and the both sides of connecting plate are provided with a plurality of spread grooves, and the buffer board of both sides cooperates with the spread groove respectively. Through the matching of the buffer parts formed by the plurality of buffer plates and the buffer gaps generated between the fixing grooves of the fixing plate and the buffer plates, articles in the placing space formed by the buffer parts can be effectively protected, and the economic loss caused by poor buffer performance and product damage is reduced; the buffer plates on the two sides are connected into a whole through the connecting plate, so that the whole structure is stable, and a better buffer effect can be achieved.

Description

Carton with buffer gear

Technical Field

The utility model relates to a carton field especially relates to a carton with buffer gear.

Background

Carton is a widely used packaging article. However, since the carton itself has poor strength, it is easy to deform and has poor cushioning effect when it is impacted, and therefore people begin to add cushioning structures and cushioning materials into the carton. The simple buffer structure is easy to be damaged by impact and cannot play an effective buffer role; the filling type cushioning material cannot protect the contents in all directions.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the paper box with the buffer mechanism is convenient to use, high in buffer performance and stable in structure.

In order to solve the technical problem, the utility model discloses a technical scheme be: a paper box with a buffer mechanism comprises a box body and a buffer assembly, wherein the buffer assembly is arranged in the box body and comprises a plurality of buffer plates, a fixed plate and a connecting plate, the buffer plates are U-shaped, the plurality of buffer plates are stacked to form a buffer part, and U-shaped grooves of the two buffer parts are opposite to form a placing space; a plurality of fixing grooves are formed in the fixing plate at intervals corresponding to the plurality of buffer plates, the plurality of buffer plates are matched with the corresponding fixing grooves, and buffer gaps are formed between the buffer plates; the connecting plate sets up in the relative department of two buffers, the both sides of connecting plate correspond the buffer board of both sides respectively and are provided with a plurality of spread grooves, both sides the buffer board respectively with the spread groove cooperation that corresponds.

Further, buffer board keeps away from relative buffering one side and has set gradually first socket and second socket along its length direction, the fixed plate has set gradually first crease, fixed slot and second crease along its length direction, the fixed plate is folded into C type structure and is corresponded first socket and second socket embedding buffer board side along first crease and second crease.

Furthermore, the first socket, the second socket and the fixing plate are symmetrically arranged at the front end and the rear end of the side edge of the buffer plate.

Further, buffer board side middle part is provided with the standing groove, the both sides wall face of standing groove is provided with the third socket, the fixed plate still includes third crease, fourth crease, fifth crease and end fixed slot, the fixed plate is folded formation Z type structure along first crease, second crease, third crease, fourth crease and fifth crease in proper order, and the end fixed slot and the third socket cooperation of fixed plate.

Furthermore, buffer cotton is placed in the placing groove.

Further, the upside of buffer board is provided with the fourth socket, the connecting plate has set gradually front end spread groove, sixth crease, seventh crease, first connecting groove, eighth crease, ninth crease and second connecting groove along its length direction, the connecting plate is along sixth crease, seventh crease, eighth crease and the folding square tube form of ninth crease cooperation with corresponding fourth socket along the connecting plate, front end spread groove, first connecting groove and second connecting groove imbed in the buffer board jointly.

Further, front end spread groove, sixth crease, seventh crease, first spread groove, eighth crease, ninth crease and second spread groove symmetry set up in the connecting plate both sides.

Further, the upper side and the lower side of the connecting plate are provided with lateral buffer plates, and the lateral buffer plates are wound to be square tubes.

The beneficial effects of the utility model reside in that: through the matching of the buffer parts formed by the plurality of buffer plates and the buffer gaps generated between the fixing grooves of the fixing plate and the buffer plates, articles in the placing space formed by the buffer parts can be effectively protected, and the economic loss caused by poor buffer performance and product damage is reduced; the buffer plates on the two sides are connected into a whole through the connecting plate, so that the whole structure is stable, and a better buffer effect can be achieved.

Drawings

Fig. 1 is a top view of a carton with a buffer mechanism according to an embodiment of the present invention after opening the carton;

fig. 2 is a schematic structural view of a buffer board with a buffer mechanism carton according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a buffer assembly with a buffer mechanism carton according to an embodiment of the present invention;

FIG. 4 is a side view of a cushioning assembly having a cushioning mechanism carton according to an embodiment of the present invention;

fig. 5 is a top view of a cushioning assembly having a cushioning mechanism carton according to an embodiment of the present invention.

Description of reference numerals:

1. a box body;

2. a buffer assembly;

21. a buffer section; 211. a buffer plate; 212. a placement space; 213. a buffer gap; 214. a first socket; 215. a second socket; 216. a placement groove; 217. a third socket; 218. a fourth jack;

22. a fixing plate; 221. fixing grooves; 222. a first fold; 223. a second fold; 224. a third fold; 225. a fourth fold; 226. a fifth fold; 227. a tail end fixing groove;

23. a connecting plate; 231. a front end connecting groove; 232. a sixth fold; 233. a seventh crease; 234. a first connecting groove; 235. an eighth fold; 236. a ninth crease; 237. a second connecting groove; 238. lateral buffer plates.

Detailed Description

In order to explain the technical content, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1 to 5, a carton with a buffer mechanism includes a box body 1 and a buffer assembly 2, the buffer assembly 2 is disposed in the box body 1, the buffer assembly 2 includes a plurality of buffer plates 211, a fixing plate 22 and a connecting plate 23, the buffer plates 211 are U-shaped, the plurality of buffer plates 211 are stacked to form a buffer portion 21, and U-shaped grooves of two buffer portions 21 are opposite to each other to form a placing space 212; a plurality of fixing grooves 221 are formed in the fixing plate 22 at intervals corresponding to the plurality of buffer plates 211, the plurality of buffer plates 211 are matched with the corresponding fixing grooves 221, and a buffer gap 213 is formed between each buffer plate 211 and the corresponding buffer plate 211; the connecting plate 23 is arranged at the opposite positions of the two buffering parts 21, a plurality of connecting grooves are formed in the two sides of the connecting plate 23 respectively corresponding to the buffering plates 211 on the two sides, and the buffering plates 211 on the two sides are respectively matched with the corresponding connecting grooves.

The utility model discloses a theory of operation: the plurality of buffer plates 211 are sequentially embedded corresponding to the fixing grooves 221 on the fixing plate 22, so that buffer gaps 213 are formed among the buffer plates 211, the formed buffer part 21 can bring a good buffer effect, and articles in the placing space 212 surrounded by the buffer part 21 can be effectively protected; at opposite sides of the two buffer portions 21, the two buffer portions 21 are connected using the connection grooves of the connection plates 23, so that the overall structure is more stable.

From the above description, the beneficial effects of the present invention are: through the matching of the buffer part 21 formed by the plurality of buffer plates 211 and the fixing groove 221 of the fixing plate 22 with the buffer gap 213 generated by the buffer plates 211, the articles in the placing space 212 formed by the buffer part 21 can be effectively protected, and the economic loss caused by poor buffer performance and product damage is reduced; the buffer plates 211 on the two sides are connected into a whole through the connecting plate 23, so that the whole structure is stable, and a better buffer effect can be achieved.

Further, the buffer plate 211 is provided with a first socket 214 and a second socket 215 along the length direction thereof, the buffer plate 211 is away from the opposite buffer side, the fixing plate 22 is provided with a first fold 222, a fixing groove 221 and a second fold 223 along the length direction thereof, and the fixing plate 22 is folded into a C-shaped structure along the first fold 222 and the second fold 223 and is embedded into the side edge of the buffer plate 211 corresponding to the first socket 214 and the second socket 215.

As can be seen from the above description, the fixing plate 22 is folded into the C-shaped structure along the first fold 222 and the second fold 223 so that the fixing plate 22 can be inserted into the side of the buffer plate 211 corresponding to the first inserting hole 214 and the second inserting hole 215, and at this time, a part of the buffer plate 211 between the first inserting hole 214 and the second inserting hole 215 is fixed by the fixing plate 22 through the fixing groove 221, thereby enhancing the structural strength of the buffer portion 21.

Further, the first insertion hole 214, the second insertion hole 215 and the fixing plate 22 are symmetrically disposed at the front and rear ends of the side of the buffer plate 211.

Further, a placing groove 216 is arranged in the middle of the side edge of the buffer board 211, third inserting holes 217 are arranged on two side wall surfaces of the placing groove 216, the fixing board 22 further includes a third folding mark 224, a fourth folding mark 225, a fifth folding mark 226 and a terminal fixing groove 227, the fixing board 22 is sequentially folded along the first folding mark 222, the second folding mark 223, the third folding mark 224, the fourth folding mark 225 and the fifth folding mark 226 to form a Z-shaped structure, and the terminal fixing groove 227 of the fixing board 22 is matched with the third inserting holes 217.

As can be seen from the above description, the fixing plate 22 folded in a Z shape along the first fold 222, the second fold 223, the third fold 224, the fourth fold 225 and the fifth fold 226 can be tightly fitted to the buffer plate 211 while being fitted into the side plate of the buffer plate 211 through the third insertion opening 217 of the wall surface of the placement groove 216; the fixing plate 22 can be prevented from falling off in the multi-bending structure, and the stability of the buffer mechanism is further ensured.

Further, buffer cotton is placed in the placing groove 216.

As can be seen from the above description, a plurality of cushioning measures are taken to achieve better cushioning performance by placing the cushioning cotton in the groove 216 in conjunction with the cushioning portion 21.

Further, the upper side of the buffer plate 211 is provided with a fourth insertion opening 218, the connecting plate 23 is sequentially provided with a front end connecting groove 231, a sixth crease 232, a seventh crease 233, a first connecting groove 234, an eighth crease 235, a ninth crease 236 and a second connecting groove 237 along the length direction of the connecting plate, the connecting plate 23 is folded along the sixth crease 232, the seventh crease 233, the eighth crease 235 and the ninth crease 236 to form a square tube shape and is matched with the corresponding fourth insertion opening 218, and the front end connecting groove 231, the first connecting groove 234 and the second connecting groove 237 are embedded into the buffer plate 211 together.

As can be seen from the above description, the connection plate 23 is folded along the sixth folding line 232, the seventh folding line 233, the eighth folding line 235 and the ninth folding line 236 to form a square tube shape to be matched with the buffer plate 211, so that a part of the buffer plate 211 between the fourth socket 218 on the upper side of the buffer plate 211 and the edge of the buffer plate 211 can be fixed by the connection plate 23, and the structural strength of the buffer portion 21 is improved.

Further, the front end connection groove 231, the sixth crease 232, the seventh crease 233, the first connection groove 234, the eighth crease 235, the ninth crease 236 and the second connection groove 237 are symmetrically arranged at two sides of the connection plate 23.

As can be seen from the above description, the front end connecting groove 231, the sixth crease 232, the seventh crease 233, the first connecting groove 234, the eighth crease 235, the ninth crease 236 and the second connecting groove 237 which are symmetrically arranged enable the connecting plate 23 to combine the two buffer portions 21 to form an integral mechanism while fixing the buffer plates 211 on both sides, so that the integral structure is stable, and a better buffer effect can be achieved.

Further, lateral buffer plates 238 are provided on upper and lower sides of the connection plate 23, and the lateral buffer plates 238 are wound in a square tube shape.

As is apparent from the above description, by winding the lateral buffer plate 238 in a square tubular structure, the buffering of the side of the buffer portion 21 can be provided; in combination with the lateral buffer plate 238 and the buffer part 21, the contents can be protected and buffered better.

Referring to fig. 1 to 5, a first embodiment of the present invention is:

as shown in fig. 1 to 5, the carton with the buffer mechanism of the embodiment includes a box body 1 and a buffer assembly 2, the buffer assembly 2 is disposed in the box body 1, the buffer assembly 2 includes a plurality of buffer plates 211, a fixing plate 22 and a connecting plate 23, the buffer plates 211 are U-shaped, the plurality of buffer plates 211 are stacked to form a buffer portion 21, and U-shaped grooves of two buffer portions 21 are opposite to each other to form a placing space 212; a plurality of fixing grooves 221 are formed in the fixing plate 22 at intervals corresponding to the plurality of buffer plates 211, the plurality of buffer plates 211 are matched with the corresponding fixing grooves 221, and a buffer gap 213 is formed between each buffer plate 211 and the corresponding buffer plate 211; the connecting plate 23 is arranged at the opposite positions of the two buffering parts 21, a plurality of connecting grooves are formed in the two sides of the connecting plate 23 respectively corresponding to the buffering plates 211 on the two sides, and the buffering plates 211 on the two sides are respectively matched with the corresponding connecting grooves.

As shown in fig. 2 to 4, a first inserting hole 214 and a second inserting hole 215 are sequentially formed on the side of the buffer plate 211 away from the opposite buffer side along the length direction thereof, a first folding line 222, a fixing groove 221 and a second folding line 223 are sequentially formed on the fixing plate 22 along the length direction thereof, and the fixing plate 22 is folded into a C-shaped structure along the first folding line 222 and the second folding line 223 and is inserted into the side of the buffer plate 211 corresponding to the first inserting hole 214 and the second inserting hole 215.

As shown in fig. 2 to 3, the first insertion hole 214, the second insertion hole 215 and the fixing plate 22 are symmetrically disposed at the front and rear ends of the side of the buffer plate 211.

As shown in fig. 2 to 3, a placement groove 216 is disposed in the middle of the side edge of the buffer board 211, third insertion holes 217 are disposed on two side wall surfaces of the placement groove 216, the fastening board 22 further includes a third fold 224, a fourth fold 225, a fifth fold 226 and a terminal fixing groove 227, the fastening board 22 is folded along the first fold 222, the second fold 223, the third fold 224, the fourth fold 225 and the fifth fold 226 in sequence to form a Z-shaped structure, and the terminal fixing groove 227 of the fastening board 22 is matched with the third insertion hole 217.

The buffer cotton is placed in the placing groove 216.

As shown in fig. 2, 3 and 5, the upper side of the buffer plate 211 is provided with a fourth insertion hole 218, the connecting plate 23 is provided with a front end connecting groove 231, a sixth crease 232, a seventh crease 233, a first connecting groove 234, an eighth crease 235, a ninth crease 236 and a second connecting groove 237 in sequence along the length direction thereof, the connecting plate 23 is folded along the sixth crease 232, the seventh crease 233, the eighth crease 235 and the ninth crease 236 to form a square tube shape and is matched with the corresponding fourth insertion hole 218, and the front end connecting groove 231, the first connecting groove 234 and the second connecting groove 237 are embedded into the buffer plate 211 together.

As shown in fig. 3 and 5, the front end connecting groove 231, the sixth crease 232, the seventh crease 233, the first connecting groove 234, the eighth crease 235, the ninth crease 236 and the second connecting groove 237 are symmetrically disposed at two sides of the connecting plate 23.

As shown in fig. 3, the upper and lower sides of the connecting plate 23 are provided with lateral buffer plates 238, and the lateral buffer plates 238 are wound in a square tube shape.

In summary, the utility model provides a carton with a buffer mechanism, which can effectively protect the articles in the placing space formed by the buffer part through the buffer part formed by a plurality of buffer plates and the matching of the fixing groove of the fixing plate and the buffer plate to generate the buffer gap, and reduce the economic loss caused by the bad buffer performance and the product damage; the buffer plates on the two sides are connected into a whole through the connecting plate, so that the whole structure is stable, and a better buffer effect can be achieved; the Z-shaped fixing plate is used for realizing the tight fit of the fixing plate and the buffer plate; the connecting plate is utilized to realize the fixation of the buffer plate and simultaneously connect the two buffer parts, so that the whole structure is more stable; by providing the lateral buffer plate, the buffer of the buffer part side is provided.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (8)

1. A paper box with a buffer mechanism is characterized by comprising a box body and a buffer assembly, wherein the buffer assembly is arranged in the box body and comprises a plurality of buffer plates, a fixed plate and a connecting plate, the buffer plates are U-shaped, the plurality of buffer plates are stacked to form a buffer part, and U-shaped grooves of the two buffer parts are opposite to form a placing space; a plurality of fixing grooves are formed in the fixing plate at intervals corresponding to the plurality of buffer plates, the plurality of buffer plates are matched with the corresponding fixing grooves, and buffer gaps are formed between the buffer plates; the connecting plate sets up in the relative department of two buffers, the both sides of connecting plate correspond the buffer board of both sides respectively and are provided with a plurality of spread grooves, both sides the buffer board respectively with the spread groove cooperation that corresponds.

2. The carton with the buffer mechanism as claimed in claim 1, wherein the buffer board is provided with a first socket and a second socket along the length direction thereof, the side of the buffer board away from the opposite buffer side, the fixing board is provided with a first crease, a fixing slot and a second crease along the length direction thereof, the fixing board is folded into a C-shaped structure along the first crease and the second crease and is embedded into the side edge of the buffer board corresponding to the first socket and the second socket.

3. A carton having a cushioning mechanism according to claim 2, wherein said first inserting hole, said second inserting hole and said fastening plate are symmetrically provided at front and rear ends of side edges of said cushioning plate.

4. The carton with the buffer mechanism as claimed in claim 2, wherein a placement groove is disposed in the middle of the side edge of the buffer plate, third insertion holes are disposed on two side walls of the placement groove, the fixing plate further comprises a third fold, a fourth fold, a fifth fold and a terminal fixing groove, the fixing plate is folded along the first fold, the second fold, the third fold, the fourth fold and the fifth fold in sequence to form a Z-shaped structure, and the terminal fixing groove of the fixing plate is matched with the third insertion hole.

5. The carton with the buffer mechanism as claimed in claim 4, wherein the placing groove is provided with buffer cotton.

6. The carton with the buffer mechanism as claimed in claim 1, wherein the upper side of the buffer board is provided with a fourth insertion opening, the connecting board is sequentially provided with a front connecting groove, a sixth crease, a seventh crease, a first connecting groove, an eighth crease, a ninth crease and a second connecting groove along the length direction thereof, the connecting board is folded along the sixth crease, the seventh crease, the eighth crease and the ninth crease to form a square tube shape and is matched with the corresponding fourth insertion opening, and the front connecting groove, the first connecting groove and the second connecting groove are embedded into the buffer board together.

7. The carton with the cushioning mechanism of claim 6, wherein the front end connecting groove, the sixth fold, the seventh fold, the first connecting groove, the eighth fold, the ninth fold and the second connecting groove are symmetrically arranged on two sides of the connecting plate.

8. A carton having a cushioning mechanism according to claim 1, wherein said connecting plate is provided at upper and lower sides thereof with lateral cushioning plates wound in a square tube shape.

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