CN113525866A

CN113525866A - Hexagon containing body

Info

Publication number: CN113525866A
Application number: CN202110788021.4A
Authority: CN
Inventors: 杨瑞链
Original assignee: Dong Guan Uning Metals & Plastic Product Co ltd
Current assignee: Dong Guan Uning Metals & Plastic Product Co ltd
Priority date: 2021-07-13
Filing date: 2021-07-13
Publication date: 2021-10-22

Abstract

The invention relates to the technical field of storage, and provides a hexagonal storage body which comprises three convex arc surfaces and three concave arc surfaces which are symmetrically distributed, wherein the convex arc surfaces are matched with the concave arc surfaces in shape, each convex arc surface is arranged between the two concave arc surfaces, and the three convex arc surfaces and the three concave arc surfaces surround to form a hexagonal storage space; two guide grooves or guide pillars are symmetrically arranged at two ends of each convex arc surface, two guide pillars or guide grooves are symmetrically arranged at two ends of each concave arc surface, and the guide pillars are matched with the guide grooves in shape. Therefore, the hexagonal accommodating body is simple in structure, flexible and convenient to combine and excellent in mechanical strength, and the plurality of hexagonal accommodating bodies can be combined to form the optimal accommodating space.

Description

Hexagon containing body

Technical Field

The invention relates to the technical field of storage, in particular to a hexagonal storage body.

Background

With the development of the economic living standard, people are pursuing effective utilization of space, and storage bodies such as storage boxes, storage boxes and storage barrels are just one of the arrangement tools commonly used by people. The storage body can collect various articles such as clothes, ornaments, daily necessities, wine bottles and the like in a classified manner, and is very convenient to store and use. The existing accommodating bodies are usually of independent structures, namely, any combination among a plurality of accommodating bodies cannot be realized so as to meet different accommodating requirements of users.

In view of the above, the prior art is obviously inconvenient and disadvantageous in practical use, and needs to be improved.

Disclosure of Invention

In view of the above-mentioned drawbacks, the present invention provides a hexagonal container that has a simple structure, is flexible and convenient to assemble, has a mechanically superior structural strength, and can be assembled into an optimal storage space.

In order to solve the technical problem, the invention provides a hexagonal container, which comprises three convex arc surfaces and three concave arc surfaces which are symmetrically distributed, wherein the convex arc surfaces are matched with the concave arc surfaces in shape, each convex arc surface is arranged between the two concave arc surfaces, and the three convex arc surfaces and the three concave arc surfaces surround to form a hexagonal containing space; two guide grooves or guide pillars are symmetrically arranged at two ends of each convex arc surface, two guide pillars or guide grooves are symmetrically arranged at two ends of each concave arc surface, and the guide pillars are matched with the guide grooves in shape.

According to the hexagonal accommodating body, the two guide grooves are two opposite guide grooves which are opposite to each other in direction, and the two guide columns are two opposite guide columns which are opposite to each other in direction.

According to the hexagonal accommodating body, the three convex arc surfaces and the three concave arc surfaces surround to form a hexagonal accommodating space with two open ends.

According to the hexagonal accommodating body, the bottom surface covers openings at one ends of the three convex arc-shaped surfaces and the three concave arc-shaped surfaces, and the three convex arc-shaped surfaces, the three concave arc-shaped surfaces and the bottom surface surround to form a hexagonal accommodating space with one closed end and the other open end.

According to the hexagonal accommodating body, the hexagonal accommodating space is used for accommodating and accommodating a predetermined article.

The hexagonal receptacle according to the present invention comprises a first hexagonal receptacle comprising three first convex arcuate surfaces and three first concave arcuate surfaces symmetrically distributed, and a second hexagonal receptacle comprising three second convex arcuate surfaces and three second concave arcuate surfaces symmetrically distributed;

the two guide posts or guide slots of one of the second concave arcuate surfaces of the second hexagonal receptacle interengage with the two guide slots or guide posts of one of the first convex arcuate surfaces of the first hexagonal receptacle such that the second hexagonal receptacle interengages with the first hexagonal receptacle.

According to the hexagonal receiving body, each first convex arc-shaped surface and each first concave arc-shaped surface of the first hexagonal receiving body are provided with corresponding first grooves;

each second convex arc-shaped surface and each second concave arc-shaped surface of the second hexagonal container are provided with corresponding second grooves;

after the second hexagonal receiving body and the first hexagonal receiving body are mutually jointed, the second groove of one second concave arc-shaped surface and the first groove of one first convex arc-shaped surface in mutual joint relation jointly form a first through groove, and the second concave arc-shaped surface and the first groove are assembled in the first through groove through a first locking piece so as to fix the second hexagonal receiving body and the first hexagonal receiving body.

The hexagonal receiving body further comprises a third hexagonal receiving body, wherein the third hexagonal receiving body comprises three third convex arc-shaped surfaces and three third concave arc-shaped surfaces which are symmetrically distributed;

after the second hexagonal receptacle and the first hexagonal receptacle are engaged with each other, the two guide slots or guide posts of one of the third convex arcuate surfaces of the third hexagonal receptacle and the two guide posts or guide slots of one of the first concave arcuate surfaces of the first hexagonal receptacle are engaged with each other so that the third hexagonal receptacle and the first hexagonal receptacle are engaged with each other;

the two guide posts or guide grooves of one of the third concave arcuate surfaces of the third hexagonal receptacle interengage with the two guide posts or guide grooves of one of the second convex arcuate surfaces of the second hexagonal receptacle such that the third hexagonal receptacle interengages with the second hexagonal receptacle.

each third convex arc-shaped surface and each third concave arc-shaped surface of the third hexagonal container are provided with corresponding third grooves;

after the second hexagonal receiving body and the first hexagonal receiving body are mutually jointed, the second groove of one second concave arc-shaped surface and the first groove of one first convex arc-shaped surface which are mutually jointed form a first through groove together, and the second concave arc-shaped surface and the first groove are combined in the first through groove through a first locking piece so as to fix the second hexagonal receiving body and the first hexagonal receiving body;

after the third hexagonal receiving body and the first hexagonal receiving body are mutually jointed, the third groove of one third convex arc-shaped surface and the first groove of one first concave arc-shaped surface which are mutually jointed form a second through groove together, and the third groove and the first concave arc-shaped surface are combined in the second through groove through a second locking piece so as to fix the third hexagonal receiving body and the first hexagonal receiving body;

after the third hexagonal receiving body and the second hexagonal receiving body are mutually jointed, the third groove of the third concave arc-shaped surface and the first groove of the second convex arc-shaped surface in mutual joint relation jointly form a third through groove, and the third through groove is connected and assembled in the third through groove through a third locking piece so as to fix the third hexagonal receiving body and the second hexagonal receiving body.

According to the hexagonal accommodating body, the first locking piece, the second locking piece and the third locking piece are screws.

The hexagonal accommodating body comprises three convex arc surfaces, three concave arc surfaces and a hexagonal accommodating space formed by enclosing the three convex arc surfaces and the three concave arc surfaces; two guide grooves or guide pillars are arranged at two ends of each convex arc surface, and two guide pillars or guide grooves are arranged at two ends of each concave arc surface. Wherein the two guide posts or guide grooves of one concave arc surface of one hexagonal receiving body can be mutually engaged with the two guide grooves or guide posts of one convex arc surface of the other hexagonal receiving body, so that at least two hexagonal receiving bodies are mutually engaged. Therefore, the invention can mutually joint at least two hexagonal containers according to actual needs, has simple structure and flexible and convenient combination, and meets various storage requirements of users; in addition, the invention adopts the honeycomb-like hexagonal receiving body, which not only has superior structural strength in mechanics, but also can form the optimal receiving space by combining a plurality of hexagonal receiving bodies.

Drawings

Fig. 1 is a perspective view of a hexagonal receiving body according to a first embodiment of the present invention;

fig. 2 is a side view of a hexagonal receptacle provided by a first embodiment of the present invention;

fig. 3 is a state view of the hexagonal container according to the first embodiment of the present invention;

FIG. 4 is a perspective view of a second embodiment of the present invention showing two hexagonal receiving bodies combined together;

FIG. 5 is a side view of a second embodiment of the present invention showing two hexagonal receptacles coupled together;

fig. 6 is a second perspective view of the combination of two hexagonal receiving bodies according to the second embodiment of the present invention;

fig. 7 is a third perspective view of the combination of two hexagonal receiving bodies according to the second embodiment of the present invention;

fig. 8 is a perspective view of a combination of three hexagonal receptacles according to a third embodiment of the present invention;

FIG. 9 is a side view of a third embodiment of the present invention providing a three hexagonal receptacles combination;

fig. 10 is a second perspective view of the combination of three hexagonal receiving bodies provided by the third embodiment of the present invention;

fig. 11 is a third perspective view of the combination of three hexagonal receiving bodies according to the third embodiment of the present invention;

reference numerals:

the first embodiment comprises the following steps: the article storage device comprises a first hexagonal storage body 1, a convex arc-shaped surface 10, a groove 11, a guide groove 12, a concave arc-shaped surface 20, a groove 21, a guide pillar 22, a first through groove 1121, a hexagonal accommodating space 1A, a first locking part 100 and an article 200;

the second embodiment comprises the following steps: the second hexagonal receiving body 2, the convex arc-shaped surface 10, the groove 11, the guide groove 12, the concave arc-shaped surface 20, the groove 21, the guide pillar 22, the first through groove 1121, the hexagonal receiving space 2A, and the second locking piece 100;

the third embodiment comprises the following steps: the third hexagonal receiving body 3, the convex arc surface 10, the groove 11, the guide groove 12, the concave arc surface 20, the groove 21, the guide pillar 22, the first through groove 1121, the hexagonal receiving space 3A, and the third locking member 100.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It should be noted that references in the specification to "one embodiment," "an example embodiment," etc., indicate that the embodiment described may include a particular feature, structure, or characteristic, but every embodiment may not necessarily include the particular feature, structure, or characteristic. Moreover, such phrases are not intended to refer to the same embodiment. Further, when a particular feature, structure, or characteristic is described in connection with an embodiment, it is submitted that it is within the knowledge of one skilled in the art to effect such feature, structure, or characteristic in connection with other embodiments whether or not explicitly described.

Moreover, where certain terms are used throughout the description and following claims to refer to particular components or features, those skilled in the art will understand that manufacturers may refer to a component or feature by different names or terms. This specification and the claims that follow do not intend to distinguish between components or features that differ in name but not function. In the following description and in the claims, the terms "include" and "comprise" are used in an open-ended fashion, and thus should be interpreted to mean "include, but not limited to. In addition, the term "connected" as used herein includes any direct and indirect electrical connection. Indirect electrical connection means include connection by other means.

The hexagonal container according to the embodiment of the present invention is described in detail with reference to the accompanying drawings through specific embodiments and application scenarios thereof.

Fig. 1 to 3 show a hexagonal housing structure according to a first embodiment of the present invention, which includes a first hexagonal housing 1, and the first hexagonal housing 1 may be a hexagonal housing box, a housing tube, or the like. First hexagon receiver 1 includes three first protruding arc surface 10 and three first sunken arc surface 20 of symmetric distribution, first protruding arc surface 10 and the shape looks adaptation of first sunken arc surface 20, and every first protruding arc surface 10 establishes between two first sunken arc surfaces 20, and three first protruding arc surface 10 and three first sunken arc surface 20 surround and form a hexagon accommodation space 1A.

Two guide grooves 12 or guide posts 22 are symmetrically arranged at two ends of each first convex arc-shaped surface 10, two guide posts 22 or guide grooves 12 are symmetrically arranged at two ends of each first concave arc-shaped surface 20, and the guide posts 22 are matched with the shapes of the guide grooves 12. In this embodiment, as shown in fig. 1 to 3, two guide slots 12 are symmetrically disposed at two ends of each first convex arc surface 10, two guide posts 22 are symmetrically disposed at two ends of each first concave arc surface 20, and the guide posts 22 are adapted to the shape of the guide slots 12. Of course, two guide posts 22 (not shown) may be symmetrically disposed at two ends of each first convex arc surface 10, two guide slots 12 (not shown) may be symmetrically disposed at two ends of each first concave arc surface 20, and the guide posts 22 are adapted to the shape of the guide slots 12.

Alternatively, as shown in fig. 2, the two guide slots 12 of each first convex curved surface 10 are two opposite guide slots 12 facing each other, and the two guide posts 22 of each first concave curved surface 20 are two opposite guide posts 22 facing each other.

Alternatively, as shown in fig. 1, three first convex arc surfaces 10 and three first concave arc surfaces 20 surround to form a hexagonal accommodating space 1A with two open ends.

Optionally, the first hexagonal receiving body 1 further includes a bottom surface (not shown), the bottom surface covers an opening at one end of the three first convex arc surfaces 10 and the three first concave arc surfaces 20, and the three first convex arc surfaces 10, the three first concave arc surfaces 20 and the bottom surface surround to form a hexagonal receiving space 1A with one closed end and the other open end.

Optionally, the hexagonal accommodating space 1A is used for accommodating and accommodating predetermined articles 200, and the articles 200 include, but are not limited to, various articles such as clothes, jewelry, daily necessities, wine bottles, and the like.

Alternatively, as shown in fig. 2, each first convex arc surface 10 of the first hexagonal receptacle 1 is provided with a first groove 11, and each first concave arc surface 20 is provided with a corresponding first groove 21.

The hexagonal receiving body in this example includes three protruding arc surfaces, three sunken arc surfaces and surrounds and forms a hexagonal accommodation space, similar honeycomb structure. Two guide grooves are arranged at two ends of the convex arc surface, and two guide columns are arranged at two ends of the concave arc surface. The two guide posts of one concave arc surface of one hexagonal receptacle are engageable with the two guide grooves of one convex arc surface of the other hexagonal receptacle to engage at least two hexagonal receptacles with each other. The invention can mutually joint at least two hexagonal containers according to actual needs, and has simple structure and flexible and convenient combination; in addition, the invention adopts the honeycomb-like hexagonal receiving bodies, the hexagon is the shape closest to the circle, the structure strength is superior in mechanics, and the plurality of hexagonal receiving bodies can be combined to form the optimal receiving space.

Fig. 4 to 7 show a hexagonal receptacle structure provided by a second embodiment of the present invention, including a first hexagonal receptacle 1 and a second hexagonal receptacle 2, and all of the engaged at least two hexagonal receptacles of the present invention have the same structure and size. The first and second

hexagonal containers

1 and 2 may be hexagonal containers, or the like. First hexagon receiver 1 includes three first protruding arc surface 10 and three first sunken arc surface 20 of symmetric distribution, first protruding arc surface 10 and the shape looks adaptation of first sunken arc surface 20, and every first protruding arc surface 10 establishes between two first sunken arc surfaces 20, and three first protruding arc surface 10 and three first sunken arc surface 20 surround and form a hexagon accommodation space 1A. The second hexagonal receptacle 2 comprises three second convex curved surfaces 10 and three second concave curved surfaces 20, which are symmetrically distributed. The shape of the second convex arc-shaped surfaces 10 is matched with that of the second concave arc-shaped surfaces 20, each second convex arc-shaped surface 10 is arranged between two second concave arc-shaped surfaces 20, and the three second convex arc-shaped surfaces 10 and the three second concave arc-shaped surfaces 20 surround to form a hexagonal accommodating space 2A.

In the first hexagonal receiving body 1, two guide grooves 12 or guide pillars 22 are symmetrically arranged at two ends of each first convex arc-shaped surface 10, two guide pillars 22 or guide grooves 12 are symmetrically arranged at two ends of each first concave arc-shaped surface 20, and the guide pillars 22 are matched with the guide grooves 12 in shape. In the second hexagonal receiving body 2, two guide grooves 12 or guide pillars 22 are symmetrically arranged at two ends of each second convex arc-shaped surface 10, two guide pillars 22 or guide grooves 12 are symmetrically arranged at two ends of each second concave arc-shaped surface 20, and the guide pillars 22 are matched with the guide grooves 12 in shape. The two guide posts 22 or guide grooves 12 of a second concave arc surface 20 of the second hexagonal receptacle 2 are engaged with the two guide grooves 12 or guide posts 22 of a first convex arc surface 10 of the first hexagonal receptacle 1, so that the second hexagonal receptacle 2 is engaged with the first hexagonal receptacle 1.

In this embodiment, as shown in fig. 5, two guide grooves 12 are symmetrically formed at two ends of each first convex arc-shaped surface 10 of the first hexagonal receiving body 1, two guide posts 22 are symmetrically formed at two ends of each first concave arc-shaped surface 20, and the guide posts 22 are adapted to the shape of the guide grooves 12. Two guide grooves 12 are symmetrically arranged at two ends of each second convex arc-shaped surface 10 of the second hexagonal receiving body 2, two guide posts 22 are symmetrically arranged at two ends of each second concave arc-shaped surface 20, and the guide posts 22 are matched with the shapes of the guide grooves 12. The two guide posts 22 of one second concave arc surface 20 of the second hexagonal receptacle 2 are engaged with the two guide grooves 12 of one first convex arc surface 10 of the first hexagonal receptacle 1, so that the second hexagonal receptacle 2 is engaged with the first hexagonal receptacle 1.

Alternatively, as shown in fig. 5, each first convex arc surface 10 of the first hexagonal receptacle 1 is provided with a first groove 11, and each first concave arc surface 20 is provided with a corresponding first groove 21. Each second convex curved surface 10 of the second hexagonal receptacle 2 is provided with a second groove 11, and each second concave curved surface 20 is provided with a corresponding second groove 21. After the second hexagonal receiving body 2 and the first hexagonal receiving body 1 are engaged with each other, as shown in fig. 5, the second groove 21 of the second concave arc surface 20 and the first groove 11 of the first convex arc surface 10 in the engaged relationship form a first through groove 1121 together, and are assembled in the first through groove 1121 through the first locking member 100, so that the two guide posts 22 at the two ends of the second concave arc surface 20 of the second hexagonal receiving structure 2 abut against the two guide grooves 12 at the two ends of the first convex arc surface 10 of the first hexagonal receiving structure 1 to fix the second hexagonal receiving body 2 and the first hexagonal receiving body 1.

Alternatively, as shown in fig. 5, the two guide slots 12 of each of the first convex curved surface 10 and the second convex curved surface 10 are two opposite guide slots 12 facing each other, and the two guide posts 22 of each of the first concave curved surface 20 and the second concave curved surface 20 are two opposite guide posts 22 facing each other.

The first locking member 100 is preferably a screw. Of course, the first locking member 100 may also be a rivet, a snap, etc. Preferably, the first through groove 1121, which is formed by the first locking member 100 and is disposed between the first hexagonal housing structure 1 and the second hexagonal housing structure 2, is used to fasten the first hexagonal housing structure 1 and the second hexagonal housing structure 2 by twisting the first locking member 100 to make the two opposite guide posts 22 at the two ends of the second concave arc-shaped surface 20 of the second hexagonal housing structure 2 abut against the two opposite guide grooves 12 at the two ends of the first convex arc-shaped surface 10 of the first hexagonal housing structure 1.

Optionally, the hexagonal accommodating space 1A and the hexagonal accommodating space 2A are used for accommodating predetermined articles 200, and the articles 200 include, but are not limited to, various articles such as clothes, jewelry, daily necessities, wine bottles, and the like.

Fig. 8 to 11 show a hexagonal receptacle structure provided by a third embodiment of the present invention, including a first hexagonal receptacle 1, a second hexagonal receptacle 2, and a third hexagonal receptacle 3, and all of the engaged at least two hexagonal receptacles of the present invention have the same structure and size. The first hexagonal receptacle 1, the second hexagonal receptacle 2, and the third hexagonal receptacle 3 may be hexagonal receptacles, receptacles boxes, receptacles cylinders, or the like.

First hexagon receiver 1 includes three first protruding arc surface 10 and three first sunken arc surface 20 of symmetric distribution, as shown in fig. 8 ~ 9, first protruding arc surface 10 and the shape looks adaptation of first sunken arc surface 20, and every first protruding arc surface 10 establishes between two first sunken arc surfaces 20, and three first protruding arc surface 10 and three first sunken arc surface 20 surround and form a hexagon accommodation space 1A.

The second hexagonal receiving body 2 comprises three second convex arc surfaces 10 and three second concave arc surfaces 20 which are symmetrically distributed, as shown in fig. 8-9, the shapes of the second convex arc surfaces 10 and the second concave arc surfaces 20 are matched, each second convex arc surface 10 is arranged between two second concave arc surfaces 20, and the three second convex arc surfaces 10 and the three second concave arc surfaces 20 surround to form a hexagonal receiving space 2A.

The third hexagonal receptacle 3 includes three third protruding arc surfaces 10 and three third sunken arc surfaces 20 that the symmetry distributes, as shown in fig. 8 ~ 9, the shape looks adaptation of the protruding arc surface 10 of third and the third sunken arc surface 20 of third, and every protruding arc surface 10 of third establishes between two third sunken arc surfaces 20, and three protruding arc surfaces 10 of third and three third sunken arc surfaces 20 surround and form a hexagon accommodation space 3A.

In this embodiment, as shown in fig. 9, two guide grooves 12 are symmetrically formed at two ends of each first convex arc-shaped surface 10 of the first hexagonal receiving body 1, two guide posts 22 are symmetrically formed at two ends of each first concave arc-shaped surface 20, and the guide posts 22 are adapted to the shape of the guide grooves 12. Two guide grooves 12 are symmetrically arranged at two ends of each second convex arc-shaped surface 10 of the second hexagonal receiving body 2, two guide posts 22 are symmetrically arranged at two ends of each second concave arc-shaped surface 20, and the guide posts 22 are matched with the shapes of the guide grooves 12. The two guide posts 22 of one second concave arc surface 20 of the second hexagonal receptacle 2 are engaged with the two guide grooves 12 of one first convex arc surface 10 of the first hexagonal receptacle 1, so that the second hexagonal receptacle 2 is engaged with the first hexagonal receptacle 1.

Two guide grooves 12 or guide pillars 22 are symmetrically arranged at two ends of each third convex arc-shaped surface 10 of the third hexagonal receiving body 3, two guide pillars 22 or guide grooves 12 are symmetrically arranged at two ends of each third concave arc-shaped surface 20, and the guide pillars 22 are matched with the guide grooves 12 in shape. As shown in fig. 9, in the present embodiment, two guide grooves 12 are symmetrically formed at two ends of each third convex arc-shaped surface 10 of the third hexagonal receiving body 3, two guide posts 22 are symmetrically formed at two ends of each third concave arc-shaped surface 20, and the guide posts 22 are adapted to the shape of the guide grooves 12.

After the second hexagonal receptacle 2 and the first hexagonal receptacle 1 are coupled to each other, the two guide grooves 12 or guide posts 22 of one third convex curved surface 10 of the third hexagonal receptacle 3 and the two guide posts 22 or guide grooves 12 of one first concave curved surface 20 of the first hexagonal receptacle 1 are coupled to each other, so that the third hexagonal receptacle 3 and the first hexagonal receptacle 1 are coupled to each other. Preferably, as shown in fig. 9, the two guide grooves 12 of one third convex arc surface 10 of the third hexagonal receptacle 3 are engaged with the two guide posts 22 of one first concave arc surface 20 of the first hexagonal receptacle 1, so that the third hexagonal receptacle 3 is engaged with the first hexagonal receptacle 1.

The two guide posts 22 or guide grooves 12 of a third concave curved surface 20 of the third hexagonal receptacle 3 are engaged with the two guide grooves 12 or guide posts 22 of a second convex curved surface 10 of the second hexagonal receptacle 2, so that the third hexagonal receptacle 3 is engaged with the second hexagonal receptacle 2. Preferably, as shown in fig. 9, the two guide posts 22 of one third concave arc surface 20 of the third hexagonal receptacle 3 are engaged with the two guide grooves 12 of one second convex arc surface 10 of the second hexagonal receptacle 2, so that the third hexagonal receptacle 3 is engaged with the second hexagonal receptacle 2.

Alternatively, as shown in fig. 9, the two guide slots 12 of each of the first convex curved surface 10, the second convex curved surface 10 and the third convex curved surface 10 are two opposite guide slots 12 facing each other, and the two guide posts 22 of each of the first concave curved surface 20, the second concave curved surface 20 and the third concave curved surface 20 are two opposite guide posts 22 facing each other.

Alternatively, as shown in fig. 9, each first convex arc surface 10 of the first hexagonal receptacle 1 is provided with a first groove 11, and each first concave arc surface 20 is provided with a corresponding first groove 21. Each second convex curved surface 10 of the second hexagonal receptacle 2 is provided with a second groove 11, and each second concave curved surface 20 is provided with a corresponding second groove 21. Each second convex curved surface 10 of the third hexagonal receptacle 3 is provided with a third groove 11, and each third concave curved surface 20 is provided with a corresponding third groove 21.

As shown in fig. 9, after the second hexagonal receptacle 2 and the first hexagonal receptacle 1 are engaged with each other, the second recess 21 of the second concave arc surface 20 and the first recess 11 of the first convex arc surface 10 in the engaged relationship form a first through groove 1121, and are engaged with the first through groove 1121 through the first locking member 100 to fix the second hexagonal receptacle 2 and the first hexagonal receptacle 1.

As shown in fig. 9, after the third hexagonal receptacle 3 and the first hexagonal receptacle 1 are engaged with each other, the third concave groove 11 of a third convex arc surface 10 and the first concave groove 21 of a first concave arc surface 20 in the engaged relationship form a second through groove 1121, and are engaged with the second through groove 1121 by the second locking member 100 to fix the third hexagonal receptacle 3 and the first hexagonal receptacle 1.

As shown in fig. 9, after the third hexagonal receptacle 3 and the second hexagonal receptacle 2 are engaged with each other, the third concave recess 21 of the third concave arc surface 20 and the first concave recess 11 of the second convex arc surface 10 in the engaged relationship form a third through-slot 1121, and are engaged with the third through-slot 1121 by the third locking member 100 to fix the third hexagonal receptacle 3 and the second hexagonal receptacle 2.

Optionally, the first, second and

third locking members

100, 100 are screws.

Optionally, the hexagonal accommodating space 1A, the hexagonal accommodating space 2A and the hexagonal accommodating space 3A are used for accommodating predetermined articles 200, and the articles 200 include but are not limited to various articles such as clothes, jewelry, daily necessities, wine bottles, and the like.

The application provides 2 hexagonal receivers, the embodiment that 3 hexagonal receivers mutually jointed, and the number of hexagonal receivers that actually mutually jointed is not specifically restricted, can set for wantonly according to user's actual demand, for example 7 hexagonal receivers, 72 hexagonal receivers, 120 hexagonal receivers mutually jointed etc. constitute similar honeycomb structure jointly.

In summary, the hexagonal container of the invention comprises three convex arc surfaces, three concave arc surfaces and a hexagonal accommodating space formed by the three concave arc surfaces and the three concave arc surfaces; two guide grooves or guide pillars are arranged at two ends of each convex arc surface, and two guide pillars or guide grooves are arranged at two ends of each concave arc surface. Wherein the two guide posts or guide grooves of one concave arc surface of one hexagonal receiving body can be mutually engaged with the two guide grooves or guide posts of one convex arc surface of the other hexagonal receiving body, so that at least two hexagonal receiving bodies are mutually engaged. Therefore, the invention can mutually joint at least two hexagonal containers according to actual needs, has simple structure and flexible and convenient combination, and meets various storage requirements of users; in addition, the invention adopts the honeycomb-like hexagonal receiving body, which not only has superior structural strength in mechanics, but also can form the optimal receiving space by combining a plurality of hexagonal receiving bodies.

The present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof, and it should be understood that various changes and modifications can be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims

1. A hexagonal accommodating body is characterized by comprising three convex arc surfaces and three concave arc surfaces which are symmetrically distributed, wherein the convex arc surfaces are matched with the concave arc surfaces in shape, each convex arc surface is arranged between the two concave arc surfaces, and the three convex arc surfaces and the three concave arc surfaces surround to form a hexagonal accommodating space; two guide grooves or guide pillars are symmetrically arranged at two ends of each convex arc surface, two guide pillars or guide grooves are symmetrically arranged at two ends of each concave arc surface, and the guide pillars are matched with the guide grooves in shape.

2. The hexagonal receptacle of claim 1, wherein the two guide slots are two opposite guide slots facing each other, and the two guide posts are two opposite guide posts facing each other.

3. The hexagonal receptacle of claim 1, wherein the three convex arc surfaces and the three concave arc surfaces surround to form a hexagonal receiving space with two open ends.

4. The hexagonal receptacle of claim 1, further comprising a bottom surface covering an opening at one end of the three convex arc surfaces and the three concave arc surfaces, wherein the three convex arc surfaces, the three concave arc surfaces and the bottom surface surround to form a hexagonal receiving space with one closed end and the other open end.

5. The hexagonal receiving body according to claim 1, wherein the hexagonal receiving space is configured to receive and receive a predetermined article.

6. The hexagonal receptacle of any one of claims 1 to 5, comprising a first hexagonal receptacle comprising three first convex arcuate surfaces and three first concave arcuate surfaces symmetrically distributed and a second hexagonal receptacle comprising three second convex arcuate surfaces and three second concave arcuate surfaces symmetrically distributed;

7. The hexagonal receptacle of claim 6, wherein each first convex arcuate surface and each first concave arcuate surface of the first hexagonal receptacle has a corresponding first groove disposed thereon;

8. The hexagonal receptacle of any one of claim 6, further comprising a third hexagonal receptacle comprising three third convex arcuate surfaces and three third concave arcuate surfaces symmetrically distributed;

9. The hexagonal receptacle of claim 8, wherein each first convex arcuate surface and each first concave arcuate surface of the first hexagonal receptacle has a corresponding first groove disposed thereon;

after the second hexagonal receiving body and the first hexagonal receiving body are mutually jointed, the second groove of one second concave arc-shaped surface and the first groove of one first convex arc-shaped surface which are mutually jointed form a first through groove, and the second concave arc-shaped surface and the first groove are connected and combined in the first through groove through a first locking piece so as to fix the second hexagonal receiving body and the first hexagonal receiving body;

after the third hexagonal receiving body and the second hexagonal receiving body are mutually jointed, the third groove of one third concave arc-shaped surface and the first groove of one second convex arc-shaped surface in mutual joint relation jointly form a third through groove, and the third through groove is assembled in the third through groove through a third locking piece so as to fix the third hexagonal receiving body and the second hexagonal receiving body.

10. The hexagonal receptacle of claim 9, wherein the first, second, and third fasteners are screws.