Dual-Cavity Anti-Scratching Glasses Storage Box

The present disclosure relates to the technical field of glasses, and in particular, to a dual-cavity anti-scratching glasses storage box.

Glasses are formed by combining lenses and a framework and are used to improve the eyesight, protect the eyes, or for decorative purposes. The glasses can correct various eyesight problems, including myopia, hyperopia, astigmatism, presbyopia, strabismus, amblyopia, or the like.

The current framework typically includes a glasses frame and two glasses legs. The glasses legs can be folded relative to the glasses frame, so that the glasses can stored in a glasses box when not in use. This facilitates carrying and storage. The current glasses box can usually only store a single pair of glasses, but when a user has a plurality of pairs of glasses, for example, when a user has nearsighted glasses and sunglasses, the user needs to use two glasses boxes to store the two pairs of glasses separately. As a result, there are many glasses boxes, and it is inconvenient to carry these glasses boxes. There is also a multi-cavity glasses box on the market that can simultaneously accommodate a plurality of pairs of glasses. In most of these products, an opening of each cavity is separately controlled, to avoid interference. However, this structure is extremely complex and has higher costs. Some glasses boxes employ a dual-cavity design, but the cavity design is not proper because it is easy for two pairs of glasses to scratch each other after being put into this box. The above problems need to be solved urgently.

The present disclosure aims to overcome the defects and drawbacks in the prior art and to provide a dual-cavity anti-scratching glasses storage box.

An embodiment of the present disclosure provides a dual-cavity anti-scratching glasses storage box, including:

In some optional implementations, a first groove is provided in the first storage structure; a first partition is arranged at an opening of the first groove; the first cavity is formed between the first partition and an inner wall of the first groove; the placement opening of the first cavity is formed between the opening of the first groove and an edge of the first partition;

In some optional implementations, a first elastic band is arranged on the first partition; and the first elastic band is arranged at an edge of the placement opening of the first cavity and extends along the edge of the placement opening of the first cavity.

In some optional implementations, a second groove is provided in the second storage structure; a second partition is arranged at an opening of the second groove; the second cavity is formed between the second partition and an inner wall of the second groove; the placement opening of the second cavity is formed between the opening of the second groove and an edge of the second partition;

In some optional implementations, a second elastic band is arranged on the first partition; and the first elastic band is arranged at an edge of the placement opening of the first cavity and extends along the edge of the placement opening of the first cavity.

In some optional implementations, a side edge of the first storage structure and a side edge of the second storage structure are in rotatable fit through a rotating structure to achieve mutual movable connection between the first storage structure and the second storage structure.

In some optional implementations, a first zipper structure is further arranged on the side edge of the first storage structure; the first zipper structure is arranged around the first storage structure; two ends of the first zipper structure respectively extend to two ends of the rotating structure;

In some optional implementations, the first storage structure and the second storage structure are detachably connected to achieve mutual movable connection between the first storage structure and the second storage structure.

In some optional implementations, the first storage structure and the second storage structure are detachably connected through a fastener structure, a magnetic suction structure, or a threaded structure.

Compared with the prior art, the dual-cavity anti-scratching glasses storage box including the first cavity and the second cavity can simultaneously store two pairs of glasses and is portable. Furthermore, the placement opening of the first cavity and the placement opening of the second cavity are staggered from each other, so that the glasses inside the second cavity cannot be scratched when the glasses is placed into or taken out of the first cavity, and the glasses inside the first cavity cannot be scratched when the glasses is placed into or taken out of the second cavity. Safety during placement, fetching, and storage of the glasses is effectively improved; mutual rubbing between eyeglasses can be avoided; an effect of protecting the eyeglasses is achieved.

In order to have a clearer understanding of the present disclosure, specific implementations of the present disclosure are described below in combination with the accompanying drawings.

: first storage structure;: first cavity;: first groove;: first partition;: first elastic band;: first zipper structure;: second storage structure;: second cavity;: second groove;: second partition;: second elastic band;: second zipper structure;: placement opening; and: flexible structure.

The technical solutions in the embodiments of the present disclosure are clearly and completely described below with reference to the accompanying drawings in the embodiments of present disclosure. Referring toto, an embodiment of the present disclosure provides a dual-cavity anti-scratching glasses storage box, including:

A first cavityis formed in an inner cavity of the first storage structure, and a second cavityis formed in an inner side of the second storage structure. Both the first cavityand the second cavityhave placement openings.

The first storage structureand the second storage structurecan be moved to a mutually closed position and to a mutually opened position. When the first storage structureand the second storage structureare in the opened position, the placement openingof the first cavityis staggered from the placement openingof the second cavityin a preset direction from the first storage structureto the second storage structure.

Since the placement openingof the first cavityand the placement openingof the second cavityare staggered from each other, if a pair of glasses is stored in the second cavity, when a pair of glasses is placed into or taken out of the first cavity, the glasses corresponding to the first cavitywill not scratch the glasses in the second cavity. Similarly, if a pair of glasses is stored in the first cavity, when a pair of glasses is placed into or taken out of the second cavity, the glasses corresponding to the second cavitywill not scratch the glasses in the first cavity, thereby effectively improving safety of the glasses during the placement and fetching and avoiding wear and scratches on the glasses. Preferably, in the preset direction, the placement openingof the first cavityis located on a right side of the first cavity, while the placement openingof the second cavityis located on a left side of the first cavity.

In this implementation, when the first storage structureand the second storage structureare in the closed position, the placement openingof the first cavityis covered and blocked by the second storage structure, so the glasses will not fall off from the first cavity; and the placement openingof the second cavityis covered and blocked by the first storage structure, so the glasses will not fall off from the second cavity. Moreover, since the placement openingof the first cavityand the placement openingof the second cavityare staggered from each other, parts, close to the placement opening, of the glasses in the first cavityand parts, close to the placement opening, of the glasses in the second cavityare prevented from scratching each other due to shaking when the dual-cavity anti-scratching glasses storage box is carried.

A formation mode of the first cavitycan be designed according to an actual need. For example, in some optional implementations, a first grooveis provided in the first storage structure; a first partitionis arranged at an opening of the first groove. The first cavityis formed between the first partitionand an inner wall of the first groove; and the placement openingof the first cavityis formed between the opening of the first grooveand an edge of the first partition.

Referring to, when the first storage structureand the second storage structureare in the closed position, the first partitionis located on one side of the first storage structurefacing the second storage structure. The placement openingof the second cavityis arranged corresponding to the position of the first partition. The first partitionplays a partitioning role to form the first cavity. Furthermore, when a pair of glasses is stored in the second cavityand the first storage structureand the second storage structureare in the closed position, due to the obstruction of the first partition, parts, close to the placement openingof the second cavity, of the glasses in the second cavitywill not directly collide with glasses in the first cavity. The first partitionachieves an effect of separating the glasses in the first cavityfrom the glasses in the second cavity, thereby avoiding mutual scratching between the glasses in the first cavityfrom the glasses in the second cavitydue to shaking when the dual-cavity anti-scratching glasses storage box is carried.

In some optional implementations, a first elastic bandis arranged on the first partition; and the first elastic bandis arranged at an edge of the placement openingof the first cavityand extends along the edge of the placement openingof the first cavity. An elastic force of the first elastic bandis used to tighten the glasses in the first cavity, to help fix the glasses or prevent the glasses from sliding out of the first cavity, thereby improving stability of storage of the glasses in the first cavity.

In some optional implementations, a second grooveis provided in the second storage structure; a second partitionis arranged at an opening of the second groove; the second cavityis formed between the second partitionand an inner wall of the second groove; the placement openingof the second cavityis formed between the opening of the second grooveand an edge of the second partition.

Referring to, when the first storage structureand the second storage structureare in the closed position, the second partitionis arranged on one side of the second storage structurefacing the second storage structure; and the placement openingof the second cavityis arranged corresponding to a position of the second partition. The first partitionplays a partitioning role to form the second cavity. Furthermore, when a pair of glasses is stored in the first cavityand the second storage structureand the first storage structureare in the closed position, due to the obstruction of the second partition, parts, close to the placement openingof the first cavity, of the glasses in the first cavitywill not directly collide with glasses in the second cavity. The second partitionachieves an effect of separating the glasses in the second cavityfrom the glasses in the first cavity, thereby avoiding mutual scratching between the glasses in the second cavityfrom the glasses in the first cavitydue to shaking when the dual-cavity anti-scratching glasses storage box is carried.

In this implementation, when the first storage structureand the second storage structureare in the closed position, the placement openingof the first cavityis substantially closed by the second partition, and the placement openingof the second cavityis substantially closed by the first partition.

In some optional implementations, a second elastic bandis arranged on the second partition; and the second elastic bandis arranged at an edge of the placement openingof the second cavityand extends along the edge of the placement openingof the second cavity. An elastic force of the second elastic bandis used to tighten or bind the glasses in the second cavity, to help fix the glasses or prevent the glasses from sliding out of the second cavity, thereby improving stability of storage of the glasses in the second cavity.

In some optional implementations, a side edge of the first storage structureand a side edge of the second storage structureare in rotatable fit through a rotating structure to achieve mutual movable connection between the first storage structureand the second storage structure. A user can flip the first storage structureor the second storage structure, or flip the first storage structureand the second storage structureat the same time, to move the first storage structureand the second storage structureto the closed position and the opened position.

A mode for implementing the rotatable fit between the side edge of the first storage structureand the side edge of the second storage structurecan be designed according to an actual need. For example, the rotatable fit between the side edge of the first storage structureand the side edge of the second storage structureis implemented through a hinge. Or, the side edge of the first storage structureand the side edge of the second storage structureare connected through flexible cloth or another flexible structure. The rotatable fit between the side edge of the first storage structureand the side edge of the second storage structureis implemented based on a bending characteristic of a flexible structure. In this implementation, the rotatable fit between the side edge of the first storage structureand the side edge of the second storage structureis implemented through the flexible structure.

In some optional implementation, a first zipper structureis further arranged on the side edge of the first storage structure; the first zipper structureis arranged around the first storage structure; and two ends of the first zipper structurerespectively extend to two ends of the rotating structure. A second zipper structureis further arranged on the side edge of the second storage structure; the second zipper structureis arranged around the second storage structure; two ends of the second zipper structurerespectively extend to two ends of the rotating structure; and the first zipper structureand the second zipper structurecan be locked to and separated from each other. When moved to the closed position, the first storage structureand the second storage structurecan be locked to each other through the first zipper structureand the second zipper structure, thereby fixing the first storage structureand the second storage structurein the closed position. Certainly, in another embodiment, the first storage structureand the second storage structurecan also be restricted in the closed position by a magnetic suction structure or a fastener structure.

In some optional implementations, the first storage structureand the second storage structureare detachably connected, thereby implementing the mutual movable connection between the first storage structureand the second storage structure. In this case, the first storage structureand the second storage structureare moved to the opened position by being separated from each other, and are moved to the closed position by being detachably connected to each other.

In some optional implementations, the first storage structureand the second storage structureare detachably connected through a fastener structure, a magnetic suction structure, or a threaded structure. When the first storage structureand the second storage structureneed to be moved to the opened position, the first storage structureand the second storage structureare separated. When the first storage structureand the second storage structureneed to be moved to the closed position, the first storage structureand the second storage structureare connected through the fastener structure, the magnetic suction structure, or the threaded structure. For example, in one embodiment, magnets are respectively arranged at two ends of the first storage structure, while iron pieces are arranged on two sides of the second storage structure. The first storage structureattracts the iron pieces on the two sides of the second storage structurethrough the magnets on the two sides of the first storage structure, thereby connecting the first storage structureand the second storage structureto each other and maintaining them in the closed position. When the first storage structureand the second storage structureneed to be moved to the opened position, one of the magnets releases one iron piece, and then the first storage structurecan be flipped to one side of the second storage structure, thereby moving the first storage structureand the second storage structureto the opened position, while the other magnet and the other iron piece are maintained in attraction, so that the first storage structureand the second storage structureare arranged side by side to maintain the connection.

Although the embodiments of the present disclosure have been shown and described, it can be understood by those of ordinary skill in the art that various changes, modifications, substitutions, and variations can be made to these embodiments without departing from the principle and spirit of the present disclosure. The scope of the present disclosure is defined by the accompanying claims and their equivalents.