Foldable container and cleaning tool assembly

A foldable container and a cleaning tool assembly are provided. The foldable container includes a foldable side wall disposed annularly. The foldable side wall includes two adjacent connecting parts connected through a flexible part. When the foldable container is unfolded, the connecting parts rotate around a fold part on the flexible part. A first abutting part and a second abutting part are respectively disposed on two sides of the fold part and are arranged on the flexible part or the connecting parts. When the foldable container is in an unfolded state, the first abutting part abuts against the second abutting part. The cleaning tool assembly includes a cleaning tool and the foldable container. When the foldable container is unfolded to be used, the first abutting part abuts against the second abutting part.

CROSS REFERENCE TO THE RELATED APPLICATIONS

This application is based upon and claims priority to Chinese Patent Application No. 201921330824.X, filed on Aug. 16, 2019, the entire contents of which are incorporated herein by reference.

TECHNICAL FIELD

The present invention relates to the field of domestic storage containers, in particular to a foldable container and a cleaning tool assembly, BACKGROUND

Some common domestic storage containers, such as dirty clothes hampers, dustbins and basins, are designed to be foldable so as to be transferred easily and to save the storage space. Along with the simplification of structures and the improvements on materials, the folding part of these foldable storage containers is typically formed by directly folding and unfolding flexible materials such as soft rubber. These flexible materials can be stably self-supported when folded and unfolded. For example, Chinese Utility Model Patent Publication No. CN203319069U discloses a stretchable vehicle dustbin, and Chinese Design Patent Publication No. CN3044624835 discloses a basin (foldable basin).

The folds as the weakest parts of these designs compromise the force bearing capacity of the whole side wall and are not yet specially improved in the prior art.

SUMMARY

The objective of the present invention is to overcome the above-mentioned drawbacks of the prior art by providing a foldable container, which can ensure the good force bearing capacity of the side wall when the foldable container is unfolded to be used.

The technical solution adopted by the present invention to solve the afore-mentioned problems is to provide a foldable container, which comprises a foldable side wall which is disposed annularly, wherein the foldable side wall comprises two adjacent connecting parts which are connected through a flexible part; when the foldable container is to be unfolded, the connecting parts rotate around a fold part on the flexible part; a first abutting part and a second abutting part are respectively disposed on two sides of the fold part and are arranged on the flexible part or the connecting parts; and when the foldable container is in an unfolded state, the first abutting part abuts against the second abutting part.

Furthermore, the flexible part has a concave surface, wherein the fold part is located on the concave surface, and the first abutting part and the second abutting part are arranged on the concave surface of the flexible part and are located at two ends of the concave surface respectively.

Furthermore, the first abutting part and/or the second abutting part are/is protrusions formed on the connecting parts.

Furthermore, the foldable container further comprises a rigid bottom and a rigid top, and the bottom and the top are connected through the side wall.

Furthermore, the number of the connecting parts is three, and the three connecting parts are respectively a first connecting part, a second connecting part and a third connecting part; the two ends of the second connecting part are connected to the first connecting part and the third connecting part through flexible parts respectively; and when to be folded, the folding direction of the first connecting part and the second connecting part is opposite to that of the first connecting part and the third connecting part.

Furthermore, the number of the connecting parts is an odd number greater than three.

Furthermore, the bottom and the top are made of hard rubber, and the side wall is made of soft rubber.

Furthermore, the side wall is connected to the bottom through hot melting or bonding, and the side wall is connected to the top through hot melting or bonding.

The present invention further provides a cleaning tool assembly which comprises a cleaning tool and the foldable container, wherein the cleaning tool is received in the foldable container in a folded state. Compared with separated transportation of the cleaning tool and the foldable container, the overall size of the cleaning tool and the foldable container transported as an assembly is reduced, thus effectively reducing the transportation cost.

When the foldable container provided by the present invention is unfolded to be used, the first abutting part abuts against the second abutting part, so that the strength of the weakest part, namely the fold part, of the foldable container is improved, and the force bearing capacity of the side wall is improved.

REFERENCE SIGNS

DETAILED DESCRIPTION

For the sake of a better understanding of the purposes, technical solutions and advantages of the present invention, the present invention is further expounded below in conjunction with the accompanying drawings and embodiments. It should be appreciated that the specific embodiments in the following description are merely used to explain the present invention, and are not intended to limit the present invention.

A foldable container of the present invention is suitable for various common domestic storage containers such as dustbins, dirty clothes hampers, basins, storage boxes and toothbrush cups.

As shown inFIG.1-FIG.6, the foldable container of the present invention comprises a foldable side wall3which is disposed annularly. The foldable side wall3comprises two adjacent connecting parts which are connected through a flexible part33. When the foldable container is to be unfolded, the connecting parts rotate around a fold part33con the flexible part33. A first abutting part33aand a second abutting part33bare disposed on two sides of the fold part33crespectively and are arranged on the flexible part33or the connecting parts. When the foldable container is in an unfolded state, the first abutting part33aabuts against the second abutting part33b. When fully folded or unfolded, the adjacent connecting parts are in a stable state. When the adjacent connecting parts are fully folded, the foldable container occupies the least space, thus being easy to transport and store. When the adjacent connecting parts are fully unfolded, the foldable container is in a service state. When the foldable container is in the unfolded state, the first abutting part33aand the second abutting part33babut against each other to be mutually supported, so that the connection strength of the adjacent connecting parts is enhanced, and the force beating capacity of the side wall3is improved.

In this embodiment, the flexible part33has a concave surface. The fold part33cis located on the concave surface. The first abutting part33aand the second abutting part33bare disposed on the concave surface of the flexible part33and are located at two ends of the concave surface respectively. The concave surface enables the container wall to be in a natural state in a folded state, so that the situation where the container wall is stretched in the folded state in the prior art; and consequentially, the service life of a rotation joint of the side wall3is affected is avoided; and in the unfolded state, the container wall on a base will not be squeezed like the prior art. Preferably, in this embodiment, the fold part33cserves as the base of the concave surface, and the first abutting part33aand the second abutting part33bare symmetrically distributed. When the adjacent connecting parts are rotated to be fully unfolded, the base of the concave surface is folded, and the symmetrical ends of the concave surface abut against each other. When the concave surface is folded in half, the wall thickness of the joint of the adjacent connecting parts is uniform, so that the stability of the foldable container in the unfolded state is improved.

Another implementation of the first abutting part33aand the second abutting part33bis as follows: the first abutting part33aand/or the second abutting part33bare/is protrusions formed on the connecting parts.

The foldable container of the present invention further comprises a rigid bottom1and a rigid top2. The bottom1and the top2are connected through the side wall3. The rigid bottom1improves the force bearing capacity of the foldable container, and the rigid top2allows users to transfer or move the foldable container easily.

The number of the connecting parts may be greater than two. By increasing the number of the connecting parts, the storage capacity of the foldable container can be improved without expanding the transport and storage space of the foldable container. Preferably, the number of the connecting parts is an odd number greater than three. By setting the number of the connecting parts as an odd number, it is guaranteed that a free end of the top2can be away from the folded part of the foldable container, thus expanding the design space of the free end of the top2. For example, a flange, a handle or the like may be added to facilitate actual usage of the foldable container.

In this embodiment, the number of the connecting parts is three, and the three connecting parts are respectively a first connecting part31a, a second connecting part32and a third connecting part31b. The first connecting part31a, the second connecting part32and the third connecting part31bare sequentially arranged from top2to bottom1, and the two ends of the second connecting part31are connected to the first connecting part31aand the third connecting parts31bthrough flexible parts33respectively. When to be folded, the folding direction of the first connecting part31aand the second connecting part32is opposite to that of the first connecting part31aand the third connecting part31b. That is, the first connecting part31aand the third connecting part31bare folded towards the inner side and the outer side of the second connecting part32respectively. In this embodiment, the radial size of an inner cavity of the foldable container becomes larger gradually from bottom1to top2. When to be folded, the first connecting part31ais folded outwards with respect to the second connecting part32, and the third connecting part31bis folded inwards with respect to the second connecting part32. After being folded, the bottom1, the side wall3and the top2are sequentially arrayed from inside to outside. Or, the radial size of the inner cavity of the foldable container becomes smaller gradually from bottom1to top2. When to be folded, the first connecting part31ais folded inwards with respect to the second connecting part32, and the third connecting part31bis folded outwards with respect to the second connecting part32. When the foldable container is in the folded state, the bottom1, the side wall3and the top2are sequentially arrayed from outside to inside. In this embodiment, “inner” and “outer” are consistent with an inward direction and an outward direction of the foldable container in the folded state. All these simple transformations should also fall within the protection scope of the present invention.

Preferably, the bottom1and the top2are made of hard rubber, and the side wall is made of soft rubber. The side wall3is connected to the bottom1through hot melting or bonding, and the side wall3is connected to the top2through hot melting or bonding.

With reference toFIG.7, a cleaning tool assembly of the present invention comprises a cleaning tool50and the foldable container mentioned above. The cleaning tool is received in the foldable container in a folded state. The cleaning tool may be a mop, a broom, a cleaning brush or a glass brush which is frequently used in life. Compared with separated transportation of the cleaning tool and the foldable container, the overall size of the cleaning tool and the foldable container transported as an assembly is reduced, thus effectively reducing the transportation cost.

The embodiments described above in the specification are merely exemplary ones of the present invention. Various modifications, supplements or similar substitutions made to the specific embodiments described above by those skilled in the art without departing from the consents of the specification of the present invention or going beyond the scope defined by claims should also fall within the protection scope of the present invention.