AU2020101389A4 - Environment-Friendly Recyclable Dehumidification Container - Google Patents

Abstract

A b s t r a c t The present utility model discloses an environment-friendly recyclable dehumidification container, including a container body and a dehumidification bag placed in the container body. The container body consists of a paper layer and a waterproof layer. When the dehumidification bag is broken and leaks, the waterproof layer is configured to prevent moisture from wetting the paper layer and damaging the paper layer. The present utility model has the beneficial effects that the structure is simple, use is convenient, a whole of the dehumidification container can be recycled, and environmental protection and reuse are facilitated. 1 Drawings of Description 3 1 Fig. 1 1

Description

A b s tr ac t

The present utility model discloses an environment-friendly

recyclable dehumidification container, including a container body and a

dehumidification bag placed in the container body. The container body

consists of a paper layer and a waterproof layer. When the

dehumidification bag is broken and leaks, the waterproof layer is

configured to prevent moisture from wetting the paper layer and

damaging the paper layer. The present utility model has the beneficial

effects that the structure is simple, use is convenient, a whole of the

dehumidification container can be recycled, and environmental protection

and reuse are facilitated.

Drawings of Description

3

1

Fig. 1

D e s c r i p t io n

ENVIRONMENT-FRIENDLY RECYCLABLE DEHUMIDIFICATION CONTAINER

Technical Field

The present utility model relates to the technical field of

dehumidification containers, and more particularly, to an

environment-friendly recyclable dehumidification container.

Background

In humid areas, wardrobes, drawers, shoe cabinets, book cabinets,

storage boxes, musical instruments, calligraphies and paintings, other

valuable articles and the like are easy to generate phenomena of getting

damp and going moldy when encountering moisture.

At present, dehumidification boxes are commonly sold in the market,

much convenience is brought to users, and the service life of many

household articles is also prolonged. The dehumidification boxes in the

market mainly adopt flaky, powdery or granular calcium chloride for

dehumidification, which can achieve a certain dehumidification effect,

but also has the following defects:

1. The dehumidification boxes are of hard plastic structures, and

occupy a space.

2. Articles sold at present are basically dehumidification boxes, but

D e s c r i p t io n

the dehumidification boxes are also disposable products and are discarded

after being used, so that plastic wastes are generated, which influences

the environment, and is unfavorable for environmental protection.

3. Falling fracture easily occurs, and is not easy to discover.

Summary

In view of the defects in the prior art, the present utility model aims

at providing an environment-friendly recyclable dehumidification

container. By introducing a dehumidification container and a cover body

made of paper, advantages of recyclability and light weight are realized.

Meanwhile, by merging a waterproof layer into a paper layer, a

waterproof function of the dehumidification container is realized.

In order to achieve the above objective, the present utility model

adopts the following technical solution:

An environment-friendly recyclable dehumidification container

includes a container body and a dehumidification bag placed in the

container body. The container body consists of a paper layer and a

waterproof layer. When the dehumidification bag is broken and leaks, the

waterproof layer is configured to prevent moisture from wetting the paper

layer and damaging the paper layer.

It should be noted that a dehumidification agent is loaded in the

dehumidification bag in the present utility model. Further, after the

D e s c r i p t i o n

dehumidification agent absorbs moisture, generated moisture will be

maintained in the dehumidification bag.

Further, the dehumidification bag may be in any shape, for example,

a standard bag, a sawtooth bag, a vertical grain perforated bag, a

transverse grain perforated bag, a three-side sealing bag, a gusseted

stand-up bag, a perforated stand-up bag, a side-ironed stand-up four-side

sealing bag and the like in the existing design.

As a preferable technical solution, combination modes of the

waterproof layer and the paper layer of the present utility model may

include the following modes:

In a first preferable mode, the waterproof layer is merged into the

paperlayer.

In another preferable mode, the waterproof layer is tightly adhered

onto an inner surface and/or an outer surface of the paper layer.

In a yet another preferable mode, the waterproof layer is sprayed and

coated onto an inner surface and/or an outer surface of the paper layer.

It should be noted that no matter the waterproof layer is attached to

the inner surface or the outer surface of the paper layer in an adhering or

spray coating mode, its effect is a waterproof effect.

The present utility model adopts the independent dehumidification

bag which does not precipitate moisture. Additionally, in order to prevent

seepage caused by occasional puncture of the dehumidification bag, the

D e s c r i p t io n

container body of the present utility model has adopted a waterproof

structure to enable the container body not to be wet by moisture.

As another preferable technical solution, the present utility model

further includes a bearing frame placed in the container body. The

dehumidification bag is placed on the bearing frame. A support member

is disposed on the peripheral edge of an inner surface of the container

body. The bearing frame is placed on the support member.

Additionally, the bearing frame and the support member of the

present utility model may be an integrally formed component, so that they

may be directly placed in the container body.

It should be noted that a cover body of the present utility model may

adopt various connection modes. As a preferable technical solution, an

inner diameter of the cover body is a little greater than an outer diameter

of the container body. The cover body covers a top of the container body.

As another cover body connecting mode, an annular member may

further be disposed on the peripheral edge of a top of the container body,

the cover body is movably and tightly connected with the annular

member, and the inner diameter of the cover body is a little greater than

an outer diameter of the annular member.

It should be noted that in order to realize sufficient contact with

moisture in the air, a plurality of through holes are formed in a surface of

the cover body.

D e s c r i p t io n

As a preferable technical solution, in order to avoid incapability or

reduction of the contact with the moisture in the air, caused when the

through holes formed in the cover body are covered by an article, a

plurality of through holes are formed in the peripheral edge near a top of

the container body.

Further, a plurality of through holes may also be formed in different

positions of the container body.

It should be further noted that the shape of the through holes may be

any shape, for example, an existing geometrical shape such as a round

shape or a square shape, and may also be a special shape.

It should be further noted that when the present utility model is

provided with a bearing frame, the support member, or an integrally

formed structure of the bearing frame and the support member, the

dehumidification agent (calcium chloride) may be directly placed on the

bearing frame. According to this technical solution, through holes are also

formed in the bearing frame, and the objective is to enable moisture

generated after the dehumidification agent (calcium chloride) absorbs

moisture to flow to the bottom of the container body through the through

holes formed in the bearing frame. Of course, when this technical

solution is adopted, the bearing frame, the support member or the

integrally formed structure of the bearing frame and the support member

may be manufactured by injection molding.

D e s c r i p t io n

Further, the container body of the present utility model is creatively

made of paper, so that its shape may be any shape, for example, a shape

capable of being designed in the prior art, such as a cylindrical shape and

a cubical shape. Further, the shape of the cover body may also be any

shape correspondingly, and is matched with the shape of the container

body.

Further, when the present utility model designs the bearing frame

and the support member, the bearing frame and the support member

should have a waterproof function.

The present utility model has the beneficial effects that the structure

is simple, use is convenient, a whole of the dehumidification container

can be recycled, and environmental protection and reuse are facilitated.

Brief Description of the Drawings

Figure 1 is a schematic structure diagram of the present utility

model.

Figure 2 is a schematic three-dimensional structure diagram of

Figure 1.

Figure 3 is another schematic structure diagram of the present utility

model.

Figure 4 is a schematic three-dimensional structure diagram of

Figure 3.

D e s c r i p t io n

Figure 5 is a schematic diagram of another shape shown by the

present utility model.

Figure 6 is a schematic diagram of another shape shown by the

present utility model.

Detailed Description

Hereinafter, the present utility model will be further described with

reference to the accompanying drawings. It should be noted that the

present embodiment provides a detailed implementation and a specific

operation process on the basis of the present technical solution, but the

protection scope of the present utility model is not limited to the present

embodiment.

As shown in Figure 1 and Figure 2, the present utility model

provides an environment-friendly recyclable dehumidification container,

including a container body 1 and a dehumidification bag placed in the

container body 1. The container body consists of a paper layer and a

waterproof layer. When the dehumidification bag is broken and leaks, the

waterproof layer is configured to prevent moisture from wetting the paper

layer and damaging the paper layer.

Further, as shown in Figure 1 and Figure 2, a cover body 3 of the

present utility model may adopt various connection modes. According to

a preferable technical solution, an inner diameter of the cover body 3 is a

D e s c r i p t io n

little greater than an outer diameter of the container body 1, and the cover

body 3 covers a top of the container body 1.

It should be noted that a dehumidification agent is loaded in the

dehumidification bag in the present utility model. Further, after the

dehumidification agent absorbs moisture, generated moisture will be

maintained in the dehumidification bag.

Further, the dehumidification bag may be in any shape, for example,

a standard bag, a sawtooth bag, a vertical grain perforated bag, a

transverse grain perforated bag, a three-side sealing bag, a gusseted

stand-up bag, a perforated stand-up bag, a side-ironed stand-up four-side

sealing bag and the like in the existing design.

As a preferable technical solution, combination modes of the

waterproof layer and the paper layer of the present utility model may

include the following modes:

In a first preferable mode, the waterproof layer is merged into the

paperlayer.

In another preferable mode, the waterproof layer is tightly adhered

onto an inner surface and/or an outer surface of the paper layer.

In a yet another preferable mode, the waterproof layer is sprayed and

coated onto an inner surface and/or an outer surface of the paper layer.

It should be noted that no matter the waterproof layer is attached to

the inner surface or the outer surface of the paper layer in an adhering or

D e s c r i p t io n

spray coating mode, its effect is a waterproof effect.

The present utility model adopts the independent dehumidification

bag which is the liquid spillsproof bag. Additionally, in order to prevent

seepage caused by occasional puncture of the dehumidification bag, the

container body of the present utility model has adopted a waterproof

structure to enable the container body not to be wet by moisture.

As shown in Figure 3 and Figure 4, as another preferable technical

solution, the present utility model further includes a bearing frame 2

placed in the container body 1. Specifically, the dehumidification bag is

placed on the bearing frame 2. A support member 11 is disposed on the

peripheral edge of an inner surface of the container body 1. The bearing

frame 2 is placed on the support member 11.

Additionally, the bearing frame and the support member of the

present utility model may be an integrally formed component, so that they

may be directly placed in the container body.

It should be further noted that when the present utility model is

provided with a bearing frame, the support member, or an integrally

formed structure of the bearing frame and the support member, the

dehumidification agent (calcium chloride) may be directly placed on the

bearing frame. According to this technical solution, through holes are also

formed in the bearing frame, and the objective is to enable moisture

generated after the dehumidification agent (calcium chloride) absorbs

D e s c r i p t io n

moisture to flow to the bottom of the container body through the through

holes formed in the bearing frame. Of course, when this technical

solution is adopted, the bearing frame, the support member or the

integrally formed structure of the bearing frame and the support member

may be manufactured by injection molding.

Further, as shown in Figure 3 and Figure 4, as another cover body

connecting mode, an annular member 12 may further be disposed on the

peripheral edge of a top of the container body 1, the cover body 3 is

movably and tightly connected with the annular member 12, and the inner

diameter of the cover body 3 is a little greater than an outer diameter of

the annular member.

Further, when the present utility model adopts the technical solution

of including the bearing frame and the support member, the cover body

may also achieve the objective by adopting the technical soltion that the

inner diameter of the cover body is a little greater than the outer diameter

of the container body, and the cover body covers the top of the container

body.

It should be noted that in order to realize sufficient contact with

moisture in the air, as shown in Figure 2 and Figure 4, a plurality of

through holes 4 are formed in a surface of the cover body 3.

In order to further facilitate the sufficient contact of the

dehumidification bag in the container body with the moisture in the air, a

D e s c r i p t io n

plurality of through holes 4 may be formed in the peripheral edge near a

top of the container body 1, as shown in Figure 1 and Figure 3. Further,

moisture absorption capability reduction caused when the through holes

of the cover body are covered by an article may be avoided through the

plurality of through holes formed in the peripheral edge of the top of the

container body. When this condition occurs, the moisture in the air can be

absorbed through the through holes formed in the container body.

Further, a plurality of through holes may also be formed in different

positions of the container body.

It should be further noted that the shape of the through holes may be

any shape, for example, an existing geometrical shape such as a round

shape or a square shape, and may also be a special shape.

Of course, in order to maintain attractive appearance of the container

body of the present utility model, the through hole may not be formed in

the container body.

Further, the dehumidification container of the present utility model

is creatively made of waterproof paper, so that its shape may be any

shape, for example, a shape capable of being designed in the prior art,

such as a cylindrical shape and a cubical shape. As shown in Figure 5 and

Figure 6, possibly occurring shapes in the existing design are shown. The

container body in Figure 5 is in an inverted cone shape. The container

body in Figure 6 is in a (flat) box shape. Further, the shape of the

D e s c r i p t io n

container body may also be designed into a special shape. Further, the

shape of the cover body may also be any shape correspondingly, and is

matched with the shape of the container body.

Further, when the present utility model designs the bearing frame

and the support member, the bearing frame and the support member

should have a waterproof function.

Embodiment

In a use process, after a sealed outer package of the dehumidification

container is opened, and the dehumidification container is placed in a

damp position, the dehumidification container may be used. The whole of

the dehumidification container of the present utility model is made of

paper, so that the whole may be recycled and reused.

Various other corresponding changes and modifications may be

made by those skilled in the art according to the technical solutions and

concepts described above, and all of these changes and modifications

shall fall within the protection scope of the claims of the present utility

model.

Cla im s

1. An environment-friendly recyclable dehumidification container,

comprising a container body and a dehumidification bag placed in the

container body, wherein the container body consists of a paper layer and

a waterproof layer, and when the dehumidification bag is broken and

leaks, the waterproof layer is configured to prevent moisture from wetting

the paper layer and damaging the paper layer.

2. The environment-friendly recyclable dehumidification container

according to claim 1, wherein the waterproof layer is merged into the

paper layer, or wherein the waterproof layer is tightly adhered to an inner

surface and/or an outer surface of the paper layer, or wherein the

waterproof layer is sprayed and coated onto an inner surface and/or an

outer surface of the paper layer.

3. The environment-friendly recyclable dehumidification container

according to claim 1, further comprising a bearing frame placed in the

container body, wherein the dehumidification bag is placed on the

bearing frame, a support member is disposed on the peripheral edge of an

inner surface of the container body, and the bearing frame is placed on

the support member.

4. The environment-friendly recyclable dehumidification container

according to claim 1, further comprising a cover body, wherein an inner

diameter of the cover body is a little greater than an outer diameter of the

container body, and the cover body covers a top of the container body;

Claims (1)

1. Claims

   further comprising a cover body, wherein an annular member is disposed

   on the peripheral edge of a top of the container body, and the cover body

   is movably and tightly connected with the annular member; wherein an

   inner diameter of the cover body is a little greater than an outer diameter

   of the annular member; wherein a plurality of through holes are formed in

   a surface of the cover body.

   5. The environment-friendly recyclable dehumidification container

   according to claim 1, wherein a plurality of through holes are formed in

   the peripheral edge near a top of the container body.