WO2020226311A1

WO2020226311A1 - Mask storage box

Info

Publication number: WO2020226311A1
Application number: PCT/KR2020/005501
Authority: WO
Inventors: 오동석
Original assignee: 오동석
Priority date: 2019-05-07
Filing date: 2020-04-27
Publication date: 2020-11-12
Also published as: KR102176855B1

Abstract

According to one embodiment of the present disclosure, a mask storage box is disclosed. The mask storage box can comprise: a housing for forming a space capable of accommodating a mask therein; a cover coupled to the housing so as to form the space capable of accommodating the mask therein; and a mask management means for managing the mask accommodated inside the housing. Representative drawing figure 6

Description

Mask storage box

The present disclosure relates to a storage box capable of storing a mask, and more specifically, to a storage box capable of carrying and storing the mask, removing static electricity and pollutants from the stored mask.

As air pollution increases, the demand for masks not only in the industrial sector but also in the general public is increasing rapidly. In line with the worsening air pollution conditions, high-level filter technology has been applied to general masks, but most of them cannot be reused.

A typical filter using static electricity used in a mask collects dust in the air passing through the mask by the static electricity of the cathode and anode distributed in the mask. Due to the dust-collecting effect, air with reduced dust passes through the mask and reaches the respiratory tract.

However, static electricity is weak against moisture, so when using a mask, the static electricity of the mask can be weakened by breathing and breathing simultaneously. Accordingly, most of the masks are used for single use, and the inconvenience and cost burden for general consumers are increasing.

Korean Patent Laid-Open Publication No. 10-2017-0096487 discloses a case that is convenient to hygienically carry a mask and a sanitary napkin inside a case in which a lower case and an upper case are hinged. However, in the prior art, when the mask is reused, consideration for maintaining the dustproof performance of the mask is not disclosed.

The present disclosure is conceived in response to the above-described background technology, and is to provide a storage box capable of storing a mask capable of maintaining the dustproof performance of the mask when the mask is reused.

A storage box capable of storing a mask according to an embodiment of the present disclosure for realizing the above-described problem is disclosed. The storage box for storing the mask includes a housing for forming a space for accommodating the mask therein; A cover coupled with the housing to form a space for accommodating the mask therein; And a mask management means for managing the mask accommodated in the housing.

Alternatively, the housing has a form of a pouch to form a space for accommodating the mask therein, and the housing may include subsidiary materials so that the space can be blocked from the outside.

Alternatively, the space formed by the housing may be sized to allow the mask to move freely within the storage box.

Alternatively, the housing may include a mask holding portion for holding the mask.

Alternatively, the housing may include a desiccant storage unit capable of storing a desiccant to maintain static electricity in the mask.

Alternatively, the mask management means includes a contaminant removing means for removing contaminants located on the mask surface; Or static electricity generating means for generating static electricity in the mask accommodated in the housing; It may include at least one of.

Alternatively, at least one of the contaminant removing means or the static electricity generating means may include a fiber portion made of a synthetic fiber material for generating static electricity on the mask by rubbing against the mask or removing contaminants from the mask.

Alternatively, the static electricity generating means may include an electromagnetic static electricity generating unit for generating static electricity in the mask by electromagnetic force.

Alternatively, the means for removing contaminants may include an antibacterial pad that can be accommodated with a mask inside the housing; And it may include a deodorizing pad for removing the odor inside the housing and the mask.

Alternatively, it may further comprise driving means for driving the mask management means.

Alternatively, the drive means may comprise a holding portion through which the user of the storage box can hold the drive means.

Alternatively, it may further comprise a drive device for applying a force to the drive means to drive the drive means.

Alternatively, the cover may include a drive means hole through which a holding portion capable of transmitting a driving force to the drive means passes so that the user of the storage box can drive the drive means.

Alternatively, the drive means can rotate or reciprocate the static electricity generating means.

The present disclosure may provide a storage box capable of storing a mask capable of maintaining the dustproof performance of the mask when the mask is reused.

1 is an exemplary diagram of a mask storage box 1000.

FIG. 2 is an exemplary diagram illustrating a state in which a mask stored in the housing 200 of the mask storage box 1000 according to an embodiment of the present disclosure is fixed by the mask fixing unit 201.

3 is an exemplary view in which the coupling fixing part 101 is locked to fix the coupling state of the housing 200 and the cover 100 according to an embodiment of the present disclosure.

4 is an exemplary view showing a pouch-shaped housing 200 in a state in which the inlet portion 203 is opened due to the subsidiary material 204 according to another embodiment of the present disclosure.

5A is an exemplary view of a separate driving means 300 according to an embodiment of the present disclosure.

5B is an exemplary view of an integrated driving means 301 according to another embodiment of the present disclosure.

6 is an exemplary view illustrating a state in which the driving means 300 and 301 according to an embodiment of the present disclosure are assembled to be driven through the driving means hole 102 of the cover 100.

7 illustrates a state in which the driving means 300 and 301 are used for a mask fixed inside the storage box 1000 while passing through the driving means hole 102 according to an embodiment of the present disclosure while linearly reciprocating by an external force. It is an exemplary diagram shown.

8 is an example showing a state in which the driving means 300 and 301 passing through the drive means hole 102 according to another embodiment of the present disclosure are used for a mask fixed inside the storage box 1000 while rotating by an external force Is also.

Various embodiments will now be described with reference to the drawings, and like reference numbers are used throughout the drawings to indicate like elements. In this specification, various descriptions are presented to provide an understanding of the present disclosure. However, it is clear that these embodiments may be implemented without such detailed description.

1 is an exemplary diagram of a storage box 1000 capable of storing a mask according to an embodiment of the present disclosure.

The storage box 1000 according to an exemplary embodiment of the present disclosure may include a cover 100 and a housing 200 that are mutually coupled to each other to carry and store a mask to form a space to accommodate the mask. The storage box 1000 according to another exemplary embodiment of the present disclosure may be configured as a pouch-shaped housing 200 and may be in the form of a pouch or a pouch. In addition, the storage box 1000 according to another embodiment of the present disclosure may be in the form of a case including the housing 200 and the cover 100 constituting a case. That is, the storage box according to the exemplary embodiment of the present disclosure may form a space for accommodating a mask therein by combining one piece or two or more pieces.

For a detailed description, a pouch-shaped housing 200 according to another exemplary embodiment will be described with reference to FIG. 4 as follows. The housing 200 of the present disclosure may have a pouch shape to form a space in which the mask 500 can be accommodated. For the pouch-shaped housing 200, for example, a bag-shaped housing 200, a bag-shaped housing 200, or a PP polybag including a slide zipper and a polybag including a PE polybag, an OPP bag, or It can be a zipper bag. The pouch-shaped housing 200 described above is only an example, and the present disclosure is not limited thereto.

In the case of the pouch-shaped housing 200 according to another embodiment of the present disclosure, the cover 100 illustrated in FIG. 1 may be included in the housing 200 as a part of the housing 200. Specifically, the cover 100 may be an extended portion of the housing 200 and may be included in the housing 200 as one surface constituting the housing 200. The cover 100 is an extended portion of the pouch-shaped housing 200 and may be partially bonded or fixed to an end of the housing 200. Accordingly, one or more bonding portions 104 may be included at the ends of each of the surfaces constituting the housing 200. In addition, the overall shape and material of the storage box 1000 may correspond to the shape and material of the pouch-shaped housing 200.

The pouch-shaped housing 200 according to another embodiment of the present disclosure may be made of a flexible material that can be freely deformed by an external force. In addition, it may be made of a transparent or translucent material so that the presence of the mask 500 accommodated in the housing 200 can be checked. The pouch-shaped housing 200 may be made of, for example, a plastic material including transparent or translucent PVC, a resin material, and a synthetic material, but the present disclosure is not limited thereto.

In addition, the pouch-shaped housing 200 may include an inlet portion 203 capable of blocking the formed internal space from the outside. Specifically, the inlet portion 203 may be in one of an open state or a closed state. When the inlet portion 203 is closed, the inner space of the housing 200 may be blocked from the outside. In addition, when the inlet portion 203 is open, the inner space of the housing 200 may not be blocked from the outside. Accordingly, when the inlet portion 203 of the housing 200 is open, the external mask 500 may be accommodated in the inner space of the housing 200 through the inlet portion 203. That is, as shown in FIG. 4, the mask 500 may pass through the inlet 203 in the open state, and may be accommodated in the inner space of the housing 200 through the inlet 203 in the open state. have.

According to another embodiment of the present disclosure, the housing 200 may include a subsidiary material 204 such that a space for accommodating the mask 500 therein may be blocked from the outside. Specifically, referring to FIG. 4, the inlet portion 203 is opened or closed by the subsidiary material 204 so that the mask 500 can be accommodated in the inner space of the housing 200 through the inlet portion 203. Can be either. The subsidiary material 204 may adjust at least one of the size or shape of the inlet portion 203 to be one of an open state or a closed state of the inlet portion 203. The subsidiary material 204 may be included on one surface exposed to the outside of the housing 200 so that the user can use it directly. Specifically, the inlet portion 203 may be positioned at a position corresponding to the inlet portion 203 so as to be adjustable.

According to another embodiment of the present disclosure, for the pouch-shaped housing 200 and the subsidiary material 204, for example, the pouch-shaped housing 200 may be a zipper bag, and the subsidiary material 204 may be a slide zipper of a zipper bag or It can be a normal zipper. The mask 500 may be accommodated in the inner space of the housing 200 through the inlet portion 203 in the open state. In addition, the user can make the inlet portion 203 in a closed state through the slide zipper as the subsidiary material 204. When the inlet portion 203 is closed through the slide zipper, the inner space of the housing 200 including the mask 500 may form a space blocked from the outside.

According to another embodiment of the present disclosure, for another example, the housing 200 may be a plastic bag, and the subsidiary material 204 may be a strap. In this case, the size of the inlet portion 203 of the housing 200 may be adjusted through a strap that is a subsidiary material 204. When the size of the inlet portion 203 is adjusted to be closed through the strap, the inner space of the housing 200 may form a space blocked from the outside.

The contents of the pouch form and the subsidiary material 204 are only examples, and the pouch form and the subsidiary material 204 are limited and should not be interpreted.

Here, the space in which the mask can be accommodated may have a size in which the mask can freely move within the storage box 1000. In some embodiments of the present disclosure, the mask may freely move inside the storage box 1000, and when the storage box 1000 is moved by a user, the mask moves freely inside the storage box 1000 and is managed by the mask management means. Can be. Specifically, the mask management means may be a means for managing a mask accommodated in the housing. Here, managing the mask may be managing to increase the product life and service life of the mask, for example, removing contaminants from the mask through friction with the mask, or maintaining and managing the dustproof performance of the mask. However, the present disclosure is not limited thereto.

In addition, the mask management means may include at least one of a contaminant removing means for removing contaminants located on the mask surface or a static electricity generating means for generating static electricity in a mask accommodated in the housing. Accordingly, when a mask that can move freely inside the storage box 1000 is managed by the mask management means, the mask may rub against the static electricity generating means and the pollutant removing means. Here, the static electricity generating means may include a fiber portion capable of generating static electricity in the mask by rubbing against the mask in order to manage the mask, or an electromagnetic static electricity generating portion for generating static electricity in the mask by electromagnetic force.

Here, the contaminant removing means includes at least one of an antibacterial pad and a deodorizing pad that is accommodated with the mask and is accommodated in the fiber part that rubs with the mask to remove contaminants from the mask to manage the mask. I can. The antibacterial pad may be made of a porous nonwoven fabric, sterilized cotton, synthetic fiber, or the like, but the present disclosure is not limited thereto.

The deodorizing pad of the present disclosure may be a pad capable of removing odor from the inside of the housing and the mask. Specifically, the smell of the inside of the housing and the mask may be an odor of the mask. Accordingly, the deodorizing pad may be a pad capable of reducing at least the odor threshold ppb measured for the odor of the mask to have a value lower than a predetermined reference value. The odor of the mask is at least one of odors generated by chemical substances exposed in the manufacturing and production process of the mask, or odors generated by external odor-causing substances including moisture and saliva discharged from the breathing of the user using the mask. Can be More specifically, the odor-causing substance is a substance related to at least one of volatile organic compounds (VOCs) containing benzene, toluene, or volatile inorganic compounds (VICs) containing ammonia. I can.

In addition, the deodorizing pad may include porous cotton fabrics, porous materials, synthetic fibers, papers including Korean paper, charcoal, etc. to effectively reduce odor-causing substances in the air, but the present disclosure is not limited thereto. The porous material may include silicon dioxide and silica gel, which are generally used for deodorization. Some porous materials, such as silica gel, can absorb moisture as well as odors, and thus promote the vaporization of liquid foreign substances on the mask that may cause odors. The deodorizing pad made of a porous material capable of absorbing moisture may function as a dehumidifying agent, and may create an environment in which static electricity is more prone to generation.

In addition, the deodorizing pad and the antibacterial pad may be composed of one pad. Specifically, referring to FIG. 4 of the present disclosure, the pad 400 illustrated in FIG. 4 may be at least one of a deodorizing pad and an antibacterial pad, and may be a universal pad capable of deodorizing and antibacterial. In FIG. 4, one pad 400 is illustrated, but one or more pads 400 may be formed. That is, the pads 400 of each of the deodorizing pad and the antibacterial pad may be stored in the housing 200.

Here, the space for accommodating the mask may be formed in a circle, a square, or a rectangle, but the above description is only an example and the disclosure is not limited thereto. In addition, the storage box 1000 may be made of lightweight plastic, aluminum, or silicon in consideration of the durability of the product while maintaining the inner space that is light for the user to carry and accommodates the mask, but the foregoing description is only an example. Is not limited thereto.

A material constituting the storage box 1000 according to another exemplary embodiment of the present disclosure may correspond to a material constituting the pouch-shaped housing 200 illustrated in FIG. 4. Specifically, the storage box 1000 may be formed of a flexible material constituting the housing 200 and a transparent or translucent material. The material of the storage box 1000 including the pouch-shaped housing 200 may be made of, for example, a plastic material, a resin material, and a synthetic material, but the present disclosure is not limited thereto.

Cover 100 according to an embodiment of the present disclosure is a driving means hole 102 made of a through hole having a size through which the holding

portions

310 and 311 of the driving means 300 and 301 of FIGS. 5A and 5B can pass. ) Can be included.

In addition, the cover 100 shown in FIG. 1 may include a coupling fixing part 101 to maintain a mutually coupled state with the housing 200 to form an inner space blocked from the outside. In this case, the coupling fixing part 101 may be located in the housing 200 as well as the cover 100. The hinge 103 that allows opening and closing of the cover 100 and the housing 200 is located at the joint between the cover 100 and the housing 200, and in a state where the cover 100 and the housing 200 are connected together. It can be replaced by varying the seam thickness.

According to another embodiment of the present disclosure, when the housing 200 is in the form of a pouch as shown in FIG. 4, the cover 100 shown in FIG. 1 may be included in the housing 200 as a part of the housing 200. have. Specifically, the cover 100 is an extended portion of the pouch-shaped housing 200 and may be partially bonded or fixed to the end of the housing 200. Accordingly, the cover 100 may be included as one surface constituting the housing 200. Referring to FIG. 4, a storage box 1000 composed of one piece by including the cover 100 as a part of the housing 200 is shown, and the cover 100 included in the housing 200 is not separately indicated by a reference number. Does not.

When the cover 100 is included as a part of the housing 200 according to another embodiment of the present disclosure, the coupling fixing part 101 of the cover 100 may be replaced with a subsidiary material 204. Specifically, when the inlet portion 203 is closed by the auxiliary material 204 instead of the coupling fixing portion 101 for the pouch-shaped housing 200, an inner space blocked from the outside may be formed. Further, the hinge 103 may be replaced with a bonding portion 104 so that the cover 100 is configured as an extended portion of the pouch-shaped housing 200. The bonding portion 104 may be a joint portion fixed by an adhesive to each of the ends of the surfaces forming the housing 200, but the present disclosure is not limited thereto.

The housing 200 according to an exemplary embodiment of the present disclosure may include a mask fixing part 201 for fixing the mask on a side surface when the mask is stored. Accordingly, it may be configured in a hook shape that can hang the earring portion of the mask or prevent the movement of the mask from above, and a rubber material for high friction can be used, but the foregoing description is only an example, and the present disclosure is thus Not limited. The mask fixing part 201 may protrude from the side of the housing so that the mask is positioned and fixed between the mask fixing part 201 and the lower plate of the housing 200. The user may fix the mask by placing both ends of the mask in a space formed by the mask fixing part 201 and the lower plate of the housing.

In addition, the mask fixing part 201 may be configured on one surface inside the housing 200 with respect to the pouch-shaped housing 200 according to another exemplary embodiment.

In addition, the housing 200 lowers the humidity of the space generated by the storage box 1000 to create an environment that is easy to maintain the generated static electricity, in the form of a bag that can store a dehumidifying agent or a dehumidifying agent having a shape that can fix the desiccant. It may include a part 202. The dehumidifying agent storage unit 202 may be formed of a polymer or silicone that can be molded into various shapes, but the foregoing description is only an example, and the present disclosure is not limited thereto. In addition, the desiccant storage unit 202 may not exceed the size of the housing 200 or may have a size capable of accommodating a desiccant. The housing 200 is provided with a dehumidifying agent storage unit 202 to store the dehumidifying agent, so that moisture inside the storage box is quickly removed so that the dustproof performance of the mask can be maintained for a longer time.

According to another embodiment of the present disclosure, the dehumidifying agent storage unit 202 is not separately shown in FIG. 4, but may be configured on one surface inside the housing 200 to store the pad 400 of FIG. 4. In this case, the pad 400 may be at least one of an antibacterial pad, a deodorizing pad, or a dehumidifying agent. There may be more than one pad 400, and the desiccant storage unit 202 may have a size capable of storing a plurality of pads 400. In addition, the pad 400 may be a universal pad capable of antibacterial, deodorizing and dehumidifying.

The mask fixing part 201 according to the exemplary embodiment of the present disclosure may be fixed by inserting the mask accommodated therein under the protrusion of the mask fixing part 201 or by hanging a mask earring string to make the mask fixed. Accordingly, the user may fix the mask to the mask fixing part 201 inside the housing 200, and in this state, the cover 100 and the housing 200 may be combined to store the mask in the storage box 1000. In addition, in another embodiment of the present disclosure, the mask fixing part 201 may be located on the rear surface of the housing 200. In this case, the user may fix the mask by hanging the earring string of the mask on the mask fixing part 201 located on the rear surface of the housing 200 or by placing the mask under the mask fixing part 201. In addition, the mask fixing part 201 may be configured on one surface of the pouch-shaped housing 200 according to another embodiment.

The coupling fixing part 101 according to the exemplary embodiment of the present disclosure may be positioned on the housing 200 and the cover 100, respectively, and when a user couples it, an inner space blocked from the outside may be created. Accordingly, when the mask is stored inside the housing 200, it can be protected from external contaminants, and the user can safely carry and store the mask. Additionally, when the dehumidifying agent is stored together with the mask in the dehumidifying agent storage unit 202 inside the housing 200, the humidity of the internal space in which the mask is stored may be lowered, thereby creating an environment for maintaining static electricity.

The size of the drive means hole 102 according to an embodiment of the present disclosure may be configured such that the holding

portions

310 and 311 of the drive means 300 and 301 can penetrate, and are included on the plane of the cover 100 (eg For example, see Figure 3) can be located. Accordingly, the mask management means attached to the driving means 300 and 301 can interact with the outside by the assembled holding

portions

310 and 311. Specifically, at least one of the static electricity generating means or the pollutant removing means is attached to the driving means 300 and 301, and the attached static electricity generating means and the pollutant removing means can interact with the outside by the assembled holding

portions

310 and 311 Is done. In addition, the driving means hole 102 may have various lengths and shapes according to the driving method of the driving means 300 and 301. For example, the drive means hole 102 may be formed as a long through hole in order to allow the drive means 300 and 301 to perform linear motion, and the drive means hole 102 so that the drive means 300 and 301 can perform rotational motion. It can be formed with this circular through hole. In addition, the drive means hole 102 may be made of a low-friction material or a soft material such as rubber in order to prevent abrasion of parts caused by the movement of the drive means 300,301, and both ends of the drive means hole 102 It may be made of a soft material to prevent impact. A detailed description of this will be described later with reference to FIGS. 7 and 8. At this time, the size of the drive means hole 102 does not exceed the size of the cover 100.

In addition, the user separates into the holding part 310 and the fiber part 320 of FIG. 5A and passes the holding part 310 through the drive means hole 102 of the cover 100, and then the fiber part 320 and The combined drive means 300 can be moved into the drive means hole 102. A detailed description of the assembly of the driving means 300 will be described later with reference to FIGS. 5A and 6. The user may separate the holding part 310 from the fiber part 320 and separate the driving means 300, which is a mask management means, from the mask storage box to clean or replace it. Here, the mask management means may be at least one of a static electricity generating means or a pollutant removing means.

According to another embodiment of the present disclosure, the driving means hole 102 may be included in the pouch-shaped housing 200 shown in FIG. 4. Specifically, when the cover 100 is included in the housing 200 as a part of the housing 200, the drive means hole 102 may be included on one surface of the housing 200 (not shown). In this case, a subsidiary material 204 may be additionally configured for the drive means hole 102 so that the inside of the housing 200 is formed as a space blocked from the outside. Accordingly, when the drive means hole 102 is included on one surface of the housing 200, the inlet portion 203 and the subsidiary material 204 for each of the drive means hole 102 may be composed of one or more. In addition, the plurality of subsidiary materials 204 may be in a closed state or an open state for each of the inlet portion 203 and the drive means hole 102.

In addition, the holding portions 310 of the driving means 300 and 301 in the pouch-shaped housing 200 may be assembled with the fiber part 320 by passing through the driving means hole 102 in an open state. In this case, the driving means hole 102 is a size that the holding part 310 can pass through, but the fiber part 320 assembled with the holding part 310 cannot pass through the drive means hole 102 Have. In the case where the fiber part 320 is separated from the holding part 310, the fiber part 320 may pass through the drive means hole 102.

According to another embodiment of the present disclosure, the holding part 310 and the separated fiber part 320 may be separately included in the inner space of the pouch-shaped housing 200. Specifically, the fiber part 320 and the mask separated from the holding part 310 may be accommodated in an inner space of the housing 200 that is blocked from the outside. In a state in which the driving means hole 102 and the inlet 203 are closed, the fiber part 320 accommodated in the inner space of the mask and the housing 200 may rub against the mask by an external force applied to the storage box 1000. In this case, the storage box 1000 includes a pouch-shaped housing 200, and an external force applied to the storage box 1000 is an external force that can be directly or indirectly transmitted to the pouch-shaped housing 200. Specifically, for example, the external force applied to the storage box 1000 may be an external force generated by a user holding and shaking the pouch-shaped housing 200 in his or her hand. The description of the above-described external force is only an example, and the external force applied to the storage box 1000 due to the above-described example should not be limited and interpreted.

In addition, the driving means hole 102 of the pouch-shaped housing 200 may be an inlet portion 203 or the inlet portion 203 may be a driving means hole 102. Specifically, when the drive means hole 102 is included in the pouch-shaped housing 200, the drive means hole 102 may be used as the inlet portion 203. That is, the mask may be stored in the housing 200 through the driving means hole 102 in an open state. One of the shape or size of the drive means hole 102 may be deformed by the subsidiary material 204 to be either a closed state or an open state. In addition, when the driving means hole 102, which is the inlet portion 203, is closed by the subsidiary material 204, the inner space of the housing 200 may be a space blocked from the outside. In addition, when the inlet portion 203 is the driving means hole 102, the holding portion 310 of the driving means 300 and 301 may pass through the inlet portion 203 in an open state and be assembled with the fiber part 320. According to another embodiment of the present disclosure, when the driving means hole 102 is included in the pouch-shaped housing 200, the shape may be modified according to the material constituting the housing 200. Specifically, as the shape of the housing 200 is deformed by an external force, the driving means hole 102 may have a shape deformed from the original shape processed. For example, when the flexible PVC material housing 200 includes a circular drive means hole 102, the drive means hole 102 does not maintain a circular shape according to an external force applied to the housing 200, It can be transformed into a distorted circle. The above-described material of the housing 200 and the shape of the driving means hole 102 are only examples, and the present disclosure is not limited thereto.

The housing 200 according to another embodiment of the present disclosure may have a form of a pouch to form a space in which the mask 500 can be accommodated. For the pouch-shaped housing 200, for example, a bag-shaped housing 200, a bag-shaped housing 200, or a PP polybag including a slide zipper and a polybag including a PE polybag, an OPP bag, or It can be a zipper bag. The pouch-shaped housing 200 described above is only an example, and the present disclosure is not limited thereto.

In the case of the pouch-shaped housing 200 according to another embodiment of the present disclosure, the cover 100 may be included in the housing 200 as a part of the housing 200. Specifically, the cover 100 may be an extended portion of the housing 200 and may be included in the housing 200 as one surface constituting the housing 200. The cover 100 is an extended portion of the pouch-shaped housing 200 and may be partially bonded or fixed to an end of the housing 200. Accordingly, one or more bonding portions 104 may be included at the ends of each of the surfaces constituting the housing 200. In addition, the overall shape and material of the storage box 1000 may correspond to the shape and material of the pouch-shaped housing 200.

According to another embodiment of the present disclosure, the housing 200 may include a subsidiary material 204 such that a space for accommodating the mask 500 therein may be blocked from the outside. Specifically, the mask 500 may be accommodated in the inner space of the housing 200 through the inlet portion 203, and the inlet portion 203 may be opened or closed by the subsidiary material 204. I can. The subsidiary material 204 may adjust at least one of the size or shape of the inlet portion 203 to be one of an open state or a closed state of the inlet portion 203. The subsidiary material 204 may be included on one surface exposed to the outside of the housing 200 so that the user can use it directly. Specifically, the inlet portion 203 may be positioned at a position corresponding to the inlet portion 203 so as to be adjustable.

The pad 400 shown in FIG. 4 may be at least one of a deodorizing pad and an antibacterial pad, and may be a universal pad capable of deodorizing and antibacterial. In FIG. 4, one pad 400 is illustrated, but one or more pads 400 may be formed. That is, the pads 400 of each of the deodorizing pad and the antibacterial pad may be stored in the housing 200.

When the cover 100 is included as a part of the housing 200 according to another embodiment of the present disclosure, the coupling fixing part 101 of the cover 100 may be replaced with a subsidiary material 204. Specifically, when the inlet portion 203 is closed by the auxiliary material 204 instead of the coupling fixing portion 101 for the pouch-shaped housing 200, an inner space blocked from the outside may be formed. Further, the hinge 103 may be replaced with a bonding portion 104 so that the cover 100 is configured as an extended portion of the pouch-shaped housing 200. The bonding portion 104 may be a joint portion fixed by an adhesive or the like to each of the ends of the surfaces forming the housing 200, but the present disclosure is not limited thereto.

According to another embodiment of the present disclosure, the dehumidifying agent storage unit 202 may be configured on one surface inside the housing 200 to store the pad 400 shown in FIG. 4. In this case, the pad 400 may be at least one of an antibacterial pad, a deodorizing pad, or a dehumidifying agent. There may be more than one pad 400, and the desiccant storage unit 202 may have a size capable of storing a plurality of pads 400. In addition, the pad 400 may be a universal pad capable of antibacterial, deodorizing and dehumidifying.

In addition, the mask fixing part 201 may be configured on one surface of the pouch-shaped housing 200 according to another embodiment.

In addition, the driving means hole 102 of the pouch-shaped housing 200 may be an inlet portion 203 or the inlet portion 203 may be a driving means hole 102. Specifically, when the drive means hole 102 is included in the pouch-shaped housing 200, the drive means hole 102 may be used as the inlet portion 203. That is, the mask may be stored in the housing 200 through the driving means hole 102 in an open state. One of the shape or size of the drive means hole 102 may be deformed by the subsidiary material 204 to be either a closed state or an open state. In addition, when the driving means hole 102, which is the inlet portion 203, is closed by the subsidiary material 204, the inner space of the housing 200 may be a space blocked from the outside. In addition, when the inlet portion 203 is the driving means hole 102, the holding portion 310 of the driving means 300 and 301 may pass through the inlet portion 203 in an open state and be assembled with the fiber part 320. have.

According to another embodiment of the present disclosure, when the driving means hole 102 is included in the pouch-shaped housing 200, the shape may be modified according to the material constituting the housing 200. Specifically, as the shape of the housing 200 is deformed by an external force, the driving means hole 102 may have a shape deformed from the original shape processed. For example, when the flexible PVC material housing 200 includes a circular drive means hole 102, the drive means hole 102 does not maintain a circular shape according to an external force applied to the housing 200, It can be transformed into a distorted circle. The above-described material of the housing 200 and the shape of the driving means hole 102 are only examples, and the present disclosure is not limited thereto.

The detachable driving means 300 according to an embodiment of the present disclosure is composed of a fiber part 320 in which a holding part 310 and a fiber part 330 for generating static electricity and removing contaminants are combined to receive a driving force. The holding part 310 and the fiber part 320 may include a fitting coupling structure capable of being separated and coupled to each other. In an embodiment of the present disclosure, the mask storage box 1000 may include a driving means capable of driving the mask management means. Specifically, the mask storage box 1000 may include a driving means capable of driving at least one of a means for generating static electricity or a means for removing contaminants.

In another embodiment of the present disclosure, the holding part 310 and the fiber part 320 may be screwed together, and the holding part 310 and the fiber part 320 may be combined by any fastening method. .

More specifically, the fiber part 320 may be combined with the fiber part 330. The fiber part 330 may be located on the lower surface of the fiber part 320, and the fibers of the fiber part 330 form a right angle with the lower surface of the fiber part 320, or are arranged at a certain angle rather than a right angle. Can be. The yarn forming the fiber part 330 may be disposed at a right angle to the bottom surface of the fiber part 320, and may be disposed at an arbitrary angle other than a right angle. The fiber part 330 may constitute at least one of a static electricity generating means or a pollutant removing means. That is, for example, the means for generating static electricity and the means for removing contaminants may be composed of microfiber fibers of the fiber portion 330.

In addition, the fibers of the fiber unit 330 may reduce the odor of the mask by removing contaminants. Specifically, the contaminant may be a material including at least one of a material that contaminates the mask such as fine dust and a material that causes odor. Accordingly, the fiber unit 330 may be formed of a material capable of removing contaminants including odor-causing substances or capable of deodorizing. For example, the fiber unit 330 may include a material capable of removing odor from a mask such as charcoal or may be formed of a silica material capable of deodorizing, but the present disclosure is not limited thereto. Accordingly, the fiber unit 330 may be a means for at least one of generating static electricity, removing pollutants, and deodorizing.

When the yarn forming the fiber part 330 is disposed at a right angle to the fiber part 320, the amount of static electricity generated by the fiber part 330 may be increased. When the yarn constituting the fiber part 330 is disposed at an angle other than a right angle to the fiber part 320, the manufacturing cost may be reduced. In addition, the other side of the fibrous portion 330 fixed to the fibrous portion 320 may contact the surface of another object (eg, a mask in the present disclosure). Accordingly, the material of the fiber part 320 is made of plastic, aluminum, silicon, etc. so that the material of the fiber part 320 is light and is easy to mold and is easily combined with the fiber part 330, and then the combined state with the fiber part 330 is maintained. It may be configured, but the present disclosure is not limited thereto. The material of the synthetic fiber constituting the fiber part 330 may include microfibers made of nylon or polypropylene to generate static electricity due to friction with the surface when the driving force is transmitted, but the present disclosure is not limited thereto. In addition, the length and diameter of the synthetic fibers forming the fiber part 330 may be configured as long and thin as possible to increase the amount of static electricity generated, but the present disclosure is not limited thereto.

And, the holding unit 310 according to an embodiment of the present disclosure may have a shape having a rounded end or a ring shape so that it is easy to grasp when a user uses the driving means 300, and to prevent slipping It may be made or coated with a rubber or silicone material, but the present disclosure is not limited thereto. In addition, since the holding portion 310 is driven while passing through the drive means hole 102, the wear due to friction can be minimized in order to preserve the durability of the cover 100 including the drive means hole 102. It may be manufactured in a cylindrical shape, but the present disclosure is not limited thereto.

In addition, the driving means 300 may include an electromagnetic static electricity generating unit for generating static electricity by electromagnetic force. The electromagnetic static electricity generation unit may generate static electricity by electromagnetic force. The electromagnetic static electricity generator may be composed of a piezoelectric element capable of generating electric power, a battery, etc., and may generate static electricity in the mask by generating a flow of electricity. The configuration for generating the electromagnetic force of the electromagnetic static electricity generating unit described above is only an example, and the present disclosure is not limited thereto. Static electricity may be generated by friction or induced by an already charged object. Accordingly, if a charger having electrical properties is used, an uncharged object can be charged and static electricity can be generated. The electromagnetic static electricity generating unit may be used as an electric charge and have an electromagnetic force for inducing static electricity of the mask.

5B is an exemplary view of an integrated driving means 301 according to another embodiment of the present disclosure. The holding part 311 and the fiber part 321 according to another embodiment of the present disclosure may be integrally manufactured, and at this time, the holding part 311 penetrates through the drive means hole 102 of the cover 100 Can be included Since the functions and configurations of the parts shown in FIG. 5B are the same as the functions and configurations of the parts with the same name described in FIG. 5A, detailed descriptions are omitted.

6 is an exemplary view of a state in which the driving means 300 and 301 according to an embodiment of the present disclosure are assembled to be driven through the driving means hole 102 of the cover 100.

When the mask is stored inside the housing 200 according to the exemplary embodiment of the present disclosure, the user may fix the mask using the mask fixing unit 201 and then close the cover 100. In addition, the coupling fixing part 101 may be used to maintain the state of the closed cover 100. At this time, the

fiber portions

330 and 331 can be driven along the mask surface according to the driving method of the driving means 300 and 301 passing through the driving means hole 102, and the fixed mask is connected to the moving driving means 300 and 301. Friction may occur, and static electricity may be easily generated.

7 shows a state in which the driving means 300 and 301 are used for a mask fixed inside the storage box 1000 while reciprocating by an external force while passing through the driving means hole 102 according to an embodiment of the present disclosure. It is an exemplary diagram.

The drive means hole 102 according to an embodiment of the present disclosure is long to enable a linear reciprocating motion when external force is transmitted to the holding

parts

310 and 311 connected to the

fiber parts

320 and 321 including the

fiber parts

330 and 331 It may include a configured through-hole shape, but the present disclosure is not limited thereto.

According to an embodiment of the present disclosure, the driving means may rotate or reciprocate the mask management means. Specifically, when the user makes a linear reciprocating motion along the drive means hole 102 while the user closes the cover 100 to which the holding

parts

310 and 311 of the driving means 300 and 301 are assembled, the inside of the storage box 1000 The

fiber portions

330 and 331 in contact with the surface of the mask fixed to may cause friction while moving, and thus, contaminants on the mask surface may be removed or static electricity may be generated. After that, when the user wants to use the mask, the cover 100 may be opened, the mask may be removed from the mask fixing part 201 inside the housing 200, and the mask may be used.

In another embodiment of the present disclosure, the holding

portions

310 and 311 are moved along the driving means hole 102 in a state where the cover 100 in which the holding

portions

310 and 311 of the driving means 300 and 301 are assembled is closed as a driving device other than the user. It can make linear reciprocating motion. The effect of this is the same as the case in which the user makes the driving means 300 and 301 linearly reciprocate, and thus detailed description thereof will be omitted.

The driving means hole 102 according to the embodiment may include a shape configured in a circular shape so that the holding

portions

310 and 311 connected to the

fiber parts

320 and 321 including the

fiber parts

330 and 331 can rotate by external force. The present disclosure is not limited thereto.

Meanwhile, according to an embodiment of the present disclosure, the driving means may rotate or reciprocate the mask management means. Specifically, when the user rotates the holding

portions

310 and 311 in a state where the cover 100 in which the holding

portions

310 and 311 of the driving means 300 and 301 are assembled along the driving means hole 102 is closed, the mask appears. Since the effect is the same as in the case of linear motion, a detailed description thereof will be omitted.

In addition, in another embodiment of the present disclosure, the holding

portions

310 and 311 are inserted into the drive means hole 102 with the cover 100 in which the holding

portions

310 and 311 of the driving means 300 and 301 are assembled with a driving device other than the user. You can rotate along the way. For example, the driving device may be composed of a motor that converts electrical energy into kinetic energy. The drive device may drive the drive means to rotate or reciprocate. The drive device may be coupled through a drive force transmission means (eg, belt, gear, etc.) capable of connecting the drive means and the drive force so that the drive means reciprocates or rotates. That is, in another embodiment of the present disclosure, the driving means 300 and 301 may be moved by receiving an external force other than a user. In this case, the mask storage box may include a motor capable of applying a force to the driving means so that the driving means 300 and 301 move. The driving means may be driven by receiving an external force from the motor. For example, the motor may rotate the drive means so that the mask is managed by the mask management means attached to the drive means. More specifically, the motor may rotate the driving means so that at least one of the static electricity generating means or the pollutant removing means attached to the driving means rubs against the mask. The driving means may be held and driven by a user, or may be driven by a driving device (eg, a motor). Since the effect of this is the same as when the user rotates the driving means 300 and 301, detailed descriptions will be omitted.

The above-described movement method of the driving means 300 and 301 shown in FIGS. 7 to 7 may be applied to the pouch-shaped housing 200. Specifically, the user may perform linear reciprocating motion or rotational motion of the driving means 300 and 301 including the holding

portions

310 and 311 connected to the

fiber parts

320 and 321. In this case, the cover 100 may be included as a part of the housing 200, and the drive means hole 102 may be included in the housing 200. The drive means hole 102 through which the drive means 300 and 301 pass may be in an open state. In addition, when the

fiber parts

320 and 321 including the

fiber parts

330 and 331 are separated from the holding

parts

310 and 311, they may be stored inside the mask and the housing 200 through the driving means hole 102 in an open state.

When the drive means hole 102 is closed by the subsidiary material 204, the

fiber parts

320 and 321 accommodated in the inner space of the mask and the housing 200 are applied to the storage box 1000 including the pouch-shaped housing 200. It may rub against the mask by external force. For example, the external force may be an external force generated by a user holding and shaking the pouch-shaped housing 200 in his or her hand, but the present disclosure is not limited thereto.

Description of the presented embodiments is provided so that those of ordinary skill in the art of the present disclosure can use or implement the present disclosure. Various modifications to these embodiments will be apparent to those of ordinary skill in the art, and general principles defined herein may be applied to other embodiments without departing from the scope of the present disclosure. Thus, the present disclosure is not limited to the embodiments presented herein, but is to be interpreted in the widest scope consistent with the principles and novel features presented herein.

As described above, related contents have been described in the best mode for carrying out the invention.

The present disclosure relates to a storage box capable of storing a mask, and more particularly, to a storage box capable of carrying a mask.

Claims

As a storage box for storing a mask,

A housing for forming a space capable of accommodating a mask therein;

A cover combined with the housing to form a space for accommodating the mask therein; And

A mask management means for managing the mask accommodated in the housing;

Containing,

A storage box for storing the mask.
The method of claim 1,

The housing has a form of a pouch to form a space capable of accommodating the mask therein,

The housing includes subsidiary materials so that the space can be blocked from the outside,

A storage box for storing the mask.
The method according to claim 1 or 2,

The space formed by the housing,

The mask has a size that can be freely movable inside the storage box,

A storage box for storing the mask.
The method according to claim 1 or 2,

The housing,

A mask fixing part for fixing the mask;

Containing,

A storage box for storing the mask.
The method according to claim 1 or 2,

The housing,

A dehumidifying agent storage unit capable of storing a dehumidifying agent for maintaining static electricity of the mask;

Containing,

A storage box for storing the mask.
The method of claim 1,

The mask management means,

A contaminant removing means for removing contaminants located on the mask surface; or

Static electricity generating means for generating static electricity in the mask accommodated in the housing; Containing at least one of,

A storage box for storing the mask.
The method of claim 6,

At least one of the pollutant removing means or the static electricity generating means,

A fiber portion made of a synthetic fiber material for rubbing against the mask to generate static electricity in the mask or removing contaminants from the mask;

Containing,

A storage box for storing the mask.
The method of claim 6,

The static electricity generating means,

An electromagnetic static electricity generation unit for generating static electricity in the mask by electromagnetic force;

Containing,

A storage box for storing the mask.
The method of claim 6,

The contaminant removal means,

An antibacterial pad that can be accommodated with a mask inside the housing; And

A deodorizing pad for removing odor from the inside of the housing and the mask;

Containing,

A storage box for storing the mask.
The method of claim 6,

Driving means for driving the mask management means;

Further comprising,

A storage box for storing the mask.
The method of claim 10,

The driving means,

A holding unit through which a user of the storage box can hold the driving means;

Containing,

A storage box for storing the mask.
The method of claim 10,

A drive device for applying a force to the drive means to drive the drive means;

Further comprising,

A storage box for storing the mask.
The method of claim 11,

The cover,

A driving means hole through which a holding unit capable of transmitting a driving force to the driving means passes so that a user of the storage box can drive the driving means;

Containing,

A storage box for storing the mask.
The method of claim 10,

The driving means,

Rotating or reciprocating the mask management means,

A storage box for storing the mask.