POWDER DISCHARGE CONTAINER HAVING AIR PUMPING PART AND AIR DISCHARGE PART

The present invention provides a powder discharge container having an air pumping part and an air discharge part, the powder discharge container including: an accommodation part (100) configured such that an upper accommodation portion (110) and a lower accommodation portion (120) are provided to communicate with each other and a filter member (140) is disposed in a powder discharge part (130); a seating part (200) disposed inside the accommodation part (100); an air pumping part (300) accommodated in the upper accommodation portion (110), and provided in the shape of a corrugated pumping structure (310); and an air discharge part (400) accommodated in the lower accommodation portion (120), and provided with a coupling portion (410) that is coupled to the bottom of the seating part (200) and the plurality of pressurization passage portions (420) that are each formed in a hollow structure under the coupling portion (410).

TECHNICAL FIELD

The present invention relates to a powder discharge container. More particularly, the present invention relates to a powder discharge container having an air pumping part and an air discharge part.

BACKGROUND ART

Recently, there have been many cases where people with severe hair loss or thinning hair spray Heukchae on their hair.

In this case, ‘Heukchae’ is a material in the form of black solid powder, and is used in such a manner as to be sprayed on hair more conveniently than wigs useful for people without hair or with thinning hair.

However, the prior art is configured such that Heukchae is sprayed on the outside of the hair, and thus, has a problem in that Heukchae is not evenly sprayed on the inside of the hair.

In addition, there is a problem in that the powder (Heukchae) accommodated inside a container is not discharged in an even particle size but is discharged in a sticking state.

DISCLOSURE

Technical Problem

A powder discharge container having an air pumping part and an air discharge part according to the present invention has the following objects:

A first object is to allow the powder stored in an accommodation part to be easily discharged.

A second object is to prevent the powder stored in the accommodation part from sticking.

A third object is to enable the amount of powder discharged from the accommodation part to be controlled.

The objects of the present invention are not limited to those mentioned above, and other objects not mentioned above will be clearly understood by those skilled in the art from the following description.

Technical Solution

The present invention provides a powder discharge container having an air pumping part and an air discharge part, the powder discharge container including: an accommodation part configured such that an upper accommodation portion having an open top and a lower accommodation portion having a powder discharge part in the bottom thereof are provided to communicate with each other and a filter member is disposed in the powder discharge part; a seating part disposed inside the accommodation part, and provided with a central hole; an air pumping part accommodated in the upper accommodation portion, provided in the shape of a corrugated pumping structure, and provided with an open bottom end that is coupled to the top of the seating part; and an air discharge part accommodated in the lower accommodation portion, and provided with a coupling portion that is coupled to the bottom of the seating part and a plurality of pressurization passage portions that are each formed in a hollow structure under the coupling portion; wherein the air pumped by the air pumping part is discharged to the lower accommodation portion through at least one air discharge of holes formed in the pressurization passage portions, and the powder accommodated in the lower accommodation portion is discharged through the filter member.

In the present invention, the filter member may be provided as a mesh structure or a porous structure, and may be configured to allow powder having a predetermined size to pass through the filter member itself.

In the present invention, the powder may be introduced into the lower accommodation portion after the filter member has been removed, and the filter member may be coupled back when the introduction of the powder is completed.

In the present invention, ends of the pressurization passage portions may be spaced apart from the filter member.

In the present invention, the pressurization passage portions may be provided to have the same length as each other.

In the present invention, the pressurization passage portions may be provided as a group of passage portions having different lengths.

In the present invention, each of the air discharge holes of the pressurization passage portions may be provided in at least one of an end and side of a corresponding one of the pressurization passage portions.

In the present invention, ends of the pressurization passage portions may be bent ends that are provided to be bent.

In the present invention, a plurality of protrusions may be provided on the outer surfaces of the pressurization passage portions.

In the present invention, partition pillar portions may be coupled to the outer periphery of the air discharge part.

In the present invention, the outer surface of the accommodation part may be provided with an outer cover part having a through hole in the top thereof.

In the present invention, a pressing member may be inserted into the through hole of the outer cover, so that when the pressing member is pressed, the corrugated pumping structure is pressed.

In the present invention, a lid part may be coupled to the lower accommodation portion.

In the present invention, protruding powder outlet stopper may be provided on the bottom surface of the lower accommodation portion.

Advantageous Effects

The powder discharge container having an air pumping part and an air discharge part according to the present invention has the following effects:

First, there is an effect in that the powder stored in the accommodation part is easily discharged using the air pumping part.

Second, there is an effect in that the powder stored in the accommodation part is prevented from sticking through the configurations of the height difference, bent ends and protrusions of the pressurization passage portion.

Third, there is an effect in that the amount of powder discharged from the accommodation part is controlled and excessive discharge is prevented using the air pumping part.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned above will be clearly understood by those skilled in the art from the following description.

BEST MODE

The present invention provides a powder discharge container having an air pumping part and an air discharge part, the powder discharge container including: an accommodation part configured such that an upper accommodation portion having an open top and a lower accommodation portion having a powder discharge part in the bottom thereof are provided to communicate with each other and a filter member is disposed in the powder discharge part; a seating part disposed inside the accommodation part, and provided with a central hole; an air pumping part accommodated in the upper accommodation portion, provided in the shape of a corrugated pumping structure, and provided with an open bottom end that is coupled to the top of the seating part; and an air discharge part accommodated in the lower accommodation portion, and provided with a coupling portion that is coupled to the bottom of the seating part and a plurality of pressurization passage portions that are each formed in a hollow structure under the coupling portion; wherein the air pumped by the air pumping part is discharged to the lower accommodation portion through at least one of air discharge holes formed in the pressurization passage portions, and the powder accommodated in the lower accommodation portion is discharged through the filter member.

MODE FOR INVENTION

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings so that those of ordinary skill in the art to which the present invention pertains can easily practice the present invention. As can be easily understood by those of ordinary skill in the art to which the present invention pertains, the following embodiments may be modified in various forms without departing from the spirit and scope of the present invention. Throughout the drawings, identical or similar parts are denoted with the same reference numerals as much as possible.

The terminology used in this specification is employed only for referring to specific embodiments and is not intended to limit the present invention. Each singular form used herein also includes a plural form unless the phrases clearly indicate the opposite.

The meaning of “including” used herein is intended to specify one or more particular characteristics, regions, integers, steps, operations, elements, and/or components, and is not intended to exclude the presence or addition of one or more other specific characteristics, regions, integers, steps, operations, elements, components, and/or groups thereof.

All the terms including the technical and scientific terms used herein have the same meanings as commonly understood by those of ordinary skill in the art to which the present invention pertains. The terms defined in the dictionary are additionally interpreted as having meanings consistent with the related technical literature and the currently disclosed content, and are not interpreted in ideal or excessively formal senses unless defined so.

The terms related to directions used in this specification, for example, terms of front/back/left/right, upper/lower, longitudinal/lateral directions, etc., may be interpreted with reference to the directions disclosed in the accompanying drawings.

The present invention is directed to a powder discharge container for storing and discharging powder. Although the present invention will be described by taking a hair dye (Heukchae) in a powder form as an example below, the powder according to the present invention is not limited to the hair dye (Heukchae).

The present invention has a structure in which an air pumping part is provided in the upper portion of an accommodation part, powder is accommodated (stored) in the lower space of the accommodation part, and an air discharge part is provided in the lower space of the accommodation part.

The air pressurized by the pumping of the air pumping part300may be discharged to the lower accommodation portion120through the air discharge part400, the discharged air may cause the powder stored in the lower accommodation portion120to flow, and the powder may be discharged to the outside through the powder discharge part130and filter member140of the lower accommodation portion120.

The flowing powder, together with the pressurized air, is not only discharged to the outside, but may also be pulverized while colliding with each other, with the filter member140, and/or with pressurization passage portions420during a flow process.

Hereinafter, the present invention will be described with reference to the drawings. For reference, the drawings may be partially exaggerated in order to describe the features of the present invention. In this case, it is preferable to make interpretations in light of the overall purport of the present specification.

FIG.1ashows the appearance of a state in which a lid part is coupled to the powder discharge container according to the present invention, andFIG.1bshows a state in which the lid part is removed from the powder discharge container.

FIG.2is an exploded perspective view of the powder discharge container according to the present invention.FIG.3is a detailed exploded perspective view in which the inside of the accommodation part is additionally exploded in the exploded view ofFIG.2.

As shown inFIG.3, the powder discharge container having an air pumping part and an air discharge part according to the present invention includes an accommodation part100, a seating part200, an air pumping part300, and an air discharge part400.

The powder discharge container having an air pumping part and an air discharge part according to the present invention includes: the accommodation part100configured such that an upper accommodation portion110having an open top and a lower accommodation portion120having the powder discharge part130in the bottom thereof are provided to communicate with each other and the filter member140is disposed in the powder discharge part130; the seating part200disposed inside the accommodation part100and provided with a central hole210; the air pumping part300accommodated in the upper accommodation portion110, provided in the shape of a corrugated pumping structure310, and provided with an open bottom end320that is coupled to the top of the seating part200; and the air discharge part400accommodated in the lower accommodation portion120, and provided with a coupling portion410that is coupled to the bottom of the seating part200and the plurality of pressurization passage portions420that are each formed in a hollow structure under the coupling portion410.

In the present invention, the air pumped by the air pumping part300may be discharged to the lower accommodation portion120through at least one of the air discharge holes421formed in the pressurization passage portions420, and the powder accommodated in the lower accommodation portion120may be discharged through the filter member140.

The air pumping part300disposed inside the upper accommodation portion110is provided as the corrugated pumping structure310. Accordingly, when a closed end330on the top of the air pumping part300is repeatedly pressed, air may be moved downward through a process in which the corrugations of the corrugated pumping structure310are folded and unfolded.

The air moved downward is moved to the pressurization passage portions420of the air discharge part400, and is discharged through the air discharge holes421.

The place where air is discharged is the lower accommodation portion120in which powder is stored, and the powder discharge part130is provided in the bottom of the lower accommodation portion120. The pressurized air is discharged to the outside through the powder discharge part130together with the stored powder.

In this case, it is preferable to dispose the filter member140in the powder discharge part130so that only powder having a predetermined powder size or less is discharged.

In the present invention, the powder may be introduced into the lower accommodation portion120after the filter member140has been removed, and the filter member140may be coupled back when the introduction of the powder is completed (seeFIGS.14ato14d).

In the present invention, the filter member140may be provided as a mesh structure or a porous structure. The powder (material) accommodated in the lower accommodation portion120may stick to each other and form lumps over time. Since the sticking of the powder prevents the power from being in the original state of the powder, it reduces the function (a hair dyeing function, and/or the like) of discharged powder, also interferes with discharge, and further acts as a factor hindering quantitative discharge.

Accordingly, in the present invention, the powder may be discharged through the filter member140so that only powder having a predetermined size or less is discharged.

In addition, in the present invention, the function of pulverizing the powder may be performed using air used to discharge the powder.

In the present invention, ends of the pressurization passage portions420are spaced apart from the filter member140, and the space formed by the spaced arrangement functions as a powder pulverization space.

As a first embodiment, the pressurization passage portions420according to the present invention may be provided to have the same length as each other.FIG.10shows an embodiment in which the lengths of the pressure passage portions420are the same in the powder discharge container according to the present invention.

Referring toFIG.10, the air discharged through the air discharge holes421of the pressurization passage portions420moves to the filter member140together with the powder. In this case, when the size of the powder is larger than the size allowed by the filter member140, the powder cannot pass through the filter member140, and the powder sticking together may be pulverized by collisions.

As a second embodiment, the pressurization passage portions420according to the present invention may be provided as a group of passage portions having different lengths.FIG.11shows an embodiment including a group of pressurization passage portions420having different lengths in the powder discharge container according to the present invention.

Referring toFIG.11, the separation distance between a relatively long pressurization passage portion420aand a filter member140is L1. The separation distance between a relatively short pressure passage portion420band the filter member140is L2. In the case of the second embodiment, a larger space is obtained between an air discharge hole421and the filter member140at the separation distance L2. Therefore, more flows of air are generated, and thus the pulverization of the powder may be performed more smoothly.

As a third embodiment, each of the air discharge holes421of the pressurization passage portions420according to the present invention may be provided in at least one of an end and side of a corresponding one of the pressurization passage portions.

FIG.11shows an embodiment including a group of pressurization passage portions420having different lengths in the powder discharge container according to the present invention. InFIG.11, there are illustrated air discharge holes421provided at the bottom ends of the pressurization passage portions420and air discharge holes421aprovided in the side portion.

The air discharge holes421aformed in the side portions perform the function of promoting the flow of air and the pulverization and mixing of the powder not only in the mixing space formed at the separation distances L1and L2but also in the lower accommodation portion120in which the powder is accommodated.

As a fourth embodiment, ends of pressurization passage portions420according to the present invention may be bent ends430that are provided to be bent.

FIG.12shows an embodiment in which bent ends430of pressurization passage portions are provided in the powder discharge container according to the present invention.

The bent ends430according to the present invention may be provided in the same direction or in different directions. As shown inFIG.12, the air discharged from the pressurization passage portions420through the bent ends430may be discharged in various directions. This configuration may perform the function of crushing the powder by generating collisions between the particles of the powder.

In the case ofFIG.12, the second embodiment and the fourth embodiment are combined together. As described above, multiple embodiments may be implemented individually or in combination.

As a fifth embodiment, a plurality of protrusions440may be provided on the outer surfaces of pressurization passage portions420according to the present invention.

FIG.13shows an embodiment in which a plurality of protrusions440are provided on the outer surfaces of the pressurization passage portions in the powder discharge container according to the present invention.

When air is discharged into the lower accommodation portion120, the air and the powder flow together. At this time, the powder may collide with the outer surfaces of the pressurization passage portions420. In this case, when the plurality of protrusions440are provided on the outer surfaces of the pressurization passage portions420, the powder may be more desirably pulverized.

In the present invention, partition pillar portions500may be coupled to the outer periphery of the air discharge part400.

Air and the powder are discharged through the filter member140. If they are distributed left and right after being discharged, it may be difficult to perform accurate discharge at a location desired by a user.

Accordingly, as shown inFIGS.8and9, the plurality of partition pillar portions500may be spaced apart from each other on the outer periphery of the powder discharge part130and the filter member140.

Since the plurality of partition pillar portions may function as combs, the user may move the partition pillar portions laterally (seeFIG.15c) as if combing after distributing the powder (seeFIGS.15aand15b). The powder discharged through this process may be applied to a location desired by a user.

In the present invention, the outer surface of the accommodation part100may be provided with an outer cover part600having a through hole610in the top thereof.

FIGS.16aand16bshow an outer cover part according to the present invention.

In the present invention, a pressing member340is inserted into the through hole610of the outer cover600. Accordingly, when the pressing member340is pressed, the corrugated pumping structure310may be pressed.FIGS.17aand17bshow a pressing member according to the present invention.

In the present invention, a lid part700may be coupled to the lower accommodation portion120. A protruding powder outlet stopper710may be provided on the bottom surface of the lower accommodation portion120.FIGS.18ato18cshow the lid part according to the present invention.

The embodiments described herein and the accompanying drawings merely illustrate some of the technical spirit included in the present invention by way of example.

Therefore, the embodiments disclosed herein are intended to describe the technical spirit of the present invention rather than to limit it, so that it is obvious that the scope of the technical spirit of the present invention is not limited by these embodiments. All the modifications and specific embodiments that may be easily inferred by those skilled in the art within the scope of the technical spirit included in the present specification and accompanying drawings of the present invention should be construed as falling within the scope of the present invention.