AIRTIGHT STRUCTURE OF AIRTIGHT POWDER CASE

Abstract

An airtight structure of an airtight powder case includes a powder tray and an inner lid, where the inner lid is hinged to one side of the powder tray through a rotating shaft; the inner lid is configured to open and close the powder tray; an aperture of the powder tray is provided with a seal ring; the seal ring includes a first seal ring and a second seal ring; a lower side of the second seal ring is located at the aperture of the powder tray; a lower side of the first seal ring is connected to an upper side of the second seal ring (a die may be used for integral injection molding); the second seal ring is hard, while the first seal ring is soft; and an upper side of the first seal ring is shaped as a downward flanging, and the flanging forms a top.

Description

TECHNICAL FIELD

The present disclosure relates to the technical field of cosmetics, and in particular to an airtight powder case.

BACKGROUND

Usually, a powder case refers to a portable container used by the female to carry and store a facial toning cosmetic. It has become one of indispensable articles for daily use. The existing powder case includes a case body and a lid. The lid is opened and closed through a rotating shaft. For ease of applying makeup, a powder puff is provided between the case body and the lid. However, the powder case with such a structure has poor airtightness. Not only does a puff cake in the powder case absorb moisture easily to affect service life, but also powder on the puff cake falls out of the powder case.

SUMMARY

The present disclosure provides an airtight structure of an airtight powder case to overcome the above defects. The airtight structure of an airtight powder case achieves desirable airtightness, can protect a cosmetic in the powder case from moisture, and can prolong the service life of the cosmetic.

To solve the technical problem, the present disclosure adopts the following technical solutions: an airtight structure of an airtight powder case includes a powder tray and an inner lid, where the inner lid is hinged to one side of the powder tray through a rotating shaft; the inner lid is configured to open and close the powder tray; an aperture of the powder tray is provided with a seal ring; the seal ring includes a first seal ring and a second seal ring; a lower side of the second seal ring is located at the aperture of the powder tray; a lower side of the first seal ring is connected to an upper side of the second seal ring (a die may be used for integral injection molding); the second seal ring is hard, while the first seal ring is soft; an upper side of the first seal ring is shaped as a downward flanging; the flanging forms a top; and a bottom of the inner lid is configured to abut against the top of the flanging.

As a further technical solution of the present disclosure, an edge of the flanging formed on the first seal ring compresses an outer side of the second seal ring.

As a further technical solution of the present disclosure, a circle of first rabbet is formed at the aperture of the powder tray; and the first seal ring and the second seal ring are located in the first rabbet.

As a further technical solution of the present disclosure, the flanging at the upper side of the first seal ring forms the arched top.

As a further technical solution of the present disclosure, a circle of second rabbet is formed in the bottom of the inner lid; an inner side of the second rabbet serves as a first rabbet edge; an outer side of the second rabbet serves as a second rabbet edge; the seal ring is located in an inner ring formed by the first rabbet edge; a circle of shoulder is provided on an inner wall of the aperture of the powder tray; and a lower end of the second rabbet edge is configured to abut against the shoulder, thereby further keeping airtightness.

As a further technical solution of the present disclosure, the inner lid is buckled with the other side of the powder tray through a fastener (this is the general technology. For example, the inner lid is provided with a hook. The hook is elastic. A clamping groove is formed in the powder tray. The hook can be buckled with the clamping groove. This is not repeated herein).

The present disclosure has the following beneficial effects: an aperture of the powder tray is provided with a seal ring. The seal ring includes a first seal ring and a second seal ring. A lower side of the second seal ring is located at the aperture of the powder tray. A lower side of the first seal ring is connected to an upper side of the second seal ring (the lower side of the first seal ring may be integrally formed with the upper side of the second seal ring). The second seal ring is hard, while the first seal ring is soft. An upper side of the first seal ring is shaped as a downward flanging. The flanging forms a top. A bottom of the inner lid is configured to abut against the top of the flanging. In this way, the bottom of the inner lid squeezes the top of the flanging, such that the flanging of the first seal ring further deforms to effectively enhance airtightness. The present disclosure achieves desirable airtightness, can protect a cosmetic in the powder case from moisture, and can prolong the service life of the cosmetic.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an axial sectional view according to the present disclosure;

FIG. 2 is a schematic view of A shown in FIG. 1;

FIG. 3 is an assembly view of an inner lid and a powder case according to the present disclosure (in response to an open state of the inner lid);

FIG. 4 is an assembly view of an inner lid, a powder case and a seal ring according to the present disclosure (in response to an open state of the inner lid); and

FIG. 5 is a schematic view of a seal ring according to the present disclosure (an upper side of a first seal ring is not flanged downward).

DETAILED DESCRIPTION OF THE EMBODIMENTS

The technical solutions in embodiments of the present disclosure will be described below clearly and completely with reference to the embodiments of the present disclosure. Apparently, the described embodiments are merely a part, rather than all of the embodiments of the present disclosure. All other embodiments derived from the embodiments in the present disclosure by those of ordinary skill in the art without creative efforts shall fall within the protection scope of the present disclosure.

It is to be noted that for ease of description, the spatially relative terms in actual use, such as “on” and “under”, can be used to describe the spatial positional relationship between one component or feature and another component or feature shown in the drawings. It is to be understood that if the component or the feature is positioned in other different ways (rotated by 90 degrees or 180 degrees or in other orientations), spatially relative descriptions used shall be correspondingly explained and fall into the scope of protection of the present disclosure.

Embodiment: An airtight structure of an airtight powder case includes powder tray 1 and inner lid 2. The inner lid is hinged to one side of the powder tray through a rotating shaft. The inner lid is configured to open and close the powder tray. An aperture of the powder tray is provided with a seal ring. The seal ring includes first seal ring 31 and second seal ring 32. A lower side of the second seal ring is located at the aperture of the powder tray. A lower side of the first seal ring is connected to an upper side of the second seal ring (a die may be used for integral injection molding). The second seal ring is hard, while the first seal ring is soft. An upper side of the first seal ring is shaped as a downward flanging. The flanging forms top 34. A bottom of the inner lid is configured to abut against the top 34 of the flanging.

An edge of the flanging formed on the first seal ring compresses an outer side of the second seal ring.

A circle of first rabbet 11 is formed at the aperture of the powder tray. The first seal ring and the second seal ring are located in the first rabbet.

The flanging at the upper side of the first seal ring forms the arched top 34.

A circle of second rabbet 21 is formed in the bottom of the inner lid. An inner side of the second rabbet serves as first rabbet edge 201. An outer side of the second rabbet serves as second rabbet edge 202. The seal ring is located in an inner ring formed by the first rabbet edge. A circle of shoulder 12 is provided on an inner wall of the aperture of the powder tray. A lower end of the second rabbet edge is configured to abut against the shoulder, thereby further ensuring airtightness.

The inner lid is buckled with the other side of the powder tray through fastener 4 (this is the general technology. For example, the inner lid is provided with a hook. The hook is elastic. A clamping groove is formed in the powder tray. The hook can be buckled with the clamping groove. This is not repeated herein).

The bottom of the inner lid squeezes the top of the flanging in use, such that the flanging of the first seal ring further deforms to effectively enhance airtightness. The present disclosure achieves desirable airtightness, can protect a cosmetic in the powder case from moisture, and can prolong the service life of the cosmetic.

Claims

1. An airtight structure of an airtight powder case, comprising a powder tray and an inner lid, wherein the inner lid is hinged to a first side of the powder tray through a rotating shaft; the inner lid is configured to open and close the powder tray; an aperture of the powder tray is provided with a seal ring; the seal ring comprises a first seal ring and a second seal ring; a lower side of the second seal ring is located at the aperture of the powder tray; a lower side of the first seal ring is connected to an upper side of the second seal ring; the second seal ring is hard, while the first seal ring is soft; an upper side of the first seal ring is shaped as a downward flanging; the downward flanging forms a top; and a bottom of the inner lid is configured to abut against the top of the downward flanging.

2. The airtight structure of the airtight powder case according to claim 1, wherein an edge of the downward flanging formed on the first seal ring compresses an outer side of the second seal ring.

3. The airtight structure of the airtight powder case according to claim 1, wherein a circle of first rabbet is formed at the aperture of the powder tray; and the first seal ring and the second seal ring are located in the first rabbet.

4. The airtight structure of the airtight powder case according to claim 1, wherein the downward flanging at the upper side of the first seal ring forms an arched top.

5. The airtight structure of the airtight powder case according to claim 1, wherein a circle of second rabbet is formed in the bottom of the inner lid; an inner side of the second rabbet serves as a first rabbet edge; an outer side of the second rabbet serves as a second rabbet edge; the seal ring is located in an inner ring formed by the first rabbet edge; a circle of shoulder is provided on an inner wall of the aperture of the powder tray; and a lower end of the second rabbet edge is configured to abut against the shoulder.

6. The airtight structure of the airtight powder case according to claim 1, wherein the inner lid is buckled with the other a second side of the powder tray through a fastener.