KR101681018B1 - Container for Discharging Powder - Google Patents

Abstract

The present invention relates to a powder dispensing container, and more particularly, to a powder dispensing container having a powder dispensing container for dispensing a powder, The powder introduced into the nozzle unit is discharged, whereby a certain amount of powder can be easily discharged and used by pressing the button part.

Description

[0001] Description [0002] CONTAINER FOR DISCHARGING POWDER [0003]

More particularly, the present invention relates to a powder discharge container, and more particularly, to a powder discharge container which comprises a powder discharging container for discharging a powder, The present invention relates to a powder discharge container capable of easily discharging and using a predetermined amount of powder by pressing a button portion.

Generally, the powder has good feeling when applied to the skin and has a strong water repellency to the water, so that it feels freshness during the makeup, and the makeup condition is natural.

In the case of using the powder for make-up, the powder contained in the container body of the powder container is buried in a separately provided puff. Such a powder container for cosmetic is referred to as a registered patent No. 10-1171305 .

The patent discloses a container body 10 in which a space for filling powder is provided, and an air inlet hole 10h is formed on a top surface and an air inlet hole 10h is formed on a bottom surface thereof. A new shrinking element made of an elastic material having a conical shape such that a lower edge portion of the container body 10 is in contact with a bottom edge of the container body 10 is sucked through the air discharge hole 31h formed at the upper center by pumping action A diaphragm 31 for discharging the powder filled in the outside to the space filled with the pumped powder and a pumping means 30 for opening / closing the opening / closing of the air discharge hole 31h provided at the upper center of the diaphragm 31 ); The upper surface of the pumping means (30) is provided with a plurality of lower holes (40h) through which powder powder is allowed to move, while being prevented from rotating while being in contact with the inner wall of the container body (10) (40); A movable plate 50 which is provided so as to be able to rotate with respect to the fixed plate 40 and which forms an upper hole 50h corresponding to the lower hole 40h and controls the opening and closing of the lower hole 40h during rotation, and; The inner surface of the movable plate 50 is in friction contact with the outer surface of the movable plate 50 so that the movable plate 50 is interlocked with the container body 10 when fastened to the container body 10. [ And a cap (20) for rotating the cap (20).

The patent discloses that the powder is sprayed and applied to the puff 60 when the movable plate 50 is lightly pushed or pressed by the puff 60 while the cap 20 is opened. The puff 60 is held by the other hand while holding the container main body 10 with one hand to press the movable plate 50. This poses a problem for the user.

Accordingly, in order to provide user convenience, various powder discharge containers capable of simply discharging powder by pressing the button have been developed.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an air conditioner in which a rod is moved when a button portion is pressed to press a nozzle portion in a state where a powder inflow hole of a nozzle portion is closed, And at the same time, the powder introduced into the nozzle part is discharged by the air compressing force according to the movement of the piston, whereby a certain amount of powder can be easily discharged and used by pressing the button part.

According to an aspect of the present invention, there is provided a powder discharge container comprising: a container body in which powder is stored; A nozzle housing coupled to the lower portion of the container body and having a nozzle moving hole formed at a center thereof so that a nozzle for discharging the powder can move upward and downward; A powder inflow hole is formed on one side of the powder inflow hole so that the powder stored in the container body flows into the powder inflow hole and a discharge hole is formed on the other side of the powder inflow hole so as to discharge the inflow powder. A nozzle unit formed in the nozzle unit; A nozzle movement guide part coupled to the inside of the nozzle housing to guide vertical movement of the nozzle part and having a shut-off bar for opening and closing the discharge hole according to vertical movement of the nozzle part; A button housing coupled to the upper portion of the container body and having an upper end opened to allow the button portion to move up and down; A button portion which is positioned inside the button housing and is supported by a button spring and protrudes upward from the button housing and is raised and lowered according to whether the user presses the button; A piston coupled to a lower portion of the button portion and moving together with the upward and downward movement of the button portion, the piston being raised and lowered in tight contact with the inner circumferential surface of the button housing; And an air transfer passage is formed inside the piston so that air moves to the nozzle when the piston is lowered. In the descending process due to the descent of the piston, And a rod for moving the nozzle unit by pressing the nozzle unit.

The button housing may include an air compression chamber for forming a space in which the piston moves up and down and air is compressed, and a guide tube extending downward from the air compression chamber and guiding vertical movement of the rod .

Further, the rod is formed with an air movement hole communicating with the air compression chamber.

In addition, the lower portion of the rod is provided with a bunch preventing protrusion for preventing the powder stored in the container body from being agitated by agitating the powder by raising and lowering the load.

In addition, a pair of guide protrusions are provided on the inner side of the nozzle movement guide part so as to guide the vertical movement of the nozzle part. The guide protrusion forms a powder movement hole for moving the powder flowing through the powder inlet hole, .

In addition, the guide protrusion is inserted into the upper portion of the nozzle portion, and a plurality of sliding grooves are formed along the longitudinal direction to guide the vertical movement by the guide protrusion when the nozzle portion ascends and descends.

As described above, according to the present invention, when pushing the button portion, the rod moves and the powder inlet hole of the nozzle portion is closed, so that the nozzle portion is lowered and the discharge hole is opened and the air compressing force Since the powder introduced into the nozzle unit is discharged, it is possible to easily discharge and use a certain amount of powder by pressing the button part.

1 is an exploded perspective view showing a structure of a powder discharge container according to a preferred embodiment of the present invention.
FIG. 2 is a perspective view showing a structure of a powder discharge container according to a preferred embodiment of the present invention. FIG.
3 is a cross-sectional view showing a configuration of a powder discharge container according to a preferred embodiment of the present invention.
FIGS. 4 and 5 are explanatory views showing an operating state of a powder discharge container according to a preferred embodiment of the present invention;
6 is a cross-sectional view illustrating a configuration of a powder discharge container according to another embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings. Like reference symbols in the drawings denote like elements.

FIG. 1 is an exploded perspective view showing a structure of a powder discharge container according to a preferred embodiment of the present invention, FIG. 2 is a perspective view showing a structure of a powder discharge container according to a preferred embodiment of the present invention, Sectional view showing a configuration of a powder discharge container according to a preferred embodiment of the present invention.

1 to 3, a heterogeneous contents mixing container according to a preferred embodiment of the present invention includes a container body 100, a nozzle housing 200, a nozzle unit 300, a nozzle movement guide unit 400, a button housing 500, a button portion 600, a piston 700, and a rod 800 are included.

The container body 100 is a cylindrical shape having an upper end and a lower end opened. The nozzle housing 200 is coupled to the lower part of the container body 100, and the button housing 500 is coupled to the upper part.

The nozzle housing 200 is coupled to the lower portion of the container body 100 and has an upper end opened to insert the nozzle unit 300 and the nozzle movement guide unit 400, A nozzle moving hole 210 is formed at the center of the nozzle unit 300 so that the nozzle unit 300 for discharging the powder can move upward and downward.

A nozzle movement guide unit 400 for guiding the vertical movement of the nozzle unit 300 is coupled to the inside of the nozzle housing 200. The nozzle movement guide unit 400 is mounted on the inner circumferential surface of the nozzle housing 200, And the seating jaw 220 is formed so that the lower end is seated.

A cap 900 is attached to the outside of the nozzle housing 200 so as to surround the nozzle housing 200 and is detachably attached to the nozzle housing. The discharge hole 320 of the nozzle unit 300 is formed inside the cap 900. And an opening / closing protrusion 910 for opening / closing is provided.

The nozzle unit 300 is moved up and down according to whether the rod 800 is pressed or not by the inner side of the nozzle housing 200 and the powder inflow hole 310 And the discharge hole 320 is formed in the other side of the discharge hole 320 so as to discharge the powder introduced through the powder inlet hole 310. In the present invention, 430, and is separated from the shut-off bar 430 when the nozzle unit 300 is lowered by the pressure of the rod 800, and is opened.

The nozzle unit 300 is configured to move upward and downward while being supported by a nozzle spring 330 installed in the nozzle housing 200. The nozzle unit 300 has a spring support portion (340).

In the present invention, a plurality of sliding grooves 350 are formed in the upper portion of the nozzle unit 300 along the longitudinal direction so that the guide protrusion 410 of the nozzle moving guide unit 400 is inserted. Vertical movement is performed by the guide protrusion 410 inserted into the sliding groove 350 when the nozzle unit 300 ascends and descends.

The nozzle movement guide unit 400 is coupled to the inside of the nozzle housing 200 to guide the vertical movement of the nozzle unit 300 and has a pair of guide members 300 for guiding vertical movement of the nozzle unit 300 The guide protrusions 410 are formed on the upper surface of the powder transfer hole 310 so that the powder introduced through the powder inlet hole 310 can move in the direction of the discharge hole 320. [ (420) are formed.

The nozzle moving part 400 is provided at its inner center with a shutoff bar 430 protruding downward from the guide protrusion 410 to open and close the discharge hole 320 according to vertical movement of the nozzle part 300. [ .

The button housing 500 is coupled to the upper part of the container body 100 and is opened to allow the button unit 600 to move up and down. The spring seat 540 is formed so that the button spring 530 is seated.

In the present invention, an air compression chamber (510) is formed inside the button housing (500) to raise and lower the piston (700) in close contact with the inner circumferential surface of the piston The powder injected into the nozzle unit 300 is injected by the air compressing force generated as the piston 700 descends in the air compression chamber 510.

A guide pipe 520 extending downward from the air compression chamber 510 and guiding the vertical movement of the rod 800 is provided inside the button housing 500.

The button unit 600 is supported by the button spring 530 at an inner side of the button housing 500 and protrudes upward from the button housing 500 at a predetermined height, And an engagement rod 610 extending downward and coupled with the piston 700 is provided on the upper side of the piston.

The button portion 600 is lowered by the pressure of the user and is raised and restored by the elastic force of the button spring 530 when the pressure is released, thereby enabling the powder to be discharged through the repetitive operation of the user.

The piston 700 is coupled to the coupling rod 610 of the button unit 600 and moves together with the upward and downward movement of the button unit 600. The piston 700 is coupled to the air of the button housing 500 The air is compressed through the air movement hole 810 of the rod 800 so that the air is supplied to the nozzle unit 300 through the air movement hole 810 of the rod 800. [ So that it is possible to spray the powder introduced into the nozzle unit 300 by the air compressive force.

The rod 800 is coupled to a lower portion of the piston 700 and moves together with the piston 700 so that the air moves to the nozzle unit 300 when the piston 700 is lowered. An air transfer passage 840 is formed inside the air transfer chamber 840. An air transfer hole 840 communicating with the air compression chamber 510 is formed on the outer peripheral surface of the rod 800, 810) are formed.

In the present invention, the rod 800 presses the upper end of the nozzle unit 300 to close the powder inlet hole 310 while the piston 700 is lowered together with the lowering of the piston 700, The discharge hole 320 of the nozzle unit 300 is separated from the shut-off bar 430 and is opened. At this time, the air flowing through the air transfer passage 840 The powder introduced into the nozzle unit 300 is discharged by the air compressing force.

On the other hand, on the outer circumferential surface of the lower part of the rod 800, a plurality of powder particles (hereinafter, referred to as " powder particles ") are formed by stirring the powder stored in the container body 100 by lifting and lowering the rod 800 so as to smoothly discharge the powder, It is preferable that the aggregation prevention protrusion 820 is provided.

A limiting jaw 830 supported by the lower end of the guide tube 520 is formed on the outer circumferential surface of the rod 800 so as to limit the upward movement of the rod 800 when the rod 800 rises.

Hereinafter, the operation of the powder discharge container according to the preferred embodiment of the present invention will be described with reference to FIGS. 4 and 5 are explanatory diagrams showing the use state of the powder discharge container according to a preferred embodiment of the present invention.

4, when the button portion 600 is pressed while the discharge hole 320 of the nozzle portion 300 is closed by the shut-off bar 430, the piston portion 600, which is coupled to the lower portion of the button portion 600, When the piston 700 is lowered, the rod 800 coupled to the lower portion of the piston 700 descends to contact the upper end of the nozzle unit 300, The powder inlet hole 310 is closed.

5, when the button unit 600 is further pressed, the nozzle unit 300 is moved downward by the pressure of the rod 800. As a result, the nozzle unit 300 The discharge hole 320 is separated from the shut-off bar 430 and is opened.

At this time, air flows into the rod 800 through the air movement hole 810 communicated with the air compression chamber 510, and air introduced into the rod 800 flows through the air movement passage 840, The powder flowing into the nozzle unit 300 is discharged through the discharge hole 320 by the pressure of the discharge gas.

The nozzle unit 300 and the button unit 600 are restored by the elastic force of the nozzle spring 330 and the button spring 530 when the button unit 600 is released. The discharge hole 320 is closed by the shutoff rod 430 and the lower end of the rod 800 is separated from the upper end of the nozzle unit 300 in the process of the button unit 600 being lifted up The powder inflow hole 310 of the nozzle unit 300 is opened and the powder for the next discharge out of the powder stored in the container body 100 is moved into the nozzle unit 300 through the powder inflow hole 310 .

6, the powder dispensing container 10 of the present invention can be constituted of a liquid contents dispensing container 20 for storing a serum or essence and a dual container. In this case, the outer container 30 The powder dispensing container 10 and the liquid contents dispensing container 20 are placed in the inverted state in the inverted state and then the upper ends of the powder dispensing container 10 and the liquid contents dispensing container 20 are pressed to each container The stored contents can be discharged.

The powder container 10 and the liquid content container 20 are provided at a lower portion of the outer container 30 with a support 40 supporting the powder container 10 and the liquid content container 20, A pair of discharge ports (41) are formed so that the contents stored in the discharge container (20) are discharged.

The pumping member 21 of the liquid content dispensing container 20 is supported on the inside of the support 40 so that the pumping action of the pumping member 21 can be performed when the upper end of the liquid content dispensing container 20 is pressed. A content transfer passage is formed inside the first support portion 42 so that the contents moving through the pumping action of the pumping member 21 can be moved to the discharge port 41 do.

In addition, a support member 40 is provided on the inner side of the support body 40 to support the lower end of the nozzle housing 200 to prevent the container body 100 from moving when the upper end of the powder discharge container 10, The second support portion 43 is provided with a support portion 43. The content movement passage is formed inside the second support portion 43 so that the powder discharged through the discharge hole 320 of the nozzle portion 300 can be moved to the discharge port 41 .

The powder discharging process of the powder discharging container 10 is the same as described above, and the process of discharging the contents through the pumping operation of the pumping member 21 of the liquid content discharging container 20 is well known in the art, so a detailed description is omitted .

Optimal embodiments have been disclosed in the drawings and specification. Although specific terms have been employed herein, they are used for purposes of illustration only and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: container body 200: nozzle housing
210: nozzle moving hole 220:
300: nozzle unit 310: powder inlet hole
320: discharge hole 330: nozzle spring
340: spring support part 350: sliding groove
400: nozzle moving guide part 410: guide projection
420: Powder transfer hole 430:
500: Button housing 510: Air compression chamber
520: guide tube 530: button spring
540: spring seat part 600: button part
610: Coupling rods 700: Pistons
800: rod 810: air moving hole
820: bunch prevention protrusion 830: limiting jaw
840: air passage 900: cap
910: opening / closing projection

Claims (6)

A container body in which powder is stored;
A nozzle housing coupled to the lower portion of the container body and having a nozzle moving hole formed at a center thereof so that a nozzle for discharging the powder can move upward and downward;
A powder inflow hole is formed on one side of the powder inflow hole so that the powder stored in the container body flows into the powder inflow hole and a discharge hole is formed on the other side of the powder inflow hole so as to discharge the inflow powder. A nozzle unit formed in the nozzle unit;
A nozzle movement guide part coupled to the inside of the nozzle housing to guide vertical movement of the nozzle part and having a shut-off bar for opening and closing the discharge hole according to vertical movement of the nozzle part;
A button housing coupled to the upper portion of the container body and having an upper end opened to allow the button portion to move up and down;
A button portion which is positioned inside the button housing and is supported by a button spring and protrudes upward from the button housing and is raised and lowered according to whether the user presses the button;
A piston coupled to a lower portion of the button portion and moving together with the upward and downward movement of the button portion, the piston being raised and lowered in tight contact with the inner circumferential surface of the button housing; And
Wherein the piston is coupled to a lower portion of the piston so that the piston moves together with the upward and downward movement of the piston, an air transfer passage is formed inside the piston to move air to the nozzle portion when the piston is lowered, And a rod for pressing the part to move the nozzle part.
The method according to claim 1,
Wherein the button housing comprises:
And a guide tube extending downward from the air compression chamber and guiding the vertical movement of the rod, the air compression chamber forming a space in which the piston moves up and down and compressing air.
The method of claim 2,
And an air transfer hole communicating with the air compression chamber is formed in the rod.
The method of claim 3,
And a bottom of the rod is provided with a bunch preventing protrusion for preventing the powder stored in the container body from being agglomerated by agitating the powder by the lifting and lowering of the rod.
The method according to claim 1,
A pair of guide protrusions are provided on the inner side of the nozzle movement guide part so as to guide the vertical movement of the nozzle part, and the guide protrusions are formed so as to form a powder movement hole for crossing the powder flowing through the powder inlet hole Features Powder discharge container.
The method of claim 5,
Wherein a plurality of sliding grooves are formed along the longitudinal direction so that the guide protrusions are inserted into the upper portion of the nozzle portion and the vertical movement is guided by the guide protrusions when the nozzle portion ascends and descends.

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