Electric Puff

Abstract

The present invention relates to an electric puff, and particularly, to an electric puff comprising: a case in which a switch is installed; a foundation container disposed inside the case; a puff portion connected to the foundation container for receiving foundation; and an actuating shaft for oscillating the puff portion back and forth by means of a motor driven by an actuation of the switch.

Description

TECHNICAL FIELD

The present invention relates to an electric puff, which includes both a foundation container and a puff moving back and forth.

BACKGROUND ART

A conventional puff has the form of a circular or rectangular plate, with a band provided on a surface of the puff to allow fingers to be inserted therein.

Such a conventional puff is problematic in that an additional makeup tool is further required when applying makeup, and a user's hand is stained with foundation, thus causing an inconvenience to the user.

Further, this puff is problematic in that cosmetics are not evenly applied to a targeted part of the face.

DISCLOSURE

Technical Problem

Accordingly, the present invention has been made keeping in mind the above problems occurring in the related art, and is intended to provide an electric puff, which makes it convenient to put on makeup and allows cosmetics to be evenly applied to a targeted part of the face.

Technical Solution

In an aspect, the present invention provides an electric puff including a case in which a switch is installed; a foundation container disposed inside the case; a puff portion connected to the foundation container for receiving foundation; and an actuating shaft for oscillating the puff portion back and forth by means of a motor driven by an actuation of the switch.

An eccentric member may be provided between the actuating shaft and the motor.

The eccentric member may include an eccentric shaft that is coupled to a rotating shaft of the motor, and a coupling portion which oscillates the actuating shaft back and forth while being eccentrically rotated by the driving force of the motor transmitted to the eccentric shaft.

The electric puff may further include a connector provided behind the puff portion, a connecting pipe connected with the foundation container being coupled to the connector; and a through duct passing through the puff portion to allow the foundation passing through the connecting pipe to be dispensed onto the puff portion.

An axis of the connector may be eccentric from an axis of the through duct.

Advantageous Effects

As described above, the electric puff according to the present invention has the following effects.

The electric puff includes both the foundation container and the puff portion, thus making it convenient to apply makeup.

The puff portion automatically oscillates back and forth, thus allowing makeup to be conveniently applied without using unnecessary manual movement or force.

The electric puff includes the eccentric member, thus generating vibrations.

The axis of the connector is eccentric from that of the through duct, thus allowing a proper amount of foundation to be discharged and evenly applied to a desired part of the face.

DESCRIPTION OF DRAWINGS

FIG. 1 is a side view showing an electric puff according to a preferred embodiment of the present invention;

FIG. 2 is a sectional view of FIG. 1;

FIG. 3 is a view showing an operation of an electric puff according to the preferred embodiment of the present invention; and

FIG. 4 is a sectional view showing a foundation container of the present invention.

MODE FOR INVENTION

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Since the same parts of the present invention as those of the prior art have been described in the background, a detailed description thereof will be omitted herein.

FIG. 1 is a side view showing an electric puff according to a preferred embodiment of the present invention, FIG. 2 is a sectional view of FIG. 1, FIG. 3 is a view showing an operation of an electric puff according to the preferred embodiment of the present invention, and FIG. 4 is a sectional view showing a foundation container of the present invention.

As shown in FIG. 2, an electric puff of the present invention includes a case 1 in which a switch 9 is installed, a foundation container 2 disposed inside the case 1, a puff portion 3 connected to the foundation container 2 for receiving foundation, and an actuating shaft 4 for oscillating the puff portion 3 back and forth by means of a motor 5 driven by the actuation of the switch 9.

Case

The case 1 has a trapezoidal section, with a portion of the front thereof being curved inwards.

In the case 1 are defined a motor receiving portion 11 for receiving the motor 5, a foundation-container receiving portion for receiving the foundation container 2, and a battery receiving portion 13 for receiving a battery 13a.

Further, a bushing 265 is installed in the case 1 to guide and thereby oscillate the actuating shaft 4 that will be described below in detail.

A fitting portion 400 is formed in a lower end of the foundation-container receiving portion 12 so that the foundation container 2, which will be described below in detail, is fitted therein.

Motor Receiving Portion

The motor receiving portion 11 is defined in an upper portion in the case 1.

A motor support portion 112 is defined in a lower end of the motor receiving portion 11 to support the motor 5.

In a central portion of the motor support portion 112 is defined a through duct to allow a rotating shaft 50 of the motor 5 to pass therethrough.

Foundation-Container Receiving Portion

The foundation-container receiving portion 12 is formed under the motor receiving portion 11.

A first locking portion 121 is provided on a midsection of the foundation-container receiving portion 12 so that the foundation container 2 is fitted and locked therein.

A second locking portion 122 is provided on an upper portion of the foundation-container receiving portion 12 to lock the foundation container 2 at an upper end of a pumping portion 26 of the foundation container 2 that will be described below in detail.

The fitting portion 400 is provided under the foundation-container receiving portion 12 to allow a lower end of the foundation container 2, which will be described below in detail, to be fitted therein.

The fitting portion 400 is in the form of a U-shaped cavity, with an upper end thereof being bent,

The lower end of the foundation container 2 that will be described below in detail is fitted into the bent upper end of the fitting portion 400.

Battery Receiving Portion

The battery receiving portion 13 is defined in front of the foundation-container receiving portion 12.

The battery receiving portion 13 has a rectangular shape, and serves to hold the fitted battery 13a.

Connecting portions 130 are formed, respectively, on a center of a top and a center of a bottom of the battery receiving portion 13 to be connected to an electrode and a terminal of the battery 13a.

The switch 9 is installed at a lower portion of a front of an exterior of the case 1, while the puff portion 3 is installed at an upper portion of the front of the exterior of the case 1.

Foundation Container

The foundation container 2 is installed in the foundation-container receiving portion 12 defined in the case 1, and the lower end of the foundation container 2 is fitted into the fitting portion 400.

The foundation container 2 includes an outer container 2b, an inner container 2a formed in the outer container 2b to receive the foundation, a cylinder 25 positioned in the inner container 2a to be secured thereto, a shoulder 23 protecting the cylinder 25, a piston 24 fitted into the cylinder 25 in such a way as to move up and down, a piston shaft 22 coupled at a lower end thereof to the piston 24 and fitted and supported at an upper end thereof in a support member 27, and a spring 26 provided between the piston shaft 22 and the shoulder 23 to impart an elastic force to the piston shaft 22.

The pumping operation of the foundation container 2 is performed as follows. If the support member 27 is pressed down, the piston shaft 22 and the piston 24 fitted into the support member 27 are simultaneously moved down, so that the internal pressure of the cylinder 25 is increased, and thus the foundation held in the cylinder 25 passes through the piston shaft 22 and then is discharged from the nozzle 20.

Since the structure and operation of pumping the foundation from the foundation container 2 are known to those skilled in the art, a detailed description thereof will be omitted herein.

A piston portion 211 is provided on a bottom of the inner container 2a to push the foundation up.

The piston portion 211 is in the form of a U-shaped cavity.

A support portion 215 is integrally formed on a top of the piston portion 211 to support the foundation held in the inner container 2a.

A diameter of the support portion 215 is preferably larger than that of the piston portion 211.

An air path 212 is formed under the support portion 215 to permit the inflow of outside air.

The air path 212 is filled with air introduced through through holes 213 that are formed in a bottom of the outer container 2b.

When the foundation is used and thus the foundation of the inner container 2a is reduced, the internal pressure of the container is different from the atmospheric pressure. As a consequence, the air path 212 is filled with the air introduced through the through holes 213 due to a pressure difference.

Therefore, even though the foundation held in the inner container 2a is used, the foundation always remains close to the cylinder 25 disposed at an upper position due to the pressure difference, thus advantageously allowing all the foundation to be used exhaustively.

Puff Portion

The puff portion 3 is installed outside the case 1.

Preferably, the puff portion 3 is disposed in front of the motor receiving portion 11.

The puff portion 3 includes a puff plate 31, and a puff 32 integrally formed on a front of the puff plate 31.

The puff portion 3 is connected to the actuating shaft 4, which will be described below in detail, to be moved back and forth, and is connected to the foundation container 2 to be supplied with the foundation.

The puff plate 31 has a rectangular or circular shape.

A recess 310 is formed in a lower portion of the front of the puff plate 31.

The recess 310 is a passage through which the foundation passing through a connecting pipe 6 moves to the puff 32 that will be described below in detail.

Connectors 71 and 72 are formed on the back of the puff plate 31.

The connectors 71 and 72 have a hollow cylindrical shape, and protrude from the rear surface of the puff plate 31.

The connectors 71 and 72 include a first connector 71, and a second connector 72 that is provided under the first connector 71.

The first connector 71 is connected to the actuating shaft 4 that will be described below in detail.

The second connector 72 is connected to a side of the connecting pipe 6.

The diameter of the second connector 72 is greater than that of the connecting pipe 6. Therefore, when the second connector 72 is connected to the connecting pipe 6, a silicon O-ring 8 is further installed in the second connector 72 to perform a fixing operation.

The puff 32 is integrally formed on the front of the puff plate 31, and has a rectangular or circular shape.

A through duct 35 is formed in a lower portion of the puff 32 to receive the discharged foundation.

An axis of the through duct 35 is eccentric from that of the second connector 72.

The through duct 35 is preferably disposed above the second connector 72.

Such a puff portion 3 is advantageous in that an excessive amount of foundation is not dispensed and, instead, a desirable amount of foundation is dispensed.

Connecting Pipe

The connecting pipe 6 has an “L” shape.

One side of the connecting pipe 6 is connected to the nozzle 20 of the foundation container 2, while the other side is connected to the second connector 72 of the puff portion 3.

The connecting pipe 6 preferably comprises a silicon tube to be flexibly moved when the puff portion 3 moves back and forth.

Actuating Shaft/Guide Groove

One side of the actuating shaft 4 is connected to the first connector 71 of the puff portion 3, while the other side is connected to the rotating shaft 50 of the motor 5.

An elongated hole 220 is formed in the actuating shaft 4 in a direction perpendicular to the actuating shaft 4.

The actuating shaft 4 is installed perpendicularly to the rotating shaft 50 of the motor 5 via an eccentric member 200.

The actuating shaft 4 oscillates the puff portion 3 back and forth by the motor 5 which is driven.

Since the actuating shaft 4 is perpendicular to the rotating shaft 50 of the motor 5, the actuating shaft may oscillate back and forth.

In order to guide an oscillating direction of the actuating shaft 4 when the actuating shaft 4 oscillates back and forth, the bushing 265 is installed.

Preferably, the bushing 265 is installed in the case 1, and restrains a circumference of the actuating shaft to prevent the removal of the actuating shaft 4, thus ensuring that the actuating shaft can be smoothly guided back and forth.

It is preferable that two bushings 265 be installed. Preferably, the bushings are installed, respectively, in front of and to the rear of an eccentric shaft 210 that will be described below.

Eccentric Shaft

The eccentric shaft 210 has on an upper portion thereof a U-shaped cavity to allow the rotating shaft 50 of the motor 5 to be inserted therein.

A lower portion of the eccentric shaft 210 engages with the elongated hole 220 of the actuating shaft 4.

When the motor 5 rotates, the eccentric shaft 210 moves through the elongated hole 220, thus causing the actuating shaft 4 to oscillate back and forth.

Hereinafter, the operation of this embodiment constructed as described above will be described.

The fitting portion 400 provided on the lower end of the case 1 is pressed.

The foundation container 2 is pumped to discharge the foundation. This foundation passes through the connecting pipe 6 and the recess 310, and then is discharged to the through duct 35 and dispensed onto the puff 32.

The switch 9 is turned on.

The motor 5 is driven. As the motor 5 rotates, the eccentric shaft 210 also rotates.

The eccentric shaft 210 rotates through the elongated hole 220.

The actuating shaft 4 moves back and forth.

The puff portion 3 moves back and forth.

Although the embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

INDUSTRIAL APPLICABILITY

As described above, the electric puff according to the present invention is particularly suitable for an electric puff that enables a user to conveniently apply makeup.

*Description of Reference Numerals of Important parts*
	1:	case	2:	foundation container
	2a:	inner container	2b:	outer container
	20:	nozzle	22:	piston shaft
	23:	shoulder	24:	piston
	25:	cylinder	26:	spring
	27:	support member	211:	piston portion
	212:	air path	213:	through hole
	215:	support protrusion	400:	fitting portion
	3:	puff portion	31:	puff plate
	32:	puff	35:	through duct
	310:	recess	4:	actuating shaft
	210:	eccentric shaft	220:	elongated hole
	265:	bushing	5:	motor
	50:	rotating shaft of motor	6:	connecting pipe
	71:	first connector	72:	second connector

Claims

1. An electric puff, comprising:

a case equipped with a switch;

a foundation container disposed inside the case; and

a puff portion oscillated by a motor driven by an actuation of the switch,

the puff portion being supplied with foundation by pumping the foundation container.

2. The electric puff according to claim 1, wherein the puff portion oscillates back and forth.

3. The electric puff according to claim 2, wherein the electric puff further comprises an actuating shaft and the motor comprises a rotating shaft, the actuating shaft and the rotating shaft of the motor being installed perpendicular to each other,

wherein the actuating shaft has formed within it an elongated hole formed in a direction perpendicular to the actuating shaft, and

the electric puff further comprises an eccentric shaft coupled to the rotating shaft of the motor, and configured so that when the motor rotates, the eccentric shaft moves through the elongated hole to oscillate the actuating shaft back and forth.

4. The electric puff according to claim 1, further comprising: wherein an axis of the connector is eccentric from an axis of the through duct.

a connector provided behind the puff portion, a connecting pipe connected with the foundation container being coupled to the connector; and

a through duct passing through the puff portion to allow the foundation passing through the connecting pipe to be dispensed onto the puff portion,

5. The electric puff according to claim 2, further comprising: wherein an axis of the connector is eccentric from an axis of the through duct.

a connector provided behind the puff portion, a connecting pipe connected with the foundation container being coupled to the connector; and

a through duct passing through the puff portion to allow the foundation passing through the connecting pipe to be dispensed onto the puff portion,