The present invention relates to a liquid case, and more particularly, to a liquid case having a rotary discharging apparatus for discharging liquid by rotation.
In general, cosmetic products are categorized into cold cream, massage cream, and nourishing cream depending on their usages and these creams are all liquid.
A user is supposed to take some of such a cosmetic product from a vessel with a finger and apply it to the user's skin. After using the cosmetic product, the user closes the lid of the vessel by turning the lid.
Since the user puts a finger on the liquid, foreign materials are likely to be introduced into the vessel, thereby spoiling the liquid.
To solve the above problem, a tube-type vessel with a pressing pump has been developed, which discharges a certain amount of liquid by pressing.
The pressing pump is installed on a nozzle cap to open or close the inlet of the tube-type vessel. When a button of the pressing pump is pressed with a finger, the interior of the vessel gets vacuum by the pressure and the contents of the vessel are discharged through the nozzle with a certain amount each time due to the vacuum pressure.
The structure of a liquid cosmetics vessel with the pressing pump is disclosed in Korea Patent Registration No. 10-0949320 (Mar. 17, 2010).
However, a cosmetics vessel with the conventional pressing pump requires a plurality of button pressings, for discharging its contents. The resulting abrasion or contraction of the pump decreases air tightness. Therefore, foreign materials may be introduced into the cosmetics vessel, spoiling the cosmetic liquid and a pumping function may not work well.
Accordingly, there is a need for a device configured to discharge a cosmetic liquid by rotation, not pressing.
An aspect of the present invention is to provide a liquid case having a rotary discharging apparatus that is configured to discharge liquid by rotation of a rotary shoulder unit, for facilitating liquid discharge.
Another aspect of the present invention is to provide a liquid case having a rotary discharging apparatus configured to control the amount of liquid discharge by controlling rotation of a rotary shoulder unit so that a user may take an intended amount of liquid.
The object of the present invention can be achieved by providing a liquid case having a rotary discharging apparatus. The liquid case includes a body housing, a rotary shoulder unit rotatably engaged with the body housing, a moving cam unit provided in the rotary shoulder unit, for moving up and down along with rotation of the rotary shoulder unit, a moving case unit provided in the body housing and engaged with the moving cam unit, for moving together with the moving cam unit and containing a liquid, a pumping device provided in the moving cam unit, for introducing or discharging the liquid according to pressure by rotating the rotary shoulder unit and moving up or down the moving cam unit, a discharge cover unit engaged with the pumping device and having a discharge opener for being opened or closed according to pressure of the pumping device, and an elastic member interposed between the moving cam unit and the discharge cover unit, for providing elastic force to enable upward and downward movement of the moving cam unit.
An accommodate space may be formed inside the body housing to accommodate the moving case unit and movably engage the moving case unit with the body housing.
The rotary shoulder unit may include a cover and an inclined guide. The cover has a hinge and rotatably engaged by the hinge and is provided at an upper part of the rotary shoulder unit, for opening or closing the discharger cover unit. The rotary shoulder unit may adjust a discharged amount of the liquid by controlling rotation and upward and downward movement of the moving cam unit.
The inclined guide may be provided in the rotary shoulder unit, for guiding a pair of cams formed in the moving cam unit to rotatably move the pair of cams.
The moving cam unit may include an engagement hole, a screw engagement portion, a pair of cams, and a guide groove. The engagement hole may be formed at a center of the moving cam unit, for allowing the pumping device to be inserted therein and being engaged with the pumping device. The screw engagement portion may be formed in the engagement hole, for being engaged with a screw portion formed in the moving case unit. The pair of cams may be formed around the engagement hole, for being engaged with the inclined guide and moving up and down by guidance of the inclined guide during rotation of the rotary shoulder unit. The guide groove may be formed around the engagement hole, for being engaged with a guide protrusion formed in the discharge cover unit and guiding upward and downward movement of the moving cam unit.
The moving case unit may include a case body, a screw portion, an engagement portion, a piston portion, and a case lid. The case body may have an opening opened in one direction. The screw portion may be formed at an upper part of the case body, for being screw-engaged with a screw portion of the mobbing cam unit. The engagement portion may be formed in the screw portion, for being engaged with the pumping device. The piston unit may be provided in the case body, for introducing the liquid into the pumping device by moving up and down. The case lid may be provided under the case body to support the liquid within the moving case unit and the piston unit. The case body may include at least one stopper engaged with a plurality of stopper protrusions formed in the moving cam unit, for, when the moving cam unit moves up or down by rotation of the rotary shoulder unit, preventing deviation of the moving cam unit from the case body.
The pumping device may include an inlet and an outlet. The inlet may be formed in a lower part of the pumping device, for introducing the liquid from the moving case unit to the pumping device, and the outlet may be formed in an upper part of the pumping device, for discharging the liquid from the pumping device by pressure.
The discharge cover unit includes a cover engagement portion, a discharger, and a discharge opener. The cover engagement portion may be formed on a bottom surface of the discharge cover unit, for being screw-engaged with a screw hole formed in the pumping device. The discharger may be formed in the discharge cover unit. The discharger opener may be provided in the discharger, for opening or closing the discharger according to an operation of the pumping device, preventing the liquid from rising above a top surface of the discharge cover unit, and flowing the liquid sideways on the discharge cover unit.
In another aspect of the present invention, there is provided a liquid case having a rotary discharging apparatus. The liquid case includes a body housing, a rotary shoulder unit rotatably engaged with the body housing, a moving cam unit provided in the rotary shoulder unit, for moving up and down along with rotation of the rotary shoulder unit, a moving case unit provided in the body housing and engaged with the moving cam unit, for moving together with the moving cam unit and containing a liquid, and a pumping device provided in the moving cam unit, for introducing or discharging the liquid according to pressure by rotating the rotary shoulder unit and moving up or down the moving cam unit.
The liquid case having a rotary discharging apparatus according to the present invention is configured so as to discharge liquid by rotation, not by pressing. Therefore, liquid discharge is facilitated. In addition, the liquid case having a rotary discharging apparatus is configured so as to control the amount of discharged liquid by controlling rotation of a rotary shoulder unit, so that a user may take an intended amount of liquid.
The accompanying drawings, which are included to provide a further understanding of the invention, illustrate embodiments of the invention and together with the description serve to explain the principle of the invention.
In the drawings:
Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings. A description of well-known components will be avoided lest it should obscure the subject matter of the present invention.
Referring to
Referring to
A case body 51 of the later-described moving case unit 50 is provided with one or more stoppers 56 (see
If a user discharges the liquid A1 from the moving case unit 50 in this state, since the rotary shoulder unit 30 includes a cover 31 and an inclined guide 32 and the cover 31 is rotatably engaged with a hinge 31a (see
Referring to
AS illustrated in
The cover engagement portion 53 (see
If the user discharges the liquid A1 from the moving case unit 50 and rotates the rotary shoulder unit 30 reversely, since the elastic member 80 is provided between the moving cam unit 40 and the discharge cover unit 70 to provide elastic force that enables upward and downward movement of the moving cam unit 40, the elastic member 80 returns the moving cam unit 40 to the original position by moving down the moving cam unit 40. Herein, the piston unit 54 is kept raised in the moving case unit 50 to discharge the liquid A1 through the pumping device 60. The cams 43 of the moving cam unit 40 are guided down to the original positions along the inclined guide 32 of the rotary shoulder unit 30.
The discharge opener 73 formed in the discharge cover unit 70 closes the discharger 72 of the discharge cover unit 70. Therefore, the liquid A1 is blocked from being discharging from the moving case unit 50.
As described above, as the rotary shoulder unit 30 rotates, the moving cam unit 40 and the moving case unit 50 move up and down to thereby discharge the liquid to the outside. Therefore, discharge of the liquid can be facilitated and product use convenience can be increased.
Furthermore, the rotary shoulder unit 30 controls upward and downward movement of the moving cam unit 40, while controlling its rotation. Consequently, the amount of discharged liquid A1 is controlled so that the user may take an intended amount of the liquid A1.
While it has been described above that the present invention is applied to the afore-described liquid case by way of example, the rotary discharging apparatus 10 is not limited to the specific liquid case. Thus, the rotary discharging apparatus 10 is applicable to all liquid cases of various types (for example, a tube, a shampoo container, a detergent vessel, and the like).
It will be apparent to those skilled in the art that the liquid case having the rotary discharging apparatus according to the present invention is not limited to the above-described embodiment and drawings and various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.
Number | Date | Country | Kind |
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10-2011-0084628 | Aug 2011 | KR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/KR2012/002962 | 4/18/2012 | WO | 00 | 2/24/2014 |