KR20160043309A - The rotating pressurized a vessel for plural-ingredients - Google Patents

Abstract

The present invention relates to a rotating and pressing type heterogeneous contents discharging container. A volume of a contents storing unit for respectively storing capsule type or liquid type heterogeneous contents is changed by a contents pressing unit coupled with a rotation cap according to rotation of the rotation cap, so contents stored in the contents storing unit are pressed and discharged in an extrusion type. Accordingly, even when a separate pumping member does not exist, contents may be easily discharged. A simple structure thereof saves time by shortening time required for assembly processes, and cost effectively produces products by reducing production costs.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a rotating pressurized vessel,

The present invention relates to a rotationally-pressurized dispenser for dispensing contents, and more particularly, to a dispenser for dispensing contents containing contents The content stored in the storage unit is pressurized and discharged by the extrusion type, so that it is possible to easily discharge the contents even if there is no separate pumping member, and the time required for assembling is shortened due to the simple structure, And the production cost of the product is reduced so that the product is produced economically. BACKGROUND OF THE INVENTION

In general, functional cosmetics that provide effects such as whitening or skin regeneration are often composed of two or more ingredients each having different ingredients in order to maximize the effect, and the ingredients are mixed and used in many cases.

These functional cosmetics are packaged in separate containers and sold in the market, but since the contents are stored in separate containers, when the functional cosmetics are used by the user, the contents stored in the respective containers must be mixed and used , There is a problem that the user inconveniences the use.

In order to solve such a problem, "Quantitative Discharge Cosmetics Container of Various Types of High Viscosity Contents (Korean Registered Utility Model No. 20-0391579)" of Patent Document 1 " The cosmetics container according to any one of the preceding claims, further comprising a plurality of cosmetics accommodating spaces (108), a plurality of cosmetics accommodating spaces (108) installed in the respective cosmetics accommodating spaces (108), operated by the buttons (120) A pumping means 200 having a moving pipe 240 in which a hole 242 is opened and closed, a screw member 230 rotated by the pumping means 200, The piston 150 for extruding the contents 106 contained in the main body 100 is included so that the inconvenience of mixing and discharging various kinds of contents stored in the existing separate container can be solved.

However, in the above-described Patent Document 1, "a fixed quantity delivery cosmetic container of various types of high viscosity contents" is composed of a lifting member 210 having a button 120 raised and lowered and a protrusion 212 formed on an outer peripheral surface thereof, 210 and the upper cover 110 having the cut-out groove 132 formed on the inner wall surface so as to penetrate the protrusion of the lifting member 210, the assembly process takes a long time, The efficiency of the production is lowered, and the cost of the product is increased due to the complicated structure, which is uneconomical.

Patent Document 1: Korean Utility Model Registration No. 20-0391579

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above-mentioned problems, and it is an object of the present invention to provide a contents storage unit in which different contents such as capsule type or liquid type are stored by a contents- It is possible to easily discharge the contents even if there is no separate pumping member, and it is possible to shorten the assembling time by a simple structure by constituting the contents stored in the contents storage unit by changing the volume, And to provide a rotary pressurized dispenser dispensing container capable of economically producing a product by reducing the manufacturing cost of the product.

In order to solve the above-mentioned problems, the rotary-pressurized dispensing contents dispensing container 1 according to the present invention is characterized in that the rotary-pressurized dispensing contents dispensing container 1 according to the present invention is a dispensing container 1 for dividing an inner space so as to form a contents storage part 110, 110`, A container body 100 rotatably coupled to the upper portion of the container body 100 so as to discharge contents stored in the contents storage units 110 and 110 ' The volume of the contents storage part 110 and 110 'is changed according to the rotation of the rotation cap 200. The rotation of the rotation cap 200 And a contents water pressurizing unit 300 for pressing the contents stored in the contents storage units 110 and 110` and discharging the contents by an extrusion type.

A coupling shaft 220 protruding downward inside the rotary cap 200 and engaged with the contents water pressure portion 300 is formed and the coupling shaft 220 is inserted into the center of the contents water pressure portion 300, And the rotation of the rotary cap 200 causes the contents pressurizing portion 300 to rotate together with the rotation shaft 310. [

In addition, the contents water pressure unit 300 is inserted into the contents storage units 110 and 110 ', respectively, and is moved to one side so that the contents are pressurized and the contents are discharged to the outside through the contents discharge holes 210 and 210' The pressure plates 320 and 320 'are formed on both sides.

In addition, a rotation shaft inlet groove 121 is formed at the center of the partition plate 120 so that the rotation shaft 310 is inserted to guide rotation of the contents water pressure unit 300.

The pressing plates 320 and 320 may be in contact with the inner circumferential surfaces of the contents storing units 110 and 110` and the pressing plates 320 and 320 may be formed on one side of the pressing plates 320 and 320 ' Leakage preventing protrusions 321 and 321` are formed to prevent leakage of contents through a space between one side surface of the pressure plate 320 and the inner circumferential surface of the contents storage unit 120 in the course of rotation .

The rotary shaft insertion guide grooves 322 and 322 'are formed between the rotary shaft 310 and the pressure plates 320 and 320' so that the rotary shaft 310 can be inserted into the rotary shaft inlet groove 121 .

A limiting protrusion 140 is formed on the upper part of the container body 100 to restrict the rotation of the rotary cap 200 to the other side and the rotation cap 200 is provided around the inner circumferential surface of the rotary cap 200 The rotation protrusion 140 is moved to the one side so that the rotation protrusion 240 is engaged with the limiting protrusion 140 when the rotation cap 200 is rotated to the other side, Is formed.

According to the present invention, by changing the volume of the contents storage part in which disparate contents such as capsule type or liquid type are respectively stored by the contents water pressure part coupled with the rotation cap in accordance with rotation of the rotary cap, the contents stored in the contents storage part So that it is possible to easily discharge the contents even if there is no separate pumping member, and it is possible to save time by shortening the assembly process time due to the simple structure, It is possible to produce products economically.

FIG. 1 is an exploded perspective view showing the entirety of a rotary-pressing type dispenser container according to a preferred embodiment of the present invention.
FIG. 2 is an exploded cross-sectional view showing the entirety of a rotary-pressing type dispenser container according to a preferred embodiment of the present invention. FIG.
3 is a cross-sectional view showing a cross-sectional view of a front portion of a rotary-pressing and dispensing container according to a preferred embodiment of the present invention.
FIG. 4 is a schematic view showing a state in which a pressing plate presses contents according to rotation of a rotary cap among components of a rotary-pressing and dispensing contents dispensing vessel according to a preferred embodiment of the present invention,
FIG. 5 is a view showing a state of the rotation protrusion according to the rotation direction of the rotary cap among the configurations of the rotary-pressing and dispensing contents dispensing container according to the preferred embodiment of the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a spin-pressing type dispensing container 1 according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. First, it should be noted that, in the drawings, the same components or parts are denoted by the same reference numerals whenever possible. In describing the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as to avoid obscuring the subject matter of the present invention.

Referring to FIG. 1, a spin-and-dispensing contents dispensing container 1 according to a preferred embodiment of the present invention is largely composed of a container body 100, a rotary cap 200, and a contents water pressure unit 300.

First, the container body 100 will be described. 1 or 3, the container main body 100 is provided with a partition plate 120 for partitioning a space inside the container main body 100, The contents storage units 110 and 110` for storing different kinds of contents such as a capsule type and a liquid type can be respectively formed.

The rotary shaft inlet groove 121 is formed in the center of the partition plate 120 so that the rotary shaft 310 of the contents water pressure unit 300, which will be described later, And serves to guide the water pressurizing portion 300 to rotate in the correct position.

An annular protrusion 130 corresponding to an annular recess 230 of a rotary cap 200 to be described later is formed outside the upper part of the container body 100. The annular protrusion 130 is formed in the annular recess 230 of the container body 100 so as to prevent the rotation cap 200 from being detached from the container body 100 during the rotation of the rotation cap 200, It is preferable to be formed to surround the periphery.

5 (a), the limiting protrusion 140 is formed on the upper surface of the rotation cap 200, which will be described later, and the protrusion 140 is formed on the upper surface of the container body 100, The rotation protrusion 240 of the rotary cap 200 can be moved over.

At this time, the limiting protrusion 140 may be made of an elastic material so that the rotation protrusion 240 is elastically deformed by the pressing of the rotation protrusion 240 when the rotation cap 200 is rotated to one side.

5 (b), when the rotation cap 200 rotates to the other side, the limiting protrusion 140 is engaged with the rotation protrusion 240 so that the rotation cap 200 is rotated toward the other side Thereby preventing rotation.

When the rotary cap 200 is first rotated to one side, the pressure plates 320 and 320 'of the pressure unit 300, which will be described later, are also rotated to one side so that the pressure plates 320 and 320' The contents are discharged through the contents discharge holes 210 and 210 'of the rotary cap 200 to be described later, and the contents are discharged from the rotary cap 200, The contents are pushed to the other side of the pressure plates 320 and 320 'in order to restore the original density as the pressing of the pressure plates 320 and 320' is released. At this time, The rotation protrusion 240 is engaged with the protrusion 140 in the process of moving the rotation cap 200 to the other side so that the rotation cap 200 does not rotate to the other side.

When the rotary cap 200 is rotated again to the other side, the rotary cap 200 is further rotated to the other side until the state immediately before the contents are completely discharged, and then the rotary cap 200 is further rotated to the other side The contents are discharged, and inconvenience is caused in convenience of use.

Therefore, since the rotation cap 200 is not rotated to the other side, the position of the rotation cap 200 is maintained in a state immediately before the content discharge is completed, and when the rotation cap 200 is reused, It is possible to discharge the contents immediately after the rotation by the distance.

The outer cap 500 is coupled to the rotary cap 200 so as to be detachable from the upper portion of the container body 100. The outer cap 500 is coupled to the rotary cap 200 to prevent malfunction of the rotary cap 200 when not in use. .

Next, the rotating cap 200 will be described. 1 or 3, the rotary cap 200 is rotatably coupled to the upper part of the container body 100, and the rotary cap 200 is rotatably coupled to the rotary cap 200, The contents water pressurizing unit 300 presses the contents stored in the contents storage units 110 and 110` and discharges the contents in an extrusion mode by rotating the contents water pressure unit 300 coupled to the contents water pressure unit 300. [

At this time, the contents pressurized by the contents water pressure unit 300 are discharged through the contents discharge holes 210 and 210 'formed in the rotary cap 200.

In the meantime, the contents discharge hole 210 prevents the contents from leaking out of the contents unintentionally by the user, and the rubber tip 211, which is opened by the pressure of the contents when the contents are lifted by the contents water pressure portion 300, Respectively.

In order to integrally join the rotary cap 200 and the contents water pressure unit 300, the rotary cap 200 is protruded downward inside the rotary cap 200 and is inserted into the coupling groove 311 of the contents water pressure unit 300, And a rotation shaft 310 formed with a coupling groove 311 through which the coupling shaft 220 is inserted is formed at the center of the contents water pressure portion 300.

With the above configuration, it is possible to rotate the contents water pressure portion 300 together with the rotation of the rotary cap 200.

1 or 3, an annular groove 230 corresponding to the annular protrusion 130 is formed on the inner circumferential surface of the rotary cap 200, The inner circumferential surface of the rotary cap 200 is inserted so that the annular protrusion 130 is inserted in the rotation of the rotary cap 200. When the rotary cap 200 rotates, It is possible to smoothly rotate without departing from the rotating shaft.

In the present invention, a rotation protrusion 240 is formed around an inner circumferential surface of the rotation cap 200. When the rotation cap 200 rotates to one side, The rotation of the rotary cap 200 may be limited by engaging with the limiting protrusion 140 when the rotary cap 200 rotates to the other side, Thereby preventing the rotary cap 200 from being rotated to the other side.

Next, the contents water pressure section 300 will be described. 1 and 2, the contents water pressure unit 300 is coupled with the rotation cap 200 to adjust the volume of the contents storage units 110 and 110 'according to the rotation of the rotation cap 200 And is configured to pressurize the contents stored in the contents storage units 110 and 110` and to discharge the contents by an extrusion type. The rotary shaft 310 and the pressure plates 320 and 320 'are formed.

The rotation shaft 310 is a component formed in a cylindrical shape at the center of the contents water pressure portion 300 and is inserted into the rotation shaft 310 so that the coupling shaft 220 of the rotation cap 200 is inserted. 311 are formed to enable the rotary cap 200 and the contents water pressure unit 300 to be integrally combined.

The rotary shaft 310 is inserted into the rotary shaft inlet groove 121 of the container body 100 to guide the rotary cap 200 to rotate smoothly about the rotary shaft 310.

In the present invention, the pressure plates 320 and 320 'are formed on both sides of the contents water pressure unit 300, and the pressure plates 320 and 320' 110 'so that the contents can be guided to be discharged to the outside through the contents discharging holes 210, 210' by pressing the contents as they are moved to one side.

The leakage preventing protrusions 321 and 321` are formed on one side of the pressure plates 320 and 320` so that the leakage preventing protrusions 321 and 321 ' (320, 320 ') is rotated by the rotation cap (200) while the inner surface of the content storage unit (120) is in contact with the inner surface of the content storage unit (120) It is possible to prevent the contents from leaking through the space between them.

Although the leakage preventing protrusions 321 and 321 'are formed in the shape of a square bar in the present invention, the leakage preventing protrusions 321 and 321' may be formed in various shapes such as a curved surface having the same shape as the inner circumferential surfaces of the contents storage units 110 and 110 ' It is possible.

The rotation shaft insertion guide grooves 322 and 322 'are formed in a space between the rotation shaft 310 and the pressure plates 320 and 320' When the rotary shaft 310 is inserted into the rotary shaft inlet groove 121, it is possible to smoothly insert the rotary shaft 310 into the rotary shaft inlet groove 121 without being restricted by the pressing plates 320 and 320 ' .

A gasket 400 may be coupled between the rotary cap 200 and the contents pressurizing portion 300 to maintain airtightness inside the container.

In order to smoothly operate the present invention, it is preferable that the gasket 400 is formed with the contents inlet holes 410 and 410 'at the same positions as the contents outlet holes 210 and 210' of the rotary cap 200 .

Hereinafter, with reference to FIG. 4 and FIG. 5, a description will be given of the operation of the rotary-pressing type dispenser container 1 according to the preferred embodiment of the present invention. 4 is a schematic view showing a state in which the pressing plate presses the contents in accordance with the rotation of the rotary cap among the components of the rotary-pressing and dispensing container 1 according to the preferred embodiment of the present invention, Is a view showing the state of the rotation protrusion according to the rotation direction of the rotation cap among the configurations of the rotary-pressing and dispensing contents dispensing container according to the preferred embodiment of the present invention.

Referring to FIGS. 4 and 5, in the rotary-pressurized dispenser dispensing container 1 according to the preferred embodiment of the present invention, first, when the outer cap 500 is detached, the rotary cap 200 is rotated The contents water pressurizing unit 300 coupled to the rotary cap 200 rotates together.

At this time, the rotation protrusion 240 of the rotation cap 200 moves over the restriction protrusion 140 to guide the rotation of the rotation cap 200 to one side.

Meanwhile, in the process of rotating the contents water pressure unit 300 to one side, the pressure plates 320 and 320 'inserted in the contents storage units 110 and 110' also rotate to one side, The contents stored in the units 110 and 110 'are respectively pressurized to induce the discharge of the contents.

Each of the pressurized contents is discharged through the contents discharging holes 210 and 210 'formed in the rotary cap 200 due to the volume change of the contents storing units 110 and 110'.

When the contents are discharged through the contents discharging holes 210 and 210 'as described above, the contents are present on the upper part of the rotating cap 200, and the contents can be used by hand or cosmetic application means .

When the rotation of the rotary cap 200 is stopped and the discharge of the contents is completed, the pressing plates 320 and 320 'are rotated in order to recover the original density of the contents according to the release of the pressing force of the pressing plates 320 and 320'. The rotation cap 200 is rotated again to the other side.

At this time, the rotation protrusion 240 of the rotation cap 200 is engaged with the restriction protrusion 140 to prevent the rotation cap 200 from rotating to the other side.

When the rotary cap 200 is rotated again to the other side, the rotary cap 200 is rotated to one side until the state immediately before the contents are completely discharged, and then the rotary cap 200 is further rotated to one side The contents are discharged, and inconvenience is caused in convenience of use.

Therefore, when the restricting protrusion 140 and the rotation protrusion 240 are present as in the embodiment of the present invention, the position of the rotary cap 200 in the state immediately before the discharge of the contents is maintained, It is possible to discharge the contents immediately and use it, and it becomes possible to provide convenience to the user.

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.

1: Rotary pressing type dispensing contents dispensing container
100: container body 110, 110 ': contents storage unit
120: diaphragm portion 121: rotating shaft inlet groove
130: annular projection 140: limiting projection
200: Rotating cap 210, 210`: Contents discharging hole
211, 211`: Rubber tip 220: Coupling axis
230: annular groove 240: rotation projection
300: Content water pressure portion 310:
311: coupling groove 320, 320 ': pressing plate
321, 321`: leakage preventing protrusion 322, 322`: rotation shaft insertion guide groove
400: gasket 410, 410`: content inlet ball
500: Outer cap

Claims (7)

A container body 100 provided with a partition 120 for partitioning an inner space so as to form a contents storage part 110, 110 'in which different contents are stored inside the container body 100;
A rotary cap 200 rotatably coupled to the upper portion of the container body 100 and having a content discharging hole 210 or 210` for discharging the contents stored in the contents storing portion 110 or 110`;
The contents stored in the contents storage units 110 and 110 'are changed by changing the volumes of the contents storage units 110 and 110' according to the rotation of the rotary cap 200, Pressurized and discharged by an extrusion type pressurizing unit (300). The method according to claim 1,
A coupling shaft 220 protruding downward inside the rotary cap 200 to be engaged with the contents water pressure portion 300 is formed,
The rotation of the rotation shaft of the rotation shaft causes rotation of the rotation shaft of the rotation shaft of the rotation shaft of the rotation shaft of the rotation shaft. Is rotated together with the rotation-urging member (3). The method according to claim 2,
In the contents water pressure unit 300, the contents are inserted into the contents storage units 110 and 110 ', respectively, and are moved to one side, thereby pressing the contents so that the contents are discharged to the outside through the contents discharge holes 210 and 210' Wherein the pressure plate (320, 320 ') is formed on both sides of the pressure plate (320, 320'). The method of claim 3,
And a rotation shaft inlet groove (121) is formed at the center of the partition plate (120) to guide the rotation of the contents water pressure unit (300) by inserting the rotation shaft (310) ). The method of claim 3,
The pressure plates 320 and 320 'are configured to rotate in a state of being closely attached to the inner circumferential surfaces of the contents storage units 110 and 110'
During the rotation of the pressing plates 320 and 320 'on one side of the pressure plates 320 and 320', the contents of the contents 320 and 320 'through the space between one side of the pressing plates 320 and 320' and the inner peripheral surface of the contents storing unit 120, And the leakage preventing protrusions (321, 321 & cir &) are formed to prevent leakage. The method according to claim 4,
The rotary shaft insertion guide grooves 322 and 322 'are formed between the rotary shaft 310 and the pressure plates 320 and 320' so that the rotary shaft 310 can be inserted into the rotary shaft inlet groove 121. Dispensing container (1). The method of claim 3,
A limiting projection 140 is formed on the upper portion of the container body 100 to restrict rotation of the rotary cap 200 to the other side,
The rotation cap 200 is wrapped around the inner circumference of the rotation cap 200 when the rotation cap 200 rotates to one side and the rotation protrusion 140 rides on the inner circumference of the rotation cap 200. When the rotation cap 200 rotates to the other side, Wherein a rotation protrusion (240) is formed to limit the movement of the rotary cap (200) in engagement with the rotary cap (200).

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