KR200452316Y1 - dispenser for liquid container - Google Patents

Abstract

The present invention is connected to the inlet of the liquid container containing the liquid, such as cosmetics or oil, and relates to a fixed quantity dispensing device for a liquid container which can conveniently extract a certain amount of liquid in the liquid container by the elastic force of the spring and the movement of the piston, The metered discharge device for a liquid container of the present invention includes a housing (110) coupled to the inlet of the liquid container; A tubular body (140) formed to extend downward in the housing and accommodated in the liquid container to suck the liquid; A piston 120 having an upper portion installed to be exposed to the outside of the housing and having a lower portion inserted into the tube to generate suction force while linearly moving along the inside of the tube by a user's pressing operation; It characterized in that it comprises a spring 130 to elastically support the piston to apply an elastic force to the piston upwards.

Dropper, metering, dispensing device, liquid container, spring, piston

Description

Dispenser for liquid container {dispenser for liquid container}

The present invention relates to a fixed-quantity dispensing apparatus coupled to the liquid container for discharging the quantitative liquid, and more particularly, coupled to the inlet of the liquid container containing the liquid, such as cosmetics or oil, by the elastic force of the spring and the movement of the piston The present invention relates to a fixed quantity dispensing device for a liquid container that can conveniently extract a certain amount of liquid in the liquid container.

As is well known, the eyedropper is a classification means for inhaling a liquid liquid by a vacuum force and discharging it to a desired area. The dropper is mainly used for discharging a fixed amount of liquid in a chemical laboratory, but recently, cosmetics, aromatic oils and chemical liquids are used. It is applied to a cap of a container containing a back and is also used for the purpose of easily discharging a desired amount of liquid.

1 of the accompanying drawings shows an example of the eyedropper applied to the conventional liquid container, the conventional dropper 20 is a stopper 21 is spirally coupled to the injection port 11 of the upper portion of the liquid container, and A tubular body 22 formed on the stopper 21 to extend into the liquid container 10, and a soft pumping tube 23 formed to communicate with an upper end of the tubular body 22 from the outside of the stopper 21. It consists of

Referring to the process of discharging the liquid using the conventional dropper 20 configured as described above, the user first releases the stopper 21 from the inlet 11 of the liquid container 10. When the pumping tube 23 is pressed and released, the liquid in the liquid container 10 comes through the tubular body 22 due to the pressure change in the pumping tube 23. Subsequently, when the dropper 20 is completely separated from the liquid container 10 and the pumping tube 23 is pressed at a desired position, the liquid in the tube 22 is discharged from the tube 22.

However, this conventional dropper has a small suction force because the liquid in the liquid container is sucked into the tubular body 22 by the force that the pumping tube is contracted and restored. Therefore, the liquid having a high viscosity is not easily aspirated and thus cannot be dispensed quantitatively, and thus there is a problem in that the type of liquid that can be used is also limited.

The present invention is to solve the problems as described above, an object of the present invention is to provide a quantitative discharging device for a liquid container capable of quantitatively discharging the liquid of high viscosity by the elastic force of the spring and the movement of the piston.

The present invention for achieving the above object is a housing coupled to the inlet of the liquid container; A tubular body formed in the housing so as to extend downward and being accommodated in the liquid container to suck the liquid; A piston having an upper portion exposed to the outside of the housing and having a lower portion inserted into the tube to generate suction force while linearly moving along the inside of the tube by a user's pressing operation; It provides a fixed quantity discharge device for a liquid container comprising a spring elastically supporting the piston to apply an elastic force to the piston upward.

According to the present invention, a pressure change occurs in the tube while the piston is moved by the elastic force of the spring, so that the liquid in the liquid container is attracted, thereby generating a greater suction force than the existing dropper, and accordingly, it is possible to discharge a high viscosity liquid evenly. It has an effect.

In addition, the metered-discharge device of the present invention can suck liquid into the tube and discharge the liquid in the tube to the outside by a simple operation of pressing the button portion formed on the upper end of the piston. There is also an advantage.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the metered dispense device for a liquid container according to the present invention.

2 and 3 show a first embodiment of the liquid container for dispensing the liquid container according to the present invention, the liquid container for dispensing liquid container of this embodiment is coupled to the inlet 11 of the liquid container (10) helix ( 110, a hollow tube-shaped pipe body 140 formed to extend downward in the housing 110 and received inside the liquid container and sucking liquid, and installed to be inserted into the pipe body 140 and the pipe body ( A piston 120 generating a suction force while linearly moving along the inside, a button portion 125 formed at an upper end of the piston 120 to be pressed by a user, and the button portion inside the housing 110. A spring 130 for elastically supporting the 125 and applying an elastic force to the piston 120 upwardly, and is installed inside the injection port 11 of the liquid container 10 to allow the tubular 140 to have a liquid container ( 10) with the outer circumferential surface of the tube 140 when drawn out Catalyst to land on the outer peripheral surface the tube 140 is configured to include a cleaning pad (150) for wiping off the liquid.

The liquid container 10 is a cylindrical container containing a liquid such as aromatic oil, liquid medicine, such as cosmetics or aroma oil, the housing 110 of the metered discharge device spirally coupled to the outer peripheral surface of the injection port 11 of the upper end Thread portion 12 is formed for. In addition, the bottom surface of the inner space of the liquid container 10 is preferably formed in the shape of a dome concave converging toward the center. This increases the likelihood that the end of the tubular body 140 is contained in the remaining liquid by allowing the remaining liquid to collect in the center of the bottom surface of the liquid container 10 when only a very small amount of liquid contained in the liquid container 10 is left. This is to discharge even a very small amount of liquid to the metering device.

The housing 110 of the metered discharge device is formed in a hollow cylindrical shape, and a threaded portion spirally coupled to the inlet 11 of the liquid container 10 is formed below the inner circumferential surface. In addition, a middle portion of the inner circumferential surface of the housing 110 is formed to support the lower end of the spring 130 to protrude radially inward. In addition, a connection portion 112 to which the tubular body 140 is integrally fixed is directly fixed to the lower side of the support portion 111. The connection part 112 may be fixed to the housing 110 after being made separately from the housing 110, but alternatively, the connection part 112 may be integrally formed with the housing 110.

The tubular body 140 is formed of an elongated glass tube or plastic tube, and comprises a cylinder part 141 in which the piston 120 is accommodated, and a suction part 142 contained in the liquid in the liquid container 10 to suck the liquid. do. In this embodiment, although the diameter of the cylinder portion 141 is illustrated to be larger than the diameter of the suction portion 142, the diameter of the cylinder portion 141 and the suction portion 142 may be the same. In addition, although the cylinder part 141 and the suction part 142 may be made of different materials, they may be made of the same material.

An end of the suction part 142 may be coated with an antibacterial material or a sterilizing material to have antibacterial or sterilizing properties, or the suction part 142 may be made of an antibacterial material or a sterilizing material.

The lower end of the piston 120 has a diameter slightly smaller than the inner diameter of the cylinder portion 141 of the tubular body 140. The lower end of the piston 120 is equipped with a packing 122 made of a flexible material such as rubber in order to increase adhesion to the inner circumferential surface of the cylinder 141. Of course, if the diameter of the lower end of the piston 120 is substantially the same as the inner diameter of the cylinder 141 so that no air leakage occurs, the packing 122 may not be mounted.

The button portion 125 is formed in a cylindrical shape of which the lower part is open. The button part 125 may be formed integrally with the upper end of the piston 120, but the button part 125 is made separately from the piston 120 and then the upper end of the piston 120 by laser welding or the like. It may be fixed to.

The spring 130 is a compression coil spring, the upper end of which is in contact with the lower surface of the button portion 125 and the lower end is seated on the support 111 of the housing 110, the button portion 125 with respect to the housing 110 Support elastically.

The cleaning pad 150 is formed of a ring-shaped pad installed in the neck portion of the inlet 11 of the liquid container 10 and is made of a flexible material such as rubber. In this embodiment, the cleaning pad 150 is installed inside the injection hole 11, but may be installed along the periphery of the injection hole 11.

The metered discharge device of the present invention configured as described above operates as follows.

First, as shown in FIG. 2, when the user presses the button portion 125 of the upper portion of the piston 120 with a finger in a state where the metering-discharge device is coupled to the inlet 11 of the liquid container 10, FIG. 3. As shown in the spring 130 is compressed, the piston 120 is lowered along the cylinder portion 141 of the tubular 140. As the piston 120 descends, a portion of the air in the tubular body 140 is discharged to the outside, thereby lowering the pressure.

In this state, when the user removes the force that pressed the button 125, the piston 120 is raised along the cylinder portion 141 by the elastic force of the spring 130, accordingly in the liquid container 10 Liquid is sucked into the suction part 142 of the tubular body 140.

Then, when the user rotates the housing 110 to separate the housing 110 from the inlet 11 of the liquid container 10, the tubular 140 together with the housing 110 forms the inlet 11 of the liquid container 10. It is separated through the outside. At this time, while the outer circumferential surface of the tubular body 140 is in contact with the inner circumferential surface of the cleaning pad 150, the liquid thinned on the outer circumferential surface of the tubular body 140 is wiped off.

After the housing 110 and the tubular 140 are separated out of the liquid container 10 as described above, the user presses the button portion 125 again with the suction end 142 of the tubular 140 positioned at a desired position. The piston 120 descends and the liquid in the suction part 142 is discharged to the outside.

As such, the fixed-quantity discharging device of the present invention sucks liquid into the tube body 140 by the elastic force of the spring 130, and thus the suction force is greatly increased as compared with the dropper which relies on the restoring force of the conventional pumping tube, thus making it easy to use a high viscosity liquid. There is an advantage that can be suctioned and discharged quantitatively.

Next, with reference to FIGS. 4 and 5 will be described a second embodiment of the metered discharge device according to the present invention.

In this embodiment, the fixed-quantity ejection device linearly reciprocates along the inside of the tubular body 240 fixed to the housing 210 by passing through a central portion of the housing 210 with a syringe-shaped piston 220, and the inner side of the housing 210. It consists of a configuration in which a spring 230 for elastically supporting the piston 220 is installed.

The housing 210 is helically coupled to the inlet 11 of the liquid container 10, and the tube body 240 is fixed to the lower portion thereof. Thus, the housing 210, the tubular 240, the piston 220, and the spring 230 together are coupled to the liquid container 10 and separated from the liquid container 10.

The lower end of the piston 220 is provided with a packing 222 made of a flexible material such as rubber to increase the adhesion to the inner peripheral surface of the tubular 240 to prevent air leakage. In addition, the upper portion of the piston 220 is formed to protrude to the outside through the upper end of the housing 210, the upper end of the piston 220 has a diameter larger than the diameter of the piston 220 so that the user can easily press by hand The circular button part 225 which has is formed.

The spring 230 is installed in the center of the housing 210, the upper end of the spring 230 is supported by a stopper 212 formed to extend radially outward on the outer peripheral surface of the piston 220, the spring 130 The lower end of is supported by the support portion 211 formed in the inner space of the housing 110.

In addition, inside the inlet 11 of the liquid container 10, when the tubular body 240 is separated into the liquid container 10, the cleaning pad is made of a flexible material which wipes off the liquid rinsed on the outer circumferential surface of the tubular body 240 ( 250) is installed.

The metered discharge device of the second embodiment configured as described above is the same as the metered discharge device of the first embodiment described above, by which the user pushes the upper button portion 225 of the piston 220 along the tube 240. When the lowering and removing the force for pressing the piston 220, the piston 220 rises along the tubular 240 by the elastic force of the spring 230, causing a pressure change inside the tubular 240, thereby the liquid container (10) Generates a force for sucking or discharging the liquid inside.

That is, when the user presses and releases the button unit 225 in the state in which the housing 210 is coupled to the liquid container 10, the user descends in the tubular 240 of the piston 220 and ascends by the spring 230. When the liquid in the liquid container 10 is sucked into the tube body 240, and the housing 210 is separated and the button unit 225 is pressed and released, the piston 220 descends to discharge the liquid in the tube body 240. After the piston 230 is restored to the original state by the spring 230.

On the other hand, the metered discharge device of this second embodiment is the tube body 240 is fixed to the housing 210, the piston 220 and the spring 230 is configured inside the housing 210, the housing 210 is a liquid container ( 10, the housing 210 and the tubular 240, the piston 220 and the spring 230 is moved together when being coupled to or separated.

However, as shown in FIG. 6 and FIG. 7, the stopper part 311 is coupled to the injection hole 11 of the liquid container 10 and the central part of the stopper part 311 as shown in FIG. It is detachably installed and consists of a mounting portion 312, the lower portion is connected to the tubular body 340 and the spring 330 and the piston 320 is installed therein, the stopper portion 311 is the inlet of the liquid container 10 In the fixed state (11), only the mounting portion 312 may be separated from the plug portion 311 to discharge the liquid. Here, the mounting portion 312 is preferably formed to be approximately the same size as the central through hole 313 so as to fit snugly into the central through hole 313 of the stopper 311.

Since the stopper portion 311 of the third embodiment can be used without being separated from the liquid container 10, the cleaning pad 350 can be fixed to the inside of the stopper portion 311.

On the other hand, the metering device of the above-described embodiments are coupled in a manner that the housing 110 is coupled to the inlet 11 of the liquid container 10 in a spiral manner, but undercut the outer peripheral surface of the inlet 11 of the liquid container 10 differently Undercut to form a groove, and forming a protrusion to elastically couple to the undercut groove at the lower end of the inner peripheral surface of the housing 110, the housing 110 is fitted or separated at once in the liquid container 10 inlet 11 It may be configured to be.

In addition, the present invention may be variously modified and implemented within the scope described in the utility model registration claims.

1 is a perspective view showing an example of a dropper for a liquid container according to the prior art

2 and 3 are principal part longitudinal sectional view showing the first embodiment of the fixed-quantity discharging device for a liquid container according to the present invention;

4 and 5 are principal part longitudinal cross-sectional view showing a second embodiment of the metered discharge device for a liquid container according to the present invention

6 and 7 are principal part longitudinal sectional views which show the modification of the metered-discharge apparatus for liquid containers which concerns on 2nd Example of FIG.

Explanation of symbols on the main parts of the drawings

10: liquid container 11: inlet

110 housing 120 piston

125: button portion 130: spring

140: tube 150: cleaning pad

Claims (5)

delete delete A housing configured to be detachably installed at the center of the plug portion and the plug portion coupled to the inlet of the liquid container, and a lower portion connected to the tube and having a mounting portion in which the piston and the spring are installed therein; A hollow tube-shaped tube body formed to extend downward in the housing and accommodated in the liquid container to suck the liquid; A piston having an upper portion exposed to the outside of the housing and having a lower portion inserted into the tube to generate suction while linearly moving along the inside of the tube by a user's pressing operation; And And a spring for elastically supporting the piston to apply an elastic force upwardly to the piston. delete delete

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