JP2021050037A - Fluid material transfer mechanism - Google Patents

Abstract

To simplify processing for making collected fluid material containers reusable which presently requires time, facilities, and manpower, as well as, costs for transportation to the respective relevant sites, for re-melting and re-molding, or sterilization-washing the collected fluid material containers having a risk of germs and contaminants having entered therein from the ambient air; and to perform outside air isolation, non-contaminating extraction, and volume reduction collection so as to prevent reuse-impeding deterioration of the fluid materials in the fluid material containers that are left for a long time after opened and intruded with the outside air when the fluid materials are dividedly used.SOLUTION: In a fluid material transfer mechanism; a fluid material extracted from a fluid material container storing the fluid material is transferred into an extraction container; an insertion cap for closing an opening of the fluid material container is provided with a valve mechanism made into a normal close state; a cover cap provided with valve opening members for opening the valve mechanism of the insertion cap, is attached to an opening of the extraction container; and an air hole is provided at a neck part of the extraction container.SELECTED DRAWING: Figure 2

Description

The present invention is a valve opening structure in which an insertion cap provided with a transfer valve and a waste valve is inserted into the opening of a fluid container for accommodating a fluid substance, and an extraction container in which a covering cap provided with an air vent hole is placed over the opening. It relates to a fluid transfer mechanism for connecting and transferring a connecting structure.

After drinking, fluid containers, such as beverage containers such as juice, are discarded without being reused or internally washed and recycled. In this case, it is necessary to clean the inside and outside of the fluid container, which requires equipment, personnel, and transportation costs.

The recovered fluid container is dangerous because germs and pollutants in the air invade the inside of the fluid container, and the current situation is that it is remelted, remolded and used, or disinfected and washed and reused. It is necessary to simplify this, and the fluid in the fluid container is divided and used in each household, but when the package is opened and the outside air enters and the fluid is left for a long time, the fluid is used. However, it becomes unusable due to deterioration, so that the outside air shutoff, non-contamination extraction, and volume reduction recovery of the fluid container become problems.

In order to solve the above problems, the configuration of the present invention is an extraction container in which the fluid substance is extracted from the fluid substance container and transferred, and the insertion cap that closes the opening of the fluid substance container is always used. A valve mechanism that is closed is provided, and a cover cap provided with a valve opening member for opening the valve mechanism of the insertion cap is attached to the opening of the extraction container, and the neck portion of the extraction container is attached. It is characterized by being provided with air holes.

If the fluid container 10 of FIG. 1 is used as the container for drinking water, even if the beverage in the fluid container 10 is transferred, the negative pressure when returning to the initial form of the container and the fluid container containing the fluid are contained. If the adhesion between the ball valve 5 and the valve port 6 is stronger than the weight of 10, the fluid container 10 can be stored for a long period of time without intrusion of outside air. Since there is no need for melt molding and cleaning and sterilization, when refilling, when the waste valve 12 is opened and filled, the fluid remaining inside can be discarded from the exhaust hole 13, so that the transportation cost is greatly reduced and the fluid container 10 is used. It can prevent the fluid from becoming garbage.

Perspective view of a fluid container showing an embodiment of the present invention An exploded perspective view of the fluid container and the extraction container Sectional view of the main part of the extraction container Sectional view of the main part of the fluid container

Examples of the present invention will be described with reference to the drawings. As shown in FIG. 1, the fluid container 10 of the present invention has a bellows shape and is vertically expandable and contractible. Then, drinking water is poured into the fluid container 10 as a content, and the description will be made as a full state. The insertion cap 7 shown in FIG. 2 is inserted into the neck through the opening of the fluid container 10.

One rod-shaped tip member 8a of the stainless-plated anchor spring 8 is passed through the valve opening 6 on the bottom of the recess of the insertion cap, and the ball valve 5 is placed on the valve opening 6 at a position where a negative pressure of, for example, 3 kg is applied per square centimeter. It has a structure in which it is attached and fixed so as to stop suction and the valve is always closed.

Further, a waste hole 13 is provided in the lower part of the neck of the fluid container 10, and a waste valve 12 is provided in the lower part of the insertion cap 7 so as to be aligned with the same position. Further, a water pipe 3, a catcher 4, and a support column 2 are provided in the tubular portion of the cover cap 1, and an air vent hole 9 is provided so as to penetrate the extraction container 11 from the outer peripheral portion of the cover cap 1. In use, the opening of the extraction container 11 is provided. Cover with.

When the tubular portion of the covering cap 1 is fitted into the recess of the insertion cap 7 and tightly coupled, the extraction container 10 is positioned on the lower side and the bottom surface of the fluid container 10 is vertically pushed down and compressed in the upper state. The crown of the anchor spring 8 of the insertion cap 7 inserted into the opening of the container 10 is pressed against the catcher 4 of the cover cap 1, the ball valve 5 opens, the drinking water flows out, and the air vent hole. If 9 is open, it passes through the water passage pipe 3 and is extracted into the extraction container 11, and the air vent hole 9 flows in when opened, and if it is closed with a fingertip, the inflow stops. If the compression of the fluid container 10 is stopped, the ball valve 8 closes the valve by the restoring force of the anchor spring 8 and stops the intrusion of outside air.

The volume of the fluid container 10 is reduced due to the decrease in the content of the drinking water, and the contents can be safely stored. When a large number of the fluid containers 10 are collected, the neck portion is formed at the bottom of another fluid container. It fits in the recess and finally becomes the size of a postcard, and the thickness is about 2 books, which is about 1/10 of the shipping time and can be stored in a small space.

1 Cover cap 2 Strut 3 Water pipe 4 Catcher 5 Ball valve 6 Valve port 7 Insertion cap 8 Anchor spring 8a Rod-shaped tip article 9 Air vent small hole 10 Fluid container 11 Extraction container 12 Disposal valve 13 Disposal hole

Claims (2)

An extraction container that extracts and transfers the fluid from the fluid container containing the fluid, and the insertion cap that closes the opening of the fluid container is provided with a valve mechanism that is always closed. A cover cap provided with a valve opening member for opening the valve mechanism of the insertion cap is attached to the opening of the extraction container, and an air hole is provided in the neck portion of the extraction container. Fluid transfer mechanism. The insertion cap is formed with a recess having a predetermined inner diameter, the valve mechanism is provided at the bottom of the recess, and the cover cap is provided with a tubular portion that fits into the recess, and the tubular portion is the recess. The fluid transfer mechanism according to claim 1, wherein the valve opening member opens the valve mechanism when the valve is inserted into the valve.

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