The present invention relates to a container for storing liquid, and more particularly to a container for storing liquid having a function, when an internal liquid remained in the container is discharged, capable of keeping liquid discharging speed approximately constant independently of the amount of the internal liquid and preventing pulsating flow from occurring.
As a conventional container of this kind, for example, there have been a two-mouth container as illustrated in
The two-mouth container illustrated in
Further, these conventional containers have common characteristics that air to be supplied into the container is introduced directly into an internal space of the container without passing through the internal liquid. This type of air intake mechanism can realize very smooth discharge of the liquid since there is no resistance caused by the internal liquid when the internal liquid is replaced by air. However, the discharging speed varies with the height of the surface of the internal liquid. That is, the liquid is discharged at a higher speed at an initial stage of the discharge, when the large amount of the internal liquid is remained in the container. The discharging speed gradually decreases with decrease of the amount of the internal liquid.
Accordingly, there has been a need to control the discharging speed at a constant by adjusting an angle of inclination of the container in concert with the decrease of the internal liquid.
In these Figures, reference numerals are as follows: 10 is a bottle, 11 is an air channel, 21 is a container mouth portion, 22 is a container body, 23 is a blow-molded portion, 24 is a narrowed portion,
25÷ is an air port,
31÷ is discharge port, 45 is liquid, and 40 is air.
The above mentioned problems can be solved by a first aspect of the present invention, which is a container with an air intake mechanism comprising: a blow-molded portion 23, whose opening is larger than that of a container mouth portion 21, is formed by using a blow molding at a position under the container mouth portion 21; a narrowed portion 24 and a discharge port 31 in the narrowed portion 24 are formed by narrowing down on a container body 22 side portion of the blow-molded portion 23; and an air channel 11 extending from and connecting a side wall of the blow-molded portion 23 positioned over the narrowed portion 24 to an inner upper space of the container body 22, the air channel 11 has such a short length that air 40 supplied through the air channel 11 is released directly in an internal liquid 35 in the container when the internal liquid 35 is discharged.
A second aspect of the present invention of the container is characterized by that the narrowed portion 24, the discharge port 31 and an air port 25 are simultaneously formed by narrowing down a side portion of the container body 22 at the blow-molded portion 23.
Furthermore in order to improve the usability of the container, the discharge port 31 has an approximately the same axis along it of the mouth portion 21 and has approximately the same size and shape to the mouth portion 21.
Before performing Embodiments below, previous tests were carried out using bottles 10 shown in
As shown in
Each bottle 10 was nearly fully filled up with liquid 35 and then the bottle 10 was placed upside down shown in
The result of the Table is shown in the graph of
From the results, it is recognized that when the front edge of the air channel 11 is under the surface of the liquid, a specific discharging speed can be maintained that is specifically determined by the length of the air channel 11. Whereas when the front edge of the air channel 11 emerges from under the surface of the liquid 35, the discharging speed changes in proportion to the height of the surface of the liquid 35.
The bottle 10 of
Preferable embodiments will be explained below. However, the scope of the present invention is not limited to these embodiments.
Air 40, that is supplied into a container through an air channel 11, is released in the internal liquid 35 remained in the container. According to this mechanism, a discharging speed of the liquid can be kept approximately constant independently of the amount of the internal liquid.
In this second embodiment, the blow-molded portion 23 includes the screw portion which is formed by a blow-molding process. In addition, the air channel 11 in a rib 26 communicates with both the blow-molded portion 23 and an internal space of a base portion of a handle that is provided at an upper portion of a body 22 of the container.
The pulsation-free flow, when the internal liquid is discharged, can be realized with the one-mouth container. Discharging speed is kept approximately constant independently of the amount of the internal liquid remained in the container, so that there is no need to control the discharging speed by changing the angle of inclination of the container. The air intake mechanism is compact in size, so that the container can be designed more freely.
When manufacturing the container of the present invention, conventional molding processes can be used, so that there is no need to use a special molding machine or die. No sizable projection exists at the inner portion of the mouth, so that no difficulty arises in filling liquid or inserting a liquid-filling pump etc. into the container.
Number | Date | Country | Kind |
---|---|---|---|
2002-058129 | Mar 2002 | JP | national |
2002-205866 | Jul 2002 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/JP03/02386 | 2/28/2003 | WO | 00 | 8/31/2004 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO03/074372 | 9/12/2003 | WO | A |
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201 12 279 | Oct 2001 | DE |
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Number | Date | Country | |
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20050092780 A1 | May 2005 | US |