NL1011477C2 - Water bottle container dispenser has at least one closing member coacting with opening and movable between position closing opening and position leaving clear opening - Google Patents

Abstract

The dispenser has at least one opening and at least one closing member coacting with the opening and movable between a position closing the opening and a position leaving clear the opening. At least a part of the dispenser is preformed (4) on a neck part of the container, and the remaining part of the dispenser is connected to it. An Independent claim is included for a method of manufacturing and filling the container.

Description

METERING FOR A FLUID

The invention relates to a device for dosed dispensing of an amount of fluid from a container, comprising a supply member which is in fluid communication with the container and has at least one outflow opening, and a metering member connected fluidly to the supply member with at least one a dosing chamber opening outflow opening, wherein the supply member and the dosing member are rotatable relative to each other for determining different doses. Such a dosing device is described in applicant's non-prepublished Dutch patent application 1010643. The term "fluid" in this text also includes any non-gaseous, flowing medium, i.e. both liquids and finely divided powdery solids.

Said previous patent application describes a dosing cap for a liquid-filled squeeze bottle, which is provided with a base part that can be screwed onto the bottle, and on which a cylindrical wall part 20 of a dosing chamber can be snapped. The base part has a cylindrical lift tube, which is connected to a dip tube inserted into the bottle, and which is provided with a channel recessed in the cylinder wall and an outlet opening arranged in the end wall. A likewise cylindrical dosing tube is placed around the delivery tube, which has a series of outflow openings formed at different heights. These openings are arranged not only in the height direction, but also in the circumferential direction. The dosing tube is coupled by means of 30 flights to the wall of the dosing chamber, which is rotatable relative to the base part.

By rotating this wall and thus of the dosing tube, one of the outflow openings of the dosing tube can optionally be registered with the channel of the lifting tube. If the bottle is now squeezed, the liquid will be pushed up through the dip tube into the delivery tube and then flow through the outflow opening in the end wall to the channel. Hence the liquid flows through the outflow opening of the dosing tube into the dosing chamber. When the pressure on the squeeze bottle is released, the vacuum in the interior of the bottle will draw the liquid from the dosing chamber back through the outflow opening, the channel, the lifting tube and the immersion tube. This suction of the liquid is stopped when air is drawn in. This will be the case when the respective outlet opening of the dosing tube exceeds the liquid level in the dosing chamber. The choice of the height of the outflow openings registered with the channel thus determines the liquid level which will remain in the dosing chamber after the squeeze bottle has been released, and which can then be poured and used.

This earlier dosing device, which makes it possible to dose liquids in a simple manner with relatively great accuracy, can for instance be used for administering feed or medicaments to animals, and for measuring the required amounts of cleaning agents and the like.

The object of the invention is now to provide a further improved dosing device of the type described above. According to the invention, this is achieved with such a dosing device in that the dosing chamber is integrally formed with the holder. Thus, a device with a minimum number of parts is obtained, which simplifies assembly and improves sealing.

The dosing chamber and the container are preferably preformed by injection molding, and the container is advantageously inflated to a final shape after the preforming. In this way, a preformed container with a part of the dosing device already thereon is obtained, which can be easily stored and transported, and moreover can be assembled with a small number of operations into a complete end product.

Further preferred embodiments of the dosing device according to the invention are described in the 5 subclaims.

The invention is elucidated with reference to an example, reference being made to the annexed drawing, in which:

Fig. 1 is a perspective top view with 10 exploded parts of a container with a dosing device according to the invention,

Fig. 2 shows a longitudinal section through the container with dosing device of the assembled condition shown in FIG. 1, FIG. 3 is an enlarged detail view of the metering device of FIG. 2,

Fig. 4 is a perspective bottom view of the metering member of the device of FIG. 1,

Fig. 5 is a perspective bottom view of the lid and the feed member of the dosing device, and

Fig. 6 is a top perspective view of the container and dosing chamber in the preformed state.

A device 2 for dosed dispensing of an amount of fluid from a container 1 (fig. 1) in the shown example comprises a dosing chamber 3, at least the side wall 6 of which is integrally formed with the container 1.

A dosing member 4 is arranged in the dosing chamber 3, which is in communication with the interior of the holder by means of a dip tube 16, which is inserted at the bottom side 23 and extends therein, extending close to the bottom 18 of the container 1. The dosing member 4 is fixed or integrally formed with a disc-shaped part 7, which functions as the bottom of the dosing chamber 3. This disc-shaped part 7 is provided with a skirt 8 arranged circumferentially, with which it seals in a narrowed neck 21 can be received between the container 1 and the dosing chamber 3.

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4

A second member 5 is rotatably received in the dosing member 4. This second member 5 is attached to, or integrally formed with, a lid 11, which closes the dosing chamber 3 at the top, and is rotatable relative to the dosing chamber 3. The cover 11 can for instance be attached to the wall 6 of the dosing chamber 3 by means of a snap connection 24, 25.

In the cylindrical body 9 of the dosing member 4, a few outflow openings 10 are arranged at different heights and in the circumferential direction 10. The likewise cylindrical second member 5 is provided with a channel 20 recessed in its cylinder wall 22, which can be placed in register with one of the 15 outflow openings 10 of the dosing member 4 by rotating this member 5 relative to the dosing member 4. in the position as shown in figures 2 and 3, the channel 20 of the second member 5 is not in register with one of the outflow openings 10 of the dosing member 4, so that there is therefore no liquid connection between the interior of the container 1 and the dosing chamber 3 In addition, in the example shown, the lid 11 is formed in such a way that in this position a triangular projecting part 13 of the lid 11 co-acts in a sealing manner with an outflow opening or pouring spout 12 of the dosing chamber 3. Thus leakage is completely prevented. In the lid 11 there is furthermore provided a venting opening 14, which in the opened position of the dosing device 2 ensures that air can penetrate into the dosing chamber 3 when it is emptied, but which is also closed in the closed position shown, namely by a cam 15 arranged on the top edge of a rib 28 projecting into the dosing chamber 3.

The operation of the dosing device 2 is thus as follows. When, starting from the closed position shown in figures 2 and 3, the lid 11 is rotated with the second member 5, the channel 20 of this second member 5 can be registered with one of the outflow openings 10 of the dosing member 4, so that a liquid connection is formed between the container 1 and the 101147? 5 dosing chamber 3. The attainment of such a position is indicated by markings 17 arranged on the outer wall 6 of the dosing chamber 3, which in the respective position are just in register with the triangular closing part 13 of the lid 11. in this position the container 1 is squeezed, liquid is passed through the immersion tube 16 through an opening 19 in the bottom of the dosing chamber 3 to the dosing member 4, and then flows through the channel 20 and the relevant outflow opening 10 into the dosing chamber 3. The container 1 must be squeezed until the liquid level in the dosing chamber 3 is in any case above the relevant outflow opening 10. If the container 1 is subsequently released, as a result of the negative pressure 15 therein, liquid will be sucked back from the dosing chamber 3, through the outflow opening 10 and the channel 20 to the immersion tube 16 and finally to the container 1. This suction takes place as long as the outflow opening 10 is located below the liquid surface. When the liquid level in the dosing chamber 3 reaches the top of the outflow opening 10, air will be drawn in, after which the flow of liquid from the dosing chamber 3 to the container 1 ceases. At that moment an accurately determined amount of liquid remains in the dosing chamber 3, which can then be poured out through the pouring spout 12.

As mentioned, the holder 1 and the dosing chamber 3 are formed as one unit. In the example shown, these two parts are injection-molded. The container 1 is not directly injection molded in its final form, but it is preformed into a kind of "test tube" 27 (fig. 6). This has the advantage that the preformed container 27 will initially require little space, so that the costs of storage and transport are limited. When the container is finally filled and has to be connected to the other parts of the dosing device 2, this preform 27 is first "inflated", so that it takes on its shape shown in figure 1 1011477 6. Thereafter, the thus inflated container 1 can be filled with liquid, and the other parts in the container 1 and the dosing chamber 3 can be pressed or clicked, after which the container 1 with the dosing device 2 is ready for use. Incidentally, the container preformed as a "test tube" can eventually be blown up into various shapes by a suitable selection of the blow mold, so that flexible production is possible.

The invention thus makes it possible, in a simple manner and with a small number of parts, to form a container integral with at least a part of the dosing device, whereby the assembly operations are greatly simplified and possible problems with regard to the sealing are avoided.

The scope of the invention is not limited to the examples shown, but is defined solely by the appended claims.

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Claims (11)

1. Device for dosed dispensing of an amount of fluid from a container, comprising a supply member which is in fluid communication with the container and has at least one outflow opening, and a dosing member connected fluidly to the supply member with at least one in a dosing chamber outflow opening, wherein the feeder and doser are rotatable relative to each other to determine different doses, and the dosing chamber 10 is integrally formed with the container. Device according to claim 1, characterized in that the dosing chamber and the container are preformed by injection molding. 3. Device according to claim 2, characterized in that the container is inflated to a final shape after preforming. 4. Device as claimed in any of the foregoing claims, characterized in that the dosing member is fixed in the dosing chamber and the supply member is rotatably received in the dosing chamber. Device according to claim 4, characterized in that the dosing member is attached to a bottom of the dosing chamber. 6. Device according to claim 5, characterized in that the dosing member is integrally formed with the bottom of the dosing chamber. 7. Device as claimed in any of the foregoing claims, characterized in that the supply member is connected to a lid, at least partly closing the dosing chamber. 8. Device as claimed in claim 7, characterized in that the feed member is formed integrally with the lid. 9. Device as claimed in claim 7 or 8, characterized in that the dosing chamber has at least one outflow opening, and the lid carries means for closing it. 10. Device as claimed in any of the claims 7 to 9, characterized by at least one ventilation opening arranged in the cover. 11. Device according to claim 10, characterized by means co-acting with the lid for closing the or each vent opening. 1011477