DE7924833U1 - Device for dosing liquids - Google Patents

Description

• t » r. * *

The invention relates to a device for dosing liquids from a container, in particular a bottle, in which a certain volume of liquid is dosed by means of a slide.

Such devices are used as liquid dispensers for sweeteners, spices and similar liquids, for which the most precise possible doping is required arrives; in their simplest form they use a slide that closes a metering opening. the In this case, the dosed amount depends on the approved opening cross-section and the opening time.

A known device for dosing liquids from a container works according to the membrane principle. By applying pressure to a membrane in the closure part of a liquid container, a certain volume of liquid is displaced and exits through a syringe cap. With this known dispenser, however, can not be sufficiently accurate dose because according to the height of the liquid level, the air cushion more or less together f \ contained within the bottle is pressed, with the result that, depending on the liquid level in each case a different amount of Liquid is pressed out of the bottle when the membrane is actuated. The closure from which the liquid emerges is not always closed. As a result, liquid can escape drop by drop when the bottle is tilted into the pouring position.

The invention is therefore based on the object of providing a device To create dosing of liquids with which an exact dosing also independent of the height of the liquid fcsspiegel is possible inside the bottle.

This task wild with a container of the initially named Art according to the invention by one on the screw cap with a metering opening in the cap base and one Cylinder arranged on the cap base with an axially displaceable dosing piston and a pouring opening solved in the cylinder wall facing away from the cap base.

The inventive device ensures accurate (\ dosing. In addition, the cap is permanently screwed to the bottleneck and can therefore not leak liquid during tilting of the bottle.

The cylinder preferably runs perpendicular to the cap axis or to the bottle neck. It is recommended as a material to use a thermoplastic plastic for the device. The device advantageously contains a double piston, the two individual pistons of which are arranged in alignment with one another and at an axial distance from one another are. Furthermore, it is advisable to arrange a rod between the two pistons in order to one side of the pistons to connect with each other and on the other hand also to keep a distance from each other at C). The two pistons own thus have a common axis and are consequently axially displaceable in the common cylinder. Wipe the volume " the two pistons represents the dosing volume.

It emphieht is to dimension the outer, ie protruding over the cabinet piston longer than the inner piston, because the äifere piston out of the device protrudes to \ by appropriate pressure on it to perform the required dosing, oiine that the outer piston thereby completely immersed in the device. So that the piston returns to its starting position after each metering stroke, a return spring can extend between the inner piston and the cylinder base wall opposite it.

The metering opening in the bottom of the cap is preferably eccentric trically arranged. The pouring opening is advantageously in the cylinder wall opposite the metering opening in the cap base offset towards the end of the cylinder. Here, the arrangement is expediently made so that the Pouring opening by the amount of the distance between the two pistons; axially offset from one another with respect to the metering opening

is. So that the pouring in the rest {λ state ensures closed and the metering orifice is open while the dispensing state closed the dosing and the pouring is open.

Furthermore, a discharge channel can be installed on the cylinder wall be arranged to ensure a clean flow of the metered amount of liquid. To have a bottle with S tightly seal the dosing device on the inside of the cap base Sealing lips arranged that rest on the edge of the bottle neck.

The invention is explained in more detail below with reference to an exemplary embodiment shown in the drawing. In the drawing show:

1 shows a dosing device on the neck of a bottle, FIG. 2 shows the dosing piston of the dosing device,

5 shows the metering device in the tilted position in the rest position and FIG

4 shows the metering device in a tilted position in the metering position.

The device is used to meter the liquid 2 of a bottle 1. The metering device 4 sits on the neck of the bottle 3, in such a way that a cap 5 is screwed with its cylindrical wall 6 onto a thread on the bottle neck 3 is. In the cap base 7 there is a metering opening 8 eccentric to the bottle neck 3.

Ar of the cap 5, a cylinder 9 is formed such that its axis is perpendicular to the axis of the cap 5, respectively of the bottle neck 3 runs. In the wall 10 of the cylinder 9 facing away from the cap base 7 there is a pouring opening arranged. Furthermore, a pouring channel 12 is attached to the cylinder wall 10.

A double piston 13 »14 is axially displaceable in the cylinder 9 stored. The double piston consists of an inner piston 13 and an outer piston 14, which over a rod 15 are connected to one another and at the same time are kept at a distance from one another. The outer piston 14 is longer than the inner piston 13, so that when moving in the direction of arrow 24, the outer one Piston 14 is not completely immersed in the metering device 4 and enables the metering stroke.

A return spring extends between the inner piston 13 and the cylinder base wall 16 opposite it 17, which ensures that the metering piston 13, 14 returns to its starting position after each metering stroke.

The pouring opening 11 located in the cylinder wall 10 is by the amount of the distance 18 of the inner piston 13 from the outer piston "14 opposite the metering opening 8 in the cap

"bottom 7 in the direction of the cylinder end 16 is offset arranged. The volume 21 resulting between the inner piston 13 and the outer piston 14 represents that Dosing volume.

A sealing lip 19, which rests tightly against the upper edge of the bottle neck 3, runs on the inside of the cap base. Of further is located in the cap base 7 between the cap wall 6 and the bottle neck 3 a ventilation opening 20, above which the metering chamber 21 is ventilated in order to ensure an outflow of the liquid.

For dosing the liquid in bottle 1 2, the bottle is first, as shown in FIGS. 3 and 4, tilted with the bottle neck 3 obliquely downward. In this position shown in FIG. 3, even before the metering device 4 is actuated, liquid flows out of the bottle 1 2 through the metering opening 8 into the metering space 21 between the two pistons 13, 14. After the space 21 with liquid has filled, as can be seen in FIG. 4, by pressing on the metering piston 13, 14 in the direction of arrow 22, the metering piston 13, 14 pushed against the force of the return spring 17 further into the cylinder 9, in such a way that the inner piston 13 exposes the pouring opening 11, the outer piston 14 closes the metering opening 8. In this position of the metering piston 13, 14 the flows in the metering chamber Liquid located through the pouring opening 11 to the pouring spout 12. During the emptying of the space 21 flows on the way 23 Air between the cap wall 6 and the bottle neck 3 through the ventilation opening 20 into the space 21 and from this off when the dosing piston 13, 14 returns to its position shown in FIG. 3 by the spring Ί7 after dosing is complete Has returned to the starting position, through the metering opening 8 into the bottle 1.

The ventilation opening 20 is in the same Hölie as that Arranged outlet opening 11 and is at the same time during the stroke through the outlet opening, the dosing tube is released.

Claims (1)

Protection claims: 1. Device for dosing liquids from one Container, especially a bottle, free of the means a slide a certain volume of liquid is dosed, characterized by a screw cap (5) with a metering opening (8) in the cap base (7) and by one arranged on the cap base (7) Cylinder (9) with an axially displaceable metering piston (13, 14) and a pouring opening (11) in the cylinder wall (10) facing away from the cap base (7). 2. Device according to claim 1, characterized gekennzeichiiet, that the cylinder (9) perpendicular to the 'The axis of the cap runs. 3. Apparatus according to claim 1 or 2, characterized by a double piston (13, 14) with two pistons (13, 14) aligned with one another and at an axial distance (18) from one another. 4. Device according to one or more of claims 1 to 3, characterized in that a rod (15) is arranged between the two pistons (13, 14). -Z- 5. The device according to one or more of claims 1 "up to 4, thereby. gekennzeich.net, that one piston (14) is longer than the other piston (13). 6. Device according to one or more of claims 1 up to 5, characterized that between the inner piston (13) and the opposite, λ overlying cylinder base wall (16) a return spring (17) extends. 7 * Device according to one or more of claims 1 to 6, characterized in that the metering opening (8) in the cap base (7) is eccentric is arranged. 8. Device according to one or more of claims 1 to 7, characterized in that the pouring opening (11) in the cylinder wall (10) opposite the dosing opening (8) in the bottom of the body (7) towards is offset towards the end of the cylinder (16). ) 9. Device according to one or more of the claims. 1 to 8, characterized in that the pouring opening (11) by the amount of the distance (18) between the two Pistons (13, 14) from each other opposite the metering opening (8) is axially offset. 10 * Device according to one or more of claims 1 to 9, characterized in that on the cylinder wall (10) has a pouring channel (12). 11. Device according to one or more of claims 1 to 10, characterized in that that sealing lips (19) are arranged on the inside of the cap base.