NO821989L - DOSAGE CONTAINER FOR LIQUID SUBSTANCES. - Google Patents

Description

The present invention relates to a dosage container for liquid substances which consists of a container of a preferably elastic flexible material, e.g. plastic,

with a dosing spout at one end, and optionally provided with an internal blocking device, as the dosing takes place by

press the container's front surface inwards, which container can be attached to a base with the dosing spout pointing downwards.

The invention thus relates to a dosage container

for liquid substances, whereby the dosage from the container

occurs by means of the well-known "pumping", i.e. the front wall is pressed inwards, whereby the wall, thanks to its elasticity, regains its upright position after the pressure is finished.

The invention also relates to a locking device for a dosage container of flexible material that contains liquid or a cream.

When the dosing container is attached with the dosing

with the spout pointing downwards, the substance determined for dosing is retained in the container. When pumping, liquid escapes, but after pumping is finished, the outflow of liquid ceases. In this way, a corresponding volume of air must be let into the container so that the negative pressure does not increase in the container. The air intake through the mouth of the container is of crucial importance in connection with a container, according to the invention, as the container is otherwise flattened. The container does not leak, as there is a slight negative pressure in its upper part. In addition, after dosing, air bubbles form an air cushion in the mouth or immediately above the barrier or in both of these places, which prevents the flow of liquid.

From DE-PS 2 024 294, there is a known single-dose container for washing liquid with a mouth provided with threads at one end, where a nozzle provided with openings and a closing pin are arranged inside the mouth. Around the mouth, there is a screw lid provided with an outlet hole, whereby the mouth piece is opened and closed by turning this lid. This container is designed to be held on a horizontal surface, in the same places as a normal sepe. When dispensing washing liquid, the container must be held in the hand, the lid turned in the open position and the front wall of the container pressed inwards to dispense liquid.

FI-PS 23 69 9 describes a blocking device for compressible tubes containing liquids or pastes. This locking device comprises an extended arc-shaped part of rubber or similar elastic material provided with a slot-like squeeze-■ ■ opening and a connection to this. cylindrical part. This well-known blocking organ releases! however, no replacement air into the container, why^ it can only be used in conventional compressible metal tubes. It is not suitable for containers of flexible

material, such as plastic.

US-PS 4 133 457 describes a liquid dosing container provided with a disc-like blocking member. This locking disc has slit-like cuts in its central part, from which the liquid is dosed, as well as at least one small hole which helps to increase the flexibility of the locking disc and admit replacement air into the container to avoid flattening of the container. This dosing container is therefore not tight, because it cannot be used when it is fixed in a vertical plane, with the dosing spout pointing downwards. First and foremost, the locking disc prevents liquid from flowing quickly out of the container when it e.g. lashes.

The container according to the invention is characterized by

that the dosing spout is cone-shaped and that it can be cut off at predetermined locations which are determined as a function of the viscosity of the liquid intended for dosing and the elasticity of the compressible container, and that between the dosing spout and the container a barrier is possibly arranged through which the liquid,.. upon indentation of the container, flows out via one or more channels.

Between the dosing spout and the container there is preferably a blocking member, namely one with one or more arc-shaped cuts provided with a disk made of rubber or other elastic material. The cut is preferably Y-shaped.

The dosing container according to the invention is easier to use and more hygienic than known dosing containers. When it is attached to a wall and ready for use, all that remains is to "pump" the substance out of the container. When your hands are more or less dirty, you can, when you e.g. If you need washing-up liquid, press the wall of the container inwards with the side of your hand. After use, the container closes tightly by itself.

Dosable liquid substances are substances with a viscosity that varies from liquid to cream. Examples include washing-up liquid, hand cream, shampoo, hair conditioner, shaving cream, different types of skin care emulsions, etc.

Of particular interest are so-called thixotropic substances such as

in a state of rest have a high viscosity, but as when they are set in motion, e.g. when pumped from a container according to the invention, flow as liquids.

Containers containing various doseable substances, such as e.g. washing liquids, hand cream and shampoo, can be attached next to each other above a washbasin, whereby the different containers can be separated from each other by giving them different colours.

In what follows, the invention will be described in more detail with reference to the drawings.

In fig. 1 shows a dosing container, seen from the side, and in fig. 2, the container is shown from the front. Fig. 3 shows a section through the dosing spout of the dosing container. Fig. 4 shows a section through a blocking device in the dosing container. Fig. 5 and 16 - 21 show a detail of the locking device's location in the dosing container.

Fig. 6 shows a locking device, and

fig. 7-14 shows locking washers.

The container 1 can be made, e.g. of an elastically flexible plastic, e.g. polyethylene or polyvinyl chloride. The rear surface of the container is designed with an attachment surface of adhesive material, such as a self-adhesive surface 2 by means of which the container can be attached to the substrate with the dosing spout 3 directed downwards. The container is designed to be attached to a wall, e.g. above a washbasin.

The dosing spout 3 preferably comprises a nut part and a cone-shaped spout part which can be cut off at predetermined places 4. The cut-off places are determined as a function of 4

the viscosity of the doseable liquid and the elasticity of the compressible container. The mouth of the dosing spout is closed by a pin 5 designed in connection with the manufacture of the container or another similar device.

Since the container is fixed upside down, i.e. with it in

end open dosing spout 3 downwards, the substance determined for dosing is retained in the container due to the negative pressure prevailing in its upper part. In case of investigations

it has been established that water with. a viscosity of 1 centipoise at 20°C is retained in a container where the mouth of the dosing spout has a diameter of 1 mm. When pumping, water flows out, but when pumping is finished, the outflow of water ceases. When pumping substances from the container, a corresponding volume of air must be let into the container to avoid an increase in negative pressure in the container. The introduction of air through the mouth of the container is of crucial importance in connection with a container according to the invention, which has a downward-facing dosing nozzle which is open at the end.

In addition, the entry of air through the mouth of the container is important insofar as a couple of drops of liquid still come out of the container spout after pumping has finished.

These liquid droplets are replaced by air bubbles which form a flow barrier for the liquid in the container. In the event that the container, between the dosing spout and the container, is provided with a locking device 6 and/or a locking disc, forms

the air bubbles that enter the container - after pumping a flow barrier immediately above the blocking device, and at the same time a flow barrier of air bubbles is also formed in the container spout.

The diameter of the mouth of the dosing spout can lie within a wide range, e.g. 0.1 - 6.0 mm. When the mouth diameter is large, substances with high viscosity and/or surface tension can be dosed. As mentioned above, water with a viscosity of 1 remains in a container where the mouth has a diameter of 1 mm. Likewise, a mouth with a diameter of 1 mm is also suitable for real liquids, and it is also applicable e.g. too creamy. Thus, a mouth diameter of 1 mm can be chosen for practical reasons for one plurality of liquid substances which are dosed with a

b

container according to the invention.

The length of the dosing spout can vary, and can be e.g. 2 - 4 cm, preferably 3 cm. The number of cut-off points on the dosing spout can also vary. E.g.

can a dosing spout with a length of 2 - 3 cm have 2 - 4 cut-off points which are placed in places where the inner diameter is approx. 1.10 dg 0.70 mm or approx. 1.25, 1.00 and : 0.75 mm, resp. about. 2.40, 2.00, 1.50 and 1.00 mm.

The possible locking device 6 and/or the locking disc is located between the dosing spout and the container. The blocking member consists of a sleeve which has a net-shaped, open-pored or perforated channel section 7. It is made of a rigid material, e.g. plastic or metal. The part 7 is a net-shaped or perforated part or a coarse-fibre felt or net layer.

The locking device preferably consists of a sleeve made of plastic which has a perforated channel section and where the total area of the perforations is approx. 10 - 20% of the area of the canal section. The coarse-grained layer consists of e.g. of metal wool.

The channels in the channel section have a length of 0.5 - 1.3 mm, preferably 1.0 mm.

The locking device can also consist of two parts, as it has, in addition to the locking device 6, a separate, preferably circular locking disc 8. The locking device consists of a sleeve made of a rigid material, which can have a net-shaped, open-pored or perforated channel section 7', which is a net-shaped or perforated part or a coarse-grained felt or net layer.

The locking device can also consist of a locking disc 8 and a sleeve arranged in the container neck. 6. which carries the locking disc, and which is optionally provided with one or more teeth which are sunk into a corresponding serration on the dosing spout

The locking disc is a disc made of an elastic material, preferably rubber, with an elasticity between 35% and 75%, preferably approx. 62% (SIS 162 215), and a hardness of 20 - 60, preferably approx. 40, measured with an IHR device. The material is preferably resistant to chemical

b

effect. The thickness of the disc is preferably 0.7 - 1.3 mm.

The cut in the locking disc is preferably curved and Y-shaped (fig. 15). The length of the cut is approximately half the diameter of the locking member, and the curvature diameter is suitably the same as the diameter of the locking member.

Other preferred locking washers with one or more arcuate cuts in the middle are shown in fig. 8-14. A suitable curvature diameter is approx. - 3/4 of the container mouth diameter, and a suitable length of the cut is 1/4 - of the mouth diameter.

When the locking disc has only one cut, it should lie completely perpendicular to the plane of the disc (fig. 8 - .10;) . If the number of cuts is greater, they preferably run on

oblique in relation to the plane of the disc (fig. 11 - 14), so that each cut opens only in one direction, whereby it ensures tight closure. These cuts are cut obliquely, so that a part of them opens on one side of the locking disc and a part on the other side, and the individual cuts can also have different curvature diameters.

The channel portion 9 in the rigid disk is a net-shaped.,

or perforated part or a coarse-fibre felt or mesh layer with a thickness of - preferably 0.6 - 1.4 mm.

The channel part in the elastic disc is made up of a slotted part 9a with a number of parallel cuts, preferably 5-7 parallel cuts, and a cut perpendicular to these which is preferably located in the middle of the disc.

The elastic locking disc according to the invention is easily opened by squeezing the container and allows the inflow of . replacement air in the container after the squeezing is finished, after which it is closed very tightly. Thanks to the shape of the spout,

does not even dry thick paste quickly, but the dosing container according to the invention is ready for use even in spite of long-term storage.

The total cross-sectional area of one or more flow channels, which pass through the channel part 7 in the blocking member 6 and the channel part 9 in the possible blocking disc 8, is large during the outflow period, preferably approx. 10. - 30% of the canal section 7 and/or 9 area.

The blocking device and the diameter of the mouth are chosen according to the substance to be dosed.

The following examples illustrate the invention:

Example 1

A dosing container with a locking device, which dosing container is mounted with the dosing spout downwards, is filled with liquid soap. The perforated channel part in the locking device has a diameter of 11.5 mm and. has 97 holes, each with a diameter of approx. 0.4 mm, and the inner diameter of the dosing spout at the outlet opening is 2 mm. The container is easy to use, and it does not leak after dosing aqueous solutions containing surfactants, with a viscosity of 500 cPj.

Example 2

A dosing container with the dosing spout downwards and without a locking device is filled with a lotion-type hand cream, which is to some extent thixotropic and has a viscosity of approx. 30,000 cP. The inner diameter of the dosing nozzle at the outlet opening is 1.3 mm. The hand cream is easy to dose and the container does not leak after use.

Claims (15)

1. Dosing container for liquid substances, consisting of a container (1) of a preferably elastic flexible material, e.g. plastic, with a dosing spout (3) at one end, and possibly provided with an internal locking device (6), where the dosing takes place by pressing the front surface of the container inwards, which container can be attached to a base with the dosing spout pointing downwards, characterized by The dosing spout (3) is cone-shaped and can be cut off at predetermined locations (4), which are determined as a function of the viscosity of the liquid intended for dosing and the elasticity of the compressible container, and that between the dosing spout and the container a blocking device is possibly arranged ( 6) through which one or more channels pass during the outflow period. 2. Dosing container according to claim 1, characterized in that the dosing spout (3) has a length of 2-4 cm, preferably approx. 3 cm, and that the diameter of the dosing spout at the beginning end is 1 - 6 mm, and at the narrower end 0.1 - 1.5 mm. 3. Dosing container according to claims 1 and 2, characterized in that the dosing spout (3) has a length of 3 cm and has four cut-off points (4), which are located in places where the inner diameter is approx. 2.40, 2.00, 1.30 and 1.00 mm, or that the dosing spout has a length of 2.5 cm and has three cut-off points located in places where the inner diameter is approx. 1.75, 1.25 and 1.00 mm, or that the dosing spout has a length of 2.2 cm and has two cut-off points located in places where the inner diameter is approx. 2.00 and 1.10 mm. 4;. Dosing container according to claims 1 and 2, characterized in that the blocking member (6) consists of a sleeve with a net-shaped, open-pored or perforated channel part (7). < 5. Dosing container according to claims 1 and 2, k a r a k- ! i| characterized in that the locking device (6) consists of a sleeve with a net-shaped, open-pored or perforated channel part (7) and a locking disc (8) with a net-shaped, open-j ! porous, perforated or slotted channel section (9). ! j in i, i in 6. Dosing container according to claim 2, character; i- > characterized by the fact that the channel part (9) in the retaining disc made of elastic material, preferably rubber, is | ; a slotted part with a number of parallel cuts and a cut perpendicular to these (9a), which preferably <1> lies in the middle of the disc, the channel part preferably having <1> in 5-7 parallel cuts (9a) . j 7. Dosing container according to claims 1-6, characterized in that the cross-sectional area of the flow channel(s) that passes through the channel part (7) in the blocking member (6) and the channel part (9) in the possible blocking disk (8) is large during the outflow period, preferably approx. 10 - 30% of the area of the channel section (7 and/or 9). 8. Dosing container according to claim 7, characterized in that the channel part (7 and/or 9) has a diameter of approx. 1 cm. 9. Dosing container according to claim 4, characterized in that the locking member (6) is a sleeve made of plastic whose channel part (7) is perforated, and where the total area of the holes is approx. 10 - 20% of the area of the canal section. 10. Dosing container according to claims 1-9, characterized in that the channels in the channel section (7 and/or 9) have a length of 0.5 - 1.3 mm, preferably 1.0 mm. 11. Dosing container for liquid substances, consisting of a container (1) of an elastic, flexible material, e.g. plastic, with a dosing spout (3) at one end, which dosing container is attached to a surface with the dosing spout pointing downwards, dosing taking place by pressing the front surface of the container inwards, characterized in that there is a locking device between the dosing spout and the container (6 ), namely a disk of rubber or other elastic material, and provided with one or more arcuate cuts (9a - 9g). 12. Dosing container according to claim 11, '-k ar akte <r> i-ss r t in that it has a perpendicularly cut arc-shaped cut (9b, 9c and 9d). 13. Dosing container according to claim 11, characterized in that it has two or more curved cuts (9f and 9g) slanted from both sides relative to the plane of the disc. 14. Dosing container according to claim 11, characterized in that a locking device (6) is arranged between the dosing spout and the container, namely a disk of rubber or other elastic material provided with an arc-shaped, Y-shaped cut (9h). 15. Dosing container according to claim 11, characterized in that the locking disc (8) between the dosing spout and the container is recessed in a support sleeve (6) at the end of the container neck.