EA035904B1 - Foam dispenser - Google Patents

Abstract

The invention relates to a foam dispenser comprising a container made from manually deformable material. The container has a head section comprising an air chamber and a mixing chamber. The mixing chamber is positioned in the air chamber. The air chamber is provided with an air tube extending into the container for introducing air from the container in the air chamber. The mixing chamber is provided with at least one first inlet for introducing liquid from the container in the mixing chamber, with at least one second inlet for introducing air from the air chamber in the mixing chamber and with at least one outlet comprising a foam conveying tube wherein said at least one first inlet (9) comprises a tube connecting said container (2) with said mixing chamber (7) and wherein said tube of said first inlet (9) is provided with and extension whereby said extension is extending concentrically over said mixing chamber (7). The invention further relates to a method to apply foam on a targeted surface.

Description

The technical field to which the invention relates

The invention relates to a foam dispenser, in particular to a manual one, preferably made of a deformable material. The foam dispenser can be used, in particular, to generate foam for cleaning hard surfaces. The invention also relates to a method for dispensing foam using such a dispenser.

State of the art

There are two types of foam dispensers: dispensers that use compressed gas and dispensers that do not use compressed gas.

Foam dispensers that do not use compressed gas are occupying more and more significant market segments because they are versatile and eliminate some of the environmental concerns. Such dispensers are preferably made entirely of plastic (they do not contain, for example, metal or other materials), so the container of such a dispenser can be recycled for reuse. In addition, such dispensers can be refilled after the first use and are suitable for multiple refills.

JP2006290365A (Lion Corp.) discloses a compressible blowing agent that has a mixing assembly for mixing liquid with air to form an air / liquid mixture. The mixing unit consists of an external mixing part, which has a cylinder for suction of liquid and an inlet for sucking air in one or more places, and a cylindrical internal mixing part, which is attached to the inside of the external mixing part and has a suction opening for suction of liquid and air, located in the outer mixing part, into the mixing chamber. The suction port is formed at one or more locations.

WO 01/39894 A1 (Taplast SPA) describes a spray device for dispensing liquids to foam by deforming the container by manual compression. This device contains a first body element, equipped with a means of hermetic connection with the neck of the specified container, surrounding the first chamber, where the air-liquid mixture is formed, and having at least one filter element installed on the spray tube for spraying the specified mixture suitable for the formation of the required foam and valves to restore the air content inside the container. Said device also comprises a second body element, with said first body element forming a second chamber for containing the volume of liquid present in the suction tube in said container, thereby preventing liquid release during the first spraying.

Essentially, there are two types of foam dispensers on the market that can spray foam without using compressed gas: the first type of foam dispensers, which contain a hand pump and mix air and liquid in the mixing chamber to form foam, and the second type of foam dispensers, which contain a compressible container. As a result of the compression of such a container, liquid and air are sucked in and foam is formed by mixing streams of foamable liquid and air in the mixing chamber. Thereafter, the mixture of air and liquid passes through the porous material such as a sponge to form a foam.

The following are the most important problems with known foam dispensers:

incompatibility of foam characteristics;

slow return of the dispenser to its original position, which makes it difficult or impossible for its rapid subsequent use;

mutual influence of air flow and liquid flow rate, which does not guarantee the quality of the foam;

difficulty in directing or discharging a jet of foam onto a surface, in particular directing or discharging a jet of foam onto a surface from a distance, or applying foam to a vertical or substantially vertical surface or hard-to-reach areas or surfaces.

Complex designs are known to solve these problems, requiring sophisticated air recovery systems and / or complex valve systems.

Thus, there is a need to develop a foam dispenser having a simple design that provides high-quality foam of constant consistency, as well as a foam dispenser having a mechanism for directing and releasing a foam jet from a distance or direction and releasing a foam jet to hard-to-reach areas or surfaces.

The object of the invention is to provide a foam dispenser, in particular a manual one, in which the disadvantages of the known dispensers are eliminated.

Another object of the invention is to provide a foam dispenser that does not require the use of pressure valves, thereby eliminating valve problems and providing a simplified foam dispenser design.

Another object of the invention is to provide a foam dispenser in which the mutual influence of the air flow rate and the flow rate of the liquid to be foamed is eliminated.

Another object of the invention is to provide a foam dispenser that quickly returns to its original position, which makes possible subsequent use of the foam dispenser.

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Another challenge is to develop a method for applying foam to a given surface.

Another challenge is to develop a method for applying foam to a predetermined surface that is located at a distance from the foam dispenser.

Another challenge is to develop a method for applying foam to a vertical or substantially vertical surface or to a hard-to-reach area or surface.

Disclosure of invention

In the present description, the term comprising includes the concepts consisting essentially of and consisting of. When using the term, containing the listed steps or variations does not need to be all-encompassing. Unless otherwise indicated, it should be appreciated that quantitative ranges expressed as x to y include both x and y. When specifying any range of values or values, any specific high value or value can be associated with any specific lower value or value. Except for examples and comparative experiments, or where otherwise explicitly stated, all numbers are to be regarded as modified by the word approximately. All percentages and ratios reported herein are by weight unless otherwise indicated. Various aspects of the invention relating to the various above sections, as necessary, apply to other sections as necessary, mutatis mutandis. Accordingly, features defined in one section can be combined with features defined in other sections, if necessary. Any section headings are added for convenience only and are not intended to be limiting in any way.

A first aspect of the invention is a foam dispenser such as a manual foam dispenser. The dispenser contains a container for containing liquid and air. Preferably, the container is made of a deformable material.

The container has a head. The head contains an air chamber and a mixing chamber. The mixing chamber is located in the air chamber. The air chamber is equipped with an air tube passing into the container for supplying air from the container to the air chamber. When the foam dispenser is in an inverted position, the air tube extends upward, for example vertically.

The mixing chamber is provided with at least one first inlet, at least one second inlet and at least one outlet.

The at least one first inlet allows the liquid in the container (eg, a liquid to be foamed) to enter the mixing chamber. This means that the mixing chamber communicates with the liquid in the container through at least one first inlet.

The at least one second inlet allows air in the air chamber to enter the mixing chamber. This means that the mixing chamber communicates with the air in the air chamber via at least one second inlet.

At least one outlet contains a tube for transporting foam. The foam conveying tube contains at least one porous material located across this tube, preferably over its entire cross-sectional area.

Preferably, the foam conveying tube also includes nozzles for directing the foam to a predetermined surface.

The foam dispenser according to the invention is preferably used in an inverted position.

The expression inverted means the position of the foam dispenser with the head of the container pointing downward.

Such a foam dispenser can be used to dispense a wide variety of foam products, in particular it is suitable for dispensing foam for cleaning bathrooms, foam for cleaning windows, foam for cleaning electrical appliances such as kitchen ovens, foam for cleaning furniture or carpets, foam for personal care. such as hand soaps, shampoos, shower or bath soaps, or face care products.

Container.

The container is designed to hold liquid and air. The liquid in the container is preferably expandable (eg, liquid detergent solution). The container is preferably made from a deformable material, and more preferably from a material that can be manually deformed or compressed. Preferably, the container is made of a polymeric material such as polypropylene or polyethylene.

As indicated above, the container is provided with a head. This head can be disassembled with the container. In other embodiments, the head may be permanently connected to the container or even be part of the container.

Air chamber.

The head of the container for the foam dispenser according to the invention comprises an air chamber. Preferably, the air chamber contains a polymeric material such as polypropylene or polyethylene. The plenum may contain the same material as the container or may contain different

- 2 035904 material.

The air chamber is provided with at least one air tube to allow air from the container to enter the air chamber. The air chamber contains a mixing chamber.

Mixing chamber.

The mixing chamber is preferably made of polymeric material. The polymer material of the mixing chamber may be the same as the polymer material of the container, or may contain a different polymer material.

In the foam dispenser of the present invention, the mixing chamber is located in the air chamber. The expression located in the air chamber means that the mixing chamber is physically located in the air chamber, i.e. the mixing chamber is surrounded by an air chamber.

The mixing chamber mixes air and a liquid, such as a foamable liquid. A mixture of air and (foaming) liquid is discharged from the mixing chamber to form foam.

The mixing chamber is provided with at least one first inlet for supplying liquid from the container to the mixing chamber, at least one second inlet for supplying air from the air chamber to the mixing chamber and at least one outlet containing a tube for conveying foam.

Air tube.

An air tube connects the mixing chamber to the air in the container. The air tube allows the air in the container to flow into the air chamber. Preferably, the air tube extends from the air chamber to the part of the container containing air. When air is generally at the top of the container, the air tube preferably extends to the top of the container. In dispensers used in an inverted position, the air tube preferably extends vertically upward towards the top of the container, i. E. to the part of the container that contains air.

Preferably, the air tube has a relatively large length in relation to the height of the container, for example a length comparable to the height of the container. Preferably, the length of the air tube is greater than 50%, greater than 60%, greater than 70%, greater than 80%, or even greater than 90% of the height of the container.

The air tube is made of polymer, for example. The polymeric material of the air tube can be the same as the polymeric material of the container and / or the polymeric material of the mixing chamber, or it can be another polymeric material.

The polymer tube can be of any cross section, although a tube having a circular or substantially circular cross section is preferred.

The air chamber can be provided with multiple air tubes, for example two or three air tubes, for example two or three polymer tubes.

First intake.

The at least one first inlet connects the mixing chamber to a liquid in the container, for example a liquid to be foamed. The at least one first inlet allows the liquid in the container to enter the mixing chamber.

The mixing chamber can be provided with several first inlets, for example two or three first inlets, for example two or three polymer tubes.

The first inlet contains, for example, a tube, such as a polymer tube, connecting the mixing chamber to the container.

The polymeric material of the first inlet may be the same as the polymeric material of the container and / or the polymeric material of the mixing chamber and / or the polymeric material of the air tube or may be another polymeric material.

The first inlet is concentric to the mixing chamber. The first inlet and the mixing chamber are considered concentric if the first inlet and the mixing chamber have a common center. The first intake, i.e. the first inlet tube and the mixing chamber are coaxial. The first inlet and the mixing chamber are considered coaxial if the first inlet and the mixing chamber have a common axis. The at least one first inlet comprises a tube connecting the container to the mixing chamber, said tube being provided with an extension that extends concentrically to the mixing chamber.

Second inlet.

At least one second inlet connects the mixing chamber to the air in the air chamber. The at least one second inlet allows the air in the air chamber to enter the mixing chamber.

The mixing chamber can be provided with several second inlets, for example two or three second inlets.

The at least one second inlet may comprise a tube, for example a polymeric tube, connecting the air chamber to the mixing chamber to allow air to pass from the air chamber to the mixing chamber. Alternatively, at least one second inlet is formed by a slit or

- 3 035904 a number of slots allowing the passage of air from the air chamber to the mixing chamber.

The slot or slots can be formed in the mixing chamber, in the first inlet, or formed between the first inlet and the mixing chamber. As a result, one or more air channels are formed to allow air to pass from the air chamber to the mixing chamber.

In a preferred embodiment, the second inlet is defined by a slot or a series of slots between the first inlet and the mixing chamber, for example between the first inlet tube and the mixing chamber.

The first inlet contains a tube provided with an extension extending concentrically to the mixing chamber. In such an embodiment, the second inlet may be formed by a slot or a series of slots between the extension of the first inlet and the mixing chamber.

Release.

At least one outlet contains a tube for transporting foam, i. E. a tube for transporting a mixture of air and liquid from the mixing chamber and / or for transporting the foam obtained in the mixing chamber or in a porous material, or as a result of passing through a porous material located in at least one outlet.

The at least one outlet comprises, for example, a tube such as a polymer tube.

The at least one outlet preferably comprises a nozzle at the end of the foam conveying tube. This nozzle can direct the foam to a target surface.

As the nozzle, any type of known nozzle can be used.

Preferably, the nozzle is tapered.

By using an outlet containing a tube of a certain length and / or providing the outlet with a nozzle, the foam dispenser of the present invention allows foam to be applied to a given surface from a distance. This is in particular a particular advantage when applying foam in certain applications, for example for cleaning a toilet or bathroom where the user prefers to be away from the surface. This is an important advantage over prior art foam dispensers, which do not allow foam to be applied from a distance.

In addition, by using a foam dispenser having a defined outlet length and / or providing the outlet with a nozzle, the foam dispenser of the present invention allows foam to be applied to hard-to-reach areas.

Preferably, the outlet is provided with at least one porous material. This porous material is located across at least one outlet, i. E. cross-section of the tube for transporting foam.

The porous material can be any material that is capable of foam formation when a stream of air and expandable liquid passes through such material. Any material having high porosity or containing pores or perforations can be considered as a porous material. The porous material can be, for example, a polymeric material, a metal, or a metal alloy, or a ceramic material.

Examples include a sponge or a sponge-like material, a mesh or a mesh-like material, a cloth or plate, or foil with many holes or perforations.

The pores of the porous material are preferably 20-1000 microns, more preferably 40-500 microns, for example 100, 200 or 300 microns.

In a preferred embodiment, the foam conveying tube comprises a first porous material and a second porous material. The foam that is discharged from the mixing chamber through the foam conveying tube first passes through the first porous material and then through the second porous material. The pores or perforations of the first porous material are preferably larger than the pores or perforations of the second porous material, i. the size of the pores or perforations of the first porous material is preferably larger than the size of the pores or perforations of the second porous material. Alternatively, the porosity of the first porous material is greater than the porosity of the second porous material. When a mixture of air and expandable liquid passes through the first porous material, coarse foam is formed, and when coarse foam passes through the second porous material, the coarse foam becomes more uniform in size and texture.

The pores of the first porous material preferably have a pore size of 40-1000 µm, and the pores of the second porous material preferably have a pore size of 20-1000 µm.

Air valve.

In a preferred embodiment, the air chamber is provided with at least one air valve, for example a check valve. This air valve allows air from outside the container to enter the air chamber. Providing the air chamber with such a valve facilitates air intake so that the container can be quickly returned to its original position for later use.

The foam dispenser of the present invention is particularly suitable for use as a manual foam dispenser.

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A second aspect of the invention is a method for applying foam to a given surface. Said method preferably includes the steps of taking a foam dispenser according to the present invention;

compressing the container of the foam dispenser to ensure the suction of air from the container into the air chamber through the air tube and further from the air chamber to the mixing chamber through the second inlet and to ensure the suction of liquid from the container into the mixing chamber through the first inlet;

foam is discharged from the mixing chamber onto a predetermined surface through at least one outlet.

The method of applying foam to a given surface according to the present invention allows the foam to be applied from a distance from the given surface.

The expression applying foam from a certain distance from a given surface means that the user of the foam dispenser should not approach the given surface. The distance between the foam dispenser, for example its container, and the predetermined surface is, for example, 1-50 cm, and more preferably 1-20 cm.

The invention is illustrated by a drawing.

The figure shows a foam dispenser according to the present invention.

Implementation of the invention

The invention will be described in relation to specific variants of its implementation with reference to the drawing, but the invention is not limited to this, but is limited only by the claims. The drawing is only schematic and non-limiting. For clarity, some elements in the drawing may be enlarged and may not correspond to scale. The dimensions and relative dimensions do not correspond to the actual implementation of the invention.

The figure shows the foam dispenser 1 of the present invention in an inverted position. The foam dispenser 1 comprises a container 2 made of a hand-deformable polymer material, for example, polypropylene or polyethylene. The container 2 contains the foaming liquid 3 and air 4. The container 2 contains the head 5. In the inverted position of the foam dispenser 1, the head 5 is oriented downward. The head 5 of the container 2 contains an air chamber 6 and a mixing chamber 7. The mixing chamber 7 is located in the air chamber 6.

The air chamber 6 is provided with an air tube 8. When the foam dispenser 1 is in an inverted position, the air tube 8 extends upward. Thus, the air tube 8 connects the air chamber 6 to the part of the container 2 containing air.

The mixing chamber 7 is provided with a first inlet 9 for introducing a foamable liquid 3 from a container into a mixing chamber 7, a second inlet 10 for introducing air 4 from an air chamber 6 into a mixing chamber 7 and an outlet 11 containing a tube 12 for transporting foam.

The first inlet 9 preferably comprises a tube, and more preferably a tube with an extension. The first inlet tube 9 or the first inlet tube extension 9 runs concentrically to the mixing chamber 7.

The second inlet 10 is formed, for example, by a slot or a series of slots. In other embodiments, the second inlet 10 comprises a tube, such as a polymeric tube, connecting the air chamber 6 to the mixing chamber 7.

In a particular embodiment, the first inlet 9 is coaxially attached to the mixing chamber 7, for example by means of a lock connection. An open space in the form of a slot or gap can be formed between the wall of the first inlet 9 and the mixing chamber 7. This open space or gap forms an air channel that allows air to pass from the air chamber 6 to the mixing chamber 7. In a preferred embodiment, the inner wall of the first inlet 9 is provided with a number of narrow protrusions around the circumference of the mixing chamber 7 to create a narrow passage through which the air from the air chamber 6 can enter the mixing chamber 7.

A separate air chamber 6 helps to separate the air and the liquid to be foamed so that they do not interfere with the flow rate of each of the media. Thus, the ratio of the air to the liquid to be foamed does not change, and, accordingly, the foam retains its consistency and quality.

Release 11 contains a tube for transporting foam. The specified tube is preferably polymeric, for example a polymeric tube containing polypropylene or polyethylene. Preferably, the outlet 11 is provided with a porous material 13, preferably located across the outlet 11. When the mixture of liquid 3 and air 4 passes through the porous material 13, the mixture turns into foam.

Preferably, the outlet 11 can be provided with several porous materials 13, for example a first porous material 13 'and a second porous material 13. The first porous material comprises, for example, a fabric or metal or polymer plate with holes or perforations having a pore size of 40-1000 μm, for example 200 microns. The second porous material 13 contains,

- 5 035904 for example, a cloth or metal or polymer plate with holes or perforations having a pore size of 20-1000 μm. When the mixture of liquid 3 and air 4 is discharged from the mixing chamber through outlet 11, the mixture first passes through the first porous material 13 'and then through the second porous material 13.

The outlet 11 is preferably also provided with a nozzle 14, for example a tapered nozzle, which allows the foam to be jetted onto a predetermined surface.

In preferred embodiments, the air chamber 6 is provided with an air valve 15, such as a check valve, allowing air from outside the container 2 to flow into the air chamber 2. The valve 15 assists in drawing air into the container and quickly retracts for later use.

When the container 2 is compressed by hand, air 4 is drawn from the container 2 into the air chamber 6 through the air tube 8 and then passes from the air chamber 6 to the mixing chamber 7 through the second inlet 10.

As a result of the compression of the container 2 simultaneously with the suction of air 4, the liquid 3 is sucked from the container 2 into the mixing chamber 7 through the first inlet 9. In the mixing chamber 7, the air 4 and the liquid 3 are mixed, and the air-liquid mixture is discharged through the outlet 11.

Claims (11)

CLAIM 1. A foam dispenser (1) containing a container (2) of hand-deformable material; said container (2) has a head (5) containing an air chamber (6) and a mixing chamber (7) located in said air chamber (6), the air chamber (6) is provided with an air tube (8) passing into the container (2 ) for the flow of air (4) from the container (2) into the air chamber (6), the mixing chamber (7) is equipped with at least one first inlet (9) for the flow of liquid (3) from the container (2) into the mixing chamber (7 ), at least one second inlet (10) for supplying air (4) from the air chamber (6) to the mixing chamber (7) and at least one outlet (11), which contains a tube (12) for transporting foam, in which is installed at least one porous material (13) located across this tube (12), while at least one first inlet (9) contains a tube connecting the container (2) with the mixing chamber (7) and provided with an extension extending concentric to the mixing chamber (7). 2. A dispenser (1) according to claim 1, wherein the second inlet (10) comprises a tube connecting the air chamber (6) to the mixing chamber (7). 3. A dispenser (1) according to any one of claims 1 or 2, in which the second inlet (10) is formed by one or more slots for the flow of air (4) from the air chamber (6) into the mixing chamber (7). 4. A dispenser (1) according to any one of claims 1 to 3, wherein the second inlet is defined by one or more slots located between the first inlet and the mixing chamber. 5. A dispenser (1) according to any one of claims 1 to 4, in which a first porous material (13 ') and a second porous material (13) are installed in the tube (12) for transporting foam, and the porosity of the first porous material (13') greater than the porosity of the second porous material (13), or the size of the pores or perforations in the first porous material (13 ') is greater than the size of the pores or perforations in the second porous material (13). 6. Dispenser (1) according to any one of claims 1 to 5, in which the foam conveying tube (12) is provided with a nozzle (14) for directing the foam to a predetermined surface. 7. A dispenser (1) according to any one of claims 1 to 6, in which the air chamber (6) comprises at least one check valve (15) for supplying air (4) from the outside of the container (2) into the air chamber (2 ). 8. A dispenser (1) according to any one of claims 1 to 7, which is a manual foam dispenser. 9. Dispenser (1) according to any one of claims 1 to 8, intended for use in an inverted position. 10. A method of applying foam to a predetermined surface, comprising the steps of taking a foam dispenser (1) according to any one of claims 1-9; compress the container (2) of the foam dispenser (1) to ensure the suction of air (4) from the container (2) into the air chamber (6) through the air tube (8) and then from the air chamber (6) into the mixing chamber (7) through the second inlet (10) and for sucking liquid (3) from the container (2) into the mixing chamber (7) through the first inlet (9); release of foam from the mixing chamber to a given surface through at least one outlet (11). 11. The method of claim 10, wherein the foam is applied to a predetermined surface from a distance.