This application is a National Phase Application and claims the priority of International Application Number PCT/GB2007/050570 filed on Sep. 21, 2007.
1. Field of the Invention
The present invention relates to a dispenser mechanism for foamed products and particularly, but not exclusively, relates to dispenser mechanisms for wall mounted soap dispensers.
2. Description of the Related Art
Wall mounted soap dispensers traditionally dispense a liquid soap. However, with liquid soap it is necessary for the viscosity to be high enough that it can be applied to the hands without running off, enabling the soap to cling to the hands while being conveyed from under the dispenser to over the sink. Two problems associated with the high viscosity of liquid soaps is that it is necessary to dispense a relatively large quantity to enable the user to easily spread the soap over the surface of his hands and also this high viscosity tends to result in a large quantity of the soap remaining in the outlet of the dispenser, which subsequently drips onto the surface or the floor below.
In an attempt to address the above problems, soap dispensers have been developed which produce foam by mixing air with the liquid soap as it is dispensed. The action of operating the dispenser causes a soap product to be sprayed into a jet of air to produce the foam. The advantage of this is that a large quantity of foam can be produced from a relatively small volume of liquid soap, reducing the amount of liquid a user requires to satisfactorily apply the soap over his hands. This reduces the cost of product required and also the frequency with which the dispenser needs to be refilled. Thus foam dispensers overcome one of the problems identified above associated with traditional liquid soap dispensers. However many foam dispensers still tend to drip as foam accumulated in the nozzles reverts to a liquid causing the nozzle to drip.
It is desirable that the dispenser mechanism is compact and comprises a minimum of components so that it may be relatively inexpensive and therefore practical to produce a dispenser mechanism which can be sold as part of the refill pack for a dispenser, thus the parts likely to fail are part of the disposable refill and can thus, in the event of a failure, can simply be replaced by replacing the refill pack.
It is an object of the present invention to provide an improved dispenser mechanism for foam products.
According to a first aspect of the present invention a dispenser mechanism for a foamed product comprises: a liquid chamber arranged to receive a liquid product; an air chamber arranged to receive air; an actuator mechanism; and a foaming chamber, the actuator mechanism comprising a shaft, displacement of which simultaneously reduces the volume of both the liquid and air chambers and forces the air and liquid within the respective chambers to enter the foaming chamber, characterised in that the foaming chamber is formed integrally within the shaft and in that a diffuser is located in the shaft through which the liquid enters the foaming chamber, the diffuser defining a plurality of distributed channels, each channel having a predetermined cross section such that in use the liquid is forced through the channels and enters the foaming chamber as a plurality of jets.
The invention permits efficient mixing of the liquid and air in a very compact arrangement.
Preferably, the actuator mechanism comprises two pistons on a common shaft, each piston acting on respective one of the liquid and air chambers, for in this way it is possible to have a dispenser mechanism which employs only one single moving part, which reduces costs associated with manufacturer and thus is particularly beneficial if the dispensing mechanism is to be part of a disposable refill pack.
Advantageously, a first chamber is in the form of a cylinder in to which a first one of the pistons extends to pressurise the contents of the chamber and wherein the foaming chamber is formed in the shaft, as this can provide a very compact arrangement.
Preferably, the actuator mechanism is biased to a rest position where both pistons are withdrawn to their maximum extent from their respective chambers. When in the rest position, the liquid chamber can be sealed, preventing liquid seeping through the dispenser mechanism.
It is particularly advantageous if the action of the actuator mechanism returning to its rest position sucks air into the air chamber via an outlet of the dispenser mechanism, causing any foam remaining in the outlet to be sucked back into the air chamber and thus preventing the foam from reverting to a liquid in the outlet and dripping from the outlet.
Advantageously, the liquid chamber has a one way valve to permit liquid to enter the chamber when the piston is withdrawn from the chamber, wherein the dispenser mechanism includes a transport cap arranged to prevent accidental operation of the actuator mechanism in transit, the transport cap being arranged to keep the actuator mechanism in a fully depressed position where the piston of the liquid chamber is in contact with the one way valve and maintains it in a closed position. This may be particularly advantageous where the dispensing mechanism is to be sold as part of a disposable refill pack for assembly as a complete unit within a wall mounted housing. This can ensure that pressures applied to the walls of the liquid container, which is normally a non-vented collapsible container, will not cause the liquid within the container to leak out via the dispenser mechanism.
The diffuser may have a plurality of recesses about its outer periphery, which recesses define with the inner wall of the shaft said plurality of channels. The recesses can then be formed in the moulding of an upper component of the shaft, on which the diffuser is preferably integrally formed. Alternatively the periphery of the diffuser may be smooth with ridges or recesses formed on the inner wall of the shaft, such when the diffuser is located in the shaft, the diffuser and inner wall of the shaft together define said plurality of distributed channels.
As an alternative to the above described embodiments of the diffuser, the diffuser may instead comprise a rigid disc with a plurality of apertures extending there through.
Preferably the shaft comprises an upper component and a lower component, each moulded as a single piece, wherein the upper component includes a first piston and the diffuser, the lower component includes a second piston and an outlet passage of the mechanism. The upper component of the shaft may further comprise a retaining disc integrally moulded with the first component, wherein an edge of the retaining disc and an inner wall of the shaft are arranged to engage with each other to lock the upper and lower components together. This enables the shaft to comprise only two components that together form the two pistons, the mixing chamber and the diffuser, with the retainer enabling the two components to be assembled simply by snapping them together.
A dispenser mechanism in accordance with the invention is particularly advantageous in manually operated applications, such as soap dispensers.
Preferably, the dispenser mechanism further comprises a user interface for receiving a single stroke actuation by a user for dispensing a predetermined quantity of product to the user and a linkage mechanism for transferring, on a full stroke of the dispenser mechanism, any displacement of the user interface to the dispensing mechanism, wherein the linkage mechanism permits the user interface to be operated to the full extent permitted by the interface and transmit only as much of the operation of the interface to be transmitted to the dispenser mechanism as is required to permit the dispenser mechanism to dispense the predetermined amount of product.
This mechanism is particularly advantageous for it can be arranged to ensure that any reasonable exertion on the user interface causes the dispenser mechanism to operate fully and thus provide a desired volume of product, while ensuring that any excessive pressure applied to the user interface does not damage the dispenser mechanism. It can also permit a single dispenser case to be used with a range of products and product volumes without modification, or to allow a common dispenser mechanism to be adjusted to provide different product volumes by adjusting the dispenser mechanism stroke length. It also prevents damage to the dispenser mechanism that occurs when the pump mechanism controls the actuation stroke of the dispenser interface.
Advantageously, the linkage mechanism comprises a resilient device between the interface and dispenser mechanism, properties of the resilient device being sufficient to fully activate the dispenser mechanism when the interface is sufficiently operated, but which absorbs any further movement of the interface to prevent damage to the dispenser mechanism.
The invention is particularly applicable to soap dispensers arranged to permit single handed one stroke operation.
One embodiment of the present invention will now be described, by way of example only, with reference to the figures, in which like numerals are used throughout to indicate like parts, and in which:
a is a corresponding cross-section to that of
b is an enlarged scale view of the section labelled ‘X’ of
c an enlarged scale section along the line A-A of
d an enlarged scale section along the line B-B of
e depicts an alternative embodiment of the invention;
a is a side elevation of the dispenser mechanism additionally illustrating a user interface for the dispenser mechanism described with reference to
b is a front sectional view of the dispenser of
a, 7b, 8a, 8b, 9a, 9b, 10a and 10b, correspond to those of
Referring to
The dispenser mechanism of
The dispenser mechanism has a shaft 6 comprising an upper component 6a and a lower component 6b, joined together such that in use there is no relative displacement between them. The upper component 6a defines a first piston 7 and the lower component 6b defines a second piston 8.
The first piston 7, together with the housing 5, defines a first chamber 9, with the second piston 8 defining with the housing 5 a second chamber 10.
In the top of the first chamber 9 there is an opening, in which opening there is located a non-return valve 11. When open, the non-return valve 11 permits liquid soap 3 to flow from the container 2 to the first chamber 9.
When the transport cap is in place, as shown in
Referring now to
As most clearly seen in
Referring again to
The lower disc like member 18a, of
In the embodiment shown in
As seen from
As illustrated by
a is a side elevation of a wall mounted liquid soap dispenser 31 having an actuator handle 37 and
The dispenser 31 has a main pillars 33 which are constrained and run in vertical bearing surfaces on the back plate 32. The pillars 33, located to either side of the dispenser, are attached to a main plate 34 as shown, with springs 35 acting between the main plate 33 and back plate 32 maintaining the main plate 34 in its lower position as shown.
Slots 36 in each of the main pillars 33 engage with pegs (not shown) of the actuator handle 37 of
A travelling plate 38 is attached by auxiliary pillars 39, which auxiliary pillars 39 pass through holes in the main plate 33, with springs 40 acting between a shoulder on the top of the auxiliary pillars 39 and the main plate 34 to retain the travelling plate in an upper position next to the main plate 34, as shown. The travelling plate 38 is also attached to the flange 13 on the shaft 6 of the dispensing mechanism 1, such that the shaft 6 moves with the travelling plate 38.
Referring now to
Referring to
The embodiment described above is given by way of example only and the scope of the invention is to be determined with reference to the appended claims.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/GB2007/050570 | 9/21/2007 | WO | 00 | 3/16/2010 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2009/037417 | 3/26/2009 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
4238056 | Tucker et al. | Dec 1980 | A |
4621749 | Kanfer | Nov 1986 | A |
5033657 | Whittington | Jul 1991 | A |
5165577 | Ophardt | Nov 1992 | A |
5265772 | Bartasevich et al. | Nov 1993 | A |
5373970 | Ophardt | Dec 1994 | A |
5431309 | Ophardt | Jul 1995 | A |
5445288 | Banks | Aug 1995 | A |
5465877 | Bell et al. | Nov 1995 | A |
5595324 | Brown et al. | Jan 1997 | A |
5779104 | Reidel | Jul 1998 | A |
5810204 | Devlin et al. | Sep 1998 | A |
5918771 | van der Heijden | Jul 1999 | A |
6131773 | Wade et al. | Oct 2000 | A |
6398079 | Garcia et al. | Jun 2002 | B1 |
6533145 | Lewis et al. | Mar 2003 | B2 |
6575335 | Lewis et al. | Jun 2003 | B2 |
6832701 | Schiller | Dec 2004 | B2 |
6877642 | Maddox et al. | Apr 2005 | B1 |
7066357 | Ciavarella et al. | Jun 2006 | B2 |
7086567 | Ciavarella et al. | Aug 2006 | B1 |
7147133 | Brouwer et al. | Dec 2006 | B2 |
7222752 | Ponton | May 2007 | B2 |
7225948 | Ophardt et al. | Jun 2007 | B2 |
7367477 | Ophardt et al. | May 2008 | B2 |
7798370 | Ciavarella et al. | Sep 2010 | B2 |
20020074355 | Lewis et al. | Jun 2002 | A1 |
20020074356 | Lewis et al. | Jun 2002 | A1 |
20030127470 | DeKoning et al. | Jul 2003 | A1 |
20040232168 | Ciavarella et al. | Nov 2004 | A1 |
20050006408 | Ganzeboom | Jan 2005 | A1 |
20050092771 | Ciavarella et al. | May 2005 | A1 |
20050133537 | Lewis et al. | Jun 2005 | A1 |
20050284887 | Lewis et al. | Dec 2005 | A1 |
20060175353 | Ophardt et al. | Aug 2006 | A1 |
20060249538 | Ophardt et al. | Nov 2006 | A1 |
Number | Date | Country |
---|---|---|
39 11 089 | Oct 1990 | DE |
0 275 836 | Jul 1988 | EP |
0 613 728 | Sep 1994 | EP |
1 433 533 | Jun 2004 | EP |
2 792 553 | Oct 2000 | FR |
818363 | Aug 1959 | GB |
1 447 011 | Aug 1976 | GB |
2 380 470 | Apr 2003 | GB |
9-503161 | Mar 1997 | JP |
09-187692 | Jul 1997 | JP |
9-193953 | Jul 1997 | JP |
WO 9949769 | Oct 1999 | WO |
WO 0078629 | Dec 2000 | WO |
WO 0181004 | Nov 2001 | WO |
WO 2005039371 | May 2005 | WO |
Number | Date | Country | |
---|---|---|---|
20100206909 A1 | Aug 2010 | US |