The present invention relates to a dispensing device according to the preamble of claim 1 as well as to the use of a dispensing device according to the preamble of claim 24.
In the present invention, the term “dispensing device” is to be particularly understood as a dispensing head which, preferably, is or can be mounted particularly on a container or the delivery valve thereof or on a hand-operated pump. Particularly, this can also be a pressurized container, a dispensing pump, or the like. The dispensing device is used for the non-spraying delivery or dispensing of a preferably cosmetic liquid.
The term “cosmetic liquid” is to be understood, in a narrower sense, as cosmetics, hair spray, hair lacquer, a deodorant, a foam, particularly shaving foam, a gel, a color spray, a sun protection or skin care agent or the like. Preferably, however, in a broader sense, other body care products, cleaning products or the like, and even suspensions and fluids, particularly those with gas phases, are included as well. Moreover, other liquids, for example air improvers and particularly technical liquids and fluids as well such as rust removers and the like, can as be used. Nonetheless, for the sake of simplicity and due to the emphasized use, there is often only mention of cosmetic liquid in the following.
In today's dispensing devices for the dispensing of, particularly, foaming or foamed liquids such as shaving foam, or in dispensing pumps, there is often the problem that the liquids come out after the actual dispensing is finished, in particular foaming or dripping out afterwards. This problem is particularly blatant in shaving foam or the like but also occurs in non-foamed or non-foaming liquids and can lead, in particular, to undesired contaminations of the dispensing devices.
It is the object of the present invention to propose a dispensing device and a use which prevent or minimize a subsequent escape of liquid, particularly a subsequent foaming.
The above object is achieved by a dispensing device according to claim 1 or a use according to claim 24. Advantageous modifications are the object of the subclaims.
One aspect of the present invention consists in that an outlet channel has an outlet opening which can be sealed by the outlet valve and opens to the outside or is arranged downstream, which is to say on the outlet side. The outlet valve is therefore arranged downstream or on the outlet side. In this manner, liquid can be prevented from coming out afterwards, i.e. after the closing of the dispensing device. Particularly, a subsequent foaming that occurs in a particularly pronounced manner in the case of shaving foam or the like can be prevented.
The dispensing device is used for a non-spraying dispensing of the liquid. Particularly, therefore, no atomization or spraying occurs, but rather preferably a relatively slow dispensing at an at least relatively slow dispensing speed. Therefore, the liquid is particularly not delivered as a stream.
The liquid is especially preferably foamed up or is designed to be self-foaming. Especially preferably, it is shaving foam or the like. However, the liquid to be delivered or the delivered liquid can also have a relatively high viscosity and/or even be delivered in paste-like form.
Another aspect of the present invention consists in that the outlet valve has a valve body which can be moved in a manner dependent on the corresponding liquid pressure so that the outlet valve opens upon overshooting of a minimum pressure. In this manner, the dispensing of liquid always only occurs when dispensing is in fact desired, which is to say when the corresponding liquid pressure is relatively high. At the same time, undesired dispensing of liquid can be prevented in this manner.
In a liquid which foams up, for example, upon contact with the air, the minimum pressure is preferably higher than the foaming pressure and/or the liquid is locked in an air-tight fashion in the outlet channel in order to prevent the undesired subsequent foaming from the outlet or through the outlet opening.
Further advantages, features, characteristics and aspects of the present invention follow from the claims and the following description of preferred embodiments on the basis of the drawing.
In the figures, which are not to scale and only schematic, the same reference symbols are used for the same or similar parts, with corresponding or comparable characteristics and advantages being achieved even if a repeated description has been omitted.
Particularly, the dispensing device 1 is designed for the non-spraying dispensing of the liquid 2. Particularly, a delivery occurs of the liquid 2 as a foam 3, preferably as a shaving foam or the like, as indicated schematically in
However, in principle, the liquid 2 can also be dispensed in the non-foamed state and, particularly, can also be non-foaming. Particularly, a lotion can also be output as the liquid 2. Moreover, it is also possible for the liquid to foam up only a slight amount, so that the foaming only enlarges the volume somewhat, for example, but a liquid or pasty consistency is essentially maintained during dispensing.
The dispensing device is preferably provided with or connected to a reservoir 4 for the liquid 2 to be delivered. The reservoir 4 can thus form part of the dispensing device 1 or can be connected to same.
In the first embodiment, the reservoir 4 is embodied as a preferably rigid container, preferably as a pressurized container.
The liquid 2 in the reservoir 4 can either be placed under pressure or is under pressure. Particularly, the container or the liquid 2 contains a suitable propellant, preferably a volatile and/or flammable propellant, compressed gas and/or carbon dioxide.
In the first embodiment, the container is particularly oblong and/or cylindrical and/or rigid—especially preferably in the manner of a metallic can—for the liquid 2 and especially preferably has a dispensing valve 5 on the face side to which the dispensing device 1 or the dispensing head formed thereby is connected.
The dispensing device 1 has an outlet 6 and an associated outlet valve 7. The outlet channel 6 has an outlet opening 8 which preferably opens to the outside or is arranged downstream. The term “opens to the outside” means, in particular, that there is no adjacent nozzle [and] no additional channel or the like. Rather, after emerging from the outlet opening 8, the liquid 2 can be preferably directly removed or used by the user (not shown).
The outlet valve 7 is preferably associated with the outlet opening 8, so that it can be sealed by the outlet valve 7.
The outlet valve 7 preferably has a valve body 9 which can be moved in a manner dependent on the corresponding liquid pressure, so that the outlet valve 7 opens upon overshooting of a minimum pressure, preferably exclusively as a result of the liquid pressure.
Especially preferably, this minimum pressure is higher than the foaming pressure of the self-foaming liquid 2. By contrast, the delivery pressure (with opened dispensing valve 5) and hence the imminent liquid pressure is then in turn higher than the minimum pressure, so that the outlet valve 7 then opens for the desired dispensing of liquid and generation or delivery of the foam 3.
In the first embodiment, the opening of the dispensing valve 5 preferably occurs by pressing down on the dispensing device 1 or the dispensing head formed thereby. The dispensing valve 5 then closes again automatically upon release. However, the dispensing valve 5 can also be a dosing valve or the like, for example.
The valve body 9 is preferably substantially cylindrical, as indicated particularly in
In the depicted example, the dispensing device 1 or the outlet channel 6 preferably has a ring channel 13 enclosing the valve body 9 to which ring channel 13 the outlet channel section 12, which is tapered or reduced in cross-section, connects with the outlet opening 8.
The valve body 9 is preferably composed of an elastic material, especially preferably an elastomer or polymer. In the depicted example, the valve body 9 is injection molded.
In the depicted example, the valve body 9 is preferably held in a preferably axially moveable manner by an elastically deformable, particularly annular retention section 14.
Especially preferably, the valve body 9 is embodied in a single piece with the retention section 14 or formed thereon.
The valve body 9 is preferably held by the retention section 14 and/or a mounting section 15. In the depicted example, the mounting section 15 is adjacent to the retention section 14, which is preferably reduced in thickness, and/or encloses same. Especially preferably, the mounting section 15 is solidly mounted on the dispensing device 1, particularly with a component 16, such as an upper part, of the dispensing device 1. Especially preferably, the mounting section 15 is injection molded or formed onto the dispensing device 1 or its component 16. Especially preferably, so-called “bi-injection” is performed, which is to say an injection of another material in the same injection mold in which a first material is molded.
In the depicted example, the mounting section 15, the retention section 14 and the valve body 9 are particularly embodied in a single piece and/or manufactured from the same, preferably elastic material, particularly plastic, especially preferably by means of so-called “bi-injection.” However, there are other constructive and/or technical manufacturing solutions here as well.
In the depicted example, the dispensing device 1 has a lower part 17 which is or can be connected with the reservoir 4 or dispensing valve 5 and/or which forms the outlet channel 6 (optionally together with the component 16 or mounting section 15), the outlet opening 8 and/or the valve seat 11. In the depicted example, the component 16 forming an upper part can be or is connected with the lower part 17 such that the outlet channel 6 is covered or sealed off particularly tightly—preferably in a gas- or air-tight manner. Together with the outlet valve 7, which preferably closes in an air-tight manner, this offers the advantage that after the first use of the dispensing device 1, liquid 2 remaining in the outlet channel 6 is not subjected to the effect of air or other external influences or preferably at least only to a negligible extent—even in the case of extended storage or non-use of the dispensing device 1. Particularly, in this manner, an automatically foaming liquid 2 such as that commonly used for shaving foam can be prevented from foaming up in the outlet channel 6 and exiting or gushing out in an undesired manner from the dispensing device 1, particularly over an extended period of time.
To be used, the dispensing device 1 or the dispensing head preferably formed thereby is pressed down or otherwise actuated—preferably directly and/or manually—so that the dispensing valve 5 opens. The preferably pressurized liquid 2 in the reservoir or container 4 can then flow into the outlet channel 6 via a riser tube 18 and the opened dispensing valve 5. As a result of the liquid pressure or dispensing pressure then prevailing or present in the outlet channel 6, the outlet valve 7 opens. In the first embodiment, this occurs as a result of the valve body 9 moving out of the outlet opening 8 or outwardly, as a result of which the outlet opening 8 is elastically deformed. The liquid 2 is then able to escape through the opened outlet valve 7 or the outlet opening 8 toward the outside or into the open and especially preferably foam up and form the foam 3.
The dispensing of liquid ends when the liquid pressure or the dispensing pressure prevailing in the outlet channel 6 falls again below the minimum pressure, so that the outlet valve 7 closes. This is the case when the dispensing valve 5 closes again—particularly through the releasing or the automatic return to position of the dispensing head. The closed or closing outlet valve 7 then prevents the liquid 2 still located in the outlet channel 6 from subsequently coming or foaming out of the outlet opening 8 in an undesired manner.
In the depicted example, the closing of the outlet valve 7 preferably occurs exclusively as a result of elastic restorative forces of the retention section 14. In addition or alternatively, a return or closing spring (not shown) can also be attached to the valve body 9 in order to close the outlet valve 7.
To promote the closing of the outlet valve 7, a certain pressure compensation can be provided. In the depicted example, the liquid pressure present in the ring channel 13 acts on the retention section 14 in the closing direction. The pressure compensation, the restorative forces and the closing behavior of the outlet valve 7 depend particularly on the surface ratios (the surface of the retention section 14 to the cross-section of the valve body 9 in the area of attachment to the valve seat 11) and on the size and characteristic of the retention section 14.
A special advantage of the proposed solution is that, besides preventing the subsequent emergence of liquid 2, particularly subsequent foaming, very simple cleaning is made possible for the user as well, since the outlet valve 7 preferably seals the outlet opening 8 directly, so that a clean or easy-to-clean seal or liquid outlet is formed in the closed state.
In the depicted example, the delivery of liquid occurs substantially counter to the direction of depression or direction of opening of the dispensing valve 5 and/or at least substantially downward or in the longitudinal direction or axial direction of the especially preferably substantially cylindrical reservoir or container 4. In principle, however, the delivery direction can occur in any direction, particularly even substantially horizontally and/or laterally or radially.
Another aspect of the illustrative example is that the valve body 9 can preferably be moved in or opposite from the delivery direction of the liquid 2 and/or in the outlet opening 8.
Moreover, it should be pointed out that, preferably, no further device shaping the dispensing such as a nozzle, a channel or the like is connected to the outlet opening 8. However, this does not rule out that a saucer-like extension, a recess in the housing or the like into which the outlet opening 8 leads can be provided.
It should be noted that, in principle, instead of the dispensing of the liquid 2 depicted for the sake of example as foam 3, any other delivery of the liquid 2 is possible—if necessary even as a paste-like mass, as a gel, as drops or even as a stream or spray mist.
In the following, another embodiment is explained in further detail on the basis of
In the second embodiment, the liquid 2 does not foam or is not foamed up.
In the second embodiment, the dispensing device 1 is provided with a preferably manually operable pump 19, particularly a dosing or dispensing pump, or is connected thereto. By pressing down on the dispensing head formed by the dispensing device 1, the liquid 2 is conveyed into the dosing channel and a dispensing pressure is generated which is such that the outlet valve 7 opens and the liquid 2 is dispensed via the outlet opening 8. Upon release of the dispensing head, a preferably automatic return to position occurs, with the dispensing valve 5 of the pump 19 closing and an inlet valve 20 opening during the restorative movement in order to suck new liquid 2 from the reservoir 5 into a pump chamber 21 of the pump 19.
In the second embodiment, the outlet valve 7 particularly prevents an undesired subsequent dripping of liquid 2 from the outlet channel 6 or out of the outlet opening 8.
In the second embodiment, the outlet valve 7 is embodied such that, upon opening, the valve body 9 retreats into the outlet opening 8 or into the upstream-connected section 12 of the outlet channel 6 as indicated in
The valve body 9 ends—particularly when the outlet valve 7 is closed—at least substantially at the level of the outlet opening 8. This applies particularly to the first embodiment as well.
Alternatively, the valve body 9 can also protrude over the outlet opening 8 toward the outside; this applies particularly in the first embodiment, especially preferably when the outlet valve 7 is open but, if necessary, also when the outlet valve 7 is closed.
Individual features and aspects of the various embodiments can be combined with each other as desired or used in other dispensing devices or the like.
Number | Date | Country | Kind |
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10 2006 042 482.4 | Sep 2006 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP07/07694 | 9/4/2007 | WO | 00 | 6/11/2009 |