Patent Grant
9878339
The invention relates to an applicator head for discharging a preferably pasty medium from a container, comprising a metering chamber, a first housing part bounding the metering chamber in sections, with an actuating element, and a second housing part, wherein the first housing part and the second housing part form a constructional unit which is connectable to a container storing the medium and closes the container.
Viscous or creamy liquids, suspensions and/or fluids, water-in-oil emulsions (W/O emulsions), oil-in-water emulsions (O/W emulsions), oleo gels, hydro gels or the like are referred to as pasty media within the context of the application. In particular, cosmetic media, such as skincare agents, lotions, hair gels, wash gels or the like, are involved here.
Media of this type are preferably stored in boxes or pots which permit easy and complete removal with a finger or spatula. In conjunction with the application, containers which have a small overall height in comparison to the diameter thereof are designated a pot or box.
However, open pots are not suitable for volatile components, water-containing preparations or products with a low concentration of preservatives. In particular, the intention is to store high-quality media in the pot preferably without contact with the atmosphere. It is therefore known to provide an applicator head on the pot, by means of which removal portion by portion without contact with the stored product is possible.
An applicator head of this type is known, for example, from WO 2007/131790 A2, wherein the applicator head is screwable to the container or is connectable thereto by means of latches. Furthermore, a connection by means of adhesive bonding or welding is known from the document.
A box which is designed as a dispenser for pasty products is furthermore known from EP 0 363 307 A1, wherein the box has a cover which is preferably connected nondetachably to the box wall or is formed in one part therewith and which has an outlet opening and closes the box in the direction of the applicator head.
DE 37 38 548 A1 discloses a constructional unit which is latchable to a container, comprising an insert, a bellows which is connected to the insert in order to form a metering chamber, and an actuating handle acting on the bellows.
It is an object of the invention to provide an applicator head by means of which a container is closable at least substantially in an air-tight manner, wherein a connection can be produced cost-effectively and in as automated a manner as possible.
According to a first aspect of the invention, an applicator head for discharging a medium, preferably a pasty medium, from a container is provided, comprising a metering chamber, a first housing part bounding the metering chamber in sections, with an actuating element, and a second housing part, wherein the first housing part and the second housing part form a constructional unit which is connectable to a container storing the medium and closes the container, wherein, by actuation of the actuating element, the medium can be conveyed out of the container into the metering chamber and/or can be discharged from the metering chamber, and wherein a sealing element composed of a plastically or elastically deformable plastic is provided, said sealing element being arranged in such a manner that the container is closable in a sealing manner by means of the constructional unit, and said sealing element being manufactured as a common component with at least one further element of the applicator head.
By means of the integral design of the sealing element with at least one further element of the applicator head, it is ensured that the sealing element is fitted without error during installation. The sealing element is composed of an elastically and/or plastically deformable material which fits closely against a corresponding geometry on the container.
The applicator head is connected to the container, which is preferably designed as a box or pot. A metered application of the medium stored in the container is possible by means of the applicator head.
For the connection to the container, the first housing part and/or the second housing part have/has a suitable connecting structure, in particular latching elements for a snap connection.
In a refinement, the second housing part and the sealing element are manufactured as an integral injection molded part composed of at least two plastics of different properties, wherein the housing part is composed of the first of the two plastics, and the sealing element is composed of the second of the two plastics.
Alternatively or additionally, in another refinement, an inlet valve which is assigned to the metering chamber is provided, wherein, by resetting the actuating element, a negative pressure can be generated in the metering chamber and, owing to a negative pressure in the metering chamber, a medium can be conveyed via the inlet valve into the metering chamber, and wherein the sealing element and the inlet valve are manufactured as a common component composed of an elastically deformable plastic.
In other words, it is alternatively or additionally provided that the sealing element and the inlet valve are designed as a common component. It is in particular useful here that, in advantageous refinements, given an appropriate configuration of the inlet valve and the sealing element, plastics having the same properties are advantageous; in particular, elastic plastics, such as thermoplastic elastomers (TPE), are suitable here.
In advantageous refinements, it is provided that the second housing part, the sealing element and the inlet valve are manufactured as an integral injection molded part composed of at least two plastics of different properties, wherein the housing part is composed of the first of the two plastics, and the sealing element and the inlet valve are composed of the second of the two plastics. The sealing element and the inlet valve are preferably composed of TPE, as mentioned above. The second housing part is preferably composed of a stiffer plastic, i.e. a plastic having a higher modulus of elasticity than TPE. In particular if a connecting structure designed as a latching structure is provided on the second housing part for the connection to the container, greater dimensional stability is required for the second housing part. In advantageous refinements, the second housing part is composed of a harder plastic, in particular of polypropylene or HDPE (high density polyethylene).
By means of the integral design of the sealing element with the housing part and/or the inlet valve, it is possible to provide an applicator head which has a small number of parts to be fitted individually and can be attached in a sealing manner to a container.
The metering chamber is preferably furthermore assigned an outlet valve. In one refinement, a negative pressure for sucking the medium into the metering chamber can be generated by means of the actuating element, wherein the medium is discharged from the metering chamber directly after an actuating force ceases. It is preferably provided that the medium can be discharged from the metering chamber via the outlet valve by actuation of the actuating element, a negative pressure can be generated in the metering chamber by resetting the actuating element and, owing to a negative pressure in the metering chamber, a medium can be conveyed via the inlet valve into the metering chamber. In other words, a peristaltic pumping system is provided, which is distinguished by the small number of components and the reliable handlability.
In an advantageous refinement, the inlet valve and/or the outlet valve are/is designed as a slot valve. In the context of the invention, a slit membrane element which is arranged over an opening and, when an opening pressure or a negative pressure is applied, opens in a discharge direction, but closes the opening counter to the discharge direction, is referred to as a slot valve. Elastic plastics, such as TPE, are suitable for slot valves of this type.
In one refinement, a piston or the like which is adjustable counter to a force of a resetting spring is provided as the actuating element. In an advantageous refinement, the actuating element is designed as an elastic actuating element which is actuable by reverse deformation.
It is provided here, in one refinement, that the actuating element and the outlet valve assigned to the metering chamber are manufactured as a common component.
In advantageous refinements, the first housing part and the actuating element and/or the first housing part and the outlet valve are manufactured as an integral component, in particular as an integral injection molded part composed of at least two plastics of different properties, wherein the first housing part is composed of the first of the two plastics, and the actuating element and/or the outlet valve are/is composed of the second of the two plastics. The housing part here is preferably manufactured from a plastic which imparts sufficient rigidity to the component and has a comparatively high modulus of elasticity. Suitable plastics are, for example, polypropylene or HDPE. The actuating element and the outlet valve are preferably composed of a common, second plastic. A plastic which permits reversible deformation for opening the outlet valve and/or resetting of the actuating element when an actuating force ceases is provided here. In particular, the actuating element and/or the outlet valve are/is preferably composed of TPE.
In advantageous refinements, the applicator head therefore comprises only two components. A particularly simple and preferably automated installation is thereby possible.
In advantageous refinements, it is provided that the first housing part has a dispensing surface on an outer wall, with respect to which the outlet valve opens. A metered medium conveyed out of the metering chamber is discharged onto the dispensing surface and can be removed by the user from the dispensing surface with the finger, with a spatula or with a pad of cotton wool. It is possible here for the user to remove the metered medium portion by portion, wherein a feel is provided similar to removal with the finger directly from a pot. At the same time, it is prevented that the medium stored in the container dries out or decomposes because of contact with the atmosphere.
In an advantageous refinement, a dispensing direction of the medium from the metering chamber encloses an angle with the vertical and horizontal in the use state. In other words, the medium is dispensed at an angle, wherein the outlet valve is preferably provided on an edge of the dispensing surface. By means of the oblique dispensing of the medium, it is prevented that the medium collects on the outlet valve. At the same time, safe dispensing of the medium onto the dispensing surface is possible.
In one refinement, an intermediate element which bounds the metering chamber in sections is arranged between the first housing part and the second housing part. Shape and size of the intermediate element are adapted here to a desired metering volume. In one refinement, the intermediate element is connected, in particular permanently connected, for example adhesively bonded or welded, to the first housing part, wherein the metering chamber is formed between the first housing part and the second housing part.
In an alternative refinement, it is provided that, in order to form the metering chamber, a volume of an intermediate space between the first housing part is bounded by a web, which is arranged on the first housing part and/or on the second housing part, and a sealing surface interacting with the web. As a result, it is possible to provide a metering chamber with a desired metering volume without additional elements, wherein the applicator head can be placed onto a container having a large diameter—in relation to the overall height thereof. In advantageous refinements, in the case of an applicator head of this type, the second housing part and/or an inlet valve of the metering chamber are/is also designed as a common component with a sealing element, for sealing the applicator head in relation to the container.
According to a further aspect, a dispenser is provided for a preferably pasty medium, comprising a container for storing a medium and an applicator head, which is connected to the container. The container is preferably designed as a pot or box having a small overall height in comparison to the diameter thereof. In advantageous refinements, for example, an overall height of approx. 35 mm to approx. 55 mm, in particular approx. 50 mm, and a diameter of approx. 55 mm to approx. 100 mm, in particular approx. 70 mm, are provided. In advantageous refinements, the container has a circular area. The container is in multiple parts in one refinement, comprising a stable outer container and a bag which is arranged therein, stores the medium to be dispensed and collapses when the medium is removed. In other refinements, a dragging piston is provided in the container. In one refinement, the container is likewise in two parts, comprising an inner container, which directly stores the medium, and an outer wall. A two-part configuration is of advantage in particular in the sphere of high-quality cosmetics, wherein an outer wall can be designed according to aesthetic aspects, while an inner wall can be designed according to functional aspects. In one refinement, the outer container and/or the outer wall are of conical design at least in sections.
Further aspects and advantages of the invention emerge from the claims and from the descriptions below of preferred exemplary embodiments of the invention, which are explained with reference to the figures, in which:
The container 2 is designed as a pot or box and is suitable for receiving and storing a pasty medium, for example a cream. In the exemplary embodiment illustrated, the container 2 is in two parts, comprising an inner container 20, in which the medium is accommodated, and an outer container 21. The inner container 20 contains a dragging piston 22 which is moved in the direction of the applicator head 3 on account of a negative pressure arising because of consumption of the medium, in order thereby to ensure pressure equalization in the container 2.
The applicator head 3 comprises a first housing part 30 and a second housing part 31, which form a constructional unit by means of which the container 2 is closable. For this purpose, in the exemplary embodiment illustrated in
A sealing element 40 is provided between the container 2 and the applicator head 3, by means of which sealing element the constructional unit, i.e. the applicator head 3, is connectable in a sealing manner to the container 2 such that the container 2 is closable in a sealing manner by means of the applicator head 3. The sealing element 40 and the second housing part 31 are manufactured as an integral injection molded part composed of two plastics of different properties, wherein the sealing element 40 is manufactured from a plastic having greater plastic and/or elastic deformability than the second housing part 31.
The first housing part 30 and the second housing part 31 bound a metering chamber 5, wherein the metering chamber 5 is assigned an inlet valve 42 and an outlet valve 62. An actuating element 60 is provided on the first housing part 30. In the exemplary embodiments illustrated, the actuating element 60 is designed as an elastic actuating element which is actuable by reverse deformation. This creates a peristaltic pumping system, wherein a medium can be discharged from the metering chamber 5 via the outlet valve 62 by actuation of the actuating element 60 and an associated reduction in a volume of the metering chamber 5. When an actuating force acting on the actuating element 60 ceases, the actuating element 60 is returned into the non-deflected state illustrated, wherein a negative pressure is produced in the metering chamber 5 by resetting the actuating element 60. Owing to the negative pressure, the medium is conveyed out of the container 2 into the metering chamber 5 by the inlet valve 42.
In the exemplary embodiment illustrated, the inlet valve 42 and the outlet valve 62 are each designed as slot valves. The inlet valve 42 and the sealing element 40 are manufactured as a common component 4 and jointly in one part with the second housing part 31. The outlet valve 62 and the elastic actuating element 60 are likewise manufactured as a common component 6 and preferably as an integral injection molded part together with the first housing part 30. As a result, an applicator head is created with a very small number of components.
In the exemplary embodiment illustrated, a dispensing surface 301, toward which the outlet valve 62 opens, is provided on the first housing part 30. In the exemplary embodiment illustrated, the actuating element 60 and the dispensing surface 301 are dimensioned in such a manner that they both take up approximately half of a surface of the first housing part 30. However, these dimensions are merely by way of example. Suitable dimensions can be adapted to aesthetic requirements, a desired metering volume or the like. In the exemplary embodiment illustrated, the dispensing surface 301 is designed as a trough-shaped depression on an outer wall of the first housing part 30. This provides a good feel for the user for removing the medium. The outlet valve 62 is arranged on an edge of the dispensing surface 301. The dispensing direction A is directed obliquely upward in order to prevent the medium from accumulating at the outlet valve 62.
In order to reduce a dead volume of the metering chamber, in the exemplary embodiment illustrated a volume of an intermediate space between the first housing part 30 and the second housing part 31 is bounded by a web 310, which is arranged on the second housing part 31. The web 310 protrudes from the second housing part 31 in the direction of the first housing part 30 and interacts with a sealing surface 64. In the exemplary embodiment illustrated, the sealing surface 64 is realized as a portion of a common component 6 with the actuating element 60 and the outlet valve 62. Additional components are thereby dispensed with.
In the exemplary embodiment illustrated, the outlet valve 62, the actuating element 60 and the sealing surface 64 are designed as a common component 6. A closed surface, which faces the medium, is also provided here on the metering chamber 5, and therefore gaps or the like in which a medium may accumulate are avoided. At the same time, the number of components is kept small.
The first component 30 and the second component 31 are interconnected to each other here indirectly by the coupling to the container 2.
The first component 130 and the second component 131 are latched to each other here in order to form the constructional unit, wherein the first component 130 is inserted into a receptacle, which is formed by webs of the latching groove, in the second component 131, with an intermediate space being formed. Also in the embodiment according to
In the refinement illustrated, the intermediate part 9 is fixedly connected, in particular welded, to the first component 230 at a welding point T. The first component and the second component are likewise connected to each other, in particular latched to each other, in order to form the constructional unit. In the exemplary embodiment illustrated, it is provided that the first component 230 is placed in the manner of a cover onto an encircling edge 312 and latched at the edge 312 to the second component 231.
| Number | Date | Country | Kind |
|---|---|---|---|
| 10 2013 214 231 | Jul 2013 | DE | national |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/EP2014/063116 | 6/23/2014 | WO | 00 |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO2015/007458 | 1/22/2015 | WO | A |
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| Number | Date | Country |
|---|---|---|
| 102099262 | Jun 2011 | CN |
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| Entry |
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| International Search Report with English translation issued in Application No. PCT/EP2014/063116, dated Aug. 21, 2014 (7 pages). |
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| Number | Date | Country | |
|---|---|---|---|
| 20160158779 A1 | Jun 2016 | US |
