HK40083897A - Wall-mounted metering dispenser - Google Patents

Description

Wall-mounted metering dispenser

Technical Field

The invention relates to a wall-mounted metering dispenser for supplying and dispensing liquids, in particular laundry substances or care products for body care.

Background

Such wall-mounted metering dispensers thus comprise replaceable containers for liquids, which may be of low or high viscosity, and wall-mounted holders for mounting the wall-mounted metering dispensers on a building structure, usually a wall.

The building facility in which the wall-mounted metering dispenser is installed is preferably a building wall, such as a wall in a bathroom of a hotel or in a public health facility; but the construction equipment may also be a furniture part or a special stand or pedestal.

The container for the liquid may be secured to and removable from the wall mount for refilling or replacing the container. The container has a bottom region with a container bottom and a top region opposite the bottom region with an extraction opening, the wall-mounted holder has two spaced-apart fastening positions for the container, in which two fastening positions a first fastening position is provided with a positionally fixed holding element for the bottom region of the container, into which the container can be inserted or to which the bottom region can be attached in order to positively and/or non-positively hold the bottom region of the container in the first fastening position, and in which two fastening positions a second fastening position has a sleeve which can be detached from the wall-mounted holder or can be moved relative to the wall-mounted holder and can be fastened to the wall-mounted holder for fixedly holding and, if appropriate, for inserting into the top region of the container.

At least when the container is mounted in a wall-mounted stand, extraction means for metered extraction of liquid from the container are located at an extraction opening in the top region of the container. The extraction device is arranged on or at least partially integrated in a sleeve for fixedly holding the top region of the container.

Wall-mounted metering dispensers with a container for storing and supplying liquid and with an extraction device for extracting liquid from the container, for example in publicly accessible rooms in the corresponding rooms of the toilet or catering industry, for supplying liquid soap. Such metered dispensers are particularly preferred for use in hotels to provide liquid soap, shampoo and other care products, such as lotions or the like, on hand basins, in the area of bathtubs or in shower stalls. As the characteristic of the current type of wall-mounted metering dispenser is that it is possible to meter and hygienically extract the liquid product stored in said wall-mounted metering dispenser without leaks, while at the same time it is possible to store a certain quantity of liquid product, so as to prolong the duration of use, until a longer time interval, usually days, before the dispenser needs to be refilled or until the container has to be replaced as necessary.

Wall-mounted metering dispensers of the current type are generally configured so that the container fits into the wall-mounted holder upside down, that is, so that the extraction opening is directed downward. The extraction of the liquid is thus carried out partly by means of gravity; the user places his hand under the extraction device and the liquid falls downwards from the extraction device. This entails that the extraction device must be provided with a valve which directly or indirectly closes the top region of the container and which is opened by the user only for extracting the liquid.

Opening of the valve may be achieved by an operating mechanism, such as by a lever. However, since liquids with higher viscosities are typically provided in wall-mounted metered dispensers of the current type, gravity is generally insufficient to deliver the liquid within an acceptable time when the extraction valve is opened. It is therefore known to provide the extraction device with an extraction valve which opens when pressure is applied to the container, which is then designed to be yieldably deformable at least in regions for this purpose. Here, it is provided that the user applies pressure to the container indirectly, as described, for example, in DE 296 01 918 U1, or can also act directly on the container, as is known, for example, from DE 10 2009 024 769 B2 or DE 10 2010 024 081 A1.

The necessity of applying pressure to the container of the metered dispenser in order to deliver the desired amount of liquid stored in the container is not optimal in all circumstances. This is because the user must in any case use a certain force in order to be able to extract the liquid. This sometimes makes it difficult to meter accurately, and thus more liquid is typically extracted than desired.

The operation of such known wall-mounted metering dispensers is not perceived as intuitive in all cultural circles. Since both hands have to be used for simultaneous actions and have different functions in different positions, i.e. one hand of the user has to be placed under the extraction device in order to catch the liquid to be delivered, while the other hand of the user is responsible for delivering the liquid and operating the valve by squeezing the container in another position, i.e. on the container. It is always the case that the liquid to be dispensed is not caught, so that the liquid to be dispensed is lost and increased cleaning effort is incurred.

When the extraction device is arranged below the container and the liquid output is directed downwards, it is also difficult in principle for some users to predict where the liquid will be output when the container is pressed. This is because a user does not typically view the wall-mounted metered dispenser from below, so that the outlet opening is obscured from the user when using the wall-mounted metered dispenser.

Disclosure of Invention

Starting from the prior art, the object of the invention is to modify a wall-mounted metering dispenser of the type mentioned above in such a way that the extraction device is provided with an outlet opening which is visible to the user and in the region of which the user can perform an action in order to dispense liquid.

The invention uses a design of a wall-mounted metering dispenser for this purpose, which largely corresponds to the teaching of DE 10 2010 024 081 B1. This relates to a wall-mounted metering dispenser for supplying and dispensing liquids, comprising a container for the liquid and which can be exchanged, a wall-mounted holder for mounting the wall-mounted metering dispenser on a building installation, and a dispensing device for metered dispensing of the liquid from the container, in which wall-mounted metering dispenser the container has a bottom region with a container bottom and a top region, which is arranged opposite the bottom region and has a dispensing opening, wherein the wall-mounted holder has two fixing positions at a distance from one another for the container, of which two fixing positions a first fixing position is provided with a positionally fixed holding element for the bottom region of the container, into which holding element the container can be inserted or onto which the container bottom can be mounted in order to positively and/or non-positively hold the bottom region of the container in the first fixing position, and of which two fixing positions a second fixing position has a sleeve which is fixed on the wall-mounted holder and can be detached from the wall-mounted holder or moved relative to the wall-mounted holder for the purpose of positively and non-movably holding the bottom region of the container in the dispensing position, and of which the sleeve is arranged at least partially in the dispensing position or in the top region of the dispensing device.

This design of the wall-mounted metering dispenser makes it possible to insert the container between the fastening positions of the wall-mounted holder or into the fastening position of the wall-mounted holder and thereafter to fasten the sleeve of the second fastening position on the wall-mounted holder and to provide a special securing structure which can only be opened with a suitable release tool or wrench in order to prevent theft on the one hand and to prevent unauthorized manipulation of the container which is to be avoided for hygienic reasons on the other hand. Only trained and authorized personnel can release the sleeve from the fastening and detach it from the wall-mounted support or move it relative to the wall-mounted support, so that the container is also released at its bottom region from the holding element fixed in position there and can finally be removed or replaced.

According to the invention, in order to achieve the object defined, the wall-mounted metering dispenser is modified in such a way that the extraction device is configured as a metering pump which comprises a pump body which can be inserted into the extraction opening of the container and which comprises a pump chamber and a pump valve, the operating element being movable relative to the container, and an operating element which is configured to mechanically cooperate with the pump valve and has an outlet opening for the liquid, which outlet opening is connected to the pump chamber via an outlet channel, the operating element being guided in the sleeve.

The metering pump according to the invention thus has an operating element which can be moved relative to the container and which at the same time also comprises an outlet opening for the liquid, so that intuitive operation of the wall-mounted metering dispenser is ensured: the components of a wall-mounted metered dispenser at the output for liquid must be grasped and pressed by the user to effect the output of the liquid.

According to the invention, the operating element of the metering pump is guided in the sleeve of the wall-mounted metering dispenser, which improves the stability of the wall-mounted metering dispenser, since the container remains unaffected by operating forces deviating from the vertical axis of the container and is therefore not intercepted by the positionally fixed holding element at the first fixing position of the wall-mounted holder. The sleeve also makes it possible to guide the operating element of the metering pump precisely. When replacing the container, it is not necessary to replace the operating elements at the same time, which is finally advantageous from a sustainability point of view.

The wall-mounted metering dispenser according to the invention can be mounted as in the prior art, such that the container is oriented upside down, that is to say the bottom region of the container is arranged above and the extraction device is located below. However, the metering pump according to the invention makes it possible to extract liquid from a container without the aid of gravity, so that it is preferred that the wall-mounted metering dispenser according to the invention is not mounted as in the prior art, but rather on the building installation. Thereby, the bottom region of the container is arranged below and the top region of the container with the extraction device is arranged above. This offers the great advantage that the user can directly observe the operating element of the extraction device or of the metering pump and can operate the metering pump pressed from above downwards.

Within the scope of the invention, the holding element for the bottom region of the container can be a hook-shaped piece which engages into a correspondingly shaped recess in the bottom region of the container. This provides a secure positive retention of the container on the wall hanging bracket and also protects the container against rotation about its vertical axis. Alternatively, the holding element for the bottom region of the container can also be configured as a dish-like or basin-like shaped part or as a basket-like part in order to receive the bottom region of the container and to positively and/or non-positively secure the bottom region of the container against lateral sliding. This fixing function can be assumed by basket-like or dish-like or basin-like holding elements, suitably by means of a beaded edge or by means of projections or crown-like tines which project and are crimped on the edge side.

The second fixing location on the wall mount preferably has a snap-on type snap-on connection for securing the sleeve to the wall mount, which snap-on connection can only be released by a suitable release tool or wrench. As already mentioned, in this way it is not only possible to prevent theft, but it is also possible to ensure that the contents of the container are hygienic and leak-free at all times, since the container cannot be opened by a user or other unauthorized person.

The extraction opening of the container of the wall-mounted metered dose dispenser according to the invention preferably has the shape of an externally threaded neck of a bottle. The sleeve, which can be fixed in the second fixing position on the wall-mounted support and can be moved relative to the wall-mounted support for replacing the container, preferably has an internal thread which matches the external thread of the container. In this case, the receptacle can be screwed out of the sleeve and screwed back into the sleeve for replacement or refilling, which also ensures a secure form-locking connection and a secure fastening of the receptacle to the wall-mounted support.

In particular, when the retaining element for the bottom region of the container is not a hook-like shaped piece preventing rotation of the container about its vertical axis in the first fixing position, it is particularly advantageous if the sleeve is equipped with an anti-reverse safeguard. Once the container is screwed into the sleeve, it can no longer be separated from the sleeve without releasing the anti-reverse-rotation-prevention-structure.

For reasons of hygiene, it is particularly preferred that the container can no longer be separated from the sleeve once the wall-mounted metering dispenser is put into use. In this case, it is preferred within the scope of the invention that the anti-reverse securing structure comprises a plurality of teeth which are arranged to come into contact with the neck of the container and/or the external thread of the neck of the container when screwed into the internal thread of the sleeve, in which case the teeth are formed and/or designed to be elastically deformable such that they only make it difficult at most slightly to screw the external thread into the internal thread, but rather achieve that the external thread cannot be screwed out of the internal thread again without being destroyed.

This is preferably achieved in that the sleeve is made of plastic and the teeth of the anti-reverse securing means are formed by resiliently bendable tongues molded onto the sleeve, which tongues engage approximately tangentially on the neck of the bottle or on the external thread of the neck of the bottle.

The anti-reverse securing structure thus formed is also assisted in that the neck is provided in the form of a ratchet wheel with a collar consisting of toothed sections, which are each provided with a gentle flank and a steep flank, so that the teeth of the anti-reverse securing structure act as pawls.

Within the scope of the invention, the outlet opening for the liquid is preferably located at the top end of an outlet nozzle on the operating element, wherein the sleeve of the wall-mounted metering dispenser has a recess for the outlet nozzle, into which recess the outlet nozzle sinks during the pump stroke. As long as the delivery nozzle is not aligned with the recess but is rotated relative to the recess about the vertical axis of the container, a pump stroke cannot be performed and no liquid can be delivered. This provides advantages for the transport of the refill container.

Finally, the container of the wall-mounted metering dispenser according to the invention may be provided with at least one transparent or translucent strip extending from the top region up to the bottom region for reading the filling level.

Drawings

Two embodiments of a wall-mounted metering dispenser designed in accordance with the present invention will now be described and explained in detail with reference to the accompanying drawings, wherein the important features of the invention may also be incorporated in the description of the drawings, but the invention is not limited to these exemplary illustrative specific features. Wherein:

fig. 1 illustrates an isometric view of one embodiment of a wall-mounted metered dispenser according to the present invention;

FIG. 2 illustrates a front view of the wall mounted metered dispenser of FIG. 1;

FIG. 3 showsbase:Sub>A cross-sectional view on the plane A-A in FIG. 2;

fig. 4 shows a schematic exploded view of the wall-mounted metered dispenser of fig. 1;

FIG. 5 shows a top view of a sleeve of a wall-mounted metered dispenser;

FIG. 6 shows a cross-sectional view on the plane B-B in FIG. 5;

FIG. 7 shows a top view of the top region of the container;

fig. 8 shows a front view of a second embodiment of a wall-mounted metered dispenser according to the present invention;

FIG. 9 shows a side view of the wall mounted metering dispenser of FIG. 8;

fig. 10 shows a front view similar to fig. 8, but without the container.

Description of the reference numerals

1-a container; 2-hanging a bracket; 3-a first fixed position; 4-hook shaped pieces; 5-a notch; 6-bottom zone; 7-a second fixed position; 8-a sleeve; 9-top zone; 10-an operating element; 11-an output channel; 12-an output port; 13-a notch; 14-a snap-fit connection; 15-extraction port; 16-external threads; 17-a pump body; 18-an operation surface; 19-internal thread; 20-an anti-reverse-rotation safety structure; 21-a stabilizing slot; 22-a tooth; 23-tooth; 24-a receptacle; 25-a seal; 26-a sealing ring; 27-a contact surface; 28-basin-shaped form; 29-edge.

Detailed Description

An embodiment of a wall-mounted metered dispenser designed according to the present invention as described herein is shown generally in isometric view in fig. 1. The container 1 for care products is held by a wall-mounted holder 2, which in turn is fixed to a wall (not shown). The wall mount 2 holds the container 1 in a first fixed position 3 with a fixed holding element, which in the present case is designed as a hook-shaped profile 4. The shaping element engages in a form-fitting manner in a recess 5 in the bottom region 6 of the container 1, so that the container 1 is protected against lateral sliding of the container 1 from the first fastening position 3 and also against rotation of the container 1 about its vertical axis.

At the second fastening point 7 of the wall mount 2, a sleeve 8 is provided, which is inserted onto a top region 9 (hidden here) of the receptacle 1 and in this way also holds the receptacle 1 on the wall mount 2 in a form-fitting manner. The sleeve 8 can be released from the wall holder 2 by a release tool (not shown) in order to pull the container 1 together with the sleeve 8 upward out of the wall holder 2 and to disengage the container 1 from the hook-shaped profile 4. In this way the container 1 can be replaced very easily.

In another embodiment (not shown), the holding element on the first fastening point 3 of the wall-mounted holder 2 has another shape, in particular a dish-or tub-like shape, so that the container 1 can be inserted into this holding element in the first fastening point 3. The holding element can alternatively also be formed in the shape of a basket or have any other shape, so that in combination with the sleeve 8, the holding element can securely fix the bottom region 6 of the container 1 to the wall-mounting bracket 2.

In another embodiment (not shown), it is also possible to remove only the sleeve 8 in the second fixing position 7 and move it relative to the wall-mounted support 2, so that the receptacle 1 can be removed from the sleeve 8, in order to also release it from the first fixing position 3 and remove it from the wall-mounted support 2.

Finally, as shown in fig. 1, an operating element 10 of a metering pump is arranged in the top region 9 of the container 1, which operating element 10 is located inside the sleeve 8 and is guided by the sleeve in order to meter liquid from the inside of the container through an extraction opening (not visible here) in the top region 9 of the container 1 into an outlet channel 11, which in the present case has the shape of an outlet mouth, and finally to output the liquid from an outlet opening 12.

The sleeve 8 has a recess 13 at its upper circumferential edge, into which a delivery spout or spout-like delivery channel 11 can be sunk during a pump stroke of the actuating element 10; this is because the operating element 10 is pressed down towards the container 1 to operate the metering pump. At this point, the liquid or treatment product is output through the output port 12.

Fig. 2 shows a front view of the wall-mounted metering dispenser of fig. 1, where the same reference numerals may be used for features of the wall-mounted metering dispenser and reference may be made to the description of fig. 1 in this regard.

Further details of this embodiment are shown in fig. 3,base:Sub>A cross-sectional view on planebase:Sub>A-base:Sub>A of fig. 2. The container 1 with the bottom region 6 and the top region 9, the wall bracket 2 with the first fastening position 3 and the second fastening position 7, the hook-shaped formation 4 and the sleeve 8 which engage in the recess 5 of the container 1, together with the operating element 10 guided therein, have already been described in detail with reference to fig. 1 and 2.

Based on this sectional view, fig. 3 shows a snap-on snap connection 14 in the second fastening position 7, by means of which the sleeve 8 is fastened to the wall-mounting support 2 and which can only be released by means of a release tool (not shown) in order to be able to remove the sleeve 8 from the wall-mounting support 2. The actuating element 10 guided in the interior of the sleeve 8 does not form an obstacle here due to the guidance in the sleeve 8 and is otherwise not influenced by the release tool.

As can also be seen from the sectional view in fig. 3, the sleeve 8 is placed over the top region 9 of the container 1, so that it is held in a positive and secure manner in said top region. As will be explained in more detail below with reference to the other figures, the connection of the container 1 to the sleeve 8 is finally a threaded connection; since the extraction opening 15 of the container 1 is formed by a neck of the bottle at the top region 9 of the container, said neck is provided with an external thread 16.

As can be easily seen with reference to fig. 3, according to the invention, a pump body 17 with a pump chamber and a pump valve (not visible in this illustration) is mounted in the extraction opening 15 of the container 1 configured as a bottle neck. The pump body is a common pump body of a metering pump on the market, so that a detailed description of the pump cavity and the pump valve and the working principle thereof is not required. The pump valves and pump chambers of the pump body 17 are activated by an operating surface 18, which in turn interacts with the operating element 10. Pressing on the actuating element 10 effects a pump stroke and, as is known per se, therefore a discharge of liquid from the container 1 is effected via a discharge channel 11 integrated in the actuating element 10.

As will be explained in more detail below with reference to the other figures, the sleeve 8 has an internal thread 19 which engages with the external thread 16 at the extraction opening 15. The anti-reverse security feature 20 here prevents the container 1 from being able to be released from the sleeve 8 again as long as the wall-mounted metered dispenser is assembled in a ready-to-use condition.

Another embodiment (not shown) does not use an anti-reverse-rotation safety feature so that all parts replaced when the container is replaced can be refilled and used. This is desirable for sustainability reasons.

Fig. 4 shows an exploded view of the wall-mounted metering dispenser of fig. 1-3, where like parts are also provided with like reference numerals. As can be seen from this figure, the present embodiment of a wall-mounted metered dispenser according to the invention essentially comprises: a container 1 having an extraction opening 15, an external thread 16, a recess 5 and a stabilizing groove 21; a wall bracket 2 having a first fixing location 3 and a second fixing location 4 and a hook-shaped formation 4 as a holding element for the bottom region 6 of the container 1; a sleeve having a recess 13; a pump body 17 having an operating face 18 and a sealing ring 26; and an operating element 10 with an output channel 11 and an output opening 12.

A toothing 22 for anti-reverse securing is provided in the top region 9 of the container 1, as will be explained in more detail below.

Fig. 5 shows a top view of the sleeve 8, while fig. 6 shows a cross-sectional view of the sleeve 8 in the plane B-B in fig. 5. These figures show that the sleeve 8 is provided with an internal thread 19 for receiving the external thread 16 of the container 1. A number of teeth 23 are used for this purpose as an anti-reverse securing structure 20. These teeth 23 are made of polypropylene, as is the entire sleeve 8, and thus have a certain inherent elasticity. The teeth are moulded onto the sleeve 8 and have the shape of tongues which fit approximately tangentially onto the neck of the container 1, so that they hardly cause difficulties in screwing the external thread 16 in, but do not allow the external thread 16 to be screwed out of the internal thread 19 without breaking. The crown consisting of the teeth 22 in the top region 9 of the container 1 also ensures the latter function, as can be clearly seen in fig. 4, but also in fig. 7, which shows a top view of the container 1. The teeth 22 have a gentle side and a steep side, respectively, so that the teeth 23 of the anti-reverse securing structure 20 act as pawls, in which case the teeth 22 on the container 1 are arranged in the form of a ratchet.

Fig. 5 also shows the fitting of the sleeve 8 to the second fastening point 7 via a snap connection 14.

Fig. 6 additionally shows that the sleeve 8 is additionally provided within its internal thread 19 with a receptacle 24 for the pump body 17 and a seal 25 for the outlet channel 11. A sealing ring 26 (fig. 4) of the pump body 17 rests in the sleeve 8 on the contact surface 27, so that undesired outflow of liquid is avoided in this position.

Figure 8 illustrates a second embodiment of a wall mounted metering dispenser designed according to this invention in a front view as in figure 2. A side view of this second embodiment can be seen in fig. 9. Parts of the second embodiment shown here that are identical to corresponding parts of the first embodiment of fig. 1 to 7 are provided with the same reference numerals. In this regard, reference is made to the preceding description of the figures, and in particular to figures 1 and 2.

The second exemplary embodiment differs from the first exemplary embodiment in the design of the retaining element for the bottom region 6 of the container 1 in the first fastening position 3. In the first exemplary embodiment according to fig. 1 to 7, the retaining element is designed as a hook-shaped profile 4 which engages in a form-fitting manner in a recess 5 in the bottom region 6 of the container 1, while the second exemplary embodiment, as shown in particular in fig. 8 and 9, is equipped with a pot-shaped profile 28 as the retaining element of the first fastening position 3, which pot-shaped profile 28 is provided with a higher circumferential edge 29 in order to receive the bottom region 6 of the container 1 in a form-fitting manner in a movement component oriented perpendicularly to the vertical axis of the container 1. In this way, the container 1 cannot be removed from the wall hanging bracket 2 without releasing one of the two fixing positions 3, 7.

In fig. 10, the wall bracket 2 of the second embodiment is shown in a front view as in fig. 8, but without the container 1, in order to show more clearly the differences with the first embodiment with the hook-shaped piece 4: the second fastening point 7 is designed identically to the first exemplary embodiment, and the first fastening point 3 is designed as a holding element with a pot-shaped part 28 having a circumferential edge 29 for receiving the bottom region 6 of the container 1. The basin-shaped formation 28 can be provided, for example, centrally with a hole, in order to allow liquid that may be present, for example condensation water entering between the bottom region 6 of the container 1 and the surrounding edge 29 or splashed water in the shower recess, to flow out.

Claims (11)

1. A wall-mounted metering dispenser for supplying and dispensing liquids, in particular washing-action substances or care products for body care, comprising a container (1) for the liquid and which can be exchanged, and a wall-mounted holder (2) for mounting the wall-mounted metering dispenser on a building, and an extraction device for metered dispensing of the liquid from the container (1), the container (1) having a bottom region (6) with a container bottom and a top region (9) opposite the bottom region (6) with an extraction opening (15), the wall-mounted support (2) has two spaced-apart fastening positions (3, 7) for the container (1), wherein a first fastening position (3, 7) is provided with a positionally fixed holding element for the bottom region (6) of the container (1) into which the container (1) can be inserted or onto which the container bottom can be mounted in order to positively and/or non-positively hold the bottom region (6) of the container (1) in the first fastening position (3), and wherein a second fastening position (7) has a sleeve (8), which sleeve (8) is fastened to the wall-mounted support (2) and can be pulled off from the wall-mounted support Separate on a shelf (2) or movable relative to the wall-mounted stand for fixedly holding the top region (9) of the container (1), and the extraction device is provided on the sleeve (8) or at least partially integrated in the sleeve (8),

it is characterized in that the preparation method is characterized in that,

the extraction device is designed as a metering pump, comprising a pump body (17) and an operating element (10), wherein the pump body (17) can be inserted into an extraction opening (15) of the container (1) and comprises a pump chamber and a pump valve, wherein the operating element (10) can be moved relative to the container (1), wherein the operating element is designed to mechanically interact with the pump valve and has an outlet opening (12) for the liquid, wherein the outlet opening (12) is connected to the pump chamber via an outlet channel (11), and wherein the operating element (10) is guided in the sleeve (8).

2. The wall mounted metering dispenser of claim 1,

the retaining element for the bottom region (6) of the container (1) is a hook-shaped profile (4), which profile (4) engages in a correspondingly shaped recess (13) in the bottom region of the container (1).

3. The wall mountable metered dispenser of claim 1,

the holding element for the bottom region (6) of the container (1) is configured as a dish-shaped or pot-shaped piece (28) or as a basket-shaped piece in order to receive the bottom region (6) of the container (1) and to positively or non-positively fix the bottom region (6) of the container (1) against lateral sliding, in particular with a beaded, shaped or attached edge (29) or with a projection which projects out at the edge side and is crimped.

4. The wall mounted metered dispenser of any one of claims 1 to 3,

the second fastening point (7) has a snap-on connection of a latch for fastening the sleeve (8) to the wall hanging bracket (2), which can only be released by a suitable release tool or wrench.

5. The wall mountable metered dispenser of any one of claims 1 to 4,

the extraction opening (15) of the container (1) is a bottle neck with an external thread (16), and the sleeve (8) has an internal thread (19) that can be fitted into the external thread (16).

6. The wall mountable metered dispenser of claim 5,

the sleeve (8) has an anti-reverse security feature (20) to retain the external thread (16) of the neck of the bottle in the internal thread (19).

7. The wall mountable metered dispenser of claim 6,

the anti-reverse securing structure (20) has a plurality of teeth (23) which are arranged to come into contact with the bottle neck and/or with the external thread (16) of the bottle neck when screwing in the internal thread (19) of the sleeve (8) and which are formed and/or designed to be elastically deformable such that they cause difficulty in screwing in the external thread (16) into the internal thread (19) only to a small extent at most, but do not allow the external thread (16) to be screwed out of the internal thread (19) without breaking.

8. The wall mounted metering dispenser of claim 7,

the sleeve (8) is made of plastic and the teeth (23) of the anti-reverse securing structure are constituted by elastically bendable tongues molded onto the sleeve, which tongues engage approximately tangentially on the neck of the bottle or on the external thread (16) of the neck of the bottle.

9. The wall mountable metered dispenser of claim 8,

the neck is provided in the form of a ratchet with a collar consisting of a toothing (22) having a gentle flank and a steep flank, respectively, so that the teeth (23) of the anti-reverse securing structure act as a pawl.

10. The wall mounted metered dispenser of any one of claims 1 to 9,

the outlet opening (12) for the liquid is located at the tip of an outlet nozzle on the operating element, and the sleeve (8) has a recess (13) for the outlet nozzle into which the outlet nozzle sinks during the pump stroke.

11. The wall mounted metered dispenser of any one of claims 1 to 10,

the container (1) is provided with at least one transparent or translucent strip extending from the top area (9) to the bottom area (6) for reading the filling level.