DE10109064A1 - Opening system with back ventilation mechanism - Google Patents

Abstract

The invention relates to a valve system for the metered dispensing of a substance from a container, a dispensing opening (14) being configured in at least one of the container walls for dispensing the substance and an aeration opening (10) being configured in at least one of the container walls for re-aeration. Said system comprises a first valve (7), which seals the dispensing opening (14) against the substance as long as the pressure differential between the container interior and the container exterior is less than a first predetermined limiting value, and which opens the dispensing opening to the substance, if the pressure differential between the container interior and the container exterior is greater than the first predetermined limiting value, in addition to a second valve (11), which opens the aeration opening for re-aeration, as long as the pressure differential between the container interior and the container exterior is less than a second predetermined limiting value, and which seals the aeration opening against re-aeration, if the pressure differential between the container interior and the container exterior is greater than the second predetermined limiting value. The system is characterised in that the second valve (11) is composed of a flexible material and is configured in the shape of a lip, capable of closing the aeration opening (10).

Description

The invention relates to a valve system for the metered discharge of a flowable pro Ductes from a container, in particular from a container for cosmetic or matological products.

Many liquid and cream-like cosmetic products, but also those from the range Chen food, medicine, household, chemistry and technology, are in elastic Fla offered in plastic (or in similar containers such as plastic tubes, Canisters or the like). These are usually made with a clasp, preferably Plastic, provided. The container is inclined for removal, and especially for something more viscous products, the container is squeezed to discharge the product. An example is hair shampoo, which is made by applying pressure to the container from a relative small opening is pushed out and the container with a so-called Klappde is provided. If enough shampoo has been applied, reduce it Pressure, and the container returns to its original shape. The missing discharged volume is compensated by sucking in air. In doing so, too Remnants of the product, which are located in the area of the removal opening, also in the bottle withdrawn. In the example of hair shampoo, this product residue is usually included Splashed water contaminated as the application on the sink or in the shower he follows. But it is also possible that the shampoo residues around the pouring opening were wiped off by hand and then sweat, skin residues or other substances to be sucked in on the skin.

In the medical field there are nasal sprays that are sold in elastic bottles the. With this application, it is possible that virus-containing nasal secretions in the fla arrived. When using care lotions or sun milk or oil it is also possible that other substances besides air (sand, sea water, washing substances)  be sucked back into the container after the product hits the skin was applied.

A special application is the use of massage heads to create a shower pro apply product and massage the skin. There is an increased possibility that when massaging substances are released from the skin and into the opening of the massa be sucked upside down. The problem of verunreini occurs in the food sector the container contents, for example when applying mayonnaise to salads or sausage bread or mustard on sausage. The substances sucked back can often contain bacteria, viruses or fungal germs. This makes it possible that in particular Bacteria and fungal germs multiply in the contents, making it unappetizing, unsafe make it edible or, in extreme cases, even toxic.

The most frequently implemented in previous products, because mostly also inexpensive The most effective solution to the above problem is the use of preservatives and stabilizing substances (benzoic acid, formaldehyde formers, nitrates, nitrites, an tioxidants, ascorbic acid. , , , Etc.).

Other efforts are in the area of developing technical relationships wise design-related avoidance of contamination of container contents.

The use of closures with relatively small openings and inexpensive geomet Combined with these substances usually ensures that the problem is tolerable Hold frame. Favorable geometry means that the closure is designed that contact with the skin or other contaminated surfaces is difficult.

It is also possible to design the container so that no air is drawn in, these versions are referred to as airless systems. Airless systems have mostly via a pump and a container with a variable volume, for example Drag piston or inner bag (delivery by compressed air). These systems are also suitable for multi-chamber systems. The increased effort usually creates a lot higher cost than an elastic plastic bottle. In addition, the residual emptying these systems are usually very bad.  

Systems with pumps use a standpipe to convey the substance out of the bottle. The Compensation of the volume is carried out by air that flows through a separate channel into the bottle arrives. Most of the time, the duct is attached so that it is only open when the pump is activated. This means that this channel is in the idle state of the pump (mostly through the pumps piston itself) is closed and that thereby further protection against contamination nation with foreign substances is given.

Pump systems are slightly cheaper than airless systems, but still more expensive than simple bottles with closures. Filling is also higher.

Another development for container dispensing systems involves the installation of Ven Control systems for the controlled delivery of flowable or similar substances. With the on diaphragm valve containers on the market is the opening of the vessel through a elastic valve closed. Pressure on the bottle increases the pressure in the Container and the valve opens. If the pressure drops, the valve closes again independently. However, back ventilation is also necessary here, which is also the case negative pressure in the bottle via this valve happens, for such Valve construction also sucked back product residues and possibly dirt become. This system ensures that the container is not used is closed and neither product escapes nor foreign substances penetrate. except these valves are usually designed so that the flow of the applied substance breaks off if the corresponding application pressure is not reached, because then the valve snaps back suddenly and closes the opening. This behavior ensures that the dispensing opening is only slightly contaminated and thus also sucking back is less.

WO 00/06460 describes a valve device for a container, which in the area the opening for the metered discharge of a medium is attached. WO 00/07899 and WO 00/07900 show valve systems which work with diaphragms. In the WO 00/48921 shows a valve with a two-way function, in which the outlet of a Ensure fluid and air intake by opening both ways at the same time is.

The object of the invention is to offer a valve system for a container, which a Delivery of the container contents guaranteed, a back ventilation and a backflow possible  of the product once dispensed into the container prevented. The disadvantages of State of the art should be avoided.

The object is achieved by the inventive valve system, as in the main claim is set out. The subclaims relate to advantageous further developments of the inventions derischer valve system.

The claim 1 relates to a valve system for the metered discharge of a substance a container, with a charge for the release of the substance from the container opening through at least one of the walls of the container and one for back ventilation Ventilation opening is provided through at least one of the walls of the container. the ses valve system has a first valve (exhaust valve), which the discharge opening for the substance seals as long as there is a pressure difference between the inside of the container and the container exterior is less than a first predetermined limit value, and which the Dispensing opening for the substance opens when the pressure difference between the container inside and outside of the container is greater than the first predetermined limit value, and a second valve (ventilation valve), which is the ventilation opening for the rear Ventilation opens as long as there is a pressure difference between the inside of the container and the Container exterior is less than a second predetermined limit, and which the Ventilation opening for the back ventilation seals when the pressure difference between the inside and outside of the container is larger than the second predetermined Limit is on. The second valve consists of a flexible material and is formed in the form of a lip, which is able to ver the ventilation opening conclude. This closing can preferably be done in such a way that the lip is thereby places over the ventilation opening and seals it. That is also cheap Variant in which the lip or parts thereof partially penetrate the ventilation opening and thus achieve a seal.

To avoid misunderstandings, the pressure difference between the container inner and outer of the tank defined as the inner tank pressure minus the tank external pressure in the correct mathematical, i.e. signed sizes. The information in the mathematical, signed values also applies to the specification of the first and the second predetermined limit value.  

The first valve is therefore advantageously closed as long as there is overpressure in the interior of the container ren compared to the outside of the container is less than a first predetermined limit value, and opened when the overpressure is greater than the first predetermined limit. Ent speaking is the second valve at a negative pressure in the interior of the container compared to The exterior of the container is opened and, if possible, closed when this negative pressure is not is available.

The ventilation opening should be in the state in which the container internal pressure is in corresponds approximately to the external pressure, advantageously closed by the ventilation valve be otherwise with the bottle lying in the unused state substance can leak through the ventilation duct. The second limit is preferably the corresponding one to choose accordingly, preferably about zero. It can be given for the second Limit value can also be chosen to be a negative value, especially if the container is otherwise secured against leakage, for example is designed as a standing container.

In a preferred embodiment of the inventive valve system, the first one Valve a closure part, which is designed essentially conical, and in particular three webs, which ver the closure part with the surrounding container bind and which consist of a resilient material.

The inventive valve system is very inexpensive to use for containers in which the Area of the discharge opening is formed in the form of a neck, which neck be preferably has a round or oval cross section, the ventilation opening itself is located in a side wall of this neck and the discharge opening is preferred at the end of the neck opposite the container.

It is also advantageous if there are several ventilation openings in the area of the neck are located, which are intended for back ventilation.

In a very preferred embodiment of the inventive valve system, this is second valve as a cuff-shaped lip running around the inner wall of the neck trained, which is able to ver to seal all ventilation openings conclude. "As encircling the inner wall of the neck" is to be understood in this way that the cuff is able to press against the inner wall when the pressure is increased invest completely or partially or fully or partially in these  to penetrate and thus to seal the openings. In the case where the pressure difference between the inside of the container and the outside of the container is not greater than the second predetermined limit, this cuff should be against the wall See also the more detailed explanations in the figures presented embodiments.

The valve is thus sealed when the container is not in use ("idle state"); even with a low negative pressure in the container, pressure equalization takes place through on flow of air.

The invention is to be illustrated in more detail below by means of illustrations want to limit themselves unnecessarily by the choice of the illustrated embodiment. Show it:

Fig. 1 area of the outlet opening in a container with an inventive valve system

Fig. 2 valve element of the inventive valve system

Fig. 3 area of the outlet opening in a container with an inventive valve system with open exhaust valve

Fig. 4 area of the outlet opening in a container with an inventive valve system; Path of the incoming air during the back ventilation through the opened lip valve

Fig. 5 area of the outlet opening in a second embodiment of a container with the inventive valve system

Fig. 1 shows a container, in particular for cosmetic preparations, in the region of the outlet opening. In this area, the container is designed in the form of a neck 1 . On this neck 1 , which is provided on the outside with a screw thread 2 , a top part 3 with a corresponding internal thread can be screwed ben, which includes the inventive valve system. In the embodiment shown here, the attachment part 3 is provided with a fixable component 16 , which can be inserted, clipped, welded or the like into the attachment part 3 , and a reversible fastening is also possible. This insert is attached to the top part in a sealing manner. The essay consisting of parts 3 and 16 can also be made in one piece. The container can be closed with a hinged lid 9 , which is connected to the container by the hinge 8 .

The attachment part 3 has a prechamber 4 , which is designed such that when the attachment part 3 is screwed on, the container is sealed in the region of the positions 5 , so that a substance in the container can never escape here.

In the wall of the pre-chamber 4 there is an outlet channel 6 , at the upper end of which the outlet valve 7 is located. The antechamber 4 is attached to the insert 16 all around.

The outlet valve 7 is designed in the form of a preferably conical closure 13 for the discharge opening 14 ; preferably the discharge opening 14 also has a conical shape. A top view of the valve element 7 (outlet valve) is shown in FIG. 2. The closure part 13 is connected to the container by several flexible or resilient webs 15 , here to the component 16 . In the embodiment shown here, the connection is realized by three S-shaped webs made of a flexible material. If pressure is now exerted from the inside of the container, the closure part 13 is raised and opens the dispensing opening 14 so that the substance can escape. The closure part 13 is held in the raised position (see Fig. 3). The increase in the distance between the closure 13 and the surrounding component 16 is achieved in that the webs 15 give up the s-shape and are stretched in this process (in an alternative embodiment, for example, spiral springs can be used as webs, which are stretched in the process, or also generally an elastic or stretchable material). If the pressure inside the container is reduced again, the closure part 13 lowers due to the restoring force of the webs 15 and closes the discharge opening 14 again, so that no residual substance can flow back into the container. The hinged lid 9 can advantageously be designed such that it presses the closure part 13 onto the discharge opening 14 in the closed state and thus improves the seal.

The geometry of the closure part 16 can also deviate from the cone shape when the function is fulfilled (ball, elipsoid, cylinder, etc.).

The back ventilation to achieve a pressure equalization between the interior and exterior of the container takes place via ventilation openings 10 , which are located in the wall between the prechamber 4 and the exterior of the container. In the figure shown here, these ventilation openings 10 are located in the attachment part 3 . The airway (see also Fig. 4, strong broken arrow) through the screw thread 2 is guaranteed ge.

The ventilation openings 10 can be closed by a ventilation valve 11 . This ventilation valve 11 has the shape of a lip, here in particular a circumferential sleeve 4 in the front chamber 4 with a lip-shaped cross section and consists of a flexible material. In the upper area, this sleeve (ventilation valve 11 ) is mounted in the component 16 , the lower part protrudes into the antechamber 4 and is preferably shaped in such a way that it tilts in front of the ventilation openings 10 . If the pressure in the container is increased, the relationships shown in FIG. 3 result: Through inlet openings 12 in the bottom of the prechamber 4 , the substance in the container penetrates. The ventilation valve 11 is pressed onto the ventilation openings 10 by the pressure increasing in the antechamber 4 (air pressure or pressure due to the substance that has entered). The ventilation valve 11 is preferably thin-walled in the lower region, so that the contact pressure is greatest here. In the area of position numbers 17 , the valve for the substance in the container closes tightly, the ventilation openings 10 are closed. An escape of substance is not possible in this way.

If the pressure difference between the internal pressure of the container and the external pressure is less than a predetermined limit value, the ventilation valve 11 opens and allows air to penetrate through the ventilation openings 10 and downwards out of the ventilation valve 11 into the antechamber 4 until the negative pressure is almost balanced in the container. In Fig. 4, the path of the air entering the open ventilation valve 11 for the embodiment of the invention shown here is shown by an uninterrupted arrow (in the area of the screw thread 2 , the air can penetrate along this screw thread 2 ).

The circumferential, cuff-shaped design of the ventilation valve 11 ensures that, when the internal pressure of the container increases, the pressure on this ventilation valve 11 is exerted uniformly and thus a uniform closing of the ventilation openings 10 takes place. This enables the best possible seal to be achieved.

Fig. 5 shows an example of a container with an inventive valve system, in which the outlet valve 7 is designed alternatively with an otherwise similar construction of the container.

The fixable component 16 here contains one or more discharge openings 20 which can be closed or opened by the outlet valve 7 . This valve consists of a valve disk 18 made of a flexible material, preferably rubber for example, and has a passage opening 19 which is positioned such that in the closed state the discharge openings 20 of the component 16 and the passage opening 19 of the valve disk 18 do not lie one above the other. The valve disk 18 is fastened to the component 16 on its outer edge.

If the pressure in the interior of the container is increased, the valve disc 18 is raised and releases the passage for the substance to be dispensed from the interior of the container by first flowing through the discharge openings 20 , then between the valve discs 18 and the component 16 to the passage opening 19 and can pass through this to the outside.

The valve disk 18 can be fastened to the component 16 in different ways, only a few examples being mentioned below. Thus, the edge of the Ven valve disk 18 can be glued to the component 16 , it can be embedded in a corresponding milling in the component 16 , with additional bonding being advantageous here as well, alternatively or additionally, the valve disk 18 can be fixed to the component 16 by corresponding retaining rings become. Furthermore, the valve disk 18 can be produced in one piece with the component 16 in multi-component injection molding. Another variant is to design the lips of the ventilation valve 11 and the valve disk 18 in one piece by injection molding this one-piece component, whereby it is partially cast into corresponding savings in the component 16 .

In this embodiment, the back ventilation takes place in an analogous manner to the variant shown above ( FIG. 4).

A dispenser with the inventive valve system allows, for example Integration of the valve system in special applicators. The innovative valve system or one of its embodiments is constructed such that backflow occurs once dispensed product from the applicator surface into the container is not possible. she  are therefore suitable for containers for flowable materials of all kinds, but also offer great advantages for containers intended to dispose of perishable substances are or what high hygienic requirements must meet.

Some examples of such areas of application, without claiming to be complete, are:

• - Toothbrushes with integrated donation opening
• - Cleaning brushes with an integrated storage container
• - Grinding and polishing applicators in the appropriate tool container
• - shower gel applicators, especially with a massage head,
• - mascara,
• - Apply shoe polish or other cleaning and care products the / preserving substances, especially those with a brush or a Sponge on the container for cleaning clothes,
• - roll-on deodorant,
• - application of nail polish or correction fluid,
• - applicators of adhesives,
• - Application of paints, protective lacquers, rust removers, leachers etc.

Furthermore, the valve system is excellent for conventional container closures and applicators. These include, for example, containers for washing and Care substances (shampoo, shower gel, sun milk, care lotion, etc.). Through the na The proportion of the preserve can be excluded in this way reducing and stabilizing substances. In addition, the filling material not clouded, which is perceived as a quality deficiency in many areas.

Another application for the inventive valve system is in food range, for example for jam, honey, ketchup and mayonnaise, mustard, sauces and such foods.

Such a design of the closure reduces the loss of volatile Substances such as perfume, alcohol, essential oils etc., even if the lid does not worry is tightly closed or also in versions of the container without a hinged lid.

Claims (6)

1. Valve system for the metered discharge of a substance from a container, wherein for the discharge of the substance from the container a discharge opening ( 14 ) through at least one of the walls of the container and for back ventilation, a ventilation opening ( 10 ) through at least one of the walls of the Container is provided; with a first valve ( 7 ) which seals the discharge opening ( 14 ) for the substance as long as a pressure difference between the interior of the container and the exterior of the container is less than a first predetermined limit value and which opens the discharge opening for the substance when the Pressure difference between the interior of the container and the exterior of the container is greater than the first predetermined limit value, and with a second valve ( 11 ) which opens the ventilation opening for the back ventilation, as long as a pressure difference between the interior of the container and the exterior of the container is less than a second predetermined limit value , and which seals the ventilation opening for the back ventilation if the pressure difference between the inside and outside of the container is greater than the second predetermined limit value, characterized in that the second valve ( 11 ) consists of a flexible material and is designed in the form of a lip t, which is able to close the ventilation opening ( 10 ). 2. Valve system according to claim 1, characterized in that the first valve ( 7 ) is a closure part ( 13 ), which is substantially conical, and in particular three webs ( 15 ), which the closure part ( 13 ) with the surrounding container ( 16th ) connect and which consist of a resilient material. 3. Valve system according to claim 1, characterized in that the first valve ( 7 ) is designed in the form of a flexible cover ( 18 ) for the discharge opening ( 20 ). 4. Valve system according to at least one of the preceding claims, characterized in that the container is designed in the form of a neck ( 1 ) in the region of the discharge opening,
this neck ( 1 ) preferably having a round or oval cross section, where the ventilation opening ( 10 ) is located in a side wall of this neck ( 1 )
and wherein the dispensing opening ( 14 ) is preferably at the end of the neck ( 1 ) opposite the container. 5. Valve system according to claim 3, characterized in that in the region of the neck ( 1 ) there are a plurality of ventilation openings ( 10 ) which are provided for the rear ventilation. 6. Valve system according to at least one of claims 3 or 4, characterized in that the second valve ( 11 ) as a circumferential on the inner wall of the neck ( 1 ) is formed cuff-shaped flap, which is able to seal all ventilation openings ( 10 ) to close.