EP1440020B1 - Valve seal - Google Patents

Description

The present invention relates to a valve seal for sealing a fluid dispensing device comprising a valve, in particular a metering valve, mounted on a product reservoir.

Seals used in pressurized fluid dispensing devices, such as aerosol devices, must meet a number of conditions and meet certain requirements. Thus, these seals must provide good mechanical properties, have suitable swelling properties to the propellant, provide an adequate coefficient of friction, be waterproof to the propellant and provide good resistance to moisture. These features are particularly important for the dynamic seals which form the seal between the movable valve of the valve and the valve chamber which contains the dose to be expelled.

For various reasons, especially ecological, the CFC type thrusters have been largely replaced by propellants of the HFC-134a or HFC-227 type, with or without alcohol. The use of such propellants alters the stresses on the joints, so that the conventional materials previously used in conjunction with the CFC gases no longer have the optimum characteristics. In addition, depending on the type of propellant envisaged (HFC-134a or HFC-227, with or without alcohol), the properties of the seal materials can vary and therefore be more or less suitable.

The document GB-2,323,597 discloses a joint consisting of an alloy comprising firstly a crosslinked elastomeric material, that is to say vulcanized, and secondly a thermoplastic material and / or a non-crosslinked elastomeric thermoplastic material. This type of alloy may be inappropriate in contact with the HFC propellant.

It is an object of the present invention to provide valve gaskets that fulfill the above requirements optimally regardless of the nature of the propellant (HFC-134a or HFC-227, with or without alcohol).

The present invention also aims to provide a valve seal intended to come into contact with a fluid product and a propellant of the HFA type (HFC-134a or HFC-227) with or without alcohol, which guarantees mechanical properties and / or optimum swelling properties and / or coefficient of friction and / or propellant sealing and / or moisture resistance.

It is another object of the present invention to provide valve seals which are simple and inexpensive to manufacture.

The present invention therefore relates to a valve seal for sealing a fluid dispensing device comprising a valve, in particular a metering valve, mounted on a product reservoir, characterized in that said seal comprises an alloy vulcanized ethylene vinyl acetate (EVA) and / or butyl (TIR) or halobutyl (CIIR or BIIR) vulcanized with one or more material (s) selected from the group consisting of ethylene polyoctene (POE) ethylene propylene (EP), ethylene propylene diene (EPDM) and chloroprene (CR), all of these materials being vulcanized.

Advantageously, said seal comprises ethylene propylene (EP) or ethylene propylene diene (EPDM).

Advantageously, said seal comprises polyoctene ethylene (POE).

Advantageously, said seal further comprises one or more other ingredient (s) such as mineral fillers and / or carbon black fillers and / or vulcanizing agents and / or dyes and / or wetting agents. and / or plasticizers.

The subject of the present invention is also a device for dispensing a fluid product, comprising a valve, in particular a metering valve, provided with a movable valve, said valve being mounted on a reservoir containing the fluid product and a propellant, the device comprising less a neck seal between the valve and the reservoir and at least one dynamic seal in which said valve slides, at least one of said seals being made according to the present invention.

Preferably, the propellant comprises a gas of the type HFC-134a or HFC-227, with or without alcohol.

According to a first variant, the seal comprises as base polymer essentially a vulcanized ethylene vinyl acetate elastomer (EVA).

It turns out that in contact with a propellant of the HFC-134a or HFC-227 type, with or without alcohol (for example ethanol), it has good mechanical properties and low swelling. It is thus particularly suitable for use as a dynamic seal. Of course, it can also be used as a neck seal in such an aerosol device to seal between the valve and the reservoir containing the product and the propellant. It also has the advantage of easily combining with other vulcanized elastomeric materials, such as polychloroprene (CR), polyoctene ethylene (POE), butyl (IIR), halobutyl (CIIR or BIIR), l ethylene propylene (EP) or ethylene propylene diene (EPDM) vulcanized. This makes it possible to optimize the properties of the joints, in particular as a function of the type of propellant (HFC-134a or HFC-227, with or without alcohol) and / or of the active ingredient to be dispensed.

The addition of vulcanized polyoctene guarantees, in particular, low swelling properties in contact with HFC propellants.

The addition of vulcanized ethylene propylene (EP) or of vulcanized ethylene propylene diene (EPDM) makes it possible to obtain small swellings for the joints, in particular with HFC type propellants, while maintaining a good level of mechanical properties, at a reasonable manufacturing cost.

The addition of vulcanized polychloroprene (CR) makes it possible to obtain joints having good mechanical properties and having low swelling in HFC type propellants.

As a variant, it is also conceivable to produce seals comprising as vulcanized butyl base elastomer component (TIR) or halobutyl (CIIR or BIIR). This type of seal has good moisture resistance as well as low swellings in HFC type propellants. Alloys with POE and / or EP and / or EPDM and / or vulcanized CR (s) can efficiently optimize the different properties.

All of the seal materials described above are vulcanized and may further include one or more other ingredient (s), generally well known in the field of joints. In particular, the seal formulations may include mineral fillers or black carbon fillers, vulcanizing agents, colorants, processing agents or plasticizers.

The valve seals for aerosol dispensers according to the invention can therefore be used in a large number of applications, their formulation mainly depending on the particular mechanical and sealing requirements as well as the products and thrusters to be brought into contact with said seals.

The ease of manufacture and the moderate cost are also advantageous aspects of the seals of the present invention.

Claims (6)

1. A valve gasket for sealing a fluid dispenser device comprising a valve, in particular a metering valve, mounted on a fluid reservoir, said gasket being characterized in that it comprises an alloy of vulcanized ethylene vinyl acetate (EVA) and/or of butyl (IIR) or of vulcanized halobutyl (CIIR or BIIR) with one or more materials selected from the group constituted by polyoctene ethylene (POE), ethylene propylene (EP), ethylene propylene diene monomer (EPDM) and chloroprene rubber (CR), all of these materials being vulcanized.
2. A gasket according to claim 1, in which said gasket comprises ethylene propylene (EP) or ethylene propylene diene monomer (EPDM).
3. A gasket according to claim 1 or claim 2, in which said gasket comprises polyoctene ethylene (POE).
4. A gasket according to any preceding claim, in which said gasket comprises one or more other ingredients such as inorganic fillers and/or carbon black fillers and/or vulcanization agents and/or dyes and/or processing agents and/or plasticizers.
5. A fluid dispenser device comprising a valve, in particular a metering valve, provided with a moving valve member, said valve being mounted on a reservoir containing the fluid and a propellant, the device including at least one neck gasket between the valve and the reservoir, and at least one dynamic gasket in which said valve member slides, said dispenser device being characterized in that at least one of said gaskets is made in accordance with any one of claims 1 to 4.
6. A fluid dispenser according to claim 5, in which the propellant comprises an HFC-134a or HFC-227 gas, with or without alcohol.