PT94199A - PRESSURE REGULATOR FOR CONTAINERS WITH SPRAY AND MEMBRANE USED ON THE SAME - Google Patents

Description

S.McD. MURPHY & PARTNERS LTD. " PRESSURE REGULATOR FOR CONTAINERS WITH SPRAYER AND MEMBRANE USED INTO THE SAME " The present invention relates to a pressure regulator for spray containers, in particular a pressure regulator which uses a valve which is placed between a reservoir which is to be filled with a gas at a high pressure and the reservoir for use of the reservoir. container with spray, and a membrane that commands the valve. The present invention also relates to the membrane used in the regulator.

It is known that a spray container can be packed with a pressure cap to place the product to be sprayed under pressure.

Such a pressure capsule consists mainly of a pressure vessel which is intended to be filled with a high pressure gas and a pressure regulator which releases the gas from the pressure vessel into the reservoir for use of the spray vessel so that a well defined pressure is generated which is necessary for the dispersion of the product. The pressure regulator also retains the constant pressure in the use tank.

As is known, such a pressure regulator has a movable wall, for example a membrane, which can cooperate with said valve body. With the known embodiments,

the movable wall is brought under pressure, on the one hand, by the pressure which is created in the spray container and, on the other hand, by means of elastic means acting on the membrane, which are constituted by a spring placed in a closed chamber, or an amount of compressed gas at a well defined pressure, considerably higher than atmospheric pressure, or a combination of the two.

These known pressure regulators have the disadvantage that their construction is relatively expensive, considering that in an automated manufacturing process special means must be provided, either for the placement of said springs or for the filling of the chamber located on one side of the membrane with gas under pressure. In the manufacture of the spray containers it is also a primary requirement, for reasons of economy, the possibility of being manufactured with the minimum number of manufacturing steps. The present invention also relates to a pressure regulator for spray containers which can be manufactured in a particularly simple manner, in which the above-mentioned phase or the setting of the spring or the installation of a well defined pressure in a space situated along one side of the membrane.

To this end, the present invention consists of a pressure regulator for spray containers, in particular using a valve which is placed between a reservoir intended to be filled with a gas at an elevated pressure and the reservoir,

Wherein the pressure regulator has a membrane which, mainly by means of its own elasticity, provides the control operation of the valve. In the most preferred embodiment the pressure regulator does not then also have any other individual and separate means specially designed for the production of a well-defined reaction force on the membrane. The desired strength of the control force can be obtained for example by adjusting the thickness of the membrane wall, giving the membrane a pre-tension, or also by adjusting the membrane displacement before the valve (9) is closed.

Preferably the membrane is made of plastic. In the most preferred embodiment, polyacetal or a polyacetal-based plastic is used.

Other plastics, such as polyamides, polysulfone and polypropylene, may also be used.

In order to better present the features of the present invention, some preferred and non-limiting preferred embodiments are described below with reference to the accompanying drawings, which figures show. FIG. 1, in cross-section, a spray nozzle using a pressure regulator according to the present invention; FIG. 2, the spray container of Fig. 1 to another position of the throttle; and

FIG. 3, a variant of the present invention.

In Fig. 1 is schematically depicted a spray container with a pressure cap. The spray container consists, as is known, in a reservoir (1) for the product (2) to be dispensed, a valve (3) for dispensing the product (2) and a push-button (4) for operating the valve ), which is provided with an outlet such as an opening (5) for spraying. The pressure cap which cooperates with the spray container can comprise a pressure vessel 6, for example provided with a filling opening 7 and a pressure regulator 8. The pressure regulator 8 consists mainly of a valve 9 and a membrane 10 which can control the valve 9. The valve 9 is constituted by a valve body 11, placed in the passage 12 between the pressure reservoir 6 and the reservoir 1 and connected to the membrane 10 via a valve axis 13). The passageway (12) first opens into a chamber (14) which is connected to the reservoir (1) through the aperture (15). The ring (16) exclusively performs the check valve function here.

A chamber (17) is situated above the membrane (10) which prevents the pressure of the reservoir (1) from acting on the su-prior part of the membrane (10). The particularity of the present invention resides in that the pressure regulator has a membrane which, mainly by means of its own elasticity, provides the operation

to control the valve (9). As explained in the introduction, this has the advantage that it does not require any spring to be installed in the chamber (17), nor of a gas at a well defined pressure. It is also evident that an atmospheric pressure normally prevails in the chamber (17) from the assembly, which is irrelevant to the control operation.

In Fig. 2, the operation of the pressure regulator is shown.

In this case, the pressure reservoir 6 is brought under pressure with the consequence that the chamber 14 and the reservoir 1 fill with gas from the reservoir 6, whereby the membrane 10 is elastically stretched to the position of Fig. 2, the downward force resulting from the elasticity of the membrane 10 being chosen by membrane construction so that the valve 9 reopens as soon as the pressure in the reservoir 1 becomes lower than a set value.

In Fig. 3 is another variant, in which the membrane has two functions and is made in the form of a bellows. By pressing the bellows, the wall (18) of the full pressure reservoir (6) is pierced, thus putting the pressure regulator (8) in operation. The valve closure (9) is determined almost exclusively by the reaction force caused by the elasticity of the membrane (10).

In the most preferred embodiment a membrane (10) as shown in Fig. 1, which is circular and has an annular shaped portion (19) with an arcuate cross-section. The present invention is in no way limited to the embodiments described as examples and shown in the drawings, in fact this pressure regulator for spray containers and the membrane used therein can be developed in any shape and size, without check one of the scope of the present invention.

Claims (11)

A pressure regulator for spray containers, in particular using a valve (9), placed between a reservoir (6) which is intended to be filled with a gas at a high pressure and a reservoir for use (1) of the and a membrane (10) which controls the valve (9), characterized in that the pressure regulator (8) has a membrane (10) which, mainly by means of its own elasticity, provides the control operation of the valve. valve (9). 2. The pressure regulator according to claim 1, characterized in that, in order to control the pressure, in other words, for the movement of the valve (9), it uses only a resilient elastic membrane (10), which provides the control force by means of its elasticity. 3.- The pressure regulator according to claim 1 or 2, characterized in that the membrane is made of plastic. A pressure regulator according to any one of claims 1 to 3, characterized in that the membrane is mainly circular, in that the membrane (10) has an annular shaped part (19) with an arcuate cross-section and that the body valve (11) of said valve (9) is mounted in the middle of the membrane, more especially in one piece therewith. A membrane for pressure regulators for containers with a sprayer, more particularly for a pressure regulator according to any one of claims 1 to 4, characterized in that the membrane (10) is made of polyacetal-based plastic. A membrane according to claim 5, characterized in that it is made mainly of polyacetal. 7. A membrane for pressure regulators for spray containers, more particularly for a pressure regulator according to one of claims 1 to 4, characterized in that it is mainly made of polyamide. 8. - Membrane for pressure regulators for containers with spray, more especially for a pressure regulator according to any one of claims 1 to 4, characterized in that it consists mainly of polysulfone. 9. A membrane for pressure regulators for spray containers, more especially for pressure regulators according to any one of claims 1 to 4, characterized in that it consists mainly of polypropylene. A membrane according to any one of claims 5 to 8, characterized in that it is circular and has an annular shaped part (19) with an arcuate cross-section. A membrane according to any one of claims 5 to 8, characterized in that it is in the form of a bellows, Lisbon, May 30, 1990 The Official Supplier of Industrial Property 1 L *