FR3091744A1 - Gas distribution valve - Google Patents

Abstract

The invention relates to a gas distribution valve (1) comprising a valve body (2) crossed by at least one internal fluid passage (10), and on which is mounted a pressure sensor device (3), and optionally temperature, and an electronic box (4). The electronic box (4) is secured to the pressure sensor device (3) by means of a deformable connecting piece (7). The deformable connecting piece (7) is sandwiched between at least one rigid wall (41) of the electronic box (4) and the outer peripheral surface (31) of the pressure sensor device (3), and is formed of elastomer or metal. Gas container (11) equipped with a gas distribution valve (1) according to the invention, in particular a gas cylinder, and its use for storing or distributing a gas or a gas mixture, in particular a gas or mixture medical gas chosen from oxygen, air, an N2O / O2, He / O2 or NO / nitrogen mixture. Abstract figure: Fig. 1

Description

Gas distribution valve

The invention relates to a gas distribution valve comprising a valve body to which an electronic device is fixed and a deformable element inserted between the valve body and the electronic device so as to absorb shocks or the like and thus protect the device electronics, and a gas container, such as a gas bottle, equipped with such a valve.

Industrial and medical gases are usually stored in gas containers, such as gas cylinders, at pressures that can reach several hundred bars, for example 300 bars or more.

In order to then be able to distribute the gas, a gas container is generally equipped with a tap, also called tap block, valve or valve block, which may or may not include a gas expansion system to reduce the gas pressure up to a pressure compatible with its use. The valve is often protected by a protective cowling or "cap" serving to protect it mechanically against shocks or the like.

In addition, an electronic box is often mounted on the valve to allow the user to know, at any time, the gas pressure in the container and therefore indirectly the quantity of gas it contains. Typically, such an electronic box contains fragile electronic components, for example an electronic card with a microprocessor, and is fixed to the valve of a gas container by means of a pressure sensor arranged on and itself integral with the valve, which is used to measure the pressure of the fluid that is conveyed by the valve.

In other words, the box protects the fragile electronic components against external aggressions, such as shocks, dust, condensation, etc... and is connected to the valve of the gas container by a part of the pressure sensor which is a more fragile element. , then serving as a direct rigid mechanical connection between valve and box.

However, this direct rigid connection between the housing and the valve body, which is ensured by part of the pressure sensor, also undergoes many constraints and therefore constitutes a "weak point" of the assembly.

Thus, when a gas cylinder equipped with such a valve is subjected to vibrations, during its transport for example, these vibrations are transmitted to the electronic box via the pressure sensor which acts as a rigid connection between the body of the faucet and electronic box, and can damage the fragile components it contains.

Therefore, the problem that arises is that such an electronic box and associated pressure sensor must, to fully perform their roles, be designed in such a way as to be able to absorb external mechanical forces, such as assembly, transport, vibrations, falls, shocks, and those resulting from slight manufacturing defects of the parts which constitute them or which constitute other components, and also impermeable to fluids, in particular to gases and condensation water.

The solution of the invention then relates to a gas distribution valve for a pressurized fluid container comprising a valve body on which is mounted a pressure sensor device, and an electronic box, said electronic box being secured to the pressure sensor device via a deformable connecting piece.

• Selon le mode de réalisation considéré, le robinet de distribution de gaz de l'invention peut comprendre l'une ou plusieurs des caractéristiques suivantes :
• la pièce de liaison déformable est prise en sandwich entre au moins une paroi rigide du boitier électronique et la surface périphérique externe du dispositif capteur de pression.
• la paroi rigide du boitier électronique constitue une partie de la coque ou carcasse du boitier.
• le boitier électronique comprend une coque ou carcasse externe en matériau rigide non-déformable, en particulier en métal, en polymère ou analogue.
• la pièce de liaison déformable est en élastomère ou en métal, ou les deux.
• la pièce de liaison déformable est une pièce annulaire, une membrane ou une pièce à soufflets, c'est-à-dire en « accordéon ».
• la pièce de liaison déformable est fabriquée par injection ou surmoulage.
• la pièce de liaison déformable est mise en place et/ou fixée au boitier électronique et au dispositif capteur de pression par déformation élastique, collage, montage en force ou thermoformage.
• le corps de robinet est en métal ou alliage métallique, notamment en laiton, en acier inoxydable ou les deux.
• le boitier électronique comprend un écran d’affichage, en particulier un écran à affichage digital.
• le corps de robinet est traversé par au moins un passage interne de fluide, c'est-à-dire un ou plusieurs passages internes de fluide, tels des perçages ou analogues.
• le boitier électronique contient une carte électronique à microprocesseur, de préférence à microcontrôleur.
• le dispositif capteur de pression est agencé de manière à opérer une mesure de pression au sein du passage interne de fluide et est relié électriquement à la carte électronique pour lui transmettre des signaux de mesure de pression.
• le dispositif capteur de pression est relié électriquement à la carte électronique par l’intermédiaire de fils de raccordement électrique ou analogue.
• il comprend un système de détente de gaz intégré (RDI), de préférence incluant un clapet, un siège de clapet etc…
• le boitier électronique comprend une paroi de fond, une paroi périphérique et une paroi supérieure, de préférence la paroi périphérique relie la paroi de fond à la paroi supérieure.
• l’écran d’affichage est agencé dans ou porté par la paroi supérieure.
• le dispositif capteur de pression est solidarisé à la paroi de fond du boitier électronique par l’intermédiaire de la pièce de liaison déformable.
• le dispositif capteur de pression comprend en outre des moyens de mesure de la température permettant de mesurer ou estimer la température du gaz.
• il est un robinet simple contrôlant uniquement le débit de gaz.
• il est un robinet à détendeur intégré, encore appelé RDI, permettant de contrôler débit et pression du gaz délivré.
• il comprend en outre un volant rotatif contrôlant le débit de gaz, un raccord de sortie de gaz, un raccord de remplissage, et/ou un levier d’isolement du gaz.

In other words, according to the invention, the connection between the housing and the valve body is no longer a direct rigid connection but an indirect flexible connection which is ensured by a deformable connecting piece which is inserted between them. ci, which is configured to and / or capable of absorbing all or part of the shocks, vibrations or other stresses in order to inhibit them and / or at least damp them and thus preserve at least partially the electronic box.

• According to the embodiment considered, the gas distribution valve of the invention may comprise one or more of the following characteristics:
• the deformable connecting piece is sandwiched between at least one rigid wall of the electronic box and the outer peripheral surface of the pressure sensor device.
• the rigid wall of the electronic box constitutes a part of the shell or carcass of the box.
• the electronic box comprises an outer shell or carcass made of non-deformable rigid material, in particular metal, polymer or the like.
• the deformable connecting piece is made of elastomer or metal, or both.
• the deformable connecting piece is an annular piece, a membrane or a piece with bellows, that is to say "accordion".
• the deformable connecting piece is manufactured by injection or overmoulding.
• the deformable connecting piece is put in place and/or fixed to the electronic box and to the pressure sensor device by elastic deformation, gluing, force fitting or thermoforming.
• the valve body is made of metal or metal alloy, in particular brass, stainless steel or both.
• the electronic box comprises a display screen, in particular a digital display screen.
• the valve body is traversed by at least one internal fluid passage, that is to say one or more internal fluid passages, such as holes or the like.
• the electronic box contains an electronic card with a microprocessor, preferably a microcontroller.
• the pressure sensor device is arranged so as to perform a pressure measurement within the internal fluid passage and is electrically connected to the electronic card to transmit pressure measurement signals to it.
• the pressure sensor device is electrically connected to the electronic card via electrical connection wires or the like.
• it includes an integrated gas expansion system (RDI), preferably including a valve, a valve seat, etc.
• the electronic box comprises a bottom wall, a peripheral wall and an upper wall, preferably the peripheral wall connects the bottom wall to the upper wall.
• the display screen is arranged in or carried by the upper wall.
• the pressure sensor device is secured to the bottom wall of the electronic box via the deformable connecting piece.
• the pressure sensor device further comprises means for measuring the temperature making it possible to measure or estimate the temperature of the gas.
• it is a simple valve controlling the gas flow only.
• it is a valve with an integrated regulator, also called RDI, allowing the flow rate and pressure of the gas delivered to be controlled.
• it further comprises a rotary wheel controlling the flow of gas, a gas outlet connector, a filling connector, and/or a gas isolation lever.

The invention relates to a gas container equipped with a gas distribution tap according to the invention.

• il contient un gaz ou mélange gazeux choisi parmi l’oxygène, l’air, un mélange N₂O/O₂, He/O₂ou NO/azote, ou tout autre gaz ou mélange gazeux.
• il est choisi parmi les bouteilles ou bonbonnes de gaz.
• il a une taille comprise entre 40 cm et 150 cm, typiquement entre 50 et 105 cm.
• il contient de 2 à 50 litres, par exemple de 9 à 26 litres (contenance en équivalent eau).
• il a un corps cylindrique creux.il comprend un col portant un orifice de sortie du gaz au niveau duquel est fixé le robinet.
• il est en acier, en un alliage d’aluminium ou en matériau composite.
• il contient un gaz à une pression supérieure à 1 bar abs allant jusqu’à 350 bar abs environ.
• il est équipé d’un capotage de protection agencé autour du robinet.
• le capotage comprend une ou plusieurs ouvertures donnant accès au robinet, en particulier au volant rotatif, au raccord de sortie de gaz, au boitier électronique et/ou au raccord de remplissage.
• le capotage est formé, en tout ou en partie, en polymère ou en métal ou alliage métallique.

Depending on the case, the gas container according to the invention may comprise one or more of the following technical characteristics:

• it contains a gas or gas mixture chosen from oxygen, air, an N ₂ O/O ₂ , He/O ₂ or NO/nitrogen mixture, or any other gas or gas mixture.
• it is chosen from gas cylinders or cylinders.
• it has a size between 40 cm and 150 cm, typically between 50 and 105 cm.
• it contains from 2 to 50 liters, for example from 9 to 26 liters (capacity in water equivalent).
• it has a hollow cylindrical body. it comprises a neck carrying a gas outlet orifice at which the tap is fixed.
• it is made of steel, an aluminum alloy or a composite material.
• it contains a gas at a pressure greater than 1 bar abs up to approximately 350 bar abs.
• it is equipped with a protective cover arranged around the valve.
• the cowling comprises one or more openings giving access to the valve, in particular to the rotary wheel, to the gas outlet connector, to the electronic box and/or to the filling connector.
• the cowling is formed, in whole or in part, of polymer or of metal or metal alloy.

The invention will now be better understood thanks to the following detailed description, given by way of illustration but not limitation, with reference to:

which schematizes a gas distribution valve according to the invention arranged on a gas cylinder and protected by a protective cowling.

schematizes a gas distribution valve 1 according to the invention mounted on a pressurized gas container 11, namely here a bottle or gas canister (partially shown), and protected by a cowling 13 or "cap" of rigid protection, for example made of metal or polymer, which is fixed to the neck 14 of the gas container 11. This gas distribution valve 1 comprises a valve body 2, for example made of brass, through which one (or more) passage(s) internal gas 10 allowing the gas to be routed from the internal volume 12 of the gas container 11 where the gas is stored under pressure, to one (or more) distribution nozzle (not shown), also called the outlet connector, to deliver the gas to the user. The internal gas passage 10 is in fluid communication with the internal volume 12 of the gas container 11. In general, the valve body 2 is formed of a metal or metal alloy, such as a brass, a stainless steel or a combination of the of them.

The gas distribution valve 1 is fixed to the neck 14 of the gas container 11 by screwing, via a fixing end piece 9 forming part of the valve body 2. The fixing end piece 9 is crossed by the gas passage 10. The fixing piece 9 is of cylindrical or frustoconical shape.

A gas expansion system (not shown) can be inserted on the internal gas passage 10 so as to reduce the pressure of the gas contained in the container 11, called "high pressure" or "HP", down to a lower pressure. of use, called "low pressure" or "LP". For example, the gas can be stored in the internal volume 12 of the gas container 11 at a pressure that can reach 300 bars or more, and undergo expansion down to a low pressure of the order of 4 bars or less. In this case, we speak of a valve with an integrated regulator or RDI.

The gas distribution valve 1 is also equipped with a pressure measuring device 3, more simply called "pressure sensor" which is fixed directly to the body 2 of the valve so as to be able to carry out pressure measurements in the passage of gas 10, either directly within the gas passage 10, or indirectly, for example via a measurement channel (not shown) in fluid communication with said gas passage 10.

The pressure measurements (i.e. signals) operated by the pressure sensor 3 are transmitted to an electronic box 4 containing sensitive electronic components, in particular an electronic card 5 with a microprocessor making it possible to process the pressure measurements.

The electronic box 4 also includes a display screen 43, such as a digital display, in color or in black and white, for example liquid crystal, LED or other, making it possible to display the pressure values measured or other data, for example a residual autonomy in gas calculated or estimated from the measured pressure values and possibly from a fixed or measured temperature value.

According to the invention, the electronic box 4 is secured indirectly to the pressure sensor 3 via a deformable connecting piece 7, which is sandwiched between the rigid bottom wall 41 of the electronic box 4 and the peripheral surface external 31 of the pressure sensor 3.

This deformable connecting piece 7 makes it possible to absorb all or part of the vibrations or other stresses liable to propagate from the body of the bottle 11 to the electronic box 4 and this, via the pressure sensor 3.

Advantageously, the deformable connecting piece 7 is made of elastomer or metal. In the embodiment presented, it is an elastomer part of annular shape; however, it could take another shape and/or be made of another material, for example a membrane or a piece with bellows, that is to say in the shape of an "accordion", in particular of metal.

Depending on the embodiment chosen, the deformable connecting piece 7 can be manufactured by injection or overmoulding, and/or put in place and/or fixed to the electronic box 4 and/or to the pressure sensor 3 by elastic deformation, gluing, mounting by force or thermoforming. It can therefore have a one-piece structure or one formed from several sub-units assembled together.

As seen in [FIG. 1], the deformable connecting piece 7 forms a sleeve around part of the pressure sensor 3 and moreover comes to protect at least the underside, that is to say the bottom 41 of the case 4.

In general, the invention also relates to a use of a gas container equipped with a gas distribution valve according to the invention, in particular those described with reference to [FIG. 1], for storing or distributing a gas or a gas mixture, in particular a medical gas or gas mixture chosen from oxygen, air, an N ₂ O/O ₂ , He/O ₂ or NO/nitrogen mixture , or any other gas or gas mixture.

Claims (10)

Gas distribution valve (1) comprising a valve body (2) on which is mounted a pressure sensor device (3), and an electronic box (4), characterized in that the electronic box (4) is secured to the pressure sensor device (3) via a deformable connecting piece (7). Valve (1) according to the preceding claim, characterized in that the deformable connecting piece (7) is sandwiched between at least one rigid wall (41) of the electronic box (4) and the outer peripheral surface (31) of the device pressure sensor (3). Valve (1) according to one of the preceding claims, characterized in that the deformable connecting piece (7) is made of elastomer or metal. Valve (1) according to one of the preceding claims, characterized in that the deformable connecting part (7) is an annular part, a membrane or a bellows part. Valve (1) according to one of the preceding claims, characterized in that:
- the valve body (2) is crossed by at least one internal fluid passage (10),
- the electronic box (4) contains an electronic card (5) with microprocessor and
- the pressure sensor device (3) is arranged so as to perform a pressure measurement within the internal fluid passage (10) and is electrically connected (6) to the electronic card (5) to transmit measurement signals to it of pressure. Faucet (1) according to one of the preceding claims, characterized in that the electronic box (4) comprises a display screen (43). Valve (1) according to one of the preceding claims, characterized in that the pressure sensor device (3) further comprises means for measuring the temperature. Valve (1) according to one of the preceding claims, characterized in that the valve body (2) is made of metal or metal alloy, in particular brass or stainless steel, and/or it comprises an integrated gas expansion system (RDI). Gas container (11) equipped with a gas dispensing valve (1) according to one of the preceding claims, in particular a gas cylinder. Use of a gas container (11) according to claim 9 for storing or distributing a gas or a gaseous mixture, in particular a medical gas or gaseous mixture chosen from oxygen, air, an N ₂ O/O ₂ , He/O ₂ or NO/nitrogen.