FR2970538A1 - Selective gas i.e. oxygen flow adjusting device for tap in pressurized oxygen bottle, has annular elastomeric seals provided on either side of plate for sealing between gas inlet and gas outlet - Google Patents

Abstract

The device has a body (5) including a plate (2) with orifices of calibrated dimensions corresponding to respective gas flow rates. The plate includes an upstream face exposed to a gas inlet (6) and a downstream face for linking with a gas outlet to regulate the flow of gas between the inlet and the outlet. A knob (4) is rotatably mounted on the body for placing between the inlet and the outlet. Annular elastomeric seals (8) are provided on either side of the plate for sealing between the inlet and the outlet, where some of the seals are in direct contact with the plate. An independent claim is also included for a tap.

Description

The present invention relates to a device for selectively adjusting a gas flow and a valve and a bottle provided with such a device. The invention more particularly relates to a device for selectively adjusting a gas flow rate comprising a body housing a plate provided with a plurality of calibrated orifices of determined dimensions corresponding to respective gas flow rates, the plate comprising an upstream face intended to to be exposed to a gas inlet and a downstream face for connection with a gas outlet for regulating the flow of gas between the inlet and the outlet via an orifice, the device comprising a wheel rotatably mounted on the body, the wheel being rotatably connected to the plate for disposing between the inlet and the outlet selectively, either a determined orifice or a portion without orifice of the plate, the device comprising seals on either side of the platinum to seal between inlet and outlet. Medical gas cylinder valves, in particular, generally include a gas expander and, downstream of the expander, a flow control system for controlling the flow rate supplied to a patient. Different predetermined flow rate values are displayed and are obtained via discrete calibrated orifices selected via an adjustment wheel. Maintaining a perfect seal at the perforated plate is generally difficult to obtain. An object of the present invention is to overcome all or part of the disadvantages of the prior art noted above. To this end, the device according to the invention, furthermore in accordance with the generic definition given in the preamble above, is essentially characterized in that at least a portion of the seals are in direct contact with the plate. Furthermore, embodiments of the invention may include one or more of the following features: the device comprises at least one annular seal called "upstream" disposed on the side of the upstream face of the plate, the upstream gasket having a first end 30 disposed in a housing of the body around a channel forming the gas inlet and a second end in sealing engagement on the upstream face of the plate, the second end of the upstream seal forming a sealing zone between the platinum and the inlet and in particular a sealing zone surrounding an orifice selectively disposed within the sealing zone, the at least one upstream annular seal is a four-lobe type seal forming a circular sealing zone on the face of the plate, - the device comprises at least one annular seal said "downstream" disposed on the side of the downstream face of the plate, the downstream seal having a first end disposed in a lo the body around a channel forming the gas outlet and a second end sealingly abutting the downstream face of the plate, the second end of the downstream seal forming a sealing zone between the plate and the outlet to surround an orifice selectively disposed within the sealing zone, the at least one downstream annular seal is a four-lobed type seal forming a circular sealing zone on the face of the plate, the plate comprises or consists of electrodeposited metal, in particular nickel, the wheel comprises a plastic which is overmolded on and through the plate, the body comprises plastic and defines a gas outlet connection connected to the gas outlet, the joint or joints are crushed on the plate, the internal diameter of the seals being greater than the diameter of the calibrated orifices.

The invention also relates to a pressurized gas valve, comprising an outlet fitting and a device for selectively adjusting the gas flow delivered at the outlet connection, the selective flow control device being in accordance with any of the features above or below. The invention also relates to a pressurized gas cylinder comprising such a valve. The invention may also relate to any alternative device or method comprising any combination of the above or below features. Other features and advantages will appear on reading the description below, with reference to the figures in which: - Figure 1 shows a perspective view of an example of a selective flow control device according to the invention, FIG. 2 represents a perspective view of a detail of FIG. 1 illustrating the assembly of a perforated plate and an operating wheel; FIG. 3 represents a sectional view of the device of FIG. 1; FIG. 4 represents an enlarged view of a detail of FIG. 3; FIG. 5 represents a sectional view of the device of FIG. 1 mounted on an expansion valve; FIG. 6 represents a schematic view of a valve; mounted on a gas bottle.

Referring to the figures, the device for selectively adjusting a gas flow rate comprises a body 5, for example made of plastic, housing a plate 2 provided with a plurality of calibrated orifices 3 of determined dimensions corresponding to flow rates of respective gas.

The plate 2 is preferably in the form of a perforated disc at its center and a plurality of calibrated orifices 3 distributed angularly around its center. The plate 2 is for example made of electrodeposited metal, in particular nickel or any other suitable material. For example, the platinum has a thickness of between 50 μm and a few millimeters, for example 70 μm. The plate 2 is secured to a knob 4 manual operation. For example, the wheel 4 is made of plastic and is overmolded on and through the plate 2 and in particular through the central opening of the plate 2 (see Figure 3). The wheel 4, however, does not cover at least a portion of the plate 2 comprising the orifices 3. The wheel 4 preferably forms an axis 11 on either side of the plate 2. These two ends of the axis 11 are mounted in rotation in the body 5. As shown in Figure 1, a portion of the edge (preferably notched) of the wheel 4 protrudes out of the body 5 to allow manipulation by a user. The body 5 defines a gas inlet channel 6 which receives gas upstream, for example at the outlet of a gas expander 12 of a tap 10 of a gas cylinder under pressure (see FIG. . The inlet channel 6 opens at an upstream face of the plate 2, at the level of the angular sector provided with the orifices 3.

The body 5 also defines a gas outlet channel 7 which receives gas having passed through the plate 2 to an outlet outer connection 9 intended to be connected to a pipe and / or a gas user device. Thus, according to the angular position of the wheel 4 relative to the inlet 6 and outlet 7, either a determined orifice 3 or a portion without an orifice of the plate 7 is interposed between the inlet 6 and the outlet 7. To ensure the sealing at this level, the device comprises seals 8 sealing on both sides of the plate 2 (in particular to ensure the seal between the inlet 6 and the outlet 7 and the rest of the device). According to an advantageous feature, at least a portion of the seals 8 are in direct contact with the plate 2. For example, the sealing of the upstream side (on the inlet side 6) comprises an annular ring 8 called "upstream" of which a first end disposed in an annular housing 15 of the body 5, around the gas inlet channel. The second end of this upstream seal is in sealing engagement on the upstream face of the plate 2. This second end of the upstream gasket 8 forms a circular sealing zone between the plate 2 and the inlet 6. This sealing zone surrounds an orifice 3 selectively disposed opposite the seal 8.

Symmetrically, the downstream side comprises an annular seal 8 "downstream" having a first end disposed in a housing 25 of the body (5) around the outlet channel 7. The second end of the downstream gasket 8 is in sealing abutment on the downstream face of the plate 2 and forms a sealing zone between the plate 2 and the outlet 7. This sealing zone surrounds an orifice 3 when it is placed vis-à-vis this seal 8. Advantageously the joints 8 each consist of an annular seal 8 annular elastomer type four lobes "quadrilobes". Of course, other types of joints may be envisaged, for example O-rings.

The applicant has found that this configuration considerably reduces the risk of leakage compared to the solutions of the prior art. This configuration also limits the deformation of the inside diameter of the seal. Indeed, during the crushing of the seal, the inner diameter of the seal is not less than the diameter of the calibrated hole and therefore does not alter the value of the output flow.

As represented in FIG. 5 and in FIG. 6, the selective flow control device can be fixed, for example by screwing onto the body of an integrated or non-integrated pressure reducing valve 10, for example a stirrup type expansion valve. This valve 10 can be conventionally mounted in the opening of the neck of a pressurized gas cylinder, for example oxygen under pressure.

Claims (11)

REVENDICATIONS1. Device for selectively adjusting a gas flow rate comprising a body (5) housing a plate (2) provided with a plurality of calibrated orifices (3) of determined dimensions corresponding to respective gas flow rates, the plate (2) comprising an upstream face for exposure to a gas inlet (6) and a downstream face for connection with a gas outlet (7) for regulating the flow of gas between the inlet (6) and the outlet ( 7) via an orifice (3), the device comprising a wheel (4) rotatably mounted on the body (5), the wheel (4) being integral in rotation with the plate (2) to arrange between the inlet (6) and the outlet (7) selectively, either a determined orifice (3) or a non-orifice portion of the plate (7), the device comprising seals (8) sealing on both sides of the plate (2). ) for sealing between the inlet (6) and the outlet (7), characterized in that at least a part of the seals (8) is in contact direct with the turntable (2). 2. Device according to claim 1, characterized in that it comprises at least one annular seal (8) said "upstream" disposed on the side of the upstream face of the plate (2), the seal (8) upstream having a first end disposed in a housing (15) of the body (5) around a channel forming the gas inlet and a second end in sealing engagement on the upstream face of the plate (2), the second end of the seal (8) upstream forming a sealing zone between the plate (2) and the inlet (6) and in particular a sealing zone surrounding an orifice (3) selectively disposed within the sealing zone. 3. Device according to claim 2, characterized in that the at least one upstream annular seal (8) is a four-lobe type seal forming a circular sealing zone on the face of the plate (2). 4. Device according to any one of claims 1 to 3, characterized in that it comprises at least one seal (8) annular said "downstream" disposed on the side of the downstream face of the plate (2), the seal ( 8) downstream having a first end disposed in a housing (25) of the body (5) around a channel forming the gas outlet (7) and a second end in sealing engagement on the downstream face of the plate (2), the second end of the seal (8) downstream forming a sealing zone between the plate (2) and the outlet (7) to surround an orifice (3) selectively disposed within the sealing zone. 5. Device according to claim 4, characterized in that the at least one seal (8) downstream annular is a four-lobe type seal forming a circular sealing zone on the face of the plate (2). 6. Device according to any one of claims 1 to 5, characterized in that the plate (2) comprises or consists of electrodeposited metal, in particular nickel. 7. Device according to any one of claims 1 to 6, characterized in that the wheel (4) comprises a plastic which is overmolded on and through the plate (2). 8. Device according to any one of claims 1 to 7, characterized in that the body (5) comprises plastic and defines a connection (9) of gas outlet connected to the outlet (7) of gas. 9. Device according to any one of claims 1 to 8, characterized in that the seal or seals (8) are crushed on the plate (2), the inner diameter of the seals being greater than the diameter of the calibrated orifices. 10. Pressurized gas valve, comprising an outlet connection (9) and a gas flow control device selectively provided at the outlet connection (9), characterized in that the selective flow control device is in accordance with in any one of claims 1 to 9. 11.Bottle of pressurized gas comprising a valve according to claim 10.