FR3026158A1 - GAS CONTAINER WITH FAUCET BLOCK EQUIPPED WITH TOUCH DISPLAY SCREEN - Google Patents

Abstract

The invention relates to a gas distribution assembly comprising a gas container equipped with a valve block, and an information display device comprising a touch screen type display screen. Preferably, the touch screen is arranged in a housing arranged in a protective cowling arranged around the valve block. Use of such a gas distribution assembly for storing or dispensing a gas or gas mixture.

Description

The invention relates to a gas distribution assembly comprising a gas cylinder, in particular a medical gas cylinder, a valve block, with or without an integrated expansion system fixed on the gas cylinder, and an information display device. comprising a display screen, and preferably a protective cover arranged around the valve block to protect it from shocks and dirt.

Industrial and medical gases are commonly packaged at high pressure in gas containers, typically gas cylinders, equipped with a valve block, with or without built-in expansion valve, namely a single tap open / closed type or a tap to integrated regulator, also called RDI, to control flow and pressure of the delivered gas.

In order to protect this valve block, it is common to arrange around said valve block, a protective cover forming a protective shell around the valve body. Such a cowling is commonly called "hat". Cowlings of this type are described in particular by the documents EP-A-629812, DE-A-10057469, US-A2004 / 020793 and EP-A-2586481.

Conventionally, the gases are conditioned at high pressure in the gas containers, such as gas cylinders, that is to say typically at pressures greater than 100 bar absolute, generally between 200 and 350 bar abs, or more. The high-pressure gas exiting the container must therefore be expanded before it can be used, that is to say its pressure must be reduced to a lower operating pressure, called low pressure, for example a pressure less than 20 bar abs, or even often less than 10 bar abs. The expansion of the gas can be done either directly in the valve block itself, when it is a built-in pressure regulator valve block, also called RDI, or downstream of the valve block by means of a pressure reducer device. gas.

In all cases, in order to measure and control the pressure of the gas contained in the bottle to which the valve block is attached, whether with or without a built-in pressure reducer, a pressure indicator device, such as a manometer, is generally used. the pressure tap is in fluid communication with the gas passage passing through the valve block and carrying the high pressure gas from the bottle. Similarly, it is also sometimes necessary to use a gas autonomy indicator device to determine the amount of residual gas in the gas container equipped with the valve block. This device can then be electronic in nature and present information via a display screen or one or more light indicators. However, such a device generally fulfills only a function of presenting the information.

It follows then that, when specific information is to be introduced into the information display device by the user: - either this is not possible, - or it is mandatory to resort to means of specific input, such as a button or buttons, or a dedicated device, which is not practical.

In view of this, the problem that arises is to improve the comfort and / or the ease of use of the information display device equipping a valve block gas distribution, typically for bottle or other gas container, avoiding the aforementioned drawbacks, in particular being able to enter information into said device or to activate and / or deactivate one or more functions of said device, in an easy and intuitive manner for the user, and without having to resort to a dedicated device or specific input means. The solution of the invention is then a gas distribution assembly comprising a gas container equipped with a valve block, and an information display device comprising a display screen, characterized in that said screen of display is a touch screen. As the case may be, a gas distribution assembly according to the invention may comprise one or more of the following technical characteristics: it furthermore comprises a protective covering arranged around said valve block, said touch screen being arranged within a housing arranged in said protective casing. it furthermore comprises at least one source of electrical energy and information processing means electrically connected to said source of electrical energy and to the information display device. - The information processing means comprise at least one electronic card comprising at least one calculating member. the information processing means comprise at least one electronic card comprising at least one microprocessor. the valve block comprises an internal gas passage and a pressure sensor fluidly connected to said internal gas passage so as to make it possible to measure the gas pressure within said internal gas passage, said pressure sensor being furthermore electrically connected to said source of electrical energy via the (or an) electronic card. said source of electrical energy comprises at least one battery. the pressure sensor is electrically connected to the electronic card and / or to the information display device. the touch screen allows the user to enter information into the information display device or activate or deactivate one or more functions of said information display device by exerting one or more digital pressures on said screen touch or with a stylus. - The information display device is attached to the valve or the wall of the cowling. - The gas container is a gas cylinder, also called a cylinder, shell or cylinder. - The cowling is made of a polymer material, for example plastic, composite, or metal or metal alloy, for example steel, cast iron, aluminum or an aluminum alloy. - The cover is made of plastic material, such as PVC, PE, PET, PP, PMMA, PU, PA ... It should be noted that the plastic material can be loaded or reinforced, it is that is to say added fiber for example. the protective casing comprises a carrying handle, preferably a carrying handle connected to the casing via one or more support posts. - The protective cowling further comprises a hooking device, preferably a mobile attachment device, by pivoting or translational, for hanging the assembly to a support, in particular a bed bar, to a stretcher. - The carrying handle and / or the support or amounts are formed of a rigid material selected from polymers and metals or metal alloys. - The carrying handle is generally longiforme. Typically, its length is between 5 and 20 cm, preferably between 6 and 15 cm. - The carrying handle overcomes the casing body. - The carrying handle is horizontal or almost horizontal and perpendicular to the vertical axis of the cowling (i.e. the axis of the cowling corresponds to the axis of the valve and / or the bottle). - The gas cylinder has a size between 10 and 150 cm. - the gas cylinder contains from 0.5 to 20 liters (capacity in water equivalent). - The gas cylinder has a hollow cylindrical body and comprises a neck carrying a gas outlet port at which is fixed the valve block, preferably by screwing. - The gas cylinder contains a gas or gas mixture, preferably a gas or gas mixture according to the specifications of the medical field (pharmacopoeia). the gas cylinder contains a gas or gas mixture chosen from oxygen, air, an N 2 O 2/2 mixture, an He / O 2 mixture, a NO / nitrogen mixture or any other gas or gaseous mixture. the bottle is made of steel, an aluminum alloy, a composite material or a combination of several of these materials. - the bottle contains gas at a pressure up to about 350 bar. The invention further relates to the use of a gas distribution assembly according to the invention for storing or dispensing a gas or gas mixture, preferably a gas or medical gas mixture.

Preferably, the gas or gas mixture is chosen from oxygen, air, N 2 O 2, He / O 2 or NO / nitrogen. The invention will now be better understood thanks to the following detailed description, given by way of illustration but not limitation. , with reference to the attached figure which shows an embodiment of a cylinder / valve block / cowl assembly according to the invention. Specifically, we see in the appended Figure, a protective cover 1, commonly called "hat", arranged around a valve block (not visible), namely a valve with or without built-in regulator, itself fixed on the neck of a gas cylinder 2, preferably the valve block is of type RDI. The lower part lb, also called the lower part, of the cowling 1 is located at the level of the bottle 2. The fixing of the valve block on the neck of the gas bottle 2 is made by screwing. The gas cylinder 2 typically has a cylindrical steel body and a size between 10 and 150 cm, and a capacity of 0.5 to 20 liters (in water equivalent).

The protective cover 1 protects the valve block against shocks. To do this, it comprises a casing body forming a protective shell around an internal volume sized to receive the valve block. The cowling 1 is surmounted by a carrying handle 6 designed to be handled by a user. The carrying handle 6 is formed of a rigid material, such as a polymer or a metal or metal alloy, and is carried by one or more support posts 5 mechanically connecting the casing body to the carrying handle 6. It is preferentially arranged horizontally, that is to say perpendicularly or almost perpendicular to the vertical axis of the bottle 2 and the cowling 1. The carrying handle 6 has an elongated shape, whether rectilinear or curved, typically a length less than 20 cm, typically 6 to 15 cm. One or more support posts 5 are attached to one or both ends of the carrying handle 6 so as to allow a user to easily transport the hat / tap / bottle assembly by means of said carrying handle 6. In all cases, the casing body 1 is typically made of a polymer and / or metal type material, preferably made of plastic material, such as PVC, PE, PET, PP, PMMA, PU, PA. support posts 5 may be formed of a plastic material, such as the body of the cowling 1, but also of aluminum alloy or any other metallic material. They can be attached to the handle 6 by screwing or welding, for example, or formed in one piece. Furthermore, the valve body of the valve block conventionally comprising a fastening system, for example a tapered, frustoconical or cylindrical threaded portion, for fixing the valve block to the gas container 2, for example by screwing. This threaded portion comprises a gas inlet port through which the gas contained in the container 2 can enter the valve body. The valve block further comprises a gas outlet port 8 through which the gas can emerge from the valve body. An internal gas passage fluidly connects the gas inlet port to the gas outlet port 8. A pressure sensor attached to the valve body is used to measure the pressure of the gas in the internal gas passage. preferably upstream of the site where the gas is expanded, when the valve block is RDI type and thus incorporates a pressure reduction system, for example a relief valve cooperating with a valve seat. This sensor makes it possible to determine the pressure of the gas, said pressure being then used by information processing means to possibly deduce a range of gas from the cylinder 2. In a conventional manner, a gas flow control member 7, such as a rotating flywheel or pivoting lever, allows the user to control the flow of gas passing through the valve block. This gas flow control member 7 cooperates with a gas passage control system arranged on the internal gas passage, that is to say in the valve block. In the Figure, the gas flow control member 7, namely a rotary flywheel, is located on the front face 11 of the cowling 1 and is arranged around a gas outlet fitting carrying the gas outlet orifice. 8. However, the gas outlet fitting could be located elsewhere and is not necessarily coaxial with the steering wheel. In order to allow the hooking or securing of the bottle / valve block / cowling assembly to a support, such as a hospital bed or stretcher bar, the protective casing 1 may comprise, on the side of its rear face , an attachment device 10 pivoting between a completely folded position, called "rest", that is to say the position adopted by the attachment device 10 when stored and in contact or near contact with the body of the cowling 1 (as illustrated in Fig.), and a fully unfolded position called "hooking", that is to say the position adopted by the attachment device 10 when completely out and can be hooked to a support, such as a bed rail or the like. The attachment device 10 could also be fixed or still mobile in translation rather than pivoting. The protective casing 1 also has a housing 4 arranged at the upper part 1a, also called the upper part, of the front face 11 of the protective casing 1, in which housing 4 is housed a display screen of information, namely a touch screen 3 according to the invention, not only to display various useful information to the user, such as gas pressure or autonomy of the bottle, but also to the user to enter information or enable or disable functions, as explained below, by exerting digital pressures (ie contacts) on said touch screen 3. In other words, the touch screen 3 is designed to allow the user entering information into the information display device or enabling or disabling one or more functions of said information display device by exerting one or more digital pressures on said touch screen 3. More precisely the protective casing 1 comprises an opening arranged in the body or the wall of said protective casing and within which is housed the information display device, in particular the touch screen 3. The touch screen 3 may comprise, on the one hand, a display panel, for example segmented LCD or dot matrix, AlUOLED, plasma or other, intended to display the information, and, on the other hand, a touch screen, which it is resistive, capacitive or other, intended to record the commands, ie the digital or other pressures, exerted by the user. In particular, the touch screen 3 of the information display device is designed and able to display a selected information from the time, the date, the flow of gas delivered by the tap, the gas pressure in the bottle 2, the gas autonomy of the bottle 2, the autonomy of the power source, the ambient temperature, an alarm, the name of the care facility or other.

In other words, the information display device can also display, in addition to the pressure of the gas, other additional information useful to the user, such as a gas autonomy measured in time, a graphical representation of this autonomy. , information related to the use of the assembly, such as the operating time, the quantity of gas delivered, the average flow rate used, the nature of the gas delivered, the name of the health structure using the assembly (name of the hospital, name of the service ...), the name of the patient to whom the gas is delivered, the temperature of the gas, the date of expiry of the gas, the unit of the measurements displayed ... Moreover, the user can itself interact with the display device, namely the touch screen 7, using the touch properties of the screen to trigger the implementation of one (or more) particular function, such as the setting of implementation of a lighting, the modification of the nature of the inf displayed, acknowledging an alarm or alarm, starting or stopping a time measurement function (timing), recording a status of the set or information related to the state of the assembly at the time of the user action (location, rate used, time, ...), sending or receiving information to or from a third-party device, initialization of a user function (reset of a counter for example) ... The use or activation of the touch screen 7 can be done as soon as a digital contact of the user is detected by the user. 7 or only after the user has disabled or activated a means appearing on the screen, for example by sliding a virtual cursor on the screen, as described by US-A-7,479,949, or in composing a code or drawing a given figure on the touch screen. In general, the measurements made by the sensor (or the sensors) are processed by information processing means, for example at least one microprocessor associated with one or more algorithms, and then possibly stored in a storage memory. information, and finally transmitted via a suitable connector, to the electronic screen 3 on which they can be displayed. An electrical source, for example one or more batteries or rechargeable batteries or rechargeable batteries, supplies electrical power to the screen 3, as well as the sensor or sensors, and the information processing means. The source of electrical energy is fixed to the valve body or in a housing provided in the wall of the cowling 1.

The information processing means comprise an electronic card comprising a calculator element, such as a microprocessor, said electronic card being fixed on the tap or in a housing provided in the wall of the cowling 1, and electrically connected to the pressure sensor fixed on the faucet body.

The information processing means are fixed in the cowling 1, for example arranged in a housing of the cowling, or the valve block. The information display device is attached to the valve body or to the cowling 1, and is also electrically connected to the electronic card of the information processing means.

Preferably, the axis of the screen 3 is oblique with respect to the axis AA of the cowling 1 and the bottle 2 so as to form between them an angle less than 70 °, preferably less than 60 °. According to the embodiment considered, the touch screen 3 is arranged in the housing 4 arranged in the flat surface 9 so as to come flush at said flat surface 9, or slightly recessed within the housing 4 or, at conversely, slightly protruding outwardly with respect to the flat surface 9. Such an arrangement of the touch screen 3 makes it considerably easier for the user to read the information delivered by the electronic display screen 3. and to avoid reading errors, while allowing the user to easily enter information or to activate or deactivate functions by simply pressing or touching the touch screen with said touch screen 3.

Claims (11)

REVENDICATIONS1. Gas distribution assembly comprising a gas container (2) equipped with a valve block, and an information display device comprising a display screen (3), characterized in that said display screen (3) ) is a touch screen. 2. An assembly according to the preceding claim, characterized in that it further comprises a protective cover (1) arranged around said valve block, said touch screen (3) being arranged within a housing (4) arranged in said protective casing (1). 3. Assembly according to one of the preceding claims, characterized in that the touch screen (3) allows the user to enter information in the information display device, or to activate or deactivate one or functions of said information display device by exerting one or more digital pressures on said touch screen (3). 4. Assembly according to one of the preceding claims, characterized in that it further comprises at least one source of electrical energy and information processing means electrically connected to said source of electrical energy and to the device of information display. 5. An assembly according to one of the preceding claims, characterized in that the information processing means comprise at least one electronic card comprising at least one calculating member. 6. An assembly according to one of the preceding claims, characterized in that the information processing means comprise at least one electronic card comprising at least one microprocessor. 7. Assembly according to one of the preceding claims, characterized in that the valve block comprises an internal gas passage and a pressure sensor fluidly connected to said internal gas passage so as to measure the gas pressure within said passage internal gas, said pressure sensor being further electrically connected to said source of electrical energy via the electronic card. 8. Assembly according to one of the preceding claims, characterized in that said source of electrical energy comprises at least one battery. 9. Assembly according to one of the preceding claims, characterized in that the pressure sensor is electrically connected to the electronic card. 10. Assembly according to one of the preceding claims, characterized in that the information display device is attached to the valve or to the wall of the cowling (1). 11. Use of a gas distribution assembly according to one of the preceding claims for storing or dispensing a gas or gas mixture, preferably a gas or gas mixture selected from 02, air, N20 / 02, He / 02 and NO /nitrogen.