This application claims the benefit of priority under 35 U.S.C. § 119 (a) and (b) to French Patent Application No. 2002172, filed Mar. 4, 2020, the entire contents of which are incorporated herein by reference.
The invention relates to a pressurized gas container, in particular a pressurized gas cylinder, equipped with a fluid-distributing valve comprising an electronic device with digital display configured to initiate a timer and to automatically calculate an expiry date of the gas contained in the container and to display, if appropriate, an expiry warning on the digital display, for example a dedicated warning icon.
Medical gases such as oxygen, the mixtures NO/N2, N2O/O2, He/O2, medical air, etc., are generally stored in pressurized gas containers, in particular gas cylinders.
These gas containers are commonly equipped with a distributing valve, with or without an integrated pressure-regulating system, serving to supply the medical gas, and with a dial-type or digital manometer serving to display the residual gas pressure. In general, the valve and the manometer are protected by a protective covering, also called a cap, which serves to protect them from impacts, falls, soiling, etc.
Thus, document EP-A-2918893 proposes such a gas cylinder equipped with a valve, having an integrated pressure regulator or IPR, and with a mechanical dial-type manometer, while document EP-A-2918892 proposes a gas cylinder equipped with an electronic device having a digital display screen.
However, like all medicaments, medical gases have an expiry date. The use of a gas beyond its expiry date must be avoided, since this could compromise the efficacy of the treatment of the patient with this gas.
Equipping each gas cylinder with a label bearing this expiry date is impractical and extremely time-consuming, especially since the label on each cylinder has to be changed each time the cylinder is filled with fresh gas, so as to renew the expiry date of the fresh gas introduced into the cylinder.
Moreover, a label of this kind can get mislaid, torn off or damaged and/or can cause errors by being misread by the user.
Finally, the user has to remember to check that the expiry date of the gas has not passed before each use, which is something he may forget to do and which thus poses a risk of using gas that has expired.
The problem is therefore to be able to rapidly, easily and automatically calculate an expiry date of a medical gas (i.e. gaseous medicament) stored in a gas container and, moreover, to warn the user when the expiry date is exceeded, so as to avoid gas being used after its expiry date, thereby also avoiding the disadvantages mentioned above.
The solution of the invention lies in a pressurized gas container, in particular a gas cylinder, comprising an internal volume for storing gas under pressure, comprising:
Depending on the embodiment in question, the container of the invention can comprise one or more of the following features:
The invention will now be better understood from the following detailed description, which is provided by way of a non-limiting illustration, with reference to the appended figure, in which:
The fluid-distributing valve 3 comprises a pressure sensor 4 for measuring the pressure of the gas, within the internal passage for gas and/or in the internal volume 2 of the container 1, and for supplying at least one pressure measurement signal to microprocessor-based control means which are configured to process the one or more pressure measurement signals supplied by the pressure sensor 4. The microprocessor-based control means 5 comprise, for example, an electronic board supporting one or more microprocessors that use one or more algorithms or the like, preferably a microcontroller.
Also provided is a digital display 6 borne by a housing of an electronic device 7, for example a digital manometer, fixed to the fluid-distributing valve 3, which may be accommodated in an opening or compartment provided in the body of a protective covering (not shown) arranged around the fluid-distributing valve 3 and serving to protect it from impacts or other possible damage, for example a rigid covering made of polymer and/or of metal.
The housing of the electronic device 7 also comprises the microprocessor-based control means 5, typically the electronic board, using one or more algorithms.
Preferably, the fluid container 1 is a gas cylinder of axis AA comprising a cylindrical body defining the internal volume 2 for storing gas at high pressure, typically a maximum pressure of 130 to 300 bar abs, or even beyond 300 bar abs, and a neck comprising an orifice that is in communication with the internal volume 2 and allows the gas to be withdrawn from the internal volume 2 or, conversely, allows it to be filled when it is empty.
The fluid-distributing valve 3 is mounted, typically screwed, at the level of the orifice of the neck of the gas cylinder. It comprises a connector or end fitting for distributing gas, to which an item of medical equipment, a flexible tube or another device using or routing the gas delivered by the valve 3 can be connected. A member for adjusting the flow rate, namely here a rotary handwheel or the like, allows a user to adjust the desired value of the gas flow rate.
It is possible to provide one or more carrying handles connected to the body of the covering and dimensioned so as to be able to be gripped manually by a user in order to allow convenient handling and/or transport of the gas container/valve/covering assembly, and/or a movable, preferably pivoting, securing device or system that allows the gas cylinder/valve/covering assembly to be secured to a support, such as a bar of a hospital bed, to a stretcher, to a rail or the like.
The digital display 6 comprises a digital screen, for example a liquid-crystal display (LCD), etc., supported by the rigid housing of the electronic device 7 and supplied with electrical power by an electrical energy source (not visible) arranged in the covering, for example one or more batteries or cells placed in a cell compartment made in the wall of the covering body and closed by a removable flap or the like.
According to the invention, the microprocessor-based control means 5 are configured to process the one or more measurement signals supplied by the pressure sensor 4, which measures the pressure of the gas stored in the container 1, and to determine one or more pressure values measured on the basis of the one or more measurement signals.
They then make it possible to detect filling (including refilling) of the gas container 1 with fresh gas, for example when the cylinder is located at a filling centre after it has been used and emptied of the gas that it contained, by comparing the one or more measured pressure values with a predefined and stored reference pressure threshold value, typically a reference pressure threshold value of at least 130 bar abs, for example 137 bar abs or 200 bar abs. This predefined reference pressure threshold value can be stored in storage means 9 such as a computer memory of the EEPROM type.
When the microprocessor-based control means 5 detect a measured pressure value in the container 1 that is greater than the stored reference pressure threshold value, they interpret this detection as a filling of the gas container 1 with fresh gas, since, when the container 1 was empty or almost empty, the measured pressure values were all below this reference pressure threshold value.
The microprocessor-based control means 5 then initiate a timer 8 on the basis of this detection, particularly if they reset it to zero. Moreover, the microprocessor-based control means 5 store (in 9) this moment as being the “filling date” of the container 1, which allows them to additionally calculate a “gas expiry date” on the basis of the filling date, and they begin to count the time that passes from said filling date.
During the resetting of the timer 8, the microprocessor-based control means 5 optionally erase any other filling date and/or gas expiry date that have previously been recorded, for example during a previous filling of the gas container.
The microprocessor-based control means 5 calculate the gas expiry date by adding a predefined expiry period, typically of several years, for example 5 years, to the filling date. This expiry date is recorded (in 9) by the microprocessor-based control means 5. These means then permanently monitor the container 1 in order to detect whether the timer 8 exceeds the expiry date which reflects an expiry of the gas.
If it is detected that the given period calculated from the initiation of the timer has been exceeded, that is to say if it is detected that the expiry date has been exceeded, the control means 5 are configured to trigger a visual and/or acoustic warning, so as to alert the user to the date having been exceeded. Thus, a visual warning can be triggered in the form of a specific warning icon 10 being displayed on the display screen and can be accompanied by emission of the acoustic warning, or even by a flashing light, for example from the display screen 6 or one or more specific diodes.
Like all medicaments, medical gases have an expiry date. The use of these gases beyond the intended date could compromise the efficacy of the treatment of the patient.
By virtue of the present invention, it is possible to avoid a situation where a cylinder of medical gas is used after its expiry date.
Moreover, each time filling is detected, the previous filling date is overwritten, that is to say erased as mentioned above, and replaced by the new filling date. The same applies to the expiry date calculated on the basis of this new filling date. In this way, the expiry date of the gas is updated each time the container passes through the filling centre, that is to say calculated on the basis of each new filling date.
It will be noted that the digital display 6 of the device 7 can also display one or more other items of useful information, for example a value of the gas flow rate (in l/min in or in another unit), or else remaining gas (in hours and minutes).
More generally, the digital display 6 comprises a screen with a height of, for example, between 29 and 37 cm approximately, and with a width of, for example, between 39 and 43 cm approximately.
The digital display 6 can be arranged in the front panel, i.e. the front face, of the housing of the electronic device attached to the fluid-distributing valve 3 and accommodated in an opening of the body of the protective covering that protects the valve 3. The front panel can additionally comprise a button for acknowledging an alarm.
All of the components that require electrical power to operate (i.e. microprocessor, sensor, display, etc.) are supplied with power by an electrical energy source arranged for example in the covering, for example an electric cell or battery. In general, a fluid container 1, in particular a gas cylinder, equipped with a valve, such as an IPR, protected by a covering according to the invention, is suitable for storing and supplying gas under pressure, in particular a medical gas or mixture of gases, such as oxygen, an NO/N2, O2/N2O or He/O2 mixture, air, etc.
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2002172 | Mar 2020 | FR | national |
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Entry |
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French Search Report for corresponding FR 2002172, dated Nov. 12, 2020. |
Number | Date | Country | |
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20210278047 A1 | Sep 2021 | US |