• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Fluid bottle tap a first withdrawal circuit (3), the withdrawal circuit (3) comprising a device (4) for regulating the flow rate and / or the pressure of the withdrawn fluid, the valve (1) comprising a device ( 5), the valve (1) comprising an electronic device (6) indicating data (s) relative to the fluid content in a bottle connected to the valve (1), the device (6) electronic indicating device comprising a data storage and data acquisition member (7) and at least one display (8), the valve (1) comprising a sensor (9) for setting the control member (5) , the storage and data processing acquisition device (7) being configured, in response to receipt of a flow rate and / or imposed pressure signal, for controlling the display on the display (8) relative information of the flow rate and / or the fluid pressure imposed by the regulating member (4) and / or the method of use of the valve, the sensor (9) of the position of the control member (5) comprising a mechanism (19) meshing with the control member (5) and a potentiometer (39), the mechanism (19) comprising a moving part (29) forming a slider of the potentiometer (39), the position sensor (9) providing a determined voltage and / or resistance value as a function of the position of the control member (5)
    公开号:FR3016677A1
    申请号:FR1450524
    申请日:2014-01-22
    公开日:2015-07-24
    发明作者:Christophe Roland Rezel;Amelie Carron;Philippe Rudnianyn;Catherine Vivier;Beatriz Lopez
    申请人:Air Liquide SA;LAir Liquide SA pour lEtude et lExploitation des Procedes Georges Claude;
    IPC主号:
    专利说明:

    [0001] The present invention relates to a valve for a bottle of fluid under pressure and a corresponding bottle. The invention relates more particularly to a valve for a bottle of pressurized fluid comprising a body provided with an end intended to be mounted in the orifice of a bottle of pressurized fluid, the valve body housing a first withdrawal circuit comprising an upstream first end for communicating the storage volume of a pressurized fluid bottle and a second downstream end intended to be connected to a user body of the withdrawn gas, the first withdrawal circuit comprising a flow control member and or the pressure of the fluid drawn between the upstream and downstream ends, the valve comprising a manual control member of the regulating member, the control member being mounted movably relative to the valve body and cooperating with the regulating member to control the flow rate and / or the fluid pressure allowed to flow from the upstream end to the downstream end according to the positioning the control member relative to the body, the valve comprising an electronic data indicating device (s) relative to the fluid content in a bottle connected to the tap, the electronic indication device comprising an organ for storing and processing data and at least one data display connected to the storage and data processing member, the valve comprising a position sensor of the manual control member of the regulating member, the position sensor being connected to the data storage and processing acquisition member in order to transmit to the latter a signal representative of the flow rate and / or the fluid pressure imposed by the regulating member, storage acquisition and data processing unit being configured, in response to the reception of this flow rate and / or imposed pressure signal, to control the display on the display of a piece of information lative of the flow rate and / or the fluid pressure imposed by the regulating member and / or the mode of use of the valve. The invention relates to a valve provided with an electronic device for indicating physical data relating to the contents of a bottle of pressurized fluid, in particular gas under pressure. The invention relates in particular to a so-called electronic and digital pressure gauge device. For example, reference may be made to document FR2868160A1 which describes an example of such a device.
    [0002] Such a device comprises a pressure sensor and an electronic logic that calculates and displays fluid quantity and / or autonomy data. To calculate and display such reliable autonomy information the device must perform several successive pressure measurements before evaluating the flow rate selected by the tap user. This generates a calculation time that does not allow to display immediately a range or withdrawal rate selected. A time of thirty to sixty seconds may for example be necessary. In addition, this device also has an identical reaction time in case of change of the withdrawal parameters (change of the selected withdrawal rate ...). In addition, when the valve is used to supply oxygen to a medical fan (withdrawal rate imposed by the fan), the pressure signal measured by the manometer undergoes an oscillation in phase with the ventilation phases. Due to the wide variety of ventilation modes, it is difficult to calculate or display relevant information. The documents EP2110949A1, US6098646 and WO2012164240A1 describe devices for measuring the position of a selector via several sensors. Such devices, however, have a relatively complex and expensive structure, especially as regards its calibration. US6518749 discloses a magnetic position detector. In addition to its cost, this device has the disadvantage of requiring the presence of magnet (s) potentially annoying (s) for other electrical components. 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 valve according to the invention, furthermore in accordance with the generic definition given in the preamble above, is essentially characterized in that the position sensor of the control member comprises a mechanism 30 meshing with the control member and a potentiometer, the mechanism comprising a movable piece forming a slider of the potentiometer, the position sensor providing a determined voltage and / or resistance value as a function of the position of the control member.
    [0003] This makes it possible to quickly and automatically indicate to the user that gas is drawn off, either because of a supply to a medical fan, or because of a leak.
    [0004] Furthermore, embodiments of the invention may include one or more of the following features: the position sensor further comprises a capacitive system measuring an electrical capacitance between a magnetic fixed reference and a movable part connected to the part movable mechanism, - the manual control member of the regulating member is movable in a so-called "closing" position corresponding to a closure of the first withdrawal circuit, that is to say that the fluid flow admitted to passing from the upstream end to the downstream end is zero, - the potentiometer of the position sensor of the control member is calibrated by measuring the voltage or resistance value that it provides corresponding to the so-called "closing position" »The manual control device ensuring a closing of the first withdrawal circuit, then measuring the value of voltage or resistance supplied by the corresponding potentiometer at a position of the extreme control member with respect to the closed position, the intermediate values of voltage or resistance supplied by the potentiometer being assigned respectively to the intermediate positions of the control member, - the potentiometer of the position sensor of the control member is calibrated by measuring the voltage or resistance value that it provides corresponding to a position of the control member in which no pressure variation is measured by the pressure sensor for a predetermined period, for example one to three minutes, this position is defined as the closed position, - when the manual control member is in its closed position and the variation of the signal representative of the fluid pressure within a bottle is less than a determined threshold of variation, the storage and data processing member is configured to control the display on the display a fixed information relating to the pressure and / or the quantity of fluid in the bottle and / or to a history of this information and / or information relating to a history of the use of the tap such as flow rate (s) withdrawn, history of the pressure measured, duration (s) of use (s), - the valve comprises a pressure sensor for measuring the pressure within the storage volume of a bottle of fluid connected to the valve, the pressure sensor being connected to the storage acquisition and data processing member for transmitting to the latter a signal representative of the measured fluid pressure, the storage acquisition member and data processing being configured, in response to the reception of this pressure signal, for calculating and displaying on the display information of remaining autonomy or fluid content, - at least one of the position sensor and the pressure sensor is d an electric type and powered by a battery and / or an inductive system, said at least one sensor being fed discontinuously, the storage acquisition and data processing device being configured to provide this discontinuous power supply at the time of a measurement - the storage and data processing member is configured to calculate a range or fluid content information over a determined time interval of between one second and ten minutes and preferably between thirty seconds and six minutes, from the pressure signal measured by the pressure sensor, the storage and data acquisition member being also configured to compare this calculated range information on the basis of the pressure signal measured by relative to the information of theoretical autonomy calculated from the variation of quantity or pressure imposed by the regulator, - the The storage and data processing controller is configured to recalculate and automatically display an update of the range or fluid content information upon receipt of a position sensor signal indicative of a rate change. and / or the fluid pressure imposed by the regulator via the control member, - the storage and data processing member is configured to automatically recalculate and display an update of the information of autonomy or fluid content upon receipt of a signal from the position sensor indicating a flow rate change and / or the fluid pressure imposed by the regulating member via the control member, - the position sensor of the control member comprises a converter of a mechanical displacement of the control member into an electrical signal that can be exploited by the data acquisition and data acquisition member, alternatively or cumulatively At the potentiometer position sensor, the position sensor of the control member comprises a mechanism meshing with the control member and an optical and / or digital encoder, the encoder providing a digital signal determined according to the position of the controller. the control member, - when the manual control member is in its so-called closing position and the variation of the signal representative of the fluid pressure within a bottle is greater than a determined threshold of variation, the storage acquisition and data processing unit is configured to calculate a remaining fluid autonomy information from the measurement of the initial pressure signal and the variation of this pressure signal given by the pressure sensor, storage and data acquisition device being configured to control the display on the display of this calculated autonomy information and / or information relating to the pressure or the initial amount of fluid in the bottle. The invention also relates to a bottle of pressurized fluid comprising a valve according to any one of the above characteristics or below.
    [0005] According to a possible feature, after a filling of the bottle and before a first racking, the storage acquisition and data processing unit is configured to control the display on the display of a fixed information relating to the contents of the bottle. fluid in the bottle as long as the position sensor has not transmitted a signal representative of a flow rate and / or the fluid pressure withdrawn from the reservoir during a determined period of time and / or corresponding to a predetermined quantity of fluid. The invention may also relate to any alternative device or method comprising any combination of the features above or below. Other features and advantages will appear on reading the description below, with reference to the figures in which: - Figure 1 shows a side view, schematic and partial, illustrating a valve mounted on a pressurized gas cylinder according to an exemplary possible embodiment of the invention, - Figure 2 schematically and partially illustrates the structure and operation of a portion of the valve of Figure 1 - Figures 3 to 5 schematically illustrate and partially, the structure and operation of respectively three examples of position sensors of a valve according to the invention, - Figure 6 schematically shows two curves illustrating examples of signals generated by one or more position sensors of Figure 5, FIGS. 7 and 8 schematically and partially illustrate the structure and operation of, respectively, a fourth example and a fifth example of this. According to the invention, FIG. 9 schematically represents an example of a pressure curve measured as a function of time. Figure 1 shows schematically a bottle 2 of pressurized gas provided with a valve 1 capable of implementing the invention.
    [0006] The valve 1 comprising a body provided with an end intended to be mounted in the orifice of a bottle 2 of fluid under pressure (for example by screwing). Conventionally, the valve body 1 houses a first withdrawal circuit 3 comprising an upstream first end 13 communicating with the storage volume of the bottle 2. The withdrawal circuit 3 comprises a second downstream end 23 intended to be connected to a user organ withdrawn gas (for example a patient in the case of oxygen or another medical gas).
    [0007] The first withdrawal circuit 3 comprises a member 4 for regulating the flow rate and / or the pressure of the fluid drawn between the upstream and downstream ends 13. This regulating member 4 is, for example, a flow regulator with calibrated orifices 16 making it possible to select a gas flow withdrawn (see the diagram of Figure 3). Of course, any other regulating member may be envisaged, for example a proportional opening valve. The valve 1 comprises a member 5 for manual control of the member 4. The control member 5 is mounted movably relative to the body of the valve 1 and cooperates with the regulating member 4 to control the flow rate and / or the pressure of the fluid allowed to circulate according to the position of the control member 5 relative to the valve body. The control member 5 comprises for example a rotary wheel. Of course, any other suitable system can be envisaged (pivoting lever, ...). For example, the control member selects a calibrated orifice and / or controls a rate restriction valve based on its position among a plurality of stable discrete positions or a plurality of positions of a continuous displacement. In particular, the stable positions can be referenced mechanically by a hard point (for example via a latching system). The valve 1 comprises an electronic device 6 indicating data (s) relative to the fluid content in a bottle 2 connected to the valve 1. The device may be of the type comprising a member 7 acquisition of storage and data processing and at least one data display 8 connected to the storage acquisition and data processing unit 7. The storage acquisition and data processing unit 7 comprises for example a computer and / or a microprocessor or any other equivalent system. Of course, this device may comprise one or more data receiving members (by wired and / or wireless connection) as well as one or more data transmission members (by wired and / or wireless connection). The valve 1 comprises a sensor 9 of the position of the body 5 of manual control of the control member 4. The position sensor 9 is connected to the storage acquisition and data processing member 7 to transmit to the latter a signal representative of the flow rate and / or the fluid pressure imposed by the regulating member 4. The position sensor 9 of the control member 5 comprises a converter of the mechanical displacement of the control member into an electrical signal that can be used by the data acquisition and data acquisition member 7. The detector is for example integral with a fixed part of the valve, or respectively of the control member, the detector providing an electrical or digital signal determined according to the position of the control member. This signal can be provided wired and / or wireless. As illustrated in FIG. 3, the position sensor 9 of the control member 5 comprises a mechanism 19 meshing with the control member 5 (for example a gearing and / or notching system) and a potentiometer 39. comprises a moving part 29 (for example a wheel or a rod or a rack) forming a slider of the potentiometer 39. In this way, the position sensor 9 provides a value of tension and / or resistance determined according to the position of the the control member 5.
    [0008] In the example of FIG. 4, the position sensor 9 of the control member 5 also comprises a mechanism meshing with the control member 5 comprising an optical and / or digital coder 49, for example a wire coder ( conductive wire and a ground wire). The encoder 49 provides a digital signal determined according to the position of the control member. Depending on the position of the mechanism, one or more wires are energized or short-circuited forming a plurality of distinct signals to characterize different positions (for example 2n-1 for a n-wire system). FIG. 5 illustrates another solution in which the position sensor 9 of the control member 5 comprises a magnetic system comprising at least one magnet 59 integral with the control member 5 and at least one magnetic field detector 69, 79 of the at least one magnet 59. For example three magnets 59 are integral with the control member 5. In case of displacement (such as a rotation) of the control member 5, a detector 69 detects for example a magnetic field E as a function of the displacement D which oscillates and makes it possible to characterize a plurality of positions. When the device comprises a second detector 79 (or more), several separate signals can be operated simultaneously to improve the detection of distinct positions.
    [0009] As illustrated in FIGS. 7 and 8, the position sensor 9 of the control member 5 may comprise a capacitive system measuring an electrical capacitance between a fixed magnetic reference 89 and a mobile part 99 connected to the control member 5. these systems have the advantage of reliable detection without the need to provide electrical son associated with a moving part of the mechanism. The potentiometer system and more generally each detection system can be easily calibrated during manufacture.
    [0010] For example, the potentiometer 39 or sensor 9 of the position sensor 9 of the control member 5 can be calibrated by measuring the value of voltage or resistance (see magnetic field and capacitance) that it provides corresponding to the position called "Closing" (zero flow). Then, it is possible to measure the voltage or resistance value provided by the potentiometer 39 corresponding to a position of the extreme control member with respect to the closed position. The intermediate values of voltage or resistance provided by the potentiometer 39 are respectively assigned to the intermediate positions of the control member 5 between the closed position and the extreme position. (Idem for the detection of another physical quantity, magnetic field, capacity ... where the intermediate positions of the signal can be assigned respectively to the intermediate positions of the control member). Alternatively or cumulatively, the potentiometer 39 of the position sensor 9 of the control member 5 can be calibrated by measuring the value of voltage or resistance that it provides corresponding to a position of the control member 5 in which no variation The pressure is measured by the pressure sensor for a predetermined time, for example one to three minutes. This position (this signal value) is defined as the closing position of the circuit (zero flow). This mode of defining the closed position can be applied to the other examples (magnetic field, capacitance, etc.). Similarly, alternatively or cumulatively, a robot and / or operator may move the controller 5 to match different positions of the controller 5 with the corresponding electrical values generated. All or part of this calibration system, original in itself, can also be applied to the other embodiments of the position sensor (capacitive sensor, magnetic sensor ...), independently of a potentiometer sensor. That is, the invention can relate to a valve whose different values of the signal supplied by the position sensor 9 of the control member (capacitive, magnetic or other) are assigned respectively to different positions of the valve. 5 control member.
    [0011] The manual control member 5 and / or the regulating member 4 can be movable according to a plurality of discrete positions (mechanically stable or not) respectively corresponding to flow values and / or the fluid pressure allowed to pass from the end 13 upstream to the downstream end. According to an advantageous feature, when the manual control member 5 is disposed in an intermediate position between two respective adjacent flow rate values and / or the fluid pressure admitted to pass from the upstream end 13 to the downstream end 23, storage and data processing unit 7 is configured to select and display on the display 8 one or both of these adjacent values or an intermediate value between these two adjacent values or a value range defined by these two adjacent values. Alternatively, the device does not display any information, in particular no encrypted information when the manual control member is disposed in an intermediate position between two adjacent values (to react the user and correct his incorrect selection).
    [0012] Preferably, the storage acquisition and data processing member 7 displays and / or signal (wireless or wired or wireless distance transmission) the value that is the most critical or the most unfavorable for the user. This makes it possible to ergonomically alert the user of a wrong manipulation by displaying relevant but penalizing information forcing him to correct his selection. For example, when the manual control member is disposed in an intermediate position between two respective adjacent flow rate values, the data acquisition and data acquisition member 7 is configured to calculate and display on the display 8 an autonomy or fluid content information remaining in the bottle based on the highest value of the two adjacent values. Thus, if for example the user positions the control member between the positions n liter per minute and n + 1 liter per minute (where n is an integer), the storage acquisition and data processing unit 7 can be configured to calculate a range based on the flow rate value taken from n + 1 liter per minute (less autonomy than it had been calculated with the value of n liter per minute).
    [0013] Likewise, when the manual control member 5 is disposed in an intermediate position between two respective adjacent flow rate values, the storage and data processing acquisition member 7 can be configured to display on the display 8 d information relating to the withdrawn flow rate imposed by the regulating member 4 corresponding to the lowest value of the two adjacent values. Thus, if for example the user positions the control member between the positions n liter per minute and n + 1 liter per minute (where n is an integer), the storage acquisition and data processing unit 7 can be configured to display on the display 8 information based on the flow rate value taken from n liter per minute (the lowest rate that may for example be below the medical prescription). This, in addition to or instead of an alarm, will prompt the user to correct the flow selection. The device may be configured in this case to deliver a flow of fluid corresponding to one of the two adjacent values, in particular the displayed value. Preferably, when the manual control member 5 is disposed in an intermediate position between two respective adjacent flow rate values and / or the admitted fluid pressure to pass from the upstream end 13 to the downstream end 23, the 4 is configured to allow the withdrawal of a non-zero fluid flow rate between said two respective adjacent flow rate and / or pressure, including the displayed value.
    [0014] Alternatively, when the manual control member 5 is disposed in an intermediate position between two respective adjacent flow rate values and / or the fluid pressure admitted to pass from the upstream end 13 to the downstream end 23, the member 4 The control circuit is shaped to allow withdrawal of a fluid flow rate equal to one of said two adjacent flow rate and / or pressure values. In addition, in the case where the regulating member 4 makes it possible to vary continuously (non-discretely) the flow rate or the pressure, the storage acquisition and data processing member 7 can be configured to display the actual flow rate value selected. As illustrated in FIG. 2, the valve preferably also comprises a pressure sensor 10 for measuring the pressure within the storage volume of the bottle 2. The pressure sensor 10 is connected to the acquisition member 7 storage and data processing to transmit to the latter (wired and / or wireless) a signal representative of the measured fluid pressure, in particular in real time or periodically. The storage acquisition and data processing member 7 can be configured, in response to the reception of this pressure signal delivered by the sensor 10, to calculate and display on the display 8 a piece of autonomy or remaining fluid content. Preferably the body 5 of manual control of the regulating member 4 is movable in a so-called "closing" position corresponding to a closure of the first withdrawal circuit 3. That is to say that the fluid flow admitted to pass from the upstream end 13 to the downstream end 23 is zero. In the case where the manual control member 5 is in its closed position and the variation of the signal representative of the fluid pressure within a bottle 2 is less than a determined variation threshold (for example equivalent to a pressure drop of 10 mbar / min (0.051 / min) measured by the pressure sensor 10), the storage acquisition and data processing member 7 is preferably configured to control the display on the display 8 fixed information relating to the pressure and / or the amount of fluid in the bottle 2. That is to say that the device detects that the bottle 12 is not withdrawn and displays for example information relating to its content.
    [0015] As illustrated in Figure 1, the valve 1 preferably comprises a second circuit 11 for withdrawal, for example separate from the first circuit 3 for withdrawal and which avoids the flow control member 4 and / or the pressure of the first withdrawal circuit 3.
    [0016] This second circuit 11 of withdrawal may optionally have a common portion with the first circuit 3 of withdrawal. This second circuit 11 of withdrawal is for example provided to provide a gas at a controlled pressure (via a pressure regulator 14). For example, the second withdrawal circuit 11 provides an adjustable or fixed pressure and of the order of 3 to 10 bar to a user device. For example, the second draw-off circuit 11 has an outlet connection 101 (for example via a notched outlet) that can be connected to a medical fan to supply oxygen to the latter. This second withdrawal circuit 11 can supply gas to the cylinder 2 independently of the first withdrawal circuit 3. Thus, when the manual control member 5 is in its closed position and the variation of the signal representative of the fluid pressure within a bottle 2 (measured by the pressure sensor 10) is greater than a threshold of determined variation (for example 25mbar per minute, the storage acquisition and data processing member 7 can detect a withdrawal of fluid via the second circuit 11 of withdrawal or, if this second circuit 11 of withdrawal is not used The storage acquisition and data processing member 7 may, if necessary, control the display on the display 8 or the sending (wirelessly, wired or by sound). information relating to a withdrawal via the second circuit 11 for withdrawal and or relating to a leak (warning signal), in particular when the manual control member 5 is in its so-called closing position and the variation of the signal representative of the p fluid pressure within a bottle is greater than a determined variation threshold (for example 25 mbar per minute), the storage acquisition and data processing member 7 is configured to detect at least one characteristic of the bottle. the appearance of the fluid pressure variation in the bottle due to the withdrawal via the second withdrawal circuit 11. The at least one characteristic comprises for example: a periodic character of the variation of pressure or quantity, the frequency of the variation pressure or quantity, the level of pressure variation or quantity, ... As illustrated schematically in Figure 9, this allows to detect after two to three pressure oscillations instantaneously for example a periodic withdrawal corresponding to a power supply in gas from a respiratory fan. Indeed, even if the gas withdrawn does not pass through the flow regulator 4, the flow rate is regulated directly by a ventilator and depends on the breathing of the patient. This flow thus delivered is not constant but oscillates in time (according to the breathing of the patient). The storage acquisition and data processing unit 7 may be configured to detect (recognize) a characteristic pressure drop of a ventilation according to the following principle: - measurement of the pressure signal periodically close together (for example every 0.5 to 2 seconds, especially every second), - identification of a niche type signal having a frequency of five to twenty-five slots (breaths) per minute). To calculate the remaining gas remaining from such a signal, the storage acquisition and data processing member 7 can be configured to measure the pressure drop on the optima to derive the decay slope. equivalent (see reference 15 in Figure 9). Alternatively or cumulatively, the storage acquisition and data processing unit 7 can be configured to average the pressure drop over a relatively long time (several minutes, for example ten minutes) so as to erase the inaccuracies of the data. 'picture. In the case where this pressure signal does not correspond to a ventilation signal (for example a continuous decreasing variation), the storage acquisition and data processing member 7 can determine that it is a leakage or improper use of the gas and can signal it in the same way. Thus, in this case, the simultaneous detection of the closed position (graduation "0" = "zero" for example) on the position detector 5 and a pressure drop, it is thus possible to detect instantly and automatically the 2. A rapid autonomy calculation algorithm described hereinafter is not used, and a calculation of autonomy adapted to this method of withdrawal can be carried out by the organ 7. acquisition of storage and data processing.
    [0017] This autonomy calculation algorithm based on the pressure measurement 10 can thus be automatically activated. In addition, when the manual control member 5 is in its closed position and the variation of the signal representative of the fluid pressure within a bottle 2 is greater than a determined threshold of variation, the body 7 of FIG. Storage and data acquisition acquisition may be configured to calculate fluid remaining information from the measurement of the initial pressure signal and the variation of this pressure signal given by the pressure sensor. The storage acquisition and data processing member 7 can in particular be configured to control the display on the display 8 of this calculated autonomy information and / or information relating to the pressure or the initial quantity of fluid. in the bottle 2. The pressure sensor 10 can be located for example at the upstream end of the first withdrawal circuit 3 and / or at the second 11 withdrawal circuit. In addition, the storage acquisition and data processing member 7 may be configured, in response to the reception of this flow rate and / or imposed pressure signal, to control the display on the display 8 of FIG. relative information of the flow rate and / or the fluid pressure imposed by the regulating member 4.
    [0018] The storage acquisition and data processing member 7 can thus be configured to receive both the pressure signal P measured from the pressure sensor 10 and the flow and / or pressure signal D supplied by the sensor 9. position. The storage acquisition and data processing member 7 can thus be programmed to calculate a fluid autonomy information remaining from these two pieces of information, the remaining fluid autonomy being determined for example by calculating, from of the initial pressure measured, the theoretical time reduction of pressure or the amount of gas generated by the flow and / or the pressure D of withdrawal imposed by the regulating member 4. The autonomy or fluid content information remaining in the bottle 2 can be expressed in time remaining (respectively in the remaining quantity) by dividing the initial pressure measured by the pressure sensor 10 (or respectively, a quantity of the current gas). by the variation of theoretical pressure imposed by the regulating member 4 (respectively the quantity variation imposed by the regulating member (4)), according to a formula for example of the type: Time remaining = initial pressure / pressure variation imposed (or respectively: Time remaining = Content of fluid remaining / variation of quantity imposed).
    [0019] The variations of quantity or theoretical pressure can be calculated for example via the equation of the perfect gas PV = nRT or real PV = ZnRT (SI units), with P the measured pressure, V the known volume of the bottle, n the quantity , R is the ideal gas constant and T is the measured or approximated temperature at the measured ambient temperature, Z is the known compressibility factor (table or calculation). Similarly conversions between pressure and quantity can be calculated via the perfect gas equation or any other equivalent formula, the volume of the bottle 2 being known and indicated in the organ 7 acquisition of storage and data processing and the temperature can be measured by an ambient or calculated or indicated external sensor. The dynamic pressure measurement can make it possible to readjust, if need be more precisely, the display of the actual flow withdrawn and / or the displayed autonomy. Similarly, the storage acquisition and data processing member 7 can be configured to automatically recalculate and display an update of the autonomy or fluid content information upon receipt of a sensor signal. 9 indicating a flow rate change and / or the fluid pressure imposed by the control member 4 via the control member 5. In addition, the storage acquisition and data processing member 7 may be configured to include a guaranteed seal function indicating that the bottle 2 has not been used following a filling. Thus, before a first racking, the storage acquisition and data processing unit 7 can control the display on the display 8 of a fixed information relating to the fluid content in the bottle 2 (and / or information of the "full bottle" type) as long as the position sensor 9 has not transmitted a signal representative of a flow rate and / or the fluid pressure withdrawn from the tank 2 during a determined period of time and / or corresponding to a quantity determined fluid (for example 20 liters of gas withdrawn). This detection can be ensured or supplemented by the information given by the pressure sensor.
    [0020] Although the invention is relatively simple and inexpensive it is easy to see that it allows faster display of flow rate and autonomy information. The invention is advantageously applied to pressurized gas cylinders, in particular bottles containing oxygen under pressure.
    权利要求:
    Claims (12)
    [0001]
    REVENDICATIONS1. A valve for a pressurized fluid bottle comprising a body provided with an end intended to be mounted in the orifice of a bottle of pressurized fluid, the body of the valve (1) housing a first withdrawal circuit (3) comprising a first end (13) upstream for communicating the storage volume of a bottle of fluid under pressure and a second end (23) downstream intended to be connected to a user member of the withdrawn gas, the first circuit (3) for withdrawal comprising a member (4) for regulating the flow rate and / or the pressure of the fluid drawn between the upstream (13) and downstream (23) ends, the valve (1) comprising a member (5) for manually controlling the member ( 4), the control member (5) being mounted movably relative to the body of the valve (1) and cooperating with the regulating member (4) to control the flow rate and / or the fluid pressure allowed to circulate from the end (13) upstream towards the end downstream (23) according to the position of the control member (5) relative to the body (5), the valve (1) comprising an electronic device (6) for indicating data (s) relative to the content of fluid in a bottle connected to the tap (1), the electronic indication device (6) comprising a data storage and data acquisition member (7) and at least one data display (8) connected to the storage acquisition and data processing device (7), the valve (1) comprising a sensor (9) for the position of the body (5) for manual control of the regulating member (4), position sensor (9) being connected to the data storage and processing acquisition member (7) for transmitting to the latter a signal representative of the flow rate and / or the fluid pressure imposed by the member (4) for regulating, the storage acquisition and data processing device (7) being configured, in response to the reception of this flow signal and / or imposed pressure, for controlling the display on the display (8) of information relating to the flow rate and / or the fluid pressure imposed by the regulating member (4) and / or the operating mode. use of the valve, characterized in that the sensor (9) of the position of the control member (5) comprises a mechanism (19) meshing with the control member (5) and a potentiometer (39), the mechanism (19) ) having a moving part (29) forming a slider of the potentiometer (39), the position sensor (9) providing a value of tension and / or resistance determined according to the position of the member (5) control.
    [0002]
    2. Valve according to claim 1, characterized in that the position sensor (9) further comprises a capacitive system measuring an electrical capacitance between a fixed reference (89) magnetic and a movable part (99) connected to the part (29). ) mobile mechanism.
    [0003]
    3. Tap according to any one of claims 1 to 2, characterized in that the member (5) for manual control of the member (4) for regulation is movable in a so-called "closing" position corresponding to a closure of the first withdrawal circuit (3), that is to say that the fluid flow admitted to pass from the end (13) upstream to the downstream end (23) is zero.
    [0004]
    4. Tap according to claim 3, characterized in that the potentiometer (39) of the sensor (9) of the position of the control member (5) is calibrated by measuring the value of voltage or resistance that it provides corresponding to the so-called "closing" position the manual control member (5) ensuring closure of the first withdrawal circuit (3), then measuring the voltage or resistance value supplied by the potentiometer (39) corresponding to a position of the end control member (5) with respect to the closed position, the intermediate values of voltage or resistance supplied by the potentiometer (39) being respectively assigned to the intermediate positions of the control member (5).
    [0005]
    5. Tap according to claim 3, characterized in that the potentiometer (39) of the sensor (9) of the position of the control member (5) is calibrated by measuring the value of voltage or resistance that provides a corresponding position of the control member (5) in which no pressure variation is measured by the pressure sensor (10) for a predetermined period, for example one to three minutes, this position is defined as the closed position .
    [0006]
    6. Tap according to any one of claims 3 to 5, characterized in that when the member (5) manual control is in its closed position and the variation of the signal representative of the fluid pressure within a bottle is less than a determined threshold of variation, the storage acquisition and data processing member (7) is configured to control the display on the display (8) of a fixed information relating to the pressure and / or the quantity of fluid in the bottle (2) and / or a history of this information and / or information relating to a history of the use of the tap such as flow (s) withdrawn (s), history of the measured pressure, duration (s) of use (s).
    [0007]
    7. Tap according to any one of claims 1 to 6, characterized in that it comprises a pressure sensor (10) for measuring the pressure within the storage volume of a bottle (2) of fluid connected to the valve (1), the pressure sensor (10) being connected to the storage acquisition and data processing member (7) for transmitting to the latter a signal representative of the measured fluid pressure, the device ( 7) storage acquisition and data processing being configured, in response to the receipt of this pressure signal, to calculate and display on the display (8) information of autonomy or fluid content remaining.
    [0008]
    8. Tap according to claim 7, characterized in that at least one of the position sensor and the pressure sensor is of the electric type and powered by a battery and / or inductive system, said at least one sensor being powered discontinuously, the storage acquisition and data processing member (7) being configured to provide this discontinuous power supply at the time of a measurement.
    [0009]
    9. Tap according to any one of claims 7 or 8, characterized in that the member (7) for acquisition of storage and data processing is configured to calculate an information of autonomy or fluid content on a determined time interval between one second and ten minutes and preferably between thirty seconds and six minutes, from the pressure signal measured by the pressure sensor (10), the member (7) for acquiring storage and data processing being configured also to compare this autonomy information calculated on the basis of the pressure signal (P) measured with respect to the information of theoretical autonomy calculated from the variation of quantity or pressure imposed by the organ (4) regulation.
    [0010]
    10. Tap according to claim 9, characterized in that the member (7) for acquisition of storage and data processing is configured to automatically recalculate and display an update of the autonomy or content information of fluid on receipt of a signal from the position sensor (9) indicating a flow rate change and / or the fluid pressure imposed by the control member (4) via the control member (5).
    [0011]
    11. Bottle of fluid under pressure characterized in that it comprises a valve according to any one of claims 1 to 10.
    [0012]
    12. Bottle according to claim 11 characterized in that after a filling of the bottle and before a first withdrawal, the member (7) of storage acquisition and data processing is configured to control the display on the display (8) fixed information relating to the fluid content in the bottle until the position sensor (9) has not transmitted a signal representative of a flow rate and / or the fluid pressure withdrawn from the reservoir (2) during a determined period of time and / or corresponding to a determined quantity of fluid.
    类似技术:
    公开号 | 公开日 | 专利标题
    EP3097342B1|2018-04-25|Valve for a pressurized fluid cylinder and corresponding cylinder
    FR3016677A1|2015-07-24|VALVE FOR PRESSURIZED FLUID BOTTLE AND CORRESPONDING BOTTLE
    EP3097341B1|2018-09-19|Valve for pressurized fluid cylinder and corresponding cylinder
    EP3097344B1|2018-08-29|Valve for a pressurized fluid cylinder and corresponding cylinder
    WO2005093377A2|2005-10-06|Compact, integrated processing system for measuring the gas autonomy of a tank
    EP3087361B1|2017-10-11|Device for reading and transmitting measured temperature values
    EP3097343B1|2019-02-06|Pressurized fluid cylinder comprising an electronic data-display device
    FR3034837A1|2016-10-14|PRESSURE FLUID VALVE AND TANK
    EP2764332B1|2019-06-26|Telemetry system for water consumption
    WO2008139073A1|2008-11-20|Method for controlling a pressurised fluid vessel
    EP3943802A1|2022-01-26|Container for pressurised fluid with electronic device carrying out a correction of the temperature and pressure measurements
    FR3112839A1|2022-01-28|Pressurized fluid container with electronic device to calculate autonomy more accurately
    LU92953B1|2017-09-25|Calculation of remaining usage time of a gas cylinder
    FR3079029A3|2019-09-20|METHOD FOR VERIFYING THE CALIBRATION OF A MANOMETER AND INSTALLATION OF PACKAGING
    FR3112192A1|2022-01-07|Pressurized fluid container with electronic device incorporating a pressure and temperature sensor
    同族专利:
    公开号 | 公开日
    US20160348844A1|2016-12-01|
    WO2015110717A1|2015-07-30|
    EP3097340A1|2016-11-30|
    FR3016677B1|2016-01-22|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US20040045608A1|2000-11-17|2004-03-11|Peters Mark E.|Valve with smart handle|
    US20050103342A1|2003-11-14|2005-05-19|Jorczak Kevin D.|Remote control gas regulation system|
    US20080150739A1|2006-12-26|2008-06-26|Gamard Stephan C F|Medical gas cylinder alarm and monitoring system and method|
    US20100245098A1|2007-10-24|2010-09-30|Toyota Jidosha Kabushiki Kaisha|Gas level display controller, gas level display device, and gas level display control method|
    EP2339222A2|2009-12-21|2011-06-29|Linde Aktiengesellschaft|Pressure vessel with pressure sensor|
    GB2486018A|2010-12-02|2012-06-06|Bedford Hospital Nhs Trust|Apparatus for monitoring depletion and movement of a medical gas supply|
    WO2012164240A2|2011-06-02|2012-12-06|Linde Aktiengesellschaft|A flow apparatus and monitoring system relating thereto|FR3112839A1|2020-07-24|2022-01-28|L'air Liquide Société Anonyme Pour L’Étude Et L'exploitation Des Procédés Georges Claude|Pressurized fluid container with electronic device to calculate autonomy more accurately|US2866933A|1954-10-05|1958-12-30|North American Aviation Inc|Limiting device for aircraft wing load|
    GB2019608B|1978-04-13|1982-10-20|Toshiba Machine Co Ltd|Controlling injection moulding|
    US5223822A|1992-04-24|1993-06-29|Stonel Corporation|Valve position indicator|
    US20110140850A1|2009-12-16|2011-06-16|Matheson Tri-Gas, Inc.|Real time tracking and monitoring of gas cylinders|
    US20110147282A1|2009-12-22|2011-06-23|Hellenbrand, Inc.|System for automatic water discharge management|US10052768B1|2015-12-28|2018-08-21|Boston Dynamics, Inc.|Determining null bias of a hydraulic valve of a robot|
    US10655786B1|2016-03-21|2020-05-19|Essex Industries, Inc.|Electronic pressure gauge for pressurized system with variable outlet flows|
    FR3075310B1|2017-12-19|2020-01-10|L'air Liquide, Societe Anonyme Pour L'etude Et L'exploitation Des Procedes Georges Claude|PRESSURE TAP AND BOTTLE OF FLUID|
    FR3075309B1|2017-12-19|2020-01-10|L'air Liquide, Societe Anonyme Pour L'etude Et L'exploitation Des Procedes Georges Claude|PRESSURE TAP AND BOTTLE OF FLUID|
    WO2021255702A1|2020-06-18|2021-12-23|Cavagna Group S.P.A.|A valve assembly for pressurized containers|
    CN113791570B|2021-11-17|2022-01-25|厚普清洁能源股份有限公司|Intelligent filling device control method based on attitude and falling detection|
    法律状态:
    2015-01-22| PLFP| Fee payment|Year of fee payment: 2 |
    2016-01-21| PLFP| Fee payment|Year of fee payment: 3 |
    2017-01-20| PLFP| Fee payment|Year of fee payment: 4 |
    2018-01-19| PLFP| Fee payment|Year of fee payment: 5 |
    2019-01-23| PLFP| Fee payment|Year of fee payment: 6 |
    2020-10-16| ST| Notification of lapse|Effective date: 20200905 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1450524A|FR3016677B1|2014-01-22|2014-01-22|VALVE FOR PRESSURIZED FLUID BOTTLE AND CORRESPONDING BOTTLE|FR1450524A| FR3016677B1|2014-01-22|2014-01-22|VALVE FOR PRESSURIZED FLUID BOTTLE AND CORRESPONDING BOTTLE|
    PCT/FR2014/053044| WO2015110717A1|2014-01-22|2014-11-26|Valve for a pressurized fluid cylinder and corresponding cylinder|
    EP14814960.2A| EP3097340A1|2014-01-22|2014-11-26|Valve for a pressurized fluid cylinder and corresponding cylinder|
    US15/112,757| US20160348844A1|2014-01-22|2014-11-26|Valve for a pressurized fluid cylinder and corresponding cylinder|
    [返回顶部]