FR3009056B1 - SECURE DEVICE FOR DISPENSING FLUID TO A USER - Google Patents

Abstract

The invention relates to a secure device for dispensing fluid to a user, said device comprising: a container comprising a valve having a first state in which it is closed and a second state in which it is open; - Locking means movable between a first position in which it blocks the valve in the first state and a second position in which the valve is freely movable between the first and second state; detection means adapted to detect the presence of an authentication means of the user; control means, activatable by a control signal, adapted to move the locking means from the first position to the second position; an interface adapted for establishing a communication channel adapted for the transfer of authentication information between said authentication means and the secure device, the reception of said information by the interface generating the control signal when the authentication information is equal to a predetermined value.

Description

The invention relates to a secure device for dispensing fluid to a user. The invention relates more particularly to the distribution of fluid contained in bottles intended for patients in a non-hospital environment, in the context of home care.

The term "fluid" in the context of the present application means a gaseous, liquid or diphasic liquid-gas body.

Currently, some fluids can not be administered to patients outside hospitals because of the risks inherent in the lack of sufficient control of the use of bottles at home (eg risk of overdose). Among these fluids, there may be mentioned oxygen, or a mixture of nitrous oxide and oxygen and in particular an equimolar mixture of nitrous oxide and oxygen. The opening of the fluid bottles is usually controlled by means of a plastic seal, a new plastic seal to be put back in place by the nursing staff after each use. The presence of a new seal ensures that the bottle is not used in the meantime by personnel who do not hold such plastic seals, ie unauthorized personnel of the patient type.

However, this method is not perfectly reliable. For example, in the context of home-based care that involves the displacement of medical personnel to the patient's place of residence, medical negligence of the plastic seal endangers the reliability of this method, the likelihood that the bottle remains unsealed due to its use being high.

Securing access to the use of these bottles is preponderant in order to democratize the use of such types of bottles at home. The invention aims to remedy all or part of the disadvantages of the state of the art identified above, and in particular to provide means for securing access to containers adapted to contain the fluid, such as fluid bottles.

For this purpose, one aspect of the invention relates to a secure device for dispensing fluid to a user, said device comprising: a container adapted to contain said fluid, said container comprising a valve through which the fluid can be dispensed to the user, said valve having a first state in which the valve is closed and a second state in which the valve is open; a locking means of said valve, said locking means being movable between a first position in which it blocks the valve in the first state and a second position in which the valve is freely movable between the first state and the second state; detection means adapted to detect the presence of an authentication means of the user; control means operable by a control signal, said control means being adapted to move the locking means from the first position to the second position; an interface adapted for establishing a communication channel between said user authentication means and the secure fluid distribution device, said communication channel being adapted for the transfer of authentication information, the receiving said authentication information by the interface generating the control signal when the authentication information is equal to a predetermined value.

The device conditions the unlocking of the valve of the container, the authentication of the user who presents his means of authentication. The use and administration of the fluid contained in the container is conditioned on the adequacy between the authentication information of the user and the predetermined value contained for example in a memory of the secure device. The nature of the authentication means and the communication channel depends on the type of interface installed on the secure device. Any communication technology of the type with or without contact is possible: RFID, NFC, WIFI, magnetic stripe card, smart card etc ... The use of a contactless communication improves the reliability of the system, because of the absence of contact zone, this type of zone being worn over time. This communication technology should preferably allow the establishment of a short-distance communication, low consumption and embedding security layers. The authentication information can be both information about the medical personnel authorized to administer the treatment, or information about the patient to receive the treatment, or both information at a time. The type of authentication information expected depends on the setting of the device and the predefined authentication information which may be the sum of the authentication information of the medical staff and the patient.

Once the valve is unlocked, the valve is not necessarily opened, i.e. passed to its second state, immediately. The medical staff, user, may have to perform preliminary medical steps, such as preliminary care. The opening of the unlocked valve can be done manually by the medical staff. The second state of the valve corresponding to the opening of the valve may be a total opening of the valve or a partial opening, i.e. an intermediate opening determined by the dosage required by the patient.

The detection means may be a housing adapted for insertion of the user authentication means, or may also be a push button that the user activates so as to wake the device and allow the establishment of the communication channel for its authentication.

The authentication means used by the user and capable of communicating with the secure device for the exchange of authentication information may be of the type: card, keychain, mobile device (mobile phone, tablet, computer, etc.). It can be any type of means capable of establishing a communication link with the interface chosen for the device and capable of storing authentication information or retrieving it on a remote means. For example, a remote server could manage the authorization of use of the bottles and a means of authentication of the mobile phone type retrieves this authorization on the remote server by means of a communication type 3G for example, then it establishes a connection of communication with the secure device whose type depends on the interface installed on the secure device.

The secure device could include a plurality of interfaces, each interface can establish a different type of communication link depending on the nature of the authentication means available to users.

In addition to the main features which have just been mentioned in the preceding paragraph, the device according to the invention may have one or more additional characteristics among the following, considered individually or according to the technically possible combinations: the communication channel is established when the presence the user authentication means is detected by the detection means. This device thus advantageously makes it possible to condition the alarm clock of the interface for establishing the communication channel to detect the presence of the user's authentication means in order to limit the power consumption of the device. Thus, the electronic / electrical part of the device, ie the energy consumer, making it possible, among other things, to unlock the valve of the bottle according to the identity of the user, is only awakened when the identification action of the user the user must be realized, that is to say when a user contacts, directly or indirectly, his means of identification with the secure device via the detection means; the interface is an RFID reader. The RFID reader (acronym for radio frequency identification in English and radio-identification in French) of the secure device, once activated by the detection means activates the marker, of the radio-tag type of the user's authentication means, so that to read the authentication information stored there. RFID technology presents an interesting solution in terms of low consumption, which improves the autonomy of the secure device, and distance between the secure device and the authentication means necessary for the establishment of the communication channel. This distance is short which avoids activation errors due to authentication means that would be within range of the secure device but without belonging to the user wishing to authenticate with the device; the communication channel is secure and the interface is an NFC reader. The NFC (near field communication in English) of the secure device can establish a communication channel with any authentication device compatible with NFC technology. The advantage of using the NFC is that it enables the establishment of a secure and short-range communication channel (of the order of ten centimeters), which makes it possible to avoid activation errors due to means authentication that would be within range of the secure device but without belonging to the user wishing to authenticate with the device; the control means are adapted to maintain the locking means in the first position when the authentication information is not equal to a predetermined value. The valve remains locked in the closed position, i.e. in the first state, when the user attempting to use the secure device is not allowed to do so; the device comprises means adapted to evolve the valve to a predefined intermediate state between the first state, in which the valve is closed, and the second state, in which the valve is fully open. The means may comprise a plurality of valves, or calibrated orifices, arranged in the path of the fluid for passing through the valve, each of the valves being individually adjustable so as to vary the flow rate of the fluid passing through the valve. According to the patients, the administration of the fluid may have to be done at different flow rates, it is called dosage in flow. The valve in this case is partially open, the predefined intermediate state can be transmitted from the authentication means of the user to the secure device through the communication channel. More particularly, the predefined intermediate state corresponds to a chosen rate value. Means for analyzing and calculating the device can effect the conversion between the desired flow rate and the predefined intermediate state. In this case, we speak of dosage in flow. The treatment given to the patient must be done for a precise value of flow of the fluid, this value does not have to be set manually by the user, it can be adjusted automatically thanks to the value transmitted by the authentication means of the user. user through the communication channel; the device comprises a return means adapted to move the closing means of the valve of the second state to the first state after a predetermined period of time. The predetermined period of time can be transmitted from the user authentication means to the secure device through the communication channel and be specific to each user / patient. The return means advantageously makes it possible to automate the closure of the valve once the treatment has been performed. It could also be adapted to move the valve locking means from the second position to the first position after the closing means of the valve is returned to the first state so as to automatically secure the closure of the container containing the valve. fluid. The return means may be a spring system, said spring being armed at the opening of the valve, for example manually by the user, and disarmed by means of an electromechanical system after the predetermined period of time. In this case, the electromechanical system is controlled by the value of the predetermined period of time, it is referred to as duration dosage; the device comprises means for measuring the pressure of the fluid contained in said container, said measuring means being connected to a display means, said display means being activated when the pressure of the fluid is below a threshold value. The pressure measurement makes it possible to know the remaining capacity of the bottle. The threshold value of the fluid pressure can be transmitted from the user authentication means to the secure device through the communication channel, it is the pressure that should have the fluid contained in the bottle for the amount of fluid requested by the user for administering the fluid to the patient. When this value does not correspond to the pressure of the bottle corresponding to the remaining capacity of the bottle, this information is transmitted to means for activating the display means and the display means warns the user that the bottle will not fulfill the requested dosage requirements. The display means may alert the user in a sonic or visual manner; the device comprises means for measuring the flow of the fluid at the outlet of the valve. The means for measuring the flow rate of the fluid, of the flowmeter type, for example, makes it possible to verify, in the case of a dosage in flow rate, that the flow rate is respected and to verify the proper operation of the valve. The fluid flow measuring means may also be connected to the display means so as to activate it when the measured flow rate is not the same as the requested flow rate by the value transmitted by the authentication means, for example in order to to alert the user. The means for measuring the flow of the fluid also makes it possible to work with a posology in the amount of fluid dispensed to the patient, the quantity being obtained by performing the integral of the flow over the duration. In addition, the fluid flow measurement means may advantageously be connected to an optional memory in order to record the quantities of fluid administered during the various uses of the device. Thus, it is possible when the container is empty, for example, to verify that the device has been used without fraud by verifying that the initial content of the container corresponds to the quantities of fluid delivered during the different administrations; the display means connected to the flow measurement and / or fluid pressure measuring means may also make it possible at any moment to give the user a feedback on the progress of the treatment being administered. ; the device comprises means for measuring the temperature and means for correcting a measurement of the flow rate obtained by the fluid flow measurement means as a function of the temperature measured by the temperature measuring means and / or means for correcting a pressure measurement obtained by the means for measuring the pressure of the fluid as a function of the temperature measured by the means for measuring the temperature. It is more particularly the ambient temperature. By ambient temperature is meant the temperature outside the device, and in particular outside the container adapted to contain the fluid. This measurement of ambient temperature makes it possible to correct the pressure and flow data and thus to obtain the fluid quantities and the corrected flow rates as a function of temperature variations; the device comprises a memory for recording data related to the operation of the device. This memory can be connected to the control means to record their activation, which allows to deduce when the valve has been opened or closed. The memory can also be connected to the interface to record the authentication attempts, and possibly their success, but also the sending of information by a user such as predefined intermediate opening, predetermined time for closing. The memory can also be connected to the display means, by means of gas flow measurement (optional memory mentioned in the paragraph with reference to the gas flow measurement means), by means of temperature measurement. All this information stored in the memory could be retrieved by a user through the device interface. The user could retrieve this information by means of the user authentication means which may in some cases be a portable terminal, or by means of a portable terminal enabled by the user authentication means when last is a simple badge for example. The invention also relates to a method for the secure distribution of a fluid to a user by means of the secure distribution device according to one of the previously described embodiments, said method comprising: a step of detecting the presence of a user by the detection means; a step of receiving an authentication information by the interface; a step of generating a control signal when the authentication information is equal to a predetermined value; a step of activating the control means when the control signal is generated, for the passage of the unlocking means from the first position to the second position; a step of passage of the valve from the first state to the second state for the distribution of fluid. The step of passing the valve from the first state to the second state, once the locking means has passed into the second position, can be done manually by an operator or automatically by an electromechanical system controlled by the control signal.

The method may advantageously comprise a prior step of awakening the interface by the detection means. This step may be carried out by an operator pressing a push button for example or by the authentication means which sends a wake-up signal to the detection means which itself sends it to the interface for activation once it has been activated. it has been detected.

The method for safely dispensing a fluid to a user by means of the secure dispensing device, said secure dispensing device comprising means adapted to make the valve evolve to a predefined intermediate state between the first state in which the valve is closed and the second state in which the valve is fully open may advantageously comprise a step of transmitting the predefined intermediate state of the valve of the user authentication means to the secure device

This transmission is done via the communication channel. The predefined intermediate state of the valve corresponds to a dosage in flow, in this case the administration of the fluid is done at a precise flow rate, i.e. for a predefined intermediate state of the valve. In the case where the value of the predefined bit rate is transmitted by the authentication means, the secure device could comprise calculation means for converting this value into a flow rate in a predefined intermediate state of the valve, ie a specific valve position. , or calibrated orifices, on the passage of the fluid in the valve.

The method of securely distributing a fluid to a user may also include: a step of sending the authentication information of the secure device to a remote server, said remote server having a memory in which the predetermined value is stored; a step of comparing the authentication information with the predetermined value, said comparing step being performed by means of calculating the remote server; a step of generation by the remote server of an acknowledgment signal when the authentication information is equal to the predetermined value for sending the acknowledgment signal to the secure device, the reception of said acknowledgment signal by the secure device for generating the control signal.

In this embodiment, the authentication of a user for unblocking the device is enhanced. Indeed, the predetermined value is not stored on the secure device but on a remote server with which the secure device requests verification of the identity of the user. This embodiment makes it possible to verify in real time the rights of the bearer of the authentication means. In addition, the method may include a step of transmitting fluid quantities / fluid flow to be delivered from the remote server to the secure device when the authentication information is equal to the predetermined value. This information can be integrated into the acknowledgment signal or sent separately. Other characteristics and advantages of the invention will emerge on reading the description which follows, with reference to the appended figure: FIG. 1 schematically illustrates a secure fluid distribution device according to one embodiment of the invention. In Figure 1 is illustrated a secure device for dispensing fluid to a user. The device comprises a container 1 adapted to contain the fluid, preferably a fluid for medical use. The container 1 is of the fluid bottle type.

The container 1 comprises a valve 2. The fluid contained in the container 1 is distributed to the outside of the container 1 (in the direction of the arrow shown in Figure 1) by means of the valve 2. The valve 2 comprises a first state in which it is closed, thereby preventing the fluid from exiting outwards and a second state in which it is open, allowing the fluid to be dispensed to the outside of the container 1. This second state may correspond to an opening total of the valve or a predefined intermediate opening, corresponding to a specific flow rate of the fluid.

The device also comprises a locking means 3 of the valve 2. This locking means acts as a lock, it secures the opening of the valve and is movable between: a first position in which it blocks the valve in the first state ie in the closed position of the valve; and a second position in which the valve is freely movable between the first state and the second i.e. state when the locking means is in the second position, the valve can be freely opened or closed by a user or automatically.

The device further comprises control means 6 activatable by a control signal. The control means 6 are connected to the locking means 3 so as to be able to move it from the first position, in which it blocks the valve, to the second position, in which it no longer blocks the valve.

The device further comprises a detection means 4 for detecting the presence of an authentication means 5 of the user. The authentication means 5, of the badge type in this embodiment, can be inserted into a slot / housing of the detection means 4 comprising for example a push button. When the badge presses the push button when inserted into the housing of the detection means 4, the secure device is awake. Indeed, the device comprises an interface 7, which is an RFID reader, in this embodiment. The interface 7 enables the establishment of a communication channel between the secure device, via the interface 7, and the authentication means 5, which is of the RFID badge type in this embodiment.

When the user inserts the RFID badge in the detection means 4, the badge activates the establishment of the communication channel. The RFID communication channel is established by the RFID reader 7 which, once woken up, activates the RFID tag of the user's RFID badge by supplying the necessary energy. The communication channel is established only if the detection means 4 detects the presence of an authentication means 5, which thus limits the power consumption of the device.

The RFID tag 5 comprises an authentication information of the user to whom it belongs and information on the posology in fluid flow and duration of administration of the fluid, in this embodiment. The authentication information is transmitted to the secure device over the established communication channel. If this authentication information corresponds to a predetermined value that the bottle recognizes, a control signal is generated, for example, by a computer C connected to the interface 7. The computer C is connected to the control means 6 and the signal control generated by the computer C activates them so that they pass the locking means 3 in the second position, in which the valve is no longer locked in the closed position. In this way, the valve 2 is free of movement and can move from the first position to the second position and vice versa.

If the transmitted authentication information did not correspond to the value contained for example in a memory of the computer C enabling the device to be unlocked, the control signal would not have been generated and the locking means would have been maintained by the control means 6 in the first position, ie the position in which it blocks the valve. Thus, an unauthorized user can not unlock the secure fluid dispensing device.

The RFID badge, in this embodiment, also includes information concerning the dose rate of the fluid to be administered to the patient by the user. In this case, the device comprises means, of the type valves, or calibrated orifices, adapted to evolve the valve between the first state, in which it is closed and the second state in which it is open, the valve adopting an intermediate position predefined between the first state and the second state. The predefined intermediate position corresponds to the flow rate information of the fluid transmitted by the RFID badge via the communication channel. Valves, or calibrated orifices, make it possible to vary the opening section of the valve between the fully open and fully closed position. In order to verify whether the dosage is well respected, a fluid flow measurement means D is positioned at the outlet of the valve. The flow measurement means D may be connected to a computer of a display means A in order to activate the display means when the actual flow rate does not correspond to the expected flow rate. When enabled, the display means may display an alert message to the user or beep.

The RFID badge, in this embodiment, also includes information regarding the dosage of fluid administration time to the patient that defines a predetermined period of time after which the valve must return to the first position, in which it is closed . For this purpose, when the user opens the valve, once it has been unlocked by the locking means, the user arms a return means (not visible in the figure) of the spring type. The spring is connected to an electromechanical device to which the predetermined period of time is transmitted by the interface 7 so as to engage a movement of the electromechanical device adapted to disarm the spring once the time has elapsed.

The device also comprises a means for measuring the pressure P of the fluid contained in the container to know the capacity of said container. It is connected to a computer of the display means A so as to prevent in order to activate the display means when the pressure of the fluid contained in the container will not complete the treatment determined by the dosage or when the bottle is empty. The invention is not limited to the embodiments previously described with reference to the figures and variants could be envisaged without departing from the scope of the invention.

Claims (3)

A device for dispensing fluid to a user, said device comprising: a container (1) adapted to contain said fluid, said container comprising a valve (2) through which the fluid can be dispensed to the user, said valve (2) having a first state in which the valve (2) is closed and a second state in which the valve (2) is open; a locking means (3) for said valve (2), said locking means (3) being movable between a first position in which it blocks the valve (2) in the first state and a second position in which the valve ( 2) is freely movable between the first state and the second state; detection means (4) adapted to detect the presence of an authentication means (5) of the user; - control means (6) activatable by a control signal, said control means (6) being adapted to pass the locking means (5) from the first position to the second position; an interface (7) adapted for establishing a communication channel between said user authentication means and the secure device for distributing the fluid, said communication channel being adapted for transferring a piece of information authentication, the receipt of said authentication information by the interface generating the control signal when the authentication information is equal to a predetermined value, characterized in that - the communication channel is established when the presence of the means of authentication (5) of the user is detected by the detection means (4), and - the device comprises means adapted to evolve the valve (2) to a predefined intermediate state between the first state in which the valve is closed and the second state in which the valve is fully open. 2. Device according to claim 1, characterized in that the interface (7) is an RFID reader. 3. Device according to any one of claims 1 or 2, characterized in that the communication channel is secure and in that the interface is an NFC reader. 4. Device according to any one of the preceding claims, characterized in that the control means (6) are adapted to maintain the locking means (3) in the first position when the authentication information is not equal. at a predetermined value. 5. Device according to any one of the preceding claims, characterized in that the device comprises a return means adapted to move the closing means of the valve of the second state to the first state after a predetermined period of time. 6. Device according to any one of the preceding claims, characterized in that it comprises a means for measuring the pressure of the fluid (P) contained in said container, said means for measuring the pressure of the fluid being connected to a means display means (A), said display means being activated when the fluid pressure is below a threshold value. 7. Device according to any one of the preceding claims, characterized in that it comprises a fluid flow measurement means (D) at the outlet of the valve. 8. Device according to any one of claims 6 to 7, characterized in that it comprises a means for measuring the temperature and means for correcting a measurement of the flow rate obtained by the means for measuring the flow rate of the fluid as a function of the temperature measured by the means for measuring the temperature and / or means for correcting a pressure measurement obtained by the means for measuring the fluid pressure as a function of the temperature measured by the temperature measuring means. 9. Device according to any one of the preceding claims, characterized in that it comprises a memory for the recording of data related to the operation of the device. 10. A method of securely distributing a fluid to a user by means of the secure distribution device according to any one of the preceding claims, said user being provided with an authentication means, said method comprising: a step of detecting the presence of a user by the detection means; a step of receiving an authentication information by the interface; a step of generating a control signal when the authentication information is equal to a predetermined value; a step of activating the control means when the control signal is generated, for the passage of the unlocking means from the first position to the second position; a step of passage of the valve from the first state to the second state for the distribution of fluid. 11. Method according to the preceding claim, characterized in that it comprises a prior step of waking up the interface by the detection means. 12. A method of securely dispensing a fluid to a user according to any one of claims 10 to 11, by means of the secure distribution device, characterized in that said method comprises a step of transmitting the predefined intermediate state of the valve of the authentication means of the user to the secure device. 13. A method of securely distributing a fluid to a user according to any one of claims 10 to 12, characterized in that it comprises: a step of sending the authentication information of the secure device to a server remote, said remote server having a memory in which is stored the predetermined value; a step of comparing the authentication information with the predetermined value, said comparing step being performed by means of calculating the remote server; a step of generation by the remote server of an acknowledgment signal when the authentication information is equal to the predetermined value for the flight of the acknowledgment signal to the secure device, the reception of the said acknowledgment signal by the secure device for generating the control signal.