• 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:
    The invention relates to a device (22) for storing elements (12), each element (12) comprising a first wireless communication unit, the device (22) comprising at least two drawer units (30) each comprising: a drawer comprising a bottom defining at least one receiving location of an element (12), - for each location, at least a second wireless communication unit comprising an antenna having a radiation field, each antenna comprising a first state in wherein said antenna is activated and a second state in which said antenna is deactivated; - a data processing unit adapted to control the activation and deactivation of the antenna of each second communication unit according to a control law.
    公开号:FR3047185A1
    申请号:FR1659522
    申请日:2016-10-03
    公开日:2017-08-04
    发明作者:Jean-Claude Mongrenier
    申请人:Biolog SA;
    IPC主号:
    专利说明:

    Element storage device
    The present invention relates to a device for storing elements.
    The present invention also relates to an installation comprising such a storage device.
    The elements are, for example, bags containing biological products, such as blood products (primary blood bags, plasma, platelets, red blood cells ...) or cellular engineering products (cells, strains. ..), or pockets of drugs, such as chemotherapy bags.
    It is known to store such bags in cooling structures formed of drawers in which the pockets are inserted. The pockets inserted in such structures generally comprise an identifying tag, such as an RFID (radio frequency identification) tag, in which information relating to the corresponding pocket is stored. . In addition, a reader, such as an RFID reader comprising at least one antenna, is arranged vis-à-vis the intended location of the pockets of each drawer to read and update the information contained in the labels. said pockets.
    However, interference is likely to occur between the waves emitted by the antenna of each RFID reader, which makes it difficult to read the information stored on the identification tags and thus the control of the state of the corresponding elements.
    There is therefore a need for a device for storing elements making it possible to control the state of said elements reliably. For this purpose, the subject of the invention is a device 1 for storing elements, each element comprising a first wireless communication unit in which information relating to said element is stored, the device comprising at least two drawer units assembled on each other. the others to form a vertical stack, each drawer unit comprising: - a support comprising a housing, - a drawer positioned in the housing of the support and slidable relative to the support, the drawer comprising a bottom defining at least one receiving location of an element, - for each location, at least a second wireless communication unit capable of transmitting radio frequency waves, each second communication unit being arranged opposite the corresponding location, each second communication unit being adapted to communicate with all the first communication units, each d second communication unit comprising at least one antenna having a radiation field, the radiation field of each antenna covering at least: • the location opposite the second communication unit of said antenna and • at least a location adjacent said location opposite the second communication unit of said antenna, each antenna further comprising a first state in which said antenna is activated and a second state in which said antenna is deactivated; data processing unit connected to each second communication unit, the processing unit being able to control the activation and deactivation of the antenna of each second communication unit according to a control law to determine if the location in with respect to the second communication unit of said antenna is occupied by an element and, where appropriate, the information relating to audio. it element.
    According to particular embodiments, the device comprises one or more of the following characteristics, taken separately or in any technically possible combination: - each second communication unit corresponding to a location, the control law is chosen so as to control in parallel activating the antenna of said second communication unit and deactivating the antenna or antennas adjacent to said antenna, so that the antenna of each second communication unit is activated at different time intervals of the time intervals antennas adjacent to said antenna; the processing unit is able to determine at which location the information collected by each antenna corresponds according to the information communicated by all the antennas; - The bottom of each drawer is formed of a material adapted to be traversed by radio waves emitted by second communication units; each second communication unit is arranged above the corresponding location; - Each second communication unit is disposed below the bottom of the drawer of the corresponding location; each drawer unit comprises a plate positioned below the bottom of the drawer of each drawer block and below the second communication units corresponding to the locations of the bottom of the drawer of said drawer block, each plate being able to prevent the passage of waves radio signals emitted by any second communication unit; each first communication unit is a radio identification label and each second communication unit is a radio identification reader. The invention also relates to an installation comprising: - an enclosure comprising an internal compartment, and - a device as described above, the device being disposed in the internal compartment of the enclosure.
    According to particular embodiments, the installation comprises one or more of the following characteristics, taken separately or in any technically possible combination: the elements being platelet containers, the enclosure being a platelet stirrer. Other features and advantages of the invention will appear on reading the following description of embodiments of the invention, given by way of example only and with reference to the drawings which are: FIG. 1, a diagrammatic representation in perspective of an installation comprising a storage device, - Figure 2, a schematic perspective representation of the storage device of Figure 1, - Figure 3, a schematic representation of several drawer units of the storage device of Figure 1, and FIG. 4, a schematic representation of an element intended to be stored in the device of FIG. 1.
    An item storage facility 12 is illustrated in FIG.
    The elements 12 are, for example, containers (visible in Figure 2). In general, a container designates any type of bag intended to contain products whose use is conditioned by strict storage constraints.
    More particularly, the elements 12 are, for example, bags containing biological products such as blood products (primary blood bags, plasma, platelets, red blood cells ...) or cellular engineering products (cells human or animal, especially human or animal stem cells, products derived from human or animal cells).
    Alternatively, the elements 12 are drug pouches or therapeutic preparations containing one or more active ingredients or drugs, such as chemotherapy pouches generally containing a solute and one or more chemotherapy active ingredients.
    More generally, the elements 12 are able to contain any product intended to be perfused to a human or to an animal.
    As shown in FIG. 4, each element 12 comprises a first wireless communication unit 14. Each first communication unit 14 is, for example, a label, such as an adhesive label attached to an outer face of the element 12. .
    In general, each first communication unit 14 comprises at least one antenna, a memory and, optionally, a microprocessor. The antenna of each first communication unit 14 is, for example, a radiofrequency antenna.
    The memory of each first communication unit 14 comprises information relating to the corresponding element 12.
    Such information is, for example: a unique identifier of the element 12, the date of storage of the element 12, the expiry date of the element 12, the date on which the first communication unit 14 of the element 12 lastly provided information, the donation number relating to the content of element 12, the product code of the content of element 12, the rhesus group of the content of element 12, the blood phenotype of content of element 12, the identity of the patient from which the content of element 12 originates, the name of the patient from which the content of element 12 originates, the volume of the content of element 12, the donation center (including the address) where the content of element 12, the current process on element 12 and the type of anticoagulant of the content of element 12 were obtained. In the case of chemotherapy, such information includes, in addition, the date of manufacture, the date of ype of product, type of vehicle, identity of prescribing physician, identity of pharmacist, identity of manufacturer, date of release and status (released, issued, etc.). The installation 10 comprises an enclosure 20 and a storage device 22. The enclosure 20 comprises an internal compartment 24 for receiving the storage device 22. The enclosure 20 is, for example, a refrigerating enclosure, such as a refrigerator or a freezer. When the refrigerating chamber is a refrigerator, the temperature of the enclosure is between 0 degrees Celsius (° C) and 5 °, preferably equal to 4 ° C. When the cooling chamber is a freezer, the temperature of the chamber is between -35 ° C and -196 ° C, preferably equal to -40 ° C.
    Alternatively, the enclosure 20 is a platelet stirrer. The enclosure 20 is then preferably integrated in an incubator having a temperature, preferably equal to 24 ° C.
    In what follows, it is defined relative positions with respect to a current direction of use of the enclosure 20 for which it is defined a low, generally resting on the ground, and a top opposite the bottom. These relative positions are highlighted by terms such as "below" or "above".
    The device 22 comprises a plurality of drawer units 30 and a base 32. As can be seen in FIG. 2, the device 22 further comprises a processing unit 33.
    As described later, the drawer units 30 are stacked one on the other to form a vertical stack 38 of drawer units 30. FIGS. 1-3 show an example of a stack of ten drawer units 30.
    Each drawer unit 30 comprises a support 40, a drawer 42 and at least a second communication unit 44, visible in FIG.
    The support 40 comprises a housing 45, an upper end 46, a lower end 48 (visible in Figure 3) and connections 49 (visible in Figure 2).
    Each housing 45 is adapted to receive the corresponding drawer 42. The upper end 46 of each drawer unit 30, visible in Figure 3, comprises at least a first assembly member 51. The first assembly members 51 are, for example, female assembly members. The lower end 48 of each slide block 30, visible in FIG. 3, comprises at least one second assembly member 52, complementary to the first assembly members 51. The second assembly members 52 are, for example, male fasteners.
    In the example illustrated in FIG. 3, the first assembly members 51 are slots and the second assembly members 52 are ribs complementary to the slots.
    Thus, each drawer unit 30 is assembled with at least one other drawer block 30 of the stack 38 by the first assembly member (s) 51 of said drawer unit 30 and / or by the second one (s). s) assembly member (s) 52 of said drawer unit 30.
    The connections 49 are, for example, electrical connections.
    In the embodiment illustrated in FIGS. 1 to 3, the connections 49 of each drawer block 30 are connected, on the one hand, to the second communication units 44 of said drawer unit 30, and on the other hand, to the second units of In addition, the connections 49 are connected to the processing unit 33.
    Each drawer 42 is positioned in the housing 45 of the support 40. Each drawer 42 is able to slide relative to the corresponding support 40.
    Each drawer 42 comprises a bottom 56 defining at least one location 58 for receiving an element 12.
    The bottom 56 of each drawer 42 is formed of a material able to be traversed by radio waves emitted by the second communication unit 44 of the drawer unit 30 of said drawer 42.
    The bottom material 56 of each drawer 42 is, for example, plastic.
    In the embodiment illustrated in FIGS. 1 to 3, the bottom 56 of each drawer 42 defines twelve locations 58 for receiving elements 12.
    Each location 58 is, for example, delimited by rims 59 forming a bin 60.
    In the embodiment illustrated in FIGS. 1 to 3, each drawer unit 30 comprises as many second communication units 44 as there are locations 58.
    In the embodiment illustrated in FIGS. 1 to 3, each second communication unit 44 is disposed below the bottom 56 of the drawer 42 in relation to the corresponding location 58, so as to allow the communication between said second communication unit 44 and the first communication unit 14 of an element 12 received in said location 58.
    It is understood by the expression "opposite", the fact that each second communication unit 44 is arranged in front of the space delimited by the location 58. Otherwise formulated, the projection of the location 58 in the plane of the second communication unit 44 is merged with the second communication unit 44.
    Alternatively, at least one second communication unit 44 is disposed above the corresponding replacement 58.
    Each second communication unit 44 is able to communicate, if necessary, with the first communication unit 14 of the element 12 received in said location 58 to obtain information relating to the element 12.
    Each second communication unit 44 is able to emit radio frequency waves. Each second communication unit 44 is adapted to communicate with all the first communication units 14.
    In an exemplary embodiment, the first communication units 14 are RFID tags and the second communication units 44 are RFID readers.
    More generally, each second communication unit 44 comprises at least one antenna, a memory and, optionally, a microprocessor.
    The radiation field of each antenna covers at least: • the location 58 opposite the second communication unit 44 of said antenna and • at least one location 58 adjacent to said location 58 vis-à-vis the second communication unit of said antenna.
    More precisely, the radiation field of each antenna covers the locations 58 near the antenna as a function of the intensity and the shape of the magnetic field of the antenna.
    Each antenna further comprises two states: a first state in which the antenna is activated and a second state in which the antenna is deactivated. An activated antenna is an antenna capable of resonating at a predetermined impedance and at a predetermined frequency. The predetermined impedance is, for example, equal to 50 Ohms (Ω) and the predetermined frequency is, for example, equal to 13.56 MHz (MHz). Thus, the resonance frequency of an activated antenna is close to the working frequency of said antenna. A deactivated antenna is an antenna that is not able to resonate at the predetermined frequency. The deactivation of an antenna is effected, for example, by opening the loop of said antenna or detuning the antenna so that the impedance of said antenna at the resonant frequency has a much lower real (or resistive) component. than the imaginary (or reactive) component of said antenna.
    In the embodiment illustrated in FIGS. 1 to 3, each second communication unit 44 is integral with the drawer 42 of the corresponding drawer unit 30. More specifically, each second communication unit 44 is fixed below the bottom 56 of the corresponding replacement slide valve 58.
    In a variant, each second communication unit 44 is integral with the support 40 of the corresponding drawer unit 30. Each drawer unit 30 further includes a satellite. The satellite is a housing which contains the second communication unit 44. The satellite is fixed to the support 40 of said drawer unit 30 directly under the drawer 42 of said drawer unit 30. When the drawer 42 is closed, said second communication unit 44 is in position. face of the corresponding location 58 and is therefore, if necessary, able to communicate with a first communication unit 14 positioned in the corresponding location 58. When the drawer 42 is open, said second communication unit 44 is not moved with the drawer 42, and therefore, is not able to communicate with a first communication unit 14 positioned in the corresponding location 58.
    Optionally, each drawer block 30 also includes a plate.
    Each plate is able to prevent the passage of radio waves emitted by any second communication unit 44. Each plate is, for example, made of metal.
    Each plate is positioned below the bottom 56 of the drawer 42 of each drawer unit 30 and below the second communication units 44 corresponding to the locations 58 of the bottom 56 of the drawer 42 of said drawer unit 30. Thus, each second communication unit 44 is able to communicate only with the first communication units 14 positioned above said second communication unit 44.
    The base 32 is assembled with the lowest drawer block 30 of the stack 38 of drawer units 30. For this purpose, the base 32 comprises an upper end 62 comprising at least a third assembly member. Each third assembly member is identical to the first assembly members 51. The second assembly member or members 52 of the last drawer unit 30 of the stack 38 are assembled with the third or third assembly members of the base 32. , which makes it possible to close the stack 38. The processing unit 33 is connected to each second communication unit 44. The processing unit 33 is able to process the information coming from the second communication units 44. In particular , the processing unit 33 is able to control the activation and deactivation of the antenna of each second communication unit 44 according to a control law to determine whether the location opposite the second unit of communication 44 of said antenna is occupied by an element 12 and, where appropriate, the information relating to said element 12.
    More specifically, for each second communication unit 44 corresponding to a slot 58, the control law is chosen so as to control in parallel the activation of the antenna of said second communication unit 44 and the deactivation of the antenna or antennas adjacent or opposite said antenna, or more generally near said antenna, so that the antenna of each second communication unit 44 is activated at time intervals, different from the time slots of the adjacent antennas , or more generally close to, said antenna.
    The control law is adapted to allow each second communication unit 44 to communicate with a possible first communication unit 14 positioned in the corresponding location 58, without interference with the waves emitted by the antennas of the second communication units 44 adjacent to said second communication unit 44. Thus, the antenna of each second communication unit 44 is activated and deactivated at established time intervals as a function of the second communication units 44 adjacent to said second communication unit 44.
    The control law depends on the position of the antennas of each second communication unit 44 and the radiation field of said antennas.
    For example, it is assumed that the radiation field of each antenna covers the location 58 opposite the antenna and the adjacent locations 58 (laterally, top, bottom and diagonally) at said location 58 To ensure the interference-free operation of a second given communication unit 44, the control law controls the deactivation, for a definite time, of the antennas of the second communication units 44 opposite the locations adjacent to said second communication unit 44. communication unit 44 and activation of the antenna of said second communication unit 44. The same command is repeated at different time intervals for the other second communication units 44.
    In another example, the control law controls the deactivation of all the antennas and the one-to-one activation of each antenna at different time intervals.
    In yet another example, the control law controls the activation of a single antenna by drawer unit 30 by choosing antennas that are not facing each other and deactivating all of the others. antennas. The processing unit 33 is furthermore able to determine the location of the information collected by each antenna according to the information communicated by all the antennas.
    Indeed, insofar as the radiation field of each antenna covers, in addition to the location 58 corresponding to said antenna, at least one other adjacent location 58, the processing unit is configured to determine the source of the information collected by each antenna.
    For example, it is assumed that the antennas are arranged below the drawers 42 and that the radiation field of each antenna covers the location 58 opposite the antenna (thus above the antenna ) and the location 58 adjacent to the antenna and located in the drawer 42 at the bottom of the antenna (thus below the antenna). The processing unit 33 is able to compare the information collected by the adjacent antennas and to determine, thus, the information corresponding to the location opposite each antenna. In this example, assume that a first antenna vis-à-vis a first location 58 detects a first signal A and a second signal B and a second antenna adjacent and directly below the first antenna detects the second signal B and a third signal C. The processing unit 33 determines that the second signal B detected by each of the first and the second antenna originates from a first communication unit 44 of an element 12 positioned in the first location. The processing unit 33 further determines that the first signal A originates from a first communication unit 44 of an element 12 positioned in the adjacent location 58 and directly above the first location 58. The unit also determines that the third signal C comes from a first communication unit 44 of an element 12 positioned in the adjacent location 58 and directly below the first location 58.
    In general, the control law is chosen so that the processing unit 33 reliably determines at which location (s) 58 correspond the information collected by each antenna.
    In addition optional, the processing unit 33 is adapted to take into account the strength of the signal, called RSSI (acronym for "return signal strength intensity", translated into French as "intensity of the signal power back") , emanating from each antenna. In practice, the closer an antenna is to a first communication unit, the better the RSSI is, that is, the RSSI is high. For example, for an RSSI ranging from 0 to 7: "7" means that the antenna is closer to the first communication unit and "0" means that the antenna detects no signal.
    For example, for a device 22 comprising six drawer units 30, five antennas and a first communication unit 14 positioned in the third drawer unit 30, the RSSI could be {3, 6, 7, 2, 0}.
    For example, to find where is the first communication unit 14, the processing unit 33 is able to consider that said first communication unit 14 is between the two antennas, the RSSI the strongest. As a variant, the processing unit 33 is able to determine said first communication unit 14 by performing weighted average or k-average calculations on the RSSIs obtained.
    Finally, the processing unit 33 is able to determine the occupation of each location 58 and, if appropriate, from said information, a state of the element 12 positioned in said location 58.
    The states determined are, for example, two in number: a "valid" state and an "invalid" state. An element 12 is considered "valid" when the information relating to the element 12 conform to a specification and is considered "invalid" in the opposite case.
    Thus, the processing unit 33 has an instantaneous image of the storage device 22, namely which element 12 is in which slot 58 and the information relating to each of said elements 12. The processing unit 33 also comprises a date history input and output of each element 12 relative to the device 22.
    Optionally, the processing unit 33 is able to order, if necessary, the update, by the second communication units 44, of the information contained in the first communication units 14.
    Optionally, the processing unit 33 is able to generate an alarm according to the occupation of each location 58 and, if applicable, the state of the element 12 corresponding to said location 58. For example, if the processing unit 33 determines that a same location 58 comprises more than one element 12, the processing unit 33 generates an alarm.
    The operation of the device 22 integrated in the installation 10 will now be described. The processing unit 33 controls the activation and deactivation of the antenna of each second communication unit 44 according to the control law. This allows the antenna of each second communication unit 44 to collect, where appropriate, information relating to the elements 12 of the corresponding locations 58. The processing unit 33 determines from said information the locations 58 occupied by elements 12 and, where appropriate, a state of the elements 12. If necessary, the processing unit 33 triggers or not an alarm.
    Thus, the device 22 reliably controls the state of the elements 12 stored in the device 22, as well as the occupancy rate of the locations 58 of the drawer units 30.
    In particular, the activation and deactivation of the antennas as a function of the control law makes it possible to reduce the interference between the signals, which improves the reading of the information stored on the first communication units 14.
    In addition, the specific positioning of the readers below the corresponding drawer provides a small footprint.
    The device 22 is therefore an element storage device for controlling the state of said elements 12 reliably without encumbering the storage space.
    In addition, it is easy to assemble and disassemble the drawer units 30 of the device 22. Such modularity of the device 22 makes it possible to adapt the device 22 to a large number of installations 10, by modifying the number of drawer units 30 stacking 38.
    In addition, a stack of drawer units is much lighter and cumbersome than a plurality of drawers, so easier to handle and install.
    In addition, from a manufacturing point of view, thousands of identical drawer units are manufactured, rather than dozens of differently sized cabinets. This allows for economies of scale, simplified stock management, and maintenance.
    Furthermore, the device 22 is adaptable to an installation 10 that does not previously have RFID technology.
    In addition, the reduced size makes it possible to envisage configurations in which the installation 10 contains a larger number of elements 12.
    In addition, the installation 10 and / or the device 22 are easy to manufacture.
    Finally, in the variant in which each drawer block 30 comprises a satellite, the satellite is in one block and is therefore easy to replace in case of failure.
    权利要求:
    Claims (10)
    [1" id="c-fr-0001]
    1. - Device (22) for storing elements (12), each element (12) comprising a first wireless communication unit (14) in which information relative to said element (12) is stored, the device (22) comprising at least two drawer units (30) assembled to one another to form a vertical stack (38), each drawer unit (30) comprising: - a support (40) comprising a housing (45), - a drawer (42) ) positioned in the housing (45) of the support (40) and slidable relative to the support (40), the drawer (42) comprising a bottom (56) defining at least one location (58) for receiving an element (12), for each location (58), at least a second wireless communication unit (44) adapted to emit radio frequency waves, each second communication unit (44) being arranged opposite the corresponding slot (58), each second communication unit (44) being adapted for r communicate with all the first communication units (14), each second communication unit (44) comprising at least one antenna having a radiation field, the radiation field of each antenna covering at least: • the location ( 58) opposite the second communication unit (44) of said antenna and at least one location (58) adjacent said location (58) opposite the second communication unit (44). ) of said antenna, each antenna further comprising a first state in which said antenna is activated and a second state in which said antenna is deactivated; - a data processing unit (33) connected to each second communication unit ( 44), the processing unit (33) being adapted to control the activation and deactivation of the antenna of each second communication unit (44) according to a control law to determine whether the location (58) facing -a-vi s of the second communication unit (44) of said antenna is occupied by an element (12) and, if necessary, information relating to said element (12).
    [2" id="c-fr-0002]
    2, - Device (22) according to claim 1, wherein, for each second communication unit (44) corresponding to a location (58), the control law is chosen so as to control in parallel the activation of the antenna of said second communication unit (44) and deactivation of the antenna or antennas adjacent to said antenna, so that the antenna of each second communication unit (44) is activated at time intervals different from the time intervals antennas adjacent to said antenna.
    [3" id="c-fr-0003]
    3. - Device (22) according to claim 2, wherein the processing unit (33) is adapted to determine at which location (58) corresponds the information collected by each antenna according to the information provided by all antennas .
    [4" id="c-fr-0004]
    4. - Device (22) for storage according to any one of claims 1 to 3, wherein the bottom (56) of each slide (42) is formed of a material capable of being traversed by radio waves emitted by second communication units (44).
    [5" id="c-fr-0005]
    5. - Device (22) according to any one of claims 1 to 4, wherein each second communication unit (44) is disposed above the corresponding location (58).
    [6" id="c-fr-0006]
    6. - Device (22) according to any one of claims 1 to 4, wherein each second communication unit (44) is disposed below the bottom (56) of the drawer (42) of the location (58) corresponding.
    [7" id="c-fr-0007]
    7. - Device (22) for storage according to claim 6, wherein each drawer block (30) comprises a plate positioned below the bottom (56) of the drawer (42) of each drawer block (30) and below second communication units (44) corresponding to the locations (58) of the bottom (56) of the drawer (42) of said drawer unit (30), each plate being able to prevent the passage of radio waves emitted by any second communication units (44).
    [8" id="c-fr-0008]
    The device (22) according to any one of claims 1 to 7, wherein each first communication unit (14) is a radio identification label and each second communication unit (44) is a radio reader. identification.
    [9" id="c-fr-0009]
    9. - Installation (10) comprising: - an enclosure (20) comprising an internal compartment (24), and - a device (22) according to any one of claims 1 to 8, the device (22) being arranged in the internal compartment (24) of the enclosure (20).
    [10" id="c-fr-0010]
    10.- Installation (10) according to claim 9, wherein the elements (12) are platelet containers, the enclosure (20) being a platelet stirrer.
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    同族专利:
    公开号 | 公开日
    EP3520046A1|2019-08-07|
    SG11201902932QA|2019-05-30|
    KR20190090788A|2019-08-02|
    JP2019536714A|2019-12-19|
    US20190220638A1|2019-07-18|
    US10922504B2|2021-02-16|
    WO2017153009A1|2017-09-14|
    CN110168583A|2019-08-23|
    AU2017236049A1|2018-04-19|
    FR3047185B1|2021-01-29|
    CA3039127A1|2017-09-14|
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    法律状态:
    2017-07-20| PLFP| Fee payment|Year of fee payment: 2 |
    2017-08-04| PLSC| Publication of the preliminary search report|Effective date: 20170804 |
    2018-09-21| PLFP| Fee payment|Year of fee payment: 3 |
    2019-10-07| PLFP| Fee payment|Year of fee payment: 4 |
    2020-09-14| PLFP| Fee payment|Year of fee payment: 5 |
    2020-12-11| CA| Change of address|Effective date: 20201104 |
    2021-09-10| PLFP| Fee payment|Year of fee payment: 6 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1659522A|FR3047185B1|2016-10-03|2016-10-03|ELEMENT STORAGE DEVICE|FR1659522A| FR3047185B1|2016-10-03|2016-10-03|ELEMENT STORAGE DEVICE|
    CA3039127A| CA3039127A1|2016-10-03|2016-10-24|Device for storing elements|
    JP2019538560A| JP2019536714A|2016-10-03|2016-10-24|Device for storing elements|
    CN201680090361.7A| CN110168583A|2016-10-03|2016-10-24|Storage device for storing articles|
    KR1020197012778A| KR20190090788A|2016-10-03|2016-10-24|The device that holds the element|
    EP16784924.9A| EP3520046A1|2016-10-03|2016-10-24|Device for storing elements|
    SG11201902932QA| SG11201902932QA|2016-10-03|2016-10-24|Device for storing elements|
    US16/338,928| US10922504B2|2016-10-03|2016-10-24|Device for storing elements|
    PCT/EP2016/075508| WO2017153009A1|2016-10-03|2016-10-24|Device for storing elements|
    AU2017236049A| AU2017236049A1|2016-10-03|2017-10-02|A device for storing elements|
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