[0001] The present invention relates to a device for identification of a fluid container,
a fluid container comprising such a device and a method of mounting said identification
device on a fluid container.
[0002] It is known to mount or attach devices on containers, namely cylinders or bottles,
of fluids for remote or contactless identification of said cylinders. Typically, a
support data intended to store and read data related to the fluid container is arranged
in or on a casing, or a support, said casing being intended to be mechanically mounted
on the fluid container.
[0003] A widespread technology for identifying fluid containers relies on electronic identification.
[0004] The electronic identification devices typically use remote antenna for radio frequency
identification, more often referred to by the acronym "RFID" (for Radio Frequency
IDentification).
[0005] The RFID technology is mainly used for managing a stock of containers or bottles,
in particular Liquid Petroleum Gas ("LPG") cylinders.
[0006] This technology allows storing and retrieving data remotely using markers called
"RFID tags" "RFID tag" or "RFID transponder" or "tag". These RFID tags are small objects
which usually include an antenna associated with an electronic chip and possibly a
battery to receive and / or respond to queries sent from a radio transceiver.
[0007] The radios labels are usually carried by the casing of the identification device.
For example, they can be enclosed in the casing, a resin being arranged around the
radio label to protect it.
[0008] RFID devices are usually mounted on fluid containers during the refurbishing or manufacturing
processes of said containers. Indeed, due to the typical design of existing identification
devices, the valve fixed on each container body to be filled has to be removed before
mounting the device on the container.
[0009] A typical solution is disclosed in the document
EP-A-1011070. This document discloses a radio identification device attached to a cylinder neck
ring arranged at the top of a fluid container, where a valve is intended to be fixed.
The disclosed device comprises a holding ring, an electronic data storage medium and
an annular antenna, also called loop antenna, arranged within the whole holding ring.
The holding ring comprises two half-rings locked together by catch.
[0010] But the design of this identification device raises several issues.
[0011] First, it is mandatory that the valve of the container is removed before mounting
the identification. Hence, the process for identifying fluid containers which are
already in use or already introduced in the supply chain can take a long time as it
can be done only during refurbishing or manufacturing of the container. This would
take up to several years for a large number of containers. Thus, it is an obstacle
to the use of the RFID technology for LPG industrial companies.
[0012] Indeed, in order to assemble the device, the ring antenna must be inserted into the
first half of the holding ring, placed over the container neck ring and passed through
the container neck. Then the second half is pulled over the ring antenna, and plugged
to the first half.
[0013] Furthermore, the internal diameter of the holding ring must be adapted so that it
engages in a circumferential indentation existing under a thread of the container
neck. As the external dimensions of fluid containers varies with their volume or capacity,
it is thus necessary to adapt the design of the two half-rings to each existing container
design.
[0014] In addition, the annular antenna must be maintained at a minimum separation distance
from the cylinder neck ring in order to avoid interference effects during data transmission
caused by the cylinder body, which is generally made of metal.
[0015] Indeed, annular antennas are typically excited by induction of a magnetic field from
a radio transceiver antenna. As the container body is generally made of metal, it
tends to absorb the magnetic field in its neighborhood. Hence, if placed too close
to the container body, the annular antenna associated with the tag does not receive
a sufficient amount of energy from the transceiver.
[0016] According to other solutions, the identification device can be attached directly
to the container body, but this implies mechanical modifications of the container
which also have to be carried out during the refurbishing or manufacturing of the
container. Furthermore, this leads to assembly processes which are relatively expensive
and complex on an industrial scale.
[0017] An alternative solution is disclosed in the document
EP-A-2249327 which discloses an identification device comprising an annular housing which can
be mounted to a fluid container while the valve is already fixed on said container.
The housing is maintained around the valve thanks to a U-shaped pin whose parallel
arms extend through the whole body of the annular housing and into the central opening
of the annular housing.
[0018] However, this solution is not ideal because the annular housing need to have an internal
diameter which is larger than the external dimensions of the valve which is fixed
to the container.
[0019] This leads to space saving issues. In particular, fluid packing plants are generally
equipped with fluid leakage detection devices for controlling that the valves are
fixed correctly to the fluid containers. These devices comprise a sensing element
which is intended to cover the valve and adjust around it, and must also adjust to
a portion of the cylinder body arranged around the valve to form a sealing chamber.
These devices thus need to be adapted to the external dimensions of the annular housing,
which implies costly and complicated operations.
[0020] The annular design of the housing is also not ideal since the valves mounted on fluid
containers can have diverse shapes and sizes. It is thus needed to have as much housing
designs as valve designs.
[0021] The use of an annular antenna also implies the above-mentioned perturbations of data
transmission/receiving due to interferences with the metallic container body. Further,
loop inductive antennas are typically manufactured by joining together some hundreds
of loops of very thin copper wire, for example with glue. This kind of design is not
robust enough and imposes the use of resin within the identification device to ensure
the loops are correctly joined.
[0022] An object of the present invention is thus to overcome some or all of the disadvantages
of the prior art mentioned above.
[0023] To this end, the solution according to the invention is an identification device
intended to be mounted on a fluid container comprising a casing carrying a data support
for contactless identification of said fluid container and a U-shaped element attachable
to said casing for forming a closed collar to be mounted around at least a portion
of the fluid container, the casing and the U-shaped element comprising a pair of combined
attaching elements being shaped for cooperating with each other by elastic deformation,
characterized in that the pair of combined attaching elements cooperate between a detached position where
the casing and the U-shaped element form an open collar and an attached position where
said casing and said U-shaped element form a closed collar, in the attached position
the casing being located only at one side of the closed collar between the two terminal
extremities of the U-shaped element.
[0024] Furthermore, other embodiments of the invention may include one or more of the following
characteristics:
- the pair of combined attaching elements are located respectively at one of the two
terminal extremities of the U-shaped element and in a corresponding opening arranged
in said casing, the opening being shaped for accommodating and blocking said terminal
extremity by elastic deformation of said opening and/or by elastic deformation of
said terminal extremity.
- the terminal extremity comprises a deformable portion which is shaped for retracting
when engaging in the corresponding opening and expanding when being accommodated completely
in said corresponding opening.
- the deformable portion and the corresponding opening comprise each complementary abutment
surfaces, said complementary abutment surfaces being shaped for preventing the exit
of said terminal extremity from the corresponding opening once said terminal extremity
is accommodated in said corresponding opening.
- the casing and the U-shaped element comprise two pairs of combined attaching elements
located at each terminal extremity of the U-shaped element and in respective openings
arranged in the casing.
- one of the two terminal extremities the U-shaped attaching element is rigidly fixed
to the casing.
- the data support comprises at least one among: an antenna for radio-frequency identification
(RFID), an electronic chip, an electronic memory for storing data.
- the data support is enclosed in the casing, said casing being made of a plastic material
such as at least one among: polyamide, polyethylene, polypropylene, polyester, polyacetal,
copolymer.
- the casing and/or the U-shaped element are shaped so that, in the attached position,
they prevent the reverse elastic deformation of the attaching elements so that an
effort for separating the U-shaped element from the casing above a certain threshold
generates an irreversible plastic deformation of the identification device.
- the casing 3 comprises a concavity 11 arranged on a surface of said casing 3 facing,
in the attached position, the U-shaped element 4.
[0025] The invention also relates to a fluid container, particularly for fluid under pressure,
comprising an identification device according to the invention.
[0026] According to other possible features, the fluid container may comprise a valve mounted
on said container, the collar being mounted between the container and the valve.
[0027] Advantageously, the container may comprise a longitudinal axis, the valve being mounted
along said longitudinal axis, the identification device being maintained longitudinally
with respect to the container, the internal dimensions of the collar being inferior
to at least one dimension of the valve in a direction transverse to the longitudinal
axis.
[0028] The invention also relates to a process for mounting an identification device according
to the invention on a fluid container fluid comprising a longitudinal axis and a valve
mounted on said container along said longitudinal axis,
characterized in that it comprises the steps of
- positioning the casing and the U-shaped element on opposite lateral sides of the fluid
container, the pair(s) of combined attaching elements being in the detached position
where the casing and the U-shaped element form an open collar,
- moving the U-shaped element and the casing toward each other in a general direction
transverse to the longitudinal axis, until the pair of combined attaching elements
cooperates in the attached position so that said casing and said U-shaped element
form a closed collar around a portion of the fluid container.
[0029] According to another aspect, the invention also relates to the use of an identification
device according to the invention to store and/or retrieve data related to a fluid
container such as at least one among: the capacity of the fluid container, the date
of refurbishing, the tare weight, the filling batch, the expiry date, the nature of
the fluid contained in the fluid container.
[0030] The invention may also relate to any device or alternative process comprising any
combination of characteristics above or below.
[0031] Other features and advantages will become apparent upon reading the following description
with reference to the drawings in which:
- Figure 1 shows a perspective view of a possible embodiment of an identification device
according to the invention in a detached position,
- Figure 2 shows a perspective view of the identification device of Figure 1 in another
attached position,
- Figure 3 illustrates a half cross-section of the identification device of Figure 1
in the attached position, and
- Figure 4 shows a perspective and partial view illustrating an identification device
according to figure 1 mounted on a fluid container.
[0032] Referring to Figures 1 and 2, the identification device according to the invention
comprises a casing 3 carrying a data support 2 for contactless identification of a
fluid container 1.
[0033] The data support 2 is preferably of an electronic type and may comprise at least
one among: an antenna for radio-frequency identification (RFID), an electronic chip,
an electronic memory for storing data. The data support 2 preferably comprises a RFID
tag which may store and/or transmit data being relevant to fill or distribute the
fluid container. Preferably, the data stored in the RFID tag is protected against
modification by non-authorized users.
[0034] The electronic data support 2 can be designed to operate at any frequency (from the
low frequencies to the microwave frequencies). Advantageously, the data support operates
at frequencies which are typically comprised between in the field of Ultra High Frequency
(UHF) preferably between 800 and 900 MHz.
[0035] Advantageously, the data support 2 comprises a resonant radio antenna. In a way known
per se, this kind of antenna rely on the use of electric fields and can be manufactured
as a electronic printed circuit. Hence, such antenna is adapted to be placed close
to the container body and to use the container as part of the antenna itself.
[0036] The data support 2 may be arranged within or on the casing 3. Preferably, it is enclosed
in the casing 3. Advantageously, the casing 3 is made of a plastic material such as
at least one among: polyamide, polyethylene, polypropylene, polyester, polyacetal.
The casing 3 may also be made of a copolymer, for example a copolymer of acrylonitrile,
butadiene, and styrene (ABS).
[0037] The data support 2 can be for example held in the casing via gluing or any other
suitable element known per se.
[0038] The data support 2 may in particular comprise an antenna, which may have a cubic
or parallelepipedic shape or a capsule-shaped antenna or any other suitable electronic
device. The data support may have a thickness of between 2 and 8 mm, for example 5
mm.
[0039] Preferably, the casing 3 has a global parallelepipedic shape and has a length of
between 3 and 5 cm, a width of between 1.5 and 3 cm and a thickness of between 0.7
and 1.5 cm.
[0040] The identification device further comprises a U-shaped element 4 attachable to the
casing 3 for forming a collar 8 to be mounted around at least a portion of the container
1. The U-shaped element comprises two arms connected to a central curved portion,
each arm comprising a terminal extremity. Preferably, the arms are generally parallel
to each other. The curved portion typically comprises a concave portion which may
have a radius of curvature of between 0.3 and 0.7 cm, preferably between 0.33 and
0.66 cm, more preferably between 0.37 and 0.46 cm.
[0041] The casing 3 and the U-shaped element 4 comprise a pair of combined attaching elements
5, 6 being shaped for cooperating with each other by elastic deformation.
[0042] According to the invention, the pair of combined attaching elements 5, 6 cooperate
between a detached position where the casing 3 and the U-shaped element 4 form an
open collar 9, as illustrated in Figure 1, and an attached position where said casing
3 and said U-shaped element 4 form a closed collar 8, as illustrated in Figure 2.
[0043] In the attached position, the casing 3 is located only at one side of the closed
collar 8 and between the two terminal extremities of the U-shaped element 4.
[0044] In this way, the collar 8 can be mounted directly on a fluid without removing the
valve fixed to said fluid container.. This prevents the identification device to take
too much space around the valve.
[0045] Furthermore, the design of the identification device according to the invention can
be easily adapted to different sizes and shapes of valves. For example, when considering
LPG containers having different valve diameters, namely 25.4 mm (i. e. 1-inch), 19.05
mm (i. e. ¾-inch) or 12.7 mm (i. e. ½-inch) diameters, it is only necessary to adapt
the design of the U-shaped element 4, for example by changing the radius of curvature
of the curved portion. This allows setting a standard casing 3 on various containers.
[0046] According to a preferred embodiment of the invention, the pair of combined attaching
elements 5, 6 are located respectively at one 5 of the two terminal extremities of
the U-shaped element 4 and in a corresponding opening 6 arranged in said casing 3.
The opening 6 is shaped for accommodating and blocking said terminal extremity 5 by
elastic deformation of said opening 6 and/or by elastic deformation of said terminal
extremity 5, hence forming a male/female snap-fastening clipping system.
[0047] A casing 3 and a U-shaped element 4 comprising a pair of combined attaching elements
5, 6 means that the casing 3 and the U-shaped element 4 comprise at least one pair
of such elements.
[0048] In the embodiment illustrated on Figure 1, the casing 3 and the U-shaped element
4 comprise two pairs of combined attaching elements 5, 6 located at each terminal
extremity 5 of the U-shaped element 4 and in two respective openings 6 arranged in
the casing 3.
[0049] Each pair of attaching element thus comprises
- a male/female attaching element located on one terminal extremity 5 of the U-shaped
element 4 and
- a female/male attaching element located on the casing for cooperating with the male/female
attaching element located on one terminal extremity 5 of the U-shaped element 4.
[0050] In another embodiment (not illustrated), one of the two terminal extremities the
U-shaped attaching element 4 may be rigidly fixed to the casing 3. Such terminal extremity
may be mechanically attached to the casing 3 and/or movable by translation or pivoting
with respect to the casing 3. The terminal extremity may also be integral with said
casing 3.
[0051] The opening 6 may be an orifice extending through the body of the casing 3. The opening
6 may also be a cavity comprising a bottom, as illustrated in Figure 3.
[0052] The terminal extremity 5 may comprise a deformable portion 7 being shaped for retracting
when engaging in the corresponding opening 6 and expanding when being accommodated
completely in said corresponding opening 6.
[0053] For example, the elastic deformation of the portion 7 may take place in the plane
of the U-shaped element 4, as in the device illustrated in Figure 1, or in a plane
perpendicular to the U-shaped element 4.
[0054] In the example of Figure 1, each terminal extremity 5 comprises two deformable portions
7 arranged symmetrically at said terminal extremity 5 and extending in the direction
of the curved portion of the U-shaped element 4. Of course, other designs are possible.
[0055] Referring to Figure 3, the deformable portion 7 and the corresponding opening 6 may
comprise each complementary abutment surfaces 12, said complementary abutment surfaces
12 being shaped for preventing the exit of said terminal extremity 5 from the corresponding
opening 6 once said terminal extremity 5 is accommodated in said corresponding opening
6.
[0056] Advantageously, the casing 3 and/or the U-shaped element 4 are shaped so that, in
the attached position, they prevent, or at least make difficult, the reverse elastic
deformation of the attaching elements 5, 6 so that an effort for separating the U-shaped
element 4 from the casing 3 above a certain threshold generates an irreversible plastic
deformation of the identification device. For example an effort for separating the
U-shaped element 4 from the casing expends the deformable portions 7 within the opening
6 and against the abutments surfaces 12. Hence, the identification device is designed
in a way that if it is removed from the fluid container, it is irreversibly damaged
and not reusable.
[0057] Further, the casing 3 may comprise a concavity 11 arranged on the surface of the
casing 3 which faces the U-shaped element 4 in the attached position. The concavity
11 may have, for example, a radius of curvature between 0.3 and 0.7 cm, preferably
between 0.33 and 0.66 cm. Said concavity 11 may be used for reducing at least one
internal dimension of the collar 8 and/or to guide and position properly the casing
3 with respect to a valve 15 fixed to a fluid container 1.
[0058] In the example of Figure 1, the thickness of the concavity 11 is less than the global
thickness of the casing 3. The attachment surface may have for example a thickness
of between 3 and 9 mm, preferably between 3 and 5 mm.
[0059] In this way, when mounting the identification device on a fluid container, the casing
3 can be located or sandwiched between the container 1 and the valve 15 fixed to the
container 1. In fact, it may exist a small distance between the valve, said valve
being typically mounted on the top of the container 1, and the container 1 on which
the device is intended to be mounted. The concavity 11 allows better adjusting the
casing 3 to the fluid container 1.
[0060] The Figure 4 illustrates an example of mounting an identification device according
to the invention on a fluid container comprising a valve 15 mounted to said container.
Preferably, the valve 15 is mounted on the top of the container body. The container
1 may contain a pressurized fluid, or a fluid under pressure, said fluid being in
a liquid, gaseous or biphasic state. The container may notably contain Liquid Petroleum
Gas (LPG).
[0061] Preferably, the closed collar 8 is mounted between the container's 1 body and the
valve 15. Typically, the container 1 comprises a longitudinal axis AA, the valve 15
being mounted along said longitudinal axis AA. The identification device is preferably
maintained longitudinally with respect to the container 1, for example using the concavity
11. Preferably, said concavity 11 is arranged between the valve 15 and the container
1.
[0062] Preferably, the collar 8 has at least one internal dimension inferior to at least
one dimension of the valve 15 in a direction transverse to the longitudinal axis AA.
[0063] Thanks to the open design of the identification device in the detached dimension,
there is no need to remove a valve 15 fixed to the fluid container 1 on which the
collar 8 is intended to be mounted. The present invention thus allows an improved
mounting process on a fluid container.
[0064] The mounting of the identification device on a fluid container can be performed,
either manually and/or automatically. The mounting may be performed easily by an operator,
with bare hands.
[0065] Another significant advantage of the identification device of the invention is that
it does not involve the use of an annular antenna. Thanks to the design of the casing,
a resonant radiofrequency antenna, advantageously manufactured as an electronic printed
circuit, can be used. This leads to an identification device having a robust, monolithic
design and being less sensitive to interferences with the container body. The data
stored in the identification device can also be read in all directions with respect
to the container body because the cylinder itself is used as part of the antenna of
the data support.
1. Identification device intended to be mounted on a fluid container (1) comprising a
casing (3) carrying a data support (2) for contactless identification of said fluid
container (1) and a U-shaped element (4) attachable to said casing (3) for forming
a closed collar (8) to be mounted around at least a portion of the fluid container
(1), the casing (3) and the U-shaped element (4) comprising a pair of combined attaching
elements (5, 6) being shaped for cooperating with each other by elastic deformation,
characterized in that the pair of combined attaching elements (5, 6) cooperate between a detached position
where the casing (3) and the U-shaped element (4) form an open collar (9) and an attached
position where said casing (3) and said U-shaped element (4) form a closed collar
(8), in the attached position the casing (3) being located only at one side of the
closed collar between the two terminal extremities of the U-shaped element (4).
2. Identification device according to claim 1, characterized in that the pair of combined attaching elements (5, 6) are located respectively at one (5)
of the two terminal extremities of the U-shaped element (4) and in a corresponding
opening (6) arranged in said casing (3), the opening (6) being shaped for accommodating
and blocking said terminal extremity (5) by elastic deformation of said opening (6)
and/or by elastic deformation of said terminal extremity (5).
3. Identification device according to claim 2, characterized in that said terminal extremity (5) comprises a deformable portion (7) which is shaped for
retracting when engaging in the corresponding opening (6) and expanding when being
accommodated completely in said corresponding opening (6).
4. Identification device according to claim 3, characterized in that the deformable portion (7) and the corresponding opening (6) comprise each complementary
abutment surfaces, said complementary abutment surfaces being shaped for preventing
the exit of said terminal extremity (5) from the corresponding opening (6) once said
terminal extremity (5) is accommodated in said corresponding opening (6).
5. Identification device according to any of claims 1 to 4, characterized in that the casing (3) and the U-shaped element (4) comprise two pairs of combined attaching
elements (5, 6) located at each terminal extremity of the U-shaped element (4) and
in respective openings (6) arranged in the casing (3).
6. Identification device according to any of claims 1 to 4, characterized in that one of the two terminal extremities the U-shaped attaching element (4) is rigidly
fixed to the casing (3).
7. Identification device according to any of claims 1 to 7, characterized in that the data support (2) comprises at least one among: an antenna for radio-frequency
identification (RFID), an electronic chip, an electronic memory for storing data.
8. Identification device according to any of claims 1 to 9, characterized in that the data support (2) is enclosed in the casing (3), said casing (3) being made of
a plastic material such as at least one among: polyamide, polyethylene, polypropylene,
polyester, polyacetal, copolymer.
9. Identification device according to any of claims 1 to 10, characterized in that the casing (3) and/or the U-shaped element (4) are shaped so that, in the attached
position, they prevent the reverse elastic deformation of the attaching elements (5,
6) so that an effort for separating the U-shaped element (4) from the casing (3) above
a certain threshold generates an irreversible plastic deformation of the identification
device.
10. Identification device according to any of claims 1 to 9, characterized in that the casing (3) comprises a concavity (11) arranged on a surface of said casing (3)
facing, in the attached position, the U-shaped element (4).
11. Fluid container (1), characterized in that it comprises an identification device according to any of claims 1 to 9.
12. Fluid container according to claim 11, characterized in that a valve (15) is mounted on said fluid container (1), the collar (8) being mounted
between the container (1) and the valve (15).
13. Fluid container according to claim 12, characterized in that the container (1) comprises a longitudinal axis (AA), the valve (15) being mounted
along said longitudinal axis (AA), the identification device being maintained longitudinally
with respect to the container (1), the internal dimensions of the collar (8) being
inferior to at least one dimension of the valve (15) in a direction transverse to
the longitudinal axis (AA).
14. Mounting process of an identification device according to any of claims 1 to 10 on
a fluid container (1) comprising a longitudinal axis (AA) and a valve (15) mounted
on said container (1) along said longitudinal axis (AA),
characterized in that it comprises the steps of
- positioning the casing (3) and the U-shaped element (4) on opposite lateral sides
of the fluid container (1), the pair(s) of combined attaching elements (5, 6) being
in the detached position where the casing (3) and the U-shaped element (4) form an
open collar (9),
- moving the U-shaped element (4) and the casing (3) toward each other in a general
direction transverse to the longitudinal axis (AA), until the pair of combined attaching
elements (5, 6) cooperates in the attached position so that said casing (3) and said
U-shaped element (4) form a closed collar (8) around a portion of the fluid container
(1).
15. Use of an identification device according to any of claims 1 to 10 to store and/or
retrieve data related to a fluid container (1) such as at least one among: the capacity
of the fluid container (1), the date of refurbishing, the tare weight, the filling
batch, the expiry date, the nature of the fluid contained in the fluid container (1).