WO2016030586A2 - Bottle holder with flow-warning shell - Google Patents

Bottle holder with flow-warning shell Download PDF

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Publication number
WO2016030586A2
WO2016030586A2 PCT/FR2015/000176 FR2015000176W WO2016030586A2 WO 2016030586 A2 WO2016030586 A2 WO 2016030586A2 FR 2015000176 W FR2015000176 W FR 2015000176W WO 2016030586 A2 WO2016030586 A2 WO 2016030586A2
Authority
WO
WIPO (PCT)
Prior art keywords
bottle
weight
outer shell
inner shell
main axis
Prior art date
Application number
PCT/FR2015/000176
Other languages
French (fr)
Other versions
WO2016030586A3 (en
Inventor
Jacques Lepine
Original Assignee
Slow Control
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Slow Control filed Critical Slow Control
Publication of WO2016030586A2 publication Critical patent/WO2016030586A2/en
Publication of WO2016030586A3 publication Critical patent/WO2016030586A3/en

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Classifications

    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61JCONTAINERS SPECIALLY ADAPTED FOR MEDICAL OR PHARMACEUTICAL PURPOSES; DEVICES OR METHODS SPECIALLY ADAPTED FOR BRINGING PHARMACEUTICAL PRODUCTS INTO PARTICULAR PHYSICAL OR ADMINISTERING FORMS; DEVICES FOR ADMINISTERING FOOD OR MEDICINES ORALLY; BABY COMFORTERS; DEVICES FOR RECEIVING SPITTLE
    • A61J9/00Feeding-bottles in general
    • A61J9/06Holders for bottles
    • A61J9/0623Holders for bottles facilitating gripping
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61JCONTAINERS SPECIALLY ADAPTED FOR MEDICAL OR PHARMACEUTICAL PURPOSES; DEVICES OR METHODS SPECIALLY ADAPTED FOR BRINGING PHARMACEUTICAL PRODUCTS INTO PARTICULAR PHYSICAL OR ADMINISTERING FORMS; DEVICES FOR ADMINISTERING FOOD OR MEDICINES ORALLY; BABY COMFORTERS; DEVICES FOR RECEIVING SPITTLE
    • A61J9/00Feeding-bottles in general
    • A61J9/02Feeding-bottles in general with thermometers
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61JCONTAINERS SPECIALLY ADAPTED FOR MEDICAL OR PHARMACEUTICAL PURPOSES; DEVICES OR METHODS SPECIALLY ADAPTED FOR BRINGING PHARMACEUTICAL PRODUCTS INTO PARTICULAR PHYSICAL OR ADMINISTERING FORMS; DEVICES FOR ADMINISTERING FOOD OR MEDICINES ORALLY; BABY COMFORTERS; DEVICES FOR RECEIVING SPITTLE
    • A61J9/00Feeding-bottles in general
    • A61J9/06Holders for bottles
    • A61J9/0653Holders for bottles characterised by the type of support
    • A61J9/0676Holders for bottles characterised by the type of support supported by the caregiver
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61JCONTAINERS SPECIALLY ADAPTED FOR MEDICAL OR PHARMACEUTICAL PURPOSES; DEVICES OR METHODS SPECIALLY ADAPTED FOR BRINGING PHARMACEUTICAL PRODUCTS INTO PARTICULAR PHYSICAL OR ADMINISTERING FORMS; DEVICES FOR ADMINISTERING FOOD OR MEDICINES ORALLY; BABY COMFORTERS; DEVICES FOR RECEIVING SPITTLE
    • A61J2200/00General characteristics or adaptations
    • A61J2200/70Device provided with specific sensor or indicating means
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61JCONTAINERS SPECIALLY ADAPTED FOR MEDICAL OR PHARMACEUTICAL PURPOSES; DEVICES OR METHODS SPECIALLY ADAPTED FOR BRINGING PHARMACEUTICAL PRODUCTS INTO PARTICULAR PHYSICAL OR ADMINISTERING FORMS; DEVICES FOR ADMINISTERING FOOD OR MEDICINES ORALLY; BABY COMFORTERS; DEVICES FOR RECEIVING SPITTLE
    • A61J2200/00General characteristics or adaptations
    • A61J2200/70Device provided with specific sensor or indicating means
    • A61J2200/74Device provided with specific sensor or indicating means for weight
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61JCONTAINERS SPECIALLY ADAPTED FOR MEDICAL OR PHARMACEUTICAL PURPOSES; DEVICES OR METHODS SPECIALLY ADAPTED FOR BRINGING PHARMACEUTICAL PRODUCTS INTO PARTICULAR PHYSICAL OR ADMINISTERING FORMS; DEVICES FOR ADMINISTERING FOOD OR MEDICINES ORALLY; BABY COMFORTERS; DEVICES FOR RECEIVING SPITTLE
    • A61J2200/00General characteristics or adaptations
    • A61J2200/70Device provided with specific sensor or indicating means
    • A61J2200/76Device provided with specific sensor or indicating means for fluid level
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61JCONTAINERS SPECIALLY ADAPTED FOR MEDICAL OR PHARMACEUTICAL PURPOSES; DEVICES OR METHODS SPECIALLY ADAPTED FOR BRINGING PHARMACEUTICAL PRODUCTS INTO PARTICULAR PHYSICAL OR ADMINISTERING FORMS; DEVICES FOR ADMINISTERING FOOD OR MEDICINES ORALLY; BABY COMFORTERS; DEVICES FOR RECEIVING SPITTLE
    • A61J2205/00General identification or selection means
    • A61J2205/50General identification or selection means using icons or symbolic figures, e.g. by a graphical representation symbolising the type of pathology or the organ by an image
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61JCONTAINERS SPECIALLY ADAPTED FOR MEDICAL OR PHARMACEUTICAL PURPOSES; DEVICES OR METHODS SPECIALLY ADAPTED FOR BRINGING PHARMACEUTICAL PRODUCTS INTO PARTICULAR PHYSICAL OR ADMINISTERING FORMS; DEVICES FOR ADMINISTERING FOOD OR MEDICINES ORALLY; BABY COMFORTERS; DEVICES FOR RECEIVING SPITTLE
    • A61J2205/00General identification or selection means
    • A61J2205/60General identification or selection means using magnetic or electronic identifications, e.g. chips, RFID, electronic tags
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61JCONTAINERS SPECIALLY ADAPTED FOR MEDICAL OR PHARMACEUTICAL PURPOSES; DEVICES OR METHODS SPECIALLY ADAPTED FOR BRINGING PHARMACEUTICAL PRODUCTS INTO PARTICULAR PHYSICAL OR ADMINISTERING FORMS; DEVICES FOR ADMINISTERING FOOD OR MEDICINES ORALLY; BABY COMFORTERS; DEVICES FOR RECEIVING SPITTLE
    • A61J2205/00General identification or selection means
    • A61J2205/70Audible labels, e.g. for pre-recorded info or messages

Definitions

  • the present invention relates to a smart bottle holder.
  • the invention aims to improve a performance of baby bottles which is that of ensuring and monitor the good flow of liquid swallowed by the baby.
  • current baby bottles present a lack of visibility in real time of the flow of liquid delivered to the baby.
  • a first fault is that sometimes the nipples get clogged up. These are often lumps that come to plug the pacifier. It takes a while to realize the situation. During this time, the baby heads in a vacuum and runs out.
  • a second fault is that it happens to the baby to suck air. This, in particular, when the bottle is insufficiently tilted compared to the level of the liquid level in the bottle. The air drunk can then cause colic and bloating which is very painful for the infant.
  • a main object of the invention is therefore to check the quality of the flow of the bottle and to warn the parent if the flow is unsatisfactory.
  • Another object of the invention is to provide a delayed overview of the baby's eating history.
  • Another object of the invention is to provide the parent with a tool for real-time monitoring of the baby's food intake. Another object of the invention is to propose an alarm to the parent a tool to warn if the food intake is insufficient or too slow or too fast.
  • Another object of the invention is to warn the parent if the baby drinks air.
  • Another object of the invention is to provide other measures, such as, for example, the temperature of the liquid in the bottle.
  • Another object of the invention is to adapt to several different sizes and formats of bottles.
  • the invention aims to intervene on any material that is in contact with the liquid, that is to say, the pacifier, the pacifier ring, or the body of the bottle.
  • the invention proposes a bottle-holder which holds the bottle and which reads the information inside the bottle.
  • the invention provides an intelligent bottle holder that captures the flow of the bottle.
  • the invention provides a bottle holder that captures in real time and in all orientations of the bottle, the weight of liquid inside the bottle.
  • the invention provides a bottle holder that captures the angle of the bottle relative to the vertical. In one aspect, the invention provides a bottle holder that captures the real time flow of liquid through the nipple.
  • the invention provides a bottle holder that captures if the baby's head air.
  • the invention remounts all the data captured and transmits wired or wireless connection to a remote terminal, such as a smart mobile phone.
  • the invention proposes an interface for real-time visualization of the key points measured by the bottle-feeding holder.
  • the invention provides a real-time or delayed alarm that warns of abnormal flow of the bottle.
  • Figures 1, 2, 3 show a traditional bottle in a standing position upright standing, leaning which delivers milk, leaning which delivers air.
  • Figure 4 shows the bottle holder that holds the bottle in nursing position.
  • Figure 5 shows ways to take the bottle weighing in nursing position.
  • Figure 6 shows the electronic processing and measurement board.
  • FIG. 7 represents a bottle holding means according to a particular aspect of the invention called a shell solution.
  • Figures 8 and 9 show the holding in a standing position, figure
  • Figures 10a, 10b show the mechanical arrangement of the different parts according to the invention called shell.
  • Figures 11a, 11b show a front view of the complete bottle holder with and without bottle according to the invention called shell.
  • Figures 12a and 12b show the so-called debtor piece in the shell solution.
  • Figures 13 and 14 show a profile section and a top view of the so-called base part.
  • Figure 1 shows a traditional bottle (1) positioned vertically, with its bottle (B), the bottom of its bottle (C) its nipple screwing ring (10), its nipple (T).
  • the pacifier screw ring (10) has a side face that matches the side wall of the bottle and an upper face that partially closes the bottle.
  • a hole is arranged on the upper face of the screw ring to pass the nipple (T) through which will suck the baby.
  • the fluid is at a level (N) inside the bottle (B) of the bottle.
  • the bottle used according to the invention is a traditional oblong bottle with vertical axial symmetry which comprises a main axis (S) which starts from the center of the base (C) to go through the center of the nipple (T).
  • Figure 2 shows a traditional tipped bottle that delivers milk.
  • the level (N) of the liquid reaches the nipple; the baby can therefore drink liquid.
  • Figure 3 shows a traditional bottle with a bottle too leaning for the level (N) reaches the pacifier head; the baby is drinking air.
  • Figure 4 shows the bottle holder (40) which holds the bottle.
  • the challenge of the invention is that during the phase of use of the bottle, the user holds the bottle holder and not the bottle.
  • the bottle is like a feeder inside the bottle holder.
  • the invention proposes to capture the weight of the bottle inside the bottle holder. This weight is captured in both directions of the direction of the main axis (S) of the bottle. The angle (A) that the main axis (S) of the bottle with respect to the horizontal is also measured.
  • the maintenance is effective from top to bottom, according to the main axis (S) of the bottle, that is to say, with 1 - a first upper support (52) on the top of the upper face of the screw ring (10) and 2 - a second support holding stock (53) on the bottom on the base (C).
  • the bottle holder also has a lateral support (45) that prevents the bottle from coming out of its high (52) / low (53) hold.
  • the lateral support (45) is designed as an ergonomic grip surface that allows the user to hold the bottle holder, and this, without ever coming to hold the bottle during feeding.
  • Bottle holder includes
  • a positive weight (62) weight sensor that captures the weight exerted in a positive direction of the main axis of the bottle, namely the weight during feeding.
  • a negative weight sensor (63) of the bottle that captures the weight exerted in a negative direction of the main axis of the bottle, namely the weight when the bottle is upright standing on its base.
  • a high and low hold (52, 53) that holds the bottle in the bottle holder in both directions along its main axis
  • the bottle is held with a slight play of movement (d) up / down / side in its hold so as to come to weigh on the high support or on the low support of the bottle holder
  • An outer surface bottle holder holder which is a gripping surface whose volume is such that the hands and fingers of the user do not apply efforts on the bottle.
  • a transceiver module that transmits the sensed data wirelessly to a remote terminal.
  • the invention therefore captures in real time, the weight of the bottle, the inclination of the bottle, the vibrations of the bottle and thus calculates in real time the feed rate. It is understood that the alarm can also be displayed locally on the bottle holder or be exported to the mobile phone.
  • the invention restores a real-time or deferred alarm to the parent.
  • Figure 5 shows special ways to take high bottle weighing. According to this aspect of the invention, a rod provided with hooks at each of its two ends transmits the weighing. The bottle is positioned between the two hooks (52, 82) of the rod. In feeding position, the bottle comes to exert its weight on the high support support (52).
  • the rod will come through its second weight applicator end (82) to weigh on the feed position weight sensor (62) which is housed on the electronic card (60).
  • the electronic card (60) is centralized and housed in the floor base (P) of the bottle holder, under the bottle.
  • Fig. 6 shows the electronic card (60), which comprises an information processing circuit (64) which comprises a calculation chip, a transmission antenna, a battery.
  • the measuring sensors are two weighing sensors (63, 62) which are respectively housed on the upper face of the card for the standstill weighing sensor (63) and on the underside of the card for the sensor. weighing in the feed (62). Of course the two weighing sensors (62, 63) are linked to the information processing circuit (64).
  • Figure 7 shows a bottle holding means according to a particular aspect said solution shell of the invention.
  • the high maintenance of the bottle is by a lateral holding strong holding and friction effect.
  • the bottle is embedded by the user in a shell called inner shell (70) of complementary shape to that of the bottle.
  • the bottle is maintained in this shell by a high lateral friction pressure, sufficient to reproduce a high holding support effect (52). Indeed, if the lateral forces and friction are well dimensioned, the bottle filled in breastfeeding position is included in the so-called friction cone and will not leave its recessed housing in the inner shell.
  • this inner shell (70) may also include a high support (52) protruding, see Figure 10a, which constrains the bottle, once introduced into the shell, not to be able to move the obstacle of the high support (52).
  • the inner shell also includes a low support (53) which takes the form of a floor and which prevents the bottle from passing lower than the lower support (53).
  • the bottle rests by the base (C) of the bottle on the low support (53).
  • the inner shell (70) thus adopts the general shape of a blind cylinder truncated obliquely on its opening in which the user can come to introduce the bottle.
  • the outer shape of the bottle (B) of the bottle comes to marry the inner shape of the so-called inner shell (70). As represented in FIGS.
  • FIG. 8 and 9 represent the holding in the standing position before feeding, FIG. 8, and in the nursing position, FIG. 9, according to the so-called shell solution in which a first so-called inner shell (70) cooperates with a second shell said outer (100).
  • the outer shape of the inner shell (70) comes to marry the inner shape of the hull said outer (100).
  • the inner shell is free of movement and in particular in translation in the direction of the main axis (S).
  • the outer shell (100) is rigid enough to constitute a barrier to the gripping force, so that when the user grasps in his hand to hold the bottle, the pressure of the latter on the hull do not exert effort on the inner shell (70).
  • the outer and inner shell shapes cooperate so that the inner shell does not protrude from the outer shell so that the user does not inadvertently exert effort on the inner shell.
  • the shape of the outer shell releases a sufficient inlet to not block the opening of the inner shell so that the user can easily introduce the bottle into the inner shell.
  • the shape of the introduction opening (O) of the bottle of the inner shell is an angled section of an angle cylinder around (45 °) relative to the main axis (S).
  • FIG. 8 By an inverted gesture, it can bring out the bottle of the inner shell.
  • FIG. 8 in the so-called storage position, an inner shell (70) resting on the floor of the outer shell (100) and in Figure 9 called feeding, an inner shell that is translatable inside the outer shell with a floor of the inner shell which takes off from the floor of the outer shell of a travel (d).
  • the displacement (d) is particularly explained in FIGS. 10 and 12.
  • FIGS. 10a, 10b show the mechanical arrangement of the various parts according to the so-called shelled invention, in which a debater (110) comes to interact with the electronic card (60). ) and postpone weighing efforts.
  • the debater (110) is a mechanical part that can join / disengage from the inner shell (70), positioned under the floor of the inner shell (70) which comprises two fastening tabs (107a, 107b) to the inner shell ( 70).
  • Two access holes (108) disposed on the outer shell (100) allow the user by acting on the end of the legs, if necessary for cleaning or maintenance, to separate the debater (110).
  • the debater then comprises two action levels on the electronic board (60), namely, a positive weight applicator (82) on the feed weighing sensor (62), and a negative weight applicator (83) on the standing weighing sensor (63).
  • the two weight applicators (82, 83) take the form of support legs which come to exert their force on a bearing surface.
  • this weighing torque can take the form of the repulsion interaction of two magnets.
  • the debater also cooperates with the so-called pedestal room (P) which houses the card
  • the base plate (P) is screwed to the bottom of the outer shell (100). In the screwed position, the ceiling of the floor base (P) becomes, in fact, the floor of the outer shell (100).
  • the floor base (P) comprises means for securing (130) the electronic board (60) to the floor base (P).
  • the floor plinth (P) takes the form of a sealing washer pierced in its ceiling of two passages (141a, 141b), Figure 14, for the passage of the debater mounting brackets (110).
  • the floor base (P) thus houses the two weight applicators (82, 83) of the debater which interact with the electronic board (60), FIG. 13, FIGS. 12a, 12b, with the displacement (d) which allows either in the position of fed, or in standing bottle position to come to act on one of the two weighing surfaces and whatever the angular orientation of the bottle relative to the vertical.
  • An algorithm for filtering weighing data comes in real time analyzing weighing data, tilt data, accelerometer data and calculates the real-time flow of the bottle as well as the mass of liquid present inside the bottle. .
  • the base floor also leaves on its ceiling a reservation to let the sight of a temperature sensor (142) aiming in the direction of the main axis (S), the bottom of the bottle inside the inner shell (70).
  • Figures 11a, 11b show a front view of the complete bottle holder with and without bottle with a reservation on the floor base (P) for the a battery charging connector (113), and an interactive display surface (112) in the center line of the truncated portion of the outer shell, which allows to be clearly visible, both by a left-handed and right-handed person , which displays the flow and warning data in real time for the user.
  • the interactive display surface (112) may in particular contain a stop button.
  • the present invention therefore relates to a feeding bottle comprising an electronic card (60) for monitoring the real-time flow of liquid contained in the bottle (1) which has an oblong cylindrical shape along a main axis (S), characterized in that the bottle-holder comprises an outer shell (100), a tight barrier to the transmission of effort of grip, which houses a support (70) lateral, high and low (45, 52, 53) of the bottle (1), the bottle (1 ) has been introduced by a common introduction opening (O) to the support (70) and the outer shell, the support (70) comprises a slight clearance clearance (d) up / down along the main axis (S) in the outer shell (100), the support (70) transmits the weight of the feeding bottle (68) via the weight applicator (82) to the weight sensors (62, 63) housed on the electronic board (60), which measure the weight in both directions of the main axis of the bib eron, an inclinometer that captures the tilt of the bottle, an accelerometer that captures the vibrations of
  • the present invention therefore relates to a bottle holder characterized in that the alarm can also be displayed locally on the bottle holder or be exported to a smart mobile phone.
  • the present invention therefore relates to a bottle holder characterized in that the high maintenance of the bottle (52) is by a lateral holding strong holding and friction effect, the bottle is embedded by the user in a holding which is a hull said inner shell (70) of complementary shape to that of the bottle.
  • the present invention therefore relates to a baby bottle holder, characterized in that the shapes of the outer (100) and inner (70) shells cooperate so that the inner shell (70) does not protrude from the outer shell
  • the present invention therefore relates to a baby bottle holder characterized in that the shape of the introduction opening (O) of the bottle of the inner shell is a section at an angle of a cylinder around (45 °) relative to the main axis (S).
  • the present invention therefore relates to a feeding bottle characterized in that a debater (110) comes to interact with the electronic card (60) and to postpone the weighing forces, the debater (110) is a mechanical part that can be fixed / detached from the inner shell (70), positioned under the floor of the inner shell (70) and includes two fastening tabs (107a, 107b) to the inner shell (70), two access holes (108) are disposed on the outer shell (100) that allow the user by acting on the end of the legs, if necessary for cleaning or maintenance, to separate the debater (110).
  • the present invention therefore relates to a bottle-holder characterized in that the debater (110) comprises two levels of action on the electronic card (60), namely, a positive weight applicator (82) on the feed-weighing sensor ( 62), and a negative weight applicator (83) on the standstill weighing sensor (63), the two weight applicators (82, 83) take the form of support legs which exert their effort on a bearing surface.
  • the debater (110) comprises two levels of action on the electronic card (60), namely, a positive weight applicator (82) on the feed-weighing sensor ( 62), and a negative weight applicator (83) on the standstill weighing sensor (63), the two weight applicators (82, 83) take the form of support legs which exert their effort on a bearing surface.
  • the present invention therefore relates to a bottle holder characterized in that the debater (110) also cooperates with a so-called floor plinth (P) which houses the electronic board (60), the floor base (P) is screwed to the bottom of the hull (100), in the screwed position, the ceiling of the floor base (P) becomes, in fact, the floor of the outer shell (100), the floor base (P) comprises means for securing (130) the electronic board (60) to the floor base (P), the floor base ( P) takes the form of a sealing washer pierced in its ceiling of two passages (141a, 141b), for the passage of the debtor's fixing lugs (110), the floor base (P) thus houses the two weight applicators ( 82, 83) of the debater interacting with the electronic card.
  • the debater (110) also cooperates with a so-called floor plinth (P) which houses the electronic board (60), the floor base (P) is screwed to the bottom of the hull (100), in
  • the present invention therefore relates to a baby bottle holder characterized in that a weighing data filtering algorithm comes in real time to analyze the weighing data, the inclination data, the accelerometer data and calculates the real-time flow of the bottle as well as that the mass of liquid present inside the bottle.
  • the present invention therefore relates to a baby bottle holder characterized in that the floor base also leaves on its ceiling a reservation for passing the sight of a temperature sensor (142) which aims in the direction of the main axis (S), the bottom of the bottle inside the inner shell (70).

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  • Health & Medical Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Animal Behavior & Ethology (AREA)
  • General Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Veterinary Medicine (AREA)
  • Nursing (AREA)
  • Details Of Rigid Or Semi-Rigid Containers (AREA)
  • Arrangements For Transmission Of Measured Signals (AREA)
  • Medical Preparation Storing Or Oral Administration Devices (AREA)

Abstract

A bottle holder comprising an electronic card for monitoring the real-time flow of liquid contained in the bottle that has an oblong cylindrical shape along a main axis (S) characterised in that the bottle holder comprises an outer shell, a barrier impervious to the transmission of hand-gripping force, which houses a lateral, top and bottom support for the bottle, the bottle being inserted via an insertion opening shared by the support and the outer shell, the support comprises slight upward/downward play (d) along the main axis (S) in the outer shell, the support transmits, via a weight applicator mechanical link, the weight of the bottle that is applied, via the play (d), on the weight sensors housed on the electronic card, which measure the weight in the two directions of the main axis of the bottle, an inclinometer that senses the tilt of the bottle, an accelerometer that senses the vibrations of the bottle and the teat, a calculation module that processes the sensed information, a transmitter/receiver module that transmits the sensed data wirelessly to a remote terminal, a visual, sound or vibration alarm that provides an alarm to the parent in real time.

Description

Porte biberon à coque avertisseur de débit  Baby bottle holder with flow warning shell
La présente invention concerne un porte biberon intelligent. L'invention vise à améliorer une performance des biberons qui est celle d'assurer et de suivre le bon débit de liquide ingurgité par le bébé. En effet, les biberons actuels présentent un déficit de visibilité en temps réel du débit de liquide délivré au bébé. Un premier défaut est, que parfois, les tétines se bouchent. Ce sont souvent des grumeaux qui viennent à boucher la tétine. Il faut un certain temps pour se rendre compte de la situation. Pendant ce dit temps, le bébé tête dans le vide et s'épuise. Un second défaut est qu'il arrive au bébé de téter de l'air. Cela, notamment, quand le biberon est insuffisamment penché par rapport à l'état de niveau du liquide dans le biberon. L'air bu peut alors provoquer des coliques et des ballonnements qui sont très douloureux pour le nourrisson. The present invention relates to a smart bottle holder. The invention aims to improve a performance of baby bottles which is that of ensuring and monitor the good flow of liquid swallowed by the baby. Indeed, current baby bottles present a lack of visibility in real time of the flow of liquid delivered to the baby. A first fault is that sometimes the nipples get clogged up. These are often lumps that come to plug the pacifier. It takes a while to realize the situation. During this time, the baby heads in a vacuum and runs out. A second fault is that it happens to the baby to suck air. This, in particular, when the bottle is insufficiently tilted compared to the level of the liquid level in the bottle. The air drunk can then cause colic and bloating which is very painful for the infant.
Un objet principal de l'invention est donc de vérifier la qualité du débit du biberon et d'avertir le parent si le débit est insatisfaisant.  A main object of the invention is therefore to check the quality of the flow of the bottle and to warn the parent if the flow is unsatisfactory.
Un autre objet de l'invention est de donner un aperçu différé de l'historique de prise de repas par le bébé.  Another object of the invention is to provide a delayed overview of the baby's eating history.
Un autre objet de l'invention est de proposer au parent un outil de suivi temps réel de la prise alimentaire du bébé. Un autre objet de l'invention est de proposer d'alarme au parent un outil pour avertir si la prise alimentaire est insuffisante ou trop lente ou trop rapide. Another object of the invention is to provide the parent with a tool for real-time monitoring of the baby's food intake. Another object of the invention is to propose an alarm to the parent a tool to warn if the food intake is insufficient or too slow or too fast.
Un autre objet de l'invention est d'avertir le parent si le bébé boit de l'air.  Another object of the invention is to warn the parent if the baby drinks air.
Un autre objet de l'invention est de donner d'autres mesures, comme par exemple, la température du liquide dans le biberon.  Another object of the invention is to provide other measures, such as, for example, the temperature of the liquid in the bottle.
Un autre objet de l'invention est de s'adapter à plusieurs formats et tailles de biberon différentes.  Another object of the invention is to adapt to several different sizes and formats of bottles.
L'invention vise à n'intervenir sur aucun matériau qui soit en contact avec le liquide, c'est-à-dire ni la tétine, ni la bague de tétine, ni le corps du biberon. Par contre l'invention propose un porte biberon qui maintient le biberon et qui vient lire les informations à l'intérieur du biberon.  The invention aims to intervene on any material that is in contact with the liquid, that is to say, the pacifier, the pacifier ring, or the body of the bottle. On the other hand, the invention proposes a bottle-holder which holds the bottle and which reads the information inside the bottle.
Dans un aspect principal, l'invention propose un porte biberon intelligent qui capte le débit du biberon.  In a main aspect, the invention provides an intelligent bottle holder that captures the flow of the bottle.
Dans un aspect, l'invention propose un porte biberon qui capte en temps réel et dans toutes les d'orientations du biberon, le poids de liquide à l'intérieur du biberon.  In one aspect, the invention provides a bottle holder that captures in real time and in all orientations of the bottle, the weight of liquid inside the bottle.
Dans un aspect, l'invention propose un porte biberon qui capte l'angle du biberon par rapport à la verticale. Dans un aspect, l'invention propose un porte biberon qui capte temps réel le débit de liquide à travers la tétine. In one aspect, the invention provides a bottle holder that captures the angle of the bottle relative to the vertical. In one aspect, the invention provides a bottle holder that captures the real time flow of liquid through the nipple.
Dans un aspect, l'invention propose un porte biberon qui capte si le bébé tête de l'air.  In one aspect, the invention provides a bottle holder that captures if the baby's head air.
Dans un aspect l'invention remonte toutes les données captées et les transmet en liaison filaire, ou sans fil, à un terminal distant, comme un téléphone mobile intelligent.  In one aspect the invention remounts all the data captured and transmits wired or wireless connection to a remote terminal, such as a smart mobile phone.
Dans un aspect l'invention propose une interface de visualisation temps réel des points clés mesurés par le porte biberon.  In one aspect, the invention proposes an interface for real-time visualization of the key points measured by the bottle-feeding holder.
Dans un aspect, l'invention propose une alarme temps réelle ou différée qui avertit des anomalies de débit du biberon.  In one aspect, the invention provides a real-time or delayed alarm that warns of abnormal flow of the bottle.
Les figures annexées représentent un mode particulier de l'invention sur lesquelles :  The appended figures represent a particular embodiment of the invention in which:
Les figures 1, 2, 3 représentent un biberon traditionnel en position successive verticale debout, penché qui délivre du lait, penché qui délivre de l'air.  Figures 1, 2, 3 show a traditional bottle in a standing position upright standing, leaning which delivers milk, leaning which delivers air.
La figure 4 représente le porte biberon qui maintient le biberon en position de tétée.  Figure 4 shows the bottle holder that holds the bottle in nursing position.
La figure 5 représente des moyens de prendre la pesée du biberon en position de tétée. La figure 6 représente la carte électronique de traitement et de mesure. Figure 5 shows ways to take the bottle weighing in nursing position. Figure 6 shows the electronic processing and measurement board.
La figure 7 représente un moyen de maintien du biberon selon un aspect particulier de l'invention dite solution à coque.  FIG. 7 represents a bottle holding means according to a particular aspect of the invention called a shell solution.
Les figures 8 et 9 représentent le maintien en position debout, figure Figures 8 and 9 show the holding in a standing position, figure
8, et en position de tétée, figure 9, selon la solution dite à coque. 8, and feeding position, Figure 9, according to the so-called shell solution.
Les figures 10a, 10b représentent l'agencement mécanique des différentes pièces selon l'invention dite à coque.  Figures 10a, 10b show the mechanical arrangement of the different parts according to the invention called shell.
Les figures 11 a, 11b représentent une vue de face du porte biberon complet avec et sans biberon selon l'invention dite à coque.  Figures 11a, 11b show a front view of the complete bottle holder with and without bottle according to the invention called shell.
Les figures 12a et 12b représentent la pièce dite débatteur dans la solution à coque.  Figures 12a and 12b show the so-called debtor piece in the shell solution.
Les figures 13 et 14 représentent une coupe de profil et une vue de dessus de la pièce dite socle.  Figures 13 and 14 show a profile section and a top view of the so-called base part.
La figure 1 représente un biberon (1) traditionnel positionné vertical, avec sa bouteille (B), le culot de sa bouteille (C) sa bague de vissage de tétine (10), sa tétine (T). La bague de vissage (10) de tétine présente une face latérale qui épouse la paroi latérale du biberon et une face supérieure qui vient partiellement boucher le biberon. Un trou est disposé la face supérieure de bague de vissage pour faire passer la tétine (T) à travers de laquelle ira téter le bébé. Le liquide se trouve à un niveau (N) à l'intérieur de la bouteille (B) du biberon. Le biberon utilisé selon l'invention est un biberon traditionnel oblong à symétrie axiale verticale qui comprend un axe dit principal (S) qui part du centre du culot (C) pour aller traverser le centre de la tétine (T). La figure 2 représente un biberon traditionnel penché qui délivre du lait. Sur cette figure, le niveau (N) du liquide atteint la tétine ; le bébé peut donc boire du liquide. La figure 3 représente un biberon traditionnel avec un biberon trop penché pour le niveau (N) atteigne la tête de tétine ; le bébé boit donc de l'air. La figure 4 représente le porte biberon (40) qui maintient le biberon. L'enjeu de l'invention étant que pendant la phase d'utilisation du biberon, l'utilisateur tienne le porte biberon et non pas le biberon. Le biberon est comme une masselotte à l'intérieur du porte biberon. Il est pesé par le porte biberon par le haut et par le bas. De façon à ne pas fausser la lecture des données de pesée, l'utilisateur ne doit jamais toucher le biberon avec ses mains. En effet, si l'utilisateur vient à appliquer un effort sur le biberon, il modifie et fausse alors la mesure de pesée du poids du biberon seul. L'invention propose de capter le poids du biberon à l'intérieur du porte biberon. Ce poids est capté dans les deux sens de la direction de l'axe principal (S) du biberon. L'angle (A) que fait l'axe principal (S) du biberon par rapport à l'horizontale est également mesuré. Dans le cas de la figure 4, le maintien est effectif de haut en bas, selon l'axe principal (S) du biberon, c'est-à-dire, avec 1 - un premier appui de maintien haut (52) sur le haut de la face supérieure de bague de vissage (10) et 2 - un second appui bas de maintien (53) sur le bas sur le culot (C). Le porte biberon propose également un maintien latéral (45) qui évite au biberon de sortir de son maintien haut (52) / bas (53). Sous une forme avancée de l'invention, le maintien, latéral (45) est conçu comme une surface de prise ergonomique qui permet à l'utilisateur de tenir le porte biberon, et ce, sans jamais venir tenir le biberon pendant la tétée. Figure 1 shows a traditional bottle (1) positioned vertically, with its bottle (B), the bottom of its bottle (C) its nipple screwing ring (10), its nipple (T). The pacifier screw ring (10) has a side face that matches the side wall of the bottle and an upper face that partially closes the bottle. A hole is arranged on the upper face of the screw ring to pass the nipple (T) through which will suck the baby. The fluid is at a level (N) inside the bottle (B) of the bottle. The bottle used according to the invention is a traditional oblong bottle with vertical axial symmetry which comprises a main axis (S) which starts from the center of the base (C) to go through the center of the nipple (T). Figure 2 shows a traditional tipped bottle that delivers milk. In this figure, the level (N) of the liquid reaches the nipple; the baby can therefore drink liquid. Figure 3 shows a traditional bottle with a bottle too leaning for the level (N) reaches the pacifier head; the baby is drinking air. Figure 4 shows the bottle holder (40) which holds the bottle. The challenge of the invention is that during the phase of use of the bottle, the user holds the bottle holder and not the bottle. The bottle is like a feeder inside the bottle holder. It is weighed by the bottle holder from the top and the bottom. In order not to distort the reading of the weighing data, the user must never touch the bottle with his hands. Indeed, if the user comes to apply a force on the bottle, it modifies and then distorts the weight measurement of the weight of the bottle alone. The invention proposes to capture the weight of the bottle inside the bottle holder. This weight is captured in both directions of the direction of the main axis (S) of the bottle. The angle (A) that the main axis (S) of the bottle with respect to the horizontal is also measured. In the case of Figure 4, the maintenance is effective from top to bottom, according to the main axis (S) of the bottle, that is to say, with 1 - a first upper support (52) on the top of the upper face of the screw ring (10) and 2 - a second support holding stock (53) on the bottom on the base (C). The bottle holder also has a lateral support (45) that prevents the bottle from coming out of its high (52) / low (53) hold. In an advanced form of the invention, the lateral support (45) is designed as an ergonomic grip surface that allows the user to hold the bottle holder, and this, without ever coming to hold the bottle during feeding.
Le porte biberon comprend  Bottle holder includes
• Un capteur de poids dit positif (62) du biberon qui capte le poids exercé dans un sens positif de l'axe principal du biberon, à savoir le poids pendant la tétée.  • A positive weight (62) weight sensor that captures the weight exerted in a positive direction of the main axis of the bottle, namely the weight during feeding.
• Un capteur de poids dit négatif (63) du biberon qui capte le poids exercé dans un sens négatif de l'axe principal du biberon, à savoir le poids lorsque le biberon est vertical debout posé sur son culot.  • A negative weight sensor (63) of the bottle that captures the weight exerted in a negative direction of the main axis of the bottle, namely the weight when the bottle is upright standing on its base.
• Un inclinomètre qui capte l'inclinaison de l'axe principal du biberon.  • An inclinometer that captures the inclination of the main axis of the bottle.
• Un accéléromètre qui capte les vibrations du biberon et de la tétine. • Un maintien latéral (45) qui maintient latéralement le biberon dans le porte biberon. • An accelerometer that captures the vibrations of the bottle and nipple. • A side support (45) that holds the bottle sideways in the bottle holder.
• Un maintien haut et bas (52, 53) qui maintient le biberon dans le porte biberon dans les deux directions selon son axe principal  • A high and low hold (52, 53) that holds the bottle in the bottle holder in both directions along its main axis
• Le biberon est maintenu avec un léger jeu de débattement (d) haut / bas /latéral dans son maintien de façon à venir peser sur l'appui haut ou sur l'appui bas du porte biberon  • The bottle is held with a slight play of movement (d) up / down / side in its hold so as to come to weigh on the high support or on the low support of the bottle holder
• Une surface extérieure de prise de porte biberon qui soit une surface de préhension dont la volumétrie soit telle que les mains et les doigts de l'utilisateur n'appliquent pas d'efforts sur le biberon.  • An outer surface bottle holder holder which is a gripping surface whose volume is such that the hands and fingers of the user do not apply efforts on the bottle.
• Un module émetteur récepteur qui émette les données captées en liaison sans fil vers un terminal distant.  • A transceiver module that transmits the sensed data wirelessly to a remote terminal.
· Une alarme visuelle, sonore, ou vibratoire qui restitue une alarme au parent.  · A visual, audible, or vibratory alarm that restores an alarm to the parent.
L'invention capte donc en temps réel, le poids du biberon, l'inclinaison du biberon, les vibrations du biberon et calcule ainsi en temps réel le débit de tétée. Il est bien entendu que l'alarme peut aussi être affichée en local sur le porte biberon ou être exportée sur le téléphone mobile. L'invention restitue une alarme temps réel ou différée au parent. La figure 5 représente des moyens particuliers de prendre la pesée haute de biberon. Selon cet aspect de l'invention, une tige munie de crochets à chacune de ses deux extrémités vient transmettre la pesée. Le biberon est positionné entre les deux crochets (52, 82) de la tige. En position de tétée, le biberon vient exercer son poids sur l'appui de maintien haut (52). La tige viendra de fait par sa seconde extrémité applicateur de poids (82) peser sur le capteur de poids de position de tétée (62) qui est logé sur la carte électronique (60). La carte électronique (60) est centralisée et logée dans le socle plancher (P) du porte biberon, sous le biberon. La figure 6 représente la carte électronique (60), qui comprend un circuit de traitement des informations (64) qui comprend une puce de calcul, une antenne de transmission, une batterie. Les capteurs de mesure sont deux capteurs de pesée (63, 62) qui sont logés respectivement sur la face supérieure de la carte pour le capteur de pesée à l'arrêt debout (63) et sur la face inférieure de la carte pour le capteur de pesée en tétée (62). Bien sûr les deux capteurs de pesée (62, 63) sont liés au circuit de traitement des informations (64). La figure 7 représente un moyen de maintien du biberon selon un aspect particulier dit solution à coque de l'invention. Sous cette forme le maintien haut du biberon se fait par une tenue latérale à fort effet de maintien et de frottement. Selon cette solution, le biberon est encastré par l'utilisateur dans une coque dite coque intérieure (70) de forme complémentaire à celle du biberon. Le biberon est maintenu dans cette coque par une forte pression latérale à frottement, suffisante pour reproduire un effet d'appui de maintien haut (52). En effet, si les efforts latéraux et les frottements sont bien dimensionnés, le biberon rempli en position de tétée est compris dans le cône dit de frottement et ne quittera pas son logement encastré dans la coque intérieure. Bien évidemment cette coque intérieure (70) peut comporter aussi un appui haut (52) saillant, voir figure 10a, qui contraigne le biberon, une fois introduit dans la coque, à ne pas pouvoir passer en déplacement l'obstacle de l'appui haut (52). La coque intérieure comprend également un maintien appui bas (53) qui prend la forme d'un plancher et qui empêche le biberon de passer plus bas que l'appui bas (53). Le biberon repose par le culot (C) de la bouteille sur l'appui bas (53). La coque intérieure (70) adopte donc la forme générale d'un cylindre borgne tronqué en biais sur son ouverture dans lequel l'utilisateur peut venir introduire le biberon. La forme extérieure de la bouteille (B) du biberon vient épouser la forme intérieure de la coque dite intérieure (70). Comme représenté en figures 8 et 9 représentent le maintien en position debout avant la tétée, figure 8, et en position de tétée, figure 9, selon la solution dite à coque dans laquelle une première coque dite intérieure (70) coopère avec une seconde coque dite extérieure (100). Un peu à la façon des poupées russes, la forme extérieure de la coque intérieure (70) vient épouser la forme intérieure de la coque dite extérieure (100). Toutefois, la coque intérieure est libre de mouvement et notamment en translation dans la direction de l'axe principal (S). Il est bien compris que la coque extérieure (100) est suffisamment rigide pour constituer une barrière à l'effort de saisie, de sorte que lorsque l'utilisateur la saisisse dans sa main pour tenir le biberon, la pression de ce dernier sur la coque ne vienne exercer d'effort sur la coque intérieure (70). Il est également compris que les formes des coques extérieures et intérieures coopèrent pour que la coque intérieure ne dépasse pas de la coque extérieure de telle façon que l'utilisateur ne vienne pas exercer par mégarde d'effort sur la coque intérieure. La forme de la coque extérieure libère toutefois une entrée suffisante pour ne pas boucher l'ouverture de la coque intérieure de telle façon que l'utilisateur puisse introduire facilement le biberon dans la coque intérieure. Typiquement, la forme de l'ouverture d'introduction (O) du biberon de la coque intérieure est une section en biais d'un cylindre à angle autour (45°) par rapport à l'axe principal (S). Par un geste d'introduction intuitif du culot de la bouteille du biberon qui comprend d'abord une translation puis une rotation de la tête de bouteille vers l'avant, l'utilisateur cale le biberon dans son logement qui est la coque intérieure. Par un geste inversé, il peut ressortir le biberon de la coque intérieure. Avec en figure 8, en position dite de rangement, une coque intérieure (70) reposant sur le plancher de la coque extérieure (100) et en figure 9 dite de tétée, une coque intérieure qui vient se translater à l'intérieur de la coque extérieure avec un plancher de la coque intérieure qui décolle du plancher de la coque extérieure d'un débattement (d). Le débattement (d) est particulièrement expliqué en figures 10 et 12. Les figures 10a, 10b représentent l'agencement mécanique des différentes pièces selon l'invention dite à coque, dans laquelle un débatteur (110) vient interagir avec la carte électronique (60) et reporter les efforts de pesée. Le débatteur (110) est une pièce mécanique qui peut se solidariser / désolidariser de la coque intérieure (70), positionnée sous le plancher de la coque intérieure (70) qui comprend deux pattes de fixation (107a, 107b) à la coque intérieure (70). Deux trous d'accès (108) disposés sur la coque extérieure (100) permettent à l'utilisateur en agissant sur l'extrémité des pattes, si besoin pour le nettoyage ou pour l'entretien, de désolidariser le débatteur (110). Le débatteur comprend ensuite deux niveaux d'action sur la carte électronique (60), à savoir, un applicateur de poids positif (82) sur le capteur de pesée en tétée (62), et un applicateur de poids négatif (83) sur le capteur de pesée à l'arrêt debout (63). Les deux applicateurs de poids (82, 83) prennent la forme de pattes d'appui qui viennent exercer leur effort sur une surface d'appui. Sous d'autres formes ce couple de pesée peut prendre la forme d'interaction de répulsion de deux aimants. Le débatteur coopère également avec la pièce dite socle plancher (P) qui loge la carte électronique (60), voir figure 13. Le socle plancher (P) est vissé au bas de la coque extérieure (100). En position vissé, le plafond du socle plancher (P) devient de fait, le plancher de la coque extérieure (100). Le socle plancher (P) comprend des moyens de solidariser (130) la carte électronique (60) au socle plancher (P). Le socle plancher (P) prend la forme d'une rondelle étanche percé en son plafond de deux passages (141a, 141b), figure 14, pour le passage des pattes de fixation du débatteur (110). Le socle plancher (P) loge donc les deux applicateurs de poids (82, 83) du débatteur qui interagissent avec la carte électronique (60), figure 13, figures 12a, 12b, avec le débattement (d) qui permet soit en position de tétée, soit en position de biberon debout de venir agir sur une des deux surfaces de pesée et ce quelque soit l'orientation angulaire du biberon par rapport à la verticale. Un algorithme de filtrage des données de pesée vient en temps réel analyser les données de pesée, les données d'inclinaison, les données d'accéléromètre et calcule le débit temps réel du biberon ainsi que la masse de liquide présente à l'intérieur du biberon. Le socle plancher laisse également sur son plafond une réservation pour laisser passer la visée d'un capteur de température (142) qui vise dans la direction de l'axe principal (S), le bas du biberon à l'intérieur de la coque intérieure (70). Les figures 11 a, 11b représentent une vue de face du porte biberon complet avec et sans biberon avec une réservation sur le socle plancher (P) pour le connecteur de recharge de batterie (113), et une surface d'affichage interactive (112) dans la ligne du centre de la partie tronquée de la coque extérieure, qui permette à être bien visible, à la fois par un gaucher et par un droitier, qui affiche les données de débit et d'avertissement en temps réel pour l'utilisateur. La surface d'affichage interactive (112) peut notamment contenir un bouton de marche arrêt. The invention therefore captures in real time, the weight of the bottle, the inclination of the bottle, the vibrations of the bottle and thus calculates in real time the feed rate. It is understood that the alarm can also be displayed locally on the bottle holder or be exported to the mobile phone. The invention restores a real-time or deferred alarm to the parent. Figure 5 shows special ways to take high bottle weighing. According to this aspect of the invention, a rod provided with hooks at each of its two ends transmits the weighing. The bottle is positioned between the two hooks (52, 82) of the rod. In feeding position, the bottle comes to exert its weight on the high support support (52). The rod will come through its second weight applicator end (82) to weigh on the feed position weight sensor (62) which is housed on the electronic card (60). The electronic card (60) is centralized and housed in the floor base (P) of the bottle holder, under the bottle. Fig. 6 shows the electronic card (60), which comprises an information processing circuit (64) which comprises a calculation chip, a transmission antenna, a battery. The measuring sensors are two weighing sensors (63, 62) which are respectively housed on the upper face of the card for the standstill weighing sensor (63) and on the underside of the card for the sensor. weighing in the feed (62). Of course the two weighing sensors (62, 63) are linked to the information processing circuit (64). Figure 7 shows a bottle holding means according to a particular aspect said solution shell of the invention. In this form the high maintenance of the bottle is by a lateral holding strong holding and friction effect. According to this solution, the bottle is embedded by the user in a shell called inner shell (70) of complementary shape to that of the bottle. The bottle is maintained in this shell by a high lateral friction pressure, sufficient to reproduce a high holding support effect (52). Indeed, if the lateral forces and friction are well dimensioned, the bottle filled in breastfeeding position is included in the so-called friction cone and will not leave its recessed housing in the inner shell. Of course this inner shell (70) may also include a high support (52) protruding, see Figure 10a, which constrains the bottle, once introduced into the shell, not to be able to move the obstacle of the high support (52). The inner shell also includes a low support (53) which takes the form of a floor and which prevents the bottle from passing lower than the lower support (53). The bottle rests by the base (C) of the bottle on the low support (53). The inner shell (70) thus adopts the general shape of a blind cylinder truncated obliquely on its opening in which the user can come to introduce the bottle. The outer shape of the bottle (B) of the bottle comes to marry the inner shape of the so-called inner shell (70). As represented in FIGS. 8 and 9 represent the holding in the standing position before feeding, FIG. 8, and in the nursing position, FIG. 9, according to the so-called shell solution in which a first so-called inner shell (70) cooperates with a second shell said outer (100). A little like the Russian dolls, the outer shape of the inner shell (70) comes to marry the inner shape of the hull said outer (100). However, the inner shell is free of movement and in particular in translation in the direction of the main axis (S). It is well understood that the outer shell (100) is rigid enough to constitute a barrier to the gripping force, so that when the user grasps in his hand to hold the bottle, the pressure of the latter on the hull do not exert effort on the inner shell (70). It is also understood that the outer and inner shell shapes cooperate so that the inner shell does not protrude from the outer shell so that the user does not inadvertently exert effort on the inner shell. The shape of the outer shell, however, releases a sufficient inlet to not block the opening of the inner shell so that the user can easily introduce the bottle into the inner shell. Typically, the shape of the introduction opening (O) of the bottle of the inner shell is an angled section of an angle cylinder around (45 °) relative to the main axis (S). By a gesture of intuitive introduction of the base of the bottle of the bottle which comprises first a translation and then a rotation of the bottle head forward, the user stalls the bottle in its housing which is the inner shell. By an inverted gesture, it can bring out the bottle of the inner shell. With FIG. 8, in the so-called storage position, an inner shell (70) resting on the floor of the outer shell (100) and in Figure 9 called feeding, an inner shell that is translatable inside the outer shell with a floor of the inner shell which takes off from the floor of the outer shell of a travel (d). The displacement (d) is particularly explained in FIGS. 10 and 12. FIGS. 10a, 10b show the mechanical arrangement of the various parts according to the so-called shelled invention, in which a debater (110) comes to interact with the electronic card (60). ) and postpone weighing efforts. The debater (110) is a mechanical part that can join / disengage from the inner shell (70), positioned under the floor of the inner shell (70) which comprises two fastening tabs (107a, 107b) to the inner shell ( 70). Two access holes (108) disposed on the outer shell (100) allow the user by acting on the end of the legs, if necessary for cleaning or maintenance, to separate the debater (110). The debater then comprises two action levels on the electronic board (60), namely, a positive weight applicator (82) on the feed weighing sensor (62), and a negative weight applicator (83) on the standing weighing sensor (63). The two weight applicators (82, 83) take the form of support legs which come to exert their force on a bearing surface. In other forms, this weighing torque can take the form of the repulsion interaction of two magnets. The debater also cooperates with the so-called pedestal room (P) which houses the card The base plate (P) is screwed to the bottom of the outer shell (100). In the screwed position, the ceiling of the floor base (P) becomes, in fact, the floor of the outer shell (100). The floor base (P) comprises means for securing (130) the electronic board (60) to the floor base (P). The floor plinth (P) takes the form of a sealing washer pierced in its ceiling of two passages (141a, 141b), Figure 14, for the passage of the debater mounting brackets (110). The floor base (P) thus houses the two weight applicators (82, 83) of the debater which interact with the electronic board (60), FIG. 13, FIGS. 12a, 12b, with the displacement (d) which allows either in the position of fed, or in standing bottle position to come to act on one of the two weighing surfaces and whatever the angular orientation of the bottle relative to the vertical. An algorithm for filtering weighing data comes in real time analyzing weighing data, tilt data, accelerometer data and calculates the real-time flow of the bottle as well as the mass of liquid present inside the bottle. . The base floor also leaves on its ceiling a reservation to let the sight of a temperature sensor (142) aiming in the direction of the main axis (S), the bottom of the bottle inside the inner shell (70). Figures 11a, 11b show a front view of the complete bottle holder with and without bottle with a reservation on the floor base (P) for the a battery charging connector (113), and an interactive display surface (112) in the center line of the truncated portion of the outer shell, which allows to be clearly visible, both by a left-handed and right-handed person , which displays the flow and warning data in real time for the user. The interactive display surface (112) may in particular contain a stop button.
La présente invention concerne donc un porte biberon comprenant une carte électronique (60) de suivi de débit temps réel de liquide contenu dans le biberon (1) qui présente une forme cylindrique oblongue selon un axe principal (S) caractérisé en ce que le porte biberon comprend une coque extérieure (100), barrière étanche à la transmission d'effort de prise en main, qui loge un maintien (70) latéral, haut et bas (45, 52, 53) du biberon (1), le biberon (1) a été introduit par une ouverture (O) d'introduction commune au maintien (70) et à la coque extérieure, le maintien (70) comprend un léger jeu de débattement (d) haut / bas selon l'axe principal (S) dans la coque extérieure (100), le maintien (70) transmet par une liaison mécanique applicateur de poids (82, 83) le poids du biberon qui s'applique par le jeu du débattement (d) sur les capteurs de poids (62, 63) logés sur la carte électronique (60), qui mesurent le poids dans les deux sens de l'axe principal du biberon, un inclinomètre qui capte l'inclinaison du biberon, un accéléromètre qui capte les vibrations du biberon et de la tétine, un module de calcul qui traite les informations captées, un module émetteur récepteur qui émette les données captées en liaison sans fil vers un terminal distant, une alarme visuelle, sonore, ou vibratoire qui restitue une alarme temps réel au parent. The present invention therefore relates to a feeding bottle comprising an electronic card (60) for monitoring the real-time flow of liquid contained in the bottle (1) which has an oblong cylindrical shape along a main axis (S), characterized in that the bottle-holder comprises an outer shell (100), a tight barrier to the transmission of effort of grip, which houses a support (70) lateral, high and low (45, 52, 53) of the bottle (1), the bottle (1 ) has been introduced by a common introduction opening (O) to the support (70) and the outer shell, the support (70) comprises a slight clearance clearance (d) up / down along the main axis (S) in the outer shell (100), the support (70) transmits the weight of the feeding bottle (68) via the weight applicator (82) to the weight sensors (62, 63) housed on the electronic board (60), which measure the weight in both directions of the main axis of the bib eron, an inclinometer that captures the tilt of the bottle, an accelerometer that captures the vibrations of the bottle and the nipple, a calculation module that processes the captured information, a transceiver module that transmits the captured data wirelessly to a remote terminal, a visual, audible, or vibratory alarm that renders a real-time alarm to the parent.
La présente invention concerne donc un porte biberon caractérisé en ce que l'alarme peut aussi être affichée en local sur le porte biberon ou être exportée sur un téléphone mobile intelligent.  The present invention therefore relates to a bottle holder characterized in that the alarm can also be displayed locally on the bottle holder or be exported to a smart mobile phone.
La présente invention concerne donc un porte biberon caractérisé en ce que le maintien haut du biberon (52) se fait par une tenue latérale à fort effet de maintien et de frottement, le biberon est encastré par l'utilisateur dans un maintien qui est une coque dite coque intérieure (70) de forme complémentaire à celle du biberon.  The present invention therefore relates to a bottle holder characterized in that the high maintenance of the bottle (52) is by a lateral holding strong holding and friction effect, the bottle is embedded by the user in a holding which is a hull said inner shell (70) of complementary shape to that of the bottle.
La présente invention concerne donc un porte biberon caractérisé en ce que les formes des coques extérieures (100) et intérieures (70) coopèrent pour que la coque intérieure (70) ne dépasse pas de la coque extérieure The present invention therefore relates to a baby bottle holder, characterized in that the shapes of the outer (100) and inner (70) shells cooperate so that the inner shell (70) does not protrude from the outer shell
(100) de façon que l'utilisateur ne vienne pas exercer par mégarde d'effort sur la coque intérieure (70). (100) so that the user does not inadvertently exert effort on the inner shell (70).
La présente invention concerne donc un porte biberon caractérisé en ce que la forme de l'ouverture d'introduction (O) du biberon de la coque intérieure est une section en biais d'un cylindre à angle autour (45°) par rapport à l'axe principal (S). La présente invention concerne donc un porte biberon caractérisé en ce que un débatteur (110) vient interagir avec la carte électronique (60) et reporter les efforts de pesée, le débatteur (110) est une pièce mécanique qui peut se solidariser / désolidariser de la coque intérieure (70), positionnée sous le plancher de la coque intérieure (70) et comprend deux pattes de fixation (107a, 107b) à la coque intérieure (70), deux trous d'accès (108) sont disposés sur la coque extérieure (100) qui permettent à l'utilisateur en agissant sur l'extrémité des pattes, si besoin pour le nettoyage ou pour l'entretien, de désolidariser le débatteur (110). The present invention therefore relates to a baby bottle holder characterized in that the shape of the introduction opening (O) of the bottle of the inner shell is a section at an angle of a cylinder around (45 °) relative to the main axis (S). The present invention therefore relates to a feeding bottle characterized in that a debater (110) comes to interact with the electronic card (60) and to postpone the weighing forces, the debater (110) is a mechanical part that can be fixed / detached from the inner shell (70), positioned under the floor of the inner shell (70) and includes two fastening tabs (107a, 107b) to the inner shell (70), two access holes (108) are disposed on the outer shell (100) that allow the user by acting on the end of the legs, if necessary for cleaning or maintenance, to separate the debater (110).
La présente invention concerne donc un porte biberon caractérisé en ce que le débatteur (110) comprend deux niveaux d'action sur la carte électronique (60), à savoir, un applicateur de poids positif (82) sur le capteur de pesée en tétée (62), et un applicateur de poids négatif (83) sur le capteur de pesée à l'arrêt debout (63), les deux applicateurs de poids (82, 83) prennent la forme de pattes d'appui qui viennent exercer leur effort sur une surface d'appui.  The present invention therefore relates to a bottle-holder characterized in that the debater (110) comprises two levels of action on the electronic card (60), namely, a positive weight applicator (82) on the feed-weighing sensor ( 62), and a negative weight applicator (83) on the standstill weighing sensor (63), the two weight applicators (82, 83) take the form of support legs which exert their effort on a bearing surface.
La présente invention concerne donc un porte biberon caractérisé en ce que le débatteur (110) coopère également avec une pièce dite socle plancher (P) qui loge la carte électronique (60), le socle plancher (P) est vissé au bas de la coque extérieure (100), en position vissé, le plafond du socle plancher (P) devient de fait, le plancher de la coque extérieure (100), le socle plancher (P) comprend des moyens de solidariser (130) la carte électronique (60) au socle plancher (P), le socle plancher (P) prend la forme d'une rondelle étanche percé en son plafond de deux passages (141a, 141b), pour le passage des pattes de fixation du débatteur (110), le socle plancher (P) loge donc les deux applicateurs de poids (82, 83) du débatteur qui interagissent avec la carte électronique. The present invention therefore relates to a bottle holder characterized in that the debater (110) also cooperates with a so-called floor plinth (P) which houses the electronic board (60), the floor base (P) is screwed to the bottom of the hull (100), in the screwed position, the ceiling of the floor base (P) becomes, in fact, the floor of the outer shell (100), the floor base (P) comprises means for securing (130) the electronic board (60) to the floor base (P), the floor base ( P) takes the form of a sealing washer pierced in its ceiling of two passages (141a, 141b), for the passage of the debtor's fixing lugs (110), the floor base (P) thus houses the two weight applicators ( 82, 83) of the debater interacting with the electronic card.
La présente invention concerne donc un porte biberon caractérisé en ce que un algorithme de filtrage des données de pesée vient en temps réel analyser les données de pesée, les données d'inclinaison, les données d'accéléromètre et calcule le débit temps réel du biberon ainsi que la masse de liquide présente à l'intérieur du biberon.  The present invention therefore relates to a baby bottle holder characterized in that a weighing data filtering algorithm comes in real time to analyze the weighing data, the inclination data, the accelerometer data and calculates the real-time flow of the bottle as well as that the mass of liquid present inside the bottle.
La présente invention concerne donc un porte biberon caractérisé en ce que le socle plancher laisse également sur son plafond une réservation pour laisser passer la visée d'un capteur de température (142) qui vise dans la direction de l'axe principal (S), le bas du biberon à l'intérieur de la coque intérieure (70).  The present invention therefore relates to a baby bottle holder characterized in that the floor base also leaves on its ceiling a reservation for passing the sight of a temperature sensor (142) which aims in the direction of the main axis (S), the bottom of the bottle inside the inner shell (70).
Il est donc bien compris que de nombreuses variantes à l'invention peuvent s'inscrire dans le cadre de la présente invention. It is thus well understood that many variants of the invention may fall within the scope of the present invention.

Claims

REVENDICATIONS
1 Porte biberon comprenant une carte électronique (60) de suivi de débit temps réel de liquide contenu dans un biberon (1) qui présente une forme cylindrique oblongue selon un axe principal (S) caractérisé en ce que le porte biberon comprend une coque extérieure (100), barrière étanche à la transmission d'effort de prise en main, une coque intérieure qui forme un maintien (70) latéral, haut et bas (45, 52, 53) du biberon (1), une ouverture (O) d'introduction commune à la coque intérieure et à la coque extérieure pour l'introduction du biberon, la coque intérieure coulisse à l'intérieur de la coque extérieure avec un léger jeu de débattement (d) entre le maintien haut (52) et le maintien bas (53) selon l'axe principal (S) de la coque intérieure dans la coque extérieure (100), des capteurs de poids (62, 63) logés sur la carte électronique (60) mesurent le poids dans les deux sens de l'axe principal du biberon, une liaison mécanique applicateur de poids (82, 83) qui applique le poids du biberon par le jeu du débattement (d) sur les dits capteurs de poids (62, 62), un inclinomètre qui capte l'inclinaison du biberon, un accéléromètre qui capte les vibrations du biberon et de la tétine, un module de calcul qui traite les informations captées, un module émetteur récepteur qui émette les données captées en liaison sans fil vers un terminal distant, une alarme visuelle, sonore, ou vibratoire qui restitue une alarme temps réel au parent. A bottle holder comprising an electronic card (60) for monitoring the real-time flow of liquid contained in a bottle (1) which has an oblong cylindrical shape along a main axis (S), characterized in that the bottle-feeding holder comprises an outer shell ( 100), impervious barrier to the transmission of effort of grasping, an inner shell which forms a support (70) lateral, high and low (45, 52, 53) of the bottle (1), an opening (O) d common introduction to the inner shell and the outer shell for the introduction of the bottle, the inner shell slides inside the outer shell with a slight clearance (d) between the high maintenance (52) and maintenance low (53) along the main axis (S) of the inner shell in the outer shell (100), weight sensors (62, 63) housed on the electronic board (60) measure the weight in both directions of the main axis of the bottle, a mechanical connection weight applicator (82, 83) which applies the weight of the bottle by the play of travel (d) on said weight sensors (62, 62), an inclinometer that captures the inclination of the bottle, an accelerometer that captures the vibrations of the bottle and the nipple, a calculation module that processes the captured information, a transceiver module that transmits the sensed data wirelessly to a terminal remote, a visual, audible or vibratory alarm that restores a real-time alarm to the parent.
2 - Porte biberon selon la revendication 1 caractérisé en ce qu'il comprend une surface d'affichage interactive sur le porte biberon. 2 - Bottle holder according to claim 1 characterized in that it comprises an interactive display surface on the bottle holder.
3 - Porte biberon selon la revendication 1 caractérisé en ce que les formes des coques extérieures (100) et intérieures (70) coopèrent pour que la coque intérieure (70) ne dépasse pas de la coque extérieure (100) de façon que l'utilisateur ne vienne pas exercer par mégarde d'effort sur la coque intérieure (70). 3 - Bottle holder according to claim 1 characterized in that the shapes of the outer shell (100) and inner (70) cooperate so that the inner shell (70) does not exceed the outer shell (100) so that the user do not inadvertently exert effort on the inner shell (70).
4 - Porte biberon selon la revendication 1 et 3 caractérisé en ce que la forme de l'ouverture d'introduction (O) du biberon de la coque intérieure est une section en biais d'un cylindre à angle autour (45°) par rapport à l'axe principal (S). 4 - Bottle holder according to claim 1 and 3 characterized in that the shape of the introduction opening (O) of the bottle of the inner shell is an angled section of a cylinder around (45 °) relative to to the main axis (S).
5 - Porte biberon selon l'une quelconque des revendications 1 à 4 caractérisé en ce qu'il comprend un débatteur (110) qui vient interagir avec la carte électronique (60) et reporter les efforts de pesée, le débatteur (110) est une pièce mécanique qui peut se solidariser / désolidariser de la coque intérieure (70), positionnée sous le plancher de la coque intérieure (70) et comprend deux pattes de fixation (107a, 107b) à la coque intérieure (70), deux trous d'accès (108) sont disposés sur la coque extérieure (100) qui permettent à l'utilisateur en agissant sur l'extrémité des pattes, si besoin pour le nettoyage ou pour l'entretien, de désolidariser le débatteur (110). 5 - Bottle holder according to any one of claims 1 to 4 characterized in that it comprises a debater (110) which comes to interact with the electronic card (60) and postpone the weighing efforts, the debater (110) is a mechanical part that can join / disassociate from the hull interior (70), positioned under the floor of the inner shell (70) and comprises two fastening tabs (107a, 107b) to the inner shell (70), two access holes (108) are disposed on the outer shell ( 100) which allow the user by acting on the end of the legs, if necessary for cleaning or maintenance, to separate the debater (110).
6 - Porte biberon selon la revendication 5 caractérisé en ce que le débatteur (110) comprend un applicateur de poids positif (82) sur le capteur de pesée en tétée (62), et un applicateur de poids négatif (83) sur le capteur de pesée à l'arrêt debout (63), les deux applicateurs de poids (82, 83) prennent la forme de pattes d'appui qui viennent exercer leur effort sur une surface d'appui. 6 - Bottle holder according to claim 5 characterized in that the debater (110) comprises a positive weight applicator (82) on the feed weighing sensor (62), and a negative weight applicator (83) on the feed sensor. weighing at standstill (63), the two weight applicators (82, 83) take the form of support legs which come to exert their force on a bearing surface.
7 - Porte biberon selon l'une quelconque des revendications 5 ou 6 caractérisé en ce que le débatteur (110) comprend un socle plancher (P) qui loge la carte électronique (60), le socle plancher (P) est vissé au bas de la coque extérieure (100), en position vissé, le plafond du socle plancher (P) devient de fait, le plancher de la coque extérieure (100), le socle plancher (P) comprend des moyens de solidariser (130) la carte électronique (60) au socle plancher (P), le socle plancher (P) prend la forme d'une rondelle étanche percé en son plafond de deux passages (141a, 141b), pour le passage des pattes de fixation du débatteur (110), le socle plancher (P) loge donc les deux applicateurs de poids (82, 83) du débatteur qui interagissent avec la carte électronique. 8 - Porte biberon selon la revendication 1 caractérisé en ce qu'il comprend un circuit de traitement des informations (64) qui comprend un algorithme de filtrage des données de pesée venant en temps réel analyser les données de pesée, les données d'inclinaison, les données d'accéléromètre et calcule le débit temps réel du biberon ainsi que la masse de liquide présente à l'intérieur du biberon. 7 - Bottle holder according to any one of claims 5 or 6 characterized in that the debater (110) comprises a floor base (P) which houses the electronic card (60), the floor base (P) is screwed to the bottom of the outer shell (100), in the screwed position, the ceiling of the floor base (P) becomes, in fact, the floor of the outer shell (100), the floor base (P) comprises means for securing (130) the electronic card (60) to the floor base (P), the floor base (P) takes the form of a sealing washer pierced in its ceiling of two passages (141a, 141b), for the passing the debater's fixing lugs (110), the floor base (P) thus houses the two weight applicators (82, 83) of the debater which interact with the electronic card. 8 - Bottle holder according to claim 1 characterized in that it comprises an information processing circuit (64) which comprises a filtering algorithm weighing data coming in real time analyzing the weighing data, the inclination data, the accelerometer data and calculates the actual flow rate of the bottle as well as the mass of liquid present inside the bottle.
9 - Porte biberon selon la revendication 7 caractérisé en ce que le socle plancher laisse également sur son plafond une réservation pour laisser passer la visée d'un capteur de température (142) qui vise dans la direction de l'axe principal (S), le bas du biberon à l'intérieur de la coque intérieure (70). 9 - Bottle holder according to claim 7 characterized in that the floor base also leaves on its ceiling a reservation for passing the sight of a temperature sensor (142) which aims in the direction of the main axis (S), the bottom of the bottle inside the inner shell (70).
PCT/FR2015/000176 2014-08-26 2015-08-25 Bottle holder with flow-warning shell WO2016030586A2 (en)

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FR1401901A FR3025092B1 (en) 2014-08-26 2014-08-26 BERGER DOOR WITH HULL FLOW SHOCK
FR14/01901 2014-08-26

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WO2016030586A3 WO2016030586A3 (en) 2016-06-16

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WO2017186504A1 (en) * 2016-04-26 2017-11-02 Koninklijke Philips N.V. Infant feeding system

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FR3048877A1 (en) * 2016-10-04 2017-09-22 Slow Control INTELLIGENT BELLO OVER-CULOT WITH ANTI-COLIC DETECTION.

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KR20000006891U (en) * 1998-09-23 2000-04-25 민병일 Capacity check device for infant aluminum bottle
FR2975897B1 (en) * 2011-05-31 2014-05-16 Edouard Sanchez MOISTURE SUPPORT DEVICE

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2017186504A1 (en) * 2016-04-26 2017-11-02 Koninklijke Philips N.V. Infant feeding system
US11324666B2 (en) 2016-04-26 2022-05-10 Koninklijke Philips N.V. Infant feeding system
US11857507B2 (en) 2016-04-26 2024-01-02 Koninklijke Philips N.V. Infant feeding system

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