A mixing system includes a container having an encircling sidewall bounding a chamber and extending between an upper end and an opposing lower end; a support plate disposed within the chamber and secured to the encircling sidewall; an inner wall secured to the support plate and projecting within the chamber toward the upper end, an open space being formed between the inner wall and the encircling sidewall; and a first aperture extending through the encircling sidewall so as to communicate with the open space. A mixing assembly is positioned within the container and is supported on the support plate, the mixing assembly including a pliable enclosure and a mixing device.
B01F 33/00 - Autres mélangeursInstallations pour effectuer des mélangesCombinaisons de mélangeurs
B01F 27/808 - Mélangeurs à agitateurs tournant dans des récipients fixesPétrins avec des agitateurs tournant autour d'un axe sensiblement vertical avec des agitateurs entraînés par le fond du récipient
B01F 27/88 - Mélangeurs à agitateurs tournant dans des récipients fixesPétrins avec des agitateurs tournant autour d'un axe sensiblement vertical avec une unité récipient-agitateur séparée qui est adaptée pour être couplée à un mécanisme d'entraînement
B01F 33/501 - Dispositifs de mélange mobiles, c.-à-d. facilement déplaçables d'un endroit à l'autre, p. ex. portables pendant l'utilisation
A mixing system includes a container having a support plate and a mixing assembly supported on the support plate. The mixing assembly includes a pliable enclosure containing a fluid and a mixing device. A portion of the mixing device extends from the pliable enclosure and is adapted to be detachably coupled to a drive mechanism. A first plate is detachably secured to the rigid container. The pliable enclosure is disposed between the first plate and the support plate. A mixing arrangement includes a docking station having a drive cradle and a drive mechanism. The mixing system is removably positioned within the drive cradle so that the drive mechanism is removably coupled to the mixing device.
A bag assembly includes a first panel secured to a second panel by a seam so that a cavity is formed between the first panel and the second panel, the seam encircling the cavity. A first seal couples together the first panel and the second panel at a location spaced apart from the seam so that the cavity encircles the first seal. In one embodiment, the first seal can be circular. A first port communicates with the cavity.
B65D 30/16 - Sacs, sachets ou réceptacles analogues caractérisés par leur forme ou leur conception à parois d'extrémité rigides, p. ex. gardant leur forme même à vide
F25D 31/00 - Autres appareils de refroidissement ou de congélation
An aseptic connector assembly includes a body portion having a receptacle configured to receive a corresponding fill connector. A pivot portion is movably coupled to the body portion, the pivot portion having a channel formed therein. A conduit portion is slidably disposed within the channel formed in the pivot portion. The pivot portion has a ready position and an operative position, the pivot portion being adjustable from the ready position to the operative position via relative movement with respect to the body portion.
A61M 39/18 - Procédés ou appareils pour réaliser les connexions sous conditions stériles
A61M 39/16 - Raccords ou accouplements pour tubes avec des dispositions pour la désinfection ou la stérilisation
A61M 39/12 - Raccords ou accouplements pour tubes pour raccorder un tube flexible à un dispositif de fixation rigide
B65B 3/00 - Emballage de matériaux plastiques, de semi-liquides, de liquides ou de liquides et solides mélangés, dans des réceptacles ou récipients individuels, p. ex. dans des sacs ou sachets, boîtes, cartons, bidons ou pots
A61M 39/24 - Soupapes de retenue ou soupapes anti-retour
A bag assembly includes a pliable housing having a first panel secured to a second panel by a seam so that a cavity is formed between the first panel and the second panel, the seam encircling the cavity. A first tufting couples together the first panel and the second panel at a location spaced apart from the seam so that the cavity encircles the first tufting. In one embodiment the first tufting can circular. A first port is coupled with the pliable housing and communicating with the cavity.
B65D 30/16 - Sacs, sachets ou réceptacles analogues caractérisés par leur forme ou leur conception à parois d'extrémité rigides, p. ex. gardant leur forme même à vide
F25D 31/00 - Autres appareils de refroidissement ou de congélation
A61J 1/14 - Récipients spécialement adaptés à des fins médicales ou pharmaceutiques DétailsAccessoires à cet effet
A mixing system includes a tank assembly and a container positioned within the tank assembly, the container bounding a compartment. A mixer is disposed within the compartment of the container. A shaft has a first end secured to the mixer and an opposing second end disposed outside of the container. An actuation mechanism is coupled with the second end of the shaft outside of the container and reciprocally moves the shaft and the mixer a stroke length, the stroke length being adjusted based on a pre-programmed protocol or signals from a sensor.
A mixing system includes a container having a support plate and a mixing assembly supported on the support plate. The mixing assembly includes a pliable enclosure containing a fluid and a mixing device. A portion of the mixing device extends from the pliable enclosure and is adapted to be detachably coupled to a drive mechanism. A first plate is detachably secured to the rigid container. The pliable enclosure is disposed between the first plate and the support plate. A mixing arrangement includes a docking station having a drive cradle and a drive mechanism. The mixing system is removably positioned within the drive cradle so that the drive mechanism is removably coupled to the mixing device.
A portable test device and related method are disclosed for conducting integrity testing of flexible containers. The test is particularly useful for testing aseptic flexible film bags in a manner that maintains the sterile nature of the container and removes crinkles by inflating the containers to remove crinkles and establish an inflation set point. The decay in pressure is measured over a predetermined period of time; if pressure loss does not exceed a predetermined threshold the integrity of the bag is confirmed and it can be filled without further manipulation of the container that may result in introducing flaws.
G01M 3/32 - Examen de l'étanchéité des structures ou ouvrages vis-à-vis d'un fluide par utilisation d'un fluide ou en faisant le vide par mesure du taux de perte ou de gain d'un fluide, p. ex. avec des dispositifs réagissant à la pression, avec des indicateurs de débit pour récipients, p. ex. radiateurs
A method for forming an aseptic connection includes inserting an end of a sealed fill connector into a receptacle of an aseptic connector assembly; moving a pivot portion of the aseptic connector assembly relative to a body portion of the aseptic connector assembly so as to sever a portion of the fill connector, the pivot portion being at least partially disposed within the body portion; and advancing a conduit portion of the aseptic connector assembly into the fill connector so as to form an aseptic connection therebetween, the conduit portion being at least partially disposed within the pivot portion or the body portion of the aseptic connector assembly after advancing.
A61M 39/18 - Procédés ou appareils pour réaliser les connexions sous conditions stériles
A61M 39/16 - Raccords ou accouplements pour tubes avec des dispositions pour la désinfection ou la stérilisation
A61M 39/12 - Raccords ou accouplements pour tubes pour raccorder un tube flexible à un dispositif de fixation rigide
B65B 3/00 - Emballage de matériaux plastiques, de semi-liquides, de liquides ou de liquides et solides mélangés, dans des réceptacles ou récipients individuels, p. ex. dans des sacs ou sachets, boîtes, cartons, bidons ou pots
A61M 39/24 - Soupapes de retenue ou soupapes anti-retour
10.
PLUNGE-MIXING BAG ARRANGEMENT AND PLUNGE-MIXING SYSTEM
A plunge-mixing bag arrangement (100) includes a flexible mixing bag (101) defining a mixing region (102), and a shaft (103) extending from outside of the flexible mixing bag (101) into the mixing region (102), the shaft (103) comprising a sparger (105) within the mixing region (102). The sparger (105) comprises an interior channel and ports (109) extending from the interior channel. The shaft (103) is capable of axial movement within the bag (101) to fracture gas bubbles being released from the interior channel through the ports (109). A plunge-mixing system includes a mechanism (117) for raising and lowering the shaft (103).
A plunge-mixing bag arrangement includes a flexible mixing bag defining a mixing region, and a shaft extending from outside of the flexible mixing bag into the mixing region, the shaft comprising a sparger within the mixing region. The sparger comprises an interior channel and ports extending from the interior channel. The shaft is capable of axial movement within the bag to fracture gas bubbles being released from the interior channel through the ports. A plunge-mixing system includes a mechanism for raising and lowering the shaft.
A freezer bag, a storage system, and a method of freezing are provided. The freezer bag includes a pliable housing having opposing sides and bounding a cavity at least partially disposed between the opposing sides, each opposing side having an interior surface communicating with the cavity and an opposing exterior surface that is openly exposed, the pliable housing including a first panel and a seam. A first tufting couples together the opposing sides of the pliable housing at a distance spaced apart from the seam so that the cavity encircles the first tufting. A first port is connected to the pliable housing and communicates with the cavity.
B65D 30/16 - Sacs, sachets ou réceptacles analogues caractérisés par leur forme ou leur conception à parois d'extrémité rigides, p. ex. gardant leur forme même à vide
F25D 31/00 - Autres appareils de refroidissement ou de congélation
A freezer bag, a storage system, and a method of freezing are provided. The freezer bag includes a pliable housing including at least one panel and a seam, the at least one panel and the seam defining a cavity within the pliable housing, a port extending from the pliable housing, and a tufting coupling opposing sides of the pliable housing, the tufting dividing the cavity into a plurality of regions.
F25C 1/24 - Construction des mouleauxDispositifs de remplissage pour mouleaux pour réfrigérateurs, p. ex. des plateaux de congélation
A61F 7/10 - Sacs réfrigérants, p. ex. sacs à glace
B65D 30/16 - Sacs, sachets ou réceptacles analogues caractérisés par leur forme ou leur conception à parois d'extrémité rigides, p. ex. gardant leur forme même à vide
A mixing system and mixing method are provided. The mixing system includes a tank assembly, a container positioned within the tank assembly, a mixer disposed within a compartment of the container, a linear motor, and a shaft having a first end secured to the mixer and an opposing second end secured to the linear motor. The linear motor provides a variable stroke length for the shaft. The mixing method includes providing a tank assembly having a linear motor, positioning a mixing assembly including a mixing bag in the tank assembly, combining two or more components in a compartment of the mixing bag, attaching a mixing shaft extending from a mixer disposed within the mixing bag to the linear motor, and raising and lowering the mixing shaft to mix the two or more components. A stroke length of the mixing shaft during the raising and lowering is varied.
An aseptic connector assembly (100) and a method of aseptically transferring fluid are provided. The aseptic connector assembly (100) includes a body portion (101), the body portion (1014) having a receptacle (210) configured to receive a corresponding fill connector (212); a pivot portion (103) adjustably disposed within and extending partially from the body portion (101), the pivot portion (103) having a channel (107) formed therein; and a conduit portion (105) axially slidably disposed within the channel (107) formed in the pivot portion (103). The pivot portion (103) comprises a ready position and an operative position, the pivot portion (103) being adjustable from the ready position to the operative position via relative movement with respect to the body portion (101). The method includes providing an aseptic connector (100) in a ready position, coupling a flexible tubing (205) and a fill connector (212) to the aseptic connector (100), moving a pivot portion (103) to an operative position, axially sliding the conduit portion (105) into the fill connector (212), and transferring a fluid through the connector (100).
A61M 39/18 - Procédés ou appareils pour réaliser les connexions sous conditions stériles
A61J 1/20 - Dispositions pour le transfert des liquides, p. ex. du flacon à la seringue
A61M 39/12 - Raccords ou accouplements pour tubes pour raccorder un tube flexible à un dispositif de fixation rigide
B65B 3/00 - Emballage de matériaux plastiques, de semi-liquides, de liquides ou de liquides et solides mélangés, dans des réceptacles ou récipients individuels, p. ex. dans des sacs ou sachets, boîtes, cartons, bidons ou pots
A61M 39/24 - Soupapes de retenue ou soupapes anti-retour
An aseptic connector assembly and a method of aseptically transferring fluid are provided. The aseptic connector assembly includes a body portion, the body portion having a receptacle configured to receive a corresponding fill connector; a pivot portion adjustably disposed within and extending partially from the body portion, the pivot portion having a channel formed therein; and a conduit portion axially slidably disposed within the channel formed in the pivot portion. The pivot portion comprises a ready position and an operative position, the pivot portion being adjustable from the ready position to the operative position via relative movement with respect to the body portion. The method includes providing an aseptic connector in a ready position, coupling a flexible tubing and a fill connector to the aseptic connector, moving a pivot portion to an operative position, axially sliding the conduit portion into the fill connector, and transferring a fluid through the connector.
A mixing system and mixing method are provided. The mixing system includes a tank assembly, a container (202) positioned within the tank assembly, a mixer (204) disposed within a compartment of the container, a linear motor, and a shaft (208) having a first end secured to the mixer (204) and an opposing second end secured to the linear motor. The linear motor provides a variable stroke length for the shaft. The mixing method includes providing a tank assembly having a linear motor, positioning a mixing assembly including a mixing bag (202) in the tank assembly, combining two or more components in a compartment of the mixing bag (202), attaching a mixing shaft (208) extending from a mixer (204) disposed within the mixing bag (202) to the linear motor, and raising and lowering the mixing shaft (208) to mix the two or more components. A stroke length of the mixing shaft (208) during the raising and lowering is varied.
A MIXING SYSTEM AND MIXING ARRANGEMENT FOR BIOLOGICAL AND PHARMACEUTICAL MATERIALS A mixing system and mixing arrangement are provided. The mixing system includes a rigid container (140) including an integral support plate (145); a mixing assembly (130) supported on the integral support plate, the mixing assembly including a pliable enclosure (131) containing a fluid and a mixing device (136), a portion of the mixing device extending from the pliable enclosure and adapted to be detachably coupled to a drive mechanism (120); and a first plate (140) detachably secured to the rigid container. The pliable enclosure is in compression between the first plate and the integral support plate. The mixing arrangement includes a docking station (110) including a drive cradle (115) and a drive mechanism (120), a rigid container removably positioned within the drive cradle, a mixing assembly positioned within the rigid container, and a first plate configured to be detachably secured to the rigid container.
A mixing system and mixing arrangement are provided. The mixing system includes a rigid container including an integral support plate; a mixing assembly supported on the integral support plate, the mixing assembly including a pliable enclosure containing a fluid and a mixing device, a portion of the mixing device extending from the pliable enclosure and adapted to be detachably coupled to a drive mechanism; and a first plate detachably secured to the rigid container. The pliable enclosure is in compression between the first plate and the integral support plate. The mixing arrangement includes a docking station including a drive cradle and a drive mechanism, a rigid container removably positioned within the drive cradle, a mixing assembly positioned within the rigid container, and a first plate configured to be detachably secured to the rigid container.
A mixing system and mixing method are provided. The mixing system includes a tank assembly, a container positioned within the tank assembly, a mixer disposed within a compartment of the container, a linear motor, and a shaft having a first end secured to the mixer and an opposing second end secured to the linear motor. The linear motor provides a variable stroke length for the shaft. The mixing method includes providing a tank assembly having a linear motor, positioning a mixing assembly including a mixing bag in the tank assembly, combining two or more components in a compartment of the mixing bag, attaching a mixing shaft extending from a mixer disposed within the mixing bag to the linear motor, and raising and lowering the mixing shaft to mix the two or more components. A stroke length of the mixing shaft during the raising and lowering is varied.
A freezer bag, a storage system, and a method of freezing are provided. The freezer bag includes a pliable housing including at least one panel and a seam, the at least one panel and the seam defining a cavity within the pliable housing, a port extending from the pliable housing, and a tufting coupling opposing sides of the pliable housing, the tufting dividing the cavity into a plurality of regions.
B65D 81/18 - Réceptacles, éléments d'emballage ou paquets pour contenus présentant des problèmes particuliers de stockage ou de transport ou adaptés pour servir à d'autres fins que l'emballage après avoir été vidés de leur contenu fournissant une ambiance spécifique pour le contenu, p. ex. température supérieure ou inférieure à la température ambiante
B65D 30/16 - Sacs, sachets ou réceptacles analogues caractérisés par leur forme ou leur conception à parois d'extrémité rigides, p. ex. gardant leur forme même à vide
F25D 31/00 - Autres appareils de refroidissement ou de congélation
22.
Transportable mixing system for biological and pharmaceutical materials
A mixing system and mixing arrangement are provided. The mixing system includes a rigid container including an integral support plate; a mixing assembly supported on the integral support plate, the mixing assembly including a pliable enclosure containing a fluid and a mixing device, a portion of the mixing device extending from the pliable enclosure and adapted to be detachably coupled to a drive mechanism; and a first plate detachably secured to the rigid container. The pliable enclosure is in compression between the first plate and the integral support plate. The mixing arrangement includes a docking station including a drive cradle and a drive mechanism, a rigid container removably positioned within the drive cradle, a mixing assembly positioned within the rigid container, and a first plate configured to be detachably secured to the rigid container.
A portable test device and related method are disclosed for conducting integrity testing of flexible containers. The test is particularly useful for testing aseptic flexible film bags in a manner that maintains the sterile nature of the container and removes crinkles by inflating the containers to remove crinkles and establish an inflation set point. The decay in pressure is measured over a predetermined period of time; if pressure loss does not exceed a predetermined threshold the integrity of the bag is confirmed and it can be filled without further manipulation of the container that may result in introducing flaws.
G01M 3/32 - Examen de l'étanchéité des structures ou ouvrages vis-à-vis d'un fluide par utilisation d'un fluide ou en faisant le vide par mesure du taux de perte ou de gain d'un fluide, p. ex. avec des dispositifs réagissant à la pression, avec des indicateurs de débit pour récipients, p. ex. radiateurs
A portable flexible container integrity test device for conducting integrity testing of flexible containers is disclosed. The test device is particularly useful for testing aseptic flexible film bags in a manner that maintains the sterile nature of the container and removes crinkles by inflating the containers to remove crinkles and establish an inflation set point. The test device includes a programmable logic controller (PLC), a pressure transducer in electronic communication with the PLC, a power source configured to provide electrical power to the PLC, a blower in electronic communication with the PLC, a gas delivery pathway in selective fluid communication with the blower, and a human/machine interface in electronic communication with the PLC. The device is portable and configured to fluidly connect to a flexible container via the gas delivery pathway.
G01M 3/32 - Examen de l'étanchéité des structures ou ouvrages vis-à-vis d'un fluide par utilisation d'un fluide ou en faisant le vide par mesure du taux de perte ou de gain d'un fluide, p. ex. avec des dispositifs réagissant à la pression, avec des indicateurs de débit pour récipients, p. ex. radiateurs
25.
Pressure decay testing system and testing device for a connector and method of testing
A pressure decay testing system including a testing device for determining the reliability of connectors is provided and includes a pneumatic cylinder that raises and lowers a sealing member that closes a second end of a connector inserted in the device. A base member is adjacent pneumatic cylinder and includes a receiving surface having at least one receiving member for holding the connector. A channel is disposed therethrough though the receiving surface of the base member and aligns with an inner bore of the connector inserted in the testing device. An air line is attached to base member fluidly connecting inner bore of the connector with decay tester. Decay tester introduces a pressure differential through the channel to reach a predetermined set point pressure when the connector is closed by the testing device. Decay tester is configured to measure a change in pressure over time with respect to the predetermined set point.
G01M 3/08 - Examen de l'étanchéité des structures ou ouvrages vis-à-vis d'un fluide par utilisation d'un fluide ou en faisant le vide par détection de la présence du fluide à l'emplacement de la fuite par observation de bulles dans un bassin empli de liquide pour tuyaux, câbles ou tubesExamen de l'étanchéité des structures ou ouvrages vis-à-vis d'un fluide par utilisation d'un fluide ou en faisant le vide par détection de la présence du fluide à l'emplacement de la fuite par observation de bulles dans un bassin empli de liquide pour raccords ou étanchéité de tuyauxExamen de l'étanchéité des structures ou ouvrages vis-à-vis d'un fluide par utilisation d'un fluide ou en faisant le vide par détection de la présence du fluide à l'emplacement de la fuite par observation de bulles dans un bassin empli de liquide pour soupapes
G01M 3/26 - Examen de l'étanchéité des structures ou ouvrages vis-à-vis d'un fluide par utilisation d'un fluide ou en faisant le vide par mesure du taux de perte ou de gain d'un fluide, p. ex. avec des dispositifs réagissant à la pression, avec des indicateurs de débit
A portable test device and related method are disclosed for conducting integrity testing of flexible containers. The test is particularly useful for testing aseptic flexible film bags in a manner that maintains the sterile nature of the container and removes crinkles by inflating the containers to remove crinkles and establish an inflation set point. The decay in pressure is measured over a predetermined period of time; if pressure loss does not exceed a predetermined threshold the integrity of the bag is confirmed and it can be filled without further manipulation of the container that may result in introducing flaws.
G01M 3/26 - Examen de l'étanchéité des structures ou ouvrages vis-à-vis d'un fluide par utilisation d'un fluide ou en faisant le vide par mesure du taux de perte ou de gain d'un fluide, p. ex. avec des dispositifs réagissant à la pression, avec des indicateurs de débit
A system (10) and method for substantially automatically aseptically or non-aseptically filling a container with a fluid. The transfer of fluid occurs via a movable nozzle mechanism (20) substantially automatically inserted into a side opening (32) in a connector (12) attached to the container. More specifically, the side opening (32) in the connector (12) is exposed, the nozzle mechanism (20) is moved into the side opening (32), the fluid is transferred into the container via the nozzle mechanism (20) and the connector (12), the nozzle mechanism (20) is removed from the side opening (32) in the connector (12), and the side opening (32) in the connector (12) is closed. The aseptic transfer of fluid includes a substantially automatic sterilization procedure accomplished by both spray and contact components (54,56).
A device (10) for clamping and separating a length of tubing. The device (10) comprises first and second subassemblies (12,14) for, in their closed positions, clamping the tubing at first and second locations, respectively, and at least weakening the tubing for subsequent separation. The subassemblies (12,14) face each other and are connected by a breakable connection. Each subassembly (12,14) includes clamping elements (26,34) for clamping the tubing, a perforating or cutting element (28) for perforating or otherwise weakening or cutting the tubing, and locking elements (24,32) for locking the subassembly (12,14) in the closed position. The perforating element (28) may be at least one hard plastic or metal spike. Once each subassembly (12,14) is locked in the closed position, the breakable connection is broken to result in respective lengths of clamped tubing.
B26D 7/02 - Moyens pour maintenir ou mettre en position la pièce comportant des moyens de serrage
B23K 37/04 - Dispositifs ou procédés auxiliaires non spécialement adaptés à un procédé couvert par un seul des autres groupes principaux de la présente sous-classe pour maintenir ou mettre en position les pièces
29.
Device and method for accessing fluid in container
A device (10) and method for aseptically or non-aseptically accessing a fluid in a container (210) using an existing container opening (211). The device (10) includes a sanitary fitting (12) for attaching the device to the container over the existing container opening, and a sample coupling (14) associated with the sanitary fitting. The sanitary fitting (12) includes a first port (32), and the sample coupling (14) includes at least two second ports (52). The sample coupling (14) is rotatable relative to the sanitary fitting (12) in one direction to cause the first port (32) to successively align with each of the second ports (52), and thereby allows access to the fluid through the aligned first and second ports (32,52).
A system (10) and method for substantially automatically aseptically or non-aseptically filling a container with a fluid. The transfer of fluid occurs via a movable nozzle mechanism (20) substantially automatically inserted into a side opening (32) in a connector (12) attached to the container. More specifically, the side opening (32) in the connector (12) is exposed, the nozzle mechanism (20) is moved into the side opening (32), the fluid is transferred into the container via the nozzle mechanism (20) and the connector (12), the nozzle mechanism (20) is removed from the side opening (32) in the connector (12), and the side opening (32) in the connector (12) is closed. The aseptic transfer of fluid includes a substantially automatic sterilization procedure accomplished by both spray and contact components (54,56).
brevets
