Abstract: A seal member for an aseptic coupling device includes a cross-sectional area including a first end portion, a middle portion, and a second end portion opposite the first end portion, the middle portion being thinner in radial dimension than the first and second end portions.
Abstract: A system includes a body with a fluid passage therethrough, a first open end, and an opposite termination, a valve positioned within the body and including first and second ends, the valve moving between open and closed positions, the valve being biased into the closed position, and a seal positioned on the second end of the valve, the seal forming the closed position when the valve is biased towards the first open end of the body, and the seal engaging a shoulder formed by the body to retain the valve within the body. The seal is accessible from the termination of the body to allow the valve to be coupled to the body.
Abstract: An assembly for a fluid transfer system includes: a connector having a proximal end and an opposite distal end connected by an inner passage; and a container having an internal fluid reservoir. The connector is coupled to the internal fluid reservoir of the container to form a series fluid connection between the inner passage and the internal fluid reservoir, and the connector and the container are made of a biodegradable material.
Abstract: A combination cap and plug assembly. A cap portion of the assembly is used to stop flow of material through a male coupling, and a plug portion is used to stop flow of material through a female coupling. The combination cap and plug assembly includes a tether that allows the assembly to be coupled to hose or tubing that is connected to the male and female coupling.
Abstract: An assembly for estimating consumption of a fluid includes a coupling device enabling fluid flow, a carrier assembly slidingly coupled to the coupling device, a biasing mechanism positioned between the coupling device and the carrier assembly, and a displacement sensing mechanism including a sensor coupled to one of the coupling device and the carrier assembly, and a magnet coupled to the other of the coupling device and the carrier assembly. The displacement sensing mechanism is configured to sense a displacement of the magnet relative to the sensor due to coupling of a fluid source to the coupling device.
Abstract: A hinge coupling assembly includes a first coupling incorporated within a first hinge section coupled to a door, including a first end and an opposite second end connecting a first coupling passage formed within the first coupling, and a second coupling incorporated within a second hinge section separate from the first hinge section and coupled to a door frame, the second coupling including a first end and an opposite second end connecting a second coupling passage formed within the second coupling. Connection and disconnection of the first coupling to the second coupling to create a single sealed continuous passage formed by the first coupling passage and second coupling passage is simultaneous upon installation and removal of the door to the door frame. The sealed continuous passage is maintained upon radial and axial displacement of the first coupling with respect to the second coupling upon opening and closing of the door.
Type:
Application
Filed:
September 15, 2010
Publication date:
March 17, 2011
Applicant:
COLDER PRODUCTS COMPANY
Inventors:
Dennis Daniel Downs, Jaime Richard Erickson
Abstract: A coupling device includes a main body defining a fluid flow passage, and a valve member moveable between an unconnected state and a connected state. The coupling device also includes a magnet coupled to the valve member, and a sensor coupled to the main body, the sensor being configured to sense a change in a magnetic flux of the magnet as the valve member moves between the unconnected state and the connected state to determine a connection state of the coupling device.
Abstract: A coupling apparatus having coupling body with a mechanical latch assembly. The mechanical latch assembly includes a modified latch plate. The latch plate defines a main portion having a top end and a bottom end and includes an annular aperture disposed between the top and bottom ends. A lever portion is disposed proximate the top end. The lever portion enables the latch plate to move within a coupling body, so as to operate the mechanical latch assembly in a released position and a latched position. A raised edge is disposed about a portion of the annular aperture. The raised edge is disposed proximate the bottom end and extends radially inward of the inner edge defined by the annular aperture. A pin opening is disposed proximate the bottom end opposite of the lever portion. The pin opening is positioned radially outward from the annular aperture, and defines a separate enclosed edge.
Abstract: Formation of a sterile connection includes inserting a first aseptic coupling device into a second aseptic coupling device, removing a first membrane from the first aseptic coupling device and a second membrane from the second aseptic coupling device, and rotating a locking clip on the first aseptic coupling device to compress a first seal member of the first aseptic coupling device with a second seal member of the second aseptic coupling device to form a sterile fluid passageway.
Type:
Application
Filed:
March 15, 2010
Publication date:
September 16, 2010
Applicant:
COLDER PRODUCTS COMPANY
Inventors:
Randall Scott Williams, Patrick Thomas Gerst, Jeremy Henry Nichols
Abstract: A poppet valve member includes a main body, and a cover portion disposed at the first end of the valve member. The cover portion is removable from the main body, the cover portion including a first seal disposed about an outer perimeter of the cover portion. The valve member includes a head portion disposed proximate the first end and behind the cover portion, the head portion including a second seal disposed about an outer perimeter defined by the head portion. A webbing portion is disposed between the cover portion and the head portion, the webbing portion including a fault structure to enable the cover portion to be removed from the main body and broken off from the head portion. The main body is formed of a molded material, and the first and second seals are formed of an overmold material molded onto the main body.
Abstract: A coupling apparatus having coupling body with a mechanical latch assembly. The mechanical latch assembly includes a modified latch plate. The latch plate defines a main portion having a top end and a bottom end and includes an annular aperture disposed between the top and bottom ends. A lever portion is disposed proximate the top end. The lever portion enables the latch plate to move within a coupling body, so as to operate the mechanical latch assembly in a released position and a latched position. A raised edge is disposed about a portion of the annular aperture. The raised edge is disposed proximate the bottom end and extends radially inward of the inner edge defined by the annular aperture. A pin opening is disposed proximate the bottom end opposite of the lever portion. The pin opening is positioned radially outward from the annular aperture, and defines a separate enclosed edge.
Abstract: A connector apparatus for controlling fluid dispensing/transmission that includes a control component for communication between couplers thereof. A first coupler has a transmitter, and is releasably connected with a mating reader coupler that has a transmitter and fluid control device to exchange information with the transmitter of the first coupler. The transmitters communicate and are operated by wireless means such as by RF devices. Upon confirming that the first coupler is properly coupled to the mating coupler and that the first coupler has a proper identification, the fluid control device controls fluid flow, using the transmitters of the first coupler and the mating reader coupler, under predetermined parameters, e.g., pressure, temperature, duration, and flow rate, as indicated in the first coupler.
Type:
Grant
Filed:
February 9, 2005
Date of Patent:
January 19, 2010
Assignee:
Colder Products Company
Inventors:
Richard Stewart Garber, Charles Peter deCler, David W. Meyer
Abstract: An assembly for estimating consumption of a fluid includes a coupling device enabling fluid flow, a carrier assembly slidingly coupled to the coupling device, a biasing mechanism positioned between the coupling device and the carrier assembly, and a displacement sensing mechanism including a sensor coupled to one of the coupling device and the carrier assembly, and a magnet coupled to the other of the coupling device and the carrier assembly. The displacement sensing mechanism is configured to sense a displacement of the magnet relative to the sensor due to coupling of a fluid source to the coupling device.
Abstract: A container insert having at least two primary pieces, wherein one of the pieces includes keying features that may be replaceable with other pieces having different keying features. A related single piece container insert includes multiple keying features formed on the interior and exterior surfaces of the container insert. A related coupling assembly includes a venting system that vents a fluid into the container after a valve in the coupling assembly, which is positioned in the container contents flow path, has been opened.
Type:
Grant
Filed:
June 16, 2011
Date of Patent:
June 25, 2013
Assignee:
Colder Products Company
Inventors:
Richard Chadbourne, Thomas Anthony Braun, Charles Peter deCler, Brian J. Blenkush