The present teachings include techniques for securing a connection to a dialyzer or the like—e.g., securing the junction between a dialyzer port and a connector (e.g., a DIN connector) that couples the port to tubing of an extracorporeal circuit of a hemodialysis system. To this end, a locking device may engage both a DIN connector and a portion of the dialyzer, such as the cap or an adapter engaged therewith. The locking device may include an interior void sized and shaped to accommodate winged portions (or other portions) of the DIN connector to mitigate rotation thereof relative to the port to which it is engaged. Further, the locking device may be used to ensure that coupling between the DIN connector and the port is proper and secure. In this manner, a locking device can mitigate leaks, which can be catastrophic during a hemodialysis treatment or the like.

The present teachings include techniques for securing a connection to a dialyzer or the like—e.g., securing the junction between a dialyzer port and a connector (e.g., a DIN connector) that couples the port to tubing of an extracorporeal circuit of a hemodialysis system. To this end, a locking device may engage both a DIN connector and a portion of the dialyzer, such as the cap or an adapter engaged therewith. The locking device may include an interior void sized and shaped to accommodate winged portions (or other portions) of the DIN connector to mitigate rotation thereof relative to the port to which it is engaged. Further, the locking device may be used to ensure that coupling between the DIN connector and the port is proper and secure. In this manner, a locking device can mitigate leaks, which can be catastrophic during a hemodialysis treatment or the like.

The disclosure relates to a spring clamp, having a clamp band and a positioning device for pre-positioning the spring clamp on a hose end of a hose. The positioning device having a support band and a contact region, and the support band having. The positioner having a fixing means arranged at the end of the support band, and the support band having a retainer at another end of the support band. A web is formed in the support band between the contact region and the positioner. The support band has at least two regions in the region of the positioner, the first region extending from the web away from the clamp band and the second region extending substantially perpendicularly from the first region.

A tube connector includes a base, a circuit engagement portion, an ETT engagement portion, a first engagement arm, and a second engagement arm. The circuit engagement portion extends from the base in an inflow direction The ETT engagement portion extends from the base in an outflow direction. The first engagement arm extends from the base in the outflow direction, is located on a first side of the ETT engagement portion, and is spaced apart from the ETT engagement portion such that a first gap is defined between the first engagement arm and the ETT engagement portion. The second engagement arm extends from the base in the outflow direction, is located on a second side of the ETT engagement portion, and is spaced apart from the ETT engagement portion such that a second gap is defined between the second engagement arm and the ETT engagement portion.

A tube connector includes a base, a circuit engagement portion, an ETT engagement portion, a first engagement arm, and a second engagement arm. The circuit engagement portion extends from the base in an inflow direction The ETT engagement portion extends from the base in an outflow direction. The first engagement arm extends from the base in the outflow direction, is located on a first side of the ETT engagement portion, and is spaced apart from the ETT engagement portion such that a first gap is defined between the first engagement arm and the ETT engagement portion. The second engagement arm extends from the base in the outflow direction, is located on a second side of the ETT engagement portion, and is spaced apart from the ETT engagement portion such that a second gap is defined between the second engagement arm and the ETT engagement portion.

Provided herein is a fluid duct (8) comprising a fluid duct connection end portion (12) for coupling to a component connection end portion (4) via a sealing ring (6), the fluid duct connection end portion comprising a clamping ring seat (14) configured for receiving an adjustable clamping ring therearound, the clamping ring seat (14) extending axially (A) between an entry flange (16) and a tube joining section (18), the tube joining section (18) extending into a fluid duct tube portion (10). The clamping ring seat (14) comprises an extension fold (20) configured to allow the clamping ring seat (14) to expand radially due to a widening of the expansion fold (20).

Provided herein is a fluid duct (8) comprising a fluid duct connection end portion (12) for coupling to a component connection end portion (4) via a sealing ring (6), the fluid duct connection end portion comprising a clamping ring seat (14) configured for receiving an adjustable clamping ring therearound, the clamping ring seat (14) extending axially (A) between an entry flange (16) and a tube joining section (18), the tube joining section (18) extending into a fluid duct tube portion (10). The clamping ring seat (14) comprises an extension fold (20) configured to allow the clamping ring seat (14) to expand radially due to a widening of the expansion fold (20).

A quick connector coupling for making a severable connection with a male member and a female tube in a fluid line includes a connector body having a through bore for receiving the male member having a tubular shape sized to extend into the through bore of the connector body and having an upset, a retainer releasably securing the male member within the connector body, and a verifier including an antenna having a contact point and moving between a latched position and an unlatched position inside the connector body. The connector body includes a radio frequency identification (RFID) chip having a signal, which is enabled to read through the antenna when the contact point of the antenna contacts the RFID chip of the connector body in the latched position of the verifier.

A quick connector coupling for making a severable connection with a male member and a female tube in a fluid line includes a connector body having a through bore for receiving the male member having a tubular shape sized to extend into the through bore of the connector body and having an upset, a retainer releasably securing the male member within the connector body, and a verifier including an antenna having a contact point and moving between a latched position and an unlatched position inside the connector body. The connector body includes a radio frequency identification (RFID) chip having a signal, which is enabled to read through the antenna when the contact point of the antenna contacts the RFID chip of the connector body in the latched position of the verifier.

The present invention relates to a band winding type hose clamp which is not released by vibrations or the like generated by an engine or movement of a vehicle, has a calibration function for, when the diameter of a hose is changed by aging due to long-tem use thereof, calibrating the same so as to prevent loss of the clamping force, and has a relatively simple structure. The band winding type hose clamp comprises: a body part engaged with and fixed to one end of a band; a winding part which is rotatably coupled to the body part, into which the other end of the band surrounding the outer periphery of the hose is inserted, and which is rotated by an external force to wind the other end of the band, whereby the band presses and closely contacts the outer periphery of the hose; and a cover part which is hingedly coupled to the body part spaced apart from the winding part while one end of the cover part is engaged with the winding part, and which selectively restrains the rotation of the winding part so as to maintain the elastic force of the band pressing the outer periphery of the hose.