An improved hose clamp having an annular band having an inner face, tensioning means, and an annular spring liner; the spring liner having a circumferential shoulder near an edge of the liner; and a central, cylindrical, flat, contact portion of smaller circumference than the shoulder, and of smaller width than the inner face of the band. The shoulder is adapted to abut the inner face and the contact portion is adapted to contact a hose or other article to be clamped.

The invention relates to a clamp, comprising a clamp band and a pre-positioner, wherein the pre-positioner is designed as a supporting band, which has a partial-circle-shaped region, which extends over more than 180. In order to enable simple production and to prevent loss of the pre-positioner, the supporting band has, at each end thereof, a fastening region bent in relation to the partial-circle-shaped region, wherein the fastening regions are fastened on the same side of the clamp band.

The invention relates to a clamp, comprising a clamp band and a pre-positioner, wherein the pre-positioner is designed as a supporting band, which has a partial-circle-shaped region, which extends over more than 180. In order to enable simple production and to prevent loss of the pre-positioner, the supporting band has, at each end thereof, a fastening region bent in relation to the partial-circle-shaped region, wherein the fastening regions are fastened on the same side of the clamp band.

A pipe joint includes a joint main body comprising a nipple disposed in such a manner that a distal end is directed to one side in an axial direction and a hose clamp holding portion provided at a proximal end of the nipple and configured to be brought into abutment with an inner circumferential surface of a hose clamp which is biased in a diametrically narrowing direction so as to hold the hose clamp in a diametrically expanded state.

A pipe joint includes a joint main body comprising a nipple disposed in such a manner that a distal end is directed to one side in an axial direction and a hose clamp holding portion provided at a proximal end of the nipple and configured to be brought into abutment with an inner circumferential surface of a hose clamp which is biased in a diametrically narrowing direction so as to hold the hose clamp in a diametrically expanded state.

An improved hose clamp having an annular band having an inner face, tensioning means, and an annular spring liner; the spring liner having a circumferential shoulder near an edge of the liner; and a central, cylindrical, flat, contact portion of smaller circumference than the shoulder, and of smaller width than the inner face of the band. The shoulder is adapted to abut the inner face and the contact portion is adapted to contact a hose or other article to be clamped.

The collar has a metal belt (10), a pair of projecting lugs (12, 14), a tightening rod (16) disposed in holes in the lugs, and tightening members (16A, 16B) co-operating with the rod and with bearing portions of the lugs. At least one of the lugs in the pair is a lug (14) having an extension, the bearing portion of which lug is formed in an extension (17) of the lug, which extension is folded over towards the rear of the lug, and is provided with a hole for the tightening rod. The extension (17) and the front portion (15) of the lug (14) having an extension are interconnected via a strip portion (20) forming a link loop defining an axial tunnel having its two axial ends open, the tunnel being shaped so that the angle of inclination between the extension (17) and the front portion (15) of the lug can change when the collar is tightened.

The collar has a metal belt (10), a pair of projecting lugs (12, 14), a tightening rod (16) disposed in holes in the lugs, and tightening members (16A, 16B) co-operating with the rod and with bearing portions of the lugs. At least one of the lugs in the pair is a lug (14) having an extension, the bearing portion of which lug is formed in an extension (17) of the lug, which extension is folded over towards the rear of the lug, and is provided with a hole for the tightening rod. The extension (17) and the front portion (15) of the lug (14) having an extension are interconnected via a strip portion (20) forming a link loop defining an axial tunnel having its two axial ends open, the tunnel being shaped so that the angle of inclination between the extension (17) and the front portion (15) of the lug can change when the collar is tightened.

The present teachings include techniques for securing a connection to a dialyzer or the likee.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 likee.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.