A spring clamp with integrated installation and removal capability allows a user to install or remove the spring clamp safely using common shop tools or by hand. The spring clamp includes two tangs with a fastener extending between them. The fastener may be used to draw the tangs together or apart, to thereby open or close the spring clamp, and to safely change the potential energy of the spring clamp. The user may turn the fastener or a nut on the fastener using common shop tools or by hand to expand the spring clamp so that it can be slipped over a hose and to allow the spring clamp to tighten around the hose.

A clamp serves to fasten a shield member to a tubular portion of a shield shell using the elastic restoring force of the clamp. The clamp includes an annular clamp body and a pair of tabs. The tubular portion includes a tubular outer contour having two straight sections and two curved sections in a cross-sectional view. The clamp body includes a straight corresponding section corresponding to one of the straight section of the tubular portion and curved corresponding sections corresponding to the curved sections. The straight corresponding section is configured to bend less easily than the curved corresponding sections.

A profiled clamp for assembling on pipe ends, having a first half-shell and a second half-shell, each of which has a clamping head at a first end and a connection geometry at a second end for releasably connecting the second end. The clamping heads are connected to a clamping element, and at least one of the two half-shells can be tilted relative to the clamping element. A spring element is arranged in the region of the clamping heads, said spring element pushing the second ends of the half-shells apart under pretension. Contact regions of the spring element can be positioned on the pipe ends in a frictionally locking manner when connecting the two ends.

A profiled clamp for assembling on pipe ends, having a first half-shell and a second half-shell, each of which has a clamping head at a first end and a connection geometry at a second end for releasably connecting the second end. The clamping heads are connected to a clamping element, and at least one of the two half-shells can be tilted relative to the clamping element. A spring element is arranged in the region of the clamping heads, said spring element pushing the second ends of the half-shells apart under pretension. Contact regions of the spring element can be positioned on the pipe ends in a frictionally locking manner when connecting the two ends.

A joint assembly configured to be connected to tube and including first joint, second joint and engagement sleeve. First joint has channel and engagement recess. Engagement recess is located in channel of first joint. Second joint has first end, second end and channel. Second end is opposite to first end. Channel of second joint extends from first end to second end. First end of second joint is inserted into tube. Engagement sleeve is sleeved on tube. Tube is at least partially clamped by engagement sleeve and first end of second joint. Engagement sleeve has engagement structure located at an end of engagement sleeve. Engagement structure of engagement sleeve is engaged with engagement recess of first joint so that second end of second joint is bonded to first joint. Channel of first joint is in fluid communication with channel of second joint.

A joint assembly configured to be connected to tube and including first joint, second joint and engagement sleeve. First joint has channel and engagement recess. Engagement recess is located in channel of first joint. Second joint has first end, second end and channel. Second end is opposite to first end. Channel of second joint extends from first end to second end. First end of second joint is inserted into tube. Engagement sleeve is sleeved on tube. Tube is at least partially clamped by engagement sleeve and first end of second joint. Engagement sleeve has engagement structure located at an end of engagement sleeve. Engagement structure of engagement sleeve is engaged with engagement recess of first joint so that second end of second joint is bonded to first joint. Channel of first joint is in fluid communication with channel of second joint.

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.

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 joint assembly configured to be connected to a tube and including a first joint, a second joint and an engagement sleeve. The first joint has a channel and an engagement recess. The engagement recess is located in the channel of the first joint. The second joint has a first end, a second end and a channel. The second end is opposite to the first end. The channel of the second joint extends from the first end to the second end. The first end of the second joint is inserted into the tube. The engagement sleeve is sleeved on the tube. The tube is at least partially clamped by the engagement sleeve and the first end of the second joint. The engagement sleeve has an engagement structure located at an end of the engagement sleeve.

A joint assembly configured to be connected to a tube and including a first joint, a second joint and an engagement sleeve. The first joint has a channel and an engagement recess. The engagement recess is located in the channel of the first joint. The second joint has a first end, a second end and a channel. The second end is opposite to the first end. The channel of the second joint extends from the first end to the second end. The first end of the second joint is inserted into the tube. The engagement sleeve is sleeved on the tube. The tube is at least partially clamped by the engagement sleeve and the first end of the second joint. The engagement sleeve has an engagement structure located at an end of the engagement sleeve.