A telescopable spring support which comprises a housing, a pressure plate, a load pipe, and a pressure spring and which is designed to elastically support components in a load direction. The housing has a stand side and an upper side, and the pressure plate is arranged in the housing and can be moved within the housing in the load direction. The pressure spring is arranged between the pressure plate and the stand side and applies a spring force to the pressure plate, said spring force being directed towards the upper side in the load direction. The load pipe is connected to the pressure plate and, in each position of the pressure plate, extends outwards from the interior of the housing through an opening arranged on the upper side of the housing. The housing comprises a stand housing and a movable housing. The movable housing can be moved towards the stand housing in the load direction, wherein the stand housing has a stand side, and the movable housing has the opening.

An apparatus having a flexible conduit which includes a flexible member and a rigid member in fluid communication with the flexible member, and a releasable connector. The releasable connector has a first member and a second member. When a releasing force is applied to the flexible conduit, the releasable connector separates. The apparatus also includes a shock absorber to configured to absorb a load when the releasable connector separates. The shock absorber may include elastomeric pads between rigid plates, a rotary dampener, a spring, rod and piston, or an elastic strap.

An apparatus for supporting a flexible conduit which includes a flexible member and a rigid member in fluid communication with the flexible member. The apparatus has a releasable connector and a shock absorber. The releasable connector has a first member and a second member. When a releasing force is applied to the flexible conduit, the releasable connector separates. The shock absorber is configured to absorb a load when the releasable connector separates. The shock absorber may include a compressible material that includes a metal, such as a metal foam or a corrugated metal sheet. The releasable connector and the shock absorber may be integrally formed together.

An apparatus having a flexible conduit which includes a flexible member and a rigid member in fluid communication with the flexible member, and a releasable connector. The releasable connector has a first member and a second member. When a releasing force is applied to the flexible conduit, the releasable connector separates. The apparatus also includes a shock absorber to configured to absorb a load when the releasable connector separates. The shock absorber may include elastomeric pads between rigid plates, a rotary dampener, a spring, rod and piston, or an elastic strap.

A fixture has a pedestal set on a wall by a fixing device, a bracing plate is fixedly connected to a side wall of the pedestal away from the wall, an upper end of the bracing plate is provided with a supporting device, a lifting recess is provided on a side wall of the pedestal away from the wall, an end of the lifting recess away from the bracing plate penetrates the pedestal, a lifting block is slidingly connected to the lifting recess, an end of the lifting block away from the lifting recess is fixedly connected with a clamping plate, the clamping plate is provided with a clamping device, a threaded hole is provided at an end of the clamping plate away from the lifting block.

A sliding pipe supporting arrangement (2) adapted to receive and support at least one pipe or jacketed pipe assembly comprising main support means (9) comprising at least one opening to support a pipe. The arrangement further comprises an assembly of spring arrangement (6) and ball transfer unit (7), coupled to the main support means so as to isolate differential displacement in lateral and vertical direction of the pipe. The assembly unit comprises a top plate (3), middle plate (4) and a bottom plate (5). The spring arrangement further comprises a plurality of springs positioned in between the top plate (3) and the middle plate (4) facilitating the vertical displacement of the pipe. The ball transfer unit (4) also comprises plural rollers positioned between the bottom plate (4) and middle plate (5) facilitating lateral displacement of the pipe and an expansion joint arrangement (8) placed in between pipe lengths of a pipe to attenuate the axial displacement of the said pipe.

A spring carrier comprising a casing tube having a longitudinal axis; a spring plate, a base plate and a spring disposed inside the casing tube between an upper and a lower boundary element; the lower boundary element having a projection arrangement having retaining projections disposed on the casing tube; the base plate having a recess arrangement on an outer surface facing the casing tube; wherein the projection arrangement and the recess arrangement are arranged such that, in a mounting situation, all the retaining projections are disposed next to the base plate and, in an operational situation, the projection arrangement overlaps with the base plate, wherein a locking projection is disposed inside the casing tube and the base plate has locking recesses facing the casing tube, wherein the locking projection is disposed inside a first locking recess in the mounting situation and a second locking recess in the operational situation.

A connector assembly includes a shank having an inner abutment proximate to an inner extremity, and an outer abutment proximate to an outer extremity. A connector includes an inner loop that encircles the shank between the inner abutment and the outer abutment and that is movable reciprocally along the shank, a first portion that extends outwardly from the inner loop to a second portion that extends from the first portion past the outer extremity and the abutment to a third portion that extends inwardly and forwardly from the second portion to a pivotally mountable outer loop. Tensioned compression springs encircle the shank between the inner abutment and the inner loop, and act between the inner abutment and the inner loop urging the inner loop toward the outer abutment.

A sliding pipe supporting arrangement (2) adapted to receive and support at least one pipe or jacketed pipe assembly comprising main support means (9) comprising at least one opening to support a pipe. The arrangement further comprises an assembly of spring arrangement (6) and ball transfer unit (7), coupled to the main support means so as to isolate differential displacement in lateral and vertical direction of the pipe. The assembly unit comprises a top plate (3), middle plate (4) and a bottom plate (5). The spring arrangement further comprises a plurality of springs positioned in between the top plate (3) and the middle plate (4) facilitating the vertical displacement of the pipe. The ball transfer unit (4) also comprises plural rollers positioned between the bottom plate (4) and middle plate (5) facilitating lateral displacement of the pipe and an expansion joint arrangement (8) placed in between pipe lengths of a pipe to attenuate the axial displacement of the said pipe.

A device for fixing components, particularly pipes or tubes, includes two fixing parts with recesses, which can be connected to each other, the parts forming a bushing in the mounted state, the inner contour thereof being designed to receive a pipe or a tube, at least one sacrificial element being arranged for minimizing corrosion, particularly crevice corrosion, in the event of a respectively received component being increasingly consumed with the onset of corrosion and reduction of the service life of the fixation. At least one fixing part includes at least one recess which opens up into the inner contour of the bushing and in which at least one sacrificial element is movably arranged, the sacrificial element being pre-stressed in the direction of the bushing by a spring element.