An axial bearing for absorbing high axial loads of a shaft has a support structure and a load transmission device for transmitting the load from the shaft to the support structure. The support structure includes a bearing plate, a plurality of spring elements, and a plurality of bearing shoes. The spring elements are supported on the bearing plate and arranged in groups, and each group of spring elements being covered by a bearing shoe. The load transmission device is firmly connected to the shaft and has a tracking ring which is arranged such that the tracking ring can rotate on the bearing shoes. The bearing plate and the tracking ring are in each case arranged concentrically with the shaft, and the axial bearing has an advantageously designed measuring device for measurement of the mean distance between the bearing plate and a bearing shoe.

An axial bearing for absorbing high axial loads of a shaft has a support structure and a load transmission device for transmitting the load from the shaft to the support structure. The support structure includes a bearing plate, a plurality of spring elements, and a plurality of bearing shoes. The spring elements are supported on the bearing plate and arranged in groups, and each group of spring elements being covered by a bearing shoe. The load transmission device is firmly connected to the shaft and has a tracking ring which is arranged such that the tracking ring can rotate on the bearing shoes. The bearing plate and the tracking ring are in each case arranged concentrically with the shaft, and the axial bearing has an advantageously designed measuring device for measurement of the mean distance between the bearing plate and a bearing shoe.

An axial bearing for absorbing high axial loads of a shaft has a support structure and a load transmission device for transmitting the load from the shaft to the support structure. The support structure includes a bearing plate, a plurality of spring elements, and a plurality of bearing shoes. The spring elements are supported on the bearing plate and arranged in groups, and each group of spring elements being covered by a bearing shoe. The load transmission device is firmly connected to the shaft and has a tracking ring which is arranged such that the tracking ring can rotate on the bearing shoes. The bearing plate and the tracking ring are in each case arranged concentrically with the shaft, and the axial bearing has an advantageously designed measuring device for measurement of the mean distance between the bearing plate and a bearing shoe.

The present application discloses a bearing structural member, a support, a joint assembly and a tube section assembly, wherein the maximum counter force provided by the bearing structural member under an external load is an own designed threshold value, namely when the external load is greater than the designed threshold value of the bearing structural member, the bearing structural member deforms, and provides a counter force equal to the designed threshold value; the support includes at least one bearing structural member; and the joint assembly and the tube section assembly are both equipped with the support. When the external load is not high and is less than the designed threshold value, the bearing structural member may effectively suppress the deformation just like a rigid structural member; when the external load exceeds the designed threshold value, the bearing structural member may deform, and provide a stable counter supporting force less than the external load. The bearing structural member may be applied to the support, the joint assembly and the tube section assembly, plays a role in protecting the structures or key structural components, and may be widely applied to the fields of design of bridges, design of building structures, design of tunnels and the like.

The present application discloses a bearing structural member, a support, a joint assembly and a tube section assembly, wherein the maximum counter force provided by the bearing structural member under an external load is an own designed threshold value, namely when the external load is greater than the designed threshold value of the bearing structural member, the bearing structural member deforms, and provides a counter force equal to the designed threshold value; the support includes at least one bearing structural member; and the joint assembly and the tube section assembly are both equipped with the support. When the external load is not high and is less than the designed threshold value, the bearing structural member may effectively suppress the deformation just like a rigid structural member; when the external load exceeds the designed threshold value, the bearing structural member may deform, and provide a stable counter supporting force less than the external load. The bearing structural member may be applied to the support, the joint assembly and the tube section assembly, plays a role in protecting the structures or key structural components, and may be widely applied to the fields of design of bridges, design of building structures, design of tunnels and the like.

The valve includes a valve body that inwardly defines a passage for circulation of a fluid, a drive shaft, and a bearing to guide the rotation of the drive shaft. The bearing comprises a chamber surrounding a segment of the drive shaft and a plurality of balls filling the chamber. The balls are free inside the chamber, and the chamber is completely filled with balls. The balls are in contact with the drive shaft along all or part of the segment.

The valve includes a valve body that inwardly defines a passage for circulation of a fluid, a drive shaft, and a bearing to guide the rotation of the drive shaft. The bearing comprises a chamber surrounding a segment of the drive shaft and a plurality of balls filling the chamber. The balls are free inside the chamber, and the chamber is completely filled with balls. The balls are in contact with the drive shaft along all or part of the segment.

A electric swivel, LVES, in a swivel stack, includes an annular outer element defining a cylindrical chamber around an axis S and an cylindrical inner element coaxial with the outer element. The cylindrical chamber is sealed at an upper side with an annular cover and is configured for rotation relative to the inner and outer element around the axis S. The inner element includes at an inner radial side first and second bearing parts defining an inner bearing. The outer element includes at an outer radial side first and second bearing parts defining an outer bearing. The inner bearing includes an inner annular interface between the first and second bearing parts, the outer bearing includes an outer annular interface between the first and second bearing parts. Each of the annular interfaces is coaxial with the inner and outer element, and each annular interface is configured as a flame conducting path.

A tensioning arrangement for a bearing ring, which introduces a compressive force towards a rotational centre of the bearing ring, to prevent the bearing ring distorting as a shaft supported by the bearing turns. The tensioner arrangement includes a strap and a tensioner. The strap has a connector at each end, and tensioner has an element for connecting to the connectors. The tensioner also has an element for applying tension to the strap. In use, the strap is arranged around the bearing ring and a circumferential length of the strap in contact with the bearing ring is reduced, thereby applying compressive force to the bearing ring.

A tensioning arrangement for a bearing ring, which introduces a compressive force towards a rotational centre of the bearing ring, to prevent the bearing ring distorting as a shaft supported by the bearing turns. The tensioner arrangement includes a strap and a tensioner. The strap has a connector at each end, and tensioner has an element for connecting to the connectors. The tensioner also has an element for applying tension to the strap. In use, the strap is arranged around the bearing ring and a circumferential length of the strap in contact with the bearing ring is reduced, thereby applying compressive force to the bearing ring.