A heat insulation pipe includes an inner pipe and an outer pipe. The inner pipe includes a pair of inner pipe members spaced apart from each other in an axial direction of the inner pipe, a first bellows disposed between the pair of inner pipe members, and a restriction mechanism for restricting expansion and contraction of the inner pipe in the axial direction to a predetermined range. The restriction mechanism is slidable with respect to at least one of a pair of bulging portions. The outer pipe includes a pair of outer pipe members each including a second bellows, and a second cylindrical portion housing the first bellows and the restriction mechanism.

A heat insulation pipe includes an inner pipe and an outer pipe. The inner pipe includes a pair of inner pipe members spaced apart from each other in an axial direction of the inner pipe, a first bellows disposed between the pair of inner pipe members, and a restriction mechanism for restricting expansion and contraction of the inner pipe in the axial direction to a predetermined range. The restriction mechanism is slidable with respect to at least one of a pair of bulging portions. The outer pipe includes a pair of outer pipe members each including a second bellows, and a second cylindrical portion housing the first bellows and the restriction mechanism.

The present invention describes a flexible conduit element with an end portion suitable for attachment to a rigid conduit element. The flexible conduit element comprises: a bellows member; an interlock member; an outer fixing member; and an connection nozzle, where, in an axial cross section at an end portion of the flexible conduit element, the outer fixing member is disposed outside of the bellows member, the bellows member is disposed outside of the interlock member, and the interlock member is disposed outside of the connection nozzle, and a gas-tight seal connects the bellows member and the connection nozzle. A method of assembly such a flexible conduit element is also disclosed.

The current invention comprises a flexible conduit means for an exhaust system of a combustion engine vehicle, comprising a bellows member (2), an outer flexible braided or knitted member (3) enclosing the bellows member, a resilient member (4), that is elastically deformable and encloses the outer braided or knitted member at least partially and abuts against it, whereas the bellows member comprises two corrugated portions (21), a connecting portion (24) between the corrugated portions, and the resilient member (4) encloses the connecting portion at least partially, the connecting portion (24) comprises flanks (25) that are formed at its axial ends and extend at least in a radial direction, and a curved portion (26) which connects the flanks with each other and which is at least partially enclosed by the resilient member (4).

A solar heat collection tube includes a center metal tube that allows a heat medium to flow therethrough, a glass tube that covers the outer circumference of the center metal tube to form an annular void between the glass tube and the center metal tube, and an absorber configured to absorb a difference in the thermal expansion between the center metal tube and the glass tube. The absorber has a connection cylinder and metal bellows. The metallic bellows are connected in series by the connection cylinder. The bellows are arranged to overlap in the radial direction with the connection cylinder located therebetween.

A solar heat collection tube includes a center metal tube that allows a heat medium to flow therethrough, a glass tube that covers the outer circumference of the center metal tube to form an annular void between the glass tube and the center metal tube, and an absorber configured to absorb a difference in the thermal expansion between the center metal tube and the glass tube. The absorber has a connection cylinder and metal bellows. The metallic bellows are connected in series by the connection cylinder. The bellows are arranged to overlap in the radial direction with the connection cylinder located therebetween.

A compensator, having a first corrugated bellows section, a second corrugated bellows section, an intermediate pipe section positioned between the first corrugated bellows section and the second corrugated bellows section, a first attachment flange, and a second attachment flange. The first corrugated bellows section engages the first attachment flange and intermediate pipe section. The second corrugated bellows section engages the second attachment flange and intermediate pipe section. An intermediate flange is positioned between the first attachment flange and the second attachment flange and surrounds the intermediate pipe section at the outside without a a rigid connection to the intermediate pipe section. The intermediate flange is connected by first tension rods to the first attachment flange and by second tension rods to the second attachment flange.

The current invention comprises a flexible conduit means for an exhaust system of a combustion engine vehicle, comprising a bellows member (2), an outer flexible braided or knitted member (3) enclosing the bellows member, a resilient member (4), that is elastically deformable and encloses the outer braided or knitted member at least partially and abuts against it, whereas the bellows member comprises two corrugated portions (21), a connecting portion (24) between the corrugated portions, and the resilient member (4) encloses the connecting portion at least partially, the connecting portion (24) comprises flanks (25) that are formed at its axial ends and extend at least in a radial direction, and a curved portion (26) which connects the flanks with each other and which is at least partially enclosed by the resilient member (4).

An expansion joint that is provided between a steam turbine outlet and a condenser inlet, including: an upstream baffle tube that has one end secured to an upstream fixing end and the other end as a free end, and forms a steam channel; a downstream baffle tube that has one end secured to a downstream fixed end and the other end as a free end, the free end being relatively movable outside the free end of the upstream baffle tube; and a flexible cylinder that is formed of a non-metal material using a resin sheet, and deformable while airtightly surrounding the baffle tubes.

An expansion joint that is provided between a steam turbine outlet and a condenser inlet, including: an upstream baffle tube that has one end secured to an upstream fixing end and the other end as a free end, and forms a steam channel; a downstream baffle tube that has one end secured to a downstream fixed end and the other end as a free end, the free end being relatively movable outside the free end of the upstream baffle tube; and a flexible cylinder that is formed of a non-metal material using a resin sheet, and deformable while airtightly surrounding the baffle tubes.