A non-metallic engine case inlet compression seal for a gas turbine engine includes a non-metallic longitudinal leg section that extends from the non-metallic arcuate interface section and a non-metallic mount flange section that extends from the longitudinal leg section.

A non-metallic engine case inlet compression seal for a gas turbine engine includes a non-metallic longitudinal leg section that extends from the non-metallic arcuate interface section and a non-metallic mount flange section that extends from the longitudinal leg section.

A robot joint including a first part and a second part arranged to have a relative movement in between, and a joint gap spacing the first part and the second part from each other, wherein the robot joint includes an inflatable seal accommodated in the joint gap to provide a fluid-tight sealing of the joint. The disclosure also relates to a robot including the robot joint, a system including the robot and a method for sealing a joint gap of a robot joint.

A shut-off device includes a housing, a central passage extending in an axial direction to surround the shaft, a ring-shaped first disk, a ring-shaped second disk arranged in the housing and parallel with and spaced apart from the ring-shaped first disk in the axial direction, and an expandable annular seal having a first side wall, a second side wall and an elastic bottom, the first side wall and the second side wall each extending in a radial direction, and the bottom connecting a radially inner end of the first side wall with a radially inner end of the second side wall, and the housing includes an inlet for a fluid to expand the seal, the first side wall of the seal arranged and clamped between the housing and the first disk and the second side wall of the seal arranged and clamped between the housing and the second disk.

A shut-off device includes a housing, a central passage extending in an axial direction to surround the shaft, a ring-shaped first disk, a ring-shaped second disk arranged in the housing and parallel with and spaced apart from the ring-shaped first disk in the axial direction, and an expandable annular seal having a first side wall, a second side wall and an elastic bottom, the first side wall and the second side wall each extending in a radial direction, and the bottom connecting a radially inner end of the first side wall with a radially inner end of the second side wall, and the housing includes an inlet for a fluid to expand the seal, the first side wall of the seal arranged and clamped between the housing and the first disk and the second side wall of the seal arranged and clamped between the housing and the second disk.

A radial pressure adjustable gland sealing system is disclosed herein. The system includes at least one inflatable bladder operable to surround a rotating shaft or sleeve of a rotating shaft, and at least one inflating tube. One end of each inflating tube is in fluid communication with the internal envelope of one of the at least one inflatable annular bladder. An opposite end of each inflating tube is connected, or extends, to a location outside of a static housing in which the rotating shaft is housed, such that the level of inflation of each inflatable bladder can be adjusted by way of its respective inflating tube, and thereby adjust the level of radial pressure exerted on the rotating shaft or sleeve for a rotating shaft.

A radial pressure adjustable gland sealing system is disclosed herein. The system includes at least one inflatable bladder operable to surround a rotating shaft or sleeve of a rotating shaft, and at least one inflating tube. One end of each inflating tube is in fluid communication with the internal envelope of one of the at least one inflatable annular bladder. An opposite end of each inflating tube is connected, or extends, to a location outside of a static housing in which the rotating shaft is housed, such that the level of inflation of each inflatable bladder can be adjusted by way of its respective inflating tube, and thereby adjust the level of radial pressure exerted on the rotating shaft or sleeve for a rotating shaft.

A seal for placement between a cylindrical shaft and a drum rotatably mounted with respect thereto includes an outside end member with a shaft section, a bore and a gas input connection and an inside end member non-rotatably attached thereto and configured to engage the shaft section. An outer end seal and an inner end seal are slidably and rotatably engaged with the shaft section. A circumferential seal is configured to non-rotatably engage with the outer and inner end seals. An interference fit is formed in the axial direction between an inner assembly, comprising the circumferential seal and the outer and inner end seals, and the outside and inside end members. An interference fit also is formed radially between the circumferential seal and a drum of a mixing machine. A method provides a seal for placement between a cylindrical shaft and a drum rotatably mounted with respect to the shaft.

A seal for placement between a cylindrical shaft and a drum rotatably mounted with respect thereto includes an outside end member with a shaft section, a bore and a gas input connection and an inside end member non-rotatably attached thereto and configured to engage the shaft section. An outer end seal and an inner end seal are slidably and rotatably engaged with the shaft section. A circumferential seal is configured to non-rotatably engage with the outer and inner end seals. An interference fit is formed in the axial direction between an inner assembly, comprising the circumferential seal and the outer and inner end seals, and the outside and inside end members. An interference fit also is formed radially between the circumferential seal and a drum of a mixing machine. A method provides a seal for placement between a cylindrical shaft and a drum rotatably mounted with respect to the shaft.

A node may be additively manufactured. The node may include a first surface and a second surface, and the second surface may bound a recess of the node. A structure may be inserted into the recess. A sealing member extend away from the second surface and contact the structure, such that a sealed space may be created between the node and the structure. An adhesive may be applied in the sealed space to at least partially attach the structure to the node. In an exemplary embodiment,