A system for packing and assembling a flexible duct that includes a sleeve. The sleeve includes a tubular vapor barrier and an insulating layer within the vapor barrier and includes a central cavity. Further, the sleeve is radially compressed and rolled along an axial direction. The system also includes an air core sized to fit within the central cavity of the insulating layer. The air core includes a sheet that blocks fluid flow therethrough and a structural support coiled within the sheet and the air core is flattenable and not within the rolled sleeve.

A system for packing and assembling a flexible duct that includes a sleeve. The sleeve includes a tubular vapor barrier and an insulating layer within the vapor barrier and includes a central cavity. Further, the sleeve is radially compressed and rolled along an axial direction. The system also includes an air core sized to fit within the central cavity of the insulating layer. The air core includes a sheet that blocks fluid flow therethrough and a structural support coiled within the sheet and the air core is flattenable and not within the rolled sleeve.

An inner structure is within an outer structure. A shield mount of a shield is attached to the outer structure. A sleeve of the shield extends from the shield mount through an aperture in the outer structure to a distal end of the shield. The sleeve is mated with the port at the distal end through a slip joint interface where a cylindrical sleeve surface of the sleeve contacts a cylindrical port surface of a port of the inner structure. The fluid transfer tube extends from an inner tube end through a bore of the shield and at least into the port to an outer tube end. An inner coupling is disposed at the inner tube end and mated with the inner structure through a cone seal interface. An outer coupling is disposed at the outer tube end and attached to the outer structure.

A pipe connecting joint has: a connecting member and two limiting pipes. The connecting member has the two sleeves and the two covers. The sleeve has at least a positioning groove at an inner wall surface, and at both ends of each sleeve is formed with an opening. Furthermore, each sleeve is opened with a window covered by the cover. The two limiting pipe are formed with a semicircular pipe and a disc, and the limiting pipe is placed into the sleeve through the window. The disc abuts against the inner wall surface of sleeve and engages with the position groove.

A pipe connecting joint has: a connecting member and two limiting pipes. The connecting member has the two sleeves and the two covers. The sleeve has at least a positioning groove at an inner wall surface, and at both ends of each sleeve is formed with an opening. Furthermore, each sleeve is opened with a window covered by the cover. The two limiting pipe are formed with a semicircular pipe and a disc, and the limiting pipe is placed into the sleeve through the window. The disc abuts against the inner wall surface of sleeve and engages with the position groove.

A system for inspecting pipelines utilizing a wireless device preferably includes a push cable inspection system, a data display unit, an interface software program and a WiFi transmitter. The push cable inspection system includes a push cable, a distance encoder and a cable reel. A video camera is attached to an end of the push cable. The distance encoder measures the distance traveled by the push cable. The data display unit receives an output from the distance encoder and the video camera. The data display unit overlays a changing numeric distance on the video feed to create a numeric video feed. The numeric video feed is transmitted by the WiFi transmitter to the wireless device. The interface software program is installed on the wireless device. The interface software program receives the numeric video feed from the data display unit and stores the numeric video feed on the wireless device.

A system for inspecting pipelines utilizing a wireless device preferably includes a push cable inspection system, a data display unit, an interface software program and a WiFi transmitter. The push cable inspection system includes a push cable, a distance encoder and a cable reel. A video camera is attached to an end of the push cable. The distance encoder measures the distance traveled by the push cable. The data display unit receives an output from the distance encoder and the video camera. The data display unit overlays a changing numeric distance on the video feed to create a numeric video feed. The numeric video feed is transmitted by the WiFi transmitter to the wireless device. The interface software program is installed on the wireless device. The interface software program receives the numeric video feed from the data display unit and stores the numeric video feed on the wireless device.

A conduit embedded in thermoplastic and adhered to a pipeline with a porous material assisting in the adhesion. The porous material is adhered to the pipeline, the porous material having at least some pores occupied by the thermoplastic. The porous material may be a sleeve of fibrous material. The adhesion may be accomplished by positioning a sleeve of fibrous material around a guide, bringing the thermoplastic into contact with the sleeve and heating the thermoplastic to cause the thermoplastic to enter pores of the sleeve. The guide forms a barrier preventing the thermoplastic from reaching a portion of the sleeve, and that portion is adhered to the object. This method may also be applied to adhere a thermoplastic, with or without a conduit, to any object.

A conduit embedded in thermoplastic and adhered to a pipeline with a porous material assisting in the adhesion. The porous material is adhered to the pipeline, the porous material having at least some pores occupied by the thermoplastic. The porous material may be a sleeve of fibrous material. The adhesion may be accomplished by positioning a sleeve of fibrous material around a guide, bringing the thermoplastic into contact with the sleeve and heating the thermoplastic to cause the thermoplastic to enter pores of the sleeve. The guide forms a barrier preventing the thermoplastic from reaching a portion of the sleeve, and that portion is adhered to the object. This method may also be applied to adhere a thermoplastic, with or without a conduit, to any object.

A separation duct for encompassing an elongate member. The duct includes longitudinal internal spacers extend longitudinally in a direction of a longitudinal axis of the duct. A longitudinal plane for each spacer is substantially parallel to the longitudinal plane of the other spacers. The spacers support the elongate member and resist slippage of the duct relative to the elongate member. The duct may be used to provide separation and protection for elongate members of a range of outside dimensions.