A heat exchange pipe joint includes a first pipe and a second pipe that are separately formed and in communication with each other. The first pipe is detachably connected to a second side of the installation plate, and the second pipe is detachably connected to a first side of the installation plate. When the heat exchange pipe joint is applied to the battery pack, the heat exchange pipe joint in a split-structure requires a small operation space for detachment and installation. In this case, a process of taking out the entire heat exchange pipe joint from the case can be avoided. In this way, the detachment and installation of the heat exchange pipe joint can be easy and convenient, thereby facilitating the reparation process thereof.

Examples disclosed herein generally relate to a pass-through bulkhead seal fitting for use in the aircraft industry. In one example, a pass-through bulkhead seal fitting includes a male fitting comprising a tubular body that is separable to receive existing wiring, and a nut that is separable to receive existing wiring and being rotatable in a single direction relative to a longitudinal axis of the male fitting.

Examples disclosed herein generally relate to a pass-through bulkhead seal fitting for use in the aircraft industry. In one example, a pass-through bulkhead seal fitting includes a male fitting comprising a tubular body that is separable to receive existing wiring, and a nut that is separable to receive existing wiring and being rotatable in a single direction relative to a longitudinal axis of the male fitting.

A guard sensor device (100) is disclosed for use with a cable, pipe or wire transit (1) of a type that has one or more compressible transit elements (20) for allowing a sealed installation of one or more cables (2), pipes or wires, the sealed installation requiring appropriate mounting and tightening of one or more tightening members (41). The guard sensor device (100) comprises a base part (110; 210) and a cover part (120). The cover part is mountable onto the base part by means of a mechanical connection (114a-b, 124a-b), such as a snap lock connection, thereby forming between them an internal cavity (116a-b, 126a-b) for housing a protruding part of one (41a) of the tightening members (41) when being appropriately mounted and tightened. The guard sensor device (100) further comprises a sensor (130) disposed in either of the base and cover parts (110, 120). The sensor (130) is adapted to detect removal of the cover part (120) with respect to the base part (110) and in response generate an alert signal (S) to indicate that the sealed condition of the installation has possibly been compromised.

A guard sensor device (100) is disclosed for use with a cable, pipe or wire transit (1) of a type that has one or more compressible transit elements (20) for allowing a sealed installation of one or more cables (2), pipes or wires, the sealed installation requiring appropriate mounting and tightening of one or more tightening members (41). The guard sensor device (100) comprises a base part (110; 210) and a cover part (120). The cover part is mountable onto the base part by means of a mechanical connection (114a-b, 124a-b), such as a snap lock connection, thereby forming between them an internal cavity (116a-b, 126a-b) for housing a protruding part of one (41a) of the tightening members (41) when being appropriately mounted and tightened. The guard sensor device (100) further comprises a sensor (130) disposed in either of the base and cover parts (110, 120). The sensor (130) is adapted to detect removal of the cover part (120) with respect to the base part (110) and in response generate an alert signal (S) to indicate that the sealed condition of the installation has possibly been compromised.

An isolating seal assembly and method for hermetically isolating two areas with different atmospheres, wherein the isolation is total or partial in order to allow for the passage of circular elements, such as energy cables, data or pipes that carry fluids, or to simply isolate the areas without any element passing through the device. Said assembly comprises: A plug seal, a sliding jacket, a receiver bushing, a closing cap, a pusher, an upper retainer, a lower retainer, and sealing rings, such as O-rings.

An isolating seal assembly and method for hermetically isolating two areas with different atmospheres, wherein the isolation is total or partial in order to allow for the passage of circular elements, such as energy cables, data or pipes that carry fluids, or to simply isolate the areas without any element passing through the device. Said assembly comprises: A plug seal, a sliding jacket, a receiver bushing, a closing cap, a pusher, an upper retainer, a lower retainer, and sealing rings, such as O-rings.

This invention relates to a seal system for sealing between an elongate element such as a cable and a surface or substrate around an aperture in the surface through which the elongate element passes. The seal system comprises a seal body to surround the aperture and seal against the surface or substrate around the aperture. The seal body comprises at least one passage for penetration of the elongate element through the seal body at a side of the seal body. The at least one passage providing for a seal to the elongate element. Also provided is a fixing component adapted to be attached over at least part of the seal body and/or through the seal body to seal with the surface or substrate.

This invention relates to a seal system for sealing between an elongate element such as a cable and a surface or substrate around an aperture in the surface through which the elongate element passes. The seal system comprises a seal body to surround the aperture and seal against the surface or substrate around the aperture. The seal body comprises at least one passage for penetration of the elongate element through the seal body at a side of the seal body. The at least one passage providing for a seal to the elongate element. Also provided is a fixing component adapted to be attached over at least part of the seal body and/or through the seal body to seal with the surface or substrate.

A penetration fitting assembly includes a pipe gasket having an annular portion defining a central opening and first and second stem portions extending in opposite directions from the annular portion, an inner ring assembly configured to surround the pipe gasket and including first and second inner ring halves, a ring gasket assembly configured to surround the inner ring assembly and including first and second ring gasket halves, a wall gasket, an outer ring assembly configured to surround the ring gasket assembly and including first and second outer ring halves, and a clamp configured to surround the outer ring assembly. When the penetration fitting assembly is installed, the outer ring assembly compresses the wall gasket against the wall of the sump, the clamp compresses the ring gasket assembly between the inner ring assembly and the outer ring assembly, and the clamp compresses the pipe gasket against the pipe or conduit.