A cable gland (1) comprising: an entry component (2) sized to fit through an orifice in a surface and having a flange (11) arranged to bear against the surface around the orifice; a middle component (3) in threaded engagement with the entry component (2); and a back component (4) in threaded engagement with the middle component (3), the cable gland (1) defining a through bore (5) for a cable through the entry component (2), the middle component (3) and the back component (4); the cable gland (1) further comprising a sealing body (6) which is arranged to provide a seal in at least two positions from the group comprising: between the surface and the flange (11) of the entry component (2) (typically acting as a ingress protection washer); between the cable and the back component (4) (typically acting as an ingress protection seal); between the back component (4) and the middle component (3) (typically acting as a shroud); and between the middle component (3) and the entry component (2) (typically acting as a deluge boot).

A feedthrough (10) for an element (100) is described, comprising: a body (500), a cap assembly, comprising a cap (200) and optionally a follower (300), and a sealant (400), having respective passageways therethrough, defining an axis A, for receiving the element (100) therethrough; wherein the body (500) is couplable to a wall W of a hermetically-sealed vessel V having an aperture A for the element (100) therethrough and wherein the passageway of the body (500) is adapted to retain, at least in part, the sealant 400 and optionally the follower (300) therein; wherein the cap (200) is releasably couplable to the body (500); wherein the feedthrough (10) is configurable in: a first configuration, wherein the cap (200) is coupled to the body (500), wherein matching faces of the cap assembly and the body (500) are mutually spaced apart by a gap and wherein the element (100) extends through the respective passageways; and a second configuration, wherein the cap (200) is coupled to the body (500), wherein the matching faces (230, 520) of the cap assembly and the body (500) abut and wherein the element (100) extends through the respective passageways; wherein the cap assembly is adapted to axially compress the sealant (400) against the body (500), thereby causing the sealant (400) to radially compress against the element (100) and to form a hermetic seal between the body (500) and the element (100), in the second configuration.

A cable gland system for arrangement on a housing wall includes: a guide element with an opening for receiving a cable, a first support surface for supporting on a first side of the housing wall and a first end region, and an opposite second end region, at least one external thread being arranged at least on a periphery of the first end region; and a fastening element with a second support surface for supporting on a second side of the housing wall, and an internal thread on an inner surface, the internal thread engaging with the external thread on the guide element in a screwed-on state. At least one contact surface with a contact structure respectively arranged on the periphery of the guide element, adjacent to the external thread and to the inner surface of the fastening element.

A sleeve (19) arranged to be slidably received within a passage (9) defined in a body of a cable gland (1), the sleeve (19) arranged to receive a settable sealing material for forming a seal to a cable passing through the sleeve, wherein the sleeve (19) comprises: an annular side wall (79) extending along an axial length and having a first end and a second end; and an end wall (100) capping the first end of the annular side wall (79), in which the annular side wall (79) and the end wall (100) define a void (106) within them into which settable sealing material can be received.

A method of sealing a cable (10), the cable having at least one core (11) and at least one sheath (12) surrounding at least one core (11), the method acting to seal each core (11) relative to each sheath (12), the method comprising exposing each core (11) from each sheath (12) to form an exposed part of each core (11), with an unexposed part of a core (11) remaining with each sheath (12), positioning the exposed part of each core (11) and the unexposed part of each core (11) within a tube (1), and filling the tube (1) with a settable sealing material (6).

A cable gland includes a gland nut defining a longitudinal axis. The gland nut includes an interior wall defining a gland nut opening. A bushing is disposed within the gland nut. The bushing defines a bushing opening configured to receive a cable therein. A compression limiting assembly includes a compression limiter moveably disposed at least partially within the gland nut. A spring is disposed between the compression limiter and the bushing. A body defines a body opening configured to receive at least a portion of the cable therein. The body is configured to couple to the gland nut. Upon coupling of the gland nut to the body, the gland nut moves along the longitudinal axis compressing the bushing between the gland nut and the compression limiting assembly and around the cable.

This application provides a gateway device. The gateway device may include a base and a cable waterproof structure disposed on the base, the base includes at least one network interface, and the cable waterproof structure includes a cable plugged into the network interface and a cover that covers the network interface. The cable includes a cable body and a network interface plug fastened to an end portion of the cable body. A sealing member is disposed at a joint between the cable body and the network interface plug. A threading hole through which the cable is threaded is disposed in the cover, and the sealing member is attached to the threading hole through interference fit. Effective waterproof for the cable can be implemented through interference fit between the sealing member and the threading hole of the cover.

Modular connectors for rigid tubing are provided. An assembly according to embodiments of the present disclosure may include a rigid tube connected to a coupling assembly, the coupling assembly including a main body having a first tubular section and a second tubular section. The assembly may further include a connector head coupled to the coupling assembly, the connector head including a first section coupled to a second section, wherein the first and second sections define an internal cavity for housing an electrical connector, and wherein the first tubular section extends within the internal cavity.

A dispenser apparatus (10) for dispensing curable liquid material into a space in a cable gland is disclosed. The apparatus comprises a housing (12) for separately storing of components of a curable liquid material and provided with a respective first outlet (14) for each component. A mixing chamber (16) mixes the components to cause curing of the curable liquid material and has an inlet (18) for receiving the components from the first outlets, and a second outlet (20) for the mixed components. A plunger (22) urges the components out of storage chambers of the housing via the first outlets and into the mixing chamber via the inlet. The dispenser apparatus is adapted to be located in a body of a cable gland such that the mixed components are dispensable from, the second outlet into a space defined by the body and a cable extending through the body.

A cable gland for securing a cable to a box comprises a tightening element configured to surround the cable, the tightening element having at least two connecting ends mutually approachable to tighten the tightening element on the cable, and a gland body extending along an axial direction between a first end and a second end, the gland body defining a passing through channel extending along the axial direction between the first end and the second end and configured to receive the cable passing through the first and second ends, the gland body surrounding at least partially the tightening element. The cable gland comprises a first locking arrangement configured to lock along the axial direction the gland body relative to the tightening element.