An apparatus for insertion through an opening in an outer casing of a gas turbine engine and inspection of internal turbine components at elevated temperatures having an optical sight tube configured to optically communicate with an interior of gas turbine engine via a distal end disposed at the interior and a proximal end disposed exterior of the internal turbine components and defined by a first longitudinal wall, at least one lens at the distal end of the optical sight tube adjacent to the longitudinal wall; and at least one longitudinal cooling groove in the longitudinal wall for flowing a cooling medium from a location external to the turbine to cool the optical sight tube at a location at least adjacent the distal end.

A borescope inspection (BSI) port fitting is provided for a gas turbine engine. The borescope inspection (BSI) port fitting includes a housing with a borescope inspection port.

A connector device for an endoscope that can stably operate an endoscope is provided. A connector device (10) includes a hollow exterior case (20), a shield case (22) accommodated in the exterior case (20), and a power reception unit (24) to which power is supplied from a power feed unit (216) of a processor device (200) in a contactless manner. The exterior case (20) has a side wall part (32D) that faces the power feed unit (216). The shield case (22) has an inner case wall part (23) that is disposed to face and be spaced apart from the side wall part (32D). The power reception unit (24) is disposed on the inner case wall part (23).

A connector device for an endoscope that can prevent infiltration of water into an exterior member is provided. A linear portion (46A) of an elliptical ring portion (46) of a connector exterior case (28) includes through-holes (50 and 52). An inner peripheral surface of the linear portion (46A) includes a semicircular groove (54) that connects the through-hole (50) and the through-hole (52) to each other. An outer peripheral surface of a linear portion (30A) of an elliptical ring portion (30) of a plug (26) includes a semicircular groove (56), and the groove (56) is disposed to face the groove (54) so that an insertion passage (58) is formed. A pin (60) is fitted into the through-hole (52) from the through-hole (50) via the insertion passage (58), and the pin (60) is fitted to the through-hole (50), the insertion passage (58), and the through-hole (52).

An electronic visual food probe for viewing the interior of a body of food being cooked. The probe has a food-safe, heat resistant and elongated stem designed for insertion into the body of food. A thermally insulated cavity formed in one end of the stem has an opening that allows light into and out of the cavity. A light source illuminates the interior of the food exposed to the opening. An electronic image sensor receives the light reflected from the interior surfaces of the food proximate the opening and generates an elongated color image of the reflected light. An electronic display system receives the elongated color image from the image sensor and displays it on an electronic display for viewing.

A method and system for acquiring, manipulating and displaying inspection data obtained by sensors associated with submersible inspection vehicle within a housing having a liquid medium is disclosed in the present application. A control system including an electronic controller is operably coupled with the inspection vehicle and is configured to display data transmitted from the sensor and overlay input data from an operator on the display to facilitate real time analysis during the inspection event.

The present disclosure concerns an imaging system for imaging a sample immersed in a controlled environment. The system comprises—at least one enclosure configured to hold at least one imaging sensor or camera inside the enclosure, the enclosure including at least one opening and at least one transparent window for imaging the sample; and—a flexible channel comprising a first extremity and a second extremity, the first extremity being connected to the enclosure at said at least one opening and the second extremity being configured to be connected to a wall of the hermetic chamber, the flexible channel defining or enclosing a passage extending through the flexible channel and to or into the enclosure.

An inspection apparatus for melting furnaces that can be used in the steel industry, includes an inspection head and a positioning support, said inspection head including a rotating table. Said inspection head includes one or more image detection devices attached on said rotating table and which rotate in a manner integral with it. Said positioning support is suitable for the insertion of the inspection head into said melting furnace through an inlet aperture of the melting furnace. Also disclosed is an inspection method for melting furnaces that can be used in the steel industry, by means of an inspection apparatus.

A hermetic seal between an optical element and a metal mount or housing using a fluoropolymer. The fluoropolymer is dispersed along the interior edge of the metal mount. The metal mount and fluoropolymer are then heated to a temperature exceeding the melting point of the fluoropolymer. Once heated the optical element is pressed into the metal mount and allowed to cool. The metal mount, optical element and thickness of fluoropolymer are sized to provide an interference fit between the metal mount and optical element.

A method of performing a selected task in a tank containing an energetic substance uses an inherently safe mobile platform that includes a marker detector, a control unit, a power supply, a propulsion system, and an inherently safe enclosure. The inherently safe enclosure prevents a spark occurring inside the inherently safe enclosure from passing to an exterior of the inherently safe enclosure. All spark-generating components of the mobile platform are positioned inside the inherently safe enclosure. The method includes lowering the mobile platform into the tank, at least partially submerging the mobile platform in the energetic substance, and detecting a marker using the marker detector. No active physical carrier connects the mobile platform to an object exterior of the tank while the mobile platform is in the tank.