A method for determining a temperature of an object includes contacting the object with a first electrical conductor. A difference in electronegativity between the object and the first electrical conductor is greater than a predetermined value. The method also includes contacting the object or a substrate on which the object is positioned with a second electrical conductor. A difference in electronegativity between the object or the substrate and the second electrical conductor is less than the predetermined value. The method also includes connecting the first and second electrical conductors together. The method also includes measuring the temperature of the object using the first and second electrical conductors. The first and second electrical conductors form at least a portion of a thermocouple.

An object printed by a three-dimensional (3D) printer includes a plurality of layers of material printed by the 3D printer. The layers of material bond together to form the object as the layers of material cool and solidify after being printed by the 3D printer. The object also includes a temperature sensor placed in contact with one or more of the layers when the layers of material are being printed by the 3D printer. The temperature sensor remains in contact with the object after the layers of material cool and solidify to form the object. The temperature sensor is configured to measure a temperature of the object after the layers of material cool and solidify to form the object.

An object printed by a three-dimensional (3D) printer includes a plurality of layers of material printed by the 3D printer. The layers of material bond together to form the object as the layers of material cool and solidify after being printed by the 3D printer. The object also includes a temperature sensor placed in contact with one or more of the layers when the layers of material are being printed by the 3D printer. The temperature sensor remains in contact with the object after the layers of material cool and solidify to form the object. The temperature sensor is configured to measure a temperature of the object after the layers of material cool and solidify to form the object.

A temperature sensor (1) for gas burner (2) having a thermocouple (11) comprising electric conductors (15) and a connection element (12) to connect to the burner (2) associated with a free end (18) of such thermocouple (11), said connection element (12) being suitable for being inserted inside a seat of the sensor (8) formed inside a wall (4) of the burner (2) and having a first end (26) suitable for being placed at the outer surface (6) of the burner (2), said thermocouple (11) being inserted inside a blind hole (29) of the connection element (12) which opens at a second end (28) of said connection element (12). Said blind hole (29) ends with at least one part (31) convergent towards an end zone (K) of the hole (29), said part (31) getting in contact with the thermocouple (11) inserted inside the connection element, the connection element (12) being made from an iron-chrome-aluminum alloy. An assembly comprising such temperature sensor and a burner is also claimed.

A temperature sensor (1) for gas burner (2) having a thermocouple (11) comprising electric conductors (15) and a connection element (12) to connect to the burner (2) associated with a free end (18) of such thermocouple (11), said connection element (12) being suitable for being inserted inside a seat of the sensor (8) formed inside a wall (4) of the burner (2) and having a first end (26) suitable for being placed at the outer surface (6) of the burner (2), said thermocouple (11) being inserted inside a blind hole (29) of the connection element (12) which opens at a second end (28) of said connection element (12). Said blind hole (29) ends with at least one part (31) convergent towards an end zone (K) of the hole (29), said part (31) getting in contact with the thermocouple (11) inserted inside the connection element, the connection element (12) being made from an iron-chrome-aluminum alloy. An assembly comprising such temperature sensor and a burner is also claimed.

A system for determining temperature includes a housing having an interior cavity defined by at least one electrically conductive wall having an inside surface exposed to the interior cavity, an outside surface opposite the inside surface, and a single sensor feed through hole defined from the inside surface to the outside surface. A temperature sensor is mounted to the inside surface, including an isolated single wire extending from the sensor to the outside surface via the single sensor feed through hole. The wall provides a first voltage signal responsive to a temperature change within the interior cavity to an electronic device, and the isolated single wire provides a second voltage signal, different from the first, responsive to the temperature change, to the electronic device such that the electronic device determines an interior cavity temperature based on a signal determined from the first and second voltage signals.

A system for determining temperature includes a housing having an interior cavity defined by at least one electrically conductive wall having an inside surface exposed to the interior cavity, an outside surface opposite the inside surface, and a single sensor feed through hole defined from the inside surface to the outside surface. A temperature sensor is mounted to the inside surface, including an isolated single wire extending from the sensor to the outside surface via the single sensor feed through hole. The wall provides a first voltage signal responsive to a temperature change within the interior cavity to an electronic device, and the isolated single wire provides a second voltage signal, different from the first, responsive to the temperature change, to the electronic device such that the electronic device determines an interior cavity temperature based on a signal determined from the first and second voltage signals.

A temperature sensor includes a block body, a first thermocouple, and a second thermocouple. The first thermocouple includes a first strand, a second strand, a first insulator surrounding the first strand and the second strand, and a first metal sheath surrounding the first insulator. The second thermocouple includes a third strand, a fourth strand, a second insulator surrounding the third strand and the fourth strand, and a second metal sheath surrounding the second insulator. An end portion of each of the first thermocouple and the second thermocouple is buried in the block body.

A temperature sensing unit is provided, which includes a temperature sensor for measuring a temperature of an object and a mounting member. The temperature sensor includes a portion bendable to conform to an outer surface of the object. The mounting member has ends attached to opposing ends of the portion of the temperature sensor and securing the temperature sensor on the object.

A temperature sensing unit is provided, which includes a temperature sensor for measuring a temperature of an object and a mounting member. The temperature sensor includes a portion bendable to conform to an outer surface of the object. The mounting member has ends attached to opposing ends of the portion of the temperature sensor and securing the temperature sensor on the object.