A novel smart track system having embedded sensors and method of using the same is disclosed. The smart track system comprises a track system having a traction band. The traction band having sensors embedded therein. The embedded sensors are preferably autonomously powered sensor is embedded within the track, wherein the autonomously powered sensor is configured to sense one of the following parameter of the track: temperature, acceleration, angular moment, displacement, magnetic field or geolocation.

A sensor assembly includes: a base with an installation space; an electrical connection member disposed on the base; a sensing unit including at least two physical sensors and one integrated circuit board; and a contact member disposed at one end of the base. The sensor assembly is a combination of the temperature sensor and the vibration sensor, the main physical parameters (including back clearance, collision, thermal displacement and lubrication) regarding the operation of the linear motion transmission device can be calculated based on the temperature signal and vibration signals, without requiring the installation of separate different sensors. Therefore, installation space is reduced. The sensor assembly is directly abutted against the linear motion transmission device to detect the change of various physical values in a most direct manner.

A sensor assembly includes: a base with an installation space; an electrical connection member disposed on the base; a sensing unit including at least two physical sensors and one integrated circuit board; and a contact member disposed at one end of the base. The sensor assembly is a combination of the temperature sensor and the vibration sensor, the main physical parameters (including back clearance, collision, thermal displacement and lubrication) regarding the operation of the linear motion transmission device can be calculated based on the temperature signal and vibration signals, without requiring the installation of separate different sensors. Therefore, installation space is reduced. The sensor assembly is directly abutted against the linear motion transmission device to detect the change of various physical values in a most direct manner.

The invention concerns a method for measuring the temperature of a preform in a facility comprising: a device for transporting preforms; a device for contact-less measurement of the temperature of a portion of the preform, comprising a sensor which is capable of measuring the temperature of the preforms in continuous travelling motion over a measurement section of the production path. The measurement device is equipped with an optical device which can project an image of the sensor in a measurement direction in the zone for measuring the temperature of the preforms, the measurement zone having a cross-section of dimensions less than the outer diameter of the portion of the preform to be measured. The invention also concerns a facility for implementing the method.

The invention concerns a method for measuring the temperature of a preform in a facility comprising: a device for transporting preforms; a device for contact-less measurement of the temperature of a portion of the preform, comprising a sensor which is capable of measuring the temperature of the preforms in continuous travelling motion over a measurement section of the production path. The measurement device is equipped with an optical device which can project an image of the sensor in a measurement direction in the zone for measuring the temperature of the preforms, the measurement zone having a cross-section of dimensions less than the outer diameter of the portion of the preform to be measured. The invention also concerns a facility for implementing the method.

A measuring system for determining the temperature of a heat treatment material in a continuous furnace, includes a support, a data processing and/or data storage device and at least one temperature sensor, at least one receptacle for a sample of the heat treatment material being formed on the support, and the support being at least partially formed by a frame system.

A measuring system for determining the temperature of a heat treatment material in a continuous furnace, includes a support, a data processing and/or data storage device and at least one temperature sensor, at least one receptacle for a sample of the heat treatment material being formed on the support, and the support being at least partially formed by a frame system.

An electronic device according to various embodiments of the disclosure may include a first housing, a second housing configured to be slid into the first housing and slid out from the first housing, a substrate part disposed between the front surface and the rear surface in the first housing and including at least one heat source, a first temperature sensor disposed on the substrate part, a second temperature sensor disposed in the second housing, and at least one processor. The at least one processor is configured to calculate a temperature of the electronic device based on at least one of a measurement value of the first temperature sensor or a measurement value of the second temperature sensor. Various other embodiments may be possible.

An electronic device according to various embodiments of the disclosure may include a first housing, a second housing configured to be slid into the first housing and slid out from the first housing, a substrate part disposed between the front surface and the rear surface in the first housing and including at least one heat source, a first temperature sensor disposed on the substrate part, a second temperature sensor disposed in the second housing, and at least one processor. The at least one processor is configured to calculate a temperature of the electronic device based on at least one of a measurement value of the first temperature sensor or a measurement value of the second temperature sensor. Various other embodiments may be possible.

A water-mist-penetrating temperature measurement system and method for steel hot rolling, the system including a water-mist-penetrating temperature measurement device, and the water-mist-penetrating temperature measurement device including a visible light guiding-tracking assembly, an optical focusing assembly, a dual-wavelength beam splitting assembly, a multi-source information processing assembly, and a display assembly; and the method including the steps of obtaining a dual-wavelength radiation signal and a visible light image signal of the object to be measured, processing the obtained dual-wavelength radiation signal and the visible light image signal, and detecting and processing an abnormally fluctuated temperature data.