An ear thermometer includes a probe including an infrared sensor unit for measuring a temperature of an eardrum of an ear of a temperature measurement target parson in a non-contact manner, the probe attached to an ear hole of the temperature measurement target parson. The probe includes a probe body inserted into the ear hole of the temperature measurement target parson, a housing for supporting the probe body; and an in-ear type earpiece attached to the probe body and abutting on an inside of the ear hole of the temperature measurement target person. The infrared sensor unit includes a first sensor and a second sensor arranged in the probe body and spaced apart by a predetermined distance along a direction substantially orthogonal to the eardrum when the probe body is inserted into the ear hole of the temperature measurement target person.

A reflecting shell includes a hollow joint unit, a hollow guide unit and a hollow receiving unit. The hollow joint unit has a stationary part at one end, and the stationary part is detachably connected to a detecting part of a measuring device. One end of the hollow guide unit is connected to the other end of the hollow joint unit, and an internal wall of the hollow guide unit has a first reflective surface and a second reflective surface, in which the first reflective surface and the second reflective surface correspond to each other. One end of the hollow receiving unit is connected to the other end of the hollow guide unit. Heat radiation from a heat source enters the hollow guide unit, and the heat radiation is transmitted to the detecting part by the reflection of the first reflective surface and the second reflective surface.

An infrared thermometer (10), comprising a handheld part (12) and a head (11) connected to the handheld part (12). The head (11) comprises a bottom shell (112); an infrared sensor (113) configured to measure the temperature of an object to be measured; a holder (114) configured to hold the infrared sensor (113) in the bottom shell (112); a housing (111) configured to accommodate the infrared sensor (113) and the holder (114), and combined with the bottom shell (112); a first conductor (115) arranged on the housing (111); and a second conductor (116) arranged between the first conductor (115) and the handheld part (12) and adjacent to the holder (114) wherein the first conductor (115) and the second conductor (116) are capacitive sensors.

An earphone is provided. The earphone comprises a housing defining an audio opening, the audio opening is configured to be positioned within or facing toward an ear canal of a wearer in an wearing position of the earphone; a speaker driver positioned within the housing, the speaker driver comprising a diaphragm facing toward the audio opening, defining an audio channel between the diaphragm and the opening; a body temperature measuring module positioned within the audio channel, the body temperature measuring module comprising a reflector and a temperature sensor, the temperature sensor is configured to receive an infrared light transmitted through the audio opening and reflected by the reflector.

This utility model discloses an infrared thermometer for magnetic induction identification probe cap, including the body of infrared thermometer, at the upper end of which is a temperature probe designed with a cap, of which the inner side wall is beset with a magnet block; in the infrared thermometer body at lower end of temperature probe is a magnetic induction element connected with the main control unit of infrared thermometer body; when the cap covers the temperature probe or is removed there-from, the magnetic induction between magnet block and magnetic induction element enables magnetic induction output control signal. The main control unit of infrared thermometer body turns on the magnetic induction identification output control; for the infrared thermometer applicable for both forehead temperature measurement and ear canal temperature measurement, the magnetic induction identification cap switches between the forehead temperature measurement and ear canal temperature measurement modes.

Wearable devices (100) capable of measuring a core body temperature and other vital signs of a user in a range of situations are described herein. The wearable device is arranged to be retained within the ear canal of the ear, in order to prevent the wearable device from inadvertently removing itself from the ear. Providing an infrared thermopile (101) at the innermost end of the ear insert ensures that the infrared thermopile is provided as close as possible to the tympanic membrane which will be used to provide an indication of the core body temperature. The device has an audio conduction channel (111) at least partly defined within an ear canal extending member (114), the audio conduction channel configured as a waveguide to conduct sound through a blocking member (212) to a distal portion of the ear insert.

The invention discloses an integrated device for ear temperature measurement and non-contact temperature measurement, comprising a main body shell, a temperature measurement control unit and a display unit in the main body shell and a temperature measurement probe at head of the main body shell. The temperature measurement probe is composed of a shell, a temperature sensor in the shell and a non-contact temperature measurement component on the shell. The non-contact temperature measurement component is dismountable and has a non-contact temperature measurement channel in. After the non-contact temperature measurement component and the shell of the temperature measurement probe are assembled, the non-contact temperature measurement channel and the shell of the temperature measurement probe will form a necessary infrared receiving channel to realize non-contact temperature measurement. After the non-contact temperature measurement component is demounted from the shell of the temperature measurement probe, the temperature measurement probe can realize ear temperature measurement independently.

The invention relates to a device for measuring physiological parameters insertable into an external auditory canal of a human and to a method for measuring physiological parameters in an external auditory canal of a human.

A thermometer device for temporal artery area measurement, configured to be used in a skin-touching stationary position, comprising an elongated body and a front portion having an end border arranged on a sensing plane (P), an array of N infrared sensors, with N greater than 8, a sensing region (SR) extending in the sensing plane over an area denoted SRA, at a distance denoted LF from a plane P2 containing the infrared sensors, the sensing region being encompassed within the border of the front end, an optical lens, interposed between the infrared sensors and the sensing region, to deviate light rays, wherein LF.sup.2<KSRA, with K=3.

The invention discloses an integrated device for ear temperature measurement and non-contact temperature measurement, comprising a main body shell, a temperature measurement control unit and a display unit in the main body shell and a temperature measurement probe at head of the main body shell. The temperature measurement probe is composed of a shell, a temperature sensor in the shell and a non-contact temperature measurement component on the shell. The non-contact temperature measurement component is dismountable and has a non-contact temperature measurement channel in. After the non-contact temperature measurement component and the shell of the temperature measurement probe are assembled, the non-contact temperature measurement channel and the shell of the temperature measurement probe will form a necessary infrared receiving channel to realize non-contact temperature measurement. After the non-contact temperature measurement component is demounted from the shell of the temperature measurement probe, the temperature measurement probe can realize ear temperature measurement independently.