摘要:
A first thermistor 8 and a second thermistor 9 are arranged forwardly and rearwardly of a thermopile sensor 5. A thermopile chip 55 is arranged and interposed between the first thermistor 8 and an integrated thermistor 57. A sensor cover is mounted in contact with front and side portions of a can portion 59 of a thermopile casing 56. A temperature or a radiant quantity of infrared rays on the front portion of the can portion is estimated from a temperature change of the integrated thermistor per second.
摘要:
Temperature states of a clinical thermometer body and an environment are estimated by temperatures measured by a first temperature sensor integrally formed together with an infrared sensor arranged to the distal end of a probe and a second temperature sensor arranged on the bottom side of a probe holder, and processes suitable for the respective temperature states are performed. An estimation error or the reliability of an estimation value is calculated by the temperatures to notify a user of the estimation error or the reliability by an LCD or the like.
摘要:
Temperature states of a clinical thermometer body and an environment are estimated by temperatures measured by a first temperature sensor integrally formed together with an infrared sensor arranged to the distal end of a probe and a second temperature sensor arranged on the bottom side of a probe holder, and processes suitable for the respective temperature states are performed. An estimation error or the reliability of an estimation value is calculated by the temperatures to notify a user of the estimation error or the reliability by an LCD or the like.
摘要:
Temperature states of a clinical thermometer body and an environment are estimated by temperatures measured by a first temperature sensor integrally formed together with an infrared sensor arranged to the distal end of a probe and a second temperature sensor arranged on the bottom side of a probe holder, and processes suitable for the respective temperature states are performed. An estimation error or the reliability of an estimation value is calculated by the temperatures to notify a user of the estimation error or the reliability by an LCD or the like.
摘要:
This invention is designed such that measurement can be performed only when a probe is sufficiently inserted into an external ear canal. A decision whether the probe is sufficiently inserted into the external ear canal or not is performed on the basis of a detected temperature.
摘要:
A first thermistor 8 and a second thermistor 9 are arranged forwardly and rearwardly of a thermopile sensor 5. A thermopile chip 55 is arranged and interposed between the first thermistor 8 and an integrated thermistor 57. A sensor cover is mounted in contact with front and side portions of a can portion 59 of a thermopile casing 56. A temperature or a radiant quantity of infrared rays on the front portion of the can portion is estimated from a temperature change of the integrated thermistor per second.
摘要:
An object of the present invention is to provide an ear type clinical thermometer in which the main body can be held according to the position of the eardrum of the person whose temperature is being measured. There is provided an ear type clinical thermometer comprising: a main body to be held by hand at a time when an eardrum temperature is to be measured; and a probe fixed to the main body while protruding from the main body and to be inserted into an external auditory canal of a person whose eardrum temperature is to be measured at the time when the measurement is to be taken. The main body has a side at which the probe protrudes from the main body and a side opposite to this side, and the side opposite to the side at which the probe protrudes from the main body is constructed of a curved surface having a substantially constant curvature along a direction perpendicular to a reference plane containing the center axis of the probe. Further, the main body has an indicator for allowing a user to recognize a plurality of methods of holding the main body which differ according to directions in which the probe is to be inserted into the external auditory canal of the person whose temperature is to be measured.
摘要:
An infrared sensor 20 is held in a housing 10 by a sensor holder 28 made of synthetic resin. A waveguide 30 for guiding infrared radiation, which is emitted from a target, to the infrared sensor 20 is supported by waveguide holders 31, 32 made of synthetic resin (or metal). An air layer (insulative layer, gap) 34 resides between an inner end (terminal end) 30b of the waveguide 30 and the infrared sensor 20. A probe 40 made of synthetic resin surrounding an externally protruding portion of the waveguide 30 is provided. An air layer (insulating layer, gap) 33 resides between the tip of the probe 40 and a tip (outer end) 30a of the waveguide 30. The tip of the waveguide 30 is covered by a cap 50.
摘要:
There is provided a radiation clinical thermometer which does not require experience and can measure an accurate body temperature easily and quickly since the user recognizes that a probe is correctly directed toward an eardrum. When a measured temperature is in a predetermined range, it is determined that the probe is inserted in an ear, and a level 1 is displayed. When a first maximum value of temperature measurement values appears, a level 2 is displayed. When a second maximum value of temperature measurement values appears, a level 3 is displayed to notify the user of the optimum insertion state for body temperature measurement.
摘要:
A radiation thermometer capable of precise measurement without depending upon an absolute precision of an infrared ray sensor for detecting infrared ray or a temperature sensor for measuring a temperature of the infrared ray sensor is provided wherein, controlling means retains a reference temperature for the measurement object, a sensor reference temperature for the sensor, and a sensor reference output for the sensor output when infrared ray radiated from the object of measurement having the object of measurement reference temperature is detected by the infrared ray sensor having the sensor reference temperature, and calculates the temperature of measurement object based on a first difference as a difference between a sensor temperature to be measured by the sensor temperature measuring portion and a sensor reference temperature, a second difference as a difference between a sensor output to be detected by the infrared ray sensor and a sensor reference output and the object of measurement reference temperature.