序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
---|---|---|---|---|---|---|
81 | Temperature measurement device and temperature measurement method | JP2010085852 | 2010-04-02 | JP2011215107A | 2011-10-27 | GOTO KENJI |
PROBLEM TO BE SOLVED: To provide a temperature measurement device which is a device with a simple structure, and capable of accurately measuring deep portion temperatures and outside air temperatures.SOLUTION: A temperature measurement device includes a first surface temperature measuring means 20A that measures a first surface temperature, a first reference temperature measuring means 24A that measures a first reference temperature, a first outside air temperature measuring means 25A that measures a first outside air temperature, a second surface temperature measuring means 20B that measures a second surface temperature, a second reference temperature measuring means 24B that measures a second reference temperature, a second outside air temperature measuring means 25B that measures a second outside air temperature, a deep portion temperature calculating means 42 that calculates a deep portion temperature of a measured target using the first surface temperature, the first reference temperature, the second surface temperature, and the second reference temperature values, and an outside air temperature calculating means 43 that calculates an outside air temperature of outside air using the first surface temperature, the first reference temperature, the second surface temperature, the second reference temperature, the first outside air temperature, and the second outside air temperature values. | ||||||
82 | Time based on azo coupling reaction - printing method to the temperature indicator of the base material | JP2007525286 | 2005-08-03 | JP2008509415A | 2008-03-27 | ミューラー,ベルンハルト; ライヒェルト,ハンス |
基材に印刷する方法であって、(a)キャップドジアゾニウム成分とカップリング成分とのアゾカップリング反応に基づくクロミック特性を持つ少なくとも1つの時間温度インジケータを基材に、印刷するステップを含む方法に関する。 | ||||||
83 | Temperature monitor | JP2001134048 | 2001-05-01 | JP2002013985A | 2002-01-18 | OESTLING STURE; AXELSSON UNO |
PROBLEM TO BE SOLVED: To provide a simple and efficient temperature monitor. SOLUTION: This temperature monitor for controlling temperature of an object is incorporated with a housing 1 having a means 2 contacting the object, a sensing member 13 provided so as to contact and transfer heat of the means and send a signal denoting the temperature of the object, a controller 11 provided so as to receive the signal from the sensing member 13 and actuate display means 9 and 10, a power source 8 connectable to power consuming bodies 11, 13, 9, and 10, a switch 12 biased so as to disconnect an electric power supply to the power consuming bodies, and a part 17 of the housing capable moving between a first position wherein the switch disconnects electric power and a second position driving the switch to an electric power supply position. | ||||||
84 | JPH0312247B2 - | JP20805784 | 1984-10-05 | JPH0312247B2 | 1991-02-19 | NAKAJIMA SADAO; KANAMORI SHUICHI; IZUMI KATSUTOSHI |
85 | JPS6410789B2 - | JP463580 | 1980-01-21 | JPS6410789B2 | 1989-02-22 | SHIONO SHIGEO; SHIBATA FUMIO |
86 | Method for measuring temperature hysteresis of body to be measured | JP20805784 | 1984-10-05 | JPS6186623A | 1986-05-02 | NAKAJIMA SADAO; KANAMORI SHUICHI; IZUMI KATSUTOSHI |
PURPOSE:To measure the maximum heat treatment temperature of a body to be measured readily without contaminating surrounding parts, by providing layered films of platinum and gold at a part of the surface of the body to be measured, and measuring the maximum value of the heat treatment temperature based on the change in resistance value of the thin gold film. CONSTITUTION:On a silicon wafer 1, a Pt film 5 and an Au film 6 are formed through an Si oxide film 2, a Ti film 3 and a Ti nitride film 4. When heat treatment is performed in the layered film system of Pt and Au obtained in this way, the Pt is diffused into the Au film. The Au film is changed into an Au/Pt film including the Pt. In this case, the resistivity rhoAu/Pt of the Au/Pt film is determined by the concentration of the Pt included in the film. This value is determined by the temperature T, which determines the diffusing phenomenon, heat treatment time (t) and the thickness of the Au film in an univocal manner. Therefore, when the heat treatment time (t) and the thickness of the Au film are already known, the heat treatment temperature T of the wafer can be obtained from the value of rhoAu/Pt. | ||||||
87 | Measuring device of temperature | JP5669784 | 1984-03-23 | JPS60200136A | 1985-10-09 | YASUHARA TAKESHI; IIJIMA TERUAKI |
PURPOSE:To enable the measurement of the maximum value (or minumum value) of temperature without necessitating a power source ordinarily, by converting a temperature into a mechanical position, by memorizing the maximum value (or minimum value) of the temperature as the mechanical position, and by converting same into an electric signal as occasion calls. CONSTITUTION:A temperature-position converter 1 is deformed by a temperature applied thereto, and thereby a configuration memory alloy 2 is deformed. The deformation of the configuration memory alloy 2 is left as it is at a normal temperature even when an applied force is removed. A position-electricity converter 3 outputs an electric signal proportional to the deformation of the configuration memory alloy 2. In this way, the configuration memory alloy 2 maintains the maximum displacement given thereto, and the output of the position- electricity converter 3 is the electric signal propotional to said displacement. Since the highest temperature (or lowest temperature) is thus memorized in the displacement, a power source needs to be impressed only when the electric signal is required. So as to eliminate a memorized value, the configuration memory alloy 2 is heated by a heating body 4, and thereby the displacement can be eliminated. | ||||||
88 | JPS59501267A - | JP50221783 | 1983-06-08 | JPS59501267A | 1984-07-19 | |
89 | JPS5856420B2 - | JP8140678 | 1978-07-04 | JPS5856420B2 | 1983-12-14 | BERUNTOORAINAA FURAIBERUKU; BIRUFURIITO GEERU; YURUGEN RIIBE; HORUSUTO MUSHERUKUNAUTSU |
90 | Display device displaying change of periphery of device so as to be viewed with eye | JP7768283 | 1983-05-04 | JPS58202825A | 1983-11-26 | UENDERU JIEEMUSU MANSUKU |
91 | Device for monitoring increase in local temperature of electric equipment | JP3966482 | 1982-03-12 | JPS58155323A | 1983-09-16 | HIRASAWA KUNIO; OKUMURA KIYOSHI; TAKEUCHI SHIGETAKA; MIYASHITA TAKAO; HONDOU KENICHI |
PURPOSE: To make it possible to detect and monitor the increase in the local temperature of the electric equipment enclosed in a hermetically closed container, by sealing a tracer material, which can perform detection separately from the insulating medium of the electric equipment, in a tracer container, which is opened at a specified temperature, and detecting said tracer material. CONSTITUTION: A screw hole 19 is provided at a part 16 in the vicinity of a current collector 15. The tracer container 17 is provided in the screw hole 19. The tracer container 17 has a hermetically sealed structure. When the insulating medium is air, oil, sulfur hexafluoride, or the like, carbon halide or hydrocarbon halide is sealed in the sealed space as the tracer material 18. A macromolecular compound or a low melting point alloy is used at a part 17d of a container wall 17c as a material, which is melted with the increase in temperature. By adequately selecting the material, which is melted with the increase in temperature and the tracer material 18, which performs detection, the detection of the local temperature increase can be facilitated. COPYRIGHT: (C)1983,JPO&Japio | ||||||
92 | Temperature detecting device | JP17745781 | 1981-11-05 | JPS5879125A | 1983-05-12 | SATOU YUKIO |
PURPOSE:To make it possible to detect the abnormal increase of the temperature of a heating member by a simple constitution, by adequately selecting a fusing temperature of an optical fiber and the distance from the heating member to the optical fiber. CONSTITUTION:A light emitting element 3 is lighted by a power source 2. The light passes the optical fiber 4 and is inputted into a light receiving element 6. Therefore, a light receiving element 6 is turned ON, and the output at an output terminal 7 becomes 0. When the optical fiber 4 is fused and cut out by the heat from the outside, the light from the light emitting element 3 is not inputted into the light receiving element 6, and the light receiving element 6 is turned OFF. Therefore, a potential output, which is determined by a power source Vcc and resistor 5, appears at the output terminal and the abnormal temperature increase is detected. Therefore, the abnormal temperature increase of the heating member can be detected by a simple constitution. | ||||||
93 | Measurement of distribution of furnace temperature | JP9850080 | 1980-07-17 | JPS5723827A | 1982-02-08 | SAKAI TOSHIHIKO; SHIRAIWA TOSHIO |
PURPOSE:To measure the temperature distribution of a furnace directly by detecting the sound generated from a vessel inserted in a furnace and checking the sound generating source. CONSTITUTION:A part of a spherical vessel 1 made of a material with high melting point is composed of a material 2 with low melting point and an oscillation plate 5 is attached with a pin to the part of gas discharging hole 4 penetratd into a dia- phragm 3 separating the inside of the vessel 1 into 2 rooms. When the material 2 with low melting point which constitutes a part of the wall of vessel is melted and opened, high pressure gas inside the room 1a passes through the gas discharging hole 4 penetrated through the diaphragm 3 flows into the external through the said opening, making the oscillation plate 5 oscillate and th sound generate. The vessel 1 is inserted into the furnace and lowered inside the furnace. When the material with a low melting point reaches at its melting point, sound is generated. Sound detectors installed to respective parts of the inwall of the furnace detect the generated sound and the position of sound generation is found from the time difference of the sound detected in each detector. The temperature of the sound generating position is the same as the melting point of the material 2 with its low melting point. | ||||||
94 | Abnormality detector of enclosed type electric power apparatus | JP463580 | 1980-01-21 | JPS56103372A | 1981-08-18 | SHIONO SHIGEO; SHIBATA FUMIO |
PURPOSE:To prevent an accident by providing an electronic detector and a mechanical detector in an enclosed vessel housing a measuring target. CONSTITUTION:The temp. characteristic of a connected part 3 in an enclosed vessel 1 are detected with an electronic detector 14. The temp. signal of the connected part 3 measured with the detector 14 is amplified with an amplifier 17, is totaled by a recorder 19 and is kept monitored at all times. When the temp. of the connected part 3 rises in the event of any trouble in the electronic system such as the electronic detector 14, a detecting circuit 16 and the like, an elastic piece 7 expands and projects. Then, an operating rod 10 ascends and closes a moving contact 11 and a stationary contact 12, then a current flows to an electric display circuit 30 to light a lamp 31 thereby announcing the abnormality of the connected part 3. | ||||||
95 | Constantttemperature control device | JP17081480 | 1980-12-03 | JPS5692426A | 1981-07-27 | SERUJIO MARUCHIAARISU |
96 | JPS5062479A - | JP11135274 | 1974-09-27 | JPS5062479A | 1975-05-28 | |
97 | POWER INTERFACE DEVICE | EP17163964.4 | 2017-03-30 | EP3232519A1 | 2017-10-18 | Yue, Steven |
A power interface device (1) includes a first connecting module (11), a second connecting module (12) and a processing module (10) . The processing module (10) performs the following: receiving a supply voltage (VCC1) through the first connecting module (11) from a power supply device (5) that employs a fast charging technology and that provides, based on an informing output, the supply voltage (VCC1) having a magnitude dependent on the informing output; generating the informing output; outputting the informing output to the power supply device (5) through the first connecting module (11); and starting to output the supply voltage (VCC1) to the second connecting module (12) when determining that a condition associated with the magnitude of the supply voltage (VCC1) is met. |
||||||
98 | Vorrichtung und Verfahren zur Temperaturmessung | EP09171276.0 | 2009-09-24 | EP2302343B1 | 2016-08-24 | Zeng, Yuantong; Braun, Peter; König, René; Bobzin, Marcos |
99 | THERMOMETER WITH COLOR CHANGING DISPLAY | EP06785595 | 2006-06-26 | EP1946055A4 | 2015-08-12 | CRAIG CHRISTOPHER; RUSSAK STEPHEN; HOWANSKY ANDREW P |
100 | Brake manufacturer identification system and method | EP14191535.5 | 2014-11-03 | EP2876010A1 | 2015-05-27 | Cahill, Eric Daniel |
Systems and methods for identification of brake suppliers and vehicle models based on electrical resistance of the brake control unit (20a,20b;310) are disclosed herein. Based on calculated values, both the brake supplier and model of vehicle can be determined. |