子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 121 | The amount of fluid measurement system | JP26404796 | 1996-10-04 | JP3814347B2 | 2006-08-30 | アトキンソン ハリー |
| 122 | Liquid quantity measuring device | JP2003416256 | 2003-12-15 | JP2005172735A | 2005-06-30 | TANI HIROKI; YAMAGUCHI MAKOTO; KUDO TETSUTSUGU; MIZUKUSA KOJI |
| PROBLEM TO BE SOLVED: To provide a liquid quantity measuring device for precisely measuring a liquid quantity flowing from a body to be measured in a short time. SOLUTION: A measuring passage 100 is formed by passage members 12, 14, 16 and 18 and a liquid column 20. The passage member 16 is formed of a translucent material such as a glass material or acrylic material. A bubble 110 formed by air is injected to a test liquid filled in a measuring passage 108 formed by the passage member 16. The measuring passage 108 has a circular section. A diaphragm 40, which is formed of a metallic thin film, is nipped between the passage member 12 and the passage member 14. The diaphragm 40 partitions the measuring passage 100 to a fuel injection valve 1 side and the bubble 110 side. When a leak occurs in the fuel injection valve 1, the bubble 110 moves with the test liquid 120. The leak quantity is calculated from the movement quantity of the bubble 110 in a calculation device 62, based on an image for the moving position of the bubble 110 taken by a camera 60. COPYRIGHT: (C)2005,JPO&NCIPI | ||||||
| 123 | Fluid measurement system | JP2002230928 | 2002-08-08 | JP2003139598A | 2003-05-14 | ATKINSON HARRY |
| PROBLEM TO BE SOLVED: To provide a fluid measurement system capable of measuring a correct fuel quantity even when the fuel rapidly flows into a tank and flows out of it. SOLUTION: This fluid measurement system is provided with sensors 22, 23, 22' and 23' for providing indication values of quantities of fluid introduced into or discharged from the tanks 1 and 1' through entrances 2 and 2' or exits 3 and 3'; probes 11, 12, 11' and 12' disposed in the tanks for measuring the height of the fluid; and processors 30 and 30' for providing the indication values of quantities of fluid by using the outputs of the sensors 22, 23, 22' and 23', for instance, for compensating local rise or depression of fluid surfaces 6 and 6' in regions 8, 10, 8' and 10' of the entrances 2 and 2' or the exits 3 and 3'. | ||||||
| 124 | Resin weighing device | JP19412298 | 1998-07-09 | JP2000028421A | 2000-01-28 | SHIROGAMI NOZOMI; SAKAENO FUMIO; TSUCHIDA HIROSUKE; SAKAI KOICHI |
| PROBLEM TO BE SOLVED: To provide a resin weighing device which allows the quantitative determination of a resin with precision and simple configuration. SOLUTION: A mixed water of a water and a resin whose specific gravity is larger than the water for sedimentation is put on a weighing tank 1, and the resin is weighed while a water layer is separated from a resin layer. Here, a pair of echo type ultrasonic wave sensors wherein the detection signal for the water layer is different from that for the resin layer is provided along vertical direction with a predetermined interval in the weighing tank 1, with the pair of ultrasonic wave sensors constituting sensor group S (S1-S3), the difference in detection signals of the pair of ultrasonic wave sensors of the sensor group S allows detection of a border level between the water layer and the resin layer, and the border level allows weighing of a resin. With this weighing, the border level between the water layer and the resin layer is accurately detected, and an allocation height, for example, of the pair of ultrasonic wave sensors of the sensor group S in the weighing tank 1 is set to a specified value in advance. for quantitatively determining a resin. | ||||||
| 125 | Fuel gange, remaining fuel gange, and evaporated fuel processing device | JP9730398 | 1998-04-09 | JPH11148851A | 1999-06-02 | KATO TAKAHIKO; MIWA MAKOTO; ISOMURA SHIGENORI; MURAMATSU TOSHIHIKO; MINAGAWA KAZUJI; MATSUDA TAKESHI |
| PROBLEM TO BE SOLVED: To provide a remaining fuel gange for automobile which can measure the remaining amount of fuel in a fuel tank with accuracy even when the fuel tank has a flat or complicated shape without utilizing such a sensor as a level gauge, etc., which detects the level fluctuation of the fuel. SOLUTION: A remaining fuel gange 1 is constituted of fuel amount sensor 5 which measures the amount of the fuel fed to a fuel tank 11, a control circuit 7 which stores the remaining amount of the fuel in the tank 11 and calculates the remaining amount of the fuel in the tank 11 from the stored remaining amount of the fuel, the output of the sensor 5, the amount of the fuel injected from a fuel injection valve 14, and the purged amount of the fuel in the tank 11 by evaporation, and a fuel meter 6 which visually indicates the remaining amount of the fuel in the tank 11 updated by means of the control circuit 7. COPYRIGHT: (C)1999,JPO | ||||||
| 126 | Method for finding volume of ground surface between previous place and present place | JP7180897 | 1997-03-25 | JPH1026546A | 1998-01-27 | HENDERSON DANIEL E; KLEIMENHAGEN KARL W; KOEHRSEN CRAIG L; LUESCHOW KEVIN J; STRATTON KENNETH L |
| PROBLEM TO BE SOLVED: To obtain a method in which the productivity of even the movement operation of any kind of soil can be measured by a method wherein the height of a previous ground surface is found, a working machine is passed through a place, the height of a present ground surface is found and the volume difference between the present ground surface and the previous ground surface is calculated as a function of the height of the previous ground surface and the height of the present ground surface. SOLUTION: A calculation means is provided with a microprocessor-based controller 202. Then, by a positioning system 206, the position of a ground surface with reference to an earth reference system or a local reference system is found. A soil movement machine is passed through a measuring place, and the height of a present ground surface is found. Then, the difference between the previous ground surface and the present ground surface ic calculated by the controller 202. The ground surface of a place is expressed by a series of heights, and the heights are recorded in a database 210. Then, in the controller 202, the volume difference between the present ground surface and the previous ground surface is found as a function of the height of the previous ground surface and the height of the present ground surface. The calculated volume difference is equal to the total volume difference between the previous ground surface and the present ground surface. | ||||||
| 127 | Weighing the method and apparatus of the liquid | JP24233494 | 1994-09-08 | JP2672264B2 | 1997-11-05 | クローゼ ジグマー; クラウゼ フリーデマン |
| 128 | Residue quantity of cassette type gas cylinder detecting method and device therefor | JP18214294 | 1994-08-03 | JPH0849855A | 1996-02-20 | MIFUNE HIDEO; NAKAMURA YASUAKI |
| PURPOSE:To detect surely from an outside a residue quantity of a gas in a cassette type gas cylinder accommodating a liquefied gas. CONSTITUTION:A fact that a resonance frequency does not change by a residue quantity of a gas in a cassette type gas cylinder 1, is noticed, and the cylinder 1 is set in a gas appliance. A transmitter device 11 and a receiver 12 are set in a position wherein an output electric voltage of the transmitter 12 becomes equal to or greater than a specific value at respectively the specified resonance frequency and a gas residue quantity which is intended to detect, with a position opposing to a welded section of a cylinder shell 2 of the gas cylinder as a reference. And, the gas residue quantity of a liquefied gas in the cylinder is detected by detecting a signal reception output value equal to or greater than the specific value. | ||||||
| 129 | 化妆品容器 | CN201090001358.1 | 2010-12-10 | CN202858175U | 2013-04-10 | 丁海元; 俞昌奎; 金珍景; 张礼钟; 金以和; 崔素荣 |
| 本实用新型涉及包含活塞的化妆品容器。当操作无气分配泵时,随着该活塞沿容器内壁且在该内壁上向上升起,使得容器中盛装的内容物一直到达无气分配泵的内容物入口。更具体地,本实用新型涉及这样一种结合活塞的上升运动来表示容器中内容物剩余量的化妆品容器。根据本实用新型的一种化妆品容器,包括:容器主体;安装于容器主体的无气分配泵;安装在容器主体中的活塞,当操作无气分配泵时,随着该活塞沿着容器主体的内壁且在该内壁上向上移动,使得容器主体中盛装的内容物的最上面高度到达无气分配泵的内容物入口;以及结合活塞的上升运动来表示容器主体中内容物剩余量的指示器。 | ||||||
| 130 | 一种多功能汤勺测温电子磅 | CN201220522560.X | 2012-10-12 | CN202903311U | 2013-04-24 | 郭燕卿 |
| 本实用新型属于厨具技术领域,具体地说,涉及一种多功能汤勺测温电子磅。本实用新型包括汤勺、温度探针和手柄壳体,所述汤勺设有插头,所述温度探针设有信号传输接头,所述手柄壳体设有与插头以及信号传输接头相配合的感应接口,所述手柄壳体设有测量芯片、显示屏、按键以及电源接口;测量芯片分别与所述感应接口、显示屏以及电源接口连接,所述显示屏与电源接口连接。本实用新型通过设计汤勺、温度探针和手柄壳体,以及在手柄壳体设有测量芯片,使其具有测量食物重量、液体体积以及食物加热温度的功能,使用方便,操作简单。 | ||||||
| 131 | 계량 유닛의 모니터링 장치 | KR1020180005382 | 2018-01-16 | KR1020180084658A | 2018-07-25 | |
| 본발명은계량유닛을모니터링하기위해드롭수용부를포함하는장치에관한것이며, 상기계량유닛의드롭수용부상단면에드롭이제공될수 있다. 또한, 상기드롭수용부위에제공된드롭지름을측정하기위해이미지캡처및 분석장치, 그리고드롭의무게를측정하기위한저울이추가로제공되는것을특징으로한다. | ||||||
| 132 | 돼지 부피 측정 시스템 및 그 방법 | KR1020160149239 | 2016-11-10 | KR101856741B1 | 2018-06-20 | 김현태; 왕은철; 조재민; 김희태; 정호준; 문병은; 조진석; 이민호; 김성식 |
| 본발명의돼지부피측정을위한시스템에관한것으로, 그내부에수용된돼지의치수및 측면굴곡을측정하기위한돼지데이터취득장치; 및돼지데이터취득장치와통신가능하도록결합되고, 모형돈에대한등 길이데이터, 모형돈의측면의복수지점에서측정된복수의굴곡데이터, 길이데이터와복수의굴곡데이터를이용하여형성된 3D 모델링파일를저장한분석장치를포함하고, 돼지데이터취득장치는, 돼지데이터취득장치내에수용된돼지의등 화상과측면에서의하나의측면굴곡데이터를수집하여분석장치로전송하도록구성되고, 분석장치는상기돼지데이터취득장치로부터전송된등 화상과측면굴곡데이터를이용하여돼지의부피를측정하도록동작한다. | ||||||
| 133 | 액체량 전달 시스템, 액체 주입 장치, 무인기 및 액체 용기 | KR1020177032753 | 2017-04-17 | KR1020170139062A | 2017-12-18 | 펑,빈; 리,덩펑 |
| 본개시는액체량전달시스템, 액체주입장치, 무인기및 액체용기에관한것으로서, 그중상기시스템은액체주입장치, 액체용기및 무인기를포함하고, 액체주입장치는제1 통신모듈, 제1 제어기및 제1 유량검출모듈을포함하고, 액체용기는제2 통신모듈을포함하고, 무인기는제3 통신모듈, 제3 제어기및 제2 유량검출모듈을포함한다. 제1 제어기는제1 통신모듈을통해제2 통신모듈로부터나머지액량값을획득하고, 나머지액량값과총 주입액량값에근거하여목표주입액량값을확정하고; 주입을완성한후 제1 통신모듈을통해총 주입액량값을제2 통신모듈에송신하고; 제3 제어기는제3 통신모듈을통해제2 통신모듈로부터총 주입액량값을획득하고, 살포를완성한후, 제3 통신모듈을통해나머지액량값을제2 통신모듈에송신한다. 본발명이제출한액체량전달시스템은, 자동으로정확하게액체를주입할수 있고, 이리하여작업효율을향상한다. | ||||||
| 134 | 주사기 조립체 및 주사기 조립체 사용 방법 | KR1020170053643 | 2017-04-26 | KR1020170122147A | 2017-11-03 | 치-생타이 |
| 본발명은주사기조립체및 주사기조립체를사용하여주사하는방법에관한것이다. 주사기조립체는초음파구성요소(an ultrasonic element), 가이드튜브및 주사기로구성된다. 초음파구성요소는초음파신호를발생시키고초음파신호의반사를수신하기위해사용된다. 가이드튜브는제1 접속단자및 제2 접속단자를포함한다. 주사기및 가이드튜브는제2 접속단자에의해서로연결된다. 본발명에따른주사기조립체는샘플링(sampling), 액상높이검출(liquid level detection), 막힘현상(clog) 검출및 액상용적(liquid volume) 검출을수행할 수있다. | ||||||
| 135 | 유압 작동식 피팅의 위치 표시 방법 및 장치 | KR1020157015990 | 2013-11-11 | KR101780134B1 | 2017-09-19 | 슈톨즈잉고; 쁘라스하인리히 |
| 본발명은유압작동식전기자(1.1)를작동시키기위한실린더(1.2)를구비하고, 실린더가 2개의유압라인(2, 3)에의해스위치밸브(7)에접속되어, 유압라인이가압수행공급흐름과비가압리턴흐름사이에서전환될수 있는유압작동식전기자의위치를표시하기위한방법에관한것으로, 유압라인중 하나를통해흐르는유압액의흐름은다수의전기펄스로변환되고, 각각의펄스는유압액의용적의미리결정된단위에대응하고, 스위치밸브(7)는추가전기자(1.n)의작동을위해추가스위치밸브(7)가접속되는공급라인(P)에접속되며, 스위치밸브(7)는분기라인을통해모든전기자(1.1 내지 1.n)에공통인리턴라인(T)에접속되고, 리턴라인(T)에대한분기라인(T1)에있는각각의스위치밸브(7)에서, 프리로드압력이공통의리턴라인(T)에서의압력보다높게유지된다.또한, 관류(throughflow) 카운터의펄스들을처리하고학습사이클을수행하는프로그램이제공된다. | ||||||
| 136 | 유체 흐름 제어 장치 | KR1020167024287 | 2012-12-21 | KR101702279B1 | 2017-02-03 | 카멘딘; 페렛밥디.; 케인데렉쥐.; 유브라이언에이치.; 트레이시브라이언디.; 존슨매튜제이.; 슈넬링거토마스에스.; 랑겐펠드크리스토퍼씨.; 라니간리차드제이.; 브라이언트주니어로버트제이.; 머피콜린에이치.; 커윈존엠.; 슬레이트마이클제이.; 우스만파루크; 클라크케이틀린에스. |
| 유체흐름을조절하기위한장치, 시스템및 방법이개시된다. 상기장치는, 탄성적으로변형가능하며, 제1 단부와제2 단부를갖는만곡된세장형지지부재를포함한다. 상기장치는만곡된세장형지지부재에대해제1 단부와제2 단부사이에튜브를배치하도록구성된대향지지부재를또한포함한다. 상기제1 단부와제2 단부가서로를향해이동함으로써만곡된세장형지지부재가변형되어상기튜브의길이를따라내부체적이감소하게된다. | ||||||
| 137 | 유체 흐름 제어 장치 | KR1020177001238 | 2012-12-21 | KR1020170010080A | 2017-01-25 | 카멘딘; 페렛밥디.; 케인데렉쥐.; 유브라이언에이치.; 트레이시브라이언디.; 존슨매튜제이.; 슈넬링거토마스에스.; 랑겐펠드크리스토퍼씨.; 라니간리차드제이.; 브라이언트주니어로버트제이.; 머피콜린에이치.; 커윈존엠.; 슬레이트마이클제이.; 우스만파루크; 클라크케이틀린에스. |
| 유체흐름을조절하기위한장치, 시스템및 방법이개시된다. 상기장치는, 탄성적으로변형가능하며, 제1 단부와제2 단부를갖는만곡된세장형지지부재를포함한다. 상기장치는만곡된세장형지지부재에대해제1 단부와제2 단부사이에튜브를배치하도록구성된대향지지부재를또한포함한다. 상기제1 단부와제2 단부가서로를향해이동함으로써만곡된세장형지지부재가변형되어상기튜브의길이를따라내부체적이감소하게된다. | ||||||
| 138 | 지하수-지표수 경계대에서의 물 및 물질 배출량 측정장치 | KR1020150013502 | 2015-01-28 | KR1020160092739A | 2016-08-05 | 이봉주; 이지훈 |
| 본발명은지표수/퇴적물경계면(surface water/sediment interface)을통하여하천, 호수및 해수로유출되는지하수를지표수와혼합됨이없이집수하는장치및 방법에관한것으로, 본발명에따르면, 지표수/퇴적물경계면을통하여유출되는지하수를지표수와혼합됨이없이집수하기위해, 하부는열려있으나상부는닫힌원통형의챔버를지표수/퇴적물경계면직하부의퇴적물에매설하고, 챔버와부표에고정된집수실린더를튜브로연결하여지하수의수두(hydraulic head)가지표수의수두보다높을경우에만지표수/퇴적물경계면을통하여유출되는지하수를포획하여집수하도록구성되는지하수-지표수경계대에서의물 및물질배출량측정장치및 이를이용한지하수-지표수경계대에서의물 및물질배출량측정방법이제공된다. | ||||||
| 139 | 드릴비트의 천공효율 시험장치 및 시험방법 | KR1020140000844 | 2014-01-03 | KR101500571B1 | 2015-03-10 | 조정우; 이재욱; 오주영; 박진영; 정명식; 김다혜 |
| 본 발명에 따른 드릴비트의 천공효율 시험장치 및 시험방법은 버튼 배열에 따른 암석 파쇄량을 구함으로써 최적의 버튼 배열을 얻을 수 있도록 한다.
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| 140 | 유체 흐름 제어 장치 | KR1020147019883 | 2012-12-21 | KR1020140106705A | 2014-09-03 | 카멘딘; 페렛밥디.; 케인데렉쥐.; 유브라이언에이치.; 트레이시브라이언디.; 존슨매튜제이.; 슈넬링거토마스에스.; 랑겐펠드크리스토퍼씨.; 라니간리차드제이.; 머피콜린에이치.; 커윈존엠.; 슬레이트마이클제이.; 우스만파루크; 클라크케이틀린에스. |
| 유체 흐름을 조절하기 위한 장치, 시스템 및 방법이 개시된다. 상기 장치는, 탄성적으로 변형가능하며, 제1 단부와 제2 단부를 갖는 만곡된 세장형 지지 부재를 포함한다. 상기 장치는 만곡된 세장형 지지 부재에 대해 제1 단부와 제2 단부 사이에 튜브를 배치하도록 구성된 대향 지지 부재를 또한 포함한다. 상기 제1 단부와 제2 단부가 서로를 향해 이동함으로써 만곡된 세장형 지지 부재가 변형되어 상기 튜브의 길이를 따라 내부 체적이 감소하게 된다. | ||||||
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