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 | JPH05509242A - | JP50650891 | 1991-04-02 | JPH05509242A | 1993-12-22 | |
122 | Method and apparatus for measuring and estimating total use amount of paper and unnecessary spoilage quantity of rotary press | JP14328490 | 1990-05-30 | JPH0330950A | 1991-02-08 | KAARU AKUSERU GURUSUTORANDO; SUBUEN AANE ROORANDO SUTORENBE |
PURPOSE: To automatically collect and process the data of the final result related to paper consumption and spoilage by generating a signal showing the wt. of a paper roll by a weighing machine to send the same to a computer and sending a signal showing printing force to the computer by a converter. CONSTITUTION: In a rotary press 1, a weighing cell 18 is provided under an unwinding frame 2 so as to become a part of two legs of the unwinding frame 2. The signal generated by the weighing cell 18 and showing the instantaneous wt. of a paper roll 8 and an improper value such as a part of the wt. on the unwinding frame 2 or the like is sent to a tare subtracting unit 19 and the improper value is subtracted as a tare and, subsequently, the signal showing only the instantaneous wt. of the paper roll 8 is sent to a computer 14. A converter 17 is arranged in the rotary press 1 to generate a signal showing operated printing force and this signal is sent to the computer 14. The sent signals are processed by the computer 14 to control or manage a process for producing taking-up paper 12. COPYRIGHT: (C)1991,JPO | ||||||
123 | JPS61102921U - | JP18923384 | 1984-12-13 | JPS61102921U | 1986-07-01 | |
124 | Determination of load applied to clothings or cloth in rotary drum of washer or dryer, drum washer and dryer | JP22508184 | 1984-10-25 | JPS60111691A | 1985-06-18 | DEIDEIE ROORAN; JIYAN KUROODO JIE |
125 | Measuring method of phosphoric acid salt film | JP11025483 | 1983-06-21 | JPS603548A | 1985-01-09 | KOJIMA TAKASHI; YAZAKI AKIKO |
PURPOSE:To measure easily the weight and component of a film of phosphoric acid salt (salt film hereunder) on the metallic surface of an iron stem by stripping and dissolving the salt film by an aq. soln. contg. sodium hydroxide and triethanol amine. CONSTITUTION:The salt film on the metallic surface of an iron stem is stripped and dissolved by an aq. soln. contg. sodium hydroxide and triethanol amine. The weight and component of the salt film are measured. A colorimetric analysis method is used to measure the weight and component of the salt film. The phosphoric acid radical in the aq. soln. contg. the salt film is measured and the weight of the salt film is determined by converting said value. The concn. of the above-mentioned sodium hydroxide is preferably 2-25% and the concn. of the triethanol amine is preferably 0.5-10%. The stripping and dissolution of the salt film by such aq. soln. are accomplished preferably at an ordinary temp. in consideration for ease of operation. | ||||||
126 | Metal identification dispensor | JP10251983 | 1983-06-08 | JPS59146392A | 1984-08-22 | HAABAATO ETSUCHI JIYAMUGOCHIAN; JIYOSEFU ERU REBASOOA |
127 | Method of diagnosing inside of rotary kiln | JP11195782 | 1982-06-28 | JPS591983A | 1984-01-07 | TOKUKASA KUNIHIKO; MIZOGAMI NOBUO; TANAKA HIROYUKI |
128 | Load detector | JP7414981 | 1981-05-19 | JPS57189022A | 1982-11-20 | HASEGAWA YUTAKA; NIKUDO YOSHIYO; EMOTO SHINICHI |
PURPOSE:To obtain a high-precision measured value by simple structure, by providing a mounting board for a body to be measured supported by two load gauges on a slanging base pivoted at one end, a means for constraining the motion of the mounting board along the top surface of the slanging base. CONSTITUTION:On a slating base 5 which has one end pivoted on a stanchion 7 by a shaft 8 and the other end supported by a hydrualic cylinder 10 in an upwardly and downwardly movable state, load gauges 3 (3a and 3b) and 4 (4a and 4b) are arranged at intervals. Then, a mounting board 2 is supported on the load gauges 3 and 4 and a body 1 to be measured is placed and fixed on the board 2. The motion of the board 2 along the top surface of the base 5 is constrained by a rod 6. The weight of the body is measured with the base 5 held horizontal and the center of gravity of the body 1 in a plane is found from measured values from the load gauges 3 and 4. Then, the base 5 is slanted and the weight is measured; and the height H of the center of gravity is found from the measured values of the load gauges 3 and 4, the angle of inclination, and the weight of the body 1. | ||||||
129 | JPS5513731B2 - | JP13857876 | 1976-11-19 | JPS5513731B2 | 1980-04-11 | |
130 | Artificial liver | JP13857876 | 1976-11-19 | JPS5275093A | 1977-06-23 | REETOBITSUHI BAIKUHARUTO |
131 | METHODS OF MANIPULATING SMALL AMOUNTS OF SOLIDS | PCT/US0335169 | 2003-11-03 | WO2004041435A3 | 2005-03-03 | KANE NATHAN; CIMA MICHAEL; GONZALEZ-ZUGASTI JAVIER; CHERNG JEAN-PEI; LEMMO ANTHONY V; GYORY J RICHARD; PRYCE-LEWIS WENDY; CHEN HONGMING |
The invention relates to methods and apparatuses for manipulating small amounts of solids. Specific embodiments of the invention are particularly suited for the automated transfer of small amounts of solids. In one embodiment, a uniform powder bed is lightly compressed into plugs of powder and dispensed. In another embodiment, the solid is placed in a liquid carrier to form a slurry, dispensed, and the liquid component is subsequently removed. In yet another embodiment, solids are manipulated using adhesive surfaces. | ||||||
132 | METHOD AND APPARATUS FOR MANIPULATING AND MEASURING SOLIDS | PCT/US0334945 | 2003-11-03 | WO2004042327A2 | 2004-05-21 | CHERNG JEANIE; CIMA MIKE; GONZALEZ-ZUGASTI JAVIER; KANE NATHAN; LEMMO ANTHONY; MOORE CHRISTOPHER; SLOCUM ALEX |
Methods of manipulating (e.g., obtaining, separating, and moving) and weighing solids, particularly dry powders, are disclosed. Also disclosed are devices that can be used to accurately and manipulate solids such as, but not limited to, dielectrophoresis-based devices, coring devices, and micromechanical tweezers. | ||||||
133 | SYSTEMS AND METHODS FOR WEIGH SCALE PERIMETER MONITORING FOR SCANNER-SCALES | PCT/US2012040605 | 2012-06-01 | WO2012167196A2 | 2012-12-06 | O'DONNELL PATRICK M; MCQUEEN ALEXANDER M |
Systems and methods for reducing erroneous weighing of items such as by detecting items extending beyond a periphery of a weigh platter (420), particularly one for a scanner-scale (400, 450), whereby in certain configurations, the system employs a light guide (430, 431, 531 ) for routing a light beam (432, 438, 588) to a detector (440, 440a) operative to detect interruption of the beam due to an item encroaching upon or overhanging an edge of the platter (420). The light guide (430, 431, 531 ) may extend the length of the platter (420) or less depending upon the various possible locations for the detector(s) (440, 440a) and the light sources (426, 576). | ||||||
134 | WEIGHING APPARATUS HAVING A ROTATING LOAD RECEIVING SURFACE | PCT/US2007080317 | 2007-10-03 | WO2008042965A2 | 2008-04-10 | DRAPER CRAIG M; RICE THOMAS S |
A weighing apparatus having a weighing system, a drive system, and a vertical force minimizing system is described. The weighing system may include a load receiving surface and a plurality of load cells. The drive system may be any system which may cause the load receiving surface to rotate about its vertical axis. The vertical force minimizing system may be any system which may reduce the amount of vertical force that may be applied to the load cells through the drive system while effectively transmitting necessary forces in the transverse direction to provide rotational motion. | ||||||
135 | 重量传感器测量米箱米量装置 | CN201220455986.8 | 2012-09-07 | CN203249685U | 2013-10-23 | 张兵 |
本装置是一种用在智能煮饭器具上利用传感器测量米箱内米重量的装置。重量传感器测量米箱米量装置包括:米箱组件、支撑盘、电子传感器(两件)、球阀、洗米容器和支撑架。具体方案是:将球阀和洗米容器分别依次安装在米箱组件的下方,将支撑盘紧固在米箱组件的底面,将两件电子传感器固定在支撑盘下,然后将支撑架安装在电子传感器下。用数据传递线将电子传感器与集成电路和显示屏相连结。本装置通过重量电子传感器测量,可以利用显示屏随时显示在米箱内米的重量,也能显示每次加入饭锅内米的重量。 | ||||||
136 | 杂质自动称重装置 | CN201320431145.8 | 2013-07-18 | CN203479653U | 2014-03-12 | 刘亚洲; 乔纳森·W·克莱普斯; W·赵; 威廉·C·伊斯特迪; 佩曼·德库尔迪; 和森·M·古拉其 |
本实用新型公开了一种对从纤维样品中分离的杂质进行自动称重的装置。其包括:秤、位于秤上的称重盘,清洁器用于在秤没有进行称重时将清洁元件经过称重盘表面,和用于有选择地控制秤和清洁器的操作和顺序的控制器。 | ||||||
137 | 糞便をモニターできるスマートトイレ | JP2018535211 | 2015-09-24 | JP2018536171A | 2018-12-06 | 王忠堂 |
【課題】糞便をモニターできるスマートトイレを提供する。 【解決手段】糞便をモニターできるスマートトイレは便器1、便器蓋2、伸縮可能昇降装置3、糞便サンプル採集装置4、糞便検体プレ処理装置6、糞便サンプル検知分析装置7、伸縮可能照明撮影装置8、スマートターミナル5を有する。本発明は全行程で排便過程をモニターでき、糞便の一般性状及び寄生虫或いはその卵の有無を観察でき、計量でき、糞便サンプル自動採集、糞便検体プレ処理、及び糞便血液成分、pH、胆汁成分、食物成分の化学検知分析を実現できる。本発明による排便行為学データ取得、糞便サンプル化学性状検査の全行程は便器1内で自動的に完成され、臨床医の動態データ取得に有利で、化学検査人員が糞便に触れなくとも、病人の糞便の一般性状検査、物理化学検査、顕微鏡検査を完成でき、化学検査人員の作業条件を極めて大きく改善でき、医療機関ユーザーに利便を提供できる。 【選択図】 図2 |
||||||
138 | 情報処理装置、情報処理プログラム、情報処理システム及び情報処理方法 | JP2016128917 | 2016-06-29 | JP2018005396A | 2018-01-11 | 伊藤 栄信; 二村 和明 |
【課題】多様な機器から動的入力を容易にすることが可能な情報処理装置、情報処理プログラム、情報処理システム及び情報処理方法を提供することを目的としている。【解決手段】電子帳票において、入力フィールドの属性として記述された機器情報に基づいて機器を発見する機器発見部と、前記機器情報に基づいて、前記機器と対応する機器制御モジュールを動的に組み込む機器制御組込部と、前記機器から取得したデータを前記入力フィールドに挿入するデータ挿入部と、を有する。【選択図】図1 | ||||||
139 | 医薬品を調合するためのシステムおよび方法 | JP2017513191 | 2015-09-08 | JP2017528224A | 2017-09-28 | サンドマン クリスティアン; トーマス マット; マレー クリス; ハンケ クリスティアン; ヘレナー ヘルムート; タネン ロバート; チュルポー マシュー; カート ウィット エリック |
医薬品を調合するためのシステムは、医薬品を調合するための指令を作業者に与えるユーザーインタフェースおよびこのユーザーインタフェースに対して操作可能に結合される少なくとも1つのプロセッサを具えた演算機器と、前記少なくとも1つのプロセッサに対して操作可能に結合される秤量器と、前記少なくとも1つのプロセッサおよび前記秤量器に対して操作可能に結合され、かつ前記医薬品の調合中に用いられる要素および前記医薬品の少なくとも一方の画像を取り込むように配された画像取込装置とを具えている。 | ||||||
140 | 湿度依存質量測定装置および湿度依存質量測定方法 | JP2016514782 | 2015-05-28 | JPWO2016189718A1 | 2017-06-15 | 友香理 井土; 幹也 倉本 |
湿度依存質量測定装置(1)は、内部に試料を収容しうる空間が形成され、かつ、天井に内部の空間と外部とを通じる貫通孔が形成され、内部の雰囲気が定めた温湿度に保たれる恒温槽(11)と、恒温槽(11)の上に支持される天秤(12)と、天秤(12)の計量皿支持部から吊り下げられて恒温槽(11)の貫通孔にその内周面に接触せずに挿通され、恒温槽(11)の内部で試料を保持する計測治具と、側面に空気の流入口と流出口が形成され、計測治具の恒温槽(11)と天秤(12)との間の部分を、計測治具が計量皿支持部から吊り下げられた状態で接触せずにその内部に収容する被覆箱(13)と、流入口から被覆箱(13)に規定の湿度以下の乾燥空気を流入させる乾燥空気供給装置(14)と、で構成される。 |