201 |
Apparatus and method for automatically measuring capacity of container |
JP2004228134 |
2004-08-04 |
JP2006047104A |
2006-02-16 |
NAKANO MINORU; TANAKA NAOHIRO; YAMAMOTO YOSUKE |
PROBLEM TO BE SOLVED: To provide an automatic container capacity measuring apparatus capable of acquiring reliable measurement results by securing the levelness of containers.
SOLUTION: A container tray 5 capable of mounting a container P is provided for a measuring platform 4 in such a way as to be separated. At the measurement of the weight of the container P, the container tray 5 is abutted with the measuring platform 4 and mounted to the measuring platform 4. At the sensing of the height of the top surface of the container P and the liquid level of a liquid, the container tray 5 is separated from the measuring platform 4 and made to horizontally float and supported above the measuring platform 4.
COPYRIGHT: (C)2006,JPO&NCIPI |
202 |
Apparatus for measuring volume of engine combustion chamber |
JP2004043626 |
2004-01-21 |
JP2005208016A |
2005-08-04 |
ISHII YASUSHI |
PROBLEM TO BE SOLVED: To enable precise and quick and measurement of the volume of an engine combustion chamber having a complicated shape, in a dried state as it is, in the manufacturing process of engines.
SOLUTION: In the apparatus, a reference vessel is mounted on the combustion chamber of a transposed engine block and an alternating volume change is applied differentially to the inside spaces of the reference vessel and the combustion chamber by a speaker. The amplitude ratios of pressure changes for the two inside spaces that occur at the time are measured, and then the volume difference between the combustion chamber and a reference vessel can be determined from the ratio of the reference vessel mounted on the combustion chamber and the ratio of the reference vessel mounted on the standard vessel.
COPYRIGHT: (C)2005,JPO&NCIPI |
203 |
Acoustic volume meter |
JP21044896 |
1996-07-23 |
JP3668860B2 |
2005-07-06 |
泰 石井 |
|
204 |
Injection quantity measuring device |
JP5045196 |
1996-03-07 |
JP3632282B2 |
2005-03-23 |
秀章 原 |
|
205 |
Apparatus and method for integrating fuel supply mechanism and fuel level sensing pressure sensor |
JP2004124074 |
2004-04-20 |
JP2004327438A |
2004-11-18 |
THIELMAN JEFFREY L; WILSON RHONDA L |
PROBLEM TO BE SOLVED: To realize an apparatus and method for integrating a fuel supply mechanism and a fuel level sensor to reduce the likelihood of fuel leaks and provide a user with an accurate estimation of the remaining fuel within the fuel supply mechanism.
SOLUTION: The fuel supply mechanism includes a fuel container having an interior chamber for containing fuel, and a pressure sensing unit 210 disposed within the interior chamber of the fuel container. The pressure sensing unit 210 is configured to provide an output signal indicative of an amount of fuel remaining in the fuel container.
COPYRIGHT: (C)2005,JPO&NCIPI |
206 |
High purity x chromosome held sperm population and y chromosome holdings sperm population of |
JP2001582502 |
2001-05-09 |
JP2003532411A |
2003-11-05 |
ケネス エム. エバンズ,; ムンステル, エリック ベー. ファン |
(57)【要約】 高い純度を有する、天然には存在しない精子の単離された集団(15)、ならびに質量、容量、配向または発光される光のような特徴に基づいて、精子(28)を区別する技術であって、分析の方法ならびにビーム形成光学要素(30)および検出器(32)のような装置を含む。 本発明の幅広い目的は、単離された高純度のX染色体保有集団およびY染色体保有集団の精子を提供することであり得る。 高純度を有する、単離された非天然の集団の精子は、高純度集団の精子に対する適用のほんの数例として述べる、哺乳動物からの子孫の性選択、卵の授精のための種々のインビトロプロトコル、人工授精のような種々のインボプロトコル、受賞動物または食肉動物の産生を含むビジネス方法、あるいは希少なまたは絶滅の危機にある動物の保存を含む多くの適用を有する。 |
207 |
Tank liquid level detection method and apparatus |
JP51284393 |
1993-01-13 |
JP3192145B2 |
2001-07-23 |
デンツ・ヘルムート; ブルーメンシュトック・アンドレアス |
|
208 |
Measurement of the amount of incompressible material in the sealed container |
JP50244399 |
1998-05-14 |
JP2000513110A |
2000-10-03 |
シュミット,ジョン,ヴィ.; マーシュ,リチャード,エー. |
(57)【要約】 処理用物質を、処理用物質貯蔵スペースを画成すると共に、該貯蔵スペースと連通する導管に接続される貯蔵容器から、処理ステーションヘ搬送し、この貯蔵容器及び導管が上記貯蔵スペースを含む容積を囲んでいるプロセス及び装置において、該貯蔵スペースにおける処理用物質の量を測定するための方法及びシステムであって、この測定は、貯蔵容器及び導管により囲まれた容積を閉じ;該容積がそれぞれ第1、第2のガス量を含むときに、該容積におけるガス圧力を計測するため第1、第2の圧力測定を行い;前記第1、第2のガス量間の差を求め;上記容積と、上記第1、第2のガス量間の差と、上記第1、第2の圧力測定中に計測したガス圧力とに基づいて貯蔵スペース内の処理用物質の量を演算することによりなされる。 |
209 |
Leak testing method and apparatus of the container |
JP33118496 |
1996-12-11 |
JP3001820B2 |
2000-01-24 |
マーチン・レーマン |
|
210 |
Methods for fluorescence measurement of the volume of the surface which was engraved the cell |
JP21833594 |
1994-08-22 |
JP2767555B2 |
1998-06-18 |
RASERU EMU MOOGAN |
|
211 |
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. |
212 |
Measurement of nuclear material that has been removed during discectomy surgery |
JP52553595 |
1995-01-19 |
JPH09505502A |
1997-06-03 |
キ−ビン バオ, |
(57)【要約】 椎間板(40)から核物質を除去する外科手術の後に、椎間板(40)に形成された孔部(42)の容積を測定する方法であって、柔軟性を有し膨張可能である収縮した既知の容積の容器(31)を孔部(42)へ挿入する工程と、目盛りの付された液体(L)の供給源(10)から液体(L)を容器(31)へ流入させ、容器(31)により孔部(42)が完全に充填されるまで容器(31)を膨張させる工程と、容器(31)により孔部(42)を完全に充填するために必要とされる液体(L)の容積を測定し、柔軟性を有し膨張可能である収縮した容器(31)を充填するのに必要とされる液体(L)の容積と、収縮した容器(31)自身の容積との和に等しい孔部(42)の容積を算出する工程とを有する。 孔部(42)の形状を判定するための方法は、上記方法における液体(L)に対して対照組成物を添加する工程と、撮像装置内に椎間板(40)を配置する工程とを有する。 また、椎間板(40)から核物質を除去する外科手術を行った後の椎間板(40)に形成された孔部(42)の容積を測定する装置は、柔軟性を有し膨張可能である収縮した容器(31)と、容器(31)を膨張させるための、目盛りが付された液体(L)の供給源(10)と、容器(31)と液体供給源(10)との間を連結するための連結手段(33)とを有して構成されている。 さらに、椎間板(40)の形状を判定する装置は、撮像装置を有して構成され、液体(L)には対照組成物が添加されている。 |
213 |
Method and device for testing hollow body |
JP3564095 |
1995-02-23 |
JPH0835906A |
1996-02-06 |
MAACHIN REEMAN |
PURPOSE: To provide a simple testing method and a testing device with excellent reliability for a hollow container capable of carrying out the pressure deformation test of the container. CONSTITUTION: At least one hollow container 1 is arranged in a test chamber 3 having the volume to be determined according to the volume of the hollow container 1, the inside of a reference chamber 29 of the prescribed volume is pressurized to the prescribed pressure, the prescribed pressure is discharged from the reference chamber 29 to the test chamber 3, and the strength S(P3 ) corresponding to the pressure P3 (a), P3 (b) in the test chamber 3 is measured to evaluate the volumetric change of the hollow container 1 before and after pressurization. |
214 |
JPH0535369B2 - |
JP14395184 |
1984-07-10 |
JPH0535369B2 |
1993-05-26 |
ATAKE MINORU |
|
215 |
Method for measuring the mass of liquid in storage tank |
JP2103092 |
1992-02-06 |
JPH0597182A |
1993-04-20 |
ROORA EREIN BURAUAA; SHIU HANGU CHIYAN; KIISU DEBIISU; JIYOSEFU AREKISANDAA PURUKOUSU |
PURPOSE: To measure the unknown mass of liquid by realizing a method to determine the sum of mass of a tank and the unknown liquid based on calibration values representing the specific heat of a tank and the contents, and data on temperature rise of the tank and the contents. CONSTITUTION: A storing tank, for example a fuel tank, is provided with multiple heaters 220a to 220f, 222a to 222f to keep temperature of a fuel. To measure temperature, multiple thermocouples 226, 228 are also provided. The calibration includes measuring the mass of the empty tank, and is accomplished by applying a measured amount of heater power or energy to the tank and its contents, and measuring the temperature rise. The product of the tank mass by the temperature rise divides the first value of the heat energy to calculate the specific energy data of the tank to determine the first calibration value. After then, the unknown mass of the fuel is determined based on the second calibration value set in the same manner as above. |
216 |
JPH0320697B2 - |
JP7858284 |
1984-04-20 |
JPH0320697B2 |
1991-03-20 |
IDEMOTO MORIHITO; AWATA RYOICHI; NOGUCHI YASUO |
|
217 |
JPH0225122B2 - |
JP16011581 |
1981-10-09 |
JPH0225122B2 |
1990-05-31 |
YAMAGUCHI YOSHUKI; IWAHAMA YOHEI |
|
218 |
JPH0217066B2 - |
JP20144283 |
1983-10-27 |
JPH0217066B2 |
1990-04-19 |
TSUJI YOSHIHIRO; YASUI KATSU; TACHIKAWA HAJIME; OOSHIRO KAZUTOSHI; AOKI YOSHIHITO |
|
219 |
Method and equipment for determining cross-sectional area of solid object |
JP32477088 |
1988-12-22 |
JPH026704A |
1990-01-10 |
FUIRITSUPU RODONII RATORIFU; JIYOOJI AANORUDO BAIZEZU |
PURPOSE: To determine the cross-sectional area of turbine blade by putting a solid object into a liquid of a specified volume, measuring variation of the volume of displaced liquid, and calculating the cross-section of solid object as a function of immersed length.
CONSTITUTION: A tank 10 is filled with a liquid 12 (e.g. water) up to level L, and a blade 14 is suspended from an immersing means. The immersing means is constructed by connecting the blade 14 with a weight 26 of corresponding weight through a wire 24 and entraining the wire 24 about pulleys 18, 20, 22. The pulley 20 is moved by a moving means 28 and the blade 14 is immersed into the liquid 12. Apparent variation of weight dW of the blade 14 due to buoyancy is determined by means of a balance 30 supporting the weight 26 and a signal corresponding to weight variation per unit time dW/dt is inputted to a computer means 32 along with dy/dt. Since the (dW/dt)/(dy/dt) is proportional to the cross-sectional area of blade 14, cross-sectional area of blade 14 can be determined for the increment of length along the length (y) of blade 14 immersed into the liquid 12.
COPYRIGHT: (C)1990,JPO |
220 |
Method and device for determining and indicating quantity ofstored liquid or solid raw material |
JP27271786 |
1986-11-15 |
JPS62175622A |
1987-08-01 |
BARUTERU NIKORAI |
|