1 |
Sulfur recovery unit for the sealed observation element |
JP50937797 |
1996-08-09 |
JP2000502435A |
2000-02-29 |
タガト,ジョージ、ダブルュー; ルーイス,ジェイムズ、イー; ワード,クレイグ、エス |
(57)【要約】 硫黄回収ユニットの操作中に溶融液体の流れを見るための密閉観察素子は、加熱され、1つ以上の抽気環を通って供給される浄化ガスで清掃されてプロセス流に曝露される覗きガラスの側面上に物質が凝縮又は沈着するのを防止する少なくとも1つの覗きガラスを含む。 |
2 |
JPS6161606B2 - |
JP3296082 |
1982-03-01 |
JPS6161606B2 |
1986-12-26 |
ANRI BENAARU; JAN ENOKU |
|
3 |
Sulfur recovery unit for the sealed observation element |
JP50937797 |
1996-08-09 |
JP4338216B2 |
2009-10-07 |
タガト,ジョージ、ダブルュー; ルーイス,ジェイムズ、イー; ワード,クレイグ、エス |
|
4 |
JPH06502728A - |
JP50622893 |
1992-09-23 |
JPH06502728A |
1994-03-24 |
|
|
5 |
Method for making current visible by carbon spark |
JP5540081 |
1981-04-13 |
JPS57169655A |
1982-10-19 |
WATANABE HISAO; MAEDA HIDEKI; KOGA KENICHI |
PURPOSE:To make a local current visible, by mixing unburned carbon powder in the current preliminarily and emitting light by igniting at an optional position. CONSTITUTION:Tube groups for heat exchange 2, 3 and a burner 4, are provided to the main body 1 of a longitudinal boiler and observing windows 5a-5c are provided at places. Air and unburned carbon powder 6 are mixed by a burner 4 and only the powder 6 passed through a focus F is ignited by infrared rays generated at an infrared-ray generator 7 and focused by a converging lens 8 and then, it is observed by the windows 5a-5c. The powder 6 in a narrow place is ignited in the same way by introducing the infrared rays to an optional position by an optical fiber 9. In such a manner, a current is easily made visible without disturbing the current even at a complicated current passage, because the trace of the current of the carbon sparks is recorded by mixing the unburned carbon powder in an air current and carrying out optical local ignition at an optional positon. |
6 |
Sanitary visual indicator (hygiene visual indicator) |
JP50622893 |
1992-09-23 |
JPH0754301B2 |
1995-06-07 |
パーセル,デーヴィッド・イー; ブラウン,デーヴィッド・イー |
|
7 |
Fluid display device |
JP14076493 |
1993-06-11 |
JPH0674963A |
1994-03-18 |
JIYON SHII NIIRUSEN; MAAKU EI RETSUFURAA; DOMINIKU EI KARIERO |
PURPOSE: To obtain the impeller module of the fluid display device capable of being inserted into the transparent conduit of a flowmeter. CONSTITUTION: The module 50 of a fluid display device is inserted into a transparent conduit 12 constituting a passage. The module 50 has a transparent housing 52 equipped with an inflow port 66 and an outflow port 75 and the housing 52 can be inserted into the conduit 12. A structure 54 providing a visible signal in response to the flow of a fluid is attached to the housing 52 in communication with the inflow port 14. |
8 |
Device for monitoring fluid state |
JP7199883 |
1983-04-22 |
JPS59196421A |
1984-11-07 |
KOBAYASHI TAKETO |
PURPOSE:To ensure safe monitoring, by supporting a moving plate facing an inlet port of fluid at the inside of a separating plate, which is provided at the inside of a monitoring window, and arranging an indicating tool, which responds to the moving plate at the outside of the separating plate. CONSTITUTION:Fluid inlet and outlet pipes 2a and 3a are connected to both ends of a machine box 1, and also connected to drain exhausting ports of steam traps. At the inside of the machine box 1, fluid inlet and outlet ports 2 and 3 are provided. An inside monitoring window 4 is provided and a window glass 10 is coupled. A stainless steel nonmagnetic separating plate 6 is provided at the inside of the window glass 10. A stainless steel nonmagnetic moving plate 7 facing the fluid inlet port 2 is suspended from a supporting shaft 8 at the inside of the plate 6 and supported so that the plate 7 is freely moved. At the gap part between the separating plate 6 and the window glass 10, a steel magnetic indicating tool 9, which responds to the movement of the moving plate 7 owing to the magnetic force of a magnet 11 of the moving plate 7, is arranged. |
9 |
Fluidity indicator and water distributor |
JP3296082 |
1982-03-01 |
JPS57158514A |
1982-09-30 |
ANRI BENAARU; JIYAN ENOKU |
|
10 |
Tracer |
JP3412281 |
1981-03-10 |
JPS57148238A |
1982-09-13 |
SASAJIMA TAKAO |
PURPOSE:To facilitate visual observation of flow around a model in case a water tank test is performed and to prevent a device from disturbing other test, by a method wherein earth is dissolved in water so that it covers a given specific gravity range, and the resulatant product is used as a tracer for measuring a current. CONSTITUTION:Red clay for wall is put in a screen and is ground into particle with a diameter of 100mum or less as it is dipped in water to prepare earth in which 70 percent or more of particles with a diameter of 10 or less is contained. The earth, which is prepared so that the specific gravity becomes 1.05-1.10 through addition of water to the mud, is dissolved to obtain a tracer. The tracer is used for visual observation of a flow condition at a time when a water tank test is conducted. After testing, the mud is sepatated from water for precipitation, and this facilitates seperation of the mud from a water tank bottom for collection,reduces water turbidity, prevents it from disturbing other test, and conduct a test at an inexpensive cost. |
11 |
유황회수 장치를 위한 밀폐형 관찰 요소 |
KR1020057022963 |
1996-08-09 |
KR1020050118245A |
2005-12-15 |
태그가트조지더블유.; 루이스제임스이.; 워드크레이그에스. |
A sealed observation element for viewing the flow of molten liquid during the operation of a sulfur recovery unit comprises at least one sight glass that is heated and which may be swept with a purge gas supplied through one or more bleed rings to prevent condensation or deposition of materials on the side of the sight glass exposed to the process stream. |
12 |
금형의 작업유체 흐름 확인기구 |
KR2020140004618 |
2014-06-18 |
KR200475329Y1 |
2014-11-24 |
이상화 |
본 고안은 금형의 작업유체 흐름 확인기구에 관한 것으로서, 기구본체; 상기 기구본체 내에 회전 가능하게 결합되며, 금형으로 공급되는 작업유체의 흐름에 기초하여 회전되는 무동력 프로펠러; 상기 기구본체의 일측 개구부에 착탈 가능하게 결합되는 커버부재; 상기 기구본체의 일측에 연결되며, 상기 금형으로 상기 작업유체를 공급하는 제1 작업유체 공급용 배관에 결합되는 제1 배관 결합부; 및 상기 기구본체의 타측에 연결되며, 상기 금형으로 상기 작업유체를 공급하는 제2 작업유체 공급용 배관에 결합되는 제2 배관 결합부를 포함하며, 외부에서 상기 무동력 프로펠러의 확인이 가능하도록 상기 기구본체와 상기 커버부재 중 적어도 어느 하나는 투명 또는 반투명 재질로 제작되는 것을 특징으로 한다.
|
13 |
다양한 모양의 3 차원 모션 센서 |
KR1020120041443 |
2012-04-20 |
KR1020130118514A |
2013-10-30 |
서찬열; 박원용; 심현구; 박영식; 윤기훈 |
PURPOSE: Various shapes of three-dimensional motion sensors are provided to sense a change in the movement direction, rotation direction, and rotation angle of objects, thereby measuring the direction of the motion accurately and easily with a simple structure. CONSTITUTION: An electrode pattern (11) is formed on a sensor wall having a sphere shape. The electrode rod is connected to a positive electrode. All the electrode patterns are connected to a micro controller unit (MCU). |
14 |
Fluid visual inspection device |
US12911722 |
2010-10-25 |
US08418567B2 |
2013-04-16 |
Yao-Sung Hou |
A fluid visual inspection device includes a fluid visual inspection portion and one set of fastening caps. The fluid visual inspection portion includes a vane holder which has a first flange and second flange, and is coupled with a transparent duct to allow users to see vane conditions and judge whether fluid is flowing. The vane holder further has a third flange and fourth flange that have respectively an external threaded portion formed thereon screwing with the fastening caps. One end of the vane holder holds a partition to form a passage opening. Each fastening cap has one end fastened to the third or fourth flange and another end screwed with a fluid pipe. The fastening caps and the duct are not integrally formed, hence fabrication is simpler and the cost is lower and production time is shorter, and coupling of the device and fluid pipe also is easier. |
15 |
TWO-COMPONENT SPRAY DEVICE AND USE THEREOF |
US13519958 |
2010-10-20 |
US20120273595A1 |
2012-11-01 |
John Charles Larson |
This invention is directed to a spray device for spraying two or more components. The two or more components are maintained separated in the spray device and are mixed post atomization. This invention is also directed to a gravity fed spray gun and a system for spraying two or more components. This invention is further directed to a kit for converting an existing conventional single-component spray gun typically used for spraying a single component to a two-component spray gun for spraying two components. |
16 |
In-line flow indicator assembly |
US09948359 |
2001-09-07 |
US20030047128A1 |
2003-03-13 |
Terrence
E.
Delp |
A novel in-line flow indicator assembly is provided with a fitting body having oppositely positioned wall window openings, a sight glass tube positioned within the fitting body, end caps co-operating with the fitting body to contain the sight glass tube in position, and conventional O-rings that function to seal the assembly through fluid passageway and to resiliently position the sight glass tube within the fitting body. |
17 |
Fluid indicator assemblies for sight flow apparatus |
US922814 |
1992-07-31 |
US5343826A |
1994-09-06 |
David E. Brown; David E. Purcel |
A sight flow apparatus includes a body designed to be connected in-line to fluid pipes within a manufacturing plant or other facility. One or more window assemblies are removably mounted on the sides or ends of the body to allow visual inspection of fluid flow through the body cavity. A fluid indicator device i.e., a flapper assembly or a rotor assembly, is mounted within the body cavity and supported by an axle extending between the windows, between the body itself, or between a pair of alignment washers located within the body. The rotor assembly includes a plurality of planar blades which are interconnected to form generally radially extending vanes. An enlarged indicator cap is coupled to each end of the rotor assembly to improve visual examination of fluid flow effects, to lock the interconnected blades together and to prevent the blades from contacting the windows, alignment washer or body. The flapper assembly for the sight flow apparatus includes a single blade which is coupled on each end to the axle with an enlarged indicator cap. The indicator cap on the rotor assembly and the flapper assembly facilitate visually inspecting the fluid flow through the windows in the sight flow apparatus over a wide range of fluid conditions. |
18 |
Flow indicator or flowmeter |
US492327 |
1990-03-12 |
US5099699A |
1992-03-31 |
Klaus Kobold |
A flow indicator or flowmeter is provided with an impeller which is rotatably mounted in an essentially circular-cylindrical flow chamber of a flow housing which has an inlet channel and an outlet channel. The impeller has an odd number of blades and is visible through a transparent side wall so that rotation of the impeller can be viewed to indicate fluid flow. The impeller can have magnets, ferrite cores or similar impulse creating elements by means of which an electronic circuit is actuated so that the device serves not only as a flow indicator but also as a flowmeter. It is also preferred that the inlet and outlet channels be orientated obliquely relative to a radial direction of the flow chamber such that the fluid impinges on side faces of the impeller blades. |
19 |
Fluid flow indicator system |
US521058 |
1990-05-02 |
US5012840A |
1991-05-07 |
Mark H. Betzler |
A fractional flow indicator system by which flow in a fluid dispensing conduit is visually indicated using an improved fractional flow diverting element which utilizes a venturi effect rather than a check valve to create a fractional flow pressure differential to induce a fractional fluid flow through a flow indicator. The flow diverting element of the present invention has no moving parts, is easy and relatively inexpensive to manufacture, and does not restrict or reduce the pressure of the main fluid stream flowing therethrough. In accordance with the preferred embodiment, the flow diverting element is constructed from standard elbow components and a short length of copper tubing. The flow indicator system further includes an improved flow indicator having a compact construction with few working parts, which is easy to manufacture, less expensive to produce, and which provides a longer service life than conventional indicators. In particular, the flow indicator of the present invention does not include a multi-part pedestal, a precisely machined diverting nozzle, and a corresponding precisely machined port. |
20 |
Apparatus for indicating fluid flow |
US355084 |
1982-03-05 |
US4484536A |
1984-11-27 |
Jean Henocque; Henri Besnard |
A flow indicator has a pivoting flap fitted in ducting of a hydraulic installation which transports contaminated liquids. To permit the purge of a reservoir, the flap has an opening for air returning through the ducting. The opening prevents overpressure or vacuum in a circuit. The invention applies specifically to purge and vent circuits for nuclear power installations. |