201 |
JPH0341380Y2 - |
JP17371686 |
1986-11-12 |
JPH0341380Y2 |
1991-08-30 |
|
|
202 |
Switching device with contact controlled by electromagnet |
JP5180989 |
1989-03-03 |
JPH01283733A |
1989-11-15 |
PIEERU RUMARUKAN; KURISUCHIYAN PISHIYAARU |
PURPOSE: To select a 'contactor' mode or a 'remote controlled breaker' mode with the same electromagnet by providing a locking mechanism cooperating with a contact to be movable against force given by a contact resetting mechanism and operating it with positional switches.
CONSTITUTION: An electromagnet 31 is of monostable type and a locking mechanism 60 cooperates with a movable assembly 30 to be locked at one of its position against force given by a resetting mechanism 50. Two positional switches 13, 14 are freely operatable from the outside of a case 10 to make valid/invalid the operation of the locking mechanism 60. In this way, a simple means is used for a switching device to select a 'contactor' mode or a 'remote controlled breaker' mode.
COPYRIGHT: (C)1989,JPO |
203 |
JPH0142456B2 - |
JP23503082 |
1982-12-29 |
JPH0142456B2 |
1989-09-12 |
JERARUDO RURUUDO; KUROODO JURIAN |
|
204 |
Anion analyzer |
JP27324987 |
1987-10-30 |
JPH01116444A |
1989-05-09 |
HASE USHIO |
PURPOSE:To contrive toward higher sensitivity of analysis by removing a high density of hydroxide or carbon ion as water or carbon dioxide respectively before the introduction of a sample solution into a separation column. CONSTITUTION:A regenerative liquid flows to a pretreatment column 11 from a regenerative liquid tank 1 to regenerate the column and then, pure water flows to said column from a pure water tank 2 to clean up the column 11. Thereafter, a sample solution flows to said column 11 from a sample solution tank 3 to exchange cation for hydrogen ion in the sample solution. Hydroxide ion reacting with the hydrogen ion formed changes to water and carbonate ion to carbon dioxide to turn the sample solution to a diluted solution. The sample solution flows into a concentration column 12 to trap analysis components. Then, an eluate flows to the concentration column 12 and the resulting effluent is passed through a precolumn 13 and a separation column 14 to separate the analysis components. After passed through a removing column 15, the effluent from the separation column 14 flows through a conductivity detector 51 to measure conductivity. |
205 |
JPS6342367B2 - |
JP15063278 |
1978-12-07 |
JPS6342367B2 |
1988-08-23 |
UORUTAA JEI KEROTSUGU |
|
206 |
JPS6336097B2 - |
JP19668882 |
1982-11-09 |
JPS6336097B2 |
1988-07-19 |
ROJE BEIRU; KURISUTEIAN TOOMASU |
|
207 |
JPS6379019U - |
JP17371686 |
1986-11-12 |
JPS6379019U |
1988-05-25 |
|
|
208 |
JPS6226535B2 - |
JP14794078 |
1978-12-01 |
JPS6226535B2 |
1987-06-09 |
OOSHIMA MASABUMI; PPONDA HARUO; TAKAHASHI TAKESHI |
|
209 |
Load switching device by elbow shaft |
JP14643885 |
1985-07-03 |
JPS6164109A |
1986-04-02 |
JIYAN KUROODO DEYUFURASUNU |
|
210 |
Automatic breaking switch of mechanical control type |
JP19668882 |
1982-11-09 |
JPS58108627A |
1983-06-28 |
ROJIE BEIRU; KURISUTEIAN TOOMASU |
|
211 |
JPS5648926B1 - |
JP4418572 |
1972-05-02 |
JPS5648926B1 |
1981-11-18 |
|
|
212 |
Miniature switch |
JP4738479 |
1979-04-17 |
JPS55139720A |
1980-10-31 |
FUJITA TEIZOU; KIMURA HARUO |
|
213 |
Limit switch |
JP1685479 |
1979-02-15 |
JPS55109322A |
1980-08-22 |
KASHIMA ISOO |
|
214 |
Pushhbutton switch |
JP16216679 |
1979-12-13 |
JPS5586023A |
1980-06-28 |
HAINRITSUHI ZAUA; HERUBERUTO MIYURAA |
|
215 |
Control for selective switch |
JP15063278 |
1978-12-07 |
JPS5486784A |
1979-07-10 |
UORUTAA JIEI KEROTSUGU |
|
216 |
JPS5338849Y2 - |
JP4650873 |
1973-04-20 |
JPS5338849Y2 |
1978-09-20 |
|
|
217 |
JPS49148474U - |
JP4650873 |
1973-04-20 |
JPS49148474U |
1974-12-21 |
|
|
218 |
Push-button switch capable of adjusting output power |
US15685858 |
2017-08-24 |
US10147567B2 |
2018-12-04 |
Kai Kei Poon |
A push-button switch capable of adjusting output power includes a housing. The housing includes a contact assembly and a power adjustment assembly therein. The contact assembly includes an upper terminal, a lower terminal and a connecting elastic plate below the upper terminal. A support seat is provided in the housing. An upper end of the support seat is provided with a first bracket. The first bracket is inserted through the connecting elastic plate. The first bracket is provided with a first slot. One end of the connecting elastic plate is fixedly connected to the upper terminal. Another end of the connecting elastic plate is engaged with the first slot. A drive mechanism is provided above the connecting elastic plate for driving the connecting elastic plate downward. The push-button switch has an ergonomic design. |
219 |
Oversized Novelty Wall Switch |
US15597415 |
2017-05-17 |
US20180337011A1 |
2018-11-22 |
Benjamin A. Daugherty; Dale G. Daugherty |
An operational oversized wall switch cover assembly is described. The assembly is designed to be installed over an existing switch without removing the switch's wall plate. The assembly includes linkage that facilitates the turning off or on of the existing switch by moving an oversized toggle between off and on positions. The assembly is customizable using a variety of different colored components for the cover, slide trim plate and toggle. Further, the assembly's cover comprises a significant area providing significant space to imprint indicia, such as logos of a favorite sports team or a child's favorite cartoon characters. |
220 |
AUXILIARY SWITCH |
US15883264 |
2018-01-30 |
US20180218867A1 |
2018-08-02 |
Christopher Kenneth Wyatt; James Broadwell; Dean Morgan |
An auxiliary switch includes a housing including a first housing part and a second housing part separate from and releasably connected to the first housing part. A printed circuit board is fixedly mounted within the housing and has an electrical pad and an electrical contact connected to the electrical pad. A terminal conductor is electrically connected to the printed circuit board. An actuator mechanism is mounted within the housing and has an electrical contactor engaged to the terminal conductor. The actuator mechanism is configured to move within the housing and at least partially displace the electrical contact while maintaining engagement between the contactor and the terminal conductor. |