141 |
Centrifuge deviation sensing switching mechanism |
US74330358 |
1958-06-20 |
US2895023A |
1959-07-14 |
JOSEF BLUM |
|
142 |
Switch |
US47058054 |
1954-11-23 |
US2793260A |
1957-05-21 |
CIOSEK STANLEY J |
|
143 |
Automobile theft alarm |
US24416951 |
1951-08-29 |
US2594676A |
1952-04-29 |
NOVAK DONALD H |
|
144 |
Automatic circuit-breaking electric switch |
US26121739 |
1939-03-11 |
US2253957A |
1941-08-26 |
KAMMERDINER JAMES A |
|
145 |
Disturbance responsive switch |
US75200834 |
1934-11-08 |
US2106605A |
1938-01-25 |
JOHNSON FREDERICK B; IRVIN JACOBSON |
|
146 |
Earthquake-operated safety automatic circuit breaker |
US17889727 |
1927-03-28 |
US1737105A |
1929-11-26 |
BLALACK JACOB L |
|
147 |
Vxkgiliq teeeschi |
US1650968D |
|
US1650968A |
1927-11-29 |
|
|
148 |
Electric-circuit control |
US31106718 |
1918-07-15 |
US1400229A |
1921-12-13 |
MURRAY HOWARD J |
|
149 |
振动式开关 |
CN94221170.7 |
1994-09-08 |
CN2203491Y |
1995-07-12 |
陈美慧 |
本实用新型是涉及一种振动式开关,主要是在一座体的凸环内分设上、下导电片,该上、下导电片是分别和电源及灯泡串接,其中上导电片中央有穿槽,其间穿设有金属套筒,套筒外套设有弹簧,当振动产生时,套筒将因上下振动而间歇接触下导电片,进而使灯泡接通电源及产生闪光。 |
150 |
Sensor Switch and Method of Assembly Thereof |
US15376712 |
2016-12-13 |
US20180102228A1 |
2018-04-12 |
Tien-Ming Chou |
A sensor switch includes an insulated housing having an inner wall surface that defines a through hole. The through hole has a shoulder interconnecting large and small diameter hole sections thereof. A first conductive terminal includes a head portion embedded in the large diameter hole section and having a first contact surface. A plug portion of a second conductive terminal is embedded in the large diameter hole section spaced apart from the head portion and has a second contact surface facing the first contact surface. The inner wall surface and the first and second contact surfaces cooperatively confine a sensing chamber. At least one conductive member is rollably accommodated in the sensing chamber. |
151 |
Sensor switch and method of assembly thereof |
US15376712 |
2016-12-13 |
US09941081B1 |
2018-04-10 |
Tien-Ming Chou |
A sensor switch includes an insulated housing having an inner wall surface that defines a through hole. The through hole has a shoulder interconnecting large and small diameter hole sections thereof. A first conductive terminal includes a head portion embedded in the large diameter hole section and having a first contact surface. A plug portion of a second conductive terminal is embedded in the large diameter hole section spaced apart from the head portion and has a second contact surface facing the first contact surface. The inner wall surface and the first and second contact surfaces cooperatively confine a sensing chamber. At least one conductive member is rollably accommodated in the sensing chamber. |
152 |
Collision sensor assembly for a stationary structure |
US15459831 |
2017-03-15 |
US09875636B2 |
2018-01-23 |
James P. Ryan; Jeffrey P. Wagner |
A collision sensor assembly is attachable to a stationary structure such as a pallet rack, a door frame, the corner of a wall, or the like. The collision sensor is configured to sense when a collision occurs with the stationary structure such as when a piece of movable machinery contacts the stationary structure. The collision sensor assembly includes a sensor operatively connected to a processor which determines when a collision occurs, and produces a signal to an output signal generator to provide an external indication of the collision. |
153 |
Transducing apparatus |
US13912146 |
2013-06-06 |
US09225267B2 |
2015-12-29 |
Edwin L. Hall, Jr.; Hampton Hollis Tanner |
A transducing apparatus that is sensitive to physical vibrations. The transducing apparatus converts physical manifestations into electrical signals. |
154 |
VIBRATION TRIGGER SWITCH |
US14146759 |
2014-01-03 |
US20150194281A1 |
2015-07-09 |
Benrui Xu; John Gou |
A vibration trigger switch includes a housing, a metal resilient element received in the housing, a conductive member received in the housing, and a pair of conductive pins. One end of the metal resilient element is fixed on one end of the housing, and another end is free. The conductive member is secured on another end of the housing, and defines a receiving space. The pair of conductive pins extend from the metal resilient element and the conductive member, respectively, and are exposed out of the housing. The free end of the metal resilient element partially extends into the receiving space of the conductive member. When the vibration trigger switch is vibrated, the free end of the metal resilient element vibrates to contact the conductive member to trigger the vibration trigger switch. The vibration trigger switch of the disclosure is low cost, and has good sensitivity and high reliability. |
155 |
Mechanical vibration switch |
US14072224 |
2013-11-05 |
US09024712B2 |
2015-05-05 |
George V. Zusman |
A mechanical vibration switch having a magnet connected to a bar that rotates about an axis, an inertial mass connected to the bar, a magnetic material part disposed in a predetermined spaced apart relation from the magnet, a spring, a stop, and an electrical relay mechanically actuated by the bar. The magnetic material part is adjusted parallel to the magnet such that the magnetic force varies approximately linearly with the common surface area S between the face of the magnet and the face of the magnetic material part. |
156 |
Transducing apparatus |
US13912146 |
2013-06-06 |
US20140361660A1 |
2014-12-11 |
EDWIN L. HALL, JR.; HAMPTON HOLLIS TANNER |
A transducing apparatus that is sensitive to physical vibrations. The transducing apparatus converts physical manifestations into electrical signals. |
157 |
SWITCHING DEVICE |
US14235367 |
2012-07-26 |
US20140251770A1 |
2014-09-11 |
Lior Kogut; Boris Neoponyashchy; Avihay Ohana; Nir Pernat |
An acceleration responsive switching device formed as a micro-electromechanical systems (MEMS) device in which components are deposited and etched on and or above a substrate. The device has a proof mass module. The proof mass module includes: at least one proof mass made of metal; at least three resilient suspending members made of metal, for suspending the proof mass; a lingule made of metal, connected to the proof mass; at least two contact pads to which at least one of the three resilient suspending members is permanently attached thereby allowing current to flow from the at least two pads to the proof mass module; and at least one additional contact pad, which is set against the lingule. |
158 |
MECHANICAL VIBRATION SWITCH |
US14072224 |
2013-11-05 |
US20140216909A1 |
2014-08-07 |
George V. Zusman |
A mechanical vibration switch having a magnet connected to a bar that rotates about an axis, an inertial mass connected to the bar, a magnetic material part disposed in a predetermined spaced apart relation from the magnet, a spring, a stop, and an electrical relay mechanically actuated by the bar. The magnetic material part is adjusted parallel to the magnet such that the magnetic force varies approximately linearly with the common surface area S between the face of the magnet and the face of the magnetic material part. |
159 |
DEVICE COMPRISING A CANTILEVER AND SCANNING SYSTEM |
US13920676 |
2013-06-18 |
US20130278363A1 |
2013-10-24 |
Michel Despont; Venkataraman Kartik; Charalampos Pozidis; Deepak R. Sahoo |
A device including a first part and a second part, the first and second part being connected to each other and being movable relative to each other. The first part is a cantilever that has a rectangular strip with a probe tip at one end and a magnetic element the other end. The magnetic element is configured to interact with a magnetic field. The first part is connected to the second part by a hinge. |
160 |
Device comprising a cantilever and scanning system |
US12952346 |
2010-11-23 |
US08484760B2 |
2013-07-09 |
Michael Despont; Venkataraman Kartik; Charalampos Pozidis; Deepak Ranjan Sahoo |
A device including a first part and a second part, one of which is a cantilever, the first and second parts being connected to each other and movable relative to each other. The device includes a magnetic element arranged on the first part and configured to provide a magnetic field. The device further includes a magnetization device arranged on the second part and configured to provide an actuation magnetic field which interacts with the magnetic field of the magnetic element, thereby causing or suppressing relative movement of the first and second parts. A scanning system including such a device is also described. |