Abstract: A work seating detection device including a detection hole formed to discharge air from a work seating face of a chuck, a detection flow path connecting an air supply source supplying compressed air and the detection hole, a pressure switch detecting a secondary-side pressure of a throttle portion formed in the detection flow path, and a pressure regulator adjusting the secondary-side pressure is provided. An adjustment flow path branching on a secondary side of the throttle portion is formed in the detection flow path, an on-off valve is disposed at the adjustment flow path, an adjustment block provided with an adjustment face pressing an adjustment gauge is integrally formed in a tip portion, and an adjustment hole having the same size as the detection hole and communicating with the adjustment flow path is formed in the adjustment block for an opening portion to be positioned in the adjustment face.

Abstract: A liquid micro-electro-mechanical system (MEMS) component includes a board, a channel frame, a flexible channel side, a liquid droplet, and one or more conductive elements. The channel frame is within the board and mates with the flexible channel side to form a channel within the board. The liquid droplet is contained within the channel. When a pressure is applied to the flexible side, the shape of the liquid droplet is changed with respect to the one or more conductive elements thereby changing an operational characteristic of the liquid MEMS component.

Abstract: A liquid micro-electro-mechanical system (MEMS) component includes a board, a channel frame, a flexible channel side, a liquid droplet, and one or more conductive elements. The channel frame is within the board and mates with the flexible channel side to form a channel within the board. The liquid droplet is contained within the channel. When a pressure is applied to the flexible side, the shape of the liquid droplet is changed with respect to the one or more conductive elements thereby changing an operational characteristic of the liquid MEMS component.

Abstract: A power transfer apparatus includes: a casing into which liquid is injected; two metal plates disposed so as to come into contact with the liquid within the casing; and a power source configured to emit a current into the liquid with each of the two metal plates as an electrode; with power being supplied from the power source to a functional module to be mounted within the casing through the liquid such that each of two electrodes comes into contact with the liquid; and with the functional module being mounted such that the liquid can flow from one of the two metal plates to the other.

Abstract: A three-stage liquid metal switch employing electrowetting on dielectric (EWOD), including a common EWOD switch 1310 having an input port 1302, a first shared-EWOD-switch output 1336, and a second shared-EWOD-switch output 1338; a first EWOD switch 1340 having a first-EWOD-switch input 1343, a first output port 1304, and a first-EWOD-switch output 1368; and a second EWOD switch 1370 having a second-EWOD-switch input 1373, a second output port 1306, and a second-EWOD-switch output 1398; wherein the first shared-EWOD-switch output 1336 is operably connected to the first-EWOD-switch input 1343, and the second shared-EWOD-switch output 1338 is operably connected to the second-EWOD-switch input 1373.

Abstract: A self-healing liquid contact switch and methods for producing such devices are disclosed. An illustrative self-healing liquid contact switch can include an upper actuating surface and a lower actuating surface each having a number of liquid contact regions thereon configured to wet with a liquid metal. The upper and lower actuating surfaces can be brought together electrostatically by an upper and lower actuating electrode. During operation, the liquid metal can be configured to automatically rearrange during each actuating cycle to permit the switch to self-heal.

Abstract: A method and apparatus for maintaining a liquid metal switch in a state of readiness for switching. The liquid metal switch has a liquid metal volume contained in a cavity of a switch body. A signal path though the cavity is made or broken by energizing an actuator to move the liquid metal volume within the cavity in response to a switching signal. To maintain readiness, a signal generator supplies a vibratory signal to the actuator. The resulting vibrations in the liquid metal volume allow the liquid metal volume to be subsequently moved with reduced power.

Abstract: A method and structure for an optical switch. A channel is housed within a solid material. Contacts coupled to the channel are further coupled to the solid material, while a plurality of piezoelectric elements are coupled to chamber and further coupled to a slug. Optical waveguides are coupled to the channel. The contacts are coupled to a plurality of liquid metal globules, wherein one or more of the plurality of liquid metal globules are coupled to a slug. One or more piezoelectric elements are actuated, causing the slug to be moved within the channel. The motion of the slug is operable to block or unblock one or more of the plurality of optical waveguides.

Abstract: An optical relay is disclosed in which a liquid metal droplet is moved within a switching channel formed in relay housing. An optical path passing through the switching channel is blocked or unblocked by motion of the liquid metal droplet that coalesces with one of two additional liquid metal droplets. Motion of the liquid metal droplets is controlled by heaters that control the pressure of an actuation gas in the switching channel. The liquid metal droplets are held in place by surface tension acting on wettable contact pads within the switching channel. The surface tension of the liquid provides a latching mechanism for the relay. The pressure of the actuation gas is increased by direct heating of the gas or by heating a phase-change liquid to cause it to evaporate.

Abstract: A piezoelectric relay is disclosed in which a liquid metal droplet is moved within a switching channel formed in relay housing. A signal path passing through the switching channel is blocked or unblocked by motion of the liquid metal droplet that coalesces with one of two additional liquid metal droplets. Motion of the liquid metal droplets is controlled by piezoelectric pumps that control the flow of actuation fluid between a fluid reservoir and the switching channel. The liquid metal droplets are held in place by surface tension acting on wettable contact pads within the switching channel. The surface tension of the liquid provides a latching mechanism for the relay.

Abstract: A piezoelectric optical relay is disclosed in which a solid slug moves within a switching channel formed in relay housing. An optical path passing through the switching channel is blocked or unblocked by motion of the solid slug. Motion of the solid slug is controlled by at least two piezoelectric actuators within the switching channel. Motion of the solid slug is resisted by a liquid, such as a liquid metal, that wets between the solid slug and at least one fixed contact pad in the switching channel. The surface tension of the liquid provides a latching mechanism for the relay.

Abstract: A suspended thin-film resistor and methods for producing the same are disclosed. In one embodiment, a device is produced by depositing a first and second contact on a substrate, depositing a sacrificial material on the substrate at a location between the first and second contacts, depositing a thin-film resistor over the first and second contacts and the sacrificial material, and thermally decomposing the sacrificial material.

Abstract: The switch device comprises a pair of cavities, an elongate passage, a non-conductive fluid having a high electrical resistance, a conductive fluid having a high electrical conductivity and an electrical path. The passage is in fluid communication with the cavities and has a substantially elliptical cross-section over at least part of its length. The non-conductive fluid is disposed in each of the cavities. The conductive fluid is located in the passage. The electrical path is changeable between a connected state and a disconnected state by the non-conductive fluid separating the conductive fluid in the passage into non-contiguous conductive fluid portions.

Abstract: The multi-pole, conductive liquid-based switch device includes an elongate passage, a first cavity, a second cavity, at least four electrodes disposed along the length of the passage, channels that extend from the passage, non-conductive fluid located the cavities and conductive liquid located in the passage. The channels are one fewer in number than the electrodes and are interleaved with the electrodes along the length of the passage. The channels are numbered in order from one end of the passage. Odd-numbered ones of the channels extend to the first cavity while even-numbered ones of the channels extend to the second cavity.

Abstract: Liquid metal micro-switches. Liquid metal micro-switches and techniques for fabricating them in integrally shielded microcircuits are disclosed. The liquid metal micro-switches can be integrated directly into the construction of shielded thick film microwave modules. This integration is useful in applications requiring high frequency switching with high levels of electrical isolation.

Abstract: Each of pressure-detecting switches to be connected to one another has a first connector provided at one side section and a first connector provided at the other side section. Electric wiring is mutually effected for the pressure-detecting switches by attaching/detaching the first connectors. The pressure-detecting switches are mutually fixed by using a fixing mechanism arranged for the side sections to effect the function for mutually attaching/detaching the pressure-detecting switches.

Abstract: A flow detector includes solid state delay circuitry coupled to a flow indicating device. In response to flow being indicated, the delay circuitry is enabled. After a preset delay interval, if flow is still being indicated, an output signal can be generated. The flow indicating device can be a two-state mechanical switch. A mode setting element can be used to configure the detector for different types of installations.

Abstract: A flow detector includes solid state delay circuitry coupled to a flow indicating device. In response to flow being indicated, the delay circuitry is enabled. After a preset delay interval, if flow is still being indicated, electrical energy can be provided by a short circuit to an output device for the duration of indicated flow. The flow indicating device can be a two-state mechanical switch. A short circuit supplying switch can be implemented as a solid state or mechanical latching relay. The flow detector circuits can be used independently to provide local alarms. Alternately they can provide alarm indicating signals to a common alarm control panel.

Abstract: An apparatus for sensing the horizontal level of a table or other surface and returning that table or other surface back to level. The apparatus includes a housing within which first and second mercury switches are positioned relative to each other in a manner which permits the electrical contacts of each switch to be positioned on opposite ends of the housing. Two spring clips are provided for securing the first and second mercury switches within the housing. A pivot rod is provided to permit each mercury switch and spring clip assembly to pivot about a transverse axis within the housing. An adjusting screw and stablizing spring pair are positioned adjacent to each of the two mercury switch and spring clip assemblies. The adjusting screws may be turned to set the position of the mercury switch about the axis of the pivot rod relative to the horizontal plane in order to set a dead band wherein neither of the two mercury switches is closed.

Abstract: A bi-planar switch device having a plurality of spaced switches carried by a base. A level indicating device carried by the base indicates the orientation of the base relative to horizontal. Each switch is carried by a seat carried by the base. Each seat may be angularly displaced relative to the base to set its corresponding switch at a preselected angle relative to the base, each switch may be shifted within its seat ride upon the seat shoulder to adjust its preselected angle. A circuit is connected to the switches to eliminate the effects of switch bounce.

Abstract: The specification discloses an electromechanical time delay combination for gradually applying power to the filament of an incandescent lamp. Following actuation to the "on" state, the conduction angle gradually changes from zero to 360.degree.. Following deactuation, the conduction angle lingers at 180.degree. for several seconds before returning to the non-conduction state. A set of mechanical contacts and a potentiometer may be added to effect proportional dimming.

Abstract: A freestanding multidirectional control device for use in controlling video display images in electronic game machines comprises a handle member connected by a multiconductor cable to electric circuitry in the game machine. The handle member contains two pairs of gravity switches electrically connected to separate output signal conductors in the cable. The pairs of switches are mutually normal along the vertical axis of the handle member. The switches in each pair are oppositely inclined from vertical so that tilting the handle member one way produces an output signal on one of the conductors and tilting it in the opposite direction produces such a signal on a different conductor. The pairs of switches can be either single-ended, two-position tilt switches or double-ended, three-position tilt switches. At least one of the liquid contact switches may contain at least one electrode comprising a length of electrically resistive material to form a variable resistance electrical conduction path.

Abstract: A fluid-controlled switch capable of being mass produced and densely spaced, having two groups of fluid control inputs, at least two fluid outputs, and an internal movable mass is disclosed. The fluid energy necessary for switching is used economically, fluid power consumption being drastically reduced after switching is complete, even though fluid power input may continue thereafter. The movable mass, which may be a group of little masses, divides the switch into two volume complexes. Switching is caused by a pressure difference between the two complexes. The pressure difference between the two complexes is caused by sufficient flow into one but not the other group of fluid inputs. The switch may be used to switch simultaneously one or more primary signals and corresponding status signals, which may be used to determine whether all switches in a row or column or other grouping within an array of switches are reset.

Abstract: A device for switching a plurality of electrical circuits, each including a group of electrodes separated by insulators and a duct formed by coaxial holes made in the electrodes and insulators and filled partially with a conducting liquid wetting the surface of the electrodes within the duct. An element controls the flow of conducting liquid within the duct so as to close the electrodes. The element is linked mechanically with a duct sealing element in common with the ducts of all the groups. The sealing element has a cavity filled with a dielectric liquid communicating with the ducts of all the groups.

Abstract: An electrostatically controlled electrical relay switch is disclosed which includes two chambers joined together by a constricted region therebetween. A conducting liquid, such as mercury, is positioned in one of the chambers and the movement thereof between the chambers is controlled by an electrostatic field. Electrical conductors extend into at least one of the two chambers so that when the conductive liquid is moved into a chamber, the electrical conductors therein are electrically coupled to one another. In an alternative embodiment, the movement of the conductive liquid between the two chambers acts as a means for switching fluid or a light beam. A dielectric fluid could be substituted for conductive fluid in the optical or fluidic switch. Also more than two chambers are possible. In the case of multiple chambers they may be grouped in a string each closest pair being separated by a constricted region or the chambers may be grouped around a single constricted region.

Abstract: An electrostatically controlled electrical relay switch is disclosed which includes two chambers joined together by a constricted region therebetween. A conducting liquid, such as mercury, is positioned in one of the chambers and the movement thereof between the chambers is controlled by an electrostatic field. Electrical conductors extend into at least one of the two chambers so that when the conductive liquid is moved into a chamber, the electrical conductors therein are electrically coupled to one another. In an alternative embodiment, the movement of the conductive liquid between the two chambers acts as a means for switching fluid or a light beam. A dielectric fluid could be substituted for conductive fluid in the optical or fluidic switch. Also more than two chambers are possible. In the case of multiple chambers they may be grouped in a string each closest pair being separated by a constricted region or the chambers may be grouped around a single constricted region.

Abstract: An improved liquid level detecting and indicating system for vehicles comprising a pair of liquid level detecting elements which are arranged in opposite positions on the detecting level of a liquid in a liquid container installed in a vehicle, whereby when each of the liquid level detecting elements sends a signal indicating that the liquid level has dropped below a reference liquid level, an indicator is brought into operation. In this way, the level of liquid can be accurately detected and indicated without being influenced by the inclination or vibration of a vehicle body.

Abstract: An object (baton, ball, etc,) which generates a signal (visual audio, etc.) only when in rotation and when in rotation generates a continuous signal. A power source, a first switch which assumes its ON position in response to centrifugal force, a second switch which assumes its ON position in response to centrifugal force, and means for generating a signal, connected in series are carried in the object. The first and second switches are mounted so that both are ON when the object is in rotation about a first axis, but not when it is at rest. Third and fourth switches may be placed to be ON when the object is in rotation about second and third axes at right angles to said first axis and to each other. The switches may be closed by movement of a fluid or of sliding or rolling elements.