47results about How to "Convenient framing" patented technology

A movable reconfigurable wall system having at least one module having a front and rear surface, the at least one module having: vertical end frames disposed at least at its side edges, each the vertical end frame having a vertically extending flange directed toward the front surface and a vertically extending flange directed toward the rear surface; a plurality of horizontal stringers affixed between the pair of vertical end frames; and an aesthetic surface affixed to the stringers; and a removable connecting strip, the connecting strip adapted to affix about one of the two flanges on one of the vertical end frames and join the one of the two flanges to a corresponding flange on one of a second module, a wall bracket, a finishing trim or a connection post.

Various embodiments of a saddle type vehicle are described. Configurations are shown in which the engine is located more towards the rear of the vehicle and in which the fuel tank extends generally vertically beneath the steering member. A radiator may also be located at a rear portion of the vehicle, rearwardly of the engine. A front storage compartment is also provided in the front portion of the vehicle. The resulting vehicle has improved access and storage capabilities and also has a lower center of gravity.

In one embodiment, an ultrasound imaging method comprises: providing a probe that includes one or more transducer elements for transmitting and receiving ultrasound waves; generating a sequence of spatially distinct transmit beams which differ in one or more of origin and angle; determining a transmit beam spacing substantially based upon a combination of actual and desired transmit beam characteristics, thereby achieving a faster echo acquisition rate compared to a transmit beam spacing based upon round-trip transmit-receive beam sampling requirements; storing coherent receive echo data, from two or more transmit beams of the spatially distinct transmit beams; combining coherent receive echo data from at least two or more transmit beams to achieve a substantially spatially invariant synthesized transmit focus at each echo location; and combining coherent receive echo data from each transmit firing to achieve dynamic receive focusing at each echo location.

A method of locating a check image region within a document image comprising the steps of locating a magnetic ink character recognition region of the check and calculating the top of the check relative to the magnetic ink character recognition region by detection of string literals having a historical and / or contextual relationship to the upper check boundary.

A game apparatus including at least one rebound surface and flexible material dividing the rebound surface into at least two play areas includes a rebound surface mounting frame and a flexible material mounting frame coupled to hold the frames in substantially fixed relationship but allow movement of one frame in relation to the other for stress relief between the frames. At least one cross member supports the flexible material between play areas and reinforces the flexible material mounting frame. The individual play areas are formed by separate preassembled flexible material units that are mounted in the flexible material mounting frame and then secured together to for the individual play areas. The flexible material mounting frame includes walk bars and also supports basket assemblies used in game play.

An unmanned aerial vehicle capable of performing monitoring shooting and controlling through smart glasses comprises an unmanned aerial vehicle body, a camera seat, a control bracket, the smart glasses and a controller, wherein the camera seat is fixed below a front end of the unmanned aerial vehicle body through the control bracket, a pair of unmanned aerial vehicle signal emitting and receiving devices is arranged at the front end of the unmanned aerial vehicle body, the smart glasses comprise a smart glasses body, supporting legs, supporting leg connection hinges, a smart glasses signal emitting and receiving device, a button, a glasses frame bracket for a display screen, the display screen, a columnar image projector, an eyeball position inductor, a bracket connection hinge and an inductor fixing bracket, and the controller corresponds to the unmanned aerial vehicle signal emitting and receiving devices through a built-in signal emitting and receiving device. According to the unmanned aerial vehicle, three-dimensional (3D) imaging technology and unmanned aerial vehicle and smart glasses technology are combined, users may feel immersive, control effects are better by means of a wristband for controlling, framing authenticity is high, the whole device is easy to carry, and real monitoring effects on the unmanned aerial vehicle can be achieved when the users stand on the ground.

A Pilates reformer includes a rectangular frame having two transverse ends connected by longitudinal rails, each transverse end comprising a pair of bases and an interconnecting transverse member. A planar carriage attaches to the frame by springs, and is moveable horizontally against force of the springs by means of rollers along the longitudinal rails. An ergonomic purchase confined to the frame is translatable into a stowed position for spatial efficiency, and into a deployed position that enables a user mounted on the carriage to reach the purchase, one of the transverse ends arresting the purchase when fully translated to the stowed or deployed position. The purchase may be a rotatable bench, a slidable and rotatable jump board, a vertically adjustable ballet bar, or the reformer may include a combination of these purchases.

Provided is a frame rate conversion apparatus for inputting a video signal and inserting an interpolation frame into the video signal so as to convert a frame rate of the video signal. The apparatus includes: an input unit for inputting the video signal; a video interpolation unit for generating an interpolation frame and performing an interpolation process of the video signal; and a control unit for controlling the generation process of the interpolation frame by the video interpolation unit. The video interpolation unit performs the interpolation frame generation process by using a plurality of methods, and the control unit controls switching between the plurality of interpolation frame generating methods.

To provide a pulse signal output circuit and a shift register which have lower power consumption, are not easily changed over time, and have a longer lifetime. A pulse signal output circuit includes a first input signal generation circuit; a second input signal generation circuit; an output circuit which includes a first transistor and a second transistor and outputs a pulse signal in response to a signal output from the first and second input signal generation circuits; a monitor circuit which obtains the threshold voltages of the first and second transistors; and a power supply output circuit which generates a power supply potential raised by a potential higher than or equal to a potential which is equal to or substantially equal to the threshold voltage and supplies the power supply potential to the first and second input signal generation circuits. A shift register includes the pulse signal output circuit.

The present invention discloses an auto-assembling system for small shell devices. The system includes a first transportation component, a second transportation component, a first driving module, a second driving module, a power assembling module and a control circuit. The first transportation component having a first transportation belt and the second transportation component having a second transportation belt are used to transport the frames or the covers of the devices. The first driving module configured on the first transportation component is used to move the frames or the covers transported by the first transportation component to an assembling area downstream a slide. The second driving module configured on the second transportation component is used to move the frames or the covers transported by the second transportation component to the assembling area along a track. The power assembling module configured on the end of the first transportation component and the second transportation component is used for vertically pressing downwardly the frames and the covers such that the frames and the covers can be assembled. The control circuit connects to the first transportation component, the second transportation component, the first driving module, the second driving module and the power assembling module.

An articulating knock-down frame and an improved cover design for a chair. The frame includes a pair of separate generally U-shaped frame portions, one being a seat and the other a backrest, and a pair of generally L-shaped connectors adapted for a telescopic fit with the U-shaped portions. The U-shaped frame portions are champfered about their ends to ease installation of the cover and to prevent tearing. An optional feature is also shown to facilitate disassembly, and this is a spring-loaded break joint in one or both of the U-shaped frame portions. The cover fits over the frame and holds the component parts in assembly. The cover includes a top panel section sewn against a bottom panel section, and a side panel section sewn therebetween to form an enclosure for holding an integral cushion.

To provide a display in which the convergence of potential fluctuation toward the GND potential is improved, while the switch on the driver IC side is kept small.The display includes a plurality of drive electrodes for display and touch detection; a drive electrode driver configured to apply a driving signal to each of the plurality of the drive electrodes; and a first driving signal selector unit and a second driving signal selector unit configured to select each of the plurality of the drive electrodes to which the drive electrode driver applies the driving signal. A ground wiring line to which the drive electrode selected by the first driving signal selector unit is connected in a touch detection period is formed on a substrate on which the plurality of the drive electrodes are formed.

The objective of the invention is to provide an unmanned aerial vehicle used for panoramic photography. The unmanned aerial vehicle is particularly suitable for panoramic photography. The unmanned aerial vehicle includes a control device, a power supply, an electric actuator electrically connected to the power supply, and propellers connected to the electric actuator. The unmanned aerial vehicle is characterized in that the unmanned aerial vehicle also includes a shell and a vehicle main body connected to the inside of the shell; the electric actuator and the propellers are connected to the vehicle main body; the shell has a hollow structure, and is provided with photographing devices; the control device is electrically connected to the electric actuator and the photographing devices; theelectric actuator and the propellers are inside the shell; and a scheme including a middle frame and two hollow hemispheres is adopted, thus effectively protecting the vehicle main body of the unmanned aerial vehicle, preventing possible influences of collision on the unmanned aerial vehicle, improving safety and effectively avoiding possible harm to pedestrians when the unmanned aerial vehicle descends or falls.

The present invention discloses a method and an apparatus of the drift calibration of sensors. The method includes shifting the sensing signal and differential technology to remove the drift signal by time during a long measuring. The apparatus includes two voltage sensors and readout circuits, a signal-shifting circuit and a differential circuit, and the apparatus is used for outputting the response signal without time drifting.

A traverse of a light scribe disk drive is provided. An opening is disposed at the center of a frame, wherein one end of the opening has a half circle, and a fillister is integrally formed around the half circle. A spindle motor is mounted on a PCB to form a spindle motor module. The PCB with a connecting slot is disposed on the frame to insert the spindle motor into the half circle. An optical sensor is mounted on a substrate to form an optical sensor module, and the substrate is inserted in the fillister. One end of a cable is connected to the substrate, and the other end is connected to the connecting breach to simplify the structure.

The invention relates to a hyper spectral imaging device and method based on birefringence polarization interferometry. The hyper spectral imaging device comprises a polarization beam splitter, a half-wave plate, a Wollaston prism, a pyramid reflector, an imaging objective and a detector. Incident light from a target produces interference on the detector, by means of a built-in interferometric scanning mode, the detector obtains the interferometric image information of the target, and finally spectrum information of the target is obtained through Fourier transform spectrum reconstruction. According to the invention, one Wollaston prism and the pyramid reflector are combined to form a transverse shearing beam splitter for the first time, the complex rate and the manufacture cost of a hyper spectral imager are reduced, and the system stability and the spectrum reconstruction precision are improved. The hyper spectral imaging device and method provide an effective technological approach for a hyper spectral imager which is low in complex rate and high in stability, and is light, small and multifunctional.

The invention discloses a shooting control method for a smart mobile phone. The method comprises the following steps of obtaining feedback signals generated by a touch screen in a touch way, wherein the feedback signals comprise touch screen coordinate feedback signals of corresponding functional areas of a display screen; replacing the touch screen coordinate feedback signals of the corresponding functional areas of the display screen with feedback signals of different physical keys; loading corresponding processing modules to form control instructions of corresponding functional hardware by using a central processor. According to the shooting control method for the smart mobile phone, more convenience is brought to a framing process of a user; conventional functionally-undiversified physical keys are used for finishing touch control processes of camera shooting, photographing and zooming, so that scenario jitter and shift when the screen is touched for control are avoided, user experiences are effectively improved, and the framing quality is improved.

This handset consists of the handset itself and a mini projector, which replaces the handset screen to solve the problem of user's comfortless with small screen during accessing net or watching TV. Instead of the screen, this invention uses projector to extend truly the handset screen to please the user. Under the common situation, the handset with big screen brings usually pleasant vision effect. Bigger screen of the handset-camera means better view finding and better enjoying the vision impact brought from the picture and video image. It also reduces such as the number of turning pages during receiving / emitting notes.

The invention provides a V-shaped eight-rotor aerial photography aircraft. The V-shaped eight-rotor aerial photography aircraft comprises a body, two short supporting arms, two long supporting arms and two same length of installing rods; each installing rod is fixedly connected with the body through the corresponding short supporting arm and the corresponding long supporting arm; the two installing rods are located on the same plane and are symmetric to the longitudinal axis of the aircraft in a V shape; each installing rod is provided with four rotors; a pan-tilt is fixed at the bottom of the body; the pan-tilt is provided with a camera. According to the V-shaped eight-rotor aerial photography aircraft, the eight rotors are driven by eight motors respectively and accordingly the loading capacity is large, the eight rotors are distributed on the bilateral sides of the aircraft respectively and arranged in a V shape, a front opening of the aircraft is large, a rear opening is small, and accordingly the condition that the aircraft rotors are blocked in a shot picture during aerial photography can be effectively avoided in comparison with the traditional multi-rotor aerial photography machine and the camera can find a view conveniently.

Devices, systems, and methods to precondition, arterialize, and / or occlude a mammalian luminal organ. In an exemplary embodiment of a device for preconditioning, arterializing, and / or occluding a mammalian luminal organ of the present disclosure, the device comprises a frame comprising a plurality of struts, wherein at least one strut of the plurality of struts forms a local general perimeter or boundary of the device, and an expandable occluder coupled to the frame and comprising a membrane or other expandable material that can generally expand and / or unfold as device shifts from a first configuration to a second configuration.

A fan structure includes a frame having an inner surface, a permeable element covering the inner surface of the frame, a coil surrounded by the permeable element and a rotor assembly disposed rotatably in the frame. The rotor assembly includes a plurality of blades coupled to a shaft and a permanent magnet enclosing the blades and facing the coil. The rotor assembly rotates along the shaft to generate airflow by means of the electromagnetic effect between the permanent magnet and the coil.

A photovoltaic module includes a photovoltaic panel and a frame securing to an edge of the photovoltaic panel. The frame includes a metal portion and a composite material of a plastic material and glass fibers or of a silicone resin and glass fibers. The composite material is integrated with the metal portion to form a unitary frame.