An optical mechanism is provided. The optical mechanism includes an immovable part, a movable part, a drive assembly, and a guidance assembly. The movable part is connected to an optical element. The movable part is movable relative to the immovable part. The drive assembly drives the movable part to move relative to the immovable part. The guidance assembly guides the movable part to move along a first axis.

The (LED or-and Laser) light source for bulb or light device such as garden light that has at least one of or more than one optics-lens, and light device has one top cover having shape of flat or ½ ball, ⅔ ball, sphere, dome shape for top cover. Foe laser light source incorporate with flat top protective lens and laser film or grating film to enlarge or created plurality of image, lighted patterns. For LED light source can has project assembly which is a built-in or add-on or assembled inside of said light device. Further can incorporated flexible bendable arms to change position, direction, orientation of (LED or-and Laser) light beam. The said Light device also can offer near-by and far-away illumination, or-and lighted image, pattern projection with desired light effects by rotating optic-lens or LED(s). It also can get desired effects while LED(s) controlled by IC or circuitry making LED(s) for color changing or on-off on desired time, duration, cycles. The light device further can have more than one function selected from USB charger, power failure, RF remote control, Infra-red controller, blue-tooth, wifi, internet, App software, motion sensor and wireless with multiple-way communication. Also, light device may have rechargeable circuit, batteries or rechargeable battery, USB ports for the (LED or-and Laser)-bulb be charged or supply other device current.

The present disclosure provides a method and system by which a precise amount of a viscous fluid sealing compound can be dispensed at required locations through computer vision-based observation of the fluid deposited, its rate and amount of deposition and location; and that the dispensed fluid may be accurately shaped through robotic or other special purpose mechanism motion. The invention enables instant quality inspection of the dispensing process in terms of the locations, amounts and shapes of newly created seals.

The present disclosure provides a more adapt and accessible messaging system. In some aspects, the present disclosure relates to a messaging system that allows users to prerecord messages for future or real time use. Allowing users to communicate emotional messages, both visually and audially to relay feedback to both users. In some embodiments, the system may be useful to help with mental issues, self-esteem problems and other personal issues, non-limiting examples. In some implementations, the device may provide instant messages from one message device to another message device.

The present disclosure provides a more adapt and accessible messaging system. In some aspects, the present disclosure relates to a messaging system that allows users to prerecord messages for future or real time use. Allowing users to communicate emotional messages, both visually and audially to relay feedback to both users. In some embodiments, the system may be useful to help with mental issues, self-esteem problems and other personal issues, non-limiting examples. In some implementations, the device may provide instant messages from one message device to another message device.

A camera module includes a housing assembly, a driving assembly received in the housing assembly, and a lens assembly received in the driving assembly and including at least one lens aligned in a first direction. The driving assembly includes a first magnetic member fixed to one side surface of the driving assembly and driven in the first direction. The housing assembly includes a first coil disposed to face the first magnetic member and configured to generate a magnetic field in response to a first signal to drive the first magnetic member and a first position sensor disposed at one side of the first coil and configured to measure a position of the first magnetic member. The first position sensor is disposed to be partially overlapped with a first virtual expansion area formed by expanding the first magnetic member in a direction that uniformly maintains spacing from the first coil.

This application is directed to a mounting plate for attaching an electronic device to a mounting surface. The mounting plate includes an opening configured to receive a mounting fastener for securing the mounting plate to the mounting surface, and a first polygonal fastener structure configured to mate with a complementary second polygonal fastener structure of the electronic device. When the first and second fastener structures are mechanically mated to each other, the electronic device is fixed to the mounting plate. When the mounting fastener is secured to the mounting surface through the opening, the mounting plate is rotatable such that when the electronic device is fixed onto the mounting plate and the mounting plate is secured to the mounting surface by the mounting fastener, the electronic device and the mounting plate have an unlimited range of rotation with respect to the mounting surface and substantially consistent resistance.

A camera controller is configured to control a camera through voice commands. The camera controller includes drain mechanisms that allow the camera controller to be used in environments in which the camera controller is exposed to fluids. The camera controller device comprises a housing body with an outer surface including a first opening and a second opening. A first channel extends from the first opening into the housing body and to a cavity in which a microphone is located, enabling audio signals entering the first opening to be captured by the microphone. A membrane is located between the first channel and the microphone to create a waterproof seal over the microphone. A second channel extends from the first channel to the second opening to create a drain such that fluid entering from the first opening can flow from the first channel through the second channel and out the second opening.

A wastewater monitoring system uses a camera in a fixed location in a wastewater pipe. The camera is coupled to a sensor that measures some characteristic of material in the wastewater pipe. The sensor is programmed with one or more alarms that, when triggered, cause the sensor to wake up the camera and command the camera to take one or more photos. Sensor data, such as current time/date, location, and the characteristics of material in the wastewater pipe, is sent by the sensor to the camera, which overlays one or more photos with visible text information corresponding to the received sensor data. The sensor can wake up the camera and command the camera to turn on the camera's Wi-Fi interface, which allows a wastewater control system in a remote location to communicate directly with the camera.

A camera for a vehicle vision system includes a housing having a front housing portion with a lens barrel and lens assembly, and a rear housing portion with a connector. The front and rear housing portions are mated together to establish an inner cavity in the housing. An imager circuit board is disposed in the inner cavity of the housing, with an imager disposed at the imager circuit board and optically aligned with the lens assembly. When the front and rear housing portions are mated together, perimeter flanges of the front and rear housing portions may be curled to have multiple folds to seal the front housing portion relative to the rear housing portion. The imager circuit board may be held in the inner cavity by a spring element that urges the imager circuit board in a direction toward the lens assembly.