The invention discloses a solar electronic scale which comprises a casing without an external interface; a panel is covered with the casing, and together with the casing forms an accommodating cavity; a display assembly is installed in the accommodating cavity, and can display various information to the outside; the sensing component is arranged on the casing and can be in contact with the support platform; wherein the sensing component is used to sense the target weighing object placed on the panel to obtain the target weighing object and transmit the weight information to the display assembly for display; the power supply component includes the battery and the solar charging component, both of which are arranged in the accommodating cavity; the battery is electrically connected to the display assembly, the induction component and the solar charging component, and can balance power consumption for power consumption components in the accommodating cavity through the solar charging assembly. The solar electronic scale can meet the needs of users for weighing anytime and anywhere, and is conducive to ensuring the weighing accuracy of the electronic scale.

A movable and modular device (100) for dynamic weighing of animals includes an identifying module (1) and a weighing module (2). The identifying module (1) includes a supporting structure (11), a processing module (12), a solar panel (13), an antenna (14), and an identifier (15); and a weighing module (2) comprising: a base (20), at least one pair of sidewalls (21), at least one weighing platform (22), at least one load cell (23), and at least one amplifier and transmission box (24). The device (100) is capable of providing the precise weight of each animal passing over the scale, wherein weighing can occur both when the animal stops on the scale and when it moves on the scale, and especially having movable characteristics, without the need for the animals to move from one area to another through a passageway formed between these two areas.

Described herein is a weight or pressure measuring shovel. The shoveling apparatus has a broad blade assembly or scoop assembly including an elongate handle member. A coupler assembly is designed to couple the curved plate assembly to allow angular orientation or movement of the curved plate assembly to be adjusted relative to the handle member. A force transducer converts the weight or pressure of a material on the curved plate assembly into an electrical signal designed to communicate the weight or pressure of a material such as snow, sand, dirt, or ice. A control module in a housing mounted on the elongate handle is designed to receive electrical signals from the force transducer assembly or a load cell assembly. A display assembly is coupled to the electrical scale assembly and control module.

A yield improvement system adapted to weigh an object including a weighing device having a holder that is adapted to removably receive the object to be weighed and a load sensor that is adapted to determine the weight of the object to be weighed. The yield system also includes a programmable logic controller that is in electrical communication with the weighing device, a cloud platform that is in electrical communication with the programmable logic controller, and an application program interface (API) that is in electrical communication with the cloud platform, and a means for removably attaching the weighing device to an anchoring device. A method comprising providing a yield improvement system and weighing an object.

A movable and modular device (100) for dynamic weighing of animals includes an identifying module (1) and a weighing module (2). The identifying module (1) includes a supporting structure (11), a processing module (12), a solar panel (13), an antenna (14), and an identifier (15); and a weighing module (2) comprising: a base (20), at least one pair of sidewalls (21), at least one weighing platform (22), at least one load cell (23), and at least one amplifier and transmission box (24). The device (100) is capable of providing the precise weight of each animal passing over the scale, wherein weighing can occur both when the animal stops on the scale and when it moves on the scale, and especially having movable characteristics, without the need for the animals to move from one area to another through a passageway formed between these two areas.

Described herein is a weight or pressure measuring shovel. The shoveling apparatus has a broad blade assembly or scoop assembly including an elongate handle member. A coupler assembly is designed to couple the curved plate assembly to allow angular orientation or movement of the curved plate assembly to be adjusted relative to the handle member. A force transducer converts the weight or pressure of a material on the curved plate assembly into an electrical signal designed to communicate the weight or pressure of a material such as snow, sand, dirt, or ice. A control module in a housing mounted on the elongate handle is designed to receive electrical signals from the force transducer assembly or a load cell assembly. A display assembly is coupled to the electrical scale assembly and control module.

A remote sensor control system provides a sensor reading from an insulated environment at a certain interval dependent upon the threat level. The remote sensor control system has a control module and a remote module. The control module is disposed outside the insulated environment. The control module includes an energy source configured to produce an energy beam. The remote module is disposed at least partially within the insulated environment. The remote module is configured to receive the energy beam from the energy source. The remote module includes a battery, a sensor reader configured to sample a sensor, and an optical power gate configured to provide power from the battery to the sensor reader upon receiving said energy beam from the energy source.

A remote sensor control system provides a sensor reading from an insulated environment at a certain interval dependent upon the threat level. The remote sensor control system has a control module and a remote module. The control module is disposed outside the insulated environment. The control module includes an energy source configured to produce an energy beam. The remote module is disposed at least partially within the insulated environment. The remote module is configured to receive the energy beam from the energy source. The remote module includes a battery, a sensor reader configured to sample a sensor, and an optical power gate configured to provide power from the battery to the sensor reader upon receiving said energy beam from the energy source.

A weighing device (101) has a weighing unit (102), a control unit and at least one application unit (110). The application unit is positioned within a secondary unit (104) that also has a receiving unit. The control unit has a unit for transmitting data. The weighing unit comprises load receivers (106) and a power transmitting unit. The secondary unit is placed on the load receivers, leaving a gap between the top side of the weighing unit and the bottom side of the secondary unit. The weighing unit transmits a power signal from the power transmitting unit to the receiving unit of the secondary unit through the gap and a control signal is transmitted from the data transmitting unit to the receiving unit of the secondary unit through the gap. The secondary unit, and in turn the application unit, is powered and controlled in a contactless manner.

Certain aspects of the disclosure are directed to a weighing scale including a platform, data-procurement circuitry, processing circuitry and foot-controlled user interface (FUI). The processing circuitry is electrically integrated with the data-procurement circuitry to process data obtained by the data-procurement circuitry while the user is standing on the platform and therefrom generate cardio-related physiologic data. The FUI provides data to the user while the user is standing on the platform and receive a foot-based user input from the user for the user to interact with the weighing scale.