A toilet includes a base, a cover, and a seat. The seat is rotatably coupled to the base, and the cover is rotatably coupled to the seat. The cover and the seat define an angled axis that is oriented upward and forward toward a front end of the base. The cover and the seat are each configured to rotate about the angled axis between a lowered position in which the cover and the seat are located adjacent the base and a stowed position in which the cover and the seat are oriented in an upward direction.

A sanitary washing device includes a nozzle, a valve unit, a controller, and a casing. The nozzle is configured to discharge water toward an ano-genital region of a human body. The valve unit is provided on a pipe line between a water supply source and the nozzle. The valve unit includes an electromagnetic valve. The controller is configured to control operation of the nozzle and the valve unit. The casing stores the nozzle, the valve unit, and the controller. The valve unit is disposed further frontward than the controller.

The present disclosure provides a driving part of a warm air heater and the warm air heater, wherein the driving part comprises a driving circuit board, and a silicon-controlled element is arranged on the driving circuit board; the driving circuit board is arranged in an air duct of the warm air heater, and the driving circuit board is positioned at the upstream of the heating part or is flush with the heating part, wherein the upstream or the flush is based on the direction of air flow in the air duct. The driving part of the present disclosure utilizes the fan to cool the silicon-controlled element without adding large-area radiating fins, thus reducing the cost of the driving part, and the driving circuit board is not arranged on the main control circuit board anymore, thus realizing the miniaturization of the main control part.

The present invention relates generally to a toilet seat device. The device is comprised of a lid which is connected to a seat by at least one hinge. The device is further comprised of at least one speaker, at least one laser, at least one LED light and at least one heating element. All of these components are controlled or activated by at least one motion sensor, at least one processor and/or a mobile application. The LED light and laser may further illuminate a plurality of indicia onto the interior surface of a toilet that a user can aim at while urinating. In addition, the speaker may play an audible sound that corresponds with the LED light/laser.

A seat warming device and method suitable for toilet seats is provided. The device includes two or more leaves connected to a control unit. Each leaf includes a soft layer surrounding a compressible layer with a heating element embedded in the compressible layer and a temperature sensor. In some configurations, each leaf includes a soft layer that is textured and anti-microbial, a compressible layer under the soft layer with a heating element embedded in the compressible layer, a substrate layer under the compressible layer, a pressure sensor configured to send an activation signal based on a threshold pressure, a biosensor configured to send a bio-signal, and a temperature sensor that sends a temperature signal. The control unit activates the heating element based on the activation signal. A remote control is configured to send a desired temperature to adjust the heating element temperature.

A toilet includes a base, a cover, and a seat. The seat is rotatably coupled to the base, and the cover is rotatably coupled to the seat. The cover and the seat define an angled axis that is oriented upward and forward toward a front end of the base. The cover and the seat are each configured to rotate about the angled axis between a lowered position in which the cover and the seat are located adjacent the base and a stowed position in which the cover and the seat are oriented in an upward direction.

A camera system that includes a camera having a main body having a front surface and a back surface; a lens disposed within the main body and configured to view objects in front of the front surface; a magnet coupled to the back surface, wherein the magnet is configured to removably couple the camera to a ferromagnetic material; a shutter adjustably coupled to the main body, so that the shutter is moveable relative to the lens between a closed position and an open position; and a controller disposed within the main body and configured to control operation of the camera.

A toilet air heating device, control method and a toilet including such device/method, which include an air heating fan, an external air duct, an internal air duct, an air heating wire component, a drive mechanism, and a controller. The internal air duct is accommodated inside the external air duct and telescopes, as driven by the drive mechanism, along the extension direction of the external air duct. An air outlet of the air heating fan is sequentially in communication with the air heating wire component, the external air duct, and the internal air duct. An internal air duct outlet of the internal air duct includes an auxiliary heater. The controller is in communication connection with each of the air heating wire component, the air heating fan, the drive mechanism and the auxiliary heater.

A camera system that includes a camera having a main body having a front surface and a back surface; a lens disposed within the main body and configured to view objects in front of the front surface; a magnet coupled to the back surface, wherein the magnet is configured to removably couple the camera to a ferromagnetic material; a shutter adjustably coupled to the main body, so that the shutter is moveable relative to the lens between a closed position and an open position; and a controller disposed within the main body and configured to control operation of the camera.

A heating seat ring voltage self-adaption method includes: determining a voltage acting on a seat ring heater of a heating seat ring; determining a heating power coefficient based on the voltage; and performing a heating control on the seat ring heater by using the heating power coefficient. An electronic device includes a seat ring heater and a processor communicably coupled to the seat ring heater. The processor configured to: determine a voltage acting on the seat ring heater; determine a heating power coefficient based on the voltage; and perform a heating control on the seat ring heater by using the heating power coefficient. A non-transitory storage medium configured to store computer instructions executed by the processor.