This disclosure generally relates to a battery kiosk that houses and distributes rechargeable batteries for light electric vehicles. The battery kiosk includes various visual indicators that are activated based on the individual's progress with a rechargeable battery exchange process.

A remote monitoring method is provided for a remote monitoring system including a first communicator connected to a server that performs a charging process depending on a state of a power supply of an electrical apparatus and a second communicator connected to the first communicator via a wireless communication network and that monitors the state of the power supply of the electrical apparatus. When the second communicator detects turning-off of the electric power of the electrical apparatus, the second communicator transmits on-information indicating the change in the state to the first communicator via the wireless communication network, and maintains the electrical apparatus in the on-state as long as the wireless communication continues. However, if an occurrence of an interruption of the wireless communication is detected, the second communicator turns off the electric power of the electrical apparatus.

A charging locker including a charging station. The charging locker can receive a power connection to a user device via the charging station. The charging locker can actuate a lock for a door of the charging locker to a locked state. the charging station can provide power that charges the user device. Responsive to receiving a user event when the lock for the door of the charging locker is in the locked state, the charging locker can actuate the lock for the door of the charging locker to an unlocked state.

Provided is a device for transmitting wireless power. The wireless power transmitting device includes a communication unit, a power receiving unit, and a processor. The processor is configured to obtain, through the communication unit, communication establishment information and location information associated with a wireless charging area from a tag device, establish, through the communication unit, communication with a wireless power transmitting device based on the communication establishment information, and control to transmit the location information to the wireless power transmitting device. The power receiving unit wirelessly receives the power from the wireless power transmitting device after the communication unit transmits the location information.

According to an embodiment a wireless power transmitting device, includes a power transmission antenna including patch antennas to wirelessly transmit power, and communication antennas configured to receive a communication signal from an electronic device. The wireless power transmitting device also includes a processor configured to detect a direction in which the electronic device is positioned based on the communication signal received through the communication antennas and control the power transmission antenna to transmit the power in the detected direction.

Various embodiments of kiosks for purchasing mobile phones and other mobile electronic devices from users are disclosed herein. In some embodiments, the kiosks include an apparatus to turn a mobile phone over on an inspection surface. This apparatus can enable the kiosk to visually inspect both the front and back sides of the mobile device on the inspection surface with an inspection system (e.g., imaging devices, lighting devices, etc.) positioned above the inspection surface, and can eliminate the need to position a second inspection system below a transparent inspection surface to visually inspect, e.g., the back side of the mobile device through the transparent inspection surface. In some embodiments, the kiosk also includes a wireless mobile phone charging device that can be used for, e.g., phone charging and identification.

Disclosed here are various embodiments to evaluate a device and present a price quote to the user by detecting a presence of a device in proximity to a wireless charger. The system can utilize a wireless charger to obtain information about the device while charging the device. The information can include the make of the device. The system can guide the user to navigate the device to provide additional information such as model, memory capacity, unique identifier, and carrier associated with the device. Based on the unique identifier, the system can determine whether device has been stolen. If the device has not been stolen, the system can determine a price based on information obtained from the device and can facilitate presenting the price to the user. If the user accepts the price, the system can facilitate purchase of the device.

A particular embodiment of a storage system includes at least one storage device. The storage device can store working clothing. The storage system further includes a wired and/or wireless charging device. The wired and/or wireless charging device can transmit electrical energy to an energy storage unit of the work clothing. The wired and/or wireless charging device can charge different work-clothing items of the work clothing. The work clothing can be disposed in the storage device. The storage system further includes a sensor device that can sense a characteristic variable of the work clothing.

A power pack vending system comprises a plurality of kiosks including a magazine having a plurality of slots, and a plurality of rechargeable power packs. Each power pack has a unique identifier and is sized to be received within one slot. Each kiosk includes a computer for receiving and storing the unique identifier of each power pack received within the magazine, the specific slot the power pack is in, and current power pack information. The kiosk computer controls a charging unit for charging the power packs. The system includes a central management operation comprising a central computer and central database. The management operation communicates with each kiosk and the central database includes a database storing power pack information for every power pack and a database storing customer information. The central management operation receives, stores and processes information received from the kiosks and sends information to each of the kiosks.

A secure mobile phone storage and wristband dispensing kiosk includes a support portion and a locker portion. The locker portion includes a plurality of storage compartments and a plurality of dispensing compartments. An authenticator is provided for authenticating the user of an individual storage compartment and dispensing compartment. A series of electronic wristbands are individually stored in each dispensing compartment. A processor is configured to condition unlocking a dispensing compartment upon successful connection of a mobile phone to a charging station in a storage compartment, and to condition unlocking a storage compartment upon successful authentication and installation of one of the electronic wristbands in a storage compartment, thereby allowing a user to store and charge a mobile phone while wearing a wristband that can receive rudimentary communications from the phone.