Disclosed herein are thermally conductive materials, including, for instance, thermally conductive tubing, thermally conductive devices and/or systems (e.g., apparel, backpacks, and the like), and applications thereof. In at least one embodiment, a thermally conductive material is disclosed that is made from one or more base polymers and one or more additives that increase the thermal conductivity of the thermally conductive material relative to the one or more base polymers. In additional embodiments, a cooling vest and a cooling backpack are disclosed, both of which are wearable by human users to keep their body temperature below a certain value. The vest and/or the backpack may include tubing through which coolant flows. The tubing is placed within the fabric and is arranged so that it contacts the user's skin.

At least some aspects of the present disclosure feature a combination, comprising: a garment, a configurable convective device, and an attachment device configured to attach the configurable convective device to the garment. The configurable convective device comprises a pneumatic structure having a first portion, a second portion, and an inflatable channel connecting the first portion and the second portion and at least one opening into the pneumatic structure. In some cases, the relative positions of the first portion and the second portion of the pneumatic structure can be rearranged.

The invention relates to systems for temperature and humidity monitoring under garments and is characterized by that it contains at least one internal electronic module located under the garment and an external electronic module with sensors for temperature and humidity monitoring, storage devices connected to the electronic modules wirelessly (for example, via Bluetooth), and the receiving device, which provides the user with the possibility to monitor the current temperature and humidity of the observed object.

The invention relates to systems for temperature and humidity monitoring under garments and is characterized by that it contains at least one internal electronic module located under the garment and an external electronic module with sensors for temperature and humidity monitoring, storage devices connected to the electronic modules wirelessly (for example, via Bluetooth), and the receiving device, which provides the user with the possibility to monitor the current temperature and humidity of the observed object.

An integrated control device for mounting in electrically heated articles of apparel for controlling power to heating wires secured in the articles of apparel. The control device has a finger-operable switch integrated with electronic circuits mounted on a pcb board. The electronic circuits have a communication circuit to interface with a user person to provide message information to the user person. A waterproof envelope shields at least a portion of the control device. An input electrical connecting port is mounted on the control device and accessible from outside the waterproof envelope. The input electrical connecting port is configured to magnetically receive and retain an external electrical connector having a conductor cable secured thereto to provide power to the electronic circuits from an external electrical power source. The input electrical connecting port, and the external electrical connector positioned therein, exhibit a magnetic coupling force of a predetermined strength permitting rotational planar displacement of the external electrical connector, when a shear force is applied thereto by the conductor cable of the external electrical connector, without separating the magnetic coupling retention force between the magnet retainers.

Provided is a heat generator for knees capable of effectively warming a knee joint. A heat generator for knees 1 includes a heat-generating material and a pouch that is formed from a pair of sheets and that accommodates the heat-generating material inside. The pouch includes a peripheral joint portion that is formed from the pair of sheets that are joined, and that has a heat generation area inside, and a partition portion that divides the heat generation area into sections in the left-and-right direction by the pair of sheets joined in the up-and-down direction on the inner side of the peripheral joint portion.

Provided is a heat generator for knees capable of effectively warming a knee joint. A heat generator for knees 1 includes a heat-generating material and a pouch that is formed from a pair of sheets and that accommodates the heat-generating material inside. The pouch includes a peripheral joint portion that is formed from the pair of sheets that are joined, and that has a heat generation area inside, and a partition portion that divides the heat generation area into sections in the left-and-right direction by the pair of sheets joined in the up-and-down direction on the inner side of the peripheral joint portion.

A power source for a heated garment. The power source includes a housing, one or more battery cells located within the housing, a user interface positioned on the housing, an electrical interface positioned on the housing for connecting to the heated garment, and a controller located within the housing and including an electronic processor and a memory, the controller coupled to the battery cells, the user interface, and the electrical interface. The controller is configured to communicate with the heated garment and a device. Communicating with a device includes at least one of transmitting the status of the battery cells, receiving heated garment preset temperature information, and receiving desired temperature information. Communicating with the heated garment includes at least one of enabling heated garment components, receiving temperature information, receiving garment type information, and controlling heated zones within the heated garment.

The present invention relates to a system with active learning and execution of user's preference functionalities for use in a garment. The present system includes a sensor module, an optional user input panel and/or interface, a printed circuit board, a power source and an output. In an event that a user of the present system voluntarily changes the output setting during the operation of the system, the system performs an active learning action to execute the output setting initiated by the user over a passive learning action triggered by a change in sensor data with respect to the changing environment. In other event, the present system performs passive learning action with respect to the changing environment and also any comparative data from similar user of a particular instance. The present invention also relates to a power management unit and how to use the same in a garment.

The present invention relates to a system with active learning and execution of user's preference functionalities for use in a garment. The present system includes a sensor module, an optional user input panel and/or interface, a printed circuit board, a power source and an output. In an event that a user of the present system voluntarily changes the output setting during the operation of the system, the system performs an active learning action to execute the output setting initiated by the user over a passive learning action triggered by a change in sensor data with respect to the changing environment. In other event, the present system performs passive learning action with respect to the changing environment and also any comparative data from similar user of a particular instance. The present invention also relates to a power management unit and how to use the same in a garment.