A washer liquid heating apparatus integrated into a reservoir may include an auxiliary tank which is integrally connected to the reservoir and in which a washer liquid inflowing from the reservoir is stored, and a heater assembly that is integrally attached to the auxiliary tank and heats the washer liquid stored in the auxiliary tank, wherein the heater assembly comprises a plate-type heater that is installed in a hole of the auxiliary tank to heat the washer liquid within the auxiliary tank, and wherein the plate-type heater is exposed to an inside of the auxiliary tank through the hole of the auxiliary tank such that a heating surface where heating is performed heats the washer liquid within the auxiliary tank.

A washer liquid heating apparatus integrated into a reservoir may include an auxiliary tank which is integrally connected to the reservoir and in which a washer liquid inflowing from the reservoir is stored, and a heater assembly that is integrally attached to the auxiliary tank and heats the washer liquid stored in the auxiliary tank, wherein the heater assembly comprises a plate-type heater that is installed in a hole of the auxiliary tank to heat the washer liquid within the auxiliary tank, and wherein the plate-type heater is exposed to an inside of the auxiliary tank through the hole of the auxiliary tank such that a heating surface where heating is performed heats the washer liquid within the auxiliary tank.

A safety device for heating hoses is provided to prevent overheating of a heating wire. The safety device includes a first hose that connects between a reservoir and a connector and a second hose that is fluidly connected to the first hose and allows windshield washer fluid to flow from the connector to a spray nozzle. A housing encloses the connector and a heating wire is disposed in at least one of the first and second hoses. A terminal is disposed inside the housing and is connected to the heating wire to apply electric power from a power supply unit to the heating wire. A circuit breaker is connected to the terminal and the heating wire and cuts off electric power applied to the heating wire based on a temperature condition.

A heater assembly having a lower tank that is provided with an inlet and an outlet and has a first space, a heater case that covers the first space, has at least one heat transfer pocket that is situated in the first space, and has a second space, at least one heating module that is inserted into the heat transfer pocket such that a terminal thereof is situated in the second space, a bus bar block which is accommodated in the second space and to which the terminal is connected, and a PCB module that controls the heating module is provided. The bus bar block includes a bus bar that contacts the terminal, and a first bus bar plate which has a terminal through-hole, through which the terminal passes, and in which the bus bar is arranged.

An actively heated or cooled portable container is provided. The container has a portable body with a receiving portion defined by an inner wall that receives a liquid. A heating and cooling system housed in the portable body has a cooling element in thermal communication with at least a portion of the inner wall to remove heat from the liquid. The heating and cooling system also has a heating element in thermal communication with at least a portion of the inner wall, control circuitry to control the operation of the heating element and one or more power storage elements to provide electrical energy to the heating element and/or control circuitry. The control circuitry controls the heating element to add heat to the liquid in the receiving portion to maintain the temperature of the liquid at a predetermined temperature or increase the temperature of the liquid above said predetermined temperature. Optionally, the control circuitry can calculate a volume of the liquid in the receiving portion of the portable body based on sensed information indicative of a temperature of the liquid in the receiving portion.

An actively heated or cooled portable container is provided. The container has a portable body with a receiving portion defined by an inner wall that receives a liquid. A heating and cooling system housed in the portable body has a cooling element in thermal communication with at least a portion of the inner wall to remove heat from the liquid. The heating and cooling system also has a heating element in thermal communication with at least a portion of the inner wall, control circuitry to control the operation of the heating element and one or more power storage elements to provide electrical energy to the heating element and/or control circuitry. The control circuitry controls the heating element to add heat to the liquid in the receiving portion to maintain the temperature of the liquid at a predetermined temperature or increase the temperature of the liquid above said predetermined temperature. Optionally, the control circuitry can calculate a volume of the liquid in the receiving portion of the portable body based on sensed information indicative of a temperature of the liquid in the receiving portion.

A heat exchanger device for a heater a motor vehicle, having a housing with at least one fluid channel disposed therein, with a fluid inlet and a fluid outlet, an element generating an alternating magnetic field, and at least one, preferably metallic, flat heating element around which a fluid can flow on one or both sides, whereby at least one further flat heating element is provided, which is configured to divide the at least one fluid channel into subchannels. A heater with a heat exchanger device is also provided.

A heater for melting glass includes: a heating member containing carbon (C) configured to emit heat rays upon power feeding; and a tubular member made of metal configured to have one end closed, and to house the heating member. The heating member includes a first heat generating part and a second heat generating part along an extending axis direction of the heater, and the first heat generating part is arranged at a position closer to the one end of the tubular member than is the second heat generating part. Denoting a unit-length resistance of the first heat generating part along the extending axis direction by X (Ω/m), and denoting a unit-length resistance of the second heat generating part by Y (Ω/m),

( 1/30)X<Y<(½)X  Formula (1)

is satisfied.

A washer liquid heating apparatus integrated into a reservoir may include a plate-type heater that may be installed in a hole of the reservoir to heat a washer liquid within the reservoir, a protect cover that may be assembled into the reservoir to surround the heater, and a fastening device for fixing the heater and the protect cover to the reservoir, wherein the plate-type heater may be fixed to be exposed to an inside of the reservoir through the hole such that a heating surface where heating may be performed heats the washer liquid within the reservoir.

A washer liquid heating apparatus integrated into a reservoir may include a plate-type heater that may be installed in a hole of the reservoir to heat a washer liquid within the reservoir, a protect cover that may be assembled into the reservoir to surround the heater, and a fastening device for fixing the heater and the protect cover to the reservoir, wherein the plate-type heater may be fixed to be exposed to an inside of the reservoir through the hole such that a heating surface where heating may be performed heats the washer liquid within the reservoir.