A communication adapter for collecting various kinds of information from a water-heating system and providing the information to an administration center via a wireless LAN router functions as an access point for providing a direct wireless communication with a smartphone; in response to a request from the smartphone via the direct wireless communication, it provides pairing authentication information to the smartphone; in response to a request from the smartphone, it initializes the wireless LAN connection information for the wireless LAN router to disconnect the wireless link to the wireless LAN router; and, when the wireless LAN connection information is set by its WPS function, it establishes a wireless link to the wireless LAN router and transmits the pairing authentication information to the administration center via the wireless LAN router.

A communication adapter (4) for collecting various kinds of information from a water-heating system (1) and providing the information to an administration center (2) via a wireless LAN router (6) functions as an access point for providing a direct wireless communication with a smartphone (3); in response to a request from the smartphone (3) via the direct wireless communication, it provides pairing authentication information to the smartphone (3); in response to a request from the smartphone (3), it initializes the wireless LAN connection information for the wireless LAN router (6) to disconnect the wireless link to the wireless LAN router (6); and, when the wireless LAN connection information is set by its WPS function, it establishes a wireless link to the wireless LAN router (6) and transmits the pairing authentication information to the administration center (2) via the wireless LAN router (6).

In a communication system, a management server stores information about a hot water systems for each hot water system on the basis of individual identification information, and stores the individual identification information of a plurality of identification target machines for each hot water system. When the individual identification information of the plurality of identification target machines is received from a relay device, the management server collates the received individual identification information with the stored individual identification information. When at least one of the received individual identification information matches the stored individual identification information as a result of the collation, if all the individual identification information stored for the hot water system which has the identification target machine with the matching individual identification information includes individual identification information different from the received individual identification information, the management server rewrites the different individual identification information to the received individual identification information.

A water heating system can include a water heater having a tank, and a first temperature sensor disposed toward a top end of the tank to measure a first temperature and a second temperature sensor disposed toward a bottom end of the tank to measure a second temperature. The water heating system can further include a controller communicably coupled to the first temperature sensor and the second temperature sensor, where the controller determines an amount of heated water in the tank based on a plurality of algorithms and measurements made by the first and second temperature sensors. The plurality of algorithms solves for at least one calculated temperature for at least one point between a first location of the first temperature sensor and a second location of the second temperature sensor, where the at least one calculated temperature is used to determine the amount of heated water in the tank.

The present disclosure relate to a controller system and method for use in storage-style water heating systems that offers significant opportunities for energy saving. The controller system can adjust the water heating system in response to energy demand patterns of user fixtures. The controller system can detect quantity of heated water usage and produce a heated water usage profile. The controller system can determine the quantity or volume of the used heated water without a mechanical flow meter. The controller system can include a cost-effective, accurate, and easy-to-install water temperature sensors that provide measurements of the differentials between water temperatures without direct contact with the water. The water temperature sensors can be cost-effective and easy-to-install sensors that are attached to the water pipes through a strap or other attachment methods.

A system and method for configuring a water heater. The method includes capturing, with a mobile device a scannable feature of a rating plate and receiving, with the mobile device, an input indicative of a configuration selection. The method further includes configuring, with the mobile device, the water heater based on the configuration selection.

A liquid heating system includes an instantaneous heater (18) having an inlet (20) connected to a reservoir (62). The outlet (22) of the heater is connected to fixtures (72) which use the heated liquid, and is also connected through a return connection (30) to the reservoir. In an idle mode, a pump 40 draws liquid from the reservoir (62), so that the liquid circulates through the heater and back to the reservoir. A controller (52) actuates the heater to heat the liquid to a first setpoint temperature, so that the liquid in the reservoir stabilizes at the first setpoint temperature. In a supply mode, some or all of the heated liquid flows from the outlet to the fixtures (72). Cold liquid is admitted from a supply (60) to the reservoir, and cold liquid desirably also is supplied to the heater inlet along with liquid from the reservoir, so that the heater inlet receives a combination of these. The controller controls the proportion of cold liquid to liquid from the reservoir in the combination, so as to maintain the heater at a setpoint heating rate while also maintaining the temperature of liquid discharged from the heater outlet at or near a setpoint temperature.

A temperature sensor securing system and method is described for securing two or more temperature sensors against an outer surface of a side wall of a tank of an electric water heater. The temperature sensors are secured spaced apart on an elongated support such as a circuit board which is held in position against the tank outer surface by support means. An expandable liquid foam causes the temperature sensors to be biased against the outer surface of the tank side wall to sense the temperature of the side wall at the location of the sensors and to generate actual temperature signals to a controller which is programmed to communicate with a subscriber and/or energy provider to control the water temperature inside the tank.

A single capacitive sensor that may detect both water leaks and flammable vapors. The sensor may have two electrodes not touching each other but supported with an insulative material between the electrodes that allows fluids to enter between the electrodes. An electronic circuit connected to the capacitive sensor may determine the capacitance of the two electrodes. Fluids may enter between the electrodes and affect their capacitance. Permittivities of the fluids may be calculated from their effects on capacitance. Ranges of the permittivities may indicate the kind of substances and their intensity of presence. Water and flammable vapors are examples of such substances. The electronic circuit may be connected to a control module of a water heater, in that if the intensity or concentration of detected water or flammable vapors reaches a pre-set threshold, then the circuit may trigger an alarm and/or shut down the water heater.

A system and a method is described for remotely controlling gas consumption by a power vented gas-fired water heater to reduce consumption of gas by a consumer connected to a gas distribution bank network of a gas provider during overload periods where gas demand is at a peak. The system comprises a consumer controller in communication with the gas provider whereby the controller can operate a modulating gas control valve either directly or through the control of the fan speed of a power vented blower to reduce the supply of gas to the burner of the gas-fired water heater when asked by the provider to do so. Temperature sensors are associated with the water holding tank of the gas-fired water heater to feed water temperature signals to a computer of the controller whereby to enable the controller to execute informed corrective action for the reduction in gas consumption by regulating the gas control valve to reduce the supply of gas to the burner of the water heater.