Improved Water Heater Device with TRIAC and Method of Use

Abstract

An apparatus and method for heating water using tankless water heater with TRIAC. The present invention is a TRIAC adjustment device that lets a user adjust electric output within a tankless water heater to limit or turn off electricity to a TRAIC within the tankless water heater. As utilized herein, a TRAIC or traic is defined as “a three-electrode semiconductor device that will conduct in either direction when triggered by a positive or negative signal at the gate electrode.”

Description

STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH

Not applicable.

BACKGROUND

The present invention generally relates to improved water heating devices with TRIAC and methods of use.

The present invention generally relates to an improved an improved TRIAC regulation device and method of use.

The present invention is distinguished over the following prior art.

Patent CA2240992C discloses a flow through tankless water heater. This patent discloses placing components against heating area for free cooling, directly linking heating elements to flow switch/measure. The present invention utilizes TRIAC regulation. The present invention also uses variant power usage/heating amount with flow.

Patent DE4416798A1 discloses a control and safety device for flow-through. It also discloses a safety & control device for measuring output and controlling power use. The present invention utilizes TRIAC regulation that is distinguished from the aforementioned prior art piece.

Patent EP2512204B1 discloses a control unit for conventional electric heater and pilot wire heater. The invention as disclosed concerns controls for a room heater with TRAICs including a separate latch to avoid sparking. The present invention utilizes TRIAC regulation that is distinguished from the aforementioned prior art piece,

U.S. Pat. No. 3,780,261 discloses an automatic control electrode boilers for control of a “real” boiler including load, boil, and drain. The present invention utilizes TRIAC regulation that is distinguished from the aforementioned prior art piece.

U.S. Pat. No. 3,978,313 disclosed a power regulating arrangements for a three phase electrode water heater which limits current drawn in a three phase application with rotating disk mounted electrodes. The present invention utilizes TRIAC regulation that is distinguished from the aforementioned prior art piece.

U.S. Pat. No. 4,638,147 disclosed a microprocessor controller flow-through electric water heater and uses a microprocessor to run subsets of differently sized heating elements to support different power outputs while only having one of the heating elements switched. The present invention utilizes TRIAC regulation that is distinguished from the aforementioned prior art piece.

U.S. Pat. No. 4,779,038 discloses electric continuous flow water heater with controllable outlet temperature. It is not scalable or controllable outside the temperature-heating loop. The present invention utilizes TRIAC regulation that is distinguished from the aforementioned prior art piece.

U.S. Pat. No. 4,970,373 disclosed an electronic temperature control tankless water heater. This patent focuses on controlling heating elements to hit target temperatures with a little “don't blow it all up when you start” power management logic built in, but nothing about size/scale of output control or remote. The present invention utilizes TRIAC regulation that is distinguished from the aforementioned prior art piece.

U.S. Pat. No. 5,479,558 discloses a flowthrough water heater with switch and control. The present invention utilizes TRIAC regulation that is distinguished from the aforementioned prior art piece.

U.S. Pat. No. 5,504,306 utilizes a microprocessor controller tankiess water heater system with PID control logic explicitly called out and implemented in the microcontroller. The present invention utilizes TRIAC regulation that is distinguished from the aforementioned prior art piece.

U.S. Pat. No. 5,604,411 discloses an electronic ballast having a TRAIL. This includes a logic and circuit for a dimmable ballast for lights. The present invention utilizes TRIAC regulation that is distinguished from the aforementioned prior art piece.

U.S. Pat. No. 5,948,304 discloses a water heater with proportional band temp control. The present invention utilizes TRIAC regulation that is distinguished from the aforementioned prior art piece.

U.S. Pat. No. 5,955,793 disclosed a high sensitivity diode temp sensor and a solid state temperature sensor and demonstration control circuit. The present invention utilizes TRIM regulation that is distinguished from the aforementioned prior art piece.

U.S. Pat. No. 6,351,603 discloses an automatic water heating system. The present invention uses logic on the device. The remote only sends set points. The present invention does not adjust flow, and only attempts to meet high water temp with available electrical set points. Again, the present invention has the ability to control power usage by setting limits per power line.

U.S. Pat. No. 6,795,544 discloses a standard tank-water control logic with a proportional band. The present invention utilizes TRIAC regulation that is distinguished from the aforementioned prior art piece.

U.S. Pat. No. 8,111,980 discloses a water heater and method of control. The present invention utilizes TRIAC regulation that is distinguished from the aforementioned prior art piece.

U.S. Pat. No. 8,423,193 discloses a variable wattage control system but does not have the remote component supporting three different channels with independent power settings. The present invention utilizes TRIAC regulation that is distinguished from the aforementioned prior art piece.

U.S. Pat. No. 9,702,585 discloses a tankless electric water heater (EEMAX). The present invention utilizes TRIAC regulation that is distinguished from the aforementioned prior art piece.

Patent Application US20040177817A1 discloses a water heater and method of control. The present invention utilizes TRIAC regulation that is distinguished from the aforementioned prior art piece.

Patent Application US2010215087A1 discloses an automatic control for electrical heating. The present invention utilizes TRIAC regulation that is distinguished from the aforementioned prior art piece.

Patent WO2012003551A1 discloses a circuit for instant electric: water heater temp maintenance. The present invention utilizes TRIAC regulation that is distinguished from the aforementioned prior art piece.

Patent WO2014102554A1 discloses an electrode boiler with variable output which physically rotates electrodes to manage power usage and hit temperature set point. The present invention utilizes TRIAC regulation that is distinguished from the aforementioned prior art piece.

The present invention is distinguished over the following prior art.

Patent CA 2,272,955 discloses a digital control of a larger storage tank trying to increase efficiency. This reference discloses placement of heating elements on the sides of a storage tank. The present invention does not place heating elements on the sides of a storage tank.

U.S. Pat. No. 6,170,493 discloses a method for cleaning the tubing in a water heater. The present invention does not disclose a methodology as found in this reference.

U.S. Pat. No. 6,192,192 discloses an instantaneous water heater associated with heating a single external coil with a wire. The present invention does not disclose the invention of this reference.

U.S. Pat. No. 6,391,121 discloses a method for cleaning a heater. The present invention discloses a water heater and methods of heating water.

U.S. Pat. No. 6,308,009 discloses digital control of multiple heating elements. The present invention only controls one heating element and is focused on controlling temperature remotely via smart home voice commands and mobile application. The present invention also reports fact-based monetary statistics based on use.

U.S. Pat. No. 6,744,978 discloses a heating element. The present invention discloses a water heater.

U.S. Pat. No. 6,833,032 discloses a steam cooker control, not a water heater.

U.S. Pat. No. 7,672,576 discloses a water dispenser with sabbath function. The present invention discloses a water heater.

U.S. Pat. No. 8,165,461 discloses a basic multichambered electric tankless design focusing on heat chambers for tankless water heaters. The present invention focuses on single heat exchangers or single heating element controlled remotely via smart home voice commands and mobile application. The present invention also reports fact-based monetary statistics based on use.

U.S. Pat. No. 8,677,946 discloses a recirculation system. The present invention does not address a recirculation system.

U.S. Pat. No. 8,934,763 discloses a water delivery system with a faucet device. The present invention discloses a water heater.

U.S. Pat. No. 9,167,630 discloses a small point of use tankless water heater control board. The '630 patent discloses point of use single application. It is also focused on the control board itself and not use or functionality. The present invention focuses on a single heat exchanger or a single heating element controlled remotely via smart home voice commands and mobile application. The present invention reports fact based monetary statistics based on use.

U.S. Pat. No. 9,234,664 discloses a control add-on for recirculation of water within a tank. The present invention, in several embodiments, utilizes intelligence for control functions (changing temperatures), not systems integration Like the present invention.

U.S. Pat. No. 9,381,549 discloses a portable descaling machine for heat transfer systems. The present invention discloses a water heater.

U.S. Pat. No. 9,410,708 discloses an apparatus and method for descaling tankless water heaters. The present invention discloses a water heater.

U.S. Pat. No. 9,513,019 discloses a computer driven water recirculation system. The present invention discloses a water heater.

U.S. Pat. No. 9,535,434 discloses a hot water management system. The present invention discloses a water heater.

U.S. Pat. No. 9,702,568 discloses the operation of a full-tank water heater. The present invention discloses a water heater in mini or tankless form.

Patent Application 2003/0226794 discloses a steam boiler scale inhibitor. The present invention discloses a water heater.

Patent Application 2005/0006402 discloses a method for operating a plumbing system. The present invention discloses a water heater.

Patent Application 2005/0121529 discloses a self-powered electronically controlled mixing valve. The present invention discloses a water heater.

Patent Application 2011/0036544 discloses a heat exchanger. The present invention discloses a water heater.

Patent Application 2012/0118246 discloses a sealed water heater flushing system. The present invention discloses a water heater.

Patent Application 2012/0225395 discloses a method and system for limiting boiler heat input. The present invention discloses a water heater.

Patent Application 2014/0297048 discloses a digital quota system, which involves adding breakers into plumbing network. '048 adds external water controllers/sensors to inform users when their water heater is out of hot water. The present invention does not function in that manner. The '148 application is for a standard home storage tank water heater whereas the present invention is a point of use tankless or mini water heater.

Application WO 1995/0411994 discloses a method and system for limiting water boiler heat input. The present invention discloses a water heater.

Application WO 2009/060192 discloses liquid heating controls for vessels. The present invention discloses a water heater.

Application WO 2000/006956 discloses a lime build-up maintenance system. The present invention discloses a water heater.

Patent EP 2116516 discloses a machine with water heating and anti--scaling capabilities, such as a washing machine. The present invention discloses a water heater.

SUMMARY

In some embodiments of the present invention, the present invention is an improved water heater device utilizing TRIAC, system and method for use.

In several embodiments of the present invention, the present invention is a smart home water heater and/or a tankless water heater. In several embodiments of the present invention, the present invention is a voice-commanded and/or controlled water heater or tankless water heater. In some embodiments, the present invention is a tankless water heater with Radio Frequency “rf” wireless remote. In some embodiments, the present invention utilizes smart technology to control a water heater or tankless water heater.

In some embodiments, the present invention utilizes an “In Voice” or voice-commanded on/off application. In some embodiments, the present invention utilizes a voice-commanded temperature adjustment control. In some embodiments, the present invention is smart home compatible. In some embodiments, the present invention can provide a cleaning/descaling/error notification via mobile SMS text, email, in app/text alerts. In some embodiments, the present invention will send notifications to the customers to let them know when it is time to clean their tankless water heater. In some embodiments, this is based on two variables: time and amount of water that flows through the product. In some instances, for individuals that use a large amount water, the water flow sensor will track the amount of water used and then send notifications. For individuals that do not use the water heater often, the sensor tracking will be based on time in service.

In some embodiments, the present invention has an ecco-mode technology setting that allows the water heater to run at half the power usage. In some embodiments, the present invention uses a water heater usage timer. In several embodiments, a user can utilize a smart application to set the length of time the water heater can run or be used based on the timer, for example, ten minutes per use.

In some embodiments, the present invention utilizes “Smart Button” technology. In some embodiments of the present invention, one single button flashes in certain ways to indicate an error or when not connected to a network. For instance, if the water heater is giving an E3 error code, the on and off button will flash 3 times, then pause, then flash 3 times, then pause, to indicate there is an E3 error. The button will also turn different colors based on errors. The single button can also turn the present invention off and on as well as turn different colors based on connection to a network.

In some embodiments, the present invention utilizes programming built into an application to let customers input KWH electricity rates and gas consumption rates they receive from a utility company to give them accurate product energy consumption costs. In some embodiments, the programming built into the product is the only way to let a user input actual rates to get actual product cost while using it.

In several embodiments, the present invention utilizes a real-time dashboard that shows actual input/output water temperature and water flow. In several embodiments, the present invention utilizes a water quality selection programming. In several embodiments, this lets customers choose the type of water they have to help determine when the product should receive maintenance. In several embodiments, selections such as city water (municipal), well water, and other specific water source location will determine products for maintenance.

In several embodiments, the present invention is a “smart home” water heater. In several embodiments, the present invention is a “smart home” mini storage tank water heater and/or mini water heater. In several embodiments, the present invention is a voice commanded or controlled water heater or mini water heater. In several embodiments, the present invention utilizes a unique water heater with voice and manual controls. In several embodiments, the present invention is a smart home water heater with smart mobile app. In several embodiments, the present invention is a smart home point of use water heater.

In several embodiments, the present invention uses voice commanded on/off. In several embodiments, the present invention can use a manual mode technology wherein the user can control the water heater's temperature by using the dial located on the side of the water heater. By way of example, once set to manual mode, the water heater is no longer a smart home water heater. This feature can be used in case a network is down and a user needs to adjust the product temperature.

In several embodiments, the present invention uses voice-command temperature adjustments. In several embodiments, the present invention is smart home compatible. In several embodiments, the present invention utilizes a Cleaning/Descaling/Error notification. In several embodiments of the present invention, the notification comes through a mobile SMS text, email, and/or in app/text alerts. In several embodiments, the smart application will send notifications to customers to let them know when it is time to clean their water heater. In several embodiments of the present invention, this notification is based on two variables. In some embodiments, the time and amount of water that flows through the product are the main variables. By way of example, for some individuals that use a large quantity of water, the water flow sensor will track the amount of water used and then send notifications. For individuals that use less water, notification will be based on time in service.

In several embodiments, the present invention utilizes a water quality selection program. This lets customers choose the type of water used to help determine when the product should be maintained. Selections include city water (municipal), well water, and/or other specific water source locations.

In several embodiments, the present invention utilizes a water heater usage timer. A user can utilize the inventive smart application to set the length of time the water heater can run or be used based on the timer. For instance, if a user only wants hot water for up to 10 minutes per use, they can set the timer. In several embodiments, the present invention is a smart button technology. In this regard, one single button flashes in certain ways to indicate an error or when not connected to a network. For instance, if the water heater is giving an E3 error code, the on and off button will flash 3 times, then pause, then flash 3 times, then pause, to indicate there is an E3 error. The button will also turn different colors based on errors.

In several embodiments, the present invention is a program built into a proprietary application designed to let customers choose recommended temperature settings: Comfort, Low, High, Commercial. In this embodiment, a customer can select the recommendation, and the water heater temperature automatically adjusts. In several embodiments, the present invention uses programming built into the present invention to let customers input KWH electricity rates they receive from a utility company to give them accurate product energy consumption costs. In several embodiments, the present invention uses a real time dashboard that shows actual input/output water temperature and water flow.

In several embodiments of the present invention, voice commands can be used for temperature adjustment, scheduling, statistics, notifications, errors, status, timer and modes, monetary statistics, use statistics, on/off, network connectivity, alarms, and smart button.

In several embodiments, the present invention is a CSA Group approved portable tankless water heater. In several embodiments, the present invention features an All-Weather Rain Cap and a Tri-Coat Pearl White Powder Coat painted body. The unique steel designed carrying handle adds an element of durability and quality. In several embodiments, the present invention comes with a clear and bright Digital Temperature Display with an ON/OFF and Pressure Indicator Light. In several embodiments, the Advanced Pressure LED indicator light takes all guesswork out of ensuring the water heater has enough water pressure to operate. In several embodiments, the Digital ON/OFF LED Indicator is powered by “4×AA” batteries and lets a user know when the water heater is on or off In several embodiments, other battery combinations can be used. In several embodiments, precision adjustable water and gas knobs allows a user to set the ideal outgoing water temperature to ensure maximum comfort. In several embodiments, the present invention features include a built-in Anti-Flame Tilt Switch that shuts the water heater off when tilted past 45 degrees, as well as multiple sensors that regulate temperature and prevent scalding.

In several embodiments, the present invention is tested to operate and heat water instantly at elevations up to 2000 ft. In several embodiments, the present invention can be used in a variety of applications: RV's, camping, hunting, poolside, pet washing, vehicle cleaning or even in a greenhouse, food truck or tiny home.

In several embodiments, the present invention can operate by attaching a garden hose and a 20-pound (lb.) propane tank. In several embodiments, the present invention is a portable tankless water heater for use off-grid where electricity is not readily available. In several embodiments, the present invention can operate at 20-80 PSI with a 1.5 GPM flow. In several embodiments, the present invention is lightweight, easy-to-carry and compact. This water heater can be used camping, hunting, poolside, pet washing, vehicle cleaning or even in a greenhouse, food truck or a tiny home.

In several embodiments, the present invention is rated at 1.5 gallons per minute (GPM) with an achievable temperature range of 50-120 degrees Fahrenheit. In several embodiments, the Tri-Coat Powder Coat Paint, Modern Digital Display and Extreme Weather Rain Cap make the present invention durable for frequent use. In several embodiments, the present invention runs on a standard 20 lb. Liquid Propane tank, is equipped with an electronic ignition, and is powered by “4×AA” batteries.

In several embodiments, the present invention is CSA Group certified for use in the US and Canada. In several embodiments, the inventive tankless water heater meets and exceeds all safety and efficiency requirements according to the Department of Energy. In several embodiments, the present invention features a safety shut-off switch that automatically shuts down the water heater when tilted more than 45 degrees.

In several embodiments, the present invention has low pressure activation at 20 PSI as well as easy connectivity to a standard garden hose. In several embodiments, kits for the invention can include a portable tankless water heater, a three-spray shower headset, 3½″ CSA Group certified gas regulator and hose, mounting hardware, and garden hose quick connect and adapter.

In several embodiments, the present invention features an Extreme All-Weather Rain Cap and a Tri-Coat Powder Coat painted body. The unique steel-designed carrying handle adds an element of utility, durability and quality to the present invention. In several embodiments, the present invention blocks outside water and wind to make product work in weather elements. In several embodiments, the present invention meets specifications for CSA Group wind tests. In some embodiments, the present invention has a removable rain cap for cleaning and service.

In several embodiments, the present invention comes with a clear and bright Digital Temperature Display with an ON/OFF and Pressure Indicator Light. The Advanced Pressure LED indicator light takes all guesswork out of ensuring the water heater has enough water pressure to operate. In several embodiments, the present invention has a Digital ON/OFF LED Indicator that is powered by “4×AA” batteries and lets a user know when the water heater is on or off In several embodiments, the present invention uses precision adjustable water and gas knobs to allow setting the ideal outgoing water temperature to ensure maximum comfort. In several embodiments, the safety features include a built-in Anti-Flame Tilt Switch that shuts the water heater off when the water heater is tilted past 45 degrees, as well as multiple sensors that regulate temperature and prevent scalding.

In several embodiments, the digital display indicates a current outlet temperature; On/Off status; and current pressure.

In several embodiments, the present invention has inset knobs included for a sleek design and maximum durability. In several embodiments, the inset knob prevents the temperature from accidental adjustment.

In several embodiments, the present invention is tested to operate and heat water instantly at elevations up to 2000 ft. This water heater can be used in a variety of applications: camping, hunting, poolside, pet washing, vehicle cleaning or even in a greenhouse, food truck or tiny home. In several embodiments, the present invention meets and exceeds all safety and efficiency requirements according to the Department of Energy. In several embodiments, the present invention shuts off at 130° F. to reduce chances of severe burns and scalds.

In several embodiments, the present invention has a tilt switch which prevents activation when not vertical. In several embodiments, the invention has micro-switch pressure sensor which activates the device and indicator light when triggered. The micro-switch pressure sensor, connected to the Gas Water Valve Assembly, or GWA's pressure valve via armature, detects open/close state of the valve via a micro-switch. The micro-switch connected to the gas and water valve senses pressures to allow the ignition to fire and triggers ignition sequence in the control pack and is linked to digital display pressure indicator. In several embodiments, flame sensors are present which detect if flame is lit and shuts off device if it fails to ignite. Sufficient consistent pressure is needed to operate the product. Without consistent pressure, the product could turn off during use causing the product to not perform as intended. In several embodiments, the present invention has pressure indicator light for user performance. In several embodiments, sufficient consistent pressure is necessary to operate the inventions. In some embodiments, without consistent pressure, the product could turn off during use causing the product to not perform as intended. In several embodiments, the solenoid is connected to LED then connected to control board. In several embodiments, a control board displays LED Pressure Light, On/Off and temperature. It also controls the product ignition and shut off

In some embodiments of the present invention, the present invention is an improved triac regulation device and method for use.

In several embodiments of the present invention, the present invention is a TRIAC adjustment device that lets a user adjust electric output within a tankless water heater to limit or turn off electricity to a TRAIC within the tankless water heater. As utilized herein, a TRAIC or traic is defined as “a three-electrode semiconductor device that will conduct in either direction when triggered by a positive or negative signal at the gate electrode.”

By way of example, a device, such as an Eccotemp 27 Kilowatt electric tankless water heater, has three triacs that allow the water heater to heat water based on the water use demand and incoming water temperature. In several embodiments of the present invention, each triac can manage a maximum amount of power (electricity) to heat water.

In several embodiments, the present invention can produce 40 amps of output electricity per triac attached to the heat water. In several embodiments, the present invention uses internal and/or cloud-based software program that can allow the users to adjust the maximum output of electricity per triac. For instance, if the user wants to manually adjust electrical output, turn off each triac (independently) the user can do so by using a tuning feature in the inventive smart app.

In several embodiments, the user can set one triac to 25 amps maximum output, the other triac to 35 amp maximum output and the third triac to off. Individual setting options allows the user to cut down on energy, i.e. electricity usage based on their specific need. By way of example, in the summer when the incoming water is a higher temperature the user may not need the water heater to ever produce the maximum output of electricity to heat water because the temperature of the water is warmer therefore needing less energy (electricity) to heat water to a desired temperature.

In several embodiments, some of the main benefits to our technology include AI or Manual triac adjustment based on user demand. Variables considered can include location, normal demand, installation and incoming water temperatures. In several embodiments, a user can turn a 27 kilowatt electric tankless water heater into a smaller output tankless water heater by adjusting the traic settings. In several embodiments, a user can make an electric tankless water heater into a 27 KW, 20 KW, 18 KW or even go as low as a 5 KW electric tankless water heater.

In several embodiments of the present invention, with the technology a user can buy one of the inventive items and “tune” it to whatever electric output a user needs therefor allowing for one water heater, versus the need to make multiple powered electric tankless water heaters in the market. The present invention is a one size fits all in terms of electrical output for a water heater.

In several embodiments, from an installation standpoint, a user can have the option to install the present inventive tankless water heater in a smaller amperage situation. For instance, a user may not have (3)-50 amp breakers normally required for a 27 KW installation. They could now use 3-25 amp breakers and simply set the tuner to only use a max, of say, 22 amps per breaker/triac. There is no other electric tankless water heater that performs this function. In the market, several separate lower power models must be purchased to achieve this result.

In several embodiments, the inventive program is an “all-in-one” inside of each water heater unit. Once the user connects their water heater to the proprietary mobile application they are then able to access the tuner setting. The water heater communicates with our mobile app via the cloud. Our app sends commands via your phone or other device to the water heater. When the user adjusts the tuner it sends a command to the internal Eccotemp Smart Wi-fi chip, to the Product Control board to the triacs and lastly to the heating element inside of the water heater. This allows the user to have full output electrical power flexibility based on the users demand and installation.

In some embodiments, the present invention utilizes a “In Voice” commanded on/off application. In some embodiments, the present invention utilizes a voice command triac voltage adjustment. In some embodiments, the present invention is a Google and Alexa smart home compatible.

In some embodiments, the present invention utilizes “Smart Button” technology. In some embodiments, the present invention is a one single button flashes in certain ways to indicate an error or when not connected to a network. For instance, if the water heater is giving an E3 error code, the on and off button will flash 3 times then pause then flash 3 times then pause to indicate there is an E3 error. The button will also turn different colors based on errors. The single button can also turn it off and on and turn different colors based on connection to your network.

In several embodiments, the present invention is voice commanded on/off. In several embodiments, the voice command capability is linked to the smart home water heater via automation systems. In several embodiments, the present invention can use a manual mode technology—when you use the dial located on the side of the water heater you can control your water heaters temperature manually. By way of example, once turned to manual mode your water heater is no longer a smart home water heater. This feature can be used in case a network is down and a user needs to adjust the products temperature.

In several embodiments, the present invention is a program built into a proprietary application designed to let customers choose recommended temperature settings: Comfort, Low, High, Commercial. In this embodiment, a customer can select the recommendation and the water heater temperature automatically adjusts. In several embodiments, the present invention uses programming built into our app to let customers input KWH electricity rates they receive from a utility company to give them accurate product energy consumption costs. In several embodiments, the present invention uses a real time dashboard that shows actual input/output water temperature and water flow.

Some embodiments of the present invention comprise an improved tankless smart home water heater comprising: a case; a case bottom attached to an outlet water connection and an inlet water connection, said outlet water connection in communication with a first flow sensor and said inlet water connection in communication with a second flow sensor, said case bottom further comprising one or more power supply openings; a heating element comprising one or more three-electrode semiconductor devices; a main power control board and one or more electrical terminals; a power button; a wi-fi chip; and an inlet port for receiving an inlet electrical power source further comprising a power source fastener.

Some embodiments of the present invention comprise an improved tankless smart home water heater further comprising: said second flow sensor that is read remotely using an electronic application via communication using said wi-fi chip; said electronic application can send a command to control water temperature, set usage timers, schedule usage times, or display water input flow.

Some embodiments of the present invention comprise an improved tankless smart home water heater further comprising: said water inlet sensor that is further comprised of: a water flow sensor; a thermostat/temperature sensor wire; a water inlet connector with a pressure relief plug; and a water flow sensor PCB connector.

Some embodiments of the present invention comprise the improved tankless smart home water heater further comprising: said PCB Box further comprising: a valve electronic array; an outlet and pressure electronic array; and a display electronic array.

Some embodiments of the present invention comprise an improved tankless smart home water heater further comprising: said improved tankless water heater that is electrically powered.

Some embodiments of the present invention comprise an improved tankless smart home water heater further comprising: said main power control board and said wi-fi chip located in the interior of said casing that can transmit data on kilowatt usage from said water heater.

Some embodiments of the present invention comprise an improved tankless smart home water heater further comprising: an electronic application running on a smart device wherein a user of the electronic application can adjust the amperage input to said one or more three-electrode semiconductor devices.

BRIEF DESCRIPTION OF THE DRAWINGS

For a more complete understanding of the present disclosure and the advantages thereof, reference is now made to the following descriptions to be taken in conjunction with the accompanying drawings describing specific embodiments of the disclosure, wherein:

FIG. 1 illustrates one embodiment of the present invention in a partial side view from the bottom.

FIG. 2 illustrates one embodiment of the present invention in a partial side view from the top.

FIG. 3 illustrates one embodiment of the present invention in exploded view.

FIG. 4 illustrates one embodiment of the present invention in a bottom view.

FIG. 5 illustrates one embodiment of the present invention in a front cross-sectional view.

FIG. 6 illustrates one embodiment of the present invention in a partial side view from the front and bottom.

FIG. 7 illustrates one embodiment of the present invention in a partial side view from the back and top.

FIG. 8 illustrates one embodiment of the present invention in an exploded view.

FIG. 9 illustrates one embodiment of the present invention in a front cross-sectional view.

FIG. 10 illustrates one embodiment of the water inlet sensor in assembled view.

FIG. 11 illustrates one embodiment of the water inlet sensor in exploded view.

FIG. 12 illustrates one embodiment of the gas proportional valve in assembled view.

FIG. 13 illustrates one embodiment of the gas proportional valve in exploded view.

FIG. 14 illustrates one embodiment of the electrical wiring diagram for one embodiment of the present invention.

FIG. 15 illustrates one embodiment of the present invention in partial side view from the front and bottom.

FIG. 16 illustrates one embodiment of the present invention in partial side view from the back.

FIG. 17 illustrates one embodiment of the present invention in top view.

FIG. 18 illustrates one embodiment of the present invention in bottom view.

FIG. 19 illustrates one embodiment of the present invention in front cross-sectional view.

FIG. 20 illustrates one embodiment of the present invention in exploded view.

FIG. 21 illustrates one embodiment of the present invention in partial side view from the front and bottom.

FIG. 22 illustrates one embodiment of the present invention in partial side view from the back and top.

FIG. 23 illustrates one embodiment of the present invention in top view.

FIG. 24 illustrates one embodiment of the present invention in bottom view.

FIG. 25 illustrates one embodiment of the present invention in front cross-sectional view.

FIG. 26 illustrates one embodiment of the present invention in exploded view.

FIG. 27 illustrates one embodiment of the rain cap of the present invention in partial view.

FIG. 28 illustrates one embodiment of the present invention in a partial side view.

FIG. 29 illustrates one embodiment of the present invention in a partial exploded side view.

FIG. 30 illustrates one embodiment of the present invention in partial side view with the front cover removed.

FIG. 31 illustrates one embodiment of the present invention in a front view with the cover removed.

FIG. 32 illustrates one embodiment of the present invention in a partially exploded view without a cover or backing.

FIG. 33 illustrates one embodiment of the present invention in a more complete exploded view.

FIG. 34 illustrates one embodiment of the present invention and specifically depicts an example of the smart app used to control the tuners and water heater device and also provide information about the water heater device to the user of the smart app.

DETAILED DESCRIPTION

One or more illustrative embodiments incorporating the invention disclosed herein are presented below. Applicant has created a revolutionary and improved water heater device and method of use.

In the following description, certain details are set forth such as specific quantities, sizes, etc. to provide a thorough understanding of the present embodiments disclosed herein. However, it will be evident to those of ordinary skill in the art that the present disclosure may be practiced without such specific details. In many cases, details concerning such considerations and the like have been omitted since such details are not necessary to obtain a complete understanding of the present disclosure and are within the skills of persons of ordinary skill in the relevant art.

Referring to the drawings in general, it will be understood that the illustrations are for the purpose of describing embodiments of the disclosure and are not intended to be limiting thereto. Drawings are not necessarily to scale, and arrangements of specific units in the drawings can vary.

While most of the terms used herein will be recognizable to those of ordinary skill in the art, it should be understood however that, when not explicitly defined, terms should be interpreted as adopting a meaning presently accepted by those of ordinary skill in the art. In cases where the construction of a term would render it meaningless, or essentially meaningless, the definition should be taken from Webster's Dictionary 2020, 11^th Edition. Definitions and/or interpretations should not be incorporated from other patent applications, patents, or publications, related or not, unless specifically stated in this specification, or if the incorporation is necessary for maintaining validity. As utilized herein, the following terms have the following definitions:

In several embodiments, “Smart home” means a product that can connect to a wireless or wired network and exchange data or information with a remote server or cloud service. In several embodiments, the remote server or cloud service can then transfer that information to a mobile application or website to display information about the product's status, usage, or other metrics. The application or website can then be accessed by a user to view this information. The user can then edit, change or use this information to control the product. The product can receive information wired or wirelessly from the remote server or cloud service to change settings, modify its operation, or alter how data is collected. This includes wireless voice commands from a user relayed through the remote server or cloud service. As a user speaks into other compatible smart home products, those products can then send commands to the present water heater either directly or through a remote server or service. The commands go from other smart home devices to the cloud, then to the user's network and then to the product to make those changes in real time.

In several embodiments, “Voice Command” is defined as issuing audio instruction, transmitting it to the cloud and then connecting to the product to affect a control.

In several embodiments, “Smart Button” or “Smart Button technology” means that a single button can perform several tasks. In several embodiments, this button can be used to turn a product on/off with the button changing color when doing so. In several embodiments, this button uses blink patterns and different colors to indicate different things. For instance, red color could mean “on” and blue color could mean “off”. One blink in blue every three seconds could indicate a certain error in the product. In several embodiments, two blinks could mean something else, three something else, and so on. Using blink and color patterns, this smart button relays different information to the user. When the product is connected to a network, the user can see the button information and/or changes the button has made. For instance, if a user turns the product off via smart button, then the mobile application will be updated to show the product is off.

In several embodiments, “manual mode” means a product can be controlled manually, not just digitally via mobile app. The user has an option to override all digital control of the product by simply switching it to manual mode. This includes temperature adjustments manually, not through a network. When in manual mode, the product cannot be controlled remotely.

In several embodiments, “smart home device capable” is defined as a water heater's technology allowing it to connect to other smart devices. When customers have one of these devices, they can add the present invention to the device to enable that device to control the present inventive water heater via application or through voice control.

In several embodiments, “real time data” is defined as the water capability to transmit data in real time to the cloud and then to a mobile application or website in real time. The present invention can also display statistics and usage in real time, including water flow, temperatures, warnings, notifications and controls.

In several embodiments, “service notifications” is a program that monitors servicing needs. This programming is tied to sensors that tell the user how much water has been used and when it is time to descale the product. These notifications are necessary to make sure that the user keeps the water heater running at full efficiency. This efficiency monitoring is based on the amount of water used and water quality of a particular water source location. It calculates the optimal time to clean your water heater based on the water quality of a particular location and source.

In several embodiments, “tilt switch” is defined as a safety feature that sends a signal to the control package to either prevent ignition or to shut down the gas to the burner if the entire unit exceeds a 45-degree tilt from vertical.

In several embodiments, “advanced statistics” is defined as the water heater's capability to tell a user how much electricity, gas and water has been used as well as an accurate monetary cost associated with the use of the product. The inventive mobile application allows customers to enter actual utility costs to calculate the cost associated with actual usage. The present invention then displays this information to the end user. This information can be displayed by day, month, year or in real time.

In several embodiments, “mini tank insulation” or “insulation” is defined as a unique polyurethane mold which insulates the steel holding tank/storage tank. This is used to insulate the storage tank to keep the internal water heated. What makes this unique is the fact that it is not sprayed into the product. It is a separate piece that is specifically designed to fit around the holding tank. It cuts down on leaks and allows the mini tanks to be serviced unlike other brands. It allows for product control boards (“PCBs”) to be replaced, as well as heating elements and other mechanical parts. In several embodiments, the PCB can be located in the interior of said casing and arranged to transmit data on kilowatt from said water heater for display via a mobile application or website. In several embodiments, the present invention utilizes a 50% reduction in plastic for construction over a standard water heater.

In several embodiments, “heating rod”, “water rod” or “rod” is defined as a rod used to guide water to the bottom of the storage tank. This is unique because it forces water right to the heating element where water is being heated. This design allows for quicker heating of water and water separation which extends the time water remains heated.

In several embodiments, the heating element of one embodiment of the present invention is different by location. Some other tanks have a heating element that heats in the middle of the tank. In several embodiments of the present invention, the location of the heating element is unique in design because it heats from the bottom of the storage tank. The incoming water rod guides the water straight to the heating element at the bottom, allowing for faster, more efficient heating of incoming water.

In several embodiments of the present invention, the tankless water heater or the mini-tank water heater can use either gas or electric heating elements.

While preferred embodiments have been shown and described, modifications thereof can be made by one skilled in the art without departing from the scope or teaching herein. The embodiments described herein are exemplary only and are not limiting. Many variations and modifications of the system and apparatus are possible and will become apparent to those skilled in the art once the above disclosure is fully appreciated. For example, the relative dimensions of various parts, the materials from which the various parts are made, and other parameters can be varied.

In several embodiments, the present invention works as follows: Water flows into the water heater. Temperature sensors and other sensors detect temperatures, errors, use and power consumption and send this information to the product control board. The product control board then sends this information through the user's network, to the cloud, then to the mobile app/computer to display it. Sensors detect temperatures, errors, use and power consumption. When the water is being heated, sensors detect electricity usage. The sensors also detect incoming water temperatures. When the mini water heater is connected to a wireless/wired network, this information is sent to the cloud. The cloud then sends this information to a mobile app/computer to display this information. When the user makes any changes via mobile app/computer, this information is then sent back to the product control board to make necessary changes.

FIG. 1 illustrates one embodiment of the present invention in a partial side view from the bottom. As illustrated, water heater 100 is comprised of a rear housing 200, a casing 170 and a front face 150. As shown, in several embodiments, the rear housing 200, casing 170, and front face 150, are comprised of noncorrosive and industry materials as utilized with a water heater, which can include, but are not limited to, ABS and/or tempered glass. Further shown are foot pads 175 and 176, as well as the casing bottom 302. In several embodiments, front face 150 may be constructed of tempered glass. In several embodiments, the rear housing 200, casing 170, and front face 150, can mechanically engage to form a containment vessel 102 with a hollow interior. In several embodiments, containment vessel 102 is designed to house a water heater tank through inner holding tank 31 (See FIG. 3). As further shown, there is insulator 131 for inner holding tank 31.

FIG. 2 illustrates one embodiment of the present invention in a partial side view from the top. As illustrated, water heater 100 is comprised of a rear housing 200, a casing 170, a casing bottom 302 and a front face 150. As shown, in several embodiments, the rear housing 200, casing 170, casing bottom 302 (See FIG. 1), and front face 150, are comprised of noncorrosive and industry materials as utilized with a water heater. In several embodiments, front face 150 may be constructed of tempered glass. In several embodiments, the rear housing 200, casing 170, casing bottom 302 and front face 150, can mechanically engage to form a containment vessel 102 with a hollow interior. In several embodiments, containment vessel 102 is designed to house a water heater tank in inner holding tank 31 (See FIG. 3).

Further illustrated in FIG. 2, temperature and relief valve connector 300, cold water intake connector 400, and hot water outlet connector 350 are in mechanical attachment with casing 170. In several embodiments, temperature and relief valve connector 300 can be comprised of rubber-covered hardened materials, or other suitable material. In several embodiments, temperature and relief valve connector 300 covers the inlet pipe guider 37 (See FIG. 3). In several embodiments, cold water intake connector 400 is comprised of temperature resistant materials, which can be, but are not limited to, steel. In several embodiments, hot water outlet connector 350 is comprised of temperature resistant materials, which can be, but are not limited to, steel. Further illustrated on FIG. 2 are the manual control knob 24 and temperature control product control board or “PCB” 23 located on opposite sides of rear housing 200. In several embodiments, manual control knob 24 and temperature control PCB 23 can be adjusted to control water temperature. In several embodiments, the PCB can be located in the interior of said casing and arranged to transmit data on kilowatt from said water heater for display via a mobile application or website.

FIG. 3 illustrates one embodiment of the present invention in exploded view. As illustrated, water heater 100 is comprised of a rear housing 200, a casing 170 and a front face 150. As shown, in several embodiments, the rear housing 200, casing 170, and front face 150, are comprised of noncorrosive and industry materials as utilized with a water heater. Further shown, are foot pads 175 and 176. Further illustrated are Wi-Fi Control Board 7, On and Off Control Board 172, and Front Product Control Board 6. In several embodiments, Wi-Fi Control Board 7 is an assembly of electronic components to provide control over the water heater connection to wireless networks that interface with the smart home technology. It is also used for connecting to external third-party applications. In several embodiments, On and Off Control Board 172 and Front Product Control Board 6 are controls for the smart button, which is used to turn the product on and off and indicates product errors through blinking patterns and color patterns.

In some embodiments, the present invention has an inner holding tank 31. In several embodiments, inner holding tank 31 is sometimes comprised of steel. In several embodiments of the present invention, inner holding tank 31 can be ensconced inside insulator 131. In several embodiments, insulator 131 is comprised of polyurethane. In several embodiments, the inside of insulator 131 is a pre-molded shell, which allows for an increase in ability to service the product. Further shown in FIG. 3 are cold water intake connector 400 and hot water outlet connector 350. In several embodiments, cold water intake connector 400 and hot water outlet connector 350 are in fluid communication with inner holding tank 31. In some embodiments, inlet pipe guider 37 is in sealing communication with temperature relief valve connector 300 or rubber ring 38 and temperature and relief valve connector 300 to cover the inlet pipe guider 37. Further shown is inlet pipe 140, which is in mechanical and fluid communication with the inner holding tank 31. In several embodiments, inlet pipe 140 guides water into the bottom of inner holding tank 31, providing proper mixture of cold and hot water to maximize hot water output efficiency.

In some embodiments, the inner holding tank 31 attaches to solid base 16. In several embodiments, as illustrated, is flange cover 10. Flange cover 10 is connected to magnesium anode rod 15, which is in communication with inner holding tank 31. In several embodiments, rod 15 is an advanced material that helps with reducing scale and lime build-up, extending the life expectancy of the water heater. As shown, in some embodiments, there is a temperature limiter and reset button 39 and a temperature limiter bracket 40. In several embodiments, bracket 40 ensconces the reset button 39, and in several embodiments is built-in extra safety to prevent from overheating.

FIG. 4 illustrates one embodiment of the present invention in a bottom view. As illustrated, water heater 100 is comprised of a rear housing 200, a casing 170 and a front face 150. As shown, in several embodiments, the rear housing 200, casing 170, and front face 150, are comprised of noncorrosive and industry materials as utilized with a water heater. Further shown are foot pads 175 and 176. In several embodiments, front face 150 may be constructed of tempered glass. In several embodiments, the rear housing 200, casing 170, and front face 150 can mechanically engage to form a containment vessel 102 with a hollow interior (See FIG. 2). In several embodiments, containment vessel 102 is designed to house a water heater tank in inner holding tank 31 (See FIGS. 2 and 3).

FIG. 5 illustrates one embodiment of the present invention in a front cross-sectional view. As shown, in some embodiments, there is a temperature limiter and reset button 39. Further shown is flange cover 10 connected to magnesium anode rod 15, which is in communication with inner holding tank 31. In several embodiments of the present invention, inner holding tank 31 can be ensconced by insulated foaming or insulator 131. In several embodiments, insulated foaming or insulator 131 is comprised of a polyurethane. Further shown in FIG. 5 are cold water intake connector 400 and hot water outlet connector 350. In several embodiments, cold water intake connector 400 and hot water outlet connector 350 are in fluid communication with inner holding tank 31. Further shown is inlet pipe 140, which is in mechanical and fluid communication with inner holding tank 31, and it guides cold water to the bottom of the product to help with cold and hot water separation, which helps with efficiency with heating water.

In several embodiments, the present invention utilizes a mobile app, or electronic application 1001 (See FIGS. 3 and 6) that allows a user to control functions such as on/off and temperature adjustments. In several embodiments, the mobile app or electronic application 1001 is compatible with current technology smart devices, allowing a user voice command capability.

In several embodiments, the water heater 100 can be used in most boats, campers, tiny homes, RV's, homes, under the sink, offices, cottages, kitchens, utility rooms, apartments, and food trucks. In several embodiments, the present invention is designed to supply hot water for all handwash and kitchen sinks in residential environments. In several embodiments, the present invention can replace traditional central hot water heaters, thereby conserving water and reducing energy waste.

In several embodiments, the present inventive heaters 100 and 1000 (See FIG. 6) are lightweight, compact, and manufactured for easy installation. In several embodiments, the present inventive heaters 100 and 1000 can be mounted on the wall with included hardware, or they can be placed freestanding. In several embodiments, the inventive heaters 100 and 1000 can be designed to operate at 150-psi maximum water pressure. In several embodiments, the inventive heaters 100 and 1000 come with an electronic application 1001 (See FIG. 6) for your mobile device that can be downloaded from a standard application store.

In several embodiments, the water heater 100 comes in 2.5-gallon and 4-gallon model sizes. Several embodiments of the present invention utilize a pressure vessel (water tank) that is welded, glass-lined and equipped with an anode rod.

In several embodiments of the invention, before connecting the power, a user can fill the inner holding tank 31 and system with water and check for leaks to be sure that all remaining air is out of the water heater 100.

In several embodiments, a user can download an electronic application 1001 to start calibrating and using the heated water, once electronic application 1001 is installed, a login is created, and the application is connected to the water heater. In several embodiments, a user can follow the directions on screen and make sure the temperature knob, located on the back-right side of the water heater, is set to Wi-Fi mode to complete the process.

In several embodiments, once a user connects electronic application 1001 to the present invention, a user will be able to remotely control the temperature and on/off status of the water heater 100. In several embodiments, there is an energy statistics screen that will allow a user to track usage and help manage the water heater's energy consumption.

In several embodiments, the present invention works with electronic application 1001 and voice control in several known voice command packages.

In several embodiments, the invention as disclosed in FIGS. 1-5 operates in the following manner: in several embodiments of the present invention, sensors detect temperatures and electricity used; data is then sent to the cloud, and formulas are used to display details to the end user such as consumption, usage, efficiency, errors and any other applicable information. The present invention Smart Home application displays all the information to the end user at any given moment. Voice commands can be used through several known interfaces to control this product. In several embodiments, communications are sent through the water heater's Wi-Fi to the cloud to enable this. Water will flow in through cold-water intake connector 400 and then into inner holding tank 31, where it is heated by anode rod 15, and then can egress out of inner holding tank 31 through hot water outlet connector 350. In several embodiments, hot water outlet connector 350 connects to hot water plumbing.

In several embodiments, the water heater, as illustrated in FIGS. 1-5, exhibits unique technologies, features and functions. It comes with a wireless remote control to adjust water temperature, Ecco Mode to limit power output (Gas and top end power) and to turn off/on. The remote uses RF 433 Mhz transfer frequency so that you can adjust settings from a distance away. This allows users to be in a different room and turn the water temp up, down, on/off or make additional modifications.

In several embodiments, this water heater has other unique features and technology. In several embodiments, the water heater utilizes a PCB with Wi-Fi built into it. The Wi-Fi enables end-users to connect the water heater to their home networks to use advanced features such as voice commands. A customer can use a commercially available voice command device to send commands to their water heater by simply speaking. In several embodiments, the water heater is 100% compatible to the commercially available command devices, which makes it “smart”.

In several embodiments, the invention has proprietary programing built into the PCB and the mobile application to do other things. In several embodiments, the application can control water temp, set usage timers, schedule usage times, display water input flow based on liters/gallons, incoming/outgoing water temperatures, Ecco Mode on/off to limit output power and statistics. In several applications, all these functions are in real time.

In several embodiments, the application can send notifications for cleaning, product errors and other messages. The statistics section of the application tells you how much water, gas and electricity are used daily, monthly and yearly. The application can also tell the cost of usage. Cost statistics can be based on a pre-determined set price or national average. An end user can input actual cost per Liter, Kilowatt, Gas, MC Cubic meter, SMC Standard Cubic meter, or any other variable that determines actual cost a customer is charged by a utility company.

In several embodiments, the present invention is the first advanced water heater that is 88K BTU's with a rating of 3 Gallons per minute (12 Liters).

In several embodiments, water comes into the incoming water inlet 400, passes through various sensors that send readings to both the Main PCB and Wi-Fi PCB, which then send that information through a home network. In several embodiments, the Product Control board and Wi-Fi Control board receives information from the Main PCB and then sends it to the cloud. After that, the Wi-Fi sends the information to the user's mobile phone or smart device to be seen. It then goes to the cloud and is translated into usable information in the mobile app 1001. Through the open application, the user can then control, view, and adjust the water heater. The water heater also has voice command capability via a voice command device making it a smart product. The present invention is also one of the first to send notifications to customers to clean the water heater to make sure it is running at 100% efficiency. This is measured based on how much water has moved through the product. In several embodiments, the invention only measures water consumption and electricity. It can then put a cost to these uses. In several embodiments, the present invention can come in scalable sizes. In several embodiments, the present invention has a manual mode technology built in. This means that a user can adjust the water heater on a mobile application as well as adjust the water heater temperature on the backside of the product. If there is no internet, the user can switch to manual mode.

In several embodiments, the present invention works as follows: Water flows into the water heater. Flow sensors, temperature sensors, and other sensors take this information and send it to the PCB 6. Sensors send information such as electricity usage, water flow, water temperature, gas usage, and water usage to the PCB 6. The PCB 6 then sends this information through the user's network, to the cloud, then to the mobile app/computer to display it. As the water heater is being used, multiple sensors are relaying this information in real time to the user. When the user makes adjustments via app/computer, this information is then sent back to the product, and the PCB 6 makes necessary changes. In several embodiments, the PCB can be located in the interior of said casing and arranged to transmit data on kilowatt from said water heater for display via mobile application or website.

FIG. 6 illustrates one embodiment of the present invention in a partial side view from the front and bottom. As illustrated, tankless water heater 1000 is constructed with backing case 1150 and front casing or cover 1100. In several embodiments, backing case 1150 and front casing or cover 1100 are comprised of noncorrosive and industry materials as utilized with a water heater. In several embodiments, back casing 1150 can be comprised of steel, rubber, copper or plastic. As illustrated, tankless water heater 1000 is constructed with bottom case 1120. In several embodiments, bottom case 1120 is comprised of noncorrosive and industry materials as utilized with a water heater.

In several embodiments, the hot water outlet 1128 and the water inlet pipe 1124 are attached and in fluid communication with bottom case 1120. Further illustrated is gas inlet connector 1126. In several embodiments, gas inlet connector 1126 is preferably constructed to utilize natural gas or liquid propane. As illustrated, in some embodiments, there is electrical supply coil 1105 and a mounting bracket 1122. In some embodiments, mounting bracket 1122 is comprised of metal and is attached to backing case 1150.

FIG. 7 illustrates one embodiment of the present invention in a partial side view from the back and top. As illustrated, tankless water heater 1000 is constructed with backing case 1150 and front casing or cover 1100. In several embodiments, backing case 1150 and front casing or cover 1100 are comprised of noncorrosive and industry materials as utilized with a water heater. In some embodiments, that can be steel. In some embodiments, the present invention has an air intake vent 1114 and a top cover 1118. In several embodiments, air intake vent 1114 and top cover 1118 are comprised of noncorrosive and industry materials as utilized with a water heater. In several embodiments, exhaust 1116 passes through top cover 1118 and into the interior of the tankless water heater 1000. Further illustrated, in some embodiments, is top mounting bracket 1123, attached to backing case 1150. In several embodiments, the air intake vent 1114 is uniquely placed to allow air to come in and operate within the product. In several embodiments, this is where air comes into the product to then be vented out. In several embodiments, the invention intakes ambient air.

In several embodiments, the water inlet pipe 1124 is attached to and in fluid communication with bottom case 1120 (See FIG. 6). Further illustrated is gas inlet connector 1126. In several embodiments, gas inlet connector 1126 is preferably constructed to allow a user to connect his gas line to power the product. As illustrated, in some embodiments, there is an electric supply coil 1105, which is attached to a breaker or regulator 1110 and power plug 1112. In several embodiments, the water heater has a smart button on the front which turns the product on or off and/or displays error codes. The mobile application 1001 (See FIG. 6) and wireless remote control the product. The wireless remote uses 433 Mhz transfer frequency to control the product. It uses functions such as on/off, temperature adjustment, and Ecco mode. Ecco mode is used to limit maximum British Thermal Unit (BTU) output to 75%. All other controls, including statistics, errors, notifications, scheduling, and timer are limited to mobile app.

FIG. 8 illustrates one embodiment of the present invention in an exploded view. As illustrated, tankless water heater 1000 is constructed with backing case 1150 and front casing or cover 1100. In several embodiments, backing case 1150 and front casing or cover 1100 are comprised of noncorrosive and industry materials as utilized with a water heater. In some embodiments of the present invention, there is air intake vent 1114 (See FIG. 7) and a top cover 1118. As illustrated, in some embodiments, tankless water heater 1000 is constructed with bottom case 1120.

Further illustrated in FIG. 8, in some embodiments, there is an electric supply coil 1105, which is attached to a regulator or breaker 1110 and power plug 1112. Further illustrated are side of burner box 1350 and PCB Box 1160, which are preferably designed to protect the PCB 1162, which receives and transmits data that a user can utilize to regulate the functional aspects of the present invention. In some embodiments, there is burner chamber box 1330, which is designed in the manner as used in the state of the art. Further illustrated is gas proportional valve 1355 and gas inlet connector 1126. Further illustrated is water inlet sensor 1210. In several embodiments, gas proportional valve 1355 is where gas is distributed based on demand, so the product can heat water. In several embodiments, gas proportional valve 1355 distributes gas into the heat exchanger 1265 to heat water. In several embodiments, the PCB can be located in the interior of said casing and arranged to transmit data on kilowatt from said water heater for display via a mobile application or website. In several embodiments, the water inlet sensor senses water flow and sends this data to the PCB to be sent to the cloud to be calculated and displayed via mobile application or website.

In several embodiments, as illustrated, are top frame 1320 and mid frame 1325, which may be comprised of copper, as well as heat exchanger 1265, which also can be comprised of copper. Also shown is fan assembly bracket 1335 and the motor case 1337, which are designed in the manner as used in the state of the art. As shown, the heat exchanger 1265 is designed to intake fluid into the system for the purpose of heating the liquid. Further shown is top frame 1320 and mid-frame 1325, which are preferably designed to hold various heating and control units for the present invention which are part of the heat exchanger.

Also found in several embodiments of the present invention is display assembly 1200 and burner cover plate 1180. As illustrated, display assembly 1200 is preferably designed to display information in an electronic format. As illustrated, burner cover plate 1180 is preferably designed to operate as a burner cover plate as is known in the art. Further illustrated is DC fan assembly 1190. DC fan assembly 1190 is of the type utilized in the industry for tankless water heaters.

Further illustrated is heat exchanger 1265. In several embodiments, heat exchanger 1265 is for heating the water. Further illustrated is heat exchanger 1265 and heater exchanger assembly 1260. In several embodiments, heater exchanger assembly 1260 operates to heat a fluid as is known in the art. Further shown is outgoing hot water pipe 1315, which is the outgoing hot water side of the copper heat exchanger in several embodiments of the invention.

In several embodiments, heater exchanger assembly 1260 is capped with smoke hood 1170. As illustrated in several embodiments, top cover 1118 is comprised of materials as used in the art. In several embodiments, front casing or cover 1100 is further attached with front casing and front panel 1305. In several embodiments, front casing 1100 and front panel 1305 are comprised of noncorrosive and industry materials as utilized with a water heater. In several embodiments of the present invention, the wireless control and product on/off control 1201 is located behind display assembly 1200. PCB Box 1160 holds the PCB 1162, which controls the actual product. In several embodiments, the PCB can be located in the interior of said casing and arranged to transmit data on kilowatt from said water heater for display via mobile application or web site.

FIG. 9 illustrates one embodiment of the present invention in a front cross-sectional view. In several embodiments, exhaust 1116 passes through top cover 1118 and into the interior of the tankless water heater 1000. Further illustrated, in some embodiments, is top mounting bracket 1123 attached to backing case 1150. In several embodiments, ambient air is taken into the present invention. In several embodiments, the water inlet pipe 1124 is attached and in fluid communication with bottom case 1120. Further illustrated is gas inlet connector 1126. In several embodiments, gas inlet connector 1126 is preferably constructed to connect a gas line. As illustrated, in some embodiments, there is an electric supply coil 1105, which is attached to a breaker or regulator 1110 and power plug 1112. Further shown is the water inlet sensor wire 4210. Further shown are heating element control wires 4225a-c which attach PCB 1162. In several embodiments, PCB 1162 can retrieve and send data inputs to various components via wires such as sensor wire 4210 and control wires 4225a-c. In several embodiments, PCB 1162 can receive and send data through smart technology which includes, but is not limited to, controlling data, maintenance data, and unit functionality data. In several embodiments, the water inlet sensor senses water flow and sends this data to the PCB to be sent to the cloud to be calculated and displayed via mobile application or website.

In several embodiments, the hot water outlet 1128 and the water inlet pipe 1124 are attached and in fluid communication with bottom case 1120. Further illustrated is gas inlet connector 1126. In several embodiments, gas inlet connector 1126 is preferably constructed to connect a gas line. As illustrated, in some embodiments, there is electrical supply coil 1105 and a mounting bracket 1122. In some embodiments, mounting bracket 1122 is comprised of metal and is attached to backing case 1150. In several embodiments, mounting bracket 1122 secures the PCB 1162 into place.

Further illustrated, is PCB Box 1160, which is preferably designed to have a PCB cover 1350 (See FIG. 8) to protect the PCB 1162. Also found in several embodiments of the present invention is display assembly 1200 and burner cover plate 1180. As illustrated, display assembly 1200 is preferably designed to hold the Wi-Fi control board and the on/off button 1201 in place. As illustrated, burner cover plate 1180 is preferably designed to cover the burner in a manner known in the art. Further illustrated is DC fan assembly 1190. DC fan assembly 1190 is of the type utilized in the industry for tankless water heaters. Further illustrated is water inlet sensor 1210. Further illustrated, in some embodiments, is top mounting bracket 1123, attached to backing case 1150. In several embodiments, the PCB can be located in the interior of said casing and arranged to transmit data on kilowatt from said water heater for display via mobile application or website.

FIG. 10 illustrates one embodiment of the water inlet sensor in assembled view. As illustrated is one embodiment of the water inlet sensor 1210. As illustrated is one embodiment of water inlet pipe 1124. Further illustrated is water inlet connector 2124. In several embodiments, connected to water inlet sensor 1210 is temperature sensor connector bracket 2217 attached to thermostat/temperature sensor wire 2218 and secured to water inlet sensor 1210 by bolt or screw 2219 in a manner typical of piping for water lines. Illustrated is one embodiment of upper water flow sensor 2225. In several embodiments, the water inlet sensor senses water flow and sends this data to the PCB to be sent to the cloud to be calculated and displayed via mobile application or web site.

Further illustrated in FIG. 10 is one embodiment of the L turn pipe connection and L turn connection 2230. Further illustrated in FIG. 10 is upper connection pipe or water flow sensor body 2210 connected by bolt or screw 2213 to water flow sensor 2220, attached to sensor card or water flow sensor PCB connector 2215. In several embodiments, sensor card water flow sensor PCB connector 2215 can relay information to the PCB 1162 (See FIG. 9) for electronic control and monitoring of water events. In several embodiments, PCB connector 2215 is used to send information to the Wi-Fi control board, which sends this information to the mobile application.

FIG. 11 illustrates one embodiment of the water inlet sensor 1210 in exploded view. Illustrated is upper connection pipe water flow sensor body 2210 connected by bolt or screw 2213 to water flow sensor 2220 attached to sensor card water flow sensor PCB connector 2215. In several embodiments, water flow sensor 2220 senses the flow of the water coming into the water heater. In several embodiments, sensor card or water flow sensor PCB connector 2215 can relay information to the PCB 1162 (See. FIG. 9) for electronic control and monitoring of water events. In several embodiments, water flow sensor 2220 relays water flow rates to the product control board. The PCB relays the rates to the Wi-Fi, the Wi-Fi sends it to the cloud, and the cloud sends it to the application. In several embodiments, the water inlet sensor senses water flow and sends this data to the PCB to be sent to the cloud to be calculated and displayed via mobile application or website.

Further illustrated in FIG. 11 is one embodiment of the water valve connecting bracket 2230.

FIG. 12 illustrates one embodiment of the gas proportional valve assembly 1355 in assembled view. As illustrated, gas proportional valve assembly 1355 is assembled with three main parts. Lower portion, in some embodiments, is comprised of a gas proportional valve chamber 3325. Middle portion is comprised of a gas proportional valve chamber 3320. Upper portion is comprised of a lower burner assembly 3315.

FIG. 13 illustrates one embodiment of the gas proportional valve assembly 1355 in a partially exploded view. As illustrated, the gas proportional valve assembly is assembled with three main parts. Lower portion, in some embodiments, is comprised of a gas proportional valve lower assembly 3325. Middle portion is comprised of a gas proportional valve chamber 3320. Upper portion is comprised of a lower burner assembly 3315.

FIG. 14 illustrates one embodiment of the electrical wiring diagram for one embodiment of the present invention. As shown, is one embodiment of the electrical wiring diagram 500. As shown is one embodiment of the antifreeze device 530 as utilized in some embodiments of the present invention. In several embodiments, electricity heats ceramic blocks, which in turn keeps the water from freezing. As shown is one embodiment of the power plug 535. In several embodiments, power plug 535 can function as a standard power plug as is known in the art. Further illustrated is fan blower electronic array 525. In several embodiments, fan blower electronic array 525 can relay and control the fan blower based on signals received and sent. Further illustrated is valve electronic array 521. In several embodiments, valve electronic array 521 can relay and control individual or groups of valves on the invention based on signals received and sent. Further illustrated is outlet and pressure electronic array 516. In several embodiments, outlet and pressure electronic array 516 can relay and control the outlet and pressure electronics based on signals received and sent. Further illustrated is display electronic array 512. In several embodiments, display electronic array 512 can display information electronically as is known in the art.

As further shown in FIG. 14, there is outlet 520 on circuit board 505 which can mechanically and electrically engage valve electronic array 521. Further shown is outlet 515 on circuit board 505 which can mechanically and electrically engage outlet and pressure electronic array 516. Further shown is outlet 510 on circuit board 505 which can mechanically and electrically engage display electronic array 512.

FIG. 3 and FIG. 6 also illustrate the electronic application 1001. In several embodiments of the present invention, the electronic application 1001 can be a “smart” technology that interacts and interfaces with the Wi-Fi Control Board 7, On and Off Control Board 172, and Front Control Product Control Board 6 through electronic signals, therein allowing for the regulation of controls of the water heater 100. In several embodiments, the electronic application 1001 uses RFID technology to transmit and receive signals from the Wi-Fi Control Board 7, On and Off Control Board 172, and/or Front Control Product Control Board 6. In several embodiments, said temperature limiter and reset button 39 is controlled remotely using an electronic application 1001. In several embodiments, said water heater 100 is electric powered. In several embodiments, said PCB 1162 (See FIG. 8) is controlled remotely using an electronic application 1001. In several embodiments, said water inlet sensor 1210 (See FIG. 8) is controlled remotely using an electronic application 1001. This can be found in either the tank or tankless water heater. In several embodiments, the water inlet sensor senses water flow and sends this data to the PCB to be sent to the cloud to be calculated and displayed via mobile application or website.

In several embodiments of the present invention, the electronic application 1001 can be a “smart” technology that interacts and interfaces with the Wi-Fi Control Board 7, On and Off Control Board 172, and/or Front Control Product Control Board 6 through electronic signals, therein allowing for the regulation of controls of the water heater 100. In several embodiments, the electronic application 1001 uses rate of frequency technology to transmit and receive signals from the Wi-Fi Control Board 7, On and Off Control Board 172, and/or Front Control Product Control Board 6. In several embodiments, the present invention utilizes Wi-Fi to connect a phone to the product via home network. In several embodiments, the wireless remote control uses a 433 hertz transfer frequency.

In several embodiments, the water heater, as illustrated in FIGS. 6-14, exhibits unique technologies, features and functions. It comes with a wireless remote control to adjust water temperature, Ecco Mode to limit power output (Gas and top end power) and to turn off/on. The remote uses RF 433Mhz transfer frequency so that the user can adjust settings from a distance. This allows users to be in a different room and turn the water temp up, down, on/off.

In several embodiments, this water heater has other unique features and technology. In several embodiments, the water heater utilizes a PCB 1162 with Wi-Fi board 7 built into it. The Wi-Fi board 7 enables end-users to connect the water heater to your home network to use advanced features such as Voice commands. If a customer has a commercially available command device, they can use those devices to send commands to their water heater by speaking. In several embodiments, the water heater is 100% compatible to the commercially available command devices, making it “smart”. In several embodiments, the PCB can be located in the interior of said casing and arranged to transmit data on kilowatt from said water heater for display via mobile application or website.

In several embodiments, the invention has proprietary programing built into the PCB 1162 and the mobile application to do other things. In several embodiments, the application can control water temp, set usage timers, schedule usage times, display water input flow based on liters/gallons, incoming/outgoing water temperatures, Ecco Mode on/off to limit output power and Statistics. In several applications, all these functions are in real time.

In several embodiments, the application can send notifications for cleaning, product errors and messages. The statistics section of the application tells you how much water, gas and electricity are used daily, monthly and yearly as well as the cost of all this usage. Cost statistics can be based on a pre-determined set price or national average. An end user can input actual cost per Liter, Kilowatt, Gas, MC Cubic meter, SMC Standard Cubic meter or any other variable that determines actual cost a customer is charged by a utility company. In several embodiments, the present invention is the first advanced water heater that is 88K BTU's with a rating of 3 Gallons per minute (12 Liters). In several embodiments, water comes into the incoming water inlet 1124, passes through various sensors that send readings to both the PCB 1162 and Wi-Fi board 7, which then sends that information through a home network. The information then goes to the cloud and is translated into usable information in our mobile app. When the user has the application open, they can then control, view, and adjust the water heater. The water heater also has voice command capability via a voice command device making it a smart product. The present invention is also one of the first to send notifications to customers to clean the water heater to make sure it is running at 100% efficiency. This is measured based on how much water has moved through the product. In several embodiments of the present invention, the electronic application 1001 is a voice command module. In some embodiments, the electronic application 1001 is a RF wireless remote. In some embodiments, the electronic application 1001 utilizes a smart technology to control a water heater or tankless water heater. In some embodiments, the electronic application 1001 utilizes an “In Voice” commanded on/off application. In some embodiments, the electronic application 1001 utilizes a voice command temperature adjustment. In some embodiments, the electronic application 1001 can provide a cleaning/descaling/error notification via mobile SMS text, email, and/or in-app/text alerts. In some embodiments, the electronic application 1001 will send notifications to the customers to let them know when it is time to clean their tankless water heater. In some embodiments, electronic application 1001 has an Ecco-Mode technology setting that allows the water heater to run at half the power usage.

In some embodiments, electronic application 1001 utilizes “Smart Button” technology. In some embodiments, electronic application 1001 has one single button that flashes in certain ways to indicate an error or when device is not connected to a network.

In some embodiments, the electronic application 1001 utilizes a programming built into an application to let customers input KWH electricity rates and Gas consumption rates they receive from a utility company to give them accurate product energy consumption costs.

In several embodiments, electronic application 1001 utilizes a real time dashboard that shows actual input/output water temperature and water flow.

In several embodiments, the operation of water heater 1000 requires a minimum water flow rate of 0.6 GPM to activate and 0.8 GPM to maintain activation. In several embodiments, to maintain proper performance and ensure sufficient water supply pressure, the Required Water Flow Rate=Min. Operating Water Pressure (0.8 GPM)+Pipe Pressure Loss+Faucet and Shower Pressure Loss+Safety Margin (more than 5 psi). In several embodiments, the pressure rating of the relief valve must not exceed 150 psi, the maximum working pressure of the water heater 1000 as marked on the rating plate. In several embodiments, the BTUH rating of the relief valve must equal or exceed the BTUH input of the water heater as marked on its rating plate. In several embodiments, no valve of any type should be installed between the relief valve and the water heater 1000. In several embodiments of the present invention, discharge from the relief valve should be piped to a suitable drain to eliminate potential water damage. Piping used should be of a type approved for the distribution of hot water.

In several embodiments of the present invention, the discharge line must be no smaller than the outlet of the valve and must pitch downward to allow complete drainage (by gravity) of the relief valve and discharge line. In several embodiments, the end of the discharge line should not be threaded or concealed and should be protected from freezing. In several embodiments, no valve of any type, restriction or reducer coupling should be installed in discharge line.

In several embodiments, the electric power supply requirement for this water heater 1000 is 120 VAC/60 Hz, 2 Amps. In several embodiments, there is a three (3) pin power supply cord 1112 (See FIG. 9).

In several embodiments, insulation blankets, available to the general public for external use on gas water heaters, are not necessary. The purpose of an insulation blanket is to reduce the standby heat loss encountered with storage tank heaters. The present inventive water heater 1000 does not store water, making an insulation blanket unnecessary. In several embodiments, a user should use pressure resistant pipe to connect the inlet and outlet water pipes of the water heater 1000 and the local water pump before connecting the inlet water pump, then flush the inside of the pipe.

In several embodiments, mounting of water heater 1000 can follow these steps: In case of dry wall or concrete wall, use dry wall anchors or lag bolts. In several embodiments, the water heater requires 120 VAC/60 Hz.

In several embodiments, the present invention is an improved water heater 100 comprising a rear housing 200 and a casing 170 with an interior; a Wi-Fi control board 7 located in the interior of said casing 170; an On and Off control board 172 located in the interior of said casing 170; a front control product control board 6 located in the interior of said casing 170; an inner holding tank 31 with a hot water outlet 350 and a cold water intake connector 400 located in the interior of said casing 170; an inlet pipe guider 37; a temperature relief valve connector 300; a flange cover 10 connected to an anode rod 15; said anode rod 15 is in communication with said inner holding tank 31; a temperature limiter and reset button 39 ensconced in a temperature limiter bracket 39. In several embodiments, said Wi-Fi control board 7 is controlled remotely using an electronic application 1001. In several embodiments, said On and Off Control Board 172 and Front Control Product Control Board 6 are controlled remotely using an electronic application 1001. In several embodiments, said anode rod 15 is made of magnesium. In several embodiments, said temperature limiter and reset button 39 is controlled remotely using an electronic application 1001. In several embodiments, said water heater 100 is electric powered. In several embodiments, the Wi-Fi control board 7 located in the interior of said casing can transmit data on kilowatt usage from said water heater 100. In several embodiments, the anode rod 15 is located at the bottom of said inner holding tank 31.

In several embodiments, the present invention is an improved tankless water heater 1000 comprising a backing case 1150; a front casing 1100; a top cover 1118 with an air intake vent 1114; a bottom case 1120; an electric supply coil 1105 attached to a regulator or breaker 1110 and a power plug 1112; a burner casing 1350 in a burner chamber box 1330 with a burner cover plate 1180; a PCB Box 1160; a gas proportional valve 1355; a gas inlet connector 1126; a motor case 1337 (See FIG. 8); a water inlet sensor 1210; a heat exchanger 1265 to intake fluid into the system for the purpose of heating the liquid; a fan assembly bracket 1335; and a display assembly 1200. In several embodiments, said PCB 1162 is controlled remotely using an electronic application 1001 (See FIG. 6). In several embodiments, said water inlet sensor 1210 is controlled remotely using an electronic application 1001. In several embodiments, said water inlet sensor 1210 is further comprised of a water flow sensor 2220; thermostat/temperature sensor wire 2218; and water flow sensor PCB connector 2215 (See FIG. 10). In several embodiments, said gas proportional valve 1355 is further comprised of lower burner assembly 3315; gas proportional valve chamber 3320; and gas proportional valve lower assembly 3325. In several embodiments, said PCB Box 1160 is further comprised of a fan blower electronic array 525; a valve electronic array 525; a fan electronic array 521; an outlet and pressure electronic array 516; and a display electronic array 512. In several embodiments, said improved tankless water heater 1000 is gas powered. In several embodiments, the PCB 6 located in the interior of said casing can transmit data on kilowatt usage from said water heater 1000. In several embodiments, the PCB can be located in the interior of said casing and arranged to transmit data on kilowatt from said water heater for display via mobile application or website. In several embodiments, the water inlet sensor senses water flow and sends this data to the PCB to be sent to the cloud to be calculated and displayed via mobile application or website.

In several embodiments, FIG. 15 illustrates one embodiment of the present invention in partial side view from the front. As shown is one embodiment of tankless water heater 5000. As shown is front panel 5005, which in many embodiments can be constructed of plastic, steel or other materials as utilized in the industry. Also shown is handle 5010, which can also be comprised of plastic or other materials as utilized in the industry.

As illustrated is one embodiment of rain cap 5012. Illustrated further is decoration board or protective shield 5009 designed to protect the LED readout screen. In some embodiments, there is a display 5015 on the front panel 5005. In several embodiments, this display is digital. Further shown are control knobs 5020 (gas) and 5025 (water). Further shown is lower front plate 5047 and lower back plate 5048. As shown, lower front plate 5047 and lower back plate 5048 have several orifices for valves and/or other inputting and outputting devices. Shown is gas valve 5045, outgoing water valve 5040, and incoming water valve 5035. As shown, these valves extrude from lower back plate 5048. Shown is one embodiment of the battery box 5030. In several embodiments of the present invention there is a battery interface 5031 (See FIG. 20). In several embodiments the knobs can be pushed in and inset. In several embodiments, outgoing water valve regulator 5046 is also illustrated (FIG. 19).

FIG. 16 illustrates one embodiment of the present invention in partial side view from the back. As shown is one embodiment of tankless water heater 5000. As shown is back panel 5006 and front panel 5005, which in many embodiments can be constructed of plastic or other material as used in the art. Also shown is handle 5010, which can also be comprised of plastic or other suitable material. As illustrated is one embodiment of rain cap 5012. Illustrated further is decoration board 5009 (See FIG. 20). In some embodiments, there are mounting clamps 5007 which can be used to mount the present invention in the manner customary for water heaters.

FIG. 17 illustrates one embodiment of the present invention in top view of the rain cap 5012. As shown is one embodiment of handle 5010, which can also be comprised of plastic. Illustrated further is top guide pan 5013. In many embodiments of the present invention, the rain cap 5012 can function in elements such as rain, wind and sun. In several embodiments, the rain cap 5012 is also used to make sure CO kept low according to CSA standards.

FIG. 18 illustrates one embodiment of the present invention in bottom view. Further shown is lower front plate 5047 and lower back plate 5048. Shown is gas valve 5045, outgoing water valve 5040, and incoming water valve 5035, which operate in a manner similar to those of ordinary use in the art for water heaters. Shown is one embodiment of the battery box 5030.

FIG. 19 illustrates one embodiment of the present invention in front cross-sectional view. As shown is one embodiment of handle 5010, which can also be comprised of plastic or other comparable material. As illustrated is one embodiment of rain cap 5012 (See also FIG. 27). Illustrated further is heat exchanger 5055. As shown, the heat exchanger 5055 is designed to intake fluid into the system for the purpose of heating the liquid. Illustrated is the ignitor bracket 5050 and burner 5060. Further shown are control knobs 5020 (gas control) and 5025 (water control). Shown is gas valve 5045, outgoing water valve 5040, and incoming water valve 5035. Shown is one embodiment of the battery box 5030. Also illustrated are gas ignition control pin 5022 and water temperature control pins 5062 and 5063. Further illustrated is LED display 5023 which shows a digital read out of the temperature. Also illustrated is tilt switch 5021 which can sense if the invention is being tilted. Further shown is over-temperature sensor 5056 which in several embodiments will provide data if the unit is overheating and will shut down unit operation. Further shown is burner 5065.

FIG. 20 illustrates one embodiment of the present invention in exploded view. As shown is one embodiment of tankless water heater 5000. As shown is front panel 5005, which in many embodiments can be constructed of plastic. Also shown is handle 5010, which can also be comprised of plastic. As illustrated is one embodiment of rain cap 5012 and top guide pan 5013. Illustrated further is decoration board 5009. In some embodiments, there is a display 5015 on the front panel 5005. Further shown are control knobs 5020 and 5025. Further shown is lower front plate 5047 and lower back plate 5048. Shown is gas valve 5045, outgoing water valve 5040, and incoming water valve 5035. Shown is one embodiment of the battery box 5030. As shown is back panel 5006, which in many embodiments can be constructed of plastic. Further shown is display back cover 5008. Further show is the tilt switch 5021 which can indicate if the device is being tilted at an improper angle. Further shown is ignitor bracket 5060.

FIG. 21 illustrates one embodiment of the present invention in partial side view from the front. As shown is one embodiment of tankless water heater 6000. As shown is front panel 6005, which in many embodiments can be constructed of plastic or other suitable materials. Also shown is handle 6010, which can also be comprised of plastic. As illustrated is one embodiment of rain cap 6012 (See also FIG. 27). In some embodiments, there is a display 6015 on the front panel 6005. Further shown are control knobs 6020 and 6025. In several embodiments, said knobs are raised. Further shown is lower front plate 6047 and lower back plate 6048. Shown is gas valve 6045, outgoing water valve 6040, and incoming water valve 6035. Shown is one embodiment of the battery box 6030 (FIG. 24). In several embodiments of the present invention there is a battery interface 6031 (See FIG. 26). In several embodiment, the knobs are pushed in once a user sets the desired temperature.

FIG. 22 illustrates one embodiment of the present invention in partial side view from the back. As shown is one embodiment of tankless water heater 6000. As shown is back panel 6006, which in many embodiments can be constructed of plastic. Also shown is handle 6010, which can also be comprised of plastic. In some embodiments, there are mounting clamps 6007.

FIG. 23 illustrates one embodiment of the present invention in top view of the rain cap 6012. As shown is one embodiment of handle 6010, which can also be comprised of plastic. As illustrated is one embodiment of rain cap 6012. Illustrated further is top guide pan 6013.

FIG. 24 illustrates one embodiment of the present invention in bottom view. In some embodiments, shown is lower front plate 6047 and lower back plate 6048. Shown is gas valve 6045, outgoing water valve 6040, and incoming water valve 6035. Shown is one embodiment of the battery box 6030.

FIG. 25 illustrates one embodiment of the present invention in front cross-sectional view. As shown is one embodiment of handle 6010, which can also be comprised of plastic. As illustrated is one embodiment of rain cap 6012. Illustrated further is heat exchanger 6055. Illustrated is the ignitor bracket 6050 and burner 6065 (FIG. 26). Further shown are control knobs 6020 and 6025. Shown is gas valve 6045, outgoing water valve 6040, and incoming water valve 6035. Shown is one embodiment of the battery box 6030. In several embodiments, outgoing water valve regulator 6046 is also illustrated.

FIG. 26 illustrates one embodiment of the present invention in exploded view. As shown is one embodiment of tankless water heater 6000. As shown is front panel 6005, which in many embodiments can be constructed of plastic. Also shown is handle 6010, which can also be comprised of plastic. As illustrated is one embodiment of rain cap 6012. Illustrated further is decoration board 6009. In some embodiments, there is a display 6015 on the front panel 6005. Further shown are control knobs 6020 and 6025. Further shown is lower front plate 6047 and lower back plate 6048. Shown is gas valve 6045, outgoing water valve 6040, and incoming water valve 6035. Shown is one embodiment of the battery box 6030. As shown is back panel 6006, which in many embodiments can be constructed of plastic. Further shown is display back cover 6008. In several embodiments, outgoing water valve regulator 6046 is also illustrated as well as tilt bracket 6047. Further illustrated is LED display 6023 which shows a digital read out of the temperature. Also illustrated is tilt switch 6021 which can sense if the invention is being tilted. Also illustrated are gas ignition control pin 6022 and water temperature control pins 6062 and 6063. Further shown is LED cover shield or decorative board 6009 which is designed to protect the LED display 6023 screen.

FIG. 27 illustrates one embodiment of the rain cap of the present invention in partial view. As shown is one embodiment of rain cap 7000, which can be used on water heaters 5000 or 6000. As shown is windshield body 7005 which is constructed to protect the rain cap from wind and may be constructed of plastic or other suitable materials. Also shown is smoke shield 7015, which may be constructed from plastic and is designed to protect the rain cap 7000 from elements such as weather and harsh conditions. Further shown is one embodiment of shell angle plate 7010 which is designed to protect the rain cap from the elements such as weather and harsh conditions. Also shown is windproof and rainproof cap reinforcement plate 7020, which is designed to keep the rain cap from bending or losing shape through continued use. The reinforcement plate 7020 can help stabilize the steel, which can be in the rain cap 7000.

In several embodiments, the present invention is a CSA approved portable tankless water heater. In several embodiments, the present invention features an All-Weather Rain Cap 5012, 6012 or 7000 and a Tri-Coat Pearl White painted body 5005, 5006, 6005, and/or 6006. In some embodiments, the unique steel designed carrying handle 5010 or 6010 adds an element of durability and quality. In several embodiments, the present invention comes with a clear & bright Digital Temperature Display with an ON/OFF and Pressure Indicator Light 5063 or 6063. In several embodiments, the Advanced Pressure LED indicator light takes all guesswork out of ensuring the water heater has enough water pressure to operate, usually 20 PSI. In several embodiments, the Digital ON/OFF LED Indicator is powered by batteries and lets a user know when the water heater is on or off. In several embodiments, precision adjustable Water and Gas Knobs 5020, 5025, 6020, and 6025 allow a user to set the ideal outgoing water temperature to ensure maximum comfort. In several embodiments, the present invention features include a built-in Anti-Flame Tilt Switch that shuts the water heater off when tilted past 45 degrees, as well as multiple sensors that regulate temperature and prevent scalding.

In several embodiments, the present invention is certified through Intertek for US and Canada Standards.

In several embodiments, the present invention is tested to operate and heat water instantly at elevations up to 2000 ft. In several embodiments, the present invention can be used in a variety of applications: camping, hunting, poolside, pet washing, vehicle cleaning or even in a greenhouse, food truck or tiny home.

In several embodiments, the present invention can operate by attaching a garden hose and a 20-pound (lb.) propane tank. In several embodiments, the present invention is a portable tankless water heater for use off-grid where electricity is not readily available. In several embodiments, the present invention can operate at 20˜80 PSI with a 1.5 GPM flow. In several embodiments, the present invention is lightweight, easy-to-carry and compact. This water heater can be used camping, hunting, poolside, pet washing, vehicle cleaning or even in a greenhouse, food truck or a tiny home.

In several embodiments, the present invention is rated at 1.5 gallons per minute (GPM) with an achievable temperature range of 50-120 degrees Fahrenheit. In several embodiments, the Tri Coat Paint, Modern Digital Display and Extreme Weather Rain Cap make the present invention durable for frequent use. In several embodiments, the present invention runs on a standard 20 lb. Liquid Propane tank, is equipped with an electronic ignition, and is powered by “4×AA” batteries.

In several embodiments, the present invention is CSA certified for use in the US and Canada. In several embodiments, the inventive tankless water heater meets and exceeds all safety and efficiency requirements according to the Department of Energy. In several embodiments, the present invention features a safety tilt switch 5021 or 6021, which automatically shuts down the water heater when tilted more than 45 degrees.

In several embodiments of the present invention, there is low pressure activation at 20 PSI as well as easy connectivity to a standard garden hose. In several embodiments, kits for the invention can include a portable tankless water heater, a three-spray shower headset, 3½″ CSA certified gas regulator and hose, mounting hardware, and garden hose quick connect and adapter.

In several embodiments, the present invention features an Extreme All-Weather Rain Cap and a painted body. The unique steel designed carrying handle adds an element of durability and quality. In several embodiments, the present invention blocks water and wind to make product work in weather elements. In several embodiments, the present invention meets specifications for CSA wind tests. In some embodiments, the present invention has a removable rain cap for cleaning and service.

In several embodiments, the inventions come with a clear & bright Digital Temperature Display with an ON/OFF and Pressure Indicator Light, the LED 6023 or 5023. The Advanced Pressure LED indicator light takes all guesswork out of ensuring your water heater has enough water pressure to operate. In several embodiments, the present invention has a Digital ON/OFF LED Indicator powered by “4×AA” batteries which lets a user know when the water heater is on or off. In several embodiments, the present inventions use precision adjustable water and gas knobs to allow the user to set the ideal outgoing water temperature to ensure maximum comfort. In several embodiments, the safety features include a built-in Anti-Flame Tilt Switch that shuts the water heater off when tilted past 45 degrees, as well as multiple sensors that regulate temperature and prevent scalding, overheat sensor 5063.

In several embodiments, the digital display indicates a current outlet temperature; On/Off status; and pressure light.

In several embodiments, the present invention has inset control knobs 5020 and 5025 included for a sleek design and maximum durability. In several embodiments, the inset knob prevents the temperature from accidentally getting adjusted.

In several embodiments, the present invention is tested to operate and heat water instantly at elevations up to 2000 ft. This water heater can be used in a variety of applications: camping, hunting, poolside, pet washing, vehicle cleaning or even in a greenhouse, food truck or tiny home. In several embodiments, the present invention meets and exceeds all safety and efficiency requirements according to the Department of Energy. In several embodiments, the present invention shuts off at 130° F. to reduce chances of burns and scalds.

In several embodiments, the present invention has a battery interface 5031 and 6031 which prevents activation when not vertical. In several embodiments, the invention has pressure sensors which activate the device and indicator light when triggered. Connected to GWA's pressure valve via armature, allows for the detection of the open/close state of the valve. Triggers ignition sequence in the control pack are linked to digital display pressure indicator. In several embodiments, flame sensors 5022 (or 6022 in FIG. 26) are present to detect if flame is lit and shuts off device if it fails to ignite.

In several embodiments, the present invention has pressure indicator light for user performance. The solenoid is connected to LED then connected to Control board (See FIGS. 3, 8 and 9).

In several embodiments, the present invention is an improved portable tankless water heater comprising a front panel with a display; a handle: a rain cap; control knobs; a lower front plate; a lower back plate; a gas valve; an outgoing water valve; an incoming water valve; a battery box; an anti-tilt switch; a back panel; a heat exchanger; an ignitor bracket; and a burner. In several embodiments, said rain cap further comprises a windshield body; a smoke shield; a shell angle plated; and a windproof and rainproof cap reinforcement plate. In several embodiments, said anti-tilt switch shuts the portable tankless water heater off when tilted past 45 degrees. In several embodiments, said control knobs are inset. In several embodiments, said battery box is powered by batteries. In several embodiments, said display is a LED Screen. In several embodiments, said control knobs further comprise a gas regulator and a water regulator. In several embodiments, said water heater contains an over-temperature sensor. In several embodiments, there is a bracket attached to said tilt switch.

One or more illustrative embodiments incorporating the invention disclosed herein are presented below. Applicant has created a revolutionary an improved TRIAC regulation device and method of use.

FIG. 28 illustrates one embodiment of the present invention in a partial side view. As illustrated, water heater 2800 is comprised of a side of case 2805 and a front face 2810. As shown, in several embodiments, side of case 2805 and front face 2810 is comprised of noncorrosive and industry materials as utilized with a water heater. Further shown is power button indicator 2815. Further shown is water heater case bottom 2820 which is composed of noncorrosive and industry materials as utilized with a water heater. Extending from case bottom 2820 are outlet water connector 2825 and inlet water connection 2830. Further shown are power supply opening 2835 and power supply opening 2840.

FIG. 29 illustrates one embodiment of the present invention in a partial exploded side view. As illustrated is front face 2810 comprised of noncorrosive and industry materials as utilized with a water heater. Further shown is smart power button 2815 and wi-fi chip 2850. Further shown is frame 2845 which is composed of noncorrosive and industry materials as utilized with a water heater. Extending from case bottom 2820 (FIG. 28) are outlet water connector 2825 and inlet water connection 2830. As shown in this figure are outlet water connector nut 2826 and water inlet connector nut 2831. Further shown are water outlet pipe 2855 and inlet pipe connector 2860. Further shown are flow meter sensors 2856 and sensor 2861 designed to measure the flow of water into and out of the water heater. Further shown is heating element 2870 which includes TRIACS 2875, 2880 and 2885. TRIACS 2875, 2880 and 2885 may be iE90C Thermal Cutouts. Further shown are triac mounting plate 2890 as well as positive triac wire mount 2895 and thermal cutout wire mount 2905. Also shown is main power control board 2910 and terminals 2865. Also shown is case top 2806.

FIG. 30 illustrates one embodiment of the present invention in partial side view with the front cover removed. Further shown is smart power button 2815 and wi-fi chip 2850 (concealed behind smart power button). Further shown is frame 2845 (FIG. 28) which is composed of noncorrosive and industry materials as utilized with a water heater. Extending from case bottom 2820 (FIG. 28) are outlet water connector 2825 and inlet water connection 2830. Further shown are water outlet pipe 2855 and inlet pipe connector 2860. Further shown is heating element 2870 which includes TRIACS 2875, 2880 and 2885. TRIACS 2875, 2880 and 2885 may be iE90C Thermal Cutouts. Further shown are Triac mounting plate 2890 as well as positive triac wire mount 2895 and thermal cutout wire mount 2905. Also shown is main power control board 2910 and terminals 2865. As shown in this figure are outlet water connector nut 2826 and water inlet connector nut 2831. Also shown are water flow sensors 2856 and 2861, concealed by 2815 see (FIG. 29).

FIG. 31 illustrates one embodiment of the present invention in a front view with the cover removed. Extending from case bottom 2820 are outlet water connector 2825 and inlet water connection 2830. Further shown are water outlet pipe 2855 and inlet pipe connector 2860. Further shown is heating element 2870 which includes TRIACS 2875, 2880 and 2885. TRIACS 2875, 2880 and 2885 may be iE90C Thermal Cutouts. Further shown are flow meter sensors 2856 and sensor 2861 designed to measure the flow of water into and out of the water heater. Further shown are triac mounting plate 2890 as well as positive triac wire mount 2895 and thermal cut out wire mount 2905. Also shown is main power control board 2910 and terminals 2865. As shown in this figure are outlet water connector nut 2826 and water inlet connector nut 2831. Further shown are power supply opening 2835 and power supply opening 2840.

FIG. 32 illustrates one embodiment of the present invention in a partially exploded view without a cover or backing. Typically extending from case bottom 2820 (FIG. 28) are outlet water connector 2825 and inlet water connection 2830. Further shown are outlet pipe connector 2855 and inlet pipe connector 2860. Further shown is heating element 2870 which includes TRIACS 2875, 2880 and 2885. TRIACS 2875, 2880 and 2885 may be iE90C Thermal Cutouts. Further shown are fuses 2890 as well as positive triac wire mount 2895 and thermal cutout wire mount 2905. Also shown is main power control board 2910 and terminals 2865. Further shown is inlet port for power source fastener 2844 and inlet port for power source fastener 2842. As shown in this figure are outlet water connector nut 2826 and water inlet connector nut 2831. Further shown are flow meter sensors 2856 and sensor 2861 designed to measure the flow of water into and out of the water heater.

FIG. 33 illustrates one embodiment of the present invention in a more complete exploded view. Typically extending from case bottom 2820 (FIG. 28) are outlet water connector 2825 and inlet water connection 2830. Further shown are water outlet pipe 2955 and inlet pipe connector 2960. Further shown is heating element 2870 which includes TRIACS 2875, 2880 and 2885. TRIACS 2875, 2880 and 2885 may be iE90C Thermal Cutouts. Further shown are fuses 2890 as well as positive triac wire mount 2895 and thermal cutout wire mount 28105. Also shown is main power control board 2910 and terminals 2865. Further shown is inlet port for power source fastener 2844 and inlet port for power source fastener 2842. Further shown is mounting plate for back 2911 and mounting plate for water heater 2912. Also shown are nuts 2958 and 2963 and washers 2957 and 2962. Further shown are outlet water temperature sensor 2956 and inlet water temperature sensor 2961. Further shown are lower male pipe juncture threads 2955 and 2960.

FIG. 34 illustrates one embodiment of the present invention and specifically depicts an example of the smart app used to control the tuners and water heater device and also provide information about the water heater device to the user of the smart app. Smart device 3000, such as a cellular phone, tablet, or other computer whether a handheld device, portable laptop, or stationary desktop capable and executing the smart application as discussed herein is depicted as smart device. The graphical use interface “GUI” displays several pieces of information for the user and allows for the user to input commands or instructions to the smart device. For example, the user may tap or press the portion of the GUI, sometimes referred to as “tabs” or “buttons” labeled “Traic 1” 3010 to display and manipulate the first triac in the water heater system described herein. The user may also select the tab or button for “Triac 2”, shown as 3015, and “Triac 3”, shown as 3020. Any of the Triac 1, 2, or 3 buttons or tabs allows the user to learn information regarding the current status of the selected triac based on the input of the user for selection of a specific triac 3010, 3015, 3020. Some of the information that may be displayed to the user includes the amps currently being utilized by the selected triac, this information is shown as the GUI element 3025. The user may use the smart application and smart device to adjust the amperage of the selected triac by using the GUI element slider bar 3030. The user may slide their finger or stylus or other input device to adjust the amperage up or down, the shown amperage selection is “38 amps”. Other GUI elements include “tuner” 3035, which allows for users to adjust the triac, i.e. the selected function depicted in FIG. 34; “temperature” 3040, which allows for users to adjust the temperature of the water being delivered by the water heater device described herein; “timer” 3045, which allows for users to adjust or set a timer for operating time of the water heater device described herein; and “statistics” 3050, which allows for a user to view and learn the statistics regarding the water heater device and their particular utilization of water usage, temperature readings over time and instantaneous, energy (electricity) usage over time and instantaneous, and running time of the water heater device.

In several embodiments of the present invention, the present invention is a TRIAC adjustment device that lets a user adjust electric output within a tankless water heater to limit or turn off electricity to a triac within the tankless water heater.

By way of example, a device, such as the Eccotemp 27 Kilowatt electric tankless water heater, has three triacs that allow the water heater to heat water based on the water use demand and incoming water temperature. In several embodiments of the present invention, each Triac can manage a maximum amount of power (electricity) to heat water.

In several embodiments, the present invention can produce 40 amps of output electricity per triac to heat water. In several embodiments, the present invention uses internal and cloud based software program that can allow the users to adjust the maximum output of electricity per triac. For instance, if the user wants to manually adjust electrical output, turn off each triac (independently) the user can do so by using a tuning feature in the inventive smart app. The user can set one triac to 25 amps maximum output, the other trac 35 amps maximum output and the third to off. Individual setting options allows the user to cut down on energy, i.e. electricity usage based on their specific need. By way of example, in the summer when the incoming water is a higher temperature the user may not need the water heater to ever produce the maximum output of electricity to heat water because the temperature of the water is warmer therefore needing less energy (electricity) to heat water to a desired temperature.

In several embodiments, some of the main benefits to our technology include AI or Manual Triac adjustment based on user demand. Variables considered can include location, normal demand, installation and incoming water temperatures. In several embodiments, a user can turn a 27 kilowatt electric tankless water heater into a smaller output tankless water heater. In several embodiments, a user can make an electric tankless water heater into a 27 KW, 20 KW, 18 KW or even all the way down to a 5 KW electric tankless water heater.

In several embodiments of the present invention, with the technology a user can buy one of the inventive items and “Tune” it to whatever electric output a user needs therefor having no need to make multiple powered electric tankless water heaters in the market. The present invention is a one size fits all in terms of electrical output for a water heater.

In several embodiments, from an installation standpoint, a user can now have the option to install the present inventive tankless water heater in a smaller amperage situation. For instance, a user may not have (3)-50 amp breakers normally required for a 27 kw installation. They could now use 3-25 amp breakers and simply set the tuner to only use a max, of say, 22 amps per breaker/triac. There is no other electric tankless water heater in the world that allows a user to perform this function. In fact, several separate lower power models must be purchased to achieve this result.

In several embodiments, the inventive program is an “all-in-one” inside of each water heater unit. Once the user connects their water heater to our Mobile app they are then able to access the tuner setting. The water heater communicates with our mobile app via the cloud. Our app sends commands via your phone or other device to the water heater. When the user adjusts the tuner it sends a command to the internal Eccotemp Smart Wi-Fi chip, to the Product Control board to the triacs and lastly to the heating element inside of the water heater. This allows the user to have full output electrical power flexibility based on the users demand and installation.

In some embodiments, the present invention utilizes a “In Voice” commanded on/off application. In some embodiments, the present invention utilizes a voice command triac voltage adjustment. In some embodiments, the present invention is a Google and Alexa smart home compatible.

In some embodiments, the present invention utilizes “Smart Button” technology. In some embodiments, the present invention is a one single button flashes in certain ways to indicate an error or when not connected to a network. For instance, if the water heater is giving an E3 error code, the on and off button will flash 3 times then pause then flash 3 times then pause to indicate there is an E3 error. The button will also turn different colors based on errors. The single button can also turn it off and on and turn different colors based on connection to your network.

In several embodiments, the present invention is voice commanded on/off. In several embodiments, the voice command capability is linked to the smart home water heater via automation systems. In several embodiments, the present invention can use a manual mode technology—when you use the dial located on the side of the water heater you can control your water heaters temperature manually. By way of example, once turned on your water heater is no longer a smart home water heater. This feature can be used in case a network is down and a user needs to adjust the products temperature.

In several embodiments, the present invention is a program built into a proprietary application designed to let customers choose recommended temperature settings: Comfort, Low, High, Commercial. In this embodiment, a customer can select the recommendation and the water heater temperature automatically adjusts. In several embodiments, the present invention uses programming built into our application to let customers input KWH electricity rates they receive from a utility company to give them accurate product energy consumption costs. In several embodiments, the present invention uses a real time dashboard that shows actual input/output water temperature and water flow.

While preferred embodiments have been shown and described, modifications thereof can be made by one skilled in the art without departing from the scope or teaching herein. The embodiments described herein are exemplary only and are not limiting. Many variations and modifications of the system and apparatus are possible and will become apparent to those skilled in the art once the above disclosure is fully appreciated. For example, the relative dimensions of various parts, the materials from which the various parts are made, and other parameters can be varied. Accordingly, it is intended that the following claims be interpreted to embrace all such variations and modifications.

Claims

1. An improved tankless smart home water heater comprising: a case;a case bottom attached to an outlet water connection and an inlet water connection, said outlet water connection in communication with a first flow sensor and said inlet water connection in communication with a second flow sensor, said case bottom further comprising one or more power supply openings;a heating element comprising one or more three-electrode semiconductor devices;a main power control board and one or more electrical terminals;a power button;a wi-fi chip; andan inlet port for receiving an inlet electrical power source further comprising a power source fastener.

2. The improved tankless smart home water heater of claim 1 further comprising: said second flow sensor that is read remotely using an electronic application via communication using said wi-fi chip; said electronic application can send a command to control water temperature, set usage timers, schedule usage times, or display water input flow.

3. The improved tankless smart home water heater of claim 1 further comprising: said water inlet sensor that is further comprised of:a water flow sensor;a thermostat/temperature sensor wire;a water inlet connector with a pressure relief plug; anda water flow sensor PCB connector.

4. The improved tankless smart home water heater of claim 1 further comprising: said PCB Box further comprising:a valve electronic array;an outlet and pressure electronic array; anda display electronic array.

5. The improved tankless smart home water heater of claim 1 further comprising: said improved tankless water heater that is electrically powered.

6. The improved tankless smart home water heater of claim 1 further comprising: said main power control board and said wi-fi chip located in the interior of said casing that can transmit data on kilowatt usage from said water heater.

7. The improved tankless smart home water heater of claim 1 further comprising: an electronic application running on a smart device wherein a user of the electronic application can adjust the amperage input to said one or more three-electrode semiconductor devices.