초록 ▼

A solar energy water heater system composed of a method of retrofitting an existing conventional gas or electric water heater. In particular, this invention relates to adding a solar energy water heater system comprised of: a solar collector, a solar thermal circulating loop, an over-heat protection

A solar energy water heater system composed of a method of retrofitting an existing conventional gas or electric water heater. In particular, this invention relates to adding a solar energy water heater system comprised of: a solar collector, a solar thermal circulating loop, an over-heat protection loop, and a computer controller with temperature sensors. The solar thermal circulating loop and over-heat protection loop are installed on the existing water storage tank, and the method and system is disclosed herein.

대표청구항 ▼

1. A solar water heater system retrofitting method, comprising the following steps: a) adding a solar thermal circulating loop to an existing conventional gas or electric heated water heater storage tank having a tank bottom drain hole, a tank drain valve a tank old water supply pipe and a tank heat

1. A solar water heater system retrofitting method, comprising the following steps: a) adding a solar thermal circulating loop to an existing conventional gas or electric heated water heater storage tank having a tank bottom drain hole, a tank drain valve a tank old water supply pipe and a tank heat out pipe, wherein the solar thermal circulating loop is formed by a solar thermal circulating pump, a heat pipe vacuum tube solar collector, a pressure releasing valve, an air vent valve, a first one-way direction valve and a computer controller;b) installing an extension pipe between the tank bottom drain hole and the tank drain valve;c) installing two three-way connectors in the solar thermal circulating loop wherein the first three-way connector is installed in the extension pipe, and the second three-way connector is installed in the tank cold water supply pipe, such that the two three-way connectors' outlets form the solar thermal circulating loop's inlet and outlet;d) installing the first and a second one-way direction valves wherein the first one-way direction valve is installed at the end of the solar thermal circulating loop to prevent the cold supply water from entering the solar thermal circulating loop, and the second one-way direction valve is installed in the tank cold water supply pipe in front of the second three-way connector to prevent the solar thermal circulating hot water from entering the cold water supply pipe;e) installing four temperature sensors wherein the first sensor T1 is installed at the solar collector outlet, the second sensor T2 is installed at the storage tank bottom drain hole extension pipe, the third sensor T3 is installed at the tank heat out pipe, and the fourth sensor T4 is installed at the home hot water supply pipe;f) installing the computer controller, wherein the computer controller provides solar thermal circulating control to the system, configures the four sensors T1, T2, T3 and T4 as the computer controller's inputs, provides at least three outputting control signals including two outputting signals to control two circulating pumps working in this retrofitting system, a third outputting signal to control a turn-on or turn-off switch to control the original gas or electric heater, if the original gas or electric heater does not have a thermostat;g) installing a temperature mixing valve on the home hot water supply pipe to prevent the hot water supplying to the end user from being above a desired temperature;h) installing an over-heat protection loop with the second solar thermal circulating pump in the home hot water supply pipe for being able to circulate the hot water when the storage tank water temperature reaches the highest set temperature; wherein the over-heat protection loop is comprised of: the tank heat out pipe, the temperatures sensors T3 and T4, the home hot water supply pipe, the second solar thermal circulating pump the mixing valve, and the home existing hot and cold water supply pipes reaching to the furthest faucet;i) installing two ball valves at the solar thermal circulating loop inlet and outlet to perform the function of shutting off the circulating loop to the original gas or electric water heater;j) installing a thermal energy meter at the solar collector outlet to provide the solar thermal energy generated during a time period. 2. The method of claim 1, wherein the installed heat pipe vacuum tube solar collector comprises a well insulated copper or stainless steel header pipe on which number of dry thermalwells are vertically soldered at an equal distance from one another, the condensers of the heat pipes being placed in the dry thermalwells, and the heat pipe being centrally placed in an all glass coaxial double-layer vacuum tube, wherein the space within the glass tube double-layer is vacuumed, such that there is no water touching the heat pipe and flowing into the all glass double-layer vacuum tube. 3. The method of claim 1, wherein the computer controller controls the solar thermal energy circulating to the storage tank when the sun provide energy to heat the water and control functions for the solar water heater system to automatically work uninterrupted for four seasons, these program functions include preventing the solar collector from reaching a water temperature below freezing, preventing the solar collector from reaching a water temperature above a preset maximum temperature level, preventing storage tank water from reaching a water temperature above a preset temperature level, wherein the controller works with the temperature sensor readings from the solar collector output temperature, the storage water tank's lowest and highest recommended temperatures, the home hot water supply pipe temperature, and operates the solar thermal circulating pump, the hot water circulating pump and the existing gas or electric heater accordingly. 4. The method of claim 1, wherein the existing water heater's gas or electric heater operates as a back-up heating system for the thermal circulating loop.