RU118727U1 - STORAGE ELECTRIC WATER HEATER - Google Patents

Abstract

Accumulative electric water heater, consisting of a sealed protective case, inside of which are mounted two vertically arranged cylindrical tanks, interconnected by three nozzles located between adjacent walls of the tanks in their upper, middle and lower parts, in the lower part of the tank located on the right side of the electric heater, there is an inlet pipe for cold water supply and a hermetically fixed flange with a fixing bracket, on which are located: a magnesium anode, two heating elements and a thermostat, and in the upper part of one of the tanks there is an outlet pipe for releasing hot water, characterized in that each of the two heating elements in the tanks have their own power, respectively, from 0.25 to 1.5 kW each and the ability to work independently.

Description

The utility model relates to the electric power industry and can be used in water heating devices designed to provide consumers with an autonomous source of hot water during periodic or emergency shutdowns from the centralized hot water supply, as well as in cases where there is no hot water supply at all.

Known electric water heater (Japan patent No. 3168360, 1992), selected as a prototype, containing two tanks filled with water; two autonomous heaters designed to heat water in tanks and maintain a given water temperature; pipelines with pumps connecting the bottom of one tank to the top of another tank. If the water level in one tank drops below the set value and the water boils in the other tank, the pumps pump water between the tanks until the water level in the first tank rises to the set value. However, the described technical solution is energy-intensive, because to ensure the circulation of heated water they include electric pumps. In addition, if one of the heating elements fails, the product is subject to immediate repair, which will cause inconvenience with the lack of hot water for some time.

The objective of the utility model is to increase the reliability of the product.

The problem is solved by a storage electric heater, consisting of a sealed protective case, inside of which two vertically arranged cylindrical tanks are mounted, interconnected by three pipes located between the adjacent walls of the tanks in their upper, middle and lower parts, in the lower part of the tank located on the right side of the electric heater, an inlet pipe for supplying cold water is located and a flange with a fixing bracket is tightly fixed, on which are located: a magnesium anode, two heating elements and a thermostat, and an outlet pipe for hot water discharge is mounted in the upper part of one of the tanks, characterized in that each of the two heating elements in the tanks has its own power, respectively, from 0.25 to 1.5 kW each, and the possibility work independently.

The device of the electric heater is shown in the drawing (figure 1)

The electric heater consists of a sealed protective housing 12, inside of which are mounted: tank 8 and tank 11, interconnected by three pipes 19, 6, 7. Connecting pipes 19, 6, 7 are located between adjacent walls of tanks 8 and 11 in their upper, middle and lower parts, respectively.

All pipes of the electric heater are connecting 19, 6, 7, the inlet pipe 18 for supplying cold water, the outlet pipe 21 for releasing hot water are made of stainless steel.

An inlet pipe 18 for supplying cold water is mounted in the lower part of the tank 11, and a flange 17 is tightly fixed on the lower end of the tank 11, on which are located: a magnesium anode 14, heating elements 15 and 16 from 0, 25 to 1.5 kW each and a thermostat 13 .

In the lower part of the tank 8, similarly to the tank 11, a flange 1 is fixed, on which are located: a magnesium anode 2, heating elements 3 and 4 of different capacities and a thermostat 5. An outlet pipe 21 is mounted in the upper part of the second tank 8, designed to discharge hot water. Anodes 2 and 14 are made of magnesium alloy.

The protective housing 12 of the electric heater is made of special structural plastic, or of mirror polished stainless steel. Tanks 11 and 8 are made of corrosion resistant austenitic (non-magnetic) stainless steel.

The volume between the protective housing 12 and the tanks 11, 8 is filled with thermal insulation 10 made of environmentally friendly polyurethane foam, which has the lowest coefficient of thermal conductivity and is the most effective thermal insulation material. The lower and upper part of the protective housing 12 is closed by covers 9 and 20, which protect the inner tanks 11 and 8 from damage.

Electric heater operates as follows.

Before connecting to the electric network, the electric heater is filled with cold water, which through the inlet pipe 18 enters the tank 11, while cold water fills the tank 11 and the tank 8, forcing air out of the tank 8 through the outlet pipe 21. As soon as the water in the tank 8 reaches the upper level of the outlet pipe 21, it will begin to pour out through the pipe 21, which is a sign of a complete filling of the tanks of the electric heater. After that, the water outlet from the electric heater is blocked, and the electric heater is connected to the electric network.

On the control panel, the consumer sets the required water temperature using the water temperature controller. On the same panel, using a combination of on / off buttons for individual heating elements, the consumer sets the power consumption mode that directly affects the speed of heating water to a given temperature.

Due to the presence of two groups of heating elements with a power of 0.25 to 1.5 kW each in each tank (elements 3 and 4 in the tank 8 and elements 15 and 16 in the tank 11), it is possible to increase the number of power modes to three or more. At the same time, regardless of the selected heating mode, at least one heating element operates in each tank. This ensures constant heating of water in both tanks, and in case of failure of one of the heating elements in one of the tanks, the other element of the second tank will continue to heat the water to the desired temperature.

In the standard operating mode, the temperature set by the consumer is maintained by thermostats 14 and 2. When the set heating temperature is reached, thermostats 14 and 2 automatically turn off the power of the heating elements 3 and 4 in the tank 8 and the elements 15 and 16 in the tank 11. When the water temperature decreases, thermostats 5 and 13 automatically turn on the power, maintaining the set temperature. As heating and after opening the outlet of hot water from the electric heater, the water exits out of the tank 8 through the outlet pipe 21 located in its upper part. As the tank 8 is emptied, water heated in the tank 11 gets into it from the tank 11 through the nozzles 19, 6, 7.

The technical result of the application of the utility model was to improve the consumer properties of the product, as well as the ability to heat water, depending on the availability of time for the consumer and the temperature of the incoming cold water.

References:

1. Japanese Patent No. 3168360, 1992

Claims (1)

A storage electric heater, consisting of a sealed protective case, inside of which two vertically arranged cylindrical tanks are mounted, interconnected by three pipes located between adjacent walls of the tanks in their upper, middle and lower parts, in the lower part of the tank located on the right side of the electric heater, an inlet pipe for cold water supply is located and a flange with a fixing bracket is tightly fixed, on which are located: a magnesium anode, two heating elements and Thermostat, and in the upper part of one of the tanks mounted outlet for discharging hot water, characterized in that each of the two heating elements in the tank has its own power, respectively, from 0.25 to 1.5 kW and each able to work independently.