RU120198U1 - ELECTRIC HEATER - Google Patents

Abstract

An electric water heater consisting of a sealed protective case, inside of which two vertically oriented tanks connected to each other by at least one connecting pipe are mounted parallel to each other, the first of which has an inlet for supplying cold water, and the second tank contains an outlet for discharging hot water, as well as a magnesium anode, heating elements of different power and a thermostat located on a sealed flange fixed at the bottom of the tank, characterized in that the cold water inlet is mounted in the upper part of the first tank, and the hot water outlet is mounted in the upper part of the second tank.

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 heater (RF patent No. 2116580, 1998), selected for the prototype, containing two tanks - (upper and lower), connected by a cold water supply pipe and a hot water discharge pipe, respectively, and a heating element located in the lower part of the cavity of one of tanks, the hot water outlet pipe is located at the bottom of the lower tank, and its inlet end is brought into the upper part of the cavity of this tank. The output end of the connecting pipe is brought into the lower part of the cavity of the lower tank in the area of the heating element, and the second connecting pipe is a pipe equipped with a valve located between the bottom of the upper tank and the top of the lower tank. Since water enters directly into the lower part of the tank cavity into the zone where the heater is located, and water is taken from the upper part of the tank, where hot water rises, hot water is produced in a short time. Thus, the proposed water heater is quite energy efficient. However, modern water heaters have a more modernized design, which provides a more economical solution to the problem of reducing the time for heating water due to accelerated circulation.

The objective of the utility model is to provide accelerated circulation of water in the device and reduce the time of heating the water.

The problem is solved by an electric heater, which consists of a sealed protective case, inside of which are mounted: two parallel vertically oriented interconnected by at least one tank connecting pipe, the first of which has an inlet pipe for supplying cold water, and the second tank contains an outlet pipe for the release of hot water, as well as a magnesium anode, heating elements of different capacities and a thermostat located on an airtight flange mounted on the bottom of the tank a, characterized in that the inlet pipe for supplying cold water is mounted in the upper part of the first tank, and the outlet pipe for the release of hot water is mounted in the upper part of the second tank.

The design of the electric heater is shown in figure 1.

The electric heater consists of a sealed protective housing 12, inside of which are mounted: the first tank 10 (right) and the second tank 7 (left). To communicate the first 10 and second 7 tanks, they are interconnected by a pipe 6. Water from the tank 10 enters the tank 7 through the pipe 6.

All the pipes of the electric heater are connecting 6, the inlet pipe 17 for supplying cold water, the outlet pipe 19 for releasing hot water are made of stainless steel.

Tanks 10 and 7 are in the form of cylinders elongated in a vertical direction (the so-called vertical parallel arrangement of tanks).

At the lower end of the first tank 10, a flange 16 is hermetically fixed, on which are located: a magnesium anode 13, heating elements 14 and 15 of different capacities and a thermostat 12.

An inlet pipe 17 for supplying cold water is mounted in the upper part of the first tank 10, providing accelerated heating of cold water coming from the pipe 17, by accelerated mixing of cold water coming from the pipe 17 to the upper part of the tank 10 and already heated water in the tank 10 using heating elements 14 and 15.

In the lower part of the second tank 7, a flange 1 is fixed, on which are located: a magnesium anode 2, heating elements 3 and 4 of different power and thermostat 5.

An outlet pipe 19 is mounted in the upper part of the second tank 7 for discharging hot water. Anodes 2 and 13 are made of magnesium alloy.

The protective housing 11 of the electric heater is made of special structural plastic, or of mirror polished stainless steel. Tanks 7 and 10 are made of corrosion resistant austenitic (non-magnetic) stainless steel.

The volume between the protective casing 11 and the tanks 7, 10 is filled with thermal insulation 9 made of environmentally friendly polyurethane foam. Polyurethane foam has the lowest coefficient of thermal conductivity and is the most effective heat-insulating material. The lower and upper part of the protective housing 11 is closed by caps 8 and 18, which protect the inner tanks 7 and 10 from damage.

The principle of operation of the electric heater.

Before connecting to the electric network, the electric heater is filled with cold water. Cold water through the inlet pipe 17 enters the tank 10, while cold water fills the tank 10 and the tank 7 through the connecting pipe 6, displacing the air from the tank 7 through the outlet pipe 19. As soon as the water in the tank 7 reaches the upper level of the outlet pipe 19, it through the pipe 19 will begin to pour out, 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.

In the standard operating mode, the temperature set by the consumer is supported by thermostats 5 and 12. When the set heating temperature is reached, thermostats 5 and 12 automatically turn off the power to the device. When the water temperature drops, thermostats 5 and 12 automatically turn on the power, thus maintaining the set temperature.

As the heating and after opening the outlet of hot water from the electric heater, the water exits out of the tank 7 through the outlet pipe 19 located in its upper part. As the tank 7 is emptied, water heated in the tank 10 gets into it from the tank 10 through the pipe 6.

Moreover, due to the presence of only one pipe 6 between tanks 7 and 10, the number of connection points inside the electric heater is reduced, which increases the reliability of the product.

Due to the cold water supply pipe 17 mounted in the upper part of the tank 10, cold water does not enter the lower but the upper part of the tank 10, in the zone where the water of higher temperature is located. Going down, the cold stream immediately mixes with already heated water and, thus, accelerated heating of cold water coming from the pipe 17 is ensured by accelerated mixing of cold water coming from the pipe 17 to the upper part of the tank 10 and the already heated water in the tank 10 with heating elements 14 and 15.

The technical result is to reduce energy consumption by reducing the time of heating water.

Claims (1)

An electric heater consisting of a sealed protective case, inside of which are mounted two parallel vertically oriented at least one connecting pipe connection, parallel to each other, the first of which has an inlet pipe for supplying cold water, and the second tank contains an outlet pipe for releasing hot water, as well as a magnesium anode, heating elements of different capacities and a thermostat located on a sealed flange mounted on the bottom of the tank, characterized in that the input the cold water supply pipe is mounted in the upper part of the first tank, and the outlet pipe for hot water discharge is mounted in the upper part of the second tank.