RU82302U1 - ELECTRIC WATER BOILER - Google Patents

Abstract

1. Electric boiler containing a sealed metal case in the form of a rectangular parallelepiped, the height of which is less than the width of its base, inlet and outlet pipes for supplying and discharging a heat carrier and at least one heat electric heater located in the body along its length, characterized in that it is equipped with coolant flow divider located in the housing opposite the inlet pipe, and at least one spacer installed in the housing between its bases and rigidly connected to and. ! 2. The electric water boiler according to claim 1, characterized in that the coolant flow divider is made in the form of a plate located perpendicular to the axis of the inlet pipe. ! 3. Electric boiler according to claim 2, characterized in that the plate with its two opposite sides is rigidly connected to the bases of the housing. ! 4. The electric boiler according to claim 1, characterized in that the inlet and outlet nozzles are located on opposite sides of the housing, and their axes are parallel to the larger side of the base of the housing. ! 5. Electric boiler according to claim 4, characterized in that the axis of the inlet and outlet nozzles lie on one straight line. ! 6. The electric hot water boiler according to claim 1, characterized in that the housing is made of steel. ! 7. The electric boiler according to claim 6, characterized in that the spacer is made in the form of a stud welded at its ends to the bases of the housing. ! 8. Electric boiler according to claim 1, characterized in that at least four spacers are located in the housing. ! 9. The electric hot water boiler according to claim 1, characterized in that the housing height is not

Description

The utility model relates to heating equipment and can be used for heating and hot water supply of both individual housing and industrial premises.

Known electric boiler according to patent RU 17969, containing a metal casing with inlet and outlet pipes for a circulating coolant, located at least one heat electric heater (TEN) inside the casing and means for attaching it to the upper end surface of the casing.

However, over time, under the influence of the coolant pressure, deformations and even gaps may appear at the junction of the housing with the heating element, as well as at the junction of the walls of the housing with each other. Through the resulting gaps, the coolant flows out of the housing. In turn, air enters the cavity of the boiler body, and its excess leads to overheating of the heating elements and their premature failure.

Also known is the Nevsky electric boiler (http://www.topka.ru/catalog/detail.php?ID=1543), which contains a metal sealed enclosure in the form of a rectangular parallelepiped, the height of which is less than the width of its base, inlet and outlet pipes for supply and removal of the coolant and at least one heat electric heater located in the housing along its length.

This electric boiler has sufficient strength, however, when the coolant passes through the boiler cavity, the middle part of the body heats up to a greater extent, while at the walls it remains less heated. Uneven distribution of heat leads to an increase in the time of heating the coolant to the desired temperature, and therefore to unnecessary energy costs.

In addition, to ensure sufficient rigidity, the body of the known electric boiler is made relatively bulky and heavy, which reduces the convenience of its operation.

The objective of the utility model is to increase the efficiency of the electric boiler, as well as reducing its weight and dimensions.

This problem is solved in that an electric hot water boiler containing a metal sealed enclosure in the form of a rectangular

a parallelepiped, the height of which is less than the width of its base, an inlet and outlet pipe for supplying and discharging a heat carrier, and at least one heat electric heater located in the housing along its length, according to the invention, is equipped with a heat carrier flow divider located in the housing opposite the inlet pipe, and at least at least one spacer installed in the housing between its bases and rigidly connected to them.

The presence in the body of the spacer, rigidly connecting the base of the body, helps to reduce the deformation of the body under the influence of the internal pressure of the liquid.

The flow divider, increasing the turbulence of the flow and thereby intensifying heat transfer in the coolant, is preferably made in the form of a plate located perpendicular to the axis of the inlet pipe and rigidly connected to the base of the housing with its two opposite sides. This embodiment and securing the flow divider also contributes to increased rigidity of the housing.

The spacer can be made in the form of a stud welded at its ends to the bases of the housing. At least four spacers are preferred in the housing.

Mostly the inlet and outlet nozzles are located on opposite sides of the housing, and their axes are located on one straight line and parallel to the larger side of the base of the housing.

The housing is preferably made of steel, its height does not exceed 100 mm, and the thickness of its walls does not exceed 3 mm.

Figure 1 shows an electric boiler with conditionally removed heating elements, a general perspective view;

figure 2 is the same side view;

figure 3 is the same with the installed heating elements, top view.

The electric boiler contains a metal housing 1, on the opposite sides of which there are inlet and outlet pipes 2 and 3, respectively, for the circulating coolant. The longitudinal axis of the nozzles 2 and 3 lie on one straight line and are practically parallel to the longitudinal axis of the housing 1. At least one heat electric heater (TEN) 4 is located along the length of this housing in the internal cavity of the housing 1.

In a plane substantially perpendicular to the longitudinal axis of the inlet pipe 2, a flow divider 5 is arranged. The divider 5 can be made in the form of a plate rigidly mounted between two opposite walls of the housing,

or in the form of a spatial U-shaped truss, resting on the wall of the housing 1, at the level of the opening 6 of the inlet pipe 2.

To increase the rigidity of the structure, as well as to minimize the dimensions of the electric boiler, four struts, for example, are installed in the cavity of the casing 7. The number of struts depends on the dimensions of the casing and the thickness of its walls and is selected from the condition of ensuring sufficient casing stiffness at a given coolant pressure. The spacers are made in the form of metal rods, for example, in the form of studs, rigidly installed by welding between two opposite walls of the housing 1.

The housing 1 of the electric boiler is made of steel, as this metal is easy to process and less prone to deformation.

By installing the spacers 7 in the cavity of the housing 1, it is possible to achieve that the height of the housing will not exceed 100 mm with a wall thickness of not more than 3 mm without adversely affecting the performance of the boiler.

The electric boiler operates as follows.

A relatively cold coolant enters the inlet pipe 2 and is heated from the heating elements 4 located in the cavity of the housing 1. The flow divider 5 cuts the heat carrier stream into two opposite flows, hitting the opposite walls of the housing 1. At the same time, the coolant is intensively mixed, which significantly increases its heat transfer with TENami 4. Heated to a predetermined temperature, the coolant exits through the outlet pipe 3.

By setting the temperature controller (not shown) to the desired position, you can set the desired temperature of the coolant.

The proposed electric boiler is reliable and easy to use, compact, and also has an attractive appearance. In addition, due to the divider installed in its internal cavity, the heat removal from the heaters is significantly improved, their overheating is not allowed, noise is reduced, the service life of the heaters and boiler efficiency is increased.

Claims (9)

1. Electric boiler containing a sealed metal case in the form of a rectangular parallelepiped, the height of which is less than the width of its base, inlet and outlet pipes for supplying and discharging a heat carrier and at least one heat electric heater located in the body along its length, characterized in that it is equipped with coolant flow divider located in the housing opposite the inlet pipe, and at least one spacer installed in the housing between its bases and rigidly connected to and. 2. The electric water boiler according to claim 1, characterized in that the coolant flow divider is made in the form of a plate located perpendicular to the axis of the inlet pipe. 3. Electric boiler according to claim 2, characterized in that the plate with its two opposite sides is rigidly connected to the bases of the housing. 4. The electric boiler according to claim 1, characterized in that the inlet and outlet nozzles are located on opposite sides of the housing, and their axes are parallel to the larger side of the base of the housing. 5. Electric boiler according to claim 4, characterized in that the axis of the inlet and outlet nozzles lie on one straight line. 6. The electric hot water boiler according to claim 1, characterized in that the housing is made of steel. 7. The electric boiler according to claim 6, characterized in that the spacer is made in the form of a stud welded at its ends to the bases of the housing. 8. Electric boiler according to claim 1, characterized in that at least four spacers are located in the housing. 9. The electric boiler according to claim 1, characterized in that the height of the housing does not exceed 100 mm, and the wall thickness of the housing does not exceed 3 mm.