RU132662U1 - ELECTRIC HEATER - Google Patents

Abstract

1. An electric heater containing a casing, heaters and a heat dissipation unit, made in the form of a volumetric element with internal channels, characterized in that two film heaters are used, located on the inside of the front and rear walls of the casing, and are tightly adjacent to the above walls and a heat dissipation unit located between the film heaters, a plate is located above the heat dissipation unit, overlapping from above from 20 to 30% of its area. 2. The electric heater according to claim 1, characterized in that the holes are made in the lower and upper parts of the casing, while the diameter of the holes in the lower part of the casing is larger than the diameter of the holes in the upper part of the casing. The electric heater according to claim 1, characterized in that the heat dissipation unit is made in the form of a radiator, inside of which vertical channels are made using parallel plates.

Description

The utility model relates to electrical engineering, namely to electric heaters that can be used for heating air in residential and administrative buildings.

According to the application for invention RU 95120825, an electric convector is known, comprising a film-type heater placed on a heat-dissipating metal plate, closed by a casing with thermal insulation, in which current leads are installed, and the whole structure is placed in a vertical position in a box-shaped casing with holes in its lower and upper parts to pass the flow of heated air.

The disadvantages of the known device is the low efficiency, due to the underdeveloped air circulation system.

According to patent RU 10970, an electric convector is known comprising an outer casing in which at least one flat heater is vertically mounted rigidly connected to a heat dissipation unit, where the heat dissipation unit is made in the form of a volumetric element, the figured surface of which forms channels for forming a turbulent air flow, the casing is made in the form of two panels arranged vertically with the formation of two longitudinal slots in the upper and lower parts of the outer casing, respectively, with the upper and lower parts whith the rear panel are inclined, with coverage of the flat heater with the heat dissipation unit.

The disadvantages of the known device is the design complexity and low heat transfer efficiency and design complexity.

The technical result of the claimed utility model is to increase the efficiency of heat transfer due to the combination of thermal radiation and convection and simplify the design.

The technical result is achieved by the fact that in an electric heater containing a casing, heaters and a heat dissipation unit, made in the form of a volumetric element with internal channels, according to a utility model, two film heaters are used, located on the inside of the front and rear walls of the casing, and are tightly fitted to the above walls and to the heat dissipation unit located between the film heaters, a plate is located above the heat dissipation unit, overlapping from above from 20 to 30% of its area.

Holes are made in the lower and upper part of the casing, while the diameter of the holes in the lower part of the casing is larger than the diameter of the holes in the upper part of the casing.

The heat dissipation unit is made in the form of a radiator, inside of which vertical channels are made using parallel plates.

The use of two film heaters installed from the inside of the front and rear walls of the casing and tightly pressed both to the walls of the casing and to the heat dissipation unit (radiator), eliminates the need for additional fasteners of heaters to other structural elements, since they are sandwiched between the casing and a radiator, which greatly simplifies the design.

The general layout of the heater design allows to obtain a combined effect in which the heated front and rear walls of the heater heat the room due to heat radiation, and the heat dissipation unit (radiator) installed between the film heaters causes air convection after heating, which significantly increases the heat transfer efficiency. In this case, cold air enters the radiator through the lower, large openings, and leaves already heated through the upper, small openings, which increases the air flow.

Placing a plate above the heat dissipation unit, overlapping from above from 20 to 30% of its area, contributes to the formation of a turbulent air flow. The plate is installed on the principle of "Chimney tooth" to increase convection. The need to overlap the plate from above from 20 to 30% of the area of the heat dissipation unit is determined experimentally by the applicant. With a value of less than 20%, convection will not increase, and with an overlap of more than 30%, the gap for the release of warm air will be too small for the effective flow of warm air up.

The use in the design of film heaters, for example, known according to the patent for utility model No. 121681, where the heating elements are made in the form of a single conductive thread, while the meanders are formed by bends of the thread, allows you to maintain high heat transfer efficiency with a minimum device power.

The essence of the claimed utility model is illustrated in the figure:

Fig. 1 shows a top view of a sectional view of an eclectic heater.

Fig. 2 shows a side view of a sectional view of an eclectic heater. An eclectic heater comprising a casing 1, heaters 2 and 3, and a heat dissipation unit 4, made in the form of a volumetric element with internal channels, in which two film heaters 2 and 3 are used, located on the inside of the front and rear walls of the casing 1 and are tightly adjacent to the above walls, and to the node 4 heat dissipation located between the film heaters 2 and 3, above the node 4 heat dissipation is a plate 5, overlapping from above from 20 to 30% of its area.

In the lower and upper part of the casing 1, holes 6 and 7 are made, while the diameter of the holes 6 in the lower part of the casing 1 is larger than the diameter of the holes 7 in the upper part of the casing 1.

The heat dissipation unit 3 is made in the form of a radiator, inside of which, using parallel plates, vertical channels 8 are made.

The device operates as follows:

After connecting to the mains, the front and rear walls of the casing warm up, after which the heat dissipation unit (radiator) warms up. Cold air entering the radiator through the lower openings in the housing is heated, increases in volume and exits through the upper openings in the housing whose diameter is smaller than the lower ones. The ratio of the diameter of the upper holes to the bottom is not less than 1: 1.5. A plate made according to the principle of “Chimney tooth” for increasing convection can be attached directly to the wall of the casing, or it can be part of a corner, the vertical side of which is pressed between the wall of the casing and the radiator.

Claims (3)

1. An electric heater containing a casing, heaters and a heat dissipation unit, made in the form of a volumetric element with internal channels, characterized in that two film heaters are used, located on the inside of the front and rear walls of the casing, and are tightly adjacent to the above walls and a heat dissipation unit located between the film heaters, a plate is located above the heat dissipation unit, overlapping from above from 20 to 30% of its area. 2. The electric heater according to claim 1, characterized in that the holes are made in the lower and upper parts of the casing, while the diameter of the holes in the lower part of the casing is larger than the diameter of the holes in the upper part of the casing. 3. The electric heater according to claim 1, characterized in that the heat dissipation unit is made in the form of a radiator, inside of which vertical channels are made using parallel plates.

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