PL174166B1 - Heat accumulating electric heater - Google Patents

Abstract

The electric storage heating apparatus has three tubular heating elements (11, 12, 13) which are led through the storage core chamber (1) and the adjoining heat insulation (2a, 2b) horizontally and parallel to one another. Each tubular heating element is equipped with two parallel heating spirals (14...19) which at one end are led to a switching wall (4) and at the opposite end are connected in series in pairs via bridge elements (21...23). By suitably changing the connections at the switching wall (4), the heating capacity can be changed in stepped fashion with optimal energy output. <IMAGE>

Description

The subject of the invention is an electric storage heater, consisting of a heat shield, a storage core placed therein, parallel heating pipes placed in the storage core, and heating coils placed in these pipes, connected to a bridge and three-phase power cables.

Known storage electric heaters consist of a heat shield, an accumulation core placed inside it, vertical air ducts, and heating coils powered by three-phase current. Due to the flow of electric current through the heating coils, the storage core heats up and accumulates a certain amount of heat, depending on its mass, geometric dimensions and specific heat. The heating of the storage core is carried out mainly during low load of the electric network, and the amount of heat released to the environment is regulated by means of vertical air ducts. The regulation of the heating power level of the storage core is performed by shorting the circuit of one, two or three heating coils, or by uneven loading of the electric current phases.

From GB patent specification GB 1,029,401, an accumulative electric heater is known, consisting of overlapping chamotte plates, provided with oval, vertical air channels and with a horizontal sine-shaped groove surrounding them. Inside the groove of each fireclay plate, one heating coil is placed, connected on one side of the heater to a switch in the form of a bridge. The storage electric heater is powered by a three-phase current and the number of fireclay plates in the furnace is a multiple of three. The heating coils of the storage electric heater consisting of nine fireclay plates are connected to the switch in such a way that their number set in the heating mode is three, six or nine.

In this storage electric heater, it is possible to set only three levels of heating power, but the current cannot be regulated.

The storage electric heater presented in the European patent specification no. EP 0 061 665 consists of a heat shield, an accumulation core in the form of fireclay bricks placed inside it, vertical air channels and three heating coils. The heating coils in the heat shields are U-shaped and placed horizontally in three rectangular channels in the storage core. Each of the heating coils is connected to a switch and a thermostat, allowing the heating power to be set on three levels.

A disadvantage of this electric storage heater is the limited number of adjustments to the heating power levels and the high manufacturing costs.

The object of the invention is to provide a structure for an accumulative electric heater that eliminates the disadvantages of heaters known to date, and allows the setting of multiple levels of heating power and its regulation within each of these levels.

This aim is achieved by the construction of an electric storage heater, in which, at least in one heating pipe, a pair of parallel heating coils are placed, connected on one side of the heater with the terminals of the switchboard, and on the other side - with the terminals of the bridges.

Each pair of heating coils of the heating pipe is preferably connected via terminals to one three-phase power cable. The heating pipes pass horizontally or vertically through both the storage core and the walls of the heat shield. Two adjacent heating pipes are preferably connected on the side of the dashboard by means of an elbow. The number of heating pipes in the radiator is a multiple of three. The heating coils of the heating pipes are made of chromium-nickel steel and have a diameter of not less than 0.15 mm. Heating pipes are made of heat-resistant steel, the diameter of these pipes being less than 8 mm, and the wall thickness - not less than 0.4 mm.

An advantage of the storage electric heater according to the invention is the possibility to set multiple levels of heating power and to regulate it within each of these levels, as well as the simplicity of the structure and thus the low manufacturing costs.

The invention is explained, for example, in the drawing showing an electric storage heater in a side view with a partial axial section.

The storage electric heater according to the invention consists of a heat shield 2, equipped with two side walls 2a and 2b, inside which the storage core 1 is placed, and three horizontal heating pipes 11, 12 and 13, parallel to each other and passing through the core. accumulator 1 and side walls 2a and 2b of the heat shield 2. Inside each heating pipe 11, 12 and 13, there is granular magnesium oxide, and two heating coils 14 and 15, 16 and 17, and 18 and 19, connected on one side to the board distributor 4, and on the other hand - with connections g, h, i, j, k, lim of bridges 21, 22 and 23. Each heating coil 14, 15, 16, 17, 18 and 19 is connected to one connection a, b , c, d, e and f of the switchboard 4, each pair of heating coils 14 and 15, 16 and 17, and 18 and 19, preferably connected to a pair of terminals a and b, c and d and e and f, respectively supplied by wires

Li, L2 and L3 three-phase current. Due to this connection, each pair of heating coils of the heating pipe 11, 12 and 13 has the same electric potential.

Heating coils 14, 15, 16, 17, 18 and 19 are made of chrome-nickel steel wire with a diameter not less than 0.15 mm. The heating pipes 11, 12 and 13 are made of heat-resistant steel with a thickness of not less than 0.4 mm and a diameter of not less than 8 mm, preferably 8.5 mm in diameter. The diameter of the heating pipe 11, 12 and 13 is selected in relation to its length so that the heat power density does not exceed 4 W / cm ² .

The heating pipes 11, 12 and 13 can be placed with the heat shield both horizontally as well as vertically or obliquely, and the number of heating coils placed therein can be one, two or three.

Connected by bridges 21, 22, or 23 connections g, h, i, j, k, lim, allows you to set a certain level of the heating power of the radiator, as well as the distribution of power between the heating coils 14, 15, 16, 17, 18 and 19. in the drawing of an example of an electric heat storage solution, the heating coils 14 and 19 are short-circuited by the bridge 21, the heating coils 15 and 16 - by the bridge 22, and the heating coils 17 and 18 - by the jumper 23. With such a connection, the heating coils 14 , 15, 16, 17, 18 and 19 heating pipes 11, 12 and 13, heating coils 15, 16, 17 and 18 are used for accumulative heating, and the other two heating coils 11 and 19 - for direct heating. Of course, any combination of connections of the heating coils 14, 15, 16, 17, 18 and 19 is possible, both with the three-phase power cables L1, L2, L3, and with each other via bridges 21, 22, or 23, which makes it possible to use a different level power. For example, the opening of the bridge 21 causes the opening of the circuit between the heating coils 14 and 19, thus reducing the heating power of the heating pipes 11 and 13 by half. In another combination of connections, not shown in the drawing, the coils for example 14 and 15 of the heating pipe are shorted. 11, and their connection to the three-phase power supply line L1, will result in the entire heating pipe 11 being dedicated to direct heating, and the other two heating pipes 12 and 13 to storage heating. For three heating pipes 11, 12 and 13, with a pair of heating coils 14 and 15, 16 and 17, and 18 and 19 arranged in each, the number of heating power levels is six.

The increase in the number of different heating power levels of the electric storage heater according to the invention is realized by using six or nine heating pipes (not shown in the drawing), with two or three heating coils arranged inside them, and with an appropriate number of connections to the supply lines and bridges.

In the solution of the heater according to the invention, instead of the bridges 21, 22 and 23, it is also possible to short-circuit specific heating coils 14, 15, 16, 17, 18 and 19, and to connect the heating pipes 11, 12, or 13 with special fittings in U-shaped connection of heating pipes 11, 12 or 13, reduces the need to use bridges 21, 22 and 23, connections g, h, i, j, k, lim, and cables connecting these connections with heating coils, and also increases the heating surface of the heating pipes 11, 12 or 13. In the case of using six heating pipes, it is possible to connect e.g. four heating pipes by means of W-shaped fittings.

The variation of the power levels of the electric storage heater according to the invention, and the adjustment of the value of the current flowing through the heating coils 14, 15, 16, 1Ί, 18 and 19, is preferably performed by means of a computer. This computer, depending on the programming, shortens or opens consecutive heating coils 14, 15, 16, 17, 18 and 19 of heating pipes 11, 12 and 13, and regulates the value of the current flowing through them. For example, when the demand for heating power is low, two heating coils 15 and 16 are short-circuited and the value of the current flowing through them is controlled, and when the demand is increased - other heating coils 17 and 18, possibly the remaining coils 14 and 19 are closed, with simultaneous adjusting the value of the current flowing through them. For optimal consumption of electricity, it is advantageous to regulate the value of the current flowing through only the two heating coils, with maximum current flow through the remaining short-circuited heating coils.

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Publishing Department of the UP RP. Circulation of 90 copies. Price PLN 2.00

Claims (7)

Patent claims 1.A electric storage heater, consisting of a heat shield, an accumulation core arranged therein, a parallel heating tube placed in the accumulation core, and in these heating coils connected to a bridge and three-phase power cables, characterized in that at least in on one heating pipe (11, 12, 13) there is a pair of parallel heating coils (14 and 15, 16 and 17, 18 and 19), connected on one side of the radiator with connections (a, b, c, d, e, f) dashboard (4), while on the other side - with connections (g, h, i, j, k, l, m) of the bridges (21, 22, 23). 2. Heater according to claim The method of claim 1, characterized in that each pair of heating coils (14 and 15, 16 and 17, 18 and 19) of the heating pipe (11, 12, 13) is connected via connections (a and b, c and d, e and f) to one conductor (L1 , L2, L3) supplying three-phase current. 3. A heater according to claim A method as claimed in claim 1, characterized in that the heating pipes (11, 12, 13) extend horizontally, or vertically, both through the storage core (1) and through the walls (2a, 2b) of the heat shield (2). 4. Heater according to claim The method of claim 1, characterized in that two adjacent heating pipes (11 and 12, 12 and 13) are connected on the side of the switchboard (4) by a U-shaped piece. 5. Heater according to claim A method as claimed in claim 1, characterized in that the number of heating pipes (11, 12, 13) is a multiple of three. 6. Heater according to claim The method of claim 1, characterized in that the heating coils (14, 15, 16, 17, 18, 19) of the heating tube (11, 12, 13) are made of chrome-nickel steel and have a diameter of not less than 0.15 mm. 7. Heater according to claim The method of claim 1, characterized in that the heating pipes (11, 12, 13) are made of heat-resistant steel, the diameter of these pipes (11, 12, 13) being not less than 8 mm, and the wall thickness - not less than 0.4 mm.