DE252454C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 252454 CLASS 21 h. GROUP

GEORGE GILBERT BELL in LONDON.

Electric heat storage. Patented in the German Empire on September 24, 1909.

For this registration, the examination according to the Union Treaty of

March 20, 1883

Recognized on December 14, 1900 on the basis of registration in Great Britain on October 24, 1908.

the priority

The usual method of heating water by electrical means is in that the amount of water to be heated is poured into an electrically heated one Container, both with and without a covering of heat-insulating material can be, poured in and then heated. With this method, however, one is only able to To heat a precisely determined amount of water, it also requires a certain amount Time to bring about the desired temperature, during which one for a must use a very strong current for a relatively short time. The essence of the present The invention now consists in the fact that a body consisting of a mass which is able to store the heat and to release this stored heat back to the medium to be heated, as often as you want, electrically heated.

According to the present invention it is now possible either to use the electrical energy constant supply, or only during those hours of the day, which are for this Purpose turn out to be cheapest, so that you get a considerable amount during this time Store heat and use the heated water or other medium in any desired Dispense amount up to a maximum, which depends on the size of the device can. The apparatus itself, in its simplest form, consists of a body that is capable is to withstand a high temperature and has a large heat capacity, At the same time, however, it must also be a good conductor of heat so that it can completely dissipate its heat can give off to the water. A very suitable material for this purpose is for example the iron, and so is in the following Embodiment also an iron mass with an embedded or passed through it Coiled pipe is provided through which the water can flow and furthermore an electrical heating device, wherein Coiled pipe and heater are surrounded by heat-insulating clothing. The too heating mass transfers its heat to a pipe coil lying inside it, which is surrounded on all sides by the mass, and the pipe coil in turn heats this water in it or flowing through it. The iron mass can be any- ■ have any shape, but it has been found in practice to be desirable that it has the smallest possible surface area in relation to its volume to prevent heat loss to a minimum. It is therefore expedient to form the body as a ball which contains the coil through which the water to be heated passes. The coil can be of any length and any cross-section. The required heat can thereby be generated be that you can run the electric current through

sends a resistor of any kind or in the case of using alternating current by induction or by a combination of these methods. Likewise, the heater of the apparatus can be inside or outside the iron mass, or the iron mass itself can be part of the heating device form.

The insulating mass surrounding the iron mass

ίο and the heater can be of any one of known substances, which is a poor conductor of heat, and can be of any strength. Likewise, one can if it is for a stronger effect or for other reasons it is desirable to have them with an outer or inner metal cladding or double metal cladding can be used with the space between the walls evacuated.

The outer and inner surfaces of the cover can also be polished or silvered, to reduce radiation to a minimum.

Since there is now no material which is complete the heat insulates, so some of the amount of heat can still be extracted from the heated Iron mass is lost. The latter is therefore useful with its insulated cladding built into a container from which the cold water, which is converted into steam or hot water is to be transformed or mixed with steam or hot water. so that the heat escaping from the iron mass is not completely lost.

This container can also be provided with a heat-insulating lining. Farther the electrical and water pipes can be built in such a way that a considerable Part of their length lies within the container so that they are derived from the iron mass Heat is given off to the water and is not lost. The water pipes can also be made of a material which is not a good conductor of heat, or there can be insulating rings on one or more Places to be used in this way the metallic connection in the pipes interrupt.

If necessary or desirable, the water pipe can also be fitted with a safety valve be provided in order to prevent the pressure existing in it from becoming too great. The electrical circuit can with a thermostatic switch can be provided to prevent excessive growth of the To prevent temperature or to interrupt the power, if during a longer period No water is withdrawn from the apparatus for a period of time. The one in this apparatus for heating purposes related current can be taken from a power source, the output of which is variable is, and when the power has reached its maximum, that for the heating of the apparatus serving current interrupted by some independent switch will.

In the accompanying drawing, for example, are several embodiments of the invention shown.

Fig. 1 to 3 are sections through various forms of the apparatus.

In Figs. I, 2 and 3, m is the mass of iron surrounding the coil provided with inlet i and outlet 0 .

In Figs. 1 and 2, the mass of iron in m with a recess ¹ is provided which accommodates the heater h, which is connected to the electrical line e; this goes through the plug p made of insulating material. This plug can be removed so that the heater can be removed and replaced.

In Fig. Ι the iron mass m is arranged within a vessel v ¹ from which the air is removed, and the outlet pipe 0 of the coil c is provided with a tap t and injector / which, when steam flows out of the pipe, out of the Container I ¹ can soak up enough water to condense the steam and allow hot water to escape at the mouth α.

In FIG. 2, the iron mass m with * the covering of insulating material υ and the heater h is attached within a container I , through which the inlet pipe i and the outlet pipe pass; Furthermore, an opening for the insertion of the plug p with the electrical lines e is attached to it. The container I is also provided with an inlet pipe η and an outlet pipe u , the latter being connected to the outlet pipe 0 of the coil c at the thermostatic valve 4. They have a common outlet opening through the tap t and the mouth a, so that when the tap is turned, water flows out of both, namely from the iron mass m and the container I, and is mixed in the valve 4, namely in one such a ratio that it exits at the mouth a with a constant temperature.

In Fig. 3, in order to simplify the construction, the iron mass is made spherical cylindrical instead of the heater h of the earlier figure, a coil of wire h ¹ is wound around the insulating covering ν and in this way forms a primary circuit which is connected to an alternating current secondary currents produced and produces in the iron mass m heat. The container I, which is provided with an insulating cladding υ ² , is provided with a wide cylindrical recess.

Claims (2)

permitted, in which the iron mass is housed with its insulating lining ν and the primary coil h1. The recess can be closed by a plug of insulating material p1, through which the inlet pipe i, the outlet pipe o and the electrical lines e pass. The inlet pipe i has a turn c1 between the insulating plug -p1 and the iron mass m, which is not inserted into the ίο iron mass m, but only in contact with it, so that this outer turn c1, in which the impure components of the water, such as boiler scale and the like, for example settling when using well water, can be easily replaced. The outlet pipe u of the container I is connected to the inlet pipe i of the coil c and likewise the inlet pipe η of the container e to the outlet pipe 0 of the coil c, through the manually regulated tap 5. They have a common outlet opening at the mouth a so that the temperature of the at the mouth. α outflowing water by turning the tap 5, which changes the ratio of the quantities of water coming directly from the inlet pipe η and indirectly through the container I, the pipes 0 and i, the coil c and the outlet pipe 0 to each other. Godfather nt-A ν Proverbs: 1. Heat storage, consisting of an electrically heated one with a heat protection mass Surrounded body of great heat capacity and good thermal conductivity, of which the heat to be used for heating any medium inside one in proportion to the body mass small surface is removed. 2. Heat accumulator according to claim 1, characterized in that the radiator surrounding thermal jacket is surrounded by a jacket containing the medium to be heated, so that the through the heat protection jacket about penetrating heat for preheating on the medium to be heated is transferred. For this purpose ι sheet of drawings.