G. I. F. HASSLER. APPARATUS FOR ELEGTRIGALLY HEATING WATER, AIR, OR OTHER MEDIUM BY MEANS OF A HEAT MAGAZINE.
APPLICATION FILED DEC. 16, 1912.
Patented Aug. 12, 1913.
Z SHEETS-SHEET 1.
WITNESSES:
fi TORI/El 0. I. F. HKSSLER. APPARATUS FOR ELEGTRIGALLY HEATING WATER, AIR, OR OTHER MEDIUM BY MEANS OF A HEAT MAGAZINE.
APPLICATION FILED DEC. 16, 1912.
1,069,949. I Patented Aug. 12, 1913.
2SHEETS'SHEET 2.
7221mm.- ww
/ ATTORNEY.
UNITED STATES PATENT OFFICE.
CHARLES IVAB FREDRIK HAssLER, or srocm-romvr, SWEDEN.
APPARATUS FOR ELEGTRICALLY HEATING WATER, AIR, OROTHER MEDIUM BY MEANS OF A HEAT-MAGAZINE.
To all whom it may concern:
Be it known that I, CHARLES Ivan FRED- RIK H'A'ssLER, a subject of the King of Sweden, and a citizen of Sweden, residing at 31 Drottninggatan, Stockholm, in the Kingdom of Sweden, have invented certain new and useful Improvements in Apparatus for Electrically Heating Water, Air, or other Medium by Means of a Heat-Magazine, of which the following is a specification.
In order to economically utilize electric energy for heating purposes as for instance in buildings, it is desirable to regulate the use of the electric current in such a manner that the current for heating purposes is only dispensed during certain hours of the day which are convenient for the station furnishing' the electricity. As thus the electric energy is not at the disposal of the consumer during the entire day or night, it will be necessary to store part of the heat to a certain extent and then to supply this stored heat during the hours during which the supply is interrupted to theradiators. As storage magazines for the heat stoves, walls, or other storage systems have been used heretofore within which electrical elements were embedded and which during a certain time receive the heat and afterward deliver the same to the localities to be heated. It is obvious that such heat storage magazines do not permit any regulation, either with respect to the time at which the delivery of the heat is to start, or with respect tothe speed with which the stored heat is to be delivered. In order to bring about such regulation the differences existing between the temperatures ofthe heat magazine and that of its surroundings must be taken into consideration, and also the radiating and conductive capacity of the material of construction of the heat storage magazine and of the material surrounding said magazine. A storage magazine for heat cannot work satisfactorily without being constructed for delivering the stored heat very slowly and therefore it has to be made of material having a bad heat conducting and radiating capacity or it must be surrounded by a material having said capacity. To avoid the disadvantages commonly connected with devices of this kind it is proposed, according to this invention, to distribute the different functions, which as indicated above an effective heat storage magazine is required to Specification of Letters Patent. Patented Aug. 12,1913. Application filed December 16, 1912. Serial No; 737,003. I
regulating organs and a heat distributing medium such as air circulating in said system. By such a distribution of the functions of a heating system according to the present invention it is possible to construct the different parts of the device so as to make them suitable for the special functions they are to perform. Thus, the heat storage magazine proper is constructed with a View to have the best storing capacity, while the heat delivering surface is constructed with a view to achieve a uniform and rapid clelivery of the heat.
In the accompanying drawing forming part of this specification: Figure 1 shows a device according to the present invention partly in section. Fig. 2 is a similar view of a modified form thereof. Fig. 3 shows the application of the device to a tile stove in section on the line I)-I) of Fig. 4. Fig. 4 is a section on line CC of Fig. 3. Fig. 5 is a section on line 13-13 of Fig. Fig. 6 is a section on line A-A of Fig. 8.
Referring specifically to Figs. 1 and 2, the heat storage magazine is designated with 1, while 2 indicates the heat delivery body, and 3, 4, 5, and 6, represent the system of closed tubes while 8, 9 and 10 indicate the regulating elements.
As illustrated in Fig. l the apparatus opcrates as follows:-If rapid heating is desired, thevalves 8 and 10 are opened while thevalve 9 is closed so'as to close the passage to the heatmagazine entirely or partly, whereby more or'less of the air coming from theelectrical element 7 is compelled to pass through thevalves 10 and S to the radiator of sheet metal or to any otherheat radiating surface 2 which then radiates the heat into the locality to be heated. The air after having dispensed its heat returns through theconduit 5 to theelement 7 where it is reheated and from there it ascends through 110 the conduit 11 and repeats its above described circulation. If however the heat generated by the electrical current is to be stored, thevalve 8 is closed and thevalve 9 opened, so that the current'of heated air circulates through the conduit 4 into themagazine 1 and then back to theelement 7 through conduit 6 thereby heating the heat storing mass in themagazine. When the circuit is then interrupted and it is intended to deliver heat from the magazine, thevalve 8 is opened to such an extent that warm currents of air are allowed to pass and deliver their heat to theradiator 2 whereafter they return-to the magazine in order to be reheated. By adjusting thevalves 8 and -9 successively and in a suitable manner the transition from the heating of the chambers to the storing is effected uniformly and slowly. -By means of thevalves 8, 9, the temperature can be regulated manually.
According to Fig. 2 where the electrical ele-- ment is embedded in the magazine itself the regulation and operation are efl'ected in a similar manner. The heat magazine is designated by 1', while 2' indicates the heat delivery body, and 3, 5'- represent the system of closed tubes, while 8, 9 and 10 indicate the regulating elements, and 7 the electrical heat supplying element. The .operation of this form of the invention is identical as described ,above with respect to the preferred form illustrated in Fig. 1.
In Figs. 3, 4, 5 and 6 the application of the above outlined principles to a stove is' shown which stove also can be heated with the ordinary fuel. The heat storage magazine consists of the insulatedmaterial 1" of brick (or concrete) thethin wall 2 acting as radiator when the chamber is rapidly heated. When the stove is to be used for heating with electricity, the damper lfi is closed the electrical element is inserted into theopening 12 of the stove and theouter door 19 is closed. If a rapid heating of the room or locality isjdesired, the damper 17 controlling the heating channels, is opened, while thedampers 18 for controlling the channels for the heat to be stored, and the doors 20 are closed. The air heated by the electrical element passes through thechannels 13 and 14' to thespace 15 and returns .to 12 through the opening 21.= Thethin tile wall 2" is thereby rapidly heated and causes a rapid heating of the'room or locality. It on the contrary, the heat generated is to be stored, the damper 17' controlling saidchambers 13, .14 is closed and thedamper 18 controllingchannels 22, 23 and the doors 20 are closed; Thev heated air then passes as before upwardly through'thechannel 13. Further it passes throughtheside channels 22. where it divides itself, partly passing through the downwardly directed channels 23' and partly through 24t0 the downwardly directedchannels 25 from where the air throughchannels 26, 27 is guided to the openings 20 and thus returns to the heating'element. The circulating warm air thereby heats thematerial 1" whereafter when the circuit is interrupted and the heat storage magazine hasto deliver its heat, thedampers 18 are maintained in their closed position while the damper 17 is entirely or partly opened for regulating the distribution. of the heat. The heat stored in the magazine is conducted through thechannels 25, 23 and 13 to 14 so as to strike against thewall 2" which radiates the heat into the air in the room or locality to be heated. The air after having dispensed its gheatpasses through theopening 21 back to theopening 12 into which the heating element has been introduced and repeats the same circulation after having been heated again in thechannels 25, 23 and 13. If thestove is to .be heated with ordinary fuel, for instance wood, the electrical element is withdrawn, thedampers 17 and 18 are closed, the doors 20 inserted and the combustion gases are allowed to pass as usual throughchannels 13, 22, 26, 25, 28 and 29 into the chimney. Even in this case it will be possible to regulate the position of the different dampers so as to let the stove act either as a rapidly heating body or as a heat storing magazine. By adjusting the regulating devices the heat generated by the element can be conducted at will either to the heat storage magazine or to the heat distributing surface or simultaneously to both (as it is possible to distribute the quantity of the heat generated at will between the magazine and the surface), and the heat stored in the magazine can be stored or delivered at will, a complete regulation being possible in the latter case as well with respect to the time at which the delivery of the heat is to begin as with respect to the speed with which the stored heat is to be delivered. With such an arrangement it is of course possibleprovided the electrical element and the magazine are properly dimensionedto maintain a constant temperature all day long, thus also during the time during which the electric current is not placed at the disposal of the user. room can also just as Well be effected by the proposed arrangement. Thus the construction involves the same advantages as a heat ing plant having a source of heat continu ously delivering the same.
An advantage common to all the embodiments of my invention described above consists in the fact that the heat transferring medium, usually air, circulates in an entirely closed system of channels and does not come in direct contact with the air of the atmosphere, either in the magazine or at the radiator. The temperature of the cir- Of course a rapid heating of a cold point of view are the best to be maintained by the heat radiating surfaces. In consequence thereof the temperature of the magazine is also independent of'the temperature of the room and thus the magazine can be heated considerably higher than to 80 decos 0. In fact experiments have shown I that the temperature of the magazine can be raised to over 500 degrees C. and that in spite thereof it has been possible on account of the perfect regulating means to maintain the temperature of the heat delivery surface so as not to exceed 80 degrees C. The possibility of using such a high temperature in the magazine involves the advantage that a magazine smaller and cheaper maybe used.
It will be understod that a device according to the present invention can be used not only for heating rooms or similar locality directly, but also generally as a heating medium, the temperature of which can be controlled at will. For instance water could be heated directly by dropping an element according to this invention into the water'or by heating air or other medium which then is caused to pass in spiral .tubes through the water. Also in central heating plants the element can advantageously be used and the heating may be efiected by" means of heated air or of water. In the former case one or more elements are embedded in the heat chamber from which the necessary conduits branch ofi.
I claim:
1. In an-electrical heating apparatus for buildings or the like in combination with the heating element thereof, means for storing the heat enerated by said element, means for distributing the heat, and means for alternately connecting at predetermined moments said storage magazine and said distributing means, and for controlling the amount of the heat to be stored and distributed, substantially as described.
2. An electrical heating apparatus for rooms, storing the heat and distributing the stored heat. at predetermined moments comprising in combination, an insulated storage magazine for the heat, a source of heat, a radiator, conduits for alternatively supplying hot air to said radiator from said source of heat and from said heat storage magazine, and means for controlling these conduits according to the desired conditions, substantially as described.
3. An electrical heating apparatus for buildings, for storing the heat and distributing the same at,a given moment, comprising in combination, an electrical heating element for heat-in the air, a heat distributing body, conduits connecting said body with said heating element, means for controlling said conduits, a heat storing magazine, conduits connecting said magazine with said heating element and with said heat distributing body, and means for' controlling both sets of conduits for regulating the supply of heat in accordance with the temperature, substantially as described.
4. An electrical heating apparatus for buildings or the'like for storing the heat and distributing the same at a given nio-. ment, comprising an electrical heat generator, an insulated heat storing magazine of a material having a specific high heat retaining capacity, a heat radiating surface, heat distributing flues connecting said element with said radiating surface, valves controlling said fiues, for connecting said storage magazine alternatively with said generator or with said radiator at a given moment, and
valves controlling said flus, substantially as described. v
5. An electrical heating stove for heating structures, for storing the heat and for radiating the same at given intervals comprising in combination, with the stove proper having an opening and fines, an electrlcal heating element wlthin said opening, means for regulating the passage of the heat generated by said element through said flues, to the heat radiatin surface of the stove, means for storing t e heat alternatively 'connected to thetheat radiating surface of the stove or to said heat generating element, and
means for controlling the distribution of the heat from said generator and said storage chamber alternately accordin to the temperature desired to be maintained, substantially as described.
In testimony whereof I have affixed my signature in presence of two witnesses.
CHARLES lVAlt FREDRIK HKSSLER.
Witnesses:
FRITZ EPAIRA HAMLIN, Gram Panzer;