DE1966873A1 - HEAT STORAGE DEVICE - Google Patents

Description

DK 1613 / la-3

Patent application P 19 66 873.6 DΓ.V /.

ΡΑΤ

8 MC & c -., - ^

UNGERERSTR. TELEPHONE 33362α

Thermo-Bauelement AG

Murten / Switzerland

Heat storage device

The invention relates to a heat storage device for loading Heating of rooms with a heatable storage core and a device that extracts the heat from air promotes through the memory core.

The invention consists in the fact that the discharge is effected by a fan, which the air through vertically promotes arranged channels which can be closed by flaps arranged at the upper end.

The invention is explained by way of example with the aid of the figures.

Figure la shows the front view of a Speiehergerätes according to the invention.

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Figures Ib and lc show a side view of the in Pig. la device shown with different flap positions, the housing side wall of the device being omitted is.

FIG. 2 shows a perspective view of an embodiment of a storage element for the one in the figures la to Ic shown 'heat storage device.

Figures J5 to 7 show partly in perspective views and partly in sectional views, various embodiments and allocation options of storage elements for a heat storage device according to the invention.

FIG. 8 shows a schematic view and in cross section of a plate-shaped heating element for a heat storage device according to the invention.

FIG. 9 schematically shows the view of a plate-shaped heating register for a heat storage device according to FIG Invention.

FIG. 10 shows, partly in perspective and partly in sectional view, an embodiment of a storage core for a heat storage device according to the invention with heating elements designed as filaments.

FIG. 11 shows partly in perspective and partly in

Sectional view of a Houleau closure for the air duct of a storage device according to the invention.

FIG. 12a shows partly in vertical section * partly in perspective View of a further embodiment of a storage device according to the invention; ■

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FIG. 12b shows a front view of the storage device shown in FIG. 12a, the front panel being omitted is.

FIG. 13 shows in section along the line a-a in FIG. 12a the memory core of the device according to Figure 12a.

FIG. 1h shows a further embodiment of a closure flap for an air duct of a storage device according to the invention.

FIG. 15a shows a view of a further embodiment a storage device according to the invention with an injector arranged below. ...

Figures 15b and 15c show sections along the lines b-b . and c-c in Figure 15a.

Figure 16a _t shows a similar device as Figure 15a in a front view.

• Figure 16b shows a section along the line b-b in Figure loa.

In Figure la is a .Speichergerät according to the invention with eir.e:.; 'Air inlet grille 1 and an air outlet grille 2 are shown. As indicated by the lines 3, the width of the Device can be selected as large as desired in intervals according to the memory elements designed as modular elements. Since no or almost no insulation is required, the device can be built very flat and, in contrast to known devices advise hung only a very small distance from the wall will."::·

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As can be seen from Figures Ib and 1c, the Storage elements 5 are arranged so that they have two air ducts 6 and 7 extending over the entire width of the device that communicate with each other below and above. In Figure Ib a flap 8 is shown in a position in which the room air can flow along the arrows 9 and 10 through the channels of the device. In the position of the Flap 8, which is shown in Figure Ic, is the room air outlet blocked and the air can circulate in a closed circle along arrows 11 and 12, the heating register 13, which is designed as a deflecting vane and is installed asymmetrically, the air flow heats up and leads.

In Figure 2, a storage element is shown, its storage mass container 20 consists of two identical angular parts 21 and 22, as well as the end faces 23. At A filler neck 24 is attached to an end face 23. The heat exchange surfaces 25 are on one or both sides attached to the angular files of the container, depending on whether the storage element is in the middle or on the outside of the memory core according to Figures Ib and Ic is arranged. The containers can be made of sheet metal, however, they are preferably made of plastic.

Figure 3 shows four storage mass containers 30 made of plastic, in which the filler neck 32 is arranged in a beveled corner 31 of the room for easier stackability is. Heat conducting plates 33 made of metal are either glued to the individual containers, or they are designed as resilient Intermediate pieces with a length corresponding to the total usable width of the device are inserted during assembly.

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In Figure 4 is a horizontal section through a heat storage device according to the invention, similar to that of Figure la, is shown. The storage elements 45 rest on a frame, not shown, which has openings which have the width of the meander-shaped ribs 40. The storage elements are built up by cylindrical sheet metal jackets 41. The storage mass of each container is accommodated by further containers 42 and 43 made of plastic film. Between the sheet metal jacket and the containers 42 and 43, a flat heating element 44 is arranged, which is described in more detail with reference to FIG. The storage material filled in in the flowable state presses the walls of the plastic containers 42 and 43 tightly against the heater 44.

3ei exist in the embodiment shown in FIG the storage mass container made of prismatic housings 50, preferably made of plastic. These housings have groove-shaped channels 51 for the passage of air. A flat radiator is located between two opposing storage elements 52, which is described in more detail with reference to FIG.

FIG. 6 shows a further embodiment of a memory core a device according to the invention, in which the storage mass in containers made of film tubes or plastic containers 60 is housed. The individual storage mass containers grip in the manner shown in a meandering manner curved sheet metal strips 6l and are held at a distance from one another by these sheet metal strips, which at the same time form the air ducts. The ones forming the air ducts Sheets 61 of opposing groups of storage elements touch a flat heating element 62, which also corresponds to the flat heating element described with reference to FIG.

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The meandering sheet metal strips 6l are preferably made made of aluminum and conduct heat to and from the storage elements during charging and discharging.

The surface can be enlarged by corrugation. When the heating is switched on and the air flap is open, the cooling is so strong that the melting point of the storage mass is not reached, so that all the heat is given off via the sheet metal strip Gl to the air that has passed through for the purpose of additional heating.

FIG. 7 shows a storage device according to the invention, in which the storage mass is arranged in film tubes 8 is. These film tubes are hung on rods 8l like sausages and have such a distance from one another that that they form a small resistance for the air passing through. The control flap 82 for the unloading and The load is arranged to be pivotable about a hinge 83. In loading position this flap 82 closes the upper part of the housing. The bottom 84 of the housing forms a trough-shaped Indentation 85 * so that no storage mass can flow out of the housing if a container leaks. The single ones Storage mass containers 8l are wrapped with heating coils 86 made of very thin resistance wire or a conductive polymer, On the one hand, these coils serve to heat the storage elements and on the other hand, they increase the resilience of the walls of these storage elements to ring tension. Instead of Coils can also be used to apply thin metal layers that act as heating resistors.

. In Figure 8 is a heater for a device according to the invention shown schematically in view and in section. The heater consists of a plastic film 100 on which the heating conductors are upset. The supply line 101 supplies the one above the other

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arranged resistor circuits 102, 103 and 104, respectively can be switched on independently of each other so that a Reloading without overheating of already 'melted or recrystallized storage mass is possible. The plastic film 100, which carries the heating conductor, is covered by an insulating film 106 which is welded along the seam 107 is. ·

FIG. 9 shows a heating register constructed in the same way, in which the heating conductor carrier is on one side the heating elements, divided into two circles 110 and 111, are used for charging, while the carrier is on the the other side carries the heating conductor assignment 112 serving as additional heating. The auxiliary heating with which the air is direct can be heated, is located in the area of the air ducts and can therefore no heat to the storage mass., but only give it to the air passing through the air duct.

In the embodiment according to FIG. 10, there is a storage mass container 120 equipped with air ducts 121 in which there are radiant heating elements 122, the simplest Trap are designed as flat wires suspended between resilient brackets 123 and 124. These wires are used in case of interrupted Air flow for charging by releasing its heat to the storage elements through radiation, "while when the air ducts are open, most of the heat from the heating wires is given off to the air flowing through, so that -the same heating elements for charging and as additional heating can be used.

Figure 11 shows a further embodiment of the upper section an air channel 142, which can be covered by a roll 140 made up of two foils, which in the area ■

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l4l is connected to one side of the storage body. One layer of the roll consists of a conductive polymer or very thin bimetal strips. Through training the current-conducting layer, the current flow is conducted so that this conductive layer and its directly When the power is switched on, the adjacent layer is strongly heated, resulting in a stretching of the role l40 and thus leads to a closure of the channel 142. You could of course also carry out the installation the other way around, so that the film rolls up when the power is switched on and the channel 14.2 releases and when the power is switched off, the channel is then closed.

Figures 12a and 12b show a further embodiment of a storage device according to the invention, in which the storage masses are made up in containers 150 and 151 Plastic. Between these storage mass containers are two similar meander-shaped heat exchange elements 152 and 153 are arranged, which are shifted from one another in the manner shown. The surface heating register 154 corresponds to the heating register according to FIG. 8. Above of the device. an air duct 155 is arranged, from which oval nozzles 156 protrude into a diffuser 157. The air emerging from the nozzles 158 sucks in secondary air at. The entire air flow passes through the device. When the air supply starts, the film strip opens 159 »which is firmly connected to a storage element on one side. As shown in Figure 12b, is on the Air duct 155 connected to a fan ΙβΟ. The storage mass container are dimensioned so that they can be easily transported in the form of boxes.

In-Figure 13 is a section along the line a-a of the figure 12a, in which the arrangement of the nozzles 156 and

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the · air baffles 152 and 153 can be seen. Between the air baffles 152 and 153 is the heating register 15 ^ arranged.

Figure l4 shows the design of the flap 159 of the device according to FIG. 12a, which is suspended in hinge 180 in the form of an eyelet and is opened by the pressure of the sucking air.

In the figures 15a-15c a further embodiment of a device is shown according to the invention, the same consists of two housing halves 190 and 191 _a, and a: is duct 192, a blower is in.dem 193rd As can be seen from the sectional views in FIGS. 15b and 15c, the storage elements 194 and 195 enclose heat exchanger sheets 196 between them. Underneath the device there is an air space which widens towards the wall 197 and consists of two channels 198 and 199. These two channels communicate with a multiplicity of profile tubes 200 which have nozzles 201 pointing towards the air channel. Air from the channels 198 and 199 enters the air channel 202 through these nozzles 201 and sucks in secondary air through the spaces 203 between adjacent profile tubes 200. The fan 193 maintains the pressure in the channels 198 and 199 and supplies these channels with primary air.

In the embodiment according to Figures l6a and 16b, the Again consisting of two identical halves 207 and 207, the fan 208 is at the rear of the storage device is attached and draws in air through the inlet grille 209 and the duct 210.

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Claims (3)

Claims / 1. J heat storage device for heating rooms with a heatable storage core, which consists of one or more storage elements containing storage mass enclosed in containers, and with a device that promotes air through the storage core to remove the heat, characterized in that the discharge through a blower is effected which conveys the air through vertically arranged channels (198, 199) which can be closed by flaps (8, 140, 159) arranged at the upper end. 2. Heat storage device according to claim 1, characterized in that the flaps (140) are formed from flexible films are. 3. Heat storage device according to claim 1 or 2, characterized in that that the flaps are designed as a blind-shaped closure device made of two layers, one of which is electrically conductive and can be heated by a circuit, 409884/0001 ΛΑ blank page