DE1630520U - HEATING INSERT IN HOT-AIR STOVE FOR SOLID FUELS. - Google Patents

Description

Walter A man n. Zurich (Switzerland). Heating insert in hot air heating stoves for solid fuels.

The subject of the present innovation is a heating set in with a Tile-coated hot air heating stoves for solid fuels. It's general known that when heating hot air stoves, the lower parts of the tile casing not or only weakly heated. Due to the diathermic property the air, the heat rays from the heating insert penetrate without the slightest loss through the air circulation space on the tile wall and are again used as radiant heat delivered to the room to be heated. The stakes usually have to be off the ground be separated to allow the entry of cold air. In the lower part of the insert is the ash chamber, and the temperature of the relevant The outer surface of the insert is small. This of course closes the penetration there of the circulation space through heat rays, and as a result the lower one remains Tiled jacket section cold, so to speak.

To mitigate this disadvantage and also through better utilization to increase the heat output of the flue gas by enlarging the heating surface, is the purpose of the present innovation.

According to the innovation described below, this is achieved by that the heating insert for better heating gas utilization by enlarging the heating surface and the resulting increase in heating output on the outside at least has a lintel tongue and at least one riser, which trains the flue gas for heating the lower tile jacket area right up to the bottom of the heating insert to lead.

The innovation is shown in three examples on the accompanying drawing Embodiments and shown in a variant, namely shows; Fig. L that first embodiment in a hot air tiled stove in longitudinal section, from the Seen from the side, Fig. 2 this example in a different section, seen from the front, 3, as a variant, an insert cover with smoke duct extensions, FIG. 4 a Cross section, FIG. 5 shows the second embodiment in a furnace in longitudinal section, seen from the side, FIG. 6 shows an associated cross section, FIG. 7 shows the third exemplary embodiment in a furnace in longitudinal section, seen from the side, while FIG. 8 shows an associated one Illustrates cross-section through the furnace.

According to the first embodiment of FIGS. 1 and 2 designated 1 an access niche and 3 an inserted in a tile casing, not shown cast iron Heating insert, between the latter and the tile jacket an air circulation space (4 in Fig. 4) is left. The heating insert 3 has the Bottom 5, the rear wall 6, a front panel 7, the front panel 8, the cover panel 9 and the cross winds 10. At 11 there is the boiler room with the chamotte lining 12 and 13 denotes the ash chamber.

On the rear wall 6 of the heating insert 3 are a riser 14 and two 15 camber pulls are scheduled. These are with respect to each other according to the embodiment 7 and 8 angorednet on the heating element 3. The trains 14,15 extend from the heating insert base 5 to the cover plate 9.16 are connecting channels for the Flue gases from the lintel 15 to the riser 16 according to the execution 7 and 8. Openings 17 lead from space 11 to the upper ends of the lintels 15. The ribs 18 are arranged on the side walls 10. These are used for enlargement the heating surface.

19 and 20 show the arrangement of the smoke nozzle with the upper smoke gas outlet, be it from the boiler room 11 or from the smoke respectively. Climb 14. In the plane of the Heating insert base 5 is, adjoining this, a flue base plate 21, while 22 shows the flue gas nozzle with a lateral arrangement on the flue 14. In Fig. 1 and 2, the flap 23 is also still for the direct train when firing can be seen and this is connected to a regulating lever 24. The secondary air supply into the heating room 11 takes place through the air ducts 25 and the primary air supply the grate openings 26.

With this warm air tiled stove with heating insert, the Trains 14, 15 circulating heating gases down to the bottom depth of the insert 3. The heat loss of the Flue gases is up to penetrate into the lowest Part of the trains 15 relatively small, since a cooling only on the one after the mentioned Air circulation space (4) is on the lying side, while on the combustion chamber side rather a Temperature gain can be recorded. The outlet temperature of the flue gases from the furnace 11 is lower than the temperature directly in the fire zone. At the Pulling through the lintel cables 15 pass the smoke gases, separated by an iron jacket, again the highest temperature zone, so that from a loss of heat in the fall tongue can hardly be spoken. This achieves that according to the present innovation the lowest parts of the tile casing are also heated.

Instead of disconnecting the heating element 3 with the cover plate 9 close, can for the purpose of extending the climb and the Lintel pulls and thus to increase the heating surface of the Attachment 27 according to FIG. 3 is placed on the main mounting part will. 28 is the cast casing in which the camber 29 and the riser 30 are provided with the camber and Corresponds to climbs 14.15 of the main part of the mission. The outlet openings 31 lead the smoke gases into the lintel passages. A flap 32 is used to achieve the direct train. 33 is a smoke vent.

As FIGS. 4, 6 and 8 show, the ascending and descending trains can be arranged in various ways with respect to one another. In Fig. 4, the riser 14 is in the middle of the insert rear wall 6, and the fall trains are on both sides connected to this without a gap t According to FIGS. 5 and 6, the falls 15 are below Leaving an air circulation system located between them channel 34 mounted on the rear wall of the insert 6. Of the dd Climbing cable 14, however, is attached to the rear of the cambering cables 15. It adjoins a storage wall 35 of the tile casing 2 at. 36 are outlet openings for those from the combustion chamber 11 t smoke gases passing into the lintels 15, while 37 t Passages for the lintel trains 15 in the t bricked climb 14 showing stroking smoke gases. One Entry opening 38 according to FIG. 5 allows entry of cold air in the air circulation space 34. According to the last exemplary embodiment according to FIG. 7 M. and 8 the camber pulls 15 are arranged as in Fig. 6, .. while the riser 14, however, see between these below Leaving gaps 39 on the rear wall 6 of the pickling insert 3 is located. The arrows show the exit direction M. the flue gases from the lintels 15 into the connection 6- n trains 16 in the ascending train 14. Between the connecting trains 16 is the partition wall 40. The cold air arrives through the inlet opening 41 into the air circulation spaces 39. The connecting trains 16 are at the level of the ash room 13. which is shortened by the depth of the connecting trains. To this train arrangement is the first embodiment according to FIGS. 1 and 2 drawn. Since in the connecting trains 16 the flue gases to the Brush along the ash chamber 13, these heat the rear ones Side walls of the connecting trains and thus the opposite lying below tile areas, so that a maximum utilization of the floor heat is achieved. Through this arrangement of the trains according to Fig. 7 and 8, the cross section of the air Circulation space 43 corresponding to the cross section of the Air circulation spaces 39 are reduced. Subsequently the tile casing 2 comes closer to the heating element 3 to lie, reducing the intensity of the thermal radiation in the Square of the distance reduction increased By the arrangement of the connection 17 on The height of the ash chamber 13 is an "m" loss after the Ash room should not be regarded as lost in this respect when this loss was taken up again by the Primarlutt and the furnace 11 is fed.

In addition to trains 14 and 15, a further Sturzugkaaten can be used to increase the performance of mission 3. This can be arranged on the rear wall 6 of the heating insert 3, while the trains 14, 15 on the left and to the right of this box respectively. left or right the side walls of the insert 3 are to be provided.

Claims (1)

Protection claims: 1. Heating insert provided with a tile casing Warm air heating stoves for solid fuels, characterized in that this heating insert for better utilization of the heating gas by enlarging the heating surface and the resulting conditional increase in heating output on the outside at least one lintel and having at least one riser which trains the flue gases for heating also the lower tile jacket section to directly above the heating insert floor 2) heating insert according to claim 1, characterized in that the riser on the Rear wall of the iron heating insert is arranged on which left and right Connect two lintel cables without a gap. 3.) Heating insert according to claim 1, characterized in that two lintels are spaced apart from each other on the rear wall of the heating insert, while the riser is placed on the rear wall of the lintel and that the trains include an air circulation space. 4.) Helzeinaatz according to claims 1 and 3, thereby the/ marked, dasa / attached to the rear of the lintel trains Climbing line is lined up and attached to a storage wall of the Tile cladding adjoins. 5.) Heizieinsatz according to claim 1, characterized in that the Falls to the left and right of the climb leaving some in between Air circulation spaces are arranged on the heating element, being at the level of the ash chamber located Connecting trains establish the connection between the Stuzzügen and the climbing train. 6.) Eeizelnsatz according to claim l, characterized in that the pulls are arranged on at least one of the side winds of the heating insert. 7.) heating insert according to claim l, characterized in that on in addition to a set of cascading falls and climbs, another set lintel box is attached.