SE427872B - OPEN OPEN - Google Patents

Description

77n77s7 = a where schematically shows a first unit of the invention. Fig. 1 - "- Fig. 2 shows a second unit surrounding the first unit.

Fig. 3 schematically shows a section along the line A-A in Fig. 2. Fig. 3 schematically shows a top view of the stove shown in Fig. 2.3. Fig. 1 shows a fireplace, generally denoted by the number 10. The stove comprises a first unit 10 comprising a fireplace 1, a flue gas duct 2 and a duct 3, Å for supplying fresh air to the fireplace 1, as the arrows 5 show.

The stove 10 is preferably provided with a damper 6 in the fresh air duct Ä and glass doors 7,8 or the like, which in a closed position prevent fresh air from passing into the fireplace from the room where the stove is located. The damper 6 is operated by means of a temperature sensing means 9, which may be sensitive to the temperature in the fireplace or in a medium which is heated by the fireplace. In this case, the temperature-drying means 9 is arranged to regulate the damper 6, so that the combustion in the fireplace becomes even by restricting the supply of fresh air when the fire develops too much heat and increasing the supply when the fire develops too little heat. Such a temperature sensing means 9 is particularly suitable when a stove 10 is used, which is intended for heating water according to the Swedish patent no. . . . . ..... (p. ans. 7707756-8) Fig. 1 shows a stove 10 arranged to heat water acc. mentioned Swedish patent. A heat exchanger 11 comprising a number of pipes 12 is present in the fireplace 1, in which the water is intended to be heated when the stove is lit. The lower ends of the tubes 12 open into a vessel common to them, to which a supply water line 13 is connected. The upper ends of the pipes ll open into a vessel lä, which is common to them, to which a drainage line l5 is connected. The above-described embodiment of the first unit including heat exchangers and air control dampers is not necessary for the practice of the present invention, but is to be considered only as an example. The first unit can thus still be designed without a heat exchanger and / or air control damper controlled by a temperature sensing device.

Said first unit 10 is preferably made of sheet metal or other material, which is easy to shape and easy to assemble. Furthermore, the first unit 10, when made of sheet metal, is uninsulated or provided with only a thin "insulating layer" lying on its outer surfaces. The fireplace l is lined with bricks.

The first unit 10 is, as shown in Fig. 2, surrounded by a second unit 20 comprising a housing Z1 substantially separate from said first unit.

Fig. 3 schematically shows a section along the line A-A in Fig. 2. Fig. 3 shows the floor 22 and the ceiling 23 in a room in which the stove is installed. At the lower part of the second unit 20 there is air intake Zk between the lower edge of the housing 21 and the floor 22. At the upper part of the unit 20 there is correspondingly air outlet 25 between the upper edge of the housing Z1 and the roof 23. The heat generated in the fireplace 1 and conducted through the stove is partly delivered through the walls of the stove to the space 26 between the first and second unit, whereby the air in said space 26 rises upwards.

In this case, cold air flows in as the arrows 27 show in through the air intakes 20 corresponding to the amount of heated air which flows out through the air emissions 25, as the arrows 28 show. Thus, the heat emitted from the walls of the stove, which are uninsulated or provided with a thin insulation, is used to efficiently heat the air in the room where the stove is located. The design of the first and second units means that a relatively rapid upward air flow is obtained in said space 26. The incoming cold air 27 cools the second unit, so that it remains at a temperature acceptable from a safety point of view.

Said second unit 20 comprises acc. an embodiment a number of joists 29 or the like, to which pieces of material such as tiles 30 are attached. This means that the construction of the second unit 20 is simple while at the same time it can be given a shape to suit a variety of flavors. As shown in Fig. 2, the second unit 20 is externally designed as a tiled stove. Brick, sheet metal, eternit, asbestos, or other suitable material can of course also be used.

Said rules are performed according to an embodiment as ladders, which are held together by holding elements, by means of which two adjacent ladders can be locked relative to each other at a desired angle. Thus, a set of rules can be built up so that the set of rules is given a round, square, polygonal, rectangular, etc., shape in cross section; This set of rules is then provided with a covering material as stated above.

The other unit can acc. a second embodiment is built up of prefabricated concrete elements. Such concrete elements can for instance be designed as vertical standing slabs, which are placed side by side, so that a substantially cylindrical second unit 20 is obtained.

Furthermore, the housing 21 of the second unit according to a third embodiment consists of a masonry body of brick or other suitable material.

Fig. 3 shows some of the vertical bars 29 going from floor 22 to ceiling 23, in order to achieve a good fastening of the second unit 20. The first unit is suitably fastened in Fig. 4, which shows schematically a top view of the stove 22 in Fig. 2, 3 shows the stove, it appears that the first unit 10 only touches the second unit at the frame of the doors 7,8. The heat conduction from the stove 10 via the edges of the hatches 7,8 to the housing is very small, so that the first unit 10 can be considered as heat conducting insulated from the second unit 20.

As can be seen above, the first unit 10 can be designed efficiently for combustion and heating, as well as being designed to heat air to distribution ducts to different rooms or to heat water, as exemplified above. According to. According to the invention, the first unit 10 can be provided with a large number of different surrounding heights 21 in order to obtain an appearance which suits most taste directions. According to. According to the invention, the fireplace comprising the first 10 and the second unit is designed in such a way that insulation of the first unit 10 largely takes place from the air flowing in the space 26 between the units, where the units are so designed that the air is forced to circulate in the room where the stove is located and thus heat the room.

From the above it is clear that the first unit 16 and the second unit ZD are mounted separately. In this case, the first unit 10 is suitably installed, after which the second unit ZO is built on the site around the first unit. This method has great advantages compared to prefabricated fireplaces, in that both transport and storage of the units becomes simple, and that there are very great possibilities to adapt the shape of the other unit to the prevailing space in which the units are uninstalled.

The invention should not be construed as limited to the above embodiments.

Thus, the design of the first unit 10 as well as the design and construction of the second unit 20 can be varied within its scope as defined by the appended claims.

Claims (3)

7707757-6 Patent claims - »~ A fireplace comprising a first unit (10), which comprises a fireplace (1) with associated flue gas duct (2) and preferably comprising a heat exchanging device (11) in the rear of the fireplace for heat exchange of the heat in the fireplace to air and / or water , wherein said first unit (10) is substantially made of sheet metal and uninsulated or provided with only a thin insulation, characterized in that the part of the first unit (10) which is placed in a room is surrounded by a second unit (20), constituting a housing (21) substantially separate from said first unit (10), comprising bars (29) or the like, to which pieces of material (30) such as tiles, bricks, etc. are attached. 2. fireplace according to claim 1, characterized in that air intake (Zh) is present between the lower edge of the housing (21) and the floor (22) and in that air outlet (25) is present between the upper edge of the housing (21) and the roof (23). 3. fireplace according to claim 1, characterized in that said second unit (20) comprises prefabricated concrete elements. Å. Fireplace acc. claim 1, characterized in that said second unit (20) comprises a masonry body.