NO782901L - DEVICE FOR PROVIDING VENTILATION AND HEATING A BUILDING - Google Patents

Abstract

Device for providing ventilation and heating of a building

Description

The invention relates to a device for providing ventilation and heating of buildings, preferably residential buildings, comprising means for heat exchange between evacuation air and supplied air as well as a heating device with flue gas channel and channel for supplying combustion air.

Due to the fact that today people are beginning to require controlled ventilation in residential buildings, and because at the same time they want to take care of heat from the evacuation air as far as possible, there is a need for heat exchangers where heat from the evacuation air can be transferred to the air supplied from outside . In an increasing number of residential buildings and especially residential buildings with electric heating, in order to be able to reduce the effect on the heating system, it is desired to arrange an alternative or a supplemental heat source, and the most common in such cases is a so-called wood-burning stove where the open stove or the oven's well-being function is combined with the heating function. A fireplace with a flue gas duct, however, causes complications in houses with controlled ventilation and usually requires that you have the opportunity to adjust the ventilation system during periods of heating.

The purpose of the invention is to provide a device which can be used as a heat exchanger between evacuation air and supplied air, and which can also function as a flue gas channel for a heating system.

What mainly characterizes the device according to the invention is that the means for heat exchange between evacuation air and supplied air comprises the partition wall between the flue gas duct from the combustion plant and a room adjacent to the aforementioned pipe through which the supplied air flows, and that the duct for supplying combustion air comprises a duct system which leads from an evacuation opening arranged in the building to the combustion device's closable combustion chamber, as heat exchange takes place between the flue gases and the supplied air when firing is in progress, while otherwise heat exchange takes place between the evacuation air flowing out via the combustion chamber through the flue gas channel and supplied air.

Two embodiments of the device according to the invention chosen as examples will be described in more detail in the following with reference to the drawings, where fig. 1 shows a section through a dwelling where all evacuation takes place via the device according to the invention, fig. 2 shows a section along the line A - A in fig. 1,

fig. 3 shows a cross-section along the line B - B in fig. 1, and fig.

4 shows in the same way as fig. 1 an embodiment in which a separate evacuation duct is arranged for the kitchen fan.

The houses as such do not in themselves require any further description and consist, among other things, of kitchen K, living room V, bathroom and toilet room BT and bedroom S. Evacuation is intended to take place via kitchen K and bathroom and toilet room BT.

is

In the heat exchanger unit, which as a whole is denoted by

1, includes as the essential parts a pipe 2 and a pipe 3 which encloses this. The pipe 2 forms a flue gas channel from a stove 4 with a closable hearth space 5 and opens into the open air through the chimney 6. The pipe 3 forms an intake channel for outside air which is appropriately taken in at the chimney 6, and leads to an air heating chamber 7 that surrounds the hearth space 5, but is separated from this.

The pipe 3 is surrounded along most of its length by a pipe 8 which is provided with an intake 9 or 10 for circulation air from the rooms V and S. The pipe 8 communicates at the chimney 6 with the intake pipe 3 for outside air, so that in addition to outside air, circulation air via the said pipe can be supplied to the air heating chamber 7.

The evacuation air from the building is taken from the kitchen K via a kitchen fan F and from the room BT via a duct 11. This duct is equipped with a grease filter FF and a general filter AF, which filters are suitably arranged in a cleaning and inspection box L arranged at the room BT The evacuation opening 12 at the room BT is provided with a non-return valve device 13 which prevents evacuation air from the fan F from entering the room

BT.

The channel 11 is connected to a channel 14 which is formed by a sector-shaped part (see fig. 3) of the pipe 3 as well as a defined part of the chamber 7, and which leads to the ash drawer space 15 in the stove 4, whereby the evacuation air, if firing is in progress,

serves as combustion air, and otherwise during the release of heat to the air flowing through the chamber 7 and the pipe 3, passes through the fireplace room 5 and the flue gas channel 2 to exit through the chimney 6.

In order to ensure the necessary air movement in the channels 11 and 14 and in the flue gas channel 2, especially when firing is not in progress, a fan 16 is arranged at the upper end of the flue gas channel. This fan naturally also ensures that the necessary draft is maintained in the flue gas channel.

After the outside air and circulating air have passed through the pipe 3 and the room 7 in the stove 4, thereby absorbing heat from the evacuation air or the flue gases, the air can be allowed to flow into the various rooms in the building through a suitable channel 17 equipped with a fan device.

Suitable overflow openings are arranged between rooms which have inlet openings and rooms which, due to their location, cannot be appropriately supplied with such.

While part of the air in the rooms V and S is allowed to flow into the channel 8 which opens out at the intake for the pipe 3 for fresh air, a part is evacuated in the usual way via the rooms K and BT so that necessary air circulation is achieved.

The incoming fresh air is thus mixed with circulating ionized air from rooms V and S which, after reheating, can be allowed to flow into the aforementioned rooms.

The embodiment according to fig. 2 differs from the described embodiment in the following respects.

Instead of letting it part of the evacuation air

which is taken out through the kitchen fan F, pass through the hearth room and the flue gas duct, a separate evacuation duct 18 is arranged for this part which, by means of a suitable separate chimney 19, opens directly into the open air. This embodiment is to be preferred as fire safety regulations put obstacles in the way of a design where the evacuation air from the kitchen fan is also led

back to a common outlet. Seen from a heat economy point of view, the losses are relatively modest due to the kitchen fan's relatively short operating periods.

The evacuation air otherwise, which is extracted via the room BT, is led through the channel 14' to the ash tray room 15 in the stove 4, so that when firing is not in progress, when passing through the hearth room 5 and the smoke pipe 2, it can give off heat to the fresh and circulation air that passes the pipe 3 and the chamber 7, and otherwise serves as combustion air.

In order to prevent excess pressure from occurring in the duct 14' if the flue gas or evacuation fan 16 were to go out of action, or if the passage via the flue pipe 2 becomes difficult, the duct 14<1> can be provided with a separate outlet 20 which under normal conditions is kept closed using of a balance damper 21 or similar.

As regards the embodiment according to fig. 2 otherwise, the functional structure agrees with the design according to fig.

1. The reference designations on fig. 2 thus concerns details with

similar function to the details provided with the same reference designations in fig. 1.

For both versions, the number and location of channels as well as intake and outlet openings may vary. This of course also applies to the number of rooms and their locations.

In both of the designs shown, the channel 17 can also be connected to a heat accumulator. During periods when heating takes place, and the amount of heat provided thereby exceeds the then prevailing need, by adjusting a damper or similar, the intake and heated air amount or a part of it can be allowed to pass

through the heat accumulator before it is allowed to flow out into rooms V and S.

In the heat accumulator, which conveniently consists of a container which is provided with transverse walls which extend the air passageway, and which is filled with stone, macadam or the like, the air emits heat which is stored in the accumulator filling.

When supplementary heating in the building is required when heating is not in progress, air can be forced to circulate through the heat accumulator and absorb and release heat to the rooms by means of a fan.

The heat accumulator can be supplied with direct-acting charging devices in the form of electric heating elements or similar which are allowed to heat the accumulator when air is not

flows through this. You can also arrange a heating battery in the channel to the accumulator which heats the air before it enters the accumulator. The prerequisite for such additional heating devices for charging the accumulator to be motivated is that there is available energy at a lower price, e.g. discounted night electricity.

The invention must therefore not be considered to be limited to what is described and shown in the drawings, but can be motivated in many ways within the scope of the subsequent claims.

Claims (8)

1. Device for providing air exchange and heating of buildings, preferably residential buildings, comprising means for heat exchange between evacuation air and supplied air, as well as a heating device with flue gas channel and channel for supplying combustion air, characterized in that the means for heat exchange between evacuation air and supplied air air comprises the dividing wall between the flue gas duct from the heating system (4) and a room (3) adjacent to the said pipe, through which the supplied air has flowed, and that the duct for supplying combustion air comprises a duct system (11, 14, 14') which leads from an evacuation opening arranged in the building to the combustion device's closable combustion chamber, whereby heat exchange occurs between the flue gases and the supplied air when firing is in progress, while heat exchange otherwise occurs between the evacuation air flowing out via the combustion chamber through the flue gas ducts and the supplied air. 2. Device according to claim 1, characterized in that the heating system (4) comprises a heating chamber (7) separate from the hearth room (5) which is connected to the room (3) through which the supplied air flows and communicates with the interior of the building (V,S), and that heat transfer to air flowing through the aforementioned chamber occurs partly when firing takes place and partly from evacuation air passing the combustion chamber. 3. Device according to claim 1 or 2, characterized in that the flow space (3) designed for supplied air, arranged along the flue gas channel (2) communicates with a channel (8) or similar for circulation air from inside the house. 4. Device according to one of the claims 1-3, characterized in that in the duct system (11, 14, 14') for the evacuation air there is at least one intake opening provided with a balance damper (13) or the like which is designed to prevent a bypass effect between rooms in which the said openings are located. 5. Device according to one of the claims 1-4, characterized in that the duct system (14') for the evacuation air is provided with a. during normal operation closed, but in case of overpressure in the channel automatically opening, additional outlet (20). 6. Device according to one of the preceding claims, characterized in that the common duct (2) for flue gases and evacuation air is provided with a suction fan (16). 7. Device according to one of the preceding claims, characterized in that the common outlet for the room (3, 7) running along the flue gas channel (2) which is intended for supplied and heat-absorbing air during flow, and the heating chamber (7 ) is designed to be connected to a heat accumulator whose outlet side is in contact with the interior of the house. 8. Device according to claim 5, characterized in that the further outlet (18) is connected to. a kitchen fan (F) or similar, while other evacuation is connected to the outlet via the fireplace room and the flue gas duct (5 or 3).