NO842678L - REQUEST BY WALL - Google Patents

Description

Device by the wall.

The present invention is based on one more device

to counteract heat transfer through a wall that delimits a mainly closed room with a temperature that deviates from that of the surroundings.

Rising energy prices make it increasingly important to achieve as good wall insulation as possible. This applies regardless of whether the insulation is intended to prevent heat transfer out of a room or heat transfer into a room. The first problem is relevant in countries with a cold climate and the second in countries with a warm climate.

A prerequisite for achieving a good indoor climate is also to avoid excessively large temperature differences between the room's ceiling and floor and the sharp temperature drop that occurs with poorly insulated walls.

In order to avoid high energy costs, there is a desire to replace warm indoor air with cold outdoor air as little as possible or also cold indoor air with warm outdoor air. Admittedly, such a replacement can take place by using heat exchangers, but this usually entails extensive and expensive installations. It is also difficult with central fan installations

to achieve satisfactory fire safety, and in particular there is a great danger that, in the event of a fire, smoke and toxic gases are spread in a burning building, even in those parts of the building which the fire has not yet reached.

The present invention concerns a device which meets the above wishes and solves the indicated problems.

The invention relates to a device in connection with a wall which forms part of a demarcation for a mainly closed room from surroundings with a different temperature. For the sake of simplicity, the invention will be described in connection with only one wall, but the invention as such is of course applicable to all walls that delimit the room from surroundings with a different temperature. Such a wall always has one side that is warmer than the other. In connection with the warm side of the wall, according to the invention, a slit-like and mainly closed room is arranged which, by means of a mainly airtight layer, is delimited from the area with a higher air temperature. In the direction towards the cold side of the wall, the gap-like space is limited by an air-distributing layer which allows a certain passage of air into the insulation that remains between the gap-like space and the colder outside of the wall. In the lower and upper part of the wall there are openings which connect the slit-like space with the area with higher temperature. In connection with the upper openings, there is arranged an organ, e.g. a fan, for preferably continuous supply of air to the slot-like space, whereby air passes through this and out through the lower openings, while the air is partly also pressed into the insulation via the above-mentioned air-distributing layer. The above-mentioned flow of air into the insulation causes so-called counterflow insulation or dynamic insulation, which entails a significant lowering of the wall's k-value.

In the slit-like space, in a preferred embodiment, organs are arranged, e.g. spacer blocks, ribs, fiberglass fabric etc. which disrupt the air flow through the gap and thereby cause turbulence in it, which in turn improves the necessary flow of air into the insulation and thus the desired improvement of the wall's total insulation, which can be measured in terms of a considerable k-value.

In the embodiment of the invention where the warmer side of the wall faces the closed room, the means for air supply (the fan) is connected to a mainly closed section which is arranged in connection with the room's ceiling and usually forms the upper limit of the room. One or more openings are arranged between the subject and the room.

In one embodiment, the embodiment described in the previous section is supplemented with an air filter and/or a dehumidifier, alternatively a humidifier, while in certain embodiments heating devices are also arranged in connection with the subject. Since the invention results in a considerable improvement of the wall's insulation, it is often sufficient just to take care of the waste heat produced by the lighting, in order to achieve the desired temperature in the room.

From the above description it appears that each room is a separate unit, whereby the dangers of the spread of fire, smoke or gases that exist with central fans are completely avoided.

systems.

The invention will be described in more detail with reference to fig. 1, which shows sections through a wall and a room.

The figure illustrates an embodiment of the invention. The figure shows a room 10 with an upper limit 11 which forms the room's roof. A wall 20 joins the upper boundary of the room. Seen from the outside, the wall is usually made with a windproof layer and an air layer which is followed by one or more layers of insulating material 28. However, these parts of the wall are omitted in the figure, apart from the fact that the insulating material is only partially shown in the figure. In the direction towards the room there follows an air-distributing layer 29, a gap-like space 21 and a mainly airtight layer 41, of which the side facing the room forms the wall's limiting surface 22 towards it. In connection with the lower part of the slit-like space 21, there are arranged openings 23 towards the space 10, and in connection with the upper part of the space, openings 24 which open into a section 31 whose lower part forms the space's upper limit 11. In the slit-like space 21 organs 25 are also arranged there to disturb the air flow and to induce turbulence in it. Examples of such bodies are distance blocks, ribs, fiberglass fabric etc.

In subject 31, a device 30 for supplying air to the slot-like space 21 through the previously mentioned upper openings 24 is seen. Then, in turn, an air filter 33, a humidifier 34, a heating device 32 and a dehumidifier 35 follow. It is clear from the figure that these devices form a closed channel which, with its one end, opens into the subject 31 and with its other end joins the upper openings 24 in the limitation of the slot-shaped room 21. This ensures that after the treatment of the air in the just mentioned organs are started, no untreated air is mixed into the air supplied to the slit-like space 21.

Although all these organs appear in the figure, the invention in its simplest form is applicable only with the use of the organ 30 for the direct supply of air to the slit-like organ 21. In the embodiment shown, the subject 31 is in its lower part in the restriction 11 towards the room 10 arranged with openings 12 through which air passes into the subject 31.

The figure also shows a ventilation duct 26 connected

a fan means 27 to connect the room 10 with the surroundings. Thereby, it becomes possible to carry out any necessary complementary exchange of air between the room 10 and the surroundings.

The figure also shows a boundary wall 42 placed in the subject 31. The boundary wall 42 is used in the application examples where the subject 31 cooperates with more than one wall, and where several walls are designed with gap-like spaces 21.

Up to the upper limit of a closed room, there is always a layer of air that is warmer than the air further down in the room. According to the application example of the invention shown in the figure, the heat energy in this air layer is taken care of by air from the relevant layer being supplied to the slit-like space 21 through the upper openings 24 by means of the device 30. In the embodiment example of the invention shown in the figure, hot air is sucked into the subject 31 through the openings 12 in the upper boundary of the room and then passes in turn through the dehumidifier 35, the heating device 32, the humidifier 34 and the air filter 33 to then pass through the device 30. Of these listed devices, the simplest embodiment only the organs 30. In this simple embodiment, the air is thus led directly from the subject 31 or alternatively directly from the warm air layer under the room's roof to the slit-like room 21.

From the openings 24, the air continues down through the slot-like space 21, below which part of the air is deflected out through the air-distributing layer 29 to the insulation material 28, while the rest of the air continues down along the entire wall to the lower openings 23 and through these out into the space 10 like by the floor of the room. The sought-after countercurrent isolation has thus been realized.

An obvious advantage besides the considerably improved insulation of the room is the combination of heating, air improvement and cell division of a building which the invention makes possible. From the description it appears that each room and in certain cases even parts of the room constitute a separate unit which of course prevents the device according to the invention from spreading fire, smoke or gases between adjacent rooms.

In addition to the above description, the invention is also apparent from the subsequent patent claims.

Claims (9)

1. Device for counteracting heat flow through a wall (20) which delimits a mainly closed room (10) with a temperature that deviates from that of the surroundings, at the same time that the wall parallel to and close to its limiting surface (22) on its warm side is arranged with a gap-like, mainly closed space (21) separated from the just-mentioned limiting surface by means of a mainly airtight layer (41) and separated from insulating material (28) arranged in the direction towards the cold side of the wall, by means of an air-distributing layer (29), characterized in that the slit-like space in the lower part of the wall is connected by means of one or more openings (23) to the space outside the wall's limiting surface on the warm side of the wall, and that the slit-like space in the upper part of the wall is connected by one or more openings (24) with a means (30) for preferably continuous supply of air to the slot-like space, whereby air passes through the slot-like space (21), during which part of it is deflected out into the insulation material (28) through the air-distributing layer (29), while remaining air from the slit-like space is led directly to and out through the lower openings (23). 2. Device as stated in claim 1, characterized in that the slit-like space (21) is equipped with organs (25), e.g. spacers, ribs, fiberglass fabric etc., to disturb the air flow and cause turbulence in it. 3. Device as stated in claim 1 or 2, characterized in that the space outside the limiting surface (22) of the wall (20) on the warm side of the wall is constituted by the closed space (10). 4. Device as stated in claim 3, characterized in that the body (30) for supplying air is connected to a mainly closed compartment (31) which is connected to the upper limit (11) of the room (10) and is connected to the room by one or several openings (12). 5. Device as specified in claim 4, characterized in that one or more heating devices (32) are arranged in connection with the subject (31). 6. Device as specified in one of claims 3-5, characterized in that an air filter (33) and/or a dehumidifier (35) and/or a humidifier (34) is arranged in connection with the wall's slit-like space (21) or the closed compartments (31) in connection with the upper limit of the room (10) in order to clean the air which is supplied to the slit-like room (21). 7. Device as stated in claim 3, characterized in that the wall (20) is designed with a channel (26) for air exchange between the room (10) and the surroundings, and that a fan (27) is preferably arranged in connection with the channel to regulate the air exchange between the room and the surroundings. 8. Device as specified in claim 5, characterized in that the heating means (32) simultaneously constitute the room's lighting fixture. 9. Device as specified in claim 1 or 2, characterized in that the wall's limiting surface (22) on the warm side of the wall faces away from the closed space (10).