FI90914B - Radiator - Google Patents

Description

90914 Radiator

The invention relates to a radiator for mounting on a wall of a building forming the outer wall of a building, the radiator comprising a corrugated convection plate attached to its rear surface and a housing deeply fitted to said rear surface with a deep side gap between the radiator and the wall. air-permeable, the housing 10 being adapted to be fitted tightly to the fresh air duct to be formed through the wall, the radiator further comprising means for directing fresh air entering the housing first downwards and only then upwards to be removed from the upper side of the housing.

15 Ventilation in residential buildings, especially in detached houses, today usually takes place in such a way that supply air flows uncontrollably through slots in doors and windows and ventilation valves fitted to walls close to the ceiling, while 20 air from apartments is more effectively vented through the building's top extractors. .

Since the fresh air flowing inside the building has to be heated during the cold seasons, it would be desirable for this air to be as well heated as possible before it spreads inside the building, thus avoiding drafts, energy loss and incomplete ventilation due to the mixing of cold and warm air. As a result, radiators with an air heating housing or similar arrangement have been developed, which are described, for example, in GB patent 1,431,671, DE 35 45 648, FI 16463 and 28531, FI 76204 and FI 76204. in patent application 884081.

FI patent publication 16463 discloses a solution according to the preamble of claim 1, in which the air to be heated is forced in a detachable partition partitioned between the radiator and the wall to pass first through the wall-side chamber and then up through the radiator-side chamber.

However, a detachable housing of this type is not a good enough solution, as it does not make good use of the heat radiating from the battery, even in the preferred embodiment described in this patent publication. In addition, such detachable enclosures are impractical and costly.

The object of the present invention is to eliminate the above-mentioned drawbacks from the solution disclosed in FI patent publication 16463 and to improve in particular the type of radiator with a substantially smooth front and rear surfaces of the body part in a simple manner so that the air entering the room from the fresh air duct is heated as efficiently as possible. behind before it flows into the room.

This object is achieved by a heat radiator according to the invention, characterized in that said air guide means consist of a convection damper and a closing plate arranged at the top of the housing, extending tightly between the convection damper and the rear surface of the housing. to run downwards in a space adjacent to the outer surface of the convection damper on the radiator side, and that the lower surface of the housing extends below the lower edge of the convection damper, allowing forced air to flow upwards and finally outward from the upper side of the housing in the ducts delimited by the radiator and its convection damper.

The invention is based on the idea of utilizing a convection damper located on the rear surface of the radiator body part or placed therein for airflow control, whereby the fresh airflow entering the room becomes preheated in the most efficient way, thus the solution is very simple and thus also cost-effective.

At its simplest, the inlet housing can consist of 5 two sheet metal side walls and a bottom, which are fastened, for example, by spot welding to the rear surface of the radiator. The radiator according to the invention can be a water radiator, an electric radiator, an oil-filled electric radiator, i.e. its operating principle can be of any known type.

Preferably, a plate-like air filter is arranged inside the housing, which is arranged in a space delimited by the convection damper and the rear surface of the housing at a distance from the rear surface of the housing.

The invention will now be described in more detail with reference to the accompanying drawing, in which Figure 1 shows a radiator according to the invention seen from behind, Figure 2 shows the radiator 20 according to Figure 1 seen from the side and mounted on a wall, Figure 3 shows a radiator according to the previous figures seen from above, Figure 4 shows section IV - IV, and Fig. 5 shows a section V-V of Fig. 2.

The radiator shown in the drawing comprises a corrugated convection damper 3 fixed to the rear surface 2 of its body part 1, a supply air housing 4 fixedly fitted to the rear surface 2 and the convection damper 3, a shut-off plate 5 mounted on the convection damper 3 and the housing 4 and an inlet 30 arranged in the housing 4.

The inlet housing 4 comprises airtight side walls 6 and 7, an airtight base 8 and a side part 9 of the cover part with air holes 10 facing away from the radiator, instead being completely open. The depth of the inlet housing 4 is substantially the size of the gap between the rear surface 2 of the radiator body 1 and the wall 4 W and extends in the height direction from both the upper and lower edges of the convection damper 3. Instead, the width of the housing 4 may vary. Attached to the edges of the housing 4 away from the radiator 5 is a seal 11 surrounding the rear of the housing 4, which, when the radiator is mounted on the wall W, seals the housing 4 on the wall W.

The closing plate 5 is fixed to the upper part of the housing 4 at a distance from the cover part 9 and extends into the area of the convection damper 3, the rear surface of the housing 4 and the side walls 6 and 7 of the housing 4 and 10 closely following the corrugations 3a of the convection damper 3. Most preferably, the closing plate 5 is located as close as possible to the upper edge of the convection damper 3. It is also advantageous to fit a seal 12 to the edge of the closure plate 5 away from the radiator.

The above-mentioned, preferably plate-shaped supply air filter 13 is arranged in the area delimited by the shutter plate 5, the housing walls 6 and 7 and the housing bottom 8 and is spaced from the rear surface of the housing 4 and substantially attached to the outer folds 3a 20 of the shutter plate 3. Thus, a supply air chamber 14 is formed between the rear surface (wall W) of the housing 3 and the filter 13, and supply air ducts 15 are formed between the filter 13 and the corrugations 3a of the convection damper 3. There are second supply air ducts 16 between the rear surface 2 of the radiator body and the corrugations 3a of the convection damper

Figure 2 shows the radiator mounted on a wall W, in which case a fresh air duct A connected to the outside air, which is necessary for the operation of the invention, is formed in the wall W, which must of course be located at the open rear side of the supply air housing 4. The housing 4 is mounted firmly against the wall W so that the air coming along the duct A can only flow into the room through the housing 4. Radiator mounting members and connections are not shown separately in the figures, as they are known to those skilled in the art. In addition, l · 90914 5 they depend on the radiator type; in this case, it is not limited to any particular type of battery, but the battery is shown as a schematic general model. However, from the point of view of cleaning the housing, it is advantageous for the radiator 5 to be of the bottom-hinged, fold-down type.

When using the radiator according to the invention, the fresh supply air coming along the fresh air duct A first flows into the supply air chamber 14 of the supply air housing 4, from there through the filter 13 to the first supply air ducts 15 of the radiator, which air flows downwards in the lower part of the housing 4. along the supply air ducts 16 upwards and finally preheated out of the housing 4 through the air holes 10 of its cover part 9 into the room. The air entering the room thus stays in the housing 15 long enough and travels there for as long a distance as possible, always utilizing the heat radiated by the radiator and its convection game 3 in an efficient manner before flowing into the room. The air coming out of the housing 4 heats up even more as it passes the surfaces of the radiator. In this way, the air entering the room is immediately heated to such an extent that there is no draft on the floor surface and thus no large temperature differences between the floor and the ceiling of the room. The flow described above is illustrated in Figure 1 by arrows.

The invention has been described above by means of only one preferred embodiment thereof. However, a person skilled in the art can make a deviating radiator in many respects in many respects without departing from the basic idea of the invention, which is defined in the appended claims.

Claims (3)

6 A radiator for mounting on a building wall (W) forming an exterior wall of a building, the radiator comprising a corrugated convection damper (3) attached to its rear surface (2) and a radiator-wall fixed to said rear surface (2). a deep supply air housing (4) with a slot, the upper side and the side of the radiator away from the radiator, the housing (4) being adapted to fit tightly to the fresh air duct (A) formed through the wall (W), the radiator further comprising means for fresh air entering the housing (4); for directing air from the housing first downwards and only then upwards to be removed from the upper side of the housing, characterized in that said air control means consist of a convection damper (3) and a closing plate (5) arranged at the top of the housing (4) (4) between the rear surface tightly with the corrugations of the convection damper (3a) the air entering the housing (4) is initially forced downwards in a space adjacent to the outer surface of the convection damper (3) on the radiator side, and that the lower surface of the housing (4) extends below the lower edge of the convection damper (3), allowing the forced air to flow in the channels (16) delimited by the inner surface of the blade and its convection damper (3) upwards and finally outwards from the upper side of the housing (4). Radiator according to Claim 1, characterized in that it is provided with a plate-shaped supply air filter (13) which is arranged in a space delimited by the rear surface of the convection damper (3) and the housing (4) at a distance from the rear surface of the housing. Radiator according to Claim 1 or 2, characterized in that the side of the housing 35 (4) facing away from the radiator is completely open. I! 90914 7