NL8500778A - INFLATION UNIT FOR AN AIR HEATING INSTALLATION. - Google Patents

Description

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Short designation: Blow-in unit for an air heating system.

The present invention relates to a blow-in unit for an air heating installation in order to supply heated air into a room.

In modern airtight homes where more and more air heating is used, the heated air is often blown in near the floor of the room. This means that the air supply pipes in a room to be heated must be extended from the ceiling to near the floor. These air supply pipes are then externally provided with an insulating coating, after which the pipes are hidden from view by building a casing around them which is provided with the same surface coating as the wall of the room. The air supply pipe then opens into the room via an outflow grille 15 arranged in this casing.

It will be clear that this construction is complicated and expensive.

The object of the present invention is to provide an air heating installation blow-in unit which is easy to manufacture and can be mounted in a simple and quick manner.

These objects are achieved according to the invention in that the blow-in unit is formed by an elongated hollow tube made of sheet metal, which is placed with at least one side against a wall of the room and extends from the ceiling to the floor of the room, which duct is sealingly connected at the ceiling to the air supply pipe for heated air and is provided with one or more outflow openings near the floor, the side of the duct lying against the wall of the room being provided with an internal insulating coating.

This construction has the advantage that the duct itself forms an extension of the air supply pipe and leads the heated air from the ceiling to the outflow openings located near the floor. Providing the side of the tube placed against the wall of the room with an 85 0 0 7 78 - 2 - internal insulating coating prevents heat from being transferred to the wall on the one hand, while at the same time this coating serves to damp down noise occurring in the air line, which may for instance come from an air supply fan.

A particular advantage of the present construction is that the walls of the tube facing the room are heated by the heated air, which heat is emitted to the room by means of radiation. It has been found that such a source of heat radiation is experienced as particularly pleasant by the persons present in the room and thus provides a considerable improvement in the comfort in the room.

According to the invention, the operation of the tube as a heat radiation source can be increased still further, in that at least one of the walls of the tube facing the room is provided with means for increasing the heat-transferring surface within the tube.

Preferably, the means for increasing the heat transfer surface are internal ribs or fins extending in the longitudinal direction of the sleeve. In this way, the heat transfer from the heated air to be blown into the walls of the tube is increased, so that a larger part of the heat is delivered to the room in the form of radiant heat.

In a preferred embodiment of the invention, the tube consists of a base plate provided with an insulating coating, which is fixed to a wall of the room, and a jacket to be connected to this base plate with a substantially U-shaped cross section . Because the tube consists of two parts to be joined together, it can be manufactured in a particularly simple manner.

In an effective embodiment of the invention, at least the side edges of the base plate lie at some distance from the wall and the jacket has at the ends of the two legs of the U facing end flanges, which, when mounted in space between the 85 0 0 7 7 8 - 3 base plate and the wall. In this way, the jacket can be fastened with a simple snap connection, so that a particularly simple and fast installation is possible.

In a special embodiment of the invention, the bottom open end of the tube ends at some distance from the floor and the outflow opening is formed by the gap present between the tube and the floor, whereby means are provided to extend the jacket in the longitudinal direction of the base plate. The heated air thus flows into the room via the gap present between the tube and the floor, whereby on the one hand an even inflow is ensured, and on the other hand the necessity for the provision of outflow grids is prevented.

The invention is further elucidated with reference to the drawing.

Fig. 1 schematically shows a perspective view of a blow-in unit according to the prior art.

Fig. 2 schematically shows a longitudinal section 20 of a blow-in unit according to the invention.

Fig. 3 is an enlarged cross-sectional view of the blow-in unit of FIG. 2.

Fig. 4 is a sectional view taken on the line IV-IV in FIG. 3, showing a detail of the blow-in unit, showing the connection of the blow-in unit to the air supply pipe opening into the ceiling.

Fig. 1 shows a conventional construction for blowing heated air into a room, in which the air supply pipe 1, shown in dashed lines, is extended from the ceiling 2 from 30 to near the floor 3. The air supply pipe 1 is covered with an insulating coating not shown in the drawing. and then the whole is hidden from view by a casing 4, which connects to the wall 3. The air supply pipe 1 is connected near the floor 3 to an outflow grille 6 arranged in the casing 4.

Fig. 2 schematically shows a longitudinal sectional view of a blow-in unit according to the present invention.

An elongate tube 8 made of sheet metal, which extends from the ceiling to the floor 5 and is placed with one side against the wall 5 of the room, is connected to the air supply pipe 7 opening into the ceiling 2. The side of the tube 8 lying against the wall 5 is provided with an internal insulating coating 9.

In the embodiment shown in Fig. 2, the duct 8 ends at some distance above the floor 3, so that a gap 10 is formed between the duct and the floor, through which the heated air can flow into the room. It will be clear, however, that the tube can also extend to the floor 3, in which case one or more outflow grids are arranged near the floor.

Compared to the construction shown in Fig. 1, the construction according to the invention has the advantage that it is considerably easier to manufacture and assemble, while the internal insulating coating 9 gives the advantage that it may propagate via the air supply line. sound can be effectively damped.

In addition, the blow-in unit according to the invention provides the advantage that the walls of the tube facing the room are heated by the heated air flowing through and emit this heat into the room by means of radiation. Thus, the blow-in unit according to the invention forms a heat radiation source in the room, which provides good compensation for the cold surfaces present in the room, such as windows. Such a radiation source is perceived as particularly comfortable by the persons present in the room and thus forms a good replacement for the otherwise usual radiation radiators.

In order to increase the heat transferring surface within the tube, the tube is provided with internal ribs or fins 11, which in the embodiment shown in Fig. 3 consist of a number of 85 00 7 78-5 corner profiles secured by spot welding.

As can be clearly seen in Fig. 3, the tube 8 is built up from a base plate 12, which is fastened to the wall 5 by means of bolts 13, and from a U-shaped cross-section jacket 14 to be connected to the base plate 5.

The base plate 12, which carries the insulating lining 9, has inwardly flanged end flanges 15 on both longitudinal edges. Then, in those places where the bolts 13 protrude through the plate, the base plate is provided with indentations 16, so that the plane of the base plate is some distance from the wall 5. The jacket 14 has flanges 17 at the ends of the legs of the U turned inwardly which can be mounted in the space between the base plate 12 and the wall 5 when mounted. grab. The jacket 14 can thus be attached to the base plate with a simple snap connection.

If necessary, the casing 14 can still be connected by means of bolt connections 18 to the end flanges 15 of the base plate 12 (see fig. 4). Such a connection is in any case necessary in the embodiment according to Fig. 2 where the outflow opening is formed by a gap 10 present between the tube and the floor.

The tube is moreover sealed with respect to the ceiling 2 by means of a rubber sealing ring 18. It will be clear that a large number of constructional variants are possible within the scope of the invention.

For example, the construction of the sleeve 8 and of the ribs or fins 11 may be of a different design as long as care is taken that part of the heat supplied by the air is supplied as radiant heat via at least one of the walls of the sleeve. is fed to the room.

85 0 0 7 78

Claims (6)

An air heating installation blow-in unit for introducing heated air into a room, characterized by: an elongated hollow tube made of sheet metal, placed at least on one side against a wall of the room and extending from the ceiling to the floor of the room extends, which tube is sealingly connected at the ceiling to the air supply pipe of heated air and is provided with one or more outflow openings near the floor, the side of the tube lying against the wall of the room being provided with a internal insulating lining. 2. Blow-in unit according to claim 1, characterized in that at least one of the walls of the tube facing the room 15 is provided with means for increasing the heat-transferring surface within the tube. 3. Blow-in unit according to claim 2, characterized in that the means for increasing the heat-transferring surface consist of internal ribs or fins extending in the longitudinal direction of the sleeve. 4. Blow-in unit according to one or more of the preceding claims 1-3, characterized in that the sleeve 25 consists of a base plate provided with an insulating coating, which is fixed against the wall of the room, and a base plate to be fitted with this base plate. connect jacket with a substantially U-shaped cross section. 5. Blow-in unit according to claim 4, characterized in that at least the side edges of the base plate 85 0 0 7 78 - 7 - lie at some distance from the wall and the jacket at the ends of the legs of the U face each other end flanges which, when mounted, engage the space between the base plate and the wall. 5 6. Blow-in unit according to claim 4 or 5, characterized in that the bottom open end of the tube ends at some distance from the floor and the outflow opening is formed by the gap present between the tube and the floor, wherein means are provided to fix the sheath in the lengthwise direction to the base plate. 85 30778