NL1005320C1 - Air feed system for buildings - Google Patents

Abstract

The wall components (3) at the location of the connection with the floor components (4) are provided with air chambers (6), in which the wall channels (7) issue and to which the floor channels are connected. The floor components are of the standard type, the floor channels forming recesses (5) in them, which at the point of connection with the wall components are provided with connecting fittings. The connecting fittings incorporate a union component which at one outer end issues in to a floor channel and at the other outer end issues in the corresponding air chamber. The union component (14) comprises a flexible hose. The floor components at the location of the connection with the wall components are provided with a reinforcement component.

Description

, 1 · EN 43.131-Vo / yy Air supply system

The invention relates to an air supply system for buildings; in particular, the invention relates to such a system for use in residential and renovation construction. Therefore, the designation 5 "building" is to be understood in a broad sense hereinafter. In addition, air supply also means ventilation.

Air supply systems for buildings are known in many kinds. It has already been proposed to direct hot air by means of channels formed in floors to those locations, where the hot air is required for heating purposes. It has also already been proposed to pass air through such channels for cooling or ventilation purposes. However, such a system has hitherto led to insurmountable constructional problems. Either constructive restrictions had to be put up for sale, or concessions had to be made to the air discharge speed and air quality.

The object of the invention is to provide an air supply system for buildings, wherein these drawbacks are eliminated in a simple, but nevertheless effective manner.

For this purpose, the air supply system for buildings according to the invention is characterized by wall elements provided with wall channels and adjoining floor elements provided with floor channels, the wall elements being provided with air chambers at the location of the connection with the floor elements, into which the wall channels open and on which the floor channels are plugged in.

By connecting suitable floor channels of floor elements to an air chamber of a wall element, the air, such as hot air for heating, can easily be guided to the desired locations. At the location of the connection between the floor elements and the wall elements, the air chambers form a distribution chamber, from which the air supplied by means of a wall channel can be distributed over the floor channels connected to the relevant air chamber.

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The air supply system according to the invention is extremely versatile and can easily be adapted to the desired situation. In this way, optimum requirements can be taken into account, such as the amount of air to be displaced per room, the location of outflow openings, etc., without having to make concessions to the air discharge speed and the air quality.

According to a preferred embodiment of the air supply system according to the invention, it applies that the floor elements are standard floor elements, the floor channels consisting of structural recesses formed in these standard floor elements, which are provided with connection provisions at the location of the connection with the wall elements. The standard floor elements are already provided with construction recesses in a manner known per se for constructional reasons (strength, weight, material saving). These constructional recesses will now function as the floor channels for the passage of air. It is only necessary during the construction of the building to connect the 20 structural recesses to the air chamber of the wall elements by means of connection facilities. Such a connection facility can be installed at the construction site, but also already during the manufacture of the floor element concerned.

25 The floor elements can consist of various materials. Floor elements made of concrete are known; but plastic, such as polystyrene, is also eligible, or natural materials, such as wood.

The connecting provisions may comprise a connecting element which opens at one end into a floor channel and at the other end opens into the relevant air chamber. Such a connecting element, for instance a flexible hose, therefore ensures the correct connection between the air chamber and the relevant floor channel. When such a connection provision is to be provided starting from an already completed standard floor element, the top of the relevant floor element is partly removed and the connecting element, for example a flexible hose, is inserted there into the floor channel. The end of the connecting element protruding from the floor channel is connected to the air chamber.

When a connecting element is fitted in the floor element in the manner described above, it is preferable to use a reinforcing element at the location of the connection between the floor element and the wall element, since by creating the access to the floor channel, the construction of the floor element there is locally weakened. Such a reinforcing element can consist of a grid placed on the top surface of the floor element, which can then for instance be provided with a passage opening for the connecting element. The grid can be anchored in the floor element, and preferably has recesses that can cooperate with protrusions of the wall elements. Correct mounting is thus considerably simplified.

The use of connecting elements contributes to the versatility of the air supply system according to the invention. Starting from an air chamber, any desired floor channel can be connected to the air chamber by means of such a connecting element, so that starting from a standard floor element with a large number of floor channels arranged therein, the air arriving in the air chamber can be conveyed to a desired location through a suitable floor channel. lined.

As mentioned earlier, the floor elements often consist of concrete. In order to prevent unwanted substances from the concrete from entering the indoor climate of the building to be heated by means of (hot) air guided by hot air duct, it may be preferable to provide the floor ducts with an internal coating. This concerns in particular the floor channels that are used as air conduction channels.

Incidentally, the floor channels on the outflow side will generally be provided with outflow grids, or other outflow provisions, in order to ensure a good outflow of air. Such outflow grids can be included in a grate chamber which is a widened extension of the relevant floor channel and leads to a decrease in the outflow speed of the air.

It is further preferred that the air chambers are provided with connection nozzles for connection to the floor channels. By a suitable choice of the number of connection nozzles per air chamber, the desired number of floor channels can be connected to an air chamber. When use is made of the aforementioned connecting elements, for instance in the form of flexible hoses, these connecting elements connect to the connection nozzles.

Furthermore, with regard to the wall elements, it is structurally preferred that these consist of two boundary walls and channel parts opening into the air chambers therebetween. In general it is sufficient if one duct part opens into an air chamber. The duct parts communicate with an air source of any known type. With the aid of such a construction, the wall elements 20 can be quickly constructed, while nevertheless a light and strong construction is obtained. The air chamber (s) can easily be placed in the most suitable location between the two boundary walls.

It has been noted above that the floor elements can consist of different materials, such as concrete. This also applies to the boundary walls, but it is easily possible to construct them from wood, in particular if, as mentioned above, they are built from two boundary walls.

When the wall elements and floor elements have been connected to each other in the manner described above and the connections between the air chambers and the relevant floor channels have been manufactured, the floor elements can be finished in a suitable manner, for instance by applying a covering floor thereon. . These are known per se techniques and require no further explanation.

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The invention further relates to a floor element for use in an air supply system according to the invention, as well as a wall element for use in an air supply system according to the invention.

The invention will be explained in more detail below with reference to the drawing, in which an embodiment of an air supply system according to the invention, for instance designed as a heating system, is shown.

Fig. 1 schematically shows an embodiment of the heating system according to the invention, and FIG. 2 shows, on a larger scale, a section through a detail of the system shown in FIG.

The hot air heating system according to the invention described by way of example is intended for heating spaces in buildings, in particular houses. What follows, however, also applies without a doubt to a system for cooling or ventilating spaces. Fig. 1 shows part of a building, with two adjacent spaces 1 and 2 visible. The spaces 1 and 20 2 are separated by a wall element in the form of a partition 3. The configuration and mutual arrangement of spaces in a building can of course be varied in many ways.

The spaces 1 and 2 are bounded on their underside by a, in this case, only continuous floor element 4. This floor element 4 is a standard floor element in which construction recesses 5 are formed in a manner known per se. It is known, for example, that such structural recesses are used to reduce the weight thereof without affecting the structural strength of the floor elements.

The partition wall 3 is, as will also be seen later with reference to Fig. 2, substantially hollow. At the location of the connection of the partition wall 3 to the floor element 4, an air chamber 6 is provided, into which a wall channel 7 opens. This wall channel 7 is connected to a hot air source (not shown in more detail) and extends in the hollow partition wall 3.

The wall duct 7 can branch between the hot air source (not shown) and the air chamber 6 and (for example via wall duct 8) also lead to other air chambers. In this manner, hot air can be supplied to any desired location of air chambers through a suitable choice of wall ducts.

It is essential for the inventive idea that at least some of the structural recesses 5 are used as floor channels for the passage of hot air from the air chamber 6 to a desired location, such as an outflow grille 9, which in the drawing only room 2 is shown. It is not shown in detail that in order to decrease the outflow velocity of the air, the grate 9 is located in a widened grate chamber.

Referring now to FIG. 2, the manner in which a structural recess 5 is connected to the air chamber 6 in its function as a hot air floor channel is explained.

Visible is a part of the partition wall 3, which in the embodiment shown consists of two boundary walls 10 and 11 between which the wall channel 7 extends and between which, at the location of the connection with the floor element 4, the air chamber 6 is formed.

Fig. 2 furthermore shows a constructional recess 5 formed in the floor element. At the location of the partition wall 3, this structural recess 5 is opened at the top of the floor element 4, so that a passage 12 is created. In order to compensate for the weakening of the floor element 4 caused by this, a reinforcement element 13 designed as a grid is placed over this passage 12. Recesses, not shown, can be formed therein which cooperate with projections of wall element 3, which are not shown either, so that correct mounting is simplified. The reinforcing element 13 is generally anchored in the floor element 4. A connecting element 14, in the embodiment shown as a flexible hose, is passed through a suitable opening in this reinforcing element 13. One end of this connecting element 14 opens into the constructional recess 5, while the other end of 5 connects the connecting element 14 to a connecting mouth 15 formed in the air chamber 6.

It is noted that, in the embodiment shown, the structural recess 5, which is to serve as a floor channel for the passage of hot air, is provided with an inner lining 16. This inner lining 16 must prevent the passing hot air from damaging components. the material that makes up the floor element 4 (for example concrete) transports it to the spaces to be heated. The connection between the end of the connecting element 14 and the floor channel 5 and the covering 16, respectively, is tightly sealed by means not shown.

When a connection between an intermediate wall 3 and a floor element 4 is to be produced in accordance with Fig. 2, the top side of the floor element 4 is first removed at the desired connection location to form the passage 12. After the reinforcing element 13 has been fitted, the partition wall 3 is placed, whereby a flow connection is formed between the air chamber 6 and the respective structural recess 5 by means of a connecting element 14. It is of course possible that the passage 12 is already formed at the manufacturer of the floor element 4; however, it is also possible to form the passage 12 only at the construction site.

After the connection according to FIGS. 2 to 30 has been made, a per se known finishing floor 17 can be applied to the floor element 4.

The air supply system according to the invention is extremely versatile. Because use can be made of all constructional recesses 5 in the floor elements 4, it is possible to supply the air to at least any desired location. For this purpose only a suitable constructional recess 5 has to be connected to the air chamber 10053. 0 8 6. The placement and size of the air chamber 6 can be adjusted to this.

In the embodiment shown in Fig. 1, there is a single floor element 4 which extends under both adjacent 5 spaces 1 and 2. In order to supply air to both spaces, it is of course also possible to use one and the same constructional recess 5 in which two connecting elements 14 according to Fig. 2 are arranged, which are then opposed to the passage 12 to two opposite each other. direct oriented branches of the respective structural recess 5. In Fig. 1, on the other hand, two connecting elements 14 lead to two different constructional recesses 5 situated next to each other.

The air chambers 6, as previously noted, can be placed at any suitable location. Although in the shown embodiment the air chamber 6 is intended for supplying air to two adjacent rooms 1 and 2, it is also possible, through a suitable placement, that air is supplied to more than two rooms.

The partition wall 3 can be made of different materials. Wood is mentioned as an example, whereby a light, but nevertheless strong construction is obtained.

The invention is not limited to the embodiment described above, which can be varied in many ways within the scope of the invention as defined by the claims.

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Claims (14)

1. Air supply system for buildings, characterized by wall elements provided with wall channels and adjoining floor elements provided with floor channels, the wall elements being provided with air chambers at the location of the connection with the floor elements, into which the wall channels open and on which the floor channels are connected. System according to claim 1, characterized in that the floor elements are standard floor elements, the floor channels consisting of structural recesses formed in these standard floor elements 10, which are provided with connection facilities at the location of the connection with the wall elements. 3. System according to claim 2, characterized in that the connecting provisions comprise a connecting element which opens at one end into a floor channel and at the other end opens into the relevant air chamber. System according to claim 3, characterized in that the connecting channel consists of a flexible hose. System according to any one of the preceding claims, characterized in that the floor elements are provided with a reinforcing element at the location of the connection with the wall elements. 6. System according to claim 5, characterized in that the reinforcing element consists of a grid placed on the top surface of the floor elements. System according to claim 6, characterized in that the grid has recesses for co-operation with projections of the wall elements. 8. System according to any one of the preceding claims, characterized in that the floor channels are provided with an internal covering. System according to any one of the preceding claims, characterized in that the floor channels on the outflow side are provided with outflow grids. 100532 ° System according to any one of the preceding claims, characterized in that the air chambers are provided with connection nozzles for connection to the floor channels. 11. System as claimed in any of the foregoing claims, characterized in that the wall elements consist of two boundary walls and channel parts opening between them in the air chambers. System according to claim 11, characterized in that the boundary walls consist of wood. Floor element for use in a heating system according to any one of the preceding claims. Wall element for use in a heating system according to any one of claims 1-12. 1005320