FI57641C - VAEGGELEMENT FOER BYGGNAD FOERSETT MED ETT VAERME- OCH VENTILATIONSROERSYSTEM - Google Patents

Description

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The patent is registered by (44) (44) Nlhtivtlulp ^ on). kuullu.lutoun pvm._

Pmtent- och registarttyralaan AmSkan utltgd och utUkrlfwn publkurad 30.09.80 (32) (33) (31) Pyydetty «tuolkuut — Begird prlorhet 17.09.75

France-France (FR) 7528U85 (71) Bouygues, 381, avenue du General de Gaulle, 92 Clamart, France-France (FR) (72) Felix Nouailhac, Paris, France-France (FR) (7 * 0 Oy Kolster Ab (5I +) Wall element for building, equipped with ventilation and air conditioning piping - Väggelement för byggnad, försett Raed ett värme- och ventilationsrörsystem

The present invention relates to a wall element and in particular to an element with heating and air conditioning piping into which fresh air is taken from the outside air, after which it is heated and then blown into the interiors formed by said elements.

The building element according to the invention is characterized in that it comprises an electrically operated mixed heating system comprising basic heating and additional heating, the basic heating system comprising heating cables embedded in a mass of good thermal inertia placed between the element inner wall and the housing enclosed in the element. a vertical duct for ducting the elements to each other and conveying the used warm air, and a second duct connected to the first duct inside the element and closed at its upper end and provided with an outdoor air intake connection and an air outlet connected to the inside of the building.

According to one embodiment of the invention, the housing is a metal tube with a rectangular cross-section, which is divided into two channels by an intermediate and heat exchange wall.

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The building element according to the invention can be advantageously applied in the construction industry, because this element can be used to heat fresh air taken from the outside air, while recovering some of the calories of warm air used in different levels and floors of the building and thus saving heating energy.

Other features and advantages of the invention are illustrated in the following description of an embodiment of the element in question. It is given by way of example only and is not intended to limit the invention in any way. Reference is made to the accompanying drawing, in which Figure 1 is a horizontal section of an element according to the invention, and Figure 2 is a section along the line II-II in Figure 1.

The same components are denoted by the same reference numerals in both figures.

In Figures 1 and 2, the building element is denoted by the number 10. The element 10 has a wall 12 lined in the usual way with a hard resin cast in the wall 12. The element is equipped with an electrically operated mixed heating device with both a basic and auxiliary heating system. The basic heating system comprises heating lines 14 embedded in a mass having good thermal inertia. It is in turn placed between the inner wall 18 of the element and the housing 20 placed on the element. The auxiliary heating system again comprises a material wall or thermal cloth 21 placed between the outer surface of the element and the wall 12 at the top of the plate.

The wall 12 of the element is made of a material which has a high thermal insulation coefficient and which is also mechanically strong enough. In this case, for example, a polyvinyl chloride, polyurethane, polystyrene or also phenol-based porous material can be used. It can be supplemented with various light materials, e.g. glass, blown clay, clay shale, etc. Gypsum whose acidity has been neutralized and which has also been dried by special treatment can also be used as the wall material of the element.

The resin cladding reinforcement of the element is selected from materials used as ordinary layer materials, glass fibers and fabrics, asbestos fibers of vegetable origin or metal or artificial fibers.

The mass 16 of the basic heating system is a material with good thermal inertia. lia, e.g. concrete, which also contains a ceramic material.

The housing 20 comprises a first vertical channel 22 for connecting the various elements and a second channel 24 connected to the channel 22 inside the element.

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The line 22 is connected at its lower end to the corresponding line 26 of the element 28. The element 28 is then located immediately below the level 1 layer 54. The upper end of the wire 22 is connected to the corresponding wire 50 of the element 52. The element 52 is located in the plane 56 above the plane 54.

The fastening of the element 10 to the respective elements 28 and 52 takes place by the respective hook structures 59 and 40. In this way a uniform flue is formed, which is formed from a plurality of wires 22 and is integrally connected to the building element. Po. the chimney is thus intended to conduct warm, used air from the humid spaces (kitchens, bathrooms, toilets) on every level of the building. The used air is collected in the vertical direction by conventional chimneys, the draft of which is directed to the lower part of the building and is distributed in the basement floor, then further directed to each element of the first level (floor). The used air can thus be transferred to the roof or terrace of the building in the flue formed by the ducts 22 in the elements by means of exhaust fans.

The housing 20 is made of a metal tube of rectangular cross-section made of galvanized or metallized steel sheet. This housing tube is divided into two conduits 22 and 24 by an intermediate and heat exchanger wall 42 made of a ribbed plate, for example aluminum.

The upper end of the second line (channel) 24 is closed by an airtight and refractory barrier structure 44 and a sound attenuating device (not shown).

The line 24 has e.g. an air inlet connection 46 located at the bottom of the element and communicating with the outside air, and an air outlet 49 located at the upper end of the element and again communicating with the interiors formed by the elements 10.

It can be seen from Fig. 1 that the air inlet connection 46 extends from the outside of the element 10 to a recess 50 »made in the element and which can also be used as a revolving hatch body po. in the window of the layer (layer) element below the element.

In particular, the element 10 according to Fig. 1 also has a door cover 52 and a transverse beam 54 above the recess 50.

It should be noted that the air inlet can be arranged in other ways and further, that it can, for example, be directed directly to the outer surface of the element.

As can be seen from the figures, the used air moving in the direction of the arrows F (air circulation then takes place in the flue row formed by the first ducts of the first ducts of each element) heats the fresh air coming from the outside into the element, circulating each element in the second duct in the direction of the arrows G. This air is then discharged inside the building from the opening 48 of the upper part of the element 10 after the heat exchange has taken place with the used air at the full height of the element.

Calculations have shown that by varying the circulation rate of the used air and the diameter of the pipes, the "new" air can be heated to about + 14 ° C at an outdoor temperature of -7 ° C. Used air with a temperature of + 20 ° C in the basement network can be derived for a terrace or roof at a temperature of approx. + 16 ° C.

It should also be noted that the "new" air duct 24 is interposed between the used air duct 22 and the heat body of the element, so that it (24) also recovers some of the calories of the heat body when feeding them inside the building.

The length of the first channel 22 corresponds exactly to the height of the element and has the necessary fastening and sealing devices (not shown in the figures) at each end, so that it is perfectly connected to the respective upper and lower elements.

The basic heating system associated with the element is regulated as a single unit; saturation at night to obtain a temperature of + 12 ° C with an outdoor temperature of -5 ° C. The heating takes place with a one-piece part placed in a hole in the element, which comprises a structure formed by heating lines 16 embedded in the mass 16 of the element 10.

Each element can be provided with a pipe network of a suitable size for the purpose in question.

When casting an element for this purpose, an electrical junction box with its connectors can be arranged together with a vertical pipe, so that the basic heating elements can be branched in series.

The auxiliary heating system can be 1. adjusted separately by means of a thermostat based on the ambient temperature *

Additional heating is provided by using the already mentioned thermal material 21 in the element. This thermal fabric, which is connected to the electrical network via an outdoor air thermostat, radiates heat over its entire surface and thus distributes the heat evenly throughout. For this purpose, a thermal material with an electrical power of 200 to 600 W / m is preferably used, so that its surface temperature does not exceed 60 ° C.

The thermal material is preferably placed at the top of the element. Under no circumstances should it be placed on top of the basic heating element, as this will disturb its balance.

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The auxiliary heater has an overheating protection device.

The simplest solution is to make a horizontal protrusion on the inner surface of the element, so that the occupant of the room cannot place the furniture against the heating surface, but there is at least 6 cm of space between the furniture and the element for air circulation.

Alternatively, when manufacturing the element, thermal switches (capillary-two-metal structure) dimensioned for a temperature of + 18 ° C are placed on the right edge of the thermal material.

As shown above, some of the calories in the heating systems, i.e. the basic heating system and the auxiliary heating system, are recovered by the duct 24 and directed indoors, so that the entire heating surface of the element according to the invention has a virtually unlimited thermal insulation factor.

It should also be noted that the invention is by no means limited to the structure described above, but also relates to structural variations within its scope.

Claims (7)

1. A wall element for a building, equipped with heating and air-conditioning piping, in which fresh air is taken from the outside air and then heated and then blown into the interior formed by these elements, characterized in that it comprises an electrically operated mixed heating system comprising basic heating and auxiliary heating. , the basic heating system comprising heating cables (14) embedded in a mass (16) with good thermal inertia interposed between the inner wall (18) of the element (10) and the housing (20) embedded in the element, the housing (20) again comprising a first vertical channel (22) for ducting the elements together and conveying used warm air, and a second duct (24) connected to the first duct (22) inside the element and closed at its upper end and equipped with an outdoor air intake (46) and an air outlet connected to the inside of the building ( 4 8). Element according to Claim 1, characterized in that the housing (20) is made of a rectangular metal pipe and is divided into two channels (22, 24) by an intermediate and heat exchange wall (42). Element according to Claim 2, characterized in that the metal tube is made of galvanized or metallized steel sheet. Element according to Claim 2, characterized in that the partition wall (42) is a ribbed plate made of aluminum. Element according to one of Claims 1 to 4, characterized in that the housing (20) has sealing fastening devices (38, 40) at each end. Element according to one of Claims 1 to 5, characterized in that the upper end of the second duct (24) has an airtight and fireproof closing device (44) and a sound-absorbing device. 6 57641 Element according to one of Claims 1 to 6, characterized in that the air intake connection (46) of the second duct (24) is arranged in the lower part of the element (10) and in that the air outlet (48) of this second duct is arranged at the top of the element.