FR2485588A1 - Thermally insulating building partition - contains inclined strips extending between two spaced parallel panels - Google Patents

Abstract

The thermally insulating partition for use as a wall, blind or solar collector comprises strips (4) extending between two vertical, parallel panels (P1,P2) which are downwardly directed from the warmer panel (P2) to the cooler panel (P1). The strips are spaced so that the lines (5) perpendicular to the warmer panel (P2) from the point at which each strip (4) extends partially overlaps or at least meets the point at which an adjacent strip contacts the cooler panel (P1). The strips (4) are downwardly inclined at 35 - 70 degrees and pref. 45 - 60 degrees to the perpendicular line (5) extending from the warmer panel (P2).

Description

 The subject of the invention is a simple structure having a thermal insulation effect, which can be used as it is by way of a wall, partition or even a roll-up and roll-up blind, or which can be incorporated into a wall, a partition, a blind so that it is only part of it.

 A structure according to the invention comprises two substantially vertical spaced walls and internal lamellae which each extend from one wall to the other wall with a downward inclination from the hottest wall to the coldest wall, these slats being spaced such that the orthogonal projections on the hottest wall of the successive slats partially overlap or, at least, join and extend.

 In one embodiment of the invention, the inclination of the lamellae is chosen from the range from 350 to 700, preferably from 450 to oye0, this value of the inclination being the angle formed by each lamella with a plane. fictitious led perpendicular to the hottest partition at the junction of said strip with this partition.

 To better understand the characteristics and advantages of the invention, a description will now be given of an exemplary embodiment. Reference is made to the attached single figure which is a sectional view of part of a structure according to the invention.

 A structure according to the invention comprises a wall. PI and a wall P2, spaced apart, which are vertical or, at least, substantially vertical; by this is meant within the meaning of the invention that the walls PI and P2 can deviate by + 200 relative to the vertical. The two walls PI and P2 do not have to be strictly parallel; one could be vertical and the other inclined to the vertical.

 The nature of the material which makes up the walls PI and P2 is not imposed by the invention. As the structure of the invention has a marked thermal insulation effect and it is specially used for this result, it is clear that the walls PI and P2 must be produced using any of the materials usually used for the construction of walls, partitions, etc ...

The walls need not be
PI and P2 are hard and / or rigid. For example, the structure of the invention can be used to constitute a blind, or part of a blind. In this case, the walls PI and P2 can be made of flexible material (textile, non-fabric, skin, etc.)
Neither is it necessary that the two walls PI and P2 are identical; they can differ from each other by their nature, by their thickness or even by their profile.

 Regardless of the type or type of the walls PI or P2, according to the invention, in the interval 3 which separates them there are internal lamellas 4 which each extend from one wall to the other wall with an inclination . If it is assumed that the wall PI is exposed to a lower temperature ti and the wall P2 has a higher temperature t2, the slats 4 are inclined downward from the warmer wall P2 until they meet with the colder wall PI. This arrangement is favorable to poor heat transmission from the wall P2 to the wall P1, therefore to a low loss through the structure in the direction P2 towards PI.

 The internal lamellae 4 are made of any material, preferably of material which is poor in heat conductor, and better still, of insulating material. it is preferable that the strips 4 are parallel to one another and spaced regularly, but this condition is not absolute. What is important is that the orthogonal projections on the hottest wall P2 of the successive strips 4 (projections symbolized by thin lines 5 in the figure) overlap partially or at least join and extend. of each strip 5 of 450 with respect to a fictitious plane perpendicular to the partition P2, passing through the junction line of this strip with this partition (and therefore containing the thin line 5 of the figure) is a satisfactory inclination to which corresponds a certain spacing of the lamellae 5. In some cimor! stances, it may be necessary to space the lamellae 5 further apart; they can then be tilted so that the angle defined above has a value of approximately 600. Two fins 4 'thus inclined are shown in phantom in the figure. In practice, you can choose the tilt angle between 350 and 700.

When the walls PI, P2 are rigid, the lamellae 4 can also be rigid. They are thin and
walls preferably made of insulating material. When the / P1, P2 are lowered, the slats 4 are also flexible, so that the entire structure can between wound on a roller, like a blind, and unwound at will.

The arrangement and the inclination of the lamber 4 are not necessarily constant over the entire height of the walls PI and P20 In certain parts the lamellas 4 can be in greater quantity, with an inclination of 400 for example, and in other parts they may be in smaller quantities, with an inclination of 600 for example, the condition relating to their projections defined above being always respected
The position of the slats 4 is not necessarily immutable. The slats 4 can be mounted with a possibility of pivoting so as to be able to reverse the direction of their inclination. We already know many mechanisms for operating parallel slats by rotating them; it is therefore unnecessary to describe them here.

This inversion is useful when the temperature t1 of the wall P1 is likely to become higher than the temperature t2 of the wall P2. This situation is that of a wall of a building heated in winter and exposed to the sun in summer.

 The structure of the invention can also be used on solar collectors. One of the disadvantages of these is known to be the heat loss experienced by the receiving interior surface during use or when it is less exposed to the sun. With the example in the figure, the wall P7 and the lamellae are made of transparent material while the wall P2 is a bottom wall which internally presents the receiving surface of the sensor.

In such a case, it is preferable to reduce the number of lamellae as much as possible, so we will adopt lamellae 4 'inclined to 600.

 To fix the ideas, we will now give figures taken from structures produced in accordance with the invention.

 With a structure composed of two space walls of 20 centimeters and inclined slats of 600, it has been found that the thermal resistance to the passage of heat in the direction F2 towards P1, as explained above, is equivalent to that of a layer 12.5 cm of glass wool. However, it is known that an air layer having the same thickness (20 cm) but devoid of any lamella has a thermal resistance equal to that of a layer of only 2 cm of glass wool.

 In addition, when the temperature ti becomes higher than t2 (case of the sunshine of a wall in winter) the heat can pass from PI to P2, therefore from the outside to the inside, while the insulation by the glass wool slows the passage of heat in both directions.

 With a solar collector close to the vertical, having the structure defined above, it was found that the losses by convection are reduced to 29 W / cm2 and by radiation to 87 W / cm2 instead of 105 W / cm2 and 185 W / cm2 respectively for a conventional solar collector. Experiments have shown that for an outside temperature of 100 ° C. and a temperature of the sensor of 600 ° C., the structure of the invention improves the performance by 50 h compared to a single glazed sensor and by 2 / o compared to a double sensor glazing. The structure of the invention is particularly advantageous by the reduction in losses from the sensor to the outside during periods of non-sunshine (at night and on cloudy days).

 As has been shown, the structure of the invention is capable of being produced according to numerous variants and for numerous various uses to which it is easy to adapt it from the indications given during the description.

Claims (6)

 1) Structure with thermal insulation effect comprising two walls (P1, P2) spaced apart substantially vertical, characterized in that internal strips (4) each extend from one wall to the other wall with a downward inclination from the hottest wall (P2) towards the coldest wall (PI), these slats being spaced so that the orthogonal projections on the hottest wall (P2) of the successive slats (4) partially overlap or, at less, join and extend.  2) Structure according to claim 1, characterized in that the inclination of the slats is chosen in the range from 350 to 700, preferably from 450 to 600; this inclination being defined by the angle formed by each strip (4) with a fictitious plane led perpendicular to the hottest partition at the junction of said strip with this partition.  3) Structure according to claim 2, characterized in that the slats are inclined by 450.  4) Structure according to claim 2, characterized in that the slats are inclined by 600,  5) Structure according to claim 1, characterized in that the walls and the lamellae are made of flexible material allowing the winding of the structure.  6) Structure according to any one of claims 1 and 4, characterized in that one of the walls and the lamellae are made of transparent material and the other wall is the bottom wall with interior surface receiving a solar collector.