NL8400351A - Insulating space below ground floor - by insulation material on bottom below floor and against side walls of space, possibly in foil - Google Patents

Abstract

The arrangement is intended for heat-insulating an underfloor (1) space (2) below ground floor level. Insulation material (12) is placed as a layer on the bottom (3) below the floor (1) and against the side walls (4) of the space. This may be granular (13) material, e.g. polystyrene. The material may be banked-up in a slope against the side walls (as shown) or placed in spaced defined by vertical boards adjacent to these walls. The material may, alternatively, be contained in bags, possibly filled in situ, or may be made into elements consisting of (e.g. polythene) foil envelopes contg. polystyrene, mineral wool or glass wool, possibly filled under vacuum or pre-compressed before placing in the space.

Description

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INSULATION OF A ROOM, AND AN ISPLATION ELEMENT

The present invention relates to a method for insulating a space located under a floor, in which insulating material is applied in the space.

Such a method is known, and has the object of limiting heat loss towards the ground and consists, for example, of insulating a crawl space under a floor, in which insulating material is applied in the crawl space against the floor. Such a method of insulating a crawl space has a number of drawbacks. For example, by this way of insulating in the crawl space, the temperature will drop, so that the relative humidity in the crawl space increases, which increases wood rot and corrosion of pipes present in the crawl space. Another drawback is that the application of the insulating material is a particularly labor-intensive process, while when the insulating material is placed between the floor bearing beams, these beams form thermal bridges, along which heat is dissipated. Finally, it is also recommended that central heating pipes located in the crawl space be insulated.

The object of the invention is to provide a method of the type stated in the preamble, in which the above-mentioned drawbacks are avoided or reduced as far as possible.

This is achieved according to the invention in that insulating material is provided of the space on a bottom situated opposite the floor and against walls extending between the bottom and the floor. Thus, the heat transport from the room is limited, so that the temperature in the room will thereby increase, and will often assume a temperature which is substantially equal to that of the room located above the floor. As a result, the relative humidity in the room decreases, so that wood rot and the above-mentioned thermal bridges occur much less. In addition, insulating material need not be provided around 35 central heating pipes.

8400351 S 'Aj - 2 -

If the insulation material consists of granules, the insulation material can be placed as a slope against the walls or a plate can be arranged at a distance from at least one wall and a space located between the wall and the plate 5 can be filled with granules of insulation material. the method of isolation is particularly inexpensive, in which, if one has to be in the room, the grains are pushed aside and put back in place when they leave the room.

If insulating material containing envelopes are applied, or if insulating material is applied in the form of form-retaining elements, a particularly simple insulation according to the invention is achieved in another way.

15 If the insulating material containing casings resp. the elements are brought into space in the compressed state, the insulating material can also be introduced into the spaces via narrow passages, the compressed state preferably being achieved by an underpressure with respect to atmospheric pressure in the envelopes or within the fleece to build. If the insulating material consists of mineral wool, for example rock wool, preferably of glass wool, the advantage is achieved that these materials in compressed condition often have sufficient flexibility, whereby maneuvering in narrow passages is considerably improved.

Finally, the invention relates to a packaging of substantially airtight material surrounding the insulating material. Optionally, the package is characterized by means for connection to a vacuum source.

Mentioned and other features will be elucidated on the basis of a number of exemplary, non-limitative exemplary embodiments, on the basis of the accompanying drawings.

35 In the drawings represent; Fig. 1 shows a cross-section of a crawl space located under a floor, insulated according to a first exemplary embodiment of the invention; Figures 4, 3 and 4 each show a variant of a different embodiment of the isolation of a crawl space; fig. 5 shows a cross-section corresponding with fig. 1 of a method for bringing granular insulating material into a crawl space; Fig. 6 shows an insulating element provided with an airtight packaging; Fig. 7 shows the insulating element shown in Fig. 6 in a compressed state; and FIG. 8 another element in a compressed state.

Fig. 1 shows a space 2 located under a floor 1, which on the other hand is bounded by walls 4 extending between the floor 1 and a floor 3 opposite the floor 1, which rest on a foundation 5 and consist of two, through a cavity 6 separated walls 7 and 8. The floor 1 is supported by girders 9. On these girders 9 hang pipes 11, for example central heating pipes, from members 10.

The space 2 is insulated with insulating material 12 in the form of granules 13, for example ground polystyrene.

With the insulating material 12, only the bottom 3 and the walls 4 of the space 2 are insulated. In the first exemplary embodiment, the grains 13 of insulating material 12 are laid against the walls 4 as a slope.

By this method of isolation, the heat transfer to a bottom 14 is limited, so that the temperature in the space 2 rises, and the relative humidity decreases. It is thus possible to forgo the insulation of the pipes 11. Due to the smaller sizes associated with this insulation.

30 heat transport to the bottom 3, it will assume a lower temperature, and function as a condenser, so that the relative humidity in the crawl space becomes lower.

If use is made of vapor-proof insulating material, evaporation of moisture from the bottom 3 will decrease, reducing the need to ventilate the space 3 and it is possible to completely or partially block ventilation grids 15.

In the exemplary embodiment shown in Fig. 2, 8400351 - 4 - also used insulating material 12 consisting of granules 13. To insulate the wall 4, a plate 16 is arranged at a distance from this wall, which extends up to or extends at the bottom 3. The space 17 located between the wall 4 and the plate 16 is filled with granules 13, so that the walls 4 are also insulated in this case.

The use of insulating granules 13 offers the advantage that if one has to enter the space 2, only the granules 13 must be removed over part of the bottom 3, while when leaving the space 2 the granules 13 are removed with the aid of can be returned to their original position with a simple ironing or raking movement.

It is advantageous if the plate 16 also consists of a form-retaining insulating material, for example a polystyrene plate.

Fig. 3 shows a third exemplary embodiment of insulating a space 2 situated under a floor 1, in which case insulating material 12 containing insulating material 12 is arranged against the walls 4 and placed on the bottom 3 in this case. If bringing casings 18 formed with insulating material 12 into space 2 is inconvenient or laborious, it is possible that the casings 18 in space 2 can be filled with insulating material 12, for instance with a device shown in Fig. 5.

Fig. 4 shows a fourth exemplary embodiment of insulating a space 2 located under a floor 1, in which in this case insulating material 12 is applied in the form of form-retaining elements 19.

FIG. 5 shows a device 20 for applying insulating material 12 into space 2. The device 20 consists of a conveying member 21, for example a pump, with which granules 13 of insulating material 12 finished in a container 32 through the flexible hoses 23 and 24 in the room 2 35 are sprayed. It is possibly possible that the hose 23 is connected to an insulating granule 13 in situ generating unit 33.

As has already been mentioned with reference to Fig. 3, 8400351-5, casings 18 can optionally be filled with the device 20 in the space 2 with insulating material 12.

Pig. 6 shows an insulating element 25 comprising insulating material 26, the insulating material 26 being surrounded by a package 27 of substantially airtight material, for example polyethylene. The package 27 is provided with means 28 for connection to a vacuum source 29, for example a vacuum pump. By applying a vacuum, an underpressure is applied within the package 27, so that the insulating material 26 is compressed. If stone wool is used as an insulating material, compression up to 60% of the original shape is possible, while if glass wool is used, compression up to 40-30% of the original shape is possible, while the material remains reasonably flexible. . The compressed state is shown in Fig. 7. To insulate the space 2, for example as shown in Figs. 3 and 4, the insulating element 25 can be brought into space 2 in the compressed state, after which it is simply pierced of the package 27 the underpressure is released and the element 25 expands into its expanded form. It will be clear that instead of the element 25, the insulating material 12 containing insulating material 12 can also be used. Because no insulating material 25 is applied in the space 2 against the floor 1, an operationally safe space is created, because if, for example, plumbers have to work with welding equipment, direct contact is not possible between the hot gases rising from the welding equipment and a surface that rises against the floor applied insulation.

FIG. 8 shows an element 40 of insulating material 41 surrounded by a fleece 42. After the fleece 42 was placed around the insulating material 41, the element 40 was compressed and in this condition the fleece 42 was sealed to form the weld 43. After application the gas-tight web of the element 40 in the space 2 can be pierced and the insulating material 41 swells within the web to its original volume.

It will be understood that with the help of the work 8400351; In accordance with the invention it is particularly simple and little labor-intensive to insulate crawl spaces under existing floors in existing homes. A working time of 2 approximately 0.04 man-hours per m is achievable.

\ 8400351

Claims (17)

Method for insulating a space located under a floor, wherein insulating material is applied in the space, characterized in that insulating material extends from the space on a bottom situated opposite the floor and against walls extending between the bottom and the floor is applied. Method according to claim 1, characterized in that the insulating material consists of granules. 3. Method as claimed in claim 2, characterized in that the insulating material is placed on the walls as a slope. Method according to claim 2, characterized in that at a distance of ten. at least one wall a plate is applied and a space located between the wall and the plate is filled with granules of insulating material. Method according to claim 4, characterized in that the plate comprises insulating material. 6. Method according to claim 1, characterized in that insulating material-containing envelopes are applied. Method according to claim 6, characterized in that the casings are filled with insulating material in the space. 8. Method according to claim 1, characterized in that insulating material is applied in the form of form-retaining elements. Method according to claim 8, characterized in that the elements are surrounded by a fleece. 10. Method according to claim 6 or 9, characterized in that the insulating material-containing sheaths resp. the elements are brought into space in a compressed state. 11. A method according to claim 10, characterized in that the compressed state is achieved by applying an underpressure to atmospheric pressure in the casings or within the web. 8400351 - 8 - Method according to claim 10, characterized in that the compressed state is achieved by insulating material or material incorporated in an envelope. compress an element surrounded by a fleece, and then compress the casing resp. sealing the fleece in a gastight manner. Method according to claim 10, 11 or 12, characterized in that the insulating material consists of mineral wool, for example rock wool, preferably glass wool. 14. Method according to claims 1-12, characterized in that the insulating material consists of polystyrene. Insulating element, comprising insulating material, characterized by a packaging of substantially airtight material surrounding the insulating material. Insulating element according to claim 15, characterized in that the packaging is provided with means for connection to a vacuum source. Insulating element according to claim 15 or 16, characterized in that the insulating material is mineral wool, for example rock wool, preferably glass wool. 8400351