NL1009885C2 - Production of an insulating element, e.g. for a roof structure, by application of foam material to a bottom plate, forming channels in the foam and placing ribs in the channels - Google Patents

Abstract

Insulating element is formed by applying a layer of foam material (2) to a bottom plate (1), forming channels (3) in the foam material, and inserting ribs (4) in the channels. ALSO CLAIMED is the insulating element formed by the process above, a house roof structure built up of such insulating elements, and a device for continuous manufacture of such elements by spraying foam material on a bottom plate carried on a conveyor and forming the channels in the sprayed foam layer.

Description

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Short indication: Method and device for manufacturing an insulating element, thus obtained insulating element and roof construction provided with one or more insulating elements.

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The present invention relates to a method for manufacturing an insulating element in which a bottom layer is supplied to a conveyor and a foaming material is sprayed onto the bottom layer in a spraying station. The present invention further relates to a device for manufacturing an insulating element, which device comprises a conveyor, a member for supplying a bottom layer and a spraying station for applying a foaming material to the bottom layer. More particularly, the present invention relates to an insulating element obtained according to such a method and / or device, as well as to a roof construction provided with one or more insulating elements.

A method for manufacturing insulating elements is known from Dutch patent 1001549. According to the method known therefrom, a bottom layer or carrier web is supplied to a lower conveyor, wherein a "foaming material is sprayed on the carrier web in a spraying station and immediately after the spray station supplies a web of coating material on the foaming material and between the foaming material and an upper conveyor extending substantially parallel to the lower conveyor.

In addition, simultaneously with the carrier web and / or the web of I.

coating material on its side facing the foaming material Ξ supplied a web of material formed by an open fleece. The drawback of such a method is that it is often difficult to form foam on the carrier web. Since the chemical reaction r 30 between the foaming constituents already takes place in the spraying station during the mixing thereof, it is desirable that the foaming reaction continue on the carrier web in a controlled manner, so that a foam with reproducible structure is formed. If no additional measures are taken, this will lead to insulating elements with varying quality, which is also undesirable in practice. In addition, as a result of the uncontrolled foam-forming reaction, stress will build up in the carrier web, so that the insulating element thus produced will not have a flat carrier web. An additional work operation, such as the application of compression slats, will have to take place to counteract the warping of the carrier web. Another drawback is that the carrier web will have a different temperature in summer than in winter, so that the insulating elements manufactured according to such a method will have a varying quality depending on the time of the production period, which in practice is undesirable.

The object of the present invention is therefore to overcome the aforementioned drawbacks of the prior art.

Another object of the present invention is to provide a method and apparatus for manufacturing insulating elements that allow insulating elements to be produced with a high production rate and constant quality.

Another object of the present invention is to provide a method of manufacturing insulating elements in which the percent failure is minimized.

Another object of the present invention is further to provide a roof construction in which one or more insulating elements 20 are arranged, which can be stored for a long time without the carrier track being warped.

The method as mentioned in the preamble is characterized according to the present invention in that immediately after the foaming material is sprayed on, the underlayment thus provided with foaming material is subjected to a microwave treatment.

The present inventors have conducted extensive research into the foaming process and have found that the foaming can be reproducible and controllable by rapidly heating the foaming material applied to the underlay, especially using microwaves. The exothermic foam formation reaction on the substrate is thus initiated immediately after mixing in the spray station of the foam components to obtain a foam with trapped gas bubbles, the size of the gas bubbles being kept within the desired limits by the addition of microwaves. As a result, regardless of the time of production, an insulating element with a constant foam quality 1 009885 • "'1 3 is obtained.

Polyurethane foam obtained by the condensation of isocyanates (-NCO) with alcohols is preferably used as a suitable foam material.

The reaction of an alcohol compound and a diisocyanate compound in the presence of microwaves is known per se from US patent 5,471,037. According to this US patent only the preparation of a polyurethane prepolymer under the influence of microwaves is described, in addition, the continuous production of insulating elements using a conveyor is not mentioned.

International patent application WO 95/29951 relates to the production of a composite foam from reusable foam parts and a small amount of polyurethane binder, whereby such a mixture is foamed under the influence of, for example, microwave energy. The continuous production of insulating elements using a conveyor is not known from this publication. ^

Although International Patent Application WO 91/12391 20 and U.S. Patent 3,216,849 disclose the use of microwaves for making foam materials for use in insulating elements, the particular process steps of the present a) -c) are known. not known from this. Moreover, no further details regarding residence time and assets are mentioned in either of the aforementioned 25 publications.

The preparation of polyurethane foam under the influence of microwave energy is further known from European patent application ~ 0 371 309. The polyurethane-based elastic foam material thus prepared comprises a mixture of a polyol, diisocyanate and melamine which is cured under microwaves. The continuous production of an insulating element using a conveyor r is not known from this publication. i

US Patent 5,567,258 relates to the joining of two glass plates between which a sealant based on a thermosetting resin, such as a polysulfide or polyurethane sealant, is applied around its edges. Curing or melt-bonding of the sealant is accelerated by applying microwave energy, the plates being passed through a tunnel with microwave generators. The present application, on the other hand, relates to the manufacture of insulating elements consisting of a bottom layer provided with foam material, which elements differ substantially from the glass plates described in this US patent 5,567,258.

The method of the present invention is carried out continuously, it is preferred that the residence time for subjecting to the microwave treatment be between 2-20 seconds, the power being at least 200 watts. Thus, a high production rate is ensured while the foaming reaction is controllable within precise limits.

Moreover, it is preferable that the microwaves 15 are supplied to the foam-forming side of the bottom layer. The microwaves have a limited penetration depth and it is therefore desirable to dose the microwaves at the place where foaming takes place, i.e. on the bottom layer.

In a particular embodiment of the present method, it is preferable that the bottom layer is preheated before a foaming material is applied to it, in particular using an infrared lamp. According to such an embodiment, a substrate with a constant, controlled temperature is supplied to the spraying station at any time of the year so that the foaming reaction takes place under precise conditions.

The present invention further relates to a device for manufacturing an insulating element, which device comprises a conveyor, a member for supplying a bottom layer and a spraying station for applying foaming material to the bottom layer, which device is the present invention is characterized in that a microwave means is disposed downstream of the spray station. By downstream it is understood that first the foaming material is applied to the bottom layer via the spraying station, after which the bottom layer thus provided with foaming material is subsequently supplied to the microwave element.

According to a particular embodiment of the present device, it is preferred that the microwave device has a power of at least 200 watts. A power of less than 200 watts is undesirable because such a power does not guarantee a high production speed.

It is further preferable to place the microwave member so that the microwaves are supplied to the foam-forming side of the substrate. According to such a construction, optimum use is made of the microwave energy, so that a complicated construction, as known from the above-discussed US patent 5,567,258, can be dispensed with.

Moreover, it is preferred that the present device be provided with a means for heating the bottom layer, which element is preferably located upstream of the spraying station. Such a preheating member, preferably an infrared lamp, ensures that the bottom layer, regardless of the season of production, has a constant temperature, so that the foaming material to be applied to the bottom layer always experiences a bottom layer with the same temperature.

The present invention further relates to an insulating element obtained according to the method of the present invention.

Furthermore, the present invention relates to an insulating element manufactured in the present device.

The insulating element obtained according to the present invention is particularly suitable for use in roofs of I.

houses. Since an insulating element with constant foam quality and a flat bottom layer is obtained, the application of so-called pressure battens, as additional work, is not required, as a result of which the present insulating elements can be applied directly on the construction site. Moreover, because the dropout percentage is low, the I

production costs per insulation element are favorably influenced, which is a considerable advantage over the method described in the Dutch patent Γ 35 1001549.

The present invention will be explained in more detail below with reference to 1 009 8 85: t6. The present

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however, the invention is by no means limited to such special examples.

Figure 1 is a schematic representation of a prior art device 5.

Figure 2 is a special embodiment of the device according to the present invention.

Figure 3 schematically shows a device according to the present invention.

The reference numbers used in the figures apply to all figures. ·

The prior art device shown in figure 1, as is known, for example, from Dutch patent 1001549, comprises two feed rollers 2, 9 for bottom layer 1 and top layer 10 respectively. In a spray station (not shown) a foaming material is placed on bottom layer 1, after which the assembly: of bottom layer 1, foam material 11 and top layer 10 is fed to a pressing member 6 ". According to such a device, an insulating element having an uneven foam structure is obtained, in addition to the risk of warping of the bottom layer 1.

Figure 2 shows a special embodiment of the device according to the present invention. Feed roll 2, for instance provided with a bottom layer 1 of chipboard, is unwound via guide rollers 3, bottom layer 1 being supplied to a pressing member 6. At the same time, feed roller 9, for instance provided with a top layer 10 of chipboard, is supplied to pressing member 6 via guide rollers 3. Rollers 12, 13 are so-called stock rollers which are used when feed rollers 2, 9 are completely unwound. A foam material 11 is sprayed onto the substrate 1 via a spraying station 4 in which the foam components 30 are mixed together. Located downstream is a microwave member 5, which 5 ensures that the exothermic foam reaction takes place directly and in a controlled manner. Although not shown in Figure 2, in a special embodiment it is desirable to preheat bottom layer 1 with, for example, an infrared lamp, before the foam components are applied to bottom layer 1 via spray station 4. After the assembly 10 OS 8 85 ~ Ί •> 7 of bottom layer 1, foam material 11 and top layer 10 has been supplied to pressing member 6, it is possible to produce separate elements in unit 7, for example by trimming and cutting to length. Finally, insulating elements 8 are obtained.

Figure 3 shows an apparatus corresponding to figure 2 according to the present invention, however the application of the top layer 10 using feed roller 9 is omitted. The bottom layer 1 is thus unwound from feed roller 2 and is guided via spray rollers 3 to spray station 4. The foam material 11 sprayed on spray station 4 10 is then subjected to a treatment of microwaves in member 5. After being subjected to microwaves, the assembly of bottom layer 1 and foam material 11 is fed to a press 6, then optionally in a unit 7 for post-treatment, for example, straightening and sawing to length, finally obtaining insulating elements 8. In a special embodiment it is possible that the bottom layer 1 is first preheated, for example by an infrared amp, after which the thus preheated bottom layer 1 is supplied to the spraying station 4. The insulating elements 8 obtained according to the present invention are in particular suitable for use in roofs of houses.

Claims (11)

2. Method according to claim 1, characterized in that the residence time for subjecting to the microwave treatment is between 2-20 seconds, the power being at least 200 Watt. 3. A method according to claims 1-2, characterized in that the microwaves are supplied to the foam-forming side of the bottom layer. Method according to claims 1-3, characterized in that the bottom layer is preheated before the foaming material is applied to it. 5. Method according to claim 4, characterized in that an infrared lamp is used. 6. Device for manufacturing an insulating element, comprising a conveyor, means for supplying: a bottom layer and a spraying station for applying a foaming material to the bottom layer, characterized in that located downstream of the spraying station a microwave oven is placed. Device according to claim 6, characterized in that the microwave element has a power of at least 200 watts. 8. Device according to claims 6-7, characterized in that the microwave element is located on the foam-forming side of the bottom layer. 9. Device as claimed in claims 6-8, characterized in that a means for preheating the bottom layer is placed upstream of the spraying station. 10. Device according to claim 9, characterized in that an infrared lamp is used. II. Insulation element obtained according to the method 'ï' '' ·· '· f 1 ·. .. - described in claims 1-5. 12. Solation element manufactured in a device described in claims 6-10. Roof construction provided with one or more insulating elements, characterized in that one or more insulating elements according to claims 11-12 are used. '^' Λ ‘= -