NL2034002B1 - Insulation board for use in the renovation of a sloping roof. - Google Patents

Abstract

EXTRACT The invention provides an insulation board formed in a mold for use in the renovation of a sloping roof. The insulation board is made of foam-like material such as expanded polystyrene and has an at least substantially flat inner side, an outer side, a bottom side, a top side and two parallel longitudinal sides. The insulation board comprises on the outer side at least one step which is suitable for a person wearing footwear to rest on.

Description

Short description: Insulation board for use in the renovation of a sloping roof.

Description:

The present invention relates to an insulation board for use in the renovation of a pitched roof. In such renovations, such as in terraced houses with a continuous uninsulated saddle roof extending over the entire length of the row of houses in question, it is known to remove the roof tiles, battens and battens in succession, exposing a wooden roof boarding. Insulation boards are then laid on the roof boarding and connected to the roof boarding with long screws that are screwed through battens onto the insulation boards and through the insulation boards and roof boarding into the purlins. The battens are then connected to the battens at right angles to the battens and roof tiles are applied to the roof. In particular at the time of applying the aforementioned long screws, the airtight finishing of seams between insulation boards, such as by applying polyurethane foam in these seams and at the time of applying the roof battens, it is necessary for the persons involved to lean on the sloping insulation boards and move over them both sideways and in the sloping direction of the roof. There is a risk that a person involved will slide down the insulation boards and be injured. This makes the work risky and labour-intensive. The latter is also more difficult if fewer personnel or at least fewer sufficiently skilled personnel are available. It is known to apply a friction-increasing layer to the outside of the insulation element or to provide a ladder against it in order to reduce the risk of the person involved slipping over that outside. Such measures do not always appear to be effective and/or convenient in practice. In general, the renovation work should preferably be completed as quickly as possible in order to limit the risk of leakage, for example in the event of sudden rainfall, but also to limit inconvenience to residents.

The aim of the present invention is to provide an insulation board, the use of which in the renovation of a sloping roof results in a reduced safety risk for the persons involved and in which the work required for the renovation can be carried out quickly and efficiently.

To this end, the invention provides an insulation board formed in a mold for use in the renovation of a sloping roof, which insulation board is made of foam-like material such as expanded polystyrene and has an at least substantially flat inner side, an outer side, an underside, a top side and two parallel longitudinal sides, whereby the insulation board comprises at least one step on the outer side which is suitable for a person wearing footwear to rest on. Where relative terms such as top side, underside, inner side, outer side, vertical or horizontal are used in the foregoing and hereinafter, reference is made to the situation in which the insulation board is used on a sloping roof.

The two main surfaces of the insulation board are located on the inside and outside. In the context of this description, a step should be understood as a support surface that is suitable for placing a foot with footwear on it so that the person in question can rest stably with that foot on the step. It is not required that the surface of the step is large enough to allow the entire sole of the footwear in question to rest on it. In practice, it is sufficient if only the front part of the footwear rests on the step, whereby the toe of the footwear can also rest against part of the insulation board. By designing the insulation board with at least one step, this step is available for the person in question to rest on with at least one footwear, such as a shoe or boot, after the insulation board has been applied to the sloping roof surface. In this way, the person concerned can be provided with stable support to carry out work such as typically sealing seams between adjacent insulation boards, and installing battens and then roof battens.

This not only benefits safety but also makes it possible to carry out the work efficiently and relatively quickly. The measure that the insulation board is formed in a mould also offers the advantage that there is a great deal of design freedom with regard to the design of at least one step.

In one embodiment, each step comprises a support surface that, viewed in vertical cross-section, includes an angle with the inside whose size is between 30 degrees and 90 degrees, preferably between 40 and 85 degrees and more preferably between 45 and 75 degrees. Such an oriented support surface is suitable for use with sloping roofs with common slope angles of between 20 degrees and 60 degrees.

The support surface may further be particularly suitable for support if the support surface has a vertical cross-sectional dimension of at least 2.5 cm.

In a further embodiment, the insulation panel comprises at least one recess on the outside with a lower recess surface that is located on the side of the recess that faces the bottom of the insulation panel and which lower recess surface is a support surface of a step.

In particular, sufficient space can be provided for a shoe if the recess has a dimension seen in a direction parallel to the longitudinal sides of the insulation board of at least 10 cm and/or where the recess has a dimension seen in a direction perpendicular to the longitudinal sides of the insulation board of at least 10 cm.

In one embodiment, the recess has two longitudinal walls opposite each other that extend, at least substantially, parallel to the longitudinal sides. The recess will thus not extend over the entire width of the insulation board. More specifically, the recess can have at least substantially a concave shape in two cross-sections that are perpendicular to each other and oriented perpendicular to the underside of the insulation board, so that the recess is at least substantially bowl-shaped. In this way, rainwater can be prevented from flowing from a recess in a horizontal direction to a neighbouring recess in a neighbouring insulation board. Furthermore, space can thus be provided between neighbouring recesses to provide support for a batten, preferably over the entire length thereof.

In a further embodiment, the recess comprises a further support surface that connects to the support surface on the side facing the underside of the insulation board. As the angle of inclination of a sloping roof becomes smaller, such a further support surface can provide suitable additional support for a person who is leaning on the step belonging to the recess in question.

Suitable additional support can be obtained in particular if the further supporting surface, seen in vertical cross-section, extends parallel to the inner side (3) or forms an angle (δ) with the inner side (3) the size of which is between 0 degrees and 20 degrees, preferably between 5 and 15 degrees and/or if the further supporting surface, seen in vertical cross-section, has a dimension (c) the size of which is at least 5 cm.

In embodiments that can be used efficiently, the insulation board comprises at least two steps located directly above each other and arranged in a row, which row extends parallel to the longitudinal sides of the insulation board and/or the insulation board comprises at least two steps located next to each other and arranged in a row, which row extends perpendicular to the longitudinal sides of the insulation board.

The centre-to-centre distance between two adjacent steps is preferably between 20 cm and 40 cm. Alternatively or in combination, it is also possible for the insulation board to comprise at least two steps that are arranged in a row, which row includes an angle with the long sides, the size of which is between 10 and 80 degrees, preferably between 30 and 60 degrees.

In order to be able to attach a batten to the insulation board in a simple, correct and reliable manner, the insulation board is in a further embodiment provided on the outside thereof with at least one groove which extends parallel to the longitudinal sides of the insulation board for receiving a batten in the at least one groove.

The said at least one groove can extend between two adjacent steps, so that the groove can accommodate and support a batten over its entire length, whereby the batten also extends above the relevant recess and is thus also suitable for attaching roof battens to it.

In general, a batten can be accommodated and supported over its entire length if a groove of the at least one groove extends over the entire dimension of the insulation board between the bottom and the top.

Alternatively or in combination, it is also possible for the insulation board to be provided with two or more grooves that are aligned with each other and extend parallel to the longitudinal sides of the insulation board for receiving a batten in the aligned grooves, whereby the aligned grooves extend within the width of a recess. In this way, when designing an insulation board, one is not limited by the presence of the recess as regards the positioning of grooves for battens.

In this case, it may be the case that at least one of the two grooves in line with each other ends in a recess. In this way, the relevant batten can extend partially or completely within the height of the recess.

In general, it can be advantageous if the insulation board is provided with at least one channel for the drainage of rainwater, which channel extends over the entire 5 dimensions of the insulation board between the bottom and the top.

Such a channel allows for controlled drainage of rainwater.

From a practical point of view, it may be preferable for the insulation board to comprise at least two steps arranged in a row, which row extends parallel to the longitudinal sides of the insulation board. When used, the steps then extend above each other, as in a staircase.

In the event that the insulation board has two grooves that are in line with each other, of which at least one ends in a recess as described above, it may be further preferred that the at least one groove ends in an adjacent recess at the opposite end thereof. The at least one groove in question connects the two recesses in question, as it were, which may be favourable for the drainage of rainwater, as will be discussed in more detail below. In the event that at least one groove is used for accommodating a batten, it may be advantageous if at least one recessed channel is provided in the bottom of at least one groove for the drainage of rainwater. In this way, the underside of the batten does not form an obstacle to the drainage of rainwater. Preferably, the at least one recessed channel is provided from the middle of the width of the associated groove. Normally, battens are provided with screws in the middle of their width for fixing the battens to the roof and for fixing roof battens to the battens. These screws could also form an obstruction in the recessed channels for rainwater drainage, but this risk is smaller if at least one recessed channel is provided from the middle of the width of the associated groove.

The latter risk is even smaller if two recessed channels are provided in the bottom of at least one groove, especially if these two channels are provided on the longitudinal edges of the bottom.

In the case of the application of at least one groove for receiving a batten as described above, it may also be preferable if protruding lugs are provided on the facing sides of the longitudinal sides of at least one groove for clamping a batten between them. The lugs can press the batten slightly into a zigzag shape, which results in improved clamping of the batten in the groove in question. For this purpose, it is advantageous if the lugs, viewed in the longitudinal direction of the groove, are provided alternately on the facing sides of the longitudinal walls of the at least one groove.

In a further embodiment, the insulation board is provided on its upper side with at least one raised support edge that extends parallel to the longitudinal sides of the insulation board to provide support for a roof batten, which support edge preferably extends over the entire dimension of the insulation board between the underside and the upper side. The raised support edge can thus replace a batten, which can accelerate the speed at which renovation of a roof can take place.

The top of the support edge is preferably higher than the top of at least one groove for receiving a batten so that the top of the batten can be at the same level as the support edge while the batten as received in the at least one groove extends partly above the top of the at least one groove. As a result, it is not necessary to provide a batten at the position of the support edge during renovation work.

In an embodiment that is practical from the point of view of manageability and logistics, the insulation board has a dimension seen in a direction parallel to the longitudinal sides of the insulation board, the size of which is between 30 cm and 150 cm, preferably between 60 cm and 120 cm, and/or the insulation board has a dimension seen in a direction perpendicular to the longitudinal sides of the insulation board, the size of which is between 50 cm and 240 cm, preferably between 80 cm and 120 cm.

The invention will be explained in more detail below by means of a description of a possible embodiment of an insulation board according to the invention with reference to the following figures:

Figure 1 shows an isometric view of an insulation board according to the invention;

Figure 2 shows the insulation board according to figure 1 in vertical top view;

Figure 3 shows cross-section II-III in Figure 2;

Figure 4 shows cross-section IV-IV in Figure 2;

Figure 5 shows cross-section V-V in Figure 2;

Figure 6 shows area VI-VI in Figure 2;

Figure 7 shows section VII-VII in figure 6 including a batten;

Figures 8a and 8b show perspective views of insulation boards according to the previous figures in combination with a water drainage system for draining rainwater to a gutter;

Figures 9a and 9b show perspective views of the top of the drainage system as applied in Figure 8b and the top of the drainage system as such, respectively.

Figures 1 to 7 show in various views, sections and details an insulation board 1 that is intended to be used in the renovation of a sloping roof. Insulation board 1 is made of expanded polystyrene (EPS), which is a recyclable material, and is completely formed in a mold. The relatively complex design of insulation board 1 on the outside 2, which is yet to be described, makes insulation board 1 very suitable for being formed in a mold. The material of insulation board 1 has a compressive strength that makes insulation board 1 suitable for being walked on. The compressive strength is, for example, higher than 160 kPa, such as 200 kPa.

Insulation board 1 has a rectangular, more specifically square, shape with the aforementioned outer side 2, an inner side 3, and four circumferential sides. More specifically, these four circumferential sides concern two longitudinal sides 4a, 4b that extend parallel to each other, a lower transverse side 5a and an upper transverse side 5b, which transverse sides 5a and 5b extend parallel to each other and also perpendicular to the longitudinal sides 4a, 4b. The length of the longitudinal sides 4a, 4b is approximately 115 cm and the length of the transverse sides ba, 5b is approximately 110 cm. Each of the peripheral sides is provided with a profile such as a rebate so that the peripheral sides of neighbouring insulation panels 1 facing each other can fit together well and the seam between the two neighbouring insulation panels 1 in question does not have a straight course in cross-section, which can be detrimental to the insulating effect of the insulation layer as formed by adjoining insulation panels 1 when used, as well as to the risk of leakage. The design of the insulation panel 1 at the location of the longitudinal sides 4a, 4b is such that when a longitudinal side 4a, 4b connects to a longitudinal side 4b, 4a of a neighbouring insulation panel 1, a support edge is formed at the location of that connection, the shape of which is the same as that of the support edge 31, to be discussed later, in the middle of the width of each insulation panel 1.

The inside 3 is completely or at least substantially completely flat. In the outside 2, four rows 6 are provided, each with four recesses 7. Each recess 7 has two longitudinal walls 8 that extend parallel to the longitudinal sides 4a, 4b.

Furthermore, each recess 7 is bounded by a lower recess surface 9 and an upper recess surface 10. Each of the recess surfaces 9, 10 forms a support surface for a person who rests on the respective support surface with footwear. The longitudinal walls 8 slope at an angle of inclination γ of approximately 50 degrees and taper towards each other within the length of the upper recess surface 10 in the direction of the lower transverse side 5a, whereby the relevant taper has an apex angle β (figure 2) of approximately 30 degrees. The longitudinal walls 8, on the other hand, run away from each other in the direction of the lower transverse side 5a within the length of the lower recess surface 9. The lower recess surface 9 and the upper recess surface 10 connect to each other at an angle δ of approximately 110 degrees and each also connect to the longitudinal walls 8. The dimensions of the recess surfaces 9 and 10 in the plane according to figure 4 are respectively approximately 4 mm and approximately 27 mm. The lower recess surface 9 includes an angle B with the inner side 3 of insulation board 1 of approximately 60 degrees. As a result, angle £ between the inner side 3 and the upper recess surface 10 has a size of approximately 10 degrees. The two middle recesses 7 of each row 6 have a length | of 28.5 cm, a width b of approximately 20 cm and a maximum depth d, where the recess surfaces 9 and 10 adjoin, of 3.5 cm. In general, the depth d is preferably not greater than 10 cm in connection with the effect that this depth has on the insulating effect of the insulation panel. The upper and lower recesses 7 of each row differ slightly in design from the two middle recesses, but also each have longitudinal walls 8 and recess surfaces 9, 10.

Each lower recess surface 9 forms a step for a person on which the person in question can rest with the toe of a shoed foot, or a foot with footwear such as a boot, while carrying out renovation work on a particular roof to be renovated, such as when installing battens and roof laths. In figures 4 and 5 the cross-sections are shown in an orientation in which they are applied to a sloping roof.

The angle of inclination a is typically between 20 degrees and 60 degrees. Depending on the size of angles a and B, in practice the lower recess surfaces 9 will only slope upwards or downwards to such an extent that the recess surfaces 9 are suitable to serve as a support surface for a step. As the angle of inclination a becomes smaller, in practice the upper recess surface will also actually serve as a support surface, whereby the person concerned will also find support on peak 19 at the upper ends of the lower recess surface 9 and of the upper recess surface 10 belonging to the adjacent lower recess 7.

Both between the two left-hand rows 6 and between the two right-hand rows 6, the insulation board 1 is provided on its outer side 2 with a continuous groove 21 which extends over the entire length of the insulation board 1 from the lower transverse side 5a to the upper transverse side 5b. The groove 21 has a depth of 1.5 cm and is intended to clamp a batten 22 (figure 7) therein. In order to promote the clamping of the batten 22 in the groove 21, the groove 21 is provided alternately with inwardly directed protruding lugs 25 on the facing sides of the longitudinal sides 26 of groove 21. Battens can be clamped in groove 21 and in doing so follow a meandering pattern between the lugs 25 to a limited extent.

The height of the battens is typically 2.5 cm, so that a batten 22 that is clamped into the groove 21 and rests against the bottom 23 of the groove extends above the groove 21. In the bottom 23 of the groove 21, more specifically at the two opposite longitudinal edges of the bottom 23, two recessed channels 24 are provided for the drainage of rainwater.

Between the two middle rows 6, the insulation board 1 is provided on its outer side 2 with a raised support edge 31 which extends over the entire length of the insulation board 1 from the lower transverse side 5a to the upper transverse side 5b. When used, the outer side of the support edge 31 is at the same height as the outer side of the battens 22 which are accommodated in the two grooves 21. In this way, not only the battens 22 but also the support edge 31 can serve as a support for the roof battens to be fitted transversely thereto.

Each row 6 further comprises a collection of aligned grooves 41, each extending within the width of the recess 7 of the row 6 in question. Insofar as the grooves 41 extend between the recesses 7 of the row 6 in question, these grooves 41 open out at their ends into either the upper recess surface 10 or the lower recess surface 9 of the recesses 7 in question. These recesses 41 are also intended to clampingly accommodate battens therein. The battens in question will of course extend floating above recesses 7 over part of their length. The bottoms of the recesses 41 are located at the same level as bottoms 23 of the continuous grooves 21. In practice, grooves 41 will mainly be used for recesses in the roof surface, such as for a skylight, or at the end of a roof surface.

As can be seen in figures 1 and 2, the bottoms of the recesses 41 also contain recessed channels 42 for the drainage of rainwater. The channels 42 in question allow drainage of rainwater under the influence of gravity, as can be seen from the cross-section according to figure 5, also of water that ends up in a recess 7 and also if the lower recess surface 9 slopes in such a way that water would otherwise remain in the bottom of the recess 7. One of the two channels 42 of each recess 41 forms part of a longer drainage channel 43 that extends over the entire dimension of the insulation board 1 from the top side Sb to the bottom side 5a. As can be seen clearly in figure 5, which is a cross-section at the location of the drainage channel 43 in question, the drainage channel 43 runs slightly undulating but continuously downwards.

The insulation boards 1 can also be used to advantage in combination with a water drainage system as shown in figures 8a to 9b. In figures 8a and 8b, two insulation boards 1a, 1b are provided on top of each other. When renovating a sloping roof with insulation boards 1, it may be that the original gutter is no longer usable because, due to the thickness of the insulation boards 1, it is no longer in the correct position. In that case, a new gutter 51 can be used, which is attached to the roof by means of brackets 52 and gutter batten 53. Gutter batten 53 itself is attached to the lower ends of battens 22 after the insulation boards 1 have been fitted to the roof and the battens 22 have been fitted to the insulation boards 1.

The water drainage system further comprises a number of, in this example one for each row 6, strips 54 of waterproof foil material. At their upper ends, the strips 54 are each provided with a profile 55 that is clamped into the horizontal seam 56 between the two insulation plates 1 shown. The design of the profile 55, which is for example made of a hard plastic, matches that of the seam 56 so that the profile 55 can be firmly clamped into the seam 56. Rainwater that flows downwards in particular via the drainage channels 43 belonging to the upper insulation plate 1b, will flow further over the connecting strip 54 upon arrival at the seam 56. At their lower ends, each of the strips 54 is attached to the outside of the gutter batten 53 and the water flows into the gutter 51. The strips 54 overlap each other on their sloping longitudinal sides and are connected, preferably liquid-tight, to each other and to the underlying battens 22 or support edge 53 at the location of that overlap.

After the strips 54 have been fitted as shown in Figure 8b, the battens are screwed through the foil material to the underlying battens 22. As shown in Figure 9a, the strips 54 fold in practice towards their substrate as they are formed by the outside 2 of the insulation board 1 in question.

Claims (27)

CONCLUSIONS 1. Insulating board (1) formed in a mold for use in the renovation of a sloping roof, which insulating board is made of foam-like material such as expanded polystyrene and has an at least substantially flat inner side (3), an outer side (2), a bottom side (5a), a top side (5b) and two parallel longitudinal sides (4a, 4b), the insulation board comprising at least one step on the outer side which is suitable for a person wearing footwear to rest on. 2. Insulation panel according to claim 1, wherein each step comprises a support surface which, viewed in vertical cross-section, includes an angle (B) with the inner side (3) the size of which is between 30 degrees and 90 degrees, preferably between 40 and 85 degrees, more preferably between 45 and 75 degrees. 3. Insulation panel according to claim 1 or 2, wherein the support surface in vertical cross-section has a dimension of at least 2.5 cm. 4. Insulation panel according to claim 1, 2 or 3, wherein the insulation panel comprises at least one recess on the outside with a lower recess surface (9) that is located on the side of the recess (7) that faces the bottom (5a) of the insulation panel (1) and which lower recess surface is a support surface of a step. 5. Insulation panel according to claim 4, wherein the recess (7) has a dimension (I) viewed in a direction parallel to the longitudinal sides (4a, 4b) of the insulation panel, the size of which is at least 10 cm. 6. Insulation panel according to claim 4 or 5, wherein the recess (7) has a dimension (b) viewed in a direction perpendicular to the longitudinal sides (4a, 4b) of the insulation panel, the size of which is at least 10 cm. 7. Insulation panel according to claim 4, 5 or 6, wherein the recess (7) has two longitudinal walls (8) opposite each other which extend, at least substantially, parallel to the longitudinal sides (4a, 4b). 8. Insulation panel according to any one of claims 4 to 7, wherein the recess comprises a further support surface (10) which connects to the support surface (9) on the side facing the underside of the insulation panel. 9. Insulation panel according to claim 8, wherein the further supporting surface, viewed in vertical cross-section, extends parallel to the inner side (3) or includes an angle ({£) with the inner side (3) the size of which is between 0 degrees and 20 degrees, preferably between 5 and 15 degrees. 10. Insulation panel according to claim 8 or 9, wherein the further support surface, viewed in vertical cross-section, has a dimension (c) of which the size is at least 5 cm. 11. Insulation board according to any of the preceding claims, wherein the insulation board comprises at least two steps located directly above each other and arranged in a row, which row extends parallel to the longitudinal sides of the insulation board. 12. Insulation board according to any of the preceding claims, wherein the insulation board comprises at least two adjacent steps arranged in a row, which row extends perpendicular to the longitudinal sides of the insulation board. 13. Insulation board according to any of the preceding claims, wherein the insulation board comprises at least two steps arranged in a row, which row includes an angle with the longitudinal sides, the size of which is between 10 and 80 degrees, preferably between 30 and 60 degrees. 14. Insulation board according to one of the preceding claims, wherein the insulation board is provided on the outside thereof with at least one groove which extends parallel to the longitudinal sides of the insulation board for receiving a batten in the at least one groove. 15. Insulation board according to claim 12 or 13 and according to claim 14, wherein a groove of the at least one groove extends between two adjacent steps. 16. Insulation board according to claim 14 or 15, wherein a groove of the at least one groove extends over the entire dimension of the insulation board between the bottom and the top. 17. Insulation board according to claims 14, 15 or 16, wherein the insulation board is provided with two or more grooves which are aligned with each other and extend parallel to the longitudinal sides of the insulation board for receiving a batten in the aligned grooves, wherein the aligned grooves extend within the width of a recess. 18. Insulation board according to claim 17, wherein at least one of the two grooves located in line with each other ends in a recess. 19. Insulation board according to claim 11 and claim 18, wherein the at least one groove at its opposite end opens into an adjacent recess. 20. Insulation board according to one of the preceding claims, wherein the insulation board is provided with at least one channel for the drainage of rainwater, which channel extends over the entire dimension of the insulation board between the bottom and the top. 21. Insulation board according to any one of claims 10 to 15, wherein at least one recessed channel for draining rainwater is provided in the bottom of at least one groove for receiving a batten, which at least one recessed channel is preferably provided from the middle of the width of the associated groove. 22. Insulation board according to claim 20 and according to claim 21, wherein the recessed channel as mentioned in claim 21 forms part of the channel mentioned in claim 20. 23. Insulation board according to claim 21 or 22, wherein two recessed channels are provided in the bottom of the at least one groove, which are preferably provided on the longitudinal edges of the bottom. 24. Insulation board according to any one of claims 14 to 23, wherein protruding lugs are provided on the mutually facing sides of the longitudinal walls of at least one groove for clamping a batten between them, which lugs are preferably provided alternately on the mutually facing sides of the longitudinal walls of the at least one groove, viewed in the longitudinal direction of the groove. 25. Insulation board according to any of the preceding claims, wherein the insulation board is provided on its top side with at least one raised support edge which extends parallel to the longitudinal sides of the insulation board for providing support for a batten, which support edge preferably extends over the entire dimension of the insulation board between the bottom and the top. 26. Insulation board according to any of claims 14 to 23 and according to claim 24, wherein the top of the support edge is higher than the top of at least one groove for receiving a batten. 27. Insulation board according to any of the preceding claims, wherein the insulation board has a dimension seen in a direction parallel to the longitudinal sides of the insulation board of which the size is between 30 cm and 150 cm, preferably between 60 cm and 120 cm and/or wherein the insulation board has a dimension seen in a direction perpendicular to the longitudinal sides of the insulation board of which the size is between 50 cm and 240 cm, preferably between 60 cm and 120 cm.