BE1026007B1 - Support for mounting a wall cladding on a wall provided with insulation boards and a tool and method applied thereby - Google Patents

Abstract

Support for mounting a wall cladding on a wall (2) provided with a layer of insulation (3), characterized in that the support (6) is designed as a mill for milling a milling hole (37) through the insulation (3) forming a seat for the support (6), which support (6) has provisions for being able to fix the support (6) in the milled seat against the wall (2) and provisions for the cladding or part thereof on the support ( 6) to confirm.

Description

Support for mounting a wall cladding on a wall provided with insulation boards and a tool and method applied thereby.

The present invention relates to a support for mounting a facade cladding with low thermal bridge action on a wall provided with insulating plates and a tool and method applied thereby.

It is known that for cladding an outer wall of a structure, after the installation of insulation panels, an outer wall cladding can be applied in the form of cladding panels or the like.

Such panels are fixed by means of brackets or the like, which are screwed directly onto the wall of the structural work and which project out through holes in the insulation panels to secure the cladding.

The brackets or the like are usually made of metal and then form a cold bridge locally along which undesired heat losses can occur.

Usually the brackets are first placed against the wall, after which the insulation panels are fitted. To this end, holes are cut in the insulation panels for the brackets on site. This requires some measuring and fitting work to provide the holes in the right place, with the disadvantage that this requires a lot of man-hours.

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In addition, the holes are not always made at the correct location of the brackets, so that the holes have to be made larger, with a greater loss of high-quality insulation material as a result and also larger amounts of less insulating insulation foam are needed to cover the larger holes around the brackets. to fill up.

The present invention has for its object to provide a solution to one or more of the aforementioned and other disadvantages.

To this end the invention relates to a support for mounting a wall cladding on a wall provided with an insulating layer, wherein the support is designed as a milling cutter for milling a seat for the support through the insulating layer and which has provisions to sturge in the milled to be able to fix the seat against the wall and provisions for fixing the cladding to the support.

An advantage of such a support is that it allows to make the holes for the brackets directly, in other words without corrections, in the correct place and fitting after the insulation has already been applied to the wall of the structure.

Therefore no corrections have to be made and no time-consuming fitting and customization is required.

Because the supports are designed as a lost cutter, they fit accurately into the milled holes and they can

BE2018 / 5080 remain as a robust and stable support for the fixing brackets of the wall cladding.

The supports are preferably made from a thermally insulating and fire-resistant plastic, for example from a glass-fiber reinforced polyamide.

The support can be hollow in order to be able to spray the milled seat into the cavity or cavities of the cutter with insulating foam after placement.

According to a practical embodiment, the support is provided with a cylindrical part that is open at one axial end and which is provided with a support wall for fixing the cladding on the other axial end and the support is provided with an axial center passage for a drive rod of a drilling machine or the like with which the support can be pivotally coupled for the milling operation.

Because the support is hollow, the hollow space offers space for

the reception and / or insulation material. evacuate from it milled loose Preferably there is provide support from one or more screw seats for fixing the brackets or from on the cladding the support wall by means of from custom screws or bolts, so that brackets or

wall cladding can be fixed securely in a simple way.

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The cylindrical portion of the support is preferably made up of two diametrically opposed cylindrical walls diametrically connected along their axial free edges by means of reinforcing ribs enclosing the end of the milling with the support provided along their edges at the axially of cutting faces open to the insulation, said cutting faces being an angle a radial plane extending through a cutting edge and located in a plane perpendicular to the axial direction.

In this way an efficient milling function is added to the support, with there being between the support ribs

place is at milled it away material on to to catch or to to evacuate outside. According to an preferential characteristic the edges of the cylindrical walls to it open end of the st eun on

provide their ends with a cutting tooth that extends axially with respect to the plane in which the cutting edges of the aforementioned cutting surfaces are located.

This further facilitates milling.

The edges of the cylindrical walls at the open end of the support can also be provided with a so-called clearance angle between the aforementioned incisors, more particularly in the form of a recess in these edges that extends obliquely with respect to the aforementioned plane in which the incisors extend .

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This promotes the evacuation of the loose-milled insulation material inwards.

The supporting plate is formed, for example, by a plate whose circumference is bounded by the cylindrical walls and by two parallel edges which connect the ends of the cylindrical walls to each other.

Space is thus left between the support and the walls of the milled hole to allow the milled material to be discharged outside.

For the same purpose, passages can be provided in the supporting wall to the spaces enclosed between the cylindrical walls and the reinforcing ribs. These passages can also be used, insofar as necessary, to spray these cavities with insulating foam.

The center passage is for example designed with a stepped shape to form a stop-forming shoulder for the head of a bolt for fixing the support on the wall of the facade. The support can thus be pulled tightly against the wall with a single central bolt and supported.

The invention also relates to a tool for driving the aforementioned support as a milling cutter, wherein this tool is formed by a drive rod with a driver at a radial distance from the drive rod which can be axially coupled to the support

BE2018 / 5080 can be disconnected from the support for its rotary drive and after use in the axial direction.

The carrier can be realized in a simple manner by a transverse plate which is mounted perpendicular to the drive rod and carrier pin support plate which is provided with at least one axial fitting which fits when the center passage of the support has been inserted through one of the passages of the drive rod.

the the

The length of the drive rod is preferably such that it projects with a point along the open end of the support when it is mounted. This point projecting on the support ready for centering and tooling can be used to axially guide the support when milling in a pre-arranged borehole diameter such as that of the drive rod.

The assembly of the same invention also includes mounting a one:

the insulating layer as described;

the anticipated invention;

for each to the in-place reference to cladding to which a one passes through which a borehole a tool supports the tool or more:

support must follow the method provided for wall following steps as above supports, drilling the insulation layer to a certain depth in the wall with a drill with a diameter

Ί

182018/5080 corresponding to the diameter of the driving rod of the tool;

• mounting the support on the tool in such a way that the drive rod of the tool extends through the center passage and the tool can drive the support in rotation;

• with the drilled borehole as the center hole, rotate the support with the tool in rotation to mill out a larger hole in the insulation layer that forms a seat for the support.

• while milling, push the tool deeper and deeper into the insulation layer until the support touches the wall;

• removing the tool and attaching support to the wall by screws or the like;

· Spraying insulation foam in and around the support to fill the larger hole in the insulation layer;

• fixing the façade cladding.

In this way, a suitable seat is made for the support in one movement and the support is positioned in its correct position in the milled hole. It is then sufficient to fix the support in the hole against the wall

screws or such and the Open hollow spaces and the space between support and it hole on te spraying with insulating foam. Because the incisors on it end of the milling movement

be worn away by the frictional contact with the wall until the cutting edges of the diagonal

BE2018 / 5080 reinforcement ribs come into contact with the wall and thereby form a stable support base for the support against the wall.

With the insight to better demonstrate the characteristics of the invention, a preferred embodiment of support according to the invention and a tool applied thereto, as well as a preferred method, with reference to the accompanying drawings, is described below as an example without any limiting character. in which:

figure 1 schematically represents a cross-section of an insulated facade provided with supports according to the invention for fixing a facade cladding according to the method of the invention;

figure 2 represents the support according to the invention which is indicated by F2 in figure 1;

Figure 3 shows the support of Figure 2 but viewed from below;

figures 4 and 5 respectively represent a view according to arrows F4 and F5 in figure 2;

figure 6 represents a bottom view according to arrow F6 in figure 3;

figures 7 and 8 respectively represent a section along the lines VII-VII and VIII-VIII in figure 6;

figure 9 shows on a larger scale the circled part which is indicated by F9 in figure 8;

represents a section as in figure 4, but for a different position;

figures 10 to 22 show the successive steps of the method according to the invention.

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The facade shown in Figure 1 is composed of a wall 2 of a rough structure against which a layer of insulation has been applied and an outer clothing which is not shown but which is mounted on a framework of supporting slats 4.

The support slats 4 are mounted on metal support brackets 5, which in turn are mounted against the wall 2 by means of supports 6, according to the invention, which are arranged in a hole 7 through the insulation 3 and which are for instance secured by a central bolt or screw 8. and associated plug are screwed to the wall 2 and to which the support brackets 5 are attached with screws 9 or the like.

The supports 6 are preferably hollow and made of a thermally insulating and fire-retardant plastic, for example in a fiber-reinforced polyamide.

After mounting of the supports 6 and support brackets 5, the cavities of the support 6 and the aforementioned hole 7 through the insulation 3 are sprayed with a thermally insulating foam 10.

A support 6 according to the invention is shown in more detail in figures 2 to 8.

The support 6 has a cylindrical portion 11 which is open at one axial end 12 and which is provided at the other axial end 13 with a support wall 14 for

BE2018 / 5080 fixing the support bracket 5 or other support elements of the facade cladding, for which the support 6 is provided with screw seats 15 for the aforementioned screws 9.

The support 6 is further provided with a center passage 16 which extends axially in the axial direction XX 'and which is formed by a central bus-shaped part 17 with a stepped shape with a part 17a at the end 13 which via a shoulder 18 becomes a coaxial portion 17b with a smaller diameter, the shoulder 18 forming a stop for the head of the bolt or screw 8 with which the support 6 is fastened to the wall 2.

The cylindrical portion is coaxially constructed with the center passage of two diametrically opposed cylindrical walls 19 extending axially from the aforementioned supporting wall 14 and whose free axial edges 20 are diametrically connected to each other by means of reinforcing ribs 21 forming a connection between the walls 9 and the bush-shaped part 17 and this over the full or almost full axial height of the support 6.

The reinforcing ribs 21 are provided along their radial edges at the axially open end 12 of the support 6 with cutting faces 22 with a cutting edge 23 for milling the insulation 3, which cutting faces 22 enclose an angle A of, for example, 78 ° from the cutting edge 23 with a radial plane that runs through the cutting edge 23.

The cutting edges 23 are preferably in a plane perpendicular to the axial direction X-X '.

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The peripheral edges 24 of the cylindrical walls 19 along the open end 12 of the support are provided with a cutting tooth at each end

5 which extends axially beyond the aforementioned plane in which the cutting edges 23 of the cutting faces 22 are located.

The aforementioned circumferential edges 24 of the cylindrical walls are provided with a clearance angle 26 in the form of a recess in these circumferential edges 24 which extends obliquely between the aforementioned cutting teeth with respect to the aforementioned plane in which the cutting edges 23 extend.

In the example shown, the support wall 14 is formed by a plate the circumference of which is bounded by the cylindrical walls 19 and by two parallel edges 27 which connect the ends of the cylindrical walls 19 to each other.

The supporting wall 14 is provided with passages 28 which form a passage to the cavities 29 which are enclosed between the cylindrical walls and the reinforcing ribs 21.

If necessary, additional reinforcing ribs 30 can be provided, for example as shown in figure

6.

For the mounting of the supports 6 use is made of a tool which is schematically shown in figure and which is formed by a drive rod 32 which in the

BE2018 / 5080 drill head of a drilling machine or other drive can be mounted and which is provided with one or more carriers formed in the example by pins 33 which are mounted axially on a carrier plate 34 which rotates with the drive rod 32, which pins in axial slidingly fit in the aforementioned passages 28 of the support 6 when the drive rod 32 is inserted through the center passage 16 of the support 6 as shown in Fig. 12.

The length of the drive rod 32 is such that it protrudes over a certain length along the open end 13 of the support 6 with a point 32a when the tool is mounted ready for use on the support as in figure 12.

The method according to the invention for mounting a wall cladding on the wall 2 is shown in steps in figures 10 to 22, starting from a wall 2 in figure 10 to be clad which is provided with an insulation 3.

In a first step of Figure 11, a borehole 35 is drilled through the insulating layer 3 to a certain depth in the wall 2 in a classical manner at the place where the support 6 is to be provided, with a drill 36 having a diameter substantially corresponding to the diameter. of the driving rod 32 of the tool 31.

Then, as shown in Figures 12 and 13, the tool with the drive rod 32 is inserted into the borehole 35 with the open end 12 with the cutting edges 23 and cutting teeth 25 facing the wall 2 to be coated.

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By rotating the tool 32 with the support 6 thereon and with the borehole 35 as center hole, a round milling hole 37 in the insulation 3 is milled through the thickness of the insulation 3 until, as shown in Figure 14, the incisors. Come into contact with the rough wall 2.

The milling hole thereby ensures a suitable seat for the support 6.

When the tool 31 is driven even further with a slight axial pressure, the cutting teeth 25 are worn by friction with the wall 2 up to the cutting edges 23 which then form a support surface for the support 6 against the wall

2.

Subsequently, the tool 31 is axially withdrawn from the support 6 and the remaining support 6 is fastened to the wall 2 by means of the bolt 8 which is screwed into the borehole 35 in the wall 2 as shown in Figs. 15 and 16.

The center passage 16 can then be sprayed on with insulating foam 10, as shown in Figure 17, as well as the hollow spaces 29 in the support 6 via the passages 28 such as

shown in Figure 18 and also in the spaces 38 between the support 2 and the milling hole 37. Subsequently can up the support brackets 5 with the screws 9 the support 6 turn into confirmed as shown in the figures 19

BE2018 / 5080 and 20 and subsequently the support slats 4 can be fixed on the support brackets 5, as shown in Fig. 21, after which the milling hole 37 can be sprayed around the foot of the support brackets 5 with insulating foam, as illustrated in Fig. 22, at least for as far as the axial height of the support 6 is smaller than the thickness of the insulating layer 3.

The present invention is by no means limited to the embodiments described by way of example and shown in the figures, but a support and tool used therewith according to the invention can be realized in all shapes and sizes without departing from the scope of the invention.

Claims (5)

Conclusions. Support for mounting a wall cladding on a wall (2) provided with a layer of insulation (3), characterized in that the support (6) is designed as a mill for milling a milling hole (37) through the insulation (3) which forms a seat for the support (6), which support (6) has provisions for fixing the support (6) in the milled seat against the wall (2) and provisions for mounting the cladding or a part thereof to be able to attach the support (6). Support according to claim 1, characterized in that it is made from a thermally insulating material. Support according to claim 1 or 2, characterized in that it is made from a fire-resistant material. Support according to one of the preceding claims, characterized in that it is made from plastic, preferably glass fiber reinforced polyamide. Support according to one of the preceding claims, characterized in that it is of hollow design in order to be able to spray the hollow spaces (29) of the support and around the support with insulating foam (10). Support according to one of the preceding claims, characterized in that it is provided with a cylindrical part (11) that is open on one axial BE2018 / 5080 end (12) and that on the other axial end (13) is provided with a support wall (14) for fixing the facade cladding or a part thereof and that it is provided with an axial center passage (16) for a driving rod of a tool that can rotate the support. Support according to claim 6, characterized in that it is provided with one or more screw seats (15) for fixing the facade cladding or a part thereof to the support wall (14). Support according to claim 6 or 7, characterized in that the cylindrical part (11) is made up of two diametrically opposite cylindrical walls (19) whose free axial edges (20) are diametrically connected to each other by means of reinforcing ribs ( 21). Support according to claim 8, characterized in that the reinforcing ribs (21) along their edges at the open end (12) of the support (6) are provided with cutting surfaces (22) with a cutting edge (23) for milling the insulation, which cutting edges enclose an angle with a radial plane that runs through the cutting edge, the cutting edges being located in a plane perpendicular to the axial direction (X ~ X '). Support according to claim 8 or 9, characterized in that the peripheral edges (24) of the cylindrical walls (19) along the open end (12) of the support (6) are at their BE2018 / 5080 ends are provided with a cutting tooth (25) which extends axially beyond the plane in which the cutting edges (23) of the aforementioned cutting surfaces (22) are located. Support according to one of claims 8 to 10, characterized in that the peripheral edges (24) of the cylindrical walls (19) to the Open end (12) from the support (6) to be provided with a free run k (26) between the the aforementioned incisors (25) in the form of a recess in said peripheral edges (24) which are inclined with respect to the aforementioned plane in which the cutting edges (23) extend. Support according to one of Claims 8 to 11, characterized in that the support wall (14) is formed by a plate whose circumference is bounded by the cylindrical walls (19) and by two parallel edges (27) which extend the ends of connect the cylindrical walls. Support according to one of claims 8 to 12, characterized in that the support wall (14) is provided with passages (28) to the cavities (29) between the cylindrical walls (19) and the reinforcement ribs (21). Support according to one of claims 6 to 13, characterized in that the center passage (16) is formed by a sleeve-shaped part with a stepped shape for forming a stop-forming shoulder (18) for the head of a bolt (8) for fixing the support (6) on the wall (2) of the facade (1). BE2018 / 5080 Tool for driving said support according to one of the preceding claims as a cutter, characterized in that the tool (31) is formed by a drive rod (32) with a carrier at a radial distance from the drive rod (32) which can be coupled axially to the support (6) for its rotary drive and can be disconnected from the support (6) after use in the axial direction (X-X '). Tool according to claim 15, characterized in that the carrier is formed by a carrier plate (34) which is mounted perpendicular to the drive rod (32) and which is provided with at least one axial carrier pin (33) which fits into one of the passages (28) of the support (6) when the drive rod (32) has passed through the center passage (16) of the support (6). Tool according to claim 15 or 16, characterized in that the length of the drive rod (32) is such that it protrudes with a point (32a) along the open end (12) of the support (6) when the tool (31) ) is mounted ready for use on the support (6). 18. - Method for mounting a wall cladding on a wall (2) provided with a layer of insulation (3), characterized in that it comprises the following steps: - providing a tool (31) according to one of claims 15 to 17; - providing one or more supports (6) according to one of claims 1 to 14; - for each aid to be applied (6): BE2018 / 5080 • at the place where the support (6) is to be placed, drilling a borehole (35) through the insulation (3) to a certain depth in the wall (2) with a drill of a diameter corresponding to the diameter of the driving rod (32) of the tool (31); • mounting the support (6) on the tool (31) in such a way that the drive rod (32) of the tool (31) extends through the center passage (16) and the tool (31) rotates the support (6) in rotation can power; • using the drilled borehole (35) as center hole to rotate the support (6) with the tool (31) in order to mill out a larger milling hole (37) in the insulation (3) that forms a seat for the support (6); • during milling, push the tool (31) deeper and deeper into the insulation (3) until the support (6) touches the wall (2); • removing the tool (31) and attaching support (6) to the wall (2) by screws or the like; • spraying insulating foam (10) into and around the support (6) to fill the larger milling hole (37) in the insulation (3); • fixing the façade cladding. Method according to claim 18, characterized in that use is made of supports (6) whose axial height is smaller than the thickness of the insulation (3) and that, after fitting fastening elements for BE2018 / 5080 fixing the cladding, the remaining cavity of the larger milling hole (37) around the fixing elements (5) is sprayed with insulating foam (10). 20. Method according to claim 18 or 19, characterized in that when milling out the insulation (3) the support (6) is always pressed deeper into the insulation (3) until the incisors (25) of the support (6) ) are worn away and the cutting edges (23) are supported against the wall (2).