EP2348163B1 - Support adapter - Google Patents
Support adapter Download PDFInfo
- Publication number
- EP2348163B1 EP2348163B1 EP11000457.9A EP11000457A EP2348163B1 EP 2348163 B1 EP2348163 B1 EP 2348163B1 EP 11000457 A EP11000457 A EP 11000457A EP 2348163 B1 EP2348163 B1 EP 2348163B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- support
- pin
- adhesive
- main body
- support adapter
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
- 239000000853 adhesive Substances 0.000 claims description 57
- 230000001070 adhesive effect Effects 0.000 claims description 56
- 238000009413 insulation Methods 0.000 claims description 52
- 239000006260 foam Substances 0.000 claims description 37
- 239000012790 adhesive layer Substances 0.000 claims description 20
- 230000001681 protective effect Effects 0.000 claims description 9
- 238000000034 method Methods 0.000 description 10
- 239000004033 plastic Substances 0.000 description 9
- 229920003023 plastic Polymers 0.000 description 9
- 229920005830 Polyurethane Foam Polymers 0.000 description 5
- 238000003825 pressing Methods 0.000 description 4
- 238000007373 indentation Methods 0.000 description 3
- 239000011505 plaster Substances 0.000 description 3
- 239000000758 substrate Substances 0.000 description 3
- 230000007704 transition Effects 0.000 description 3
- 239000004793 Polystyrene Substances 0.000 description 2
- 238000004026 adhesive bonding Methods 0.000 description 2
- 239000011324 bead Substances 0.000 description 2
- 239000004566 building material Substances 0.000 description 2
- 238000010586 diagram Methods 0.000 description 2
- 239000011094 fiberboard Substances 0.000 description 2
- 239000011521 glass Substances 0.000 description 2
- 239000011810 insulating material Substances 0.000 description 2
- 239000000463 material Substances 0.000 description 2
- 229920002223 polystyrene Polymers 0.000 description 2
- 229920002635 polyurethane Polymers 0.000 description 2
- 239000004814 polyurethane Substances 0.000 description 2
- 239000007787 solid Substances 0.000 description 2
- 239000007921 spray Substances 0.000 description 2
- 239000004575 stone Substances 0.000 description 2
- 239000004831 Hot glue Substances 0.000 description 1
- 239000004820 Pressure-sensitive adhesive Substances 0.000 description 1
- 239000002313 adhesive film Substances 0.000 description 1
- 239000002390 adhesive tape Substances 0.000 description 1
- 239000011230 binding agent Substances 0.000 description 1
- 239000011111 cardboard Substances 0.000 description 1
- 229910010293 ceramic material Inorganic materials 0.000 description 1
- 238000004140 cleaning Methods 0.000 description 1
- 230000008878 coupling Effects 0.000 description 1
- 238000010168 coupling process Methods 0.000 description 1
- 238000005859 coupling reaction Methods 0.000 description 1
- 239000000428 dust Substances 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 239000004519 grease Substances 0.000 description 1
- 229910052500 inorganic mineral Inorganic materials 0.000 description 1
- 238000003780 insertion Methods 0.000 description 1
- 230000037431 insertion Effects 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 239000010410 layer Substances 0.000 description 1
- 238000005259 measurement Methods 0.000 description 1
- 238000002844 melting Methods 0.000 description 1
- 230000008018 melting Effects 0.000 description 1
- 239000002184 metal Substances 0.000 description 1
- 239000011707 mineral Substances 0.000 description 1
- 239000002557 mineral fiber Substances 0.000 description 1
- 239000003973 paint Substances 0.000 description 1
- 230000035515 penetration Effects 0.000 description 1
- 239000002984 plastic foam Substances 0.000 description 1
- 239000004800 polyvinyl chloride Substances 0.000 description 1
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- 239000002023 wood Substances 0.000 description 1
Images
Classifications
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B1/00—Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
- E04B1/62—Insulation or other protection; Elements or use of specified material therefor
- E04B1/74—Heat, sound or noise insulation, absorption, or reflection; Other building methods affording favourable thermal or acoustical conditions, e.g. accumulating of heat within walls
- E04B1/76—Heat, sound or noise insulation, absorption, or reflection; Other building methods affording favourable thermal or acoustical conditions, e.g. accumulating of heat within walls specifically with respect to heat only
- E04B1/762—Exterior insulation of exterior walls
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B1/00—Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
- E04B1/62—Insulation or other protection; Elements or use of specified material therefor
- E04B1/74—Heat, sound or noise insulation, absorption, or reflection; Other building methods affording favourable thermal or acoustical conditions, e.g. accumulating of heat within walls
- E04B1/76—Heat, sound or noise insulation, absorption, or reflection; Other building methods affording favourable thermal or acoustical conditions, e.g. accumulating of heat within walls specifically with respect to heat only
- E04B1/762—Exterior insulation of exterior walls
- E04B1/7625—Details of the adhesive connection of the insulation to the wall
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B1/00—Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
- E04B1/62—Insulation or other protection; Elements or use of specified material therefor
- E04B1/74—Heat, sound or noise insulation, absorption, or reflection; Other building methods affording favourable thermal or acoustical conditions, e.g. accumulating of heat within walls
- E04B1/76—Heat, sound or noise insulation, absorption, or reflection; Other building methods affording favourable thermal or acoustical conditions, e.g. accumulating of heat within walls specifically with respect to heat only
- E04B1/762—Exterior insulation of exterior walls
- E04B1/7629—Details of the mechanical connection of the insulation to the wall
Definitions
- the invention relates to a support adapter for fixing insulation panels to a building surface.
- thermal insulation panels are permanently bonded to a substrate such as masonry with the aid of PU foam.
- a PU foam is applied to the dampened thermal insulation board to be attached, which is made of polystyrene, polyurethane or mineral foam, for example, and then pressed onto the masonry together with the PU foam.
- the PU foam hardens after approx. 10 to 20 minutes.
- the thermal insulation board now adheres firmly to the masonry.
- the thermal insulation panel is only loosely attached to the wall. During this phase, the plate can unintentionally shift across or perpendicular to the masonry.
- the single fixation consists of a right-angled plastic bracket and at least one plastic nail.
- One leg of the plastic angle has an adhesive surface on the outside.
- the other leg has some holes that lead to low backlash Are provided through the plastic nails.
- the thermal insulation board covered with adhesive foam is in its final position in front of the wall, the plastic angle is placed on its narrow upper end face in such a way that the adhesive surface of one leg adheres to the wall and the other leg, which has holes, lies flat on the upper end face .
- the thermal insulation panel is fixed to this leg using at least one plastic nail.
- the center line of the plastic nail is oriented at least approximately parallel to the adhesive assembly joint.
- the fastening element consists of a foot element and a retaining cap.
- the foot element On the underside of its base plate, the foot element has, for example, an adhesive film with which it is glued to the duct wall.
- the retaining pin formed on the base plate has a locking ring in its end area. To attach the insulating material, this is pushed onto the retaining pin until the locking ring protrudes from the mineral fiber board. onto the retaining pin the plate-like retaining cap is inserted, which latches positively on the locking ring.
- G 90 03 736 U shows a comparable fastener.
- the CH 657 652 A5 describes a holder for fastening fiberboard to walls.
- the holder consists of a base plate and a arbor arranged on it.
- the holder is a perforated plate that is nailed, screwed or glued to the wall.
- the arbor onto which the fiberboard is pressed is a multi-barbed pin.
- the present invention is based on the problem of developing a support adapter with which insulating panels can be securely fixed to a building wall, at least for a short time, without them getting caught in one another at least in certain areas.
- the pin has a support area and/or the base body has a support structure to ensure a minimum distance between the insulation panels and the front side of the base body, which is necessary to produce the required adhesive strength of the adhesive foam.
- the base body has an adhesive layer on the back for secure fixation during the installation of the insulation boards and the curing of the adhesive foam.
- Claim 7 indicates the use of the support adapter in that the adhesive layers of the same hold it briefly during assembly of the insulation board and for the time in which the adhesive foam hardens.
- a support adapter is made available, which consists at least of a base body that is plate-shaped at least in some areas and a pin that projects vertically and is sharpened and formed thereon.
- At least one support adapter usually two, three or more, fixes a thermal insulation panel to be mounted on a building wall with adhesive foam, at least for the time in which the adhesive foam hardens, i.e. the adhesive foam is not able to securely close the thermal insulation panel keep.
- the support adapters are fixed on the one hand by inserting the pin(s) vertically or almost vertically into the thermal insulation panel to be supported.
- the base body sticks to the building wall with an adhesive layer.
- the adhesive foam is applied professionally - i.e. the moisture required for curing is made available - the support adapters easily fix the insulation panels while the adhesive foam is curing. It is then impossible for the thermal insulation panels to be pushed away or dented by post-expansion of the adhesive foam.
- the building surfaces to which the thermal insulation panels can be fixed are the surfaces of walls, ceilings and floors of a respective building.
- the support adapters can be used for pre-fixing both inside and outside of the respective building.
- the thermal insulation panels can be made of plastic foams, e.g. based on polystyrene, polyurethane or PVC, with various geometrical dimensions. Also thermal insulation panels are conceivable, which are made of a glass or a rock foam.
- a hot-melt adhesive to be applied by melting can also be applied to the adhesive layer.
- the figure 1 shows a support adapter (1).
- the support adapter (1) consists of a base body (10) and, for example, three pins (30, 31).
- the pins (30, 31) are formed on the base body (10).
- the support adapter (1) which is equipped with an adhesive layer (50) on the back, is used for at least temporarily fixing thermal insulation panels (5, 6) mounted on a building wall (98) by means of adhesive foam (8), cf. Figures 4 and 5 . After the adhesive foam (8) has hardened, it permanently fixes the thermal insulation panel (5, 6) to the building wall (98).
- the base body (10) is essentially an at least approximately flat plate (11) with a constant wall thickness, for example.
- the plate dimensions here are 40 mm * 40 mm * 3 mm. From the flat front (13), the pins (30, 31) are perpendicular.
- the base body (10) or the plate (11) can also be round, oval, elliptical, rectangular, cf. figure 9 , a hexagonal, cf. figure 7 , have a triangular or other shaped border. If necessary, the base body (10) can also have one or more recesses, cf. Figures 7 and 8 .
- Each pin (30) is divided into three sections: a holding section (35), a tip section (36) and a support section (33).
- the support area (33) is formed directly on the plate (11). It has the shape of a cylinder that is, for example, 5 mm short and has a diameter of 8 mm. In the transition zone oriented towards the plate, the support area (33) has a rounded foot (34), the radius of which is, for example, 2 mm.
- the support area (33) is intended to prevent the thermal insulation board (5, 6), hereinafter referred to simply as the insulation board, from being pressed so far against the front side (13) of the base body (10) that the surface facing the building wall (98). the insulation board (5, 6), cf. figure 5 , rests directly on the front (13).
- the support adapter (1) thus ensures a minimum distance from the wall of the insulating board (5, 6). According to the execution, this amounts to figure 5 here eg 8 mm. Due to this minimum wall distance (19), the adhesive foam (8) has at least the majority of the depth that is necessary to produce the required adhesive force.
- the cylindrical holding area (35) adjoins the support area (33). With a diameter of 5.5 mm, its length is 27 mm, for example.
- the holding area (35) has a relatively smooth surface with a mean roughness value Ra of less than 0.5 ⁇ m.
- pins (30, 31) of the same length are used for each support adapter (1-4). However, it is also possible to stagger the pins per support adapter (1 - 4) according to length.
- the first pin can be 25 mm long, while the second is 30 mm long and the third has a length of 35 mm.
- the size of the support adapter can be based on the size of the insulation board.
- the insulation area of which is larger than one square meter, the area and thickness of the base body, the diameter and the length of the pins can be selected larger than in the exemplary embodiments shown for the support adapter.
- the length of the pins should always be shorter than the wall thickness of the corresponding insulation board.
- Each pin (30, 31) has a tip area (36) at its free end.
- the tip area (36) represents a straight cone.
- the cone has a tip angle of, for example, 63 degrees.
- the mean roughness value Ra of the cone surface corresponds to that of the holding area (35).
- the transition zone (38) between the holding area (35) and the tip area (36) may be rounded off, cf. figure 8 , so that the tip area (36) merges harmoniously into the holding area (35).
- a pyramidal, tetrahedron-shaped or lance-shaped tip area (36) can also be used, for example.
- the center line of the tip area (36) can assume an angle of, for example, 5 to 15 degrees with respect to the center line of the holding area.
- the support area (33), the holding area (35) and the tip area (36) each have a common one center line (32).
- the center lines (32) of all the pins (30, 31) of a base body (10) run parallel to one another, cf. figure 3 .
- the cylinder jacket (39) can be replaced by a truncated cone jacket, the diameter of which increases with increasing distance from the base plate (10).
- the cone angle of the truncated cone has, for example, a cone angle of 1 to 3 degrees. It is possible to make the center lines of the pins curved so that the mantle forms part of a solid of revolution.
- a body of revolution would be, for example, a torus, a paraboloid of revolution, a barrel, an ellipsoid, a sphere or other bodies or surfaces that obey Guldin's rule.
- the lettering is arranged on the front side (13) of the base body (10) between the pins (30).
- the lettering which includes the sequence of letters "room", for example, forms a raised supporting structure (15).
- the support structure (15) has after figure 3 a letter depth of 5 mm. This letter depth corresponds to the length of the pen's own support areas (33).
- the support structure (15) can also be a bar with the shape of any curve instead of lettering.
- the latter is, for example, a wavy line, a ring, a cross or even just a group of two or more parallel webs, for example.
- the support structure (15) is also conceivable as a plate bulge (16), the highest point of the plate bulge, which can also represent a flat surface, lying between the pins (31), cf. figure 6 .
- the support areas (33) of the pins (30) can optionally be omitted, cf. figure 6 . However, this does not shorten the length of the pins (31).
- the base body (10) has an almost flat back (14) here. It forms a flat surface at least in some areas.
- the flat surface can consist of two or more individual surfaces spaced apart from one another. However, all individual surfaces lie in one plane.
- the support adapter is made of a plastic, e.g. made of ABS or PA.
- the flat surface of the back (14) is equipped with an adhesive layer (50), cf. figure 3 .
- the adhesive layer (50), the layer thickness of which is between one and two millimeters, is covered on its side facing away from the back (14) with a removable protective film (55).
- the elastic adhesive of the adhesive layer (50) adheres - at least for several hours - to most common building materials from which walls, ceilings or floors are made. It adheres to concrete, masonry made of natural stone, burnt and unburned stone, glass, building plaster, plaster and masonry binders, ceramic materials, metal, wood, plastic, cardboard, almost all paints and much more more if the building materials have reasonably dry surfaces that are almost free of dust and grease.
- the adhesive layer (50) consists, for example, of a, on the back (14) of the base body (10) applied, highly viscous and permanently tacky adhesive by pressing on a solid ground sticks there. It is covered with a protective or peel-off film (55).
- the protective film (55) has a protruding pull tab (56). The latter has, for example, the area of half a circular disk, the diameter of which corresponds, for example, to half the width of the base body.
- the individual support adapters (1, 4) are arranged next to one another on double-sided adhesive tape.
- a gap of e.g. 0.5 to 1.5 mm is provided between the individual support adapters (1, 4) in order to endlessly join the support adapters (1, 4) to one another for deployment.
- the protective film (55) then serves as a so-called endless conveyor belt from which the support adapters (1, 4) are simply pulled off when used.
- the principle is known, for example, from rolled-up, self-adhesive postage stamps in packs of hundreds.
- an insulating panel (5, 6) there are several ways of attaching an insulating panel (5, 6) to a building wall (98) with the aid of support adapters (1-4) and adhesive foam (8).
- the support adapters (1 - 4) are inserted into the back of the insulation board (5) to be glued, cf. figure 10 .
- the insulating panel (5) has, for example, a length of 1000 mm, a width of 500 mm and a depth of 50 mm.
- the three after figure 10 Inserted support adapter (1) are, with their tips (37) in front, pressed just so deep into the insulating board (5), for example by hand, that they adhere there.
- Two of the support adapters (1) are inserted, for example, in the area of the upper edge of the insulating board, while in the area of the lower edge, for example, only one support adapter (1) sits approximately in the middle.
- the adhesive foam (8) is applied to the back of the insulating board (5) in a bead-like manner.
- three beads of adhesive foam (9) are placed along the edge of the board. They remain about 2 to 3 cm away from the edge of the plate.
- two at least approximately parallel adhesive foam beads (9) are placed in the middle panel area.
- the adhesive foam (8) can also be applied to the insulating board (5) only at certain points, e.g. in the area of the board corners and the middle of the board. Any other pattern of adhesive foam application is also conceivable.
- the insulating board (5) prepared with adhesive foam (8) is now applied to the surface (99) at a specific point on the building wall (98).
- the backs (14) of the support adapters (1) which are coated with adhesive, conform to the surface (99) in an adhesive manner.
- the insulating panel (5) is aligned in the horizontal and vertical directions while pressing against the building wall (98).
- the support adapters (1) are pushed further into the insulation board (5).
- the rear side (14) of the individual support adapter (1) which is equipped with the adhesive layer (50), is supported on the building wall (98) with adhesion.
- the insulation panel (5) initially only adheres securely to the building wall (98) due to the adhesive forces of the individual support adapters (1).
- the first adhesive force is that which acts between the wall surface (99) and the adhesive layer (50) of the base body (10).
- the adhesion to a normal, flat concrete surface is 80 to 250 N. Treating the substrate, eg by cleaning or applying a primer, can further increase the adhesion. On new plaster, the adhesive force is more than twice the 250 N.
- the second adhesive force results from the insertion of the pins (30, 31) of the support adapters (1 - 4) into the insulating board (5, 6).
- the single smooth pin (30, 31) displaces the material of the insulating panel (5, 6) radially to the side when it is pressed in, so that the material around the pin (30, 31) is compressed. As a result, the pin (30, 31) is radially clamped.
- the smooth surface of the pin results in adhesive forces which counteract the pin (30, 31) being pulled out of the insulating board (5, 6).
- the second adhesive force depends on the indentation depth of the pins (30, 31).
- the adhesive force F for two different insulation panels is shown in a diagram over the indentation depth t.
- the support adapter (1) according to the Figures 1 to 3 used.
- the first insulating panel, labeled "ESP 032 WDV” has a thermal conductivity of 0.032 W/mK and a density of 17.7 kg/m 3 .
- the second insulating board “ESP 035 WDV” has a thermal conductivity of 0.035 W/mK and a density of 23 kg/m 3 .
- both insulation board types have a holding force of approx. 20 N. Since insulation boards with the dimensions 1000 mm * 500 mm * 50 mm are usually fixed with three support adapters (1), the necessary Holding force with a 33 percent safety margin is 40 N. With a panel weight of 3.9 N for the "ESP 032 WDV" panel and 5.1 N for the "ESP 035 WDV" panel, these panels remain in place with multiple security - including the applied adhesive foam - even hanging from a ceiling.
- the insulating board (5, 6) equipped with the support adapters (1 - 4) is placed against the building wall (98) and pressed there while aligning, so that the support adapters (1 - 4) reach their final impression depth.
- the protective films (55) have not yet been removed from the support adapters (1 - 4).
- the insulating board (5, 6) is taken off the building wall (98) again.
- the protective films (55) are removed from the support adapters (1 - 4) and the adhesive foam (8) is applied to the back of the insulating board (5, 6).
- the insulation panel (5, 6) is applied with little pressure to the building wall (98) in the intended position. Further alignment is no longer required.
- three or more support adapters (1-4) are glued to the building wall (98) with their adhesive backing. They are arranged so that they are in the area that is covered by the insulation board (5, 6) to be bonded.
- the adhesive foam (8) is also applied directly to the building wall (98).
- the insulating board (5, 6) is positioned in front of the support adapters (1 - 4) and then pressed on using a spirit level and/or a straightedge, for example. Once the depth alignment has reached the target position, the process is complete.
- the previous procedures can be varied by initially aligning the insulating boards (5, 6) and gluing the support adapters (1 - 4) without applying the adhesive foam (8) to the insulating board (5, 6) or the building wall (98 ) he follows.
- the adhesive foam (8) is here by means of a longer spray tube between the building wall (98) and the insulating board (5, 6) already adhering via the support adapter (1 - 4). This is a type of backfill.
- the spray tube of the adhesive foam cartridge is here along the building wall (98) - out behind the insulating board (5, 6) - so not perpendicular to the building wall (98).
- the figure 7 shows a support adapter (2) which has, for example, a base body (10) with a hexagonal base. It essentially has the structure of the support adapter (1).
- figure 1 two isosceles triangles are formed on the two side edges of the base body (10) of the support adapter (1), which adjoin that side edge near which two pins (30) are located.
- the tips of the triangles are at a distance of, for example, 60 mm from one another.
- Each through hole (17) has a diameter of 3 mm, for example. If necessary, the through-holes (17) are covered on the back by the adhesive layer (50)
- the support adapter (2) can be fastened there via the through-holes (17) using conventional nails or concrete nails to a substrate to which the adhesive layer (50) does not adhere can.
- a support adapter (3) is shown, the base body (10) of which consists of a ring.
- the figure 9 represents a support adapter (4), with the help of which two insulation panels (5, 6) arranged next to one another are additionally clamped together.
- the three front pins (30) are stuck in a front insulating board, while the rear three are stuck in a rear insulating board.
- the assembly joint between the two insulating boards is fictitiously visualized by the rectangle (7) represented by dashed lines.
- FIG. 11 to 15 five different pens are shown. None of the pens of these figures fall within the scope of claim 1.
- the pen fails figure 11 is conical in shape. Its lateral surface tapers linearly towards the free end.
- the cone angle of the holding area is, for example, 89 degrees. If necessary, the holding area can also taper non-linearly.
- the pen off figure 12 has a truncated cone-shaped lateral surface in the holding area, the diameter of which tapers towards the base plate.
- the pins of Figures 13 and 14 each show a sawtooth profile in half longitudinal section. To figure 13 rotates the profile around the pen centerline. at figure 14 the profile winds helically around the pin centerline, creating a type of thread. In addition, the thread diameter tapers towards the tip.
- the pen after figure 15 has, for example, four elastic barbs, two of which are mirror-symmetrically opposite each other.
- the tips of the barbs aligned to the base plate protrude, for example, 0.5 to 1 mm over the regular pen casing, ie the holding area that has no barbs.
- the Figures 16 and 17 show a support adapter (80) which has two pins (30) molded onto, for example, a square base plate (10) and two pins (81) which can be inserted.
- the Molded-on pins (30) are arranged in the area of two opposite corners of the base body (10). In the individual areas of the two remaining corners of the base body (10) there is a bore (81) which intersects the base plate (10) at an angle of, for example, 45 degrees.
- the tip of the angle is about 10 to 20 mm before - after figure 16 below - the adhesive layer (50). So that the heads (86) of the pins (85) do not protrude into the adhesive layer (50), the bores (81) are located, for example, in special plate bulges that also serve as a support structure (16).
- a single pin (85) can be inserted into each of the bores (81) in order to increase the adhesive force between the support adapter and the insulating board.
- This support adapter (80) is used, among other things, when the insulating board assembly is based on the second procedure mentioned above.
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- Physics & Mathematics (AREA)
- Engineering & Computer Science (AREA)
- Architecture (AREA)
- Acoustics & Sound (AREA)
- Electromagnetism (AREA)
- Civil Engineering (AREA)
- Structural Engineering (AREA)
- Building Environments (AREA)
- Finishing Walls (AREA)
Description
Die Erfindung betrifft einen Stützadapter zur Fixierung von Dämmplatten an einer Gebäudeoberfläche.The invention relates to a support adapter for fixing insulation panels to a building surface.
In der
Aus der
Mit diesem Verfahren kann in der Regel nur eine schmale Stirnfläche fixiert werden. Bei mindestens zwei weiteren schmalen Stirnflächen benötigt man zur Fixierung umlaufende formschlüssige Konturen. Zudem werden an den Stoßstellen benachbarter Platten breite Hohlräume benötigt, die Platz für die anzunagelnden Schenkel lassen. Im Bereich dieser Hohlräume, die sich nach den dargestellten Ausführungsbeispielen über die gesamte Dämmplattenlänge ausdehnen, ist die Wärmedämmung um ca. 40% dünner als an den übrigen Stellen. In der Folge zeichnen sich diese Bereiche auf einer verputzten, hellen Wand mit der Zeit als dunkle Streifen ab.As a rule, only a narrow end face can be fixed with this method. If there are at least two other narrow end faces, circular form-fitting contours are required for fixation. In addition, wide cavities are required at the joints between adjacent panels, which leave room for the legs to be nailed on. In the area of these cavities, which extend over the entire length of the insulating board according to the exemplary embodiments shown, the thermal insulation is around 40% thinner than at the other points. As a result, these areas appear as dark stripes on a plastered, light-colored wall over time.
Aus der
Die G 90 03 736 U zeigt ein vergleichbares Befestigungselement.G 90 03 736 U shows a comparable fastener.
In der
Die
Der vorliegenden Erfindung liegt die Problemstellung zugrunde, einen Stützadapter zu entwickeln, mit dem auf einfache Weise Dämmplatten - auch ohne dass diese zumindest bereichweise ineinander verhaken - an einer Gebäudewand zumindest kurzfristig sicher fixiert werden können.The present invention is based on the problem of developing a support adapter with which insulating panels can be securely fixed to a building wall, at least for a short time, without them getting caught in one another at least in certain areas.
Diese Problemstellung wird mit den Merkmalen der Patentansprüche 1 und 7 gelöst. Dazu besteht dieser aus einem Grundkörper und mindestens einem vorderseitig daran angeformten glatten Stift, welcher einen zylindrischen Haltebereich und einen Spitzenbereich aufweist. Der Spitzenbereich verjüngt sich ausgehend vom Haltebereich. Der Grundkörper weist rückseitig eine zumindest bereichsweise ebene Fläche auf. Der mindestens eine Stift ist normal zur Ebene der Fläche ausgerichtet, wobei die Mittellinie des Stiftes eine Abweichung von null bis drei Winkelgraden von der Normalen aufweist. Dieser mindestens eine einzelneThis problem is solved with the features of
Stift weist zur Sicherung eines minimalen Abstandes der Dämmplatten gegenüber der Vorderseite des Grundkörpers, der zur Herstellung der erforderlichen Klebekraft des Klebeschaums notwendig ist, einen Stützbereich und/oder der Grundkörper eine Stützstruktur auf. Der Grundkörper hat rückseitig eine klebende Haftschicht zur sicheren Fixierung während der Montage der Dämmplatten und der Klebeschaumaushärtung.The pin has a support area and/or the base body has a support structure to ensure a minimum distance between the insulation panels and the front side of the base body, which is necessary to produce the required adhesive strength of the adhesive foam. The base body has an adhesive layer on the back for secure fixation during the installation of the insulation boards and the curing of the adhesive foam.
Der Patentanspruch 7 gibt als Verwendung des Stützadapters an, dass die klebenden Haftschichten derselben während der Montage der Dämmplatte und für die Zeit, in der der Klebeschaum aushärtet, diese kurzzeitig hält.
Mit der Erfindung wird ein Stützadapter zur Verfügung gestellt, der mindestens aus einem zumindest bereichsweise plattenförmigen Grundkörper und einem daran angeformten senkrecht abstehenden und angespitzten Stift besteht. Mindestens ein Stützadapter, in der Regel sind es zwei, drei oder noch mehr, fixiert eine mit Klebeschaum an einer Gebäudewand zu montierende Wärmedämmplatte zumindest für die Zeit, in der der Klebeschaum aushärtet, der Klebeschaum also nicht in der Lage ist, die Wärmedämmplatte sicher zu halten. Dazu sind die Stützadapter zum einen durch senkrechtes oder nahezu senkrechtes Einstecken des oder der Stifte in die zu tragende Wärmedämmplatte an dieser fixiert. Der Grundkörper klebt mittels einer Haftschicht an der Gebäudewand.With the invention, a support adapter is made available, which consists at least of a base body that is plate-shaped at least in some areas and a pin that projects vertically and is sharpened and formed thereon. At least one support adapter, usually two, three or more, fixes a thermal insulation panel to be mounted on a building wall with adhesive foam, at least for the time in which the adhesive foam hardens, i.e. the adhesive foam is not able to securely close the thermal insulation panel keep. For this purpose, the support adapters are fixed on the one hand by inserting the pin(s) vertically or almost vertically into the thermal insulation panel to be supported. The base body sticks to the building wall with an adhesive layer.
Sofern der Klebeschaum fachgerecht aufgetragen wird - d.h. es wird ihm die zur Durchhärtung erforderliche Feuchtigkeit zur Verfügung gestellt - fixieren die Stützadapter die Dämmplatten problemlos während der Aushärtung des Klebeschaumes. Ein Wegdrücken oder Beulen der Wärmedämmplatten durch Nachexpandieren des Klebeschaums ist dann ausgeschlossen.Provided that the adhesive foam is applied professionally - i.e. the moisture required for curing is made available - the support adapters easily fix the insulation panels while the adhesive foam is curing. It is then impossible for the thermal insulation panels to be pushed away or dented by post-expansion of the adhesive foam.
Die Gebäudeoberflächen, an denen die Wärmedämmplatten fixiert werden können, sind die Oberflächen von Wänden, von Decken und von Böden eines jeweiligen Gebäudes. Die Stützadapter können zur Vorfixierung sowohl im Innen- als auch im Außenbereich des jeweiligen Gebäudes verwendet werden.The building surfaces to which the thermal insulation panels can be fixed are the surfaces of walls, ceilings and floors of a respective building. The support adapters can be used for pre-fixing both inside and outside of the respective building.
Die Wärmedämmplatten können bei verschiedenen geometrischen Abmessungen aus Kunststoffschäumen z.B. auf der Basis von Polystyrol, von Polyurethan oder von PVC hergestellt werden. Auch sind Wärmedämmplatten denkbar, die aus einem Glas- oder einem Gesteinsschaum gefertigt sind.The thermal insulation panels can be made of plastic foams, e.g. based on polystyrene, polyurethane or PVC, with various geometrical dimensions. Also thermal insulation panels are conceivable, which are made of a glass or a rock foam.
Bei der Anordnung der Stützadapter auf einem überdurchschnittlich rauen Untergrund kann auf die Haftschicht zusätzlich ein durch Aufschmelzen aufzutragender Schmelzklebstoff aufgebracht werden.If the support adapter is arranged on an above-average rough surface, a hot-melt adhesive to be applied by melting can also be applied to the adhesive layer.
Weitere Einzelheiten der Erfindung ergeben sich aus den Unteransprüchen und der nachfolgenden Beschreibung schematisch dargestellter Ausführungsformen. Die
- Figur 1:
- Dimetrische Darstellung eines Stützadapters;
- Figur 2:
- Vorderansicht zu
;Figur 1 - Figur 3:
- Seitenansicht zu
;Figur 1 - Figur 4:
- Längsschnitt durch den fertigen Verbund aus Gebäudewand, Stützadapter und Dämmplatte, wobei die Dämmplatte nicht an der Stützstruktur des Stützadapters anliegt;
- Figur 5:
- wie
, jedoch mit einer Dämmplatte, die an der Stützstruktur des Stützadapters anliegt;Figur 4 - Figur 6:
- Längsschnitt durch einen Stützadapter mit einer Plattenauswölbung;
- Figur 7:
- Stützadapter mit Befestigungsbohrungen;
- Figur 8:
- Stützadapter mit ringförmigem Grundkörper;
- Figur 9:
- Stützadapter zur Kopplung zweier Dämmplatten;
- Figur 10:
- Rückseite einer Dämmplatte mit aufgesetzten Stützadaptern und aufgelegten Klebeschaumstreifen;
- Figur 11:
- konischer Stift mit Verjüngung zum freien Ende hin;
- Figur 12:
- konischer Stift mit Verjüngung zum Grundkörper hin;
- Figur 13:
- Stift mit umlaufendem Sägezahnprofil;
- Figur 14:
- Stift mit geschraubtem Sägezahnprofil;
- Figur 15:
- Stift mit mehreren Widerhaken (Stand der Technik);
- Figur 16:
- Stützadapter mit zusätzlich schräg einsteckbaren Stiften;
- Figur 17:
Draufsicht zu Figur 16 ;- Figur 18:
- Diagramm: Ausziehkraft F über Eindrücktiefe t für Stützadapter nach
Figur 1 (drei Stifte).
- Figure 1:
- Dimetric representation of a support adapter;
- Figure 2:
- front view too
figure 1 ; - Figure 3:
- side view too
figure 1 ; - Figure 4:
- Longitudinal section through the finished combination of building wall, support adapter and insulation panel, with the insulation panel not lying against the support structure of the support adapter;
- Figure 5:
- how
figure 4 , but with an insulating board that abuts the support structure of the support adapter; - Figure 6:
- Longitudinal section through a support adapter with a plate bulge;
- Figure 7:
- Support adapter with mounting holes;
- Figure 8:
- Support adapter with ring-shaped body;
- Figure 9:
- Support adapter for coupling two insulation boards;
- Figure 10:
- Back of an insulation panel with support adapters and adhesive foam strips placed on top;
- Figure 11:
- conical pin tapering towards the free end;
- Figure 12:
- conical pin tapering towards the body;
- Figure 13:
- Pin with sawtooth profile all around;
- Figure 14:
- pin with screwed sawtooth profile;
- Figure 15:
- Multi-barbed pin (prior art);
- Figure 16:
- Support adapter with additional pins that can be inserted at an angle;
- Figure 17:
- top view too
figure 16 ; - Figure 18:
- Diagram: pull-out force F versus indentation depth t for support adapter
figure 1 (three pins).
Die
Der Grundkörper (10) ist im Wesentlichen eine zumindest annähernd ebene Platte (11) mit einer z.B. konstanten Wandstärke. Die Plattenabmessungen betragen hier 40 mm * 40 mm * 3 mm. Von der planen Vorderseite (13) stehen die Stifte (30, 31) senkrecht ab. Der Grundkörper (10), bzw. die Platte (11) kann auch eine runde, eine ovale, eine elliptische, eine rechteckige, vgl.
Jeder Stift (30) ist in drei Bereiche aufgeteilt: einen Haltebereich (35), einen Spitzenbereich (36) und einen Stützbereich (33). Der Stützbereich (33) ist direkt an der Platte (11) angeformt. Er hat die Form eines z.B. 5 mm kurzen Zylinders, der einen Durchmesser von 8 mm aufweist. Der Stützbereich (33) hat in der zur Platte hin orientierten Übergangszone eine Fußausrundung (34), deren Radius z.B. 2 mm beträgt. Der Stützbereich (33) soll verhindern, dass die Wärmedämmplatte (5, 6), im Folgenden nur noch Dämmplatte genannt, so weit gegen die Vorderseite (13) des Grundkörpers (10) gepresst werden kann, dass die der Gebäudewand (98) zugewandte Fläche der Dämmplatte (5, 6), vgl.
Werden pro Grundkörper (10) mehrere Stifte (30, 31) verwendet, muss nur ein Teil der Stifte (30, 31) einen Stützbereich (33) aufweisen.If several pins (30, 31) are used per base body (10), only some of the pins (30, 31) need to have a support area (33).
An den Stützbereich (33) schließt sich der zylindrische Haltebereich (35) an. Seine Länge beträgt bei einem Durchmesser von 5,5 mm z.B. 27 mm. Der Haltebereich (35) hat eine relativ glatte Oberfläche, deren Mittenrauhwert Ra unter 0,5 µm liegt. In der Regel werden pro Stützadapter (1 - 4) gleich lange Stifte (30, 31) verwendet. Es ist jedoch auch möglich, die Stifte pro Stützadapter (1 - 4) nach Länge zu staffeln. So kann der erste Stift z.B. 25 mm lang sein, während der zweite 30 mm lang ist und der dritte eine Länge von 35 mm hat.The cylindrical holding area (35) adjoins the support area (33). With a diameter of 5.5 mm, its length is 27 mm, for example. The holding area (35) has a relatively smooth surface with a mean roughness value Ra of less than 0.5 μm. As a rule, pins (30, 31) of the same length are used for each support adapter (1-4). However, it is also possible to stagger the pins per support adapter (1 - 4) according to length. For example, the first pin can be 25 mm long, while the second is 30 mm long and the third has a length of 35 mm.
Die Größe der Stützadapter kann sich an der Größe der Dämmplatte orientieren. Für sehr großflächige Dämmplatten, deren Dämmfläche größer als ein Quadratmeter ist, kann beim Stützadapter die Fläche und Dicke des Grundkörpers, der Durchmesser und die Länge der Stifte größer gewählt werden als bei den gezeigten Ausführungsbeispielen. Allerdings sollte die Länge der Stifte immer kürzer sein als die Wandstärke der entsprechenden Dämmplatte.The size of the support adapter can be based on the size of the insulation board. For very large-area insulation panels, the insulation area of which is larger than one square meter, the area and thickness of the base body, the diameter and the length of the pins can be selected larger than in the exemplary embodiments shown for the support adapter. However, the length of the pins should always be shorter than the wall thickness of the corresponding insulation board.
Jeder Stift (30, 31) weist an seinem freien Ende einen Spitzenbereich (36) auf. Nach der
Für jeden Stift (30) haben jeweils der Stützbereich (33), der Haltebereich (35) und der Spitzenbereich (36) eine gemeinsame Mittellinie (32). Die Mittellinien (32) aller Stifte (30, 31) eines Grundkörpers (10) verlaufen parallel zueinander, vgl.
Ggf. kann an die Stelle des Zylindermantels (39) ein Kegelstumpfmantel treten, dessen Durchmesser sich mit zunehmendem Abstand von der Grundplatte (10) vergrößert. Der Kegelwinkel des Kegelstumpfmantels hat beispielsweise einen Kegelwinkel von 1 bis 3 Winkelgraden. Es ist möglich, die Mittellinien der Stifte gekrümmt auszuführen, so dass der Mantel Teil eines Rotationskörpers darstellt. Ein derartiger Rotationskörper wäre z.B. ein Torus, ein Rotationsparaboloid, ein Fass, ein Ellipsoid, eine Kugel oder andere Körper bzw. Flächen, die der Guldinschen Regel folgen.If necessary, the cylinder jacket (39) can be replaced by a truncated cone jacket, the diameter of which increases with increasing distance from the base plate (10). The cone angle of the truncated cone has, for example, a cone angle of 1 to 3 degrees. It is possible to make the center lines of the pins curved so that the mantle forms part of a solid of revolution. Such a body of revolution would be, for example, a torus, a paraboloid of revolution, a barrel, an ellipsoid, a sphere or other bodies or surfaces that obey Guldin's rule.
Nach
Die Stützstruktur (15) kann anstelle eines Schriftzuges auch ein Steg mit der Form eines beliebigen Kurvenzuges sein. Letzterer ist z.B. eine Wellenlinie, ein Ring, ein Kreuz oder auch nur eine Gruppe von zwei oder mehreren z.B. parallelen Stegen. Die Stützstruktur (15) ist auch als Plattenauswölbung (16) denkbar, wobei der höchste Punkt der Plattenauswölbung, der auch eine ebene Fläche darstellen kann, zwischen den Stiften (31) liegt, vgl.
Bei Stützadaptern (1), die diese (16) oder eine andere Stützstruktur (15) aufweisen, können die Stützbereiche (33) der Stifte (30) ggf. entfallen, vgl.
Der Grundkörper (10) hat hier eine nahezu plane Rückseite (14). Sie bildet zumindest bereichsweise eine ebene Fläche. Die ebene Fläche kann hierbei aus zwei oder mehreren voneinander beabstandeten Einzelflächen bestehen. Alle Einzelflächen liegen jedoch in einer Ebene.The base body (10) has an almost flat back (14) here. It forms a flat surface at least in some areas. In this case, the flat surface can consist of two or more individual surfaces spaced apart from one another. However, all individual surfaces lie in one plane.
Der Stützadapter ist aus einem Kunststoff, z.B. aus ABS oder PA hergestellt.The support adapter is made of a plastic, e.g. made of ABS or PA.
Die plane Fläche der Rückseite (14) ist mit einer Haftschicht (50) ausgestattet, vgl.
Die Haftschicht (50) besteht z.B. aus einem, auf die Rückseite (14) des Grundkörpers (10) aufgebrachten, hochviskosen und dauerklebrigen Klebstoff, der durch Andrücken auf einen festen Untergrund dort haften bleibt. Er ist mit einer Schutz- bzw. Abziehfolie (55) abgedeckt. Im Ausführungsbeispiel nach den
Ggf. sind die einzelnen Stützadapter (1, 4) nebeneinander auf einem doppelseitigen Klebeband angeordnet. Dabei ist zwischen den einzelnen Stützadaptern (1, 4) ein spaltartiger Zwischenraum von z.B. 0,5 bis 1,5 mm vorgesehen, um die Stützadapter (1, 4) für die Bereitstellung endlos aneinander zu fügen. Die Schutzfolie (55) dient dann als ein sogenanntes Endlos-Transportband, von dem die Stützadapter (1, 4) bei Gebrauch einfach abgezogen werden. Das Prinzip ist z.B. bekannt von aufgerollten, selbstklebenden Postwertzeichen im Hunderterpack.If necessary, the individual support adapters (1, 4) are arranged next to one another on double-sided adhesive tape. A gap of e.g. 0.5 to 1.5 mm is provided between the individual support adapters (1, 4) in order to endlessly join the support adapters (1, 4) to one another for deployment. The protective film (55) then serves as a so-called endless conveyor belt from which the support adapters (1, 4) are simply pulled off when used. The principle is known, for example, from rolled-up, self-adhesive postage stamps in packs of hundreds.
Um eine Dämmplatte (5, 6) mit Hilfe von Stützadaptern (1 - 4) und Klebeschaum (8) an einer Gebäudewand (98) zu befestigen, gibt es mehrere Möglichkeiten vorzugehen. Bei einer ersten Vorgehensweise werden die Stützadapter (1 - 4) in die Rückseite der anzuklebenden Dämmplatte (5) eingesteckt, vgl.
Alternativ kann der Klebeschaum (8) auch nur punktuell auf der Dämmplatte (5), z.B. im Bereich der Plattenecken und der Plattenmitte, aufgetragen werden. Auch jedes andere Muster der Klebeschaumaufbringung ist denkbar.Alternatively, the adhesive foam (8) can also be applied to the insulating board (5) only at certain points, e.g. in the area of the board corners and the middle of the board. Any other pattern of adhesive foam application is also conceivable.
Die mit Klebeschaum (8) präparierte Dämmplatte (5) wird nun an einer bestimmten Stelle an der Gebäudewand (98) an deren Oberfläche (99) angelegt. Die mit Haftkleber beschichteten Rückseiten (14) der Stützadapter (1) passen sich an der Oberfläche (99) haftend an. Mit Hilfe einer Wasserwaage und/oder einer Richtlatte wird die Dämmplatte (5) in horizontaler und vertikaler Richtung unter Andrücken an die Gebäudewand (98) ausgerichtet. Beim Andrücken werden die Stützadapter (1) weiter in die Dämmplatte (5) hineingedrückt. Durch das feste Anschmiegen an die Oberfläche (99) stützt sich die mit der Haftschicht (50) ausgestattete Rückseite (14) des einzelnen Stützadapters (1) an der Gebäudewand (98) unter Verkleben ab. Nach dem Andrück- und Ausrichtvorgang haftet die Dämmplatte (5) zunächst nur aufgrund der Haftkräfte der einzelnen Stützadapter (1) sicher an der Gebäudewand (98).The insulating board (5) prepared with adhesive foam (8) is now applied to the surface (99) at a specific point on the building wall (98). The backs (14) of the support adapters (1), which are coated with adhesive, conform to the surface (99) in an adhesive manner. Using a spirit level and/or a straightedge, the insulating panel (5) is aligned in the horizontal and vertical directions while pressing against the building wall (98). When pressing on, the support adapters (1) are pushed further into the insulation board (5). By clinging firmly to the surface (99), the rear side (14) of the individual support adapter (1), which is equipped with the adhesive layer (50), is supported on the building wall (98) with adhesion. After the pressing and aligning process, the insulation panel (5) initially only adheres securely to the building wall (98) due to the adhesive forces of the individual support adapters (1).
Hierbei kommen zwei Haftkräfte zur Wirkung. Die erste Haftkraft ist die, die zwischen der Wandoberfläche (99) und der Haftschicht (50) des Grundkörpers (10) wirkt. Bei einem Stützadapter (1) nach den
Die zweite Haftkraft ergibt sich durch das Einstecken der Stifte (30, 31) der Stützadapter (1 - 4) in die Dämmplatte (5, 6). Der einzelne glatte Stifte (30, 31) verdrängt beim Eindrücken das Material der Dämmplatte (5, 6) radial zur Seite hin, so dass sich um den Stift (30, 31) herum eine Materialverdichtung ergibt. Dadurch wird der Stift (30, 31) radial geklemmt. Neben der Klemmkraft ergeben sich durch die glatte Oberfläche des Stiftes Adhäsionskräfte, die einem Herausziehen des Stiftes (30, 31) aus der Dämmplatte (5, 6) entgegenwirkt.The second adhesive force results from the insertion of the pins (30, 31) of the support adapters (1 - 4) into the insulating board (5, 6). The single smooth pin (30, 31) displaces the material of the insulating panel (5, 6) radially to the side when it is pressed in, so that the material around the pin (30, 31) is compressed. As a result, the pin (30, 31) is radially clamped. In addition to the clamping force, the smooth surface of the pin results in adhesive forces which counteract the pin (30, 31) being pulled out of the insulating board (5, 6).
Die zweite Haftkraft ist abhängig von der Eindrücktiefe der Stifte (30, 31). In
Beide Dämmplattentypen haben bei einer mittleren Eindringtiefe des Stützadapters (1) von 20 mm eine Haltekraft von ca. 20 N. Da Dämmplatten der Abmessungen 1000 mm * 500 mm * 50 mm in der Regel mit drei Stützadaptern (1) fixiert werden, beträgt die erforderliche Haltekraft mit 33-prozentigem Sicherheitszuschlag 40 N. Bei einer Plattengewichtskraft von 3,9 N bei der Platte "ESP 032 WDV" und 5,1 N bei der Platte "ESP 035 WDV" bleiben damit diese Platten mit mehrfacher Sicherheit - einschließlich des aufgetragenen Klebeschaums - sogar an einer Decke hängen.With an average penetration depth of the support adapter (1) of 20 mm, both insulation board types have a holding force of approx. 20 N. Since insulation boards with the dimensions 1000 mm * 500 mm * 50 mm are usually fixed with three support adapters (1), the necessary Holding force with a 33 percent safety margin is 40 N. With a panel weight of 3.9 N for the "
Mit dem Aushärten des Klebeschaumes (8) übernimmt dieser die Halte- und/oder Tragfunktion der Stützadapter (1 - 4). Letztere haben nun in der Regel keine Funktion mehr.When the adhesive foam (8) hardens, it assumes the holding and/or carrying function of the support adapters (1 - 4). The latter usually no longer have any function.
In einer zweiten Vorgehensweise wird die mit den Stützadaptern (1 - 4) bestückte Dämmplatte (5, 6) an die Gebäudewand (98) angelegt und dort unter Ausrichten angedrückt, so dass die Stützadapter (1 - 4) ihre endgültige Eindrücktiefe erreichen. Allerdings sind hier die Schutzfolien (55) noch nicht von den Stützadaptern (1 - 4) abgezogen. Nach dem Ausrichten wird die Dämmplatte (5, 6) wieder von der Gebäudewand (98) genommen. Die Schutzfolien (55) werden von den Stützadaptern (1 - 4) abgezogen und der Klebeschaum (8) rückseitig auf der Dämmplatte (5, 6) aufgebracht. Abschließend wird die Dämmplatte (5, 6) mit geringem Druck an der Gebäudewand (98) in der vorgesehenen Position angelegt. Ein weiteres Ausrichten ist nicht mehr erforderlich.In a second procedure, the insulating board (5, 6) equipped with the support adapters (1 - 4) is placed against the building wall (98) and pressed there while aligning, so that the support adapters (1 - 4) reach their final impression depth. However, the protective films (55) have not yet been removed from the support adapters (1 - 4). After alignment, the insulating board (5, 6) is taken off the building wall (98) again. The protective films (55) are removed from the support adapters (1 - 4) and the adhesive foam (8) is applied to the back of the insulating board (5, 6). Finally, the insulation panel (5, 6) is applied with little pressure to the building wall (98) in the intended position. Further alignment is no longer required.
Bei einer dritten Vorgehensweise werden drei oder mehr Stützadapter (1 - 4) mit ihrer klebenden Rückseite an die Gebäudewand (98) geklebt. Sie werden dazu so angeordnet, dass sie in dem Bereich liegen, der von der anzuklebenden Dämmplatte (5, 6) abgedeckt wird. Hier wird nun der Klebeschaum (8) ebenfalls direkt auf die Gebäudewand (98) aufgetragen. Zuletzt wird die Dämmplatte (5, 6) vor den Stützadaptern (1 - 4) positioniert und dann z.B. unter Zuhilfenahme einer Wasserwaage und/oder einer Richtlatte angedrückt. Sobald die Tiefenausrichtung die Sollposition erreicht hat, ist der Vorgang beendet.In a third approach, three or more support adapters (1-4) are glued to the building wall (98) with their adhesive backing. They are arranged so that they are in the area that is covered by the insulation board (5, 6) to be bonded. Here the adhesive foam (8) is also applied directly to the building wall (98). Finally, the insulating board (5, 6) is positioned in front of the support adapters (1 - 4) and then pressed on using a spirit level and/or a straightedge, for example. Once the depth alignment has reached the target position, the process is complete.
Die vorherigen Vorgehensweisen können dadurch variiert werden, dass das Ausrichten der Dämmplatten (5, 6) und das Ankleben der Stützadapter (1 - 4) zunächst ohne das Aufbringen des Klebeschaums (8) auf die Dämmplatte (5, 6) oder die Gebäudewand (98) erfolgt. Der Klebeschaum (8) wird hier mittels eines längeren Sprührohres zwischen die Gebäudewand (98) und die schon über die Stützadapter (1 - 4) haftende Dämmplatte (5, 6) eingebracht. Dies ist eine Art von Hinterfüllen. Das Sprührohr der Klebeschaumpatrone wird hierbei entlang der Gebäudewand (98) - also nicht senkrecht zur Gebäudewand (98) - hinter die Dämmplatte (5, 6) geführt.The previous procedures can be varied by initially aligning the insulating boards (5, 6) and gluing the support adapters (1 - 4) without applying the adhesive foam (8) to the insulating board (5, 6) or the building wall (98 ) he follows. The adhesive foam (8) is here by means of a longer spray tube between the building wall (98) and the insulating board (5, 6) already adhering via the support adapter (1 - 4). This is a type of backfill. The spray tube of the adhesive foam cartridge is here along the building wall (98) - out behind the insulating board (5, 6) - so not perpendicular to the building wall (98).
Die
Mit der
Die
In den
Der Stift aus
Die Stifte der
Der Stift nach
In jede der Bohrungen (81) kann bei Bedarf - zur Erhöhung der Haftkraft zwischen dem Stützadapter und der Dämmplatte - ein einzelner Stift (85) eingesteckt werden.If required, a single pin (85) can be inserted into each of the bores (81) in order to increase the adhesive force between the support adapter and the insulating board.
Dieser Stützadapter (80) wird u.a. verwendet, wenn sich die Dämmplattenmontage an der vorgenannten zweiten Vorgehensweise orientiert.This support adapter (80) is used, among other things, when the insulating board assembly is based on the second procedure mentioned above.
- 11
- Stützadapter, quadratische GrundflächeSupport adapter, square base
- 22
- Stützadapter, sechseckige GrundflächeSupport adapter, hexagonal base
- 33
- Stützadapter, ringförmige GrundflächeSupport adapter, annular base
- 44
- Stützadapter, rechteckige GrundflächeSupport adapter, rectangular base
- 5, 65, 6
- Dämmplatten, Wärmedämmplatteninsulation boards, heat insulation boards
- 77
- DämmplattenmontagefugeInsulation board assembly joint
- 88th
- Klebeschaum, MontageschaumAdhesive foam, mounting foam
- 99
- Klebeschaumstreifenadhesive foam strips
- 1010
- Grundkörperbody
- 1111
- Platteplate
- 1313
- Vorderseitefront
- 1414
- Rückseite, ebene FlächeRear, flat surface
- 1515
- Stützstruktur, SchriftzugSupport structure, lettering
- 1616
- Plattenauswölbung, Stützstrukturplate bulge, support structure
- 1717
- Ausnehmung, DurchgangsbohrungRecess, through hole
- 1919
- Wandabstand, minimalWall distance, minimal
- 3030
- Stift mit StützbereichPen with support area
- 3131
- Stift ohne StützbereichPen without support area
- 3232
- Mittelliniecenterline
- 3333
- Stützbereichsupport area
- 3434
- Fußausrundungfoot fillet
- 3535
- Haltebereichholding area
- 3636
- Spitzenbereichpeak area
- 3737
- SpitzeTop
- 3838
- Übergangszone, abgerundettransition zone, rounded
- 3939
- Zylindermantel, fiktivCylinder jacket, fictitious
- 5050
- Haftschicht, HaftkleberAdhesive layer, pressure-sensitive adhesive
- 5555
- Abziehfolie, Schutzfoliepeel-off film, protective film
- 5656
- Abziehlasche, GrifflaschePull tab, grip tab
- 8080
- Stützadapter mit EinsteckstiftenSupport adapter with plug-in pins
- 8181
- Bohrung, schrägbore, oblique
- 8585
- StiftPen
- 8686
- Stiftkopfpen head
- 8787
- Mittelliniecenterline
- 9898
- Gebäudewand, Gebäudedecke, GebäudebodenBuilding wall, building ceiling, building floor
- 9999
- Gebäudeoberfläche, Gebäudewandoberflächebuilding surface, building wall surface
Claims (7)
- Support adapter for temporarily fixing insulation panels (5, 6) on a building surface (99),- wherein said support adapter consists of a main body (10) and at least one smooth pin (30, 31) formed on the front of the same, which pin (30, 31) has a cylindrical holding region (35) and a tip region (36),- wherein the tip region (36) tapers starting from the holding region (35),- wherein the main body (10) has a surface (14) on its back, which is flat at least in portions,- wherein the at least one pin (30, 31) is aligned perpendicular to the plane of the surface (14), wherein the centre line (32) of the pen (30, 31) has a deviation of zero to three angular degrees from the perpendicular,- wherein the at least one pin (30) has a support region (33), and/or the main body (10) has a support structure (15, 16), for ensuring a minimum distance of the insulation panel (5, 6) relative to the front (13) of the main body (10), which is necessary for generating the required adhesive force of an adhesive foam (8), and- wherein the main body (10) has an adhesive layer (50) on its back for securely fixing the former during the assembly of the insulation panel (5, 6) and the curing of the adhesive foam.
- Support adapter according to claim 1, characterized in that the main body (10) is a flat panel (11).
- Support adapter according to claim 1, characterized in that the single pin (30, 31, 85) has a tip region (36) which is a straight cone.
- Support adapter according to claim 1, characterized in that the single pin (30, 31) has a holding region (35), the surface of which has an arithmetic average roughness Ra which is below 0.5 µm.
- Support adapter according to claim 1, characterized in that the adhesive layer (50) consists of a adhesive covered with a protective film (55).
- Support adapter according to claim 1, characterized in that in a support adapter (1, 2, 3) with at least three pins (30, 31), the pins (30, 31) have parallel centre lines (32) which are positioned equidistant on the surface of a virtual cylinder (39), the diameter of which is less than six times the pin diameter in the holding region (35) of the latter.
- Use of a support adapter for temporarily fixing insulation panels (5, 6) on a building surface (99),- wherein said support adapter consists of a main body (10) and at least one smooth pin (30, 31) formed on the front of the same, which pin (30, 31) has a cylindrical holding region (35) and a tip region (36),- wherein the tip region (36) tapers starting from the holding region (35),- wherein the main body (10) has a surface (14) on its back, which is flat at least in portions,- wherein the at least one pin (30, 31) is aligned perpendicular to the plane of the surface (14), wherein the centre line (32) of the pen (30, 31) has a deviation of zero to three angular degrees from the perpendicular,- wherein the at least one pin (30) has a support region (33), and/or the main body (10) has a support structure (15, 16), for ensuring a minimum distance of the insulation panel (5, 6) relative to the front (13) of the main body (10), which is necessary for generating the required adhesive force of an adhesive foam (8), and- wherein the main body (10) has an adhesive layer (50) on its back, and- wherein the adhesive layers (50) of the support adapters (1-4) temporarily hold the insulation panel (5, 6) during the assembly of the same and for the time in which the adhesive foam cures.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE102010005444A DE102010005444B4 (en) | 2010-01-21 | 2010-01-21 | support adapter |
Publications (3)
Publication Number | Publication Date |
---|---|
EP2348163A2 EP2348163A2 (en) | 2011-07-27 |
EP2348163A3 EP2348163A3 (en) | 2014-12-03 |
EP2348163B1 true EP2348163B1 (en) | 2022-04-13 |
Family
ID=43824567
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP11000457.9A Active EP2348163B1 (en) | 2010-01-21 | 2011-01-21 | Support adapter |
Country Status (2)
Country | Link |
---|---|
EP (1) | EP2348163B1 (en) |
DE (1) | DE102010005444B4 (en) |
Families Citing this family (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE102010005444B4 (en) * | 2010-01-21 | 2012-01-05 | Günther Zimmer | support adapter |
DE102012022668A1 (en) | 2012-10-30 | 2014-04-30 | Dieter Maruschke | Insulation system for the thermal insulation of a wall |
DE102021128507A1 (en) * | 2021-11-02 | 2023-05-04 | Brillux GmbH & Co. Kommanditgesellschaft | Insulation system and method of installing insulation panels |
Family Cites Families (16)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3106751A (en) * | 1955-12-16 | 1963-10-15 | Dow Chemical Co | Insulated wall structure |
AT364934B (en) * | 1979-10-09 | 1981-11-25 | Roeck Roland | COATING, ESPECIALLY FOR ACCESSIBLE AREAS |
DE8119757U1 (en) * | 1981-07-07 | 1981-09-17 | Kellner Gmbh & Co Kg, 4514 Ostercappeln | CONNECTOR |
CH657652A5 (en) * | 1982-09-23 | 1986-09-15 | Wolfgang Schugk | Retainer for fastening insulating fibre mats - consists of plate with barbed plug inserted into mat |
DE9003736U1 (en) * | 1990-03-30 | 1990-06-07 | TOX-Dübel-Werk R.W. Heckhausen GmbH & Co KG, 7762 Bodman-Ludwigshafen | Device for attaching insulation mats to air duct walls |
DE29500185U1 (en) * | 1994-03-01 | 1995-06-29 | Kakuschke, Achim, 58454 Witten | Holding element |
DE19513206C2 (en) * | 1995-04-11 | 1999-09-23 | Klaus Reimann | Fastener |
DE29919360U1 (en) * | 1999-11-04 | 2001-03-15 | MARMORIT GmbH, 79283 Bollschweil | Fastening element for a thermal insulation element on a building wall |
DE29920332U1 (en) * | 1999-11-19 | 2000-03-30 | Alsecco Bauchemische Produkte GmbH & Co. KG, 36208 Wildeck | Device for fastening a sensor to a component on a composite thermal insulation system |
US20040055236A1 (en) * | 2002-09-25 | 2004-03-25 | Keith David O. | Insulating connectors for securing insulation to an existing structure |
GB0305068D0 (en) * | 2003-03-06 | 2003-04-09 | Merdel Ltd | Structural insulation panel and fixing |
AT413993B (en) * | 2003-05-27 | 2006-08-15 | Stich Friedrich | INSULATED FASTENING DEVICE FOR INSULATED FAÇADES |
DE102004035249B3 (en) | 2004-07-21 | 2006-03-09 | Sto Ag | A method for improving thermal insulation foam fillers in building work has the ground structure moistened with water before application |
DE102004060390A1 (en) | 2004-12-14 | 2006-06-29 | Brillux Gmbh & Co. Kg | Method for installing insulation boards |
GB2421741A (en) * | 2004-12-16 | 2006-07-05 | Celotex Ltd | Clip for supporting insulation board |
DE102010005444B4 (en) * | 2010-01-21 | 2012-01-05 | Günther Zimmer | support adapter |
-
2010
- 2010-01-21 DE DE102010005444A patent/DE102010005444B4/en not_active Expired - Fee Related
-
2011
- 2011-01-21 EP EP11000457.9A patent/EP2348163B1/en active Active
Also Published As
Publication number | Publication date |
---|---|
EP2348163A3 (en) | 2014-12-03 |
DE102010005444A1 (en) | 2011-07-28 |
EP2348163A2 (en) | 2011-07-27 |
DE102010005444B4 (en) | 2012-01-05 |
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