Insulating element with a static console

专利摘要:
The invention relates to an insulating element (1) with a static console (40) for a porch box (6) on a wall opening (2) of a building (20). The insulating element (1) has an insulating body (10) which extends over the width (W) of the wall opening (2) and on its wall opening (2) facing away from the longitudinal side (12) with the building (20) is to be connected. On its longitudinal side (22) facing the wall opening (2) there is provided a fastening strip (19) for a frame (31) of a window (30), the fastening strip (19) extending at least in sections along the insulating body (10). According to the invention, the static console (40) projects through the insulating body (10) and forms a mechanically strong connection between the fastening strip (19) and the building (10).
公开号:AT517187A1
申请号:T50403/2016
申请日:2016-05-03
公开日:2016-11-15
发明作者:
申请人:Schlotterer Rollcom De Gmbh & Co Kg；
IPC主号:

专利说明:

INSULATING ELEMENT WITH A STATIK CONSOLE
The invention relates to an insulating element for a stem box of a roller shutter or the like. At a wall opening of a building. The insulating element has a over the width of the wall opening extending insulating body. On its side facing away from the wall opening longitudinal side of the insulating body is provided for connection to the building. On its longitudinal side facing the wall opening, a fastening strip is connected to the insulating body, which extends at least in sections along the insulating body and may be supported on the building via a static console. The fastening strip is used to fix a arranged in the wall opening frame, z. As a door frame, a window frame or the like.
Window makers provide for fixing wider windows before to provide an angle on the inside of the building of the wall opening, which is a mechanical connection z. B. manufactures between the ceiling and the frame of the window to be mounted. Such external static panels disturb the overall visual appearance, even if they are embedded with effort in the masonry.
To stabilize the frame wider windows or doors is also known, in the frame a metal support, a metal pipe or the like. Admit; However, this creates undesirable cold bridges.
The invention has for its object to provide an insulating element for a stem box, z. As for receiving a shutter, a Venetian blinds, a textile sunscreen or the like. Further develop such that a mechanically strong hold and larger frame widths with good thermal insulation is possible.
The object is achieved according to the characterizing features of claim 1.
According to the invention, it is provided that the static console penetrates the insulating body and can be used as a mechanical connection between the fastening strip and the building.
Despite the arrangement of the static console within the insulating element, the insulating function of the insulating body is not significantly disturbed by the static console, so that a good thermal insulation is given and cold bridges are avoided.
Moreover, since the arrangement of the static console in the insulating element provides the opportunity to produce a straight, direct connection between the mounting bar and the structure, the lever length of the static console can be reduced to a minimum. As a result, the mechanical connection between the fastening strip and the building can be made stiffer. For easy transport in a small storage space, the static console is advantageously designed in several parts, so that protruding sub-elements of the static console during transport of the insulating element can be dismantled if necessary.
Advantageously, the static console consists of at least three console elements, wherein a first console element of a first anchor rod, a second console element of a second anchor rod and a third console element is formed from a mounting plate, which can also serve as a mounting flange for the mounting strip.
The anchor rods are fixed in particular releasably on the mounting plate, in particular screwed into the mounting plate.
The first anchor rod is straight and has a first longitudinal axis. The second anchor rod is preferably the same as that of the first anchor rod and has a second longitudinal axis. The anchor rods are fixed on the mounting plate so that their orientation to the mounting plate is different. Both anchor rods are arranged on the same flat side of the mounting plate; Both anchor rods protrude from the same flat side of the mounting plate. The first longitudinal axis of the first anchor rod fixed to the mounting plate is at a first angle to the mounting plate, and the second longitudinal axis of the second anchor rod fixed to the mounting plate is at a second angle to the mounting plate. The first angle and the second angle have different sizes. Advantageously, the first angle is a right angle and the second angle is smaller or larger than a right angle.
The anchor rods are mounted so as to lie with a distance measured in the plane of the mounting plate.
Advantageously, an anchor rod is divided in its length; the pitch is about half to 2/3 length, measured from the mounting plate. In a simple way, an anchor rod is formed from a threaded rod, so that an anchor rod can be screwed into the mounting plate. A split anchor rod can be screwed together in a simple manner via a threaded sleeve.
The formation of the anchor rod as a threaded rod facilitates assembly by screws; In addition, the thread ensures an intimate connection or toothing of the anchor rod in the concrete of the lintel.
In a further embodiment of the static console, this can have an anchor head, preferably for attachment in the building, as well as a fastening flange, in particular for fixing to the fastening strip. In this case, the anchor head for a good anchorage z. B. in the concrete of a cast ceiling or the like. Be designed while the mounting flange can be optimized for setting the mounting bar.
In a particular embodiment of the invention, the static console between the anchor head and the mounting flange is separated. The static console is composed of two console elements. Suitably, the anchor head and the mounting flange of the static console are connected to each other via a straight flat element. As a result, the lever arm of the static console is kept short.
The flat element expediently has a length which is greater than the height of the insulating body. In this case, the mounting flange and / or the anchor head may be formed by an angled end of the flat element. In a preferred embodiment of the invention, the anchor head is designed as a component separate from the flat element and is, for. B. after assembly of the flat element in the insulating body, connected to the flat element, in particular screwed.
It is preferably provided to arrange the flat element in a plane which intersects the longitudinal center of the insulating body at an angle of in particular 90 °. The plane of the flat element and the longitudinal center plane of the insulating body are thus at right angles to each other.
It may be appropriate to arrange a plurality of static consoles at a distance from each other over the length of the insulating body. Thus, it can be ensured for each width of a frame to be mounted that a mechanically fixed connection to the building can be produced at predetermined intervals without cold bridges occurring.
Further features of the invention emerge from the further claims, the description and the drawing, in which embodiments of the invention described in detail below are illustrated. Show it:
1 is a schematic representation of a section through an installed in a building insulation element for a porch box above a window opening,
2 shows a section corresponding to the illustration in FIG. 1 with a static console in a first embodiment, FIG.
3 is a schematic view of the insulating element in the direction of arrow III in Fig. 2,
4 is a schematic section of the built-in static console with arranged connection reinforcement,
5 is a perspective view of the built-in static console seen from the inside of the building,
6 is a schematic perspective view of a static console in a further embodiment,
7 is a perspective view of a static console in a further embodiment,
8 is a plan view of a bottom plate of the static console of FIG. 7,
9 is a first side view of the static console of FIG. 7,
10 is a second side view of the static console of FIG. 7,
11 is a schematic perspective view of a section through an installed in a building insulation element for a porch box above a window opening with a static console of FIG .. 7
In Fig. 1 is a section transverse to the longitudinal center axis of the insulating element 1 in an installed position above a wall opening 2, in the embodiment of a window opening 3, shown. The insulating element 1 arranged above the wall opening 2 has a building inner side 11 facing the interior 4 of a building as well as a building exterior 21 facing the outside environment. In the building exterior 21 of the insulating element 1, a recess 5 for receiving a stem box 6 is provided. Such, arranged in front of the level 7 of the wall opening 2 porch box 6 can be used to hold a Vorbaurollladens 56, a Venetian blind, a textile cloth a vertical awning or the like. Visibility and / or sun protection.
In one embodiment, as Vorbaurollladen 56 of the stem box 56 is held gestural on lateral guide rails 8, so that a supporting attachment of the stem box 6 in the insulating element 1 is omitted. It may be appropriate to fix the stem box 6 in the insulating element 1 by screws, gluing or the like., In particular to fix in addition.
The front of the stem box 6 may be provided with a supplementary thermal barrier coating 9 or a carrier for an external plaster. By way of an inspection flap 16 which can be opened outwards, maintenance and repair work can be carried out on the stem box or the contents.
The insulating element 1 consists of an insulating body 10 with a length which extends over the width W (FIG. 3) of the wall opening 2. On its side facing away from the wall opening 2 longitudinal side 12 profile grooves 13 are provided, the undercuts 14 show. When casting z. B. a ceiling 15 run the profile grooves 13 with concrete 17 full. Due to the undercuts 14, the insulating body 10 of the insulating element 1 is firmly connected to the ceiling 15 of the structure 20. Both in the vertical direction and transverse to the vertical direction a positive connection between the insulating body 10 and the structure 20 is created. As building 20 are also precast elements, z. B. wall elements to understand.
For thermal insulation, an insulating body 18 is provided as a thermal insulation between the ceiling 15 and the building exterior 21. The insulating body 18 may be mounted on the insulating body 10 of the insulating element 1 according to the invention and / or on the ceiling 15 of the building 20, in particular be glued.
On the wall opening 2 facing longitudinal side 22 of the insulating body 10, a fastening strip 19 is provided, which extends - at least in sections - in the longitudinal direction of the insulating body 10. It may be advantageous to provide the fastening strip 19 over the entire length of the wall opening 2; Preferably, a longitudinal central axis 23 of the fastening strip 19 lies in the plane 7 of the wall opening 2. It may be sufficient if the fastening strip 19 extends over sections of the insulating body 10. The fastening strip 19 may have a width which corresponds to the width of the longitudinal opening 22 facing the wall opening 2. In Fig. 2 such a wide fastening strip 19 is indicated by dashed lines.
The fastening strip 19 is preferably made of a material with high rigidity and good thermal insulation; a suitable material is z. As composite material or laminated wood, especially a traded under the brand name Kerto-Q® material.
According to the invention, the fastening strip 19 is connected to the building 20 via a static console 40, so that the fastening strip 19 is mechanically fixed to the building 20 in conjunction. In this case, the static console 40 extends through the insulating element from the wall opening 2 facing longitudinal side 22 to the building 20 facing longitudinal side 12. Preferably, the static console 40 extends through the insulating body 10 over its entire height H, as shown in Fig. 2. The static console 40 is preferably in a receiving slot 55; It may be appropriate to 40 to divide the insulating body 10 for mounting the static console.
For connection to the building 20, the static console on an anchor head 41 and a mounting flange 42 for fixing the fastening strip 19 on the static console 40. In the first embodiment of the static console 40 shown in Figures 2 and 3, the anchor head 41 with the mounting flange 42 via a flat element 43 connected to each other. Preferably, the static console 40 is made of metal; the flat element 43 is expediently a flat iron.
As shown in FIG. 2, the flat element 43 projects beyond the longitudinal side 22 facing the building; the flat element 43 extends in its longitudinal direction over a length F which is greater than the height H of the insulating body 10. The mounting flange 42 is expediently designed as an angled end 44 of the flat element 43. The mounting flange 42 extends - see in particular Fig. 3 - in the direction of the fastening strip 19, in particular in the direction of the longitudinal central axis 23rd
In the exemplary embodiment shown in FIGS. 2 and 3, the anchor head 41 is designed as a component 45 separated from the flat element 43. As the figures show, the component 45 is screwed by means of fastening screws 46 at the free end 47 of the flat element 43. Suitably, an upper edge 48 of the anchor head 41 is at the same height as the end edge 49 of the free end 47 of the flat element 43rd
The height F (FIG. 2) of the flat element 43 can be selected correspondingly to the insulating body 10 and / or the installation situation. The bolt-on anchor head 41 can thus be equally used on flat elements 43 of different heights.
The anchor head 41 of the static console 40 is formed in the embodiment of Figures 2 and 3 by a U-profile 50, in particular Fig. 2 shows. The U-profile 50 is located with its opening facing the plane of the building inside 11 of the insulating body 10; on the back of the U-profile 50, a mounting flange 51 is provided on the bottom 52, which - as FIG. 3 shows - parallel to the plane 33 of the flat element 43 extends. Holes in the mounting flange 51 and the free end 47 of the flat element 43 serve to receive the mounting screws 46 for fixing the anchor head 41 on the flat element 43. In the mounted position, the bottom 52 of the U-profile 50 to the flat element 43 has a distance a.
The length U of the anchor head 41 corresponds approximately to twice to 3 times the length E of the mounting flange 42. The longitudinal center axis 24 of the mounting flange and the longitudinal central axis 34 of the anchor head 41 extend in the direction of the longitudinal center axis 32 of the insulating body 10. Advantageously, the longitudinal center axis 24 of the mounting flange 42nd and the longitudinal center axis 34 of the anchor head 41 parallel to each other.
The flat element 43 of the static console 40 forms a plane 33 on which the longitudinal central axis 32 of the insulating body 10 is perpendicular. The longitudinal central axis 32 of the insulating body 10 is orthogonal to the plane 33 defined by the flat element 43.
The angle 25 shown in FIG. 3 between the longitudinal center axis 32 and the plane 33 defined by the flat element 43 may also be chosen to differ from 90 °; Thus, a cutting angle between the longitudinal center axis 32 and the plane 33 may be less than 90 °, in particular 45 ° appropriate.
The flat element 43, which is advantageously designed as a flat iron in the exemplary embodiment, has a width B which corresponds to a multiple of its thickness D. In the exemplary embodiments shown, the width B is advantageously selected such that it corresponds to 4 to 8 times, in particular 3 to 6 times, the thickness D. Preferably, a width B is selected which corresponds to 5 times the thickness D of the flat element 43. Based on the insulating body 10 of the insulating element 1 between the exterior of the building 21 of the insulating element 1 and the building 11 of the insulating element 1 transverse to the longitudinal central axis 32 measured depth T 5-10 times greater than the width B of the flat element 43. Preferably, the Depth 6 to 8 times greater than the width B of the flat element 43. Suitably, the depth T corresponds to 6.5 times the width B of the flat element 43rd
As shown in FIG. 2, the flat element 43 is at a smaller distance e to the building inside 11 of the insulating body 10 as the building exterior 21 of the insulating body 10. The measured between the flat element 43 and the building exterior 21 distance d corresponds to about twice to 3 times the distance e to the building 11.
The insulating element 1 forms a commercial unit HE, which is framed in Fig. 2 by dashed lines. The insulating element 1 is to be used for a corresponding thermally insulated mounting of the stem box 6.
When casting z. As a ceiling 15, a lintel or the like. Made of concrete, the anchor head 41 is completely enclosed by the concrete 17, whereby the static console 40 is firmly connected to the building 20. It is thereby achieved that the fastening strip 19 is fixedly connected to the building 20 via the fastening flange 42 of the flat element 43. By appropriate design of the static console 40, a largely rigid connection of the fastening strip 19 with the structure 20 is achieved with a small lever arm.
As FIGS. 2 and 3 show, the fastening strip 19 is connected to the fastening flange 42 with a fixed mechanical connection 35. Adhesive connections can also be advantageous.
On the mounting bar 19 z. B. by a screw 36, the frame 31 of a window 30 is screwed. The attachment points of the screw 36 can be selected adapted to the installation situation. Over the length of a frame 31, the window manufacturer can largely freely choose a screw-on point and screw in a screw. Between the frame 31 and the fastening strip 19, a Kompriband 37 may be provided. A Kompriband is also referred to as a stop band or joint tape and is usually formed by a pre-compressed sealing strip, which slowly expands after insertion into a joint and rests close to the joint edges. A compriband is preferably made on a polyurethane basis.
Act, as shown in Fig. 2 by the double arrow 27, on the frame 31 perpendicular to the plane 7 loading forces, they are derived via the static console 40 in the building 20. Since the plane 33 of the flat element 43 extends in the loading direction according to the double arrow 27, a high rigidity is achieved even with small material thicknesses D. Low material thicknesses are desirable in terms of low heat transfer from the building exterior 21 to the building 11 inside; a high rigidity for mechanically loadable mounting a frame 31 in the wall opening 2 is still guaranteed.
Figures 4 and 5 show a schematic representation of a schematic section through a built-static console in an insulating element above a window 30. The embodiment shown in Figures 4 and 5 substantially corresponds to the structure of Figures 1 to 3, which is the same for the same parts Reference numerals are used.
The frame 31 of the window 30 is fixed with largely freely selectable screw points on the fastening strip 19, which is preferably arranged in the insulating body 10. As shown in FIG. 5, the fastening strip 19 can extend over the entire width of the window 30 and rest on the masonry right and left of the wall opening 2. The consisting of rigid foam or similar insulating material insulating body 10 is provided with a static console 40, which - approximately in the plane 7 of the window 30 - the insulating body 10 projects from its longitudinal side facing the window 22 to its side facing away from the window longitudinal side 12. The static console 40 projects beyond the longitudinal side 12 facing away from the window 30 and carries the anchor head 41 at its free end. B. in a ceiling 15, as indicated schematically in Fig. 4. The concrete of the ceiling 15 also fills the profile grooves 13 and ensures a positive connection due to the intended undercuts 14 with the insulating body 10th
The anchor head 41 can - as the figures 4 and 5 show - be connected to the reinforcement of the ceiling 15. For this purpose, the anchor head 41 is provided with a reinforcement 38, which is formed from reinforcing bars 39, in particular U-shaped reinforcing bars 39.
As shown in FIG. 5, it may be sufficient to provide in each case a U-shaped reinforcing bar 39 in the region of the ends of the U-profile 50 of the anchor head 41, the limbs of which project toward the building inside 11. Suitably, the reinforcing bars 39 are connected to the reinforcement of the ceiling 15.
As clearly shown in FIG. 4, the longitudinal center axis 58 of the flat element 43 of the static console 40 lies in such a way that it perpendicularly intersects the longitudinal central axis 23 of the fastening strip 19. Forces acting on the fastening strip 19 are derived by the shortest route via the flat element 43 of the static console 40 into the ceiling 15 of the structure 20.
In a particular embodiment of the invention, the flat element 43 extends in the same plane in which loading forces according to double arrow 27 can occur. The plane of the flat element 43 of the static console 40 is at right angles to the plane 7.
In the exemplary embodiment according to FIG. 6, the static console 40 consists of a first component 40a and a second component 40b. If the static console 40 is in each case composed of two components 40a and 40b, a symmetrical design based on the contact plane 57 is expedient. Each component 40a and 40b of the static console 40 has a flat element 43 as a connection between an anchor head 41 and a fastening flange 42. Both the anchor head 41 and the mounting flange 42 are formed by an angled end of the flat element 43. In this case, the mounting flange 42 is bent by an angle 28; the anchor head 41 is formed by the bent by an angle 29 free end 47 of the flat element 43. The angle 28 is in the embodiment of FIG. 6 90 °; the angle 29 of the free end 47 is in the exemplary embodiment about 45 °.
In order to achieve a positive connection of the anchor head 41 in the form of the angled free ends 47 in the concrete 17 of the building, it is provided to form at least one through hole 26 in a free end 47; In the embodiment shown, two through holes 26 are formed in the angled free end 47.
In the embodiment according to Figures 2 and 3, the static console 40 between the anchor head 41 and the mounting flange 42 is separated, so formed in two parts. Suitably, the anchor head 41 is screwed to the free end 47 of the flat element 43.
In Fig. 6, the anchor head 41, the flat element 43 and the mounting flange 42 are integrally formed.
For mounting the static console in the insulating body 10 of the insulating element 1, the base body of the flat element 43 and the angled mounting flange 42 is first inserted into a receiving slot 55 from the lower longitudinal side 22 in the embodiment of FIGS 2 and 3, until the mounting flange 42 in a corresponding recess of the insulating body 10 comes to rest. Thereafter, attached to the long side 11 above the free end 47 of the flat element 43 of the trained as a separate component 45 anchor head 41 is fastened, screwed in the embodiment.
In the embodiment of FIG. 6, at least the mounting flange 42 of the flat element 43 is made by bending and the static console with the free end 47 in advance inserted into a corresponding receiving slot 55 of the insulating body 10. The protruding from the upper longitudinal side 12 free end 47 of the flat element 43 is then angled. If the kink of the bend at the height of the upper longitudinal side 12, at the same time a position assurance of the static console 40 in the insulating body 10 is given.
It may also be expedient for the installation of a static console 40 to divide the insulating body 10 and reassemble after assembly.
The components 40a and 40b of the static console 40 can also be used individually as a static console 40; Expediently, a static console 40 is formed by two components 40a and 40b provided on the contact surface 57 with their flat sides abutting flat elements 43.
Another embodiment of a static console is shown in Figs. 7 to 11. The comments on the insulating bodies 10 and the static consoles 40 according to the invention according to FIGS. 1 to 6 apply correspondingly to the exemplary embodiment according to FIGS. 7 to 11. Identical parts are provided with the same reference numerals.
The static console 40 according to FIGS. 7, 9 and 10 consists essentially of three console elements 61, 62 and 67. A first console element 61 consists of a first anchor rod 71; the second console element 62 consists of a second anchor rod 72. Each anchor rod 71, 72 has an upper, free end 63, 64 and a lower end 65, 66. The third console element 67 is formed by a mounting plate 77, which forms the mounting flange 42, the static console 40.
The anchor rods 71, 72 are fixed with their lower ends 65, 66 on the mounting plate 77, preferably releasably fixed.
In the illustrated embodiment, the mounting plate 77 has two fixedly connected to their threaded sleeves 69, 79 which are fixed to the mounting plate 77, z. B. are welded. The anchor rods 71, 72 are advantageously formed from threaded rods, so that the ends 65 and 66 of the anchor rods 71,72 can be screwed into the screw sleeves 69 and 79 of the mounting plate 77 in a simple manner.
A first screw 69 is perpendicular with its longitudinal central axis 68 on the mounting plate 77; the other screw sleeve 79 is arranged such that its longitudinal center axis 59 is inclined at an angle of less than 90 ° to the mounting plate 77.
As shown in FIG. 8, the mounting plate 77 is approximately rectangular in plan view, being provided on the longitudinal central axis 80 of the mounting plate 77 screw holes 81 for mounting screws. By means of the fastening screws, the fastening strip 19 is fixed to the mounting plate 77.
In plan view, the screw sleeves 69 and 79 are each on a longitudinal side of the longitudinal center axis 80 with a first distance k to each other.
The anchor rods 71, 72 are preferably formed as threaded rods, so that the lower ends 65 and 66 of the anchor rods 71 and 72 can be screwed into the screw sleeves 69 and 79 for fixing on the mounting plate 77. Advantageously, the anchor rod 61 lying perpendicular to the plane 78 of the mounting plate 77 is welded to the mounting plate 77; the oblique to the plane 78 of the mounting plate 77 located anchor rod 62 is screwed into the advantageously designed as a screw sleeve 79 and fixed to the mounting plate 77 sleeve, which is expedient to facilitate installation of the static console 40 in the insulating body 10.
The first anchor rod 71 has a longitudinal axis 73 which - after fixing the anchor rod 71 on the mounting plate 77 - with the plane 78 of the flat mounting plate 77 includes a first angle 75.
The second anchor rod 72 has a longitudinal axis 74 which, after fixing the second anchor rod 72 in the threaded sleeve 79 of the mounting plate 77, includes a second angle 76 with the plane 78 of the mounting plate 77. The first angle 75 is a right angle while the second angle 76 is formed smaller or larger at a right angle. In the embodiment shown, the second angle 76 is smaller than the first angle 75 is formed; the second angle has a size of about 70 °.
As can also be seen from the side views according to FIGS. 9 and 10, the anchor rods 71 and 72 are located at a distance u from one another, preferably in mutually parallel planes. The distance u is measured in the direction of the longitudinal center axis 80 of the mounting plate 77, as shown in FIG. 8.
In side view of the static console 40 according to FIG. 10, the longitudinal axis 73 of the first anchor rod 71 encloses an angle 85 with the longitudinal axis 74 of the second anchor rod 72; the angle 85 may be in a range of 5 ° to 50 °. In the illustrated embodiment, the angle 85 is about 20 °.
An anchor rod 71 has a length Z (Figure 9). Preferably, both anchoring rods fixed to the mounting plate 77 have the same length Z. It may be advantageous to form the anchor rods 71, 72 with different lengths Z.
As shown in broken lines in FIG. 9, an anchor rod 71, 72 is divided in its length Z. Each anchor rod 71, 72 thus consists of a rod portion 71a or 72a and 71b or 72b. The rod portions 71a, 71b of the anchor rod 71 and the rod portions 72a, 72b of the anchor rod 72 are connected to each other by a respective connecting sleeve or connecting sleeve 70. In the embodiment shown, the connecting sleeves 70 are threaded sleeves into which the mutually facing ends of the rod sections 71a, 71b and 72a, 72b are screwed. The rod portions 71a, 71b and 72a, 72b are screwed so far into a connecting sleeve 70 until the end faces of the rod portions 71a, 71b and 72a, 72b abut each other.
The static console 40 in the embodiment of Figures 7 to 11 thus consists of five console elements; For example, the ends 65, 66 of the rod sections 71a, 72a are fixed permanently on the mounting plate 77, e.g. welded, the number of console elements is reduced to three.
The division of an anchor rod can be done in a suitable manner; In the embodiment shown, the rod portion 71a or 72a is longer than the rod portion 71b, 72b. Suitably, the length of the rod portions 71b, 72b with the free ends 63, 64 of the anchor rods is designed such that they correspond to the protruding from the insulating body 10 length of the static console. The connecting sleeves 70 are thus approximately at the height of the top 60 of the insulating body 10 made of Neopor © or a comparable foam based on polystyrene. For the transport of an insulating body 10 with integrated
Statics console 40, the rod portions 71 b, 72 b are unscrewed, so that the transport volume can be kept small.
As FIG. 11 shows, the first anchor rod 71 extends perpendicularly between the fastening strip 19 or the mounting plate 77 and the ceiling 15 on the shortest path. The second anchor rod 72 lies at an angle to the plane 7 of the wall opening 2. The second anchor rod 72 is lower in the insulating body 10. The fixed on the mounting plate 77 lower end 66 is closer to the building exterior 21 than the free upper end 64 of the anchor rod 72. Compared to the anchor rod 71, the free upper end 64 of the anchor rod 72 is closer to the building inside eleventh As shown in Fig. 10, the free ends 63, 64 of the anchor rods are spaced a greater distance x apart than the lower ends 65, 66 of the anchor rods 71 and 72. The distance x becomes transverse measured to the longitudinal central axis 32 of the insulating body 10. In the exemplary embodiment according to FIG. 11, the distance x is orthogonal to the longitudinal central axis 32.
In the illustrated embodiment, the threaded rods are formed in a straight line; It may be appropriate to perform the anchor rod bent. In particular, it may be advantageous to perform the transverse to the plane 7 of the wall opening 2 anchor rod 72 bent. The anchor rod 71 is located in the plane 7 of the wall opening 2 and bridges the distance between the mounting bar 19 and the ceiling 15 on the shortest path.
The design of the pitch of the anchor rods 71, 72 is provided so that substantially the upper rod portion 71 b, 72 b is poured into the concrete of the ceiling 15. The design as threaded rods has the advantage of intimate toothing of the rod sections 71b, 72b with the in-situ concrete of the component cast on site, in particular a ceiling 15.

权利要求:
Claims (16)
[1]
claims
An insulating element for a stem box (6) on a wall opening (2) of a building (20), with an insulating body (10) having a length which extends across the width (W) of the wall opening (2), and on its longitudinal side (12) facing away from the wall opening (2) is to be connected to the structure (20), and on its longitudinal side (22) facing the wall opening (2) has a fastening strip (19) for a frame (31), wherein the Attachment strip (19) along the insulating body (10) and via a static console (40) on the building (20) is supported, characterized in that the static console (40) through the insulating body (10) and a mechanical connection between the mounting strip ( 19) and the building (20).
[2]
2. Insulating element according to claim 1, characterized in that the static console is designed in several parts.
[3]
3. Insulating element according to claim 2, characterized in that the static console (40) consists of at least three console elements (61, 62, 67), wherein a first console element (61) consists of a first anchor rod (71), a second console element (62). a second anchor rod (72), and a third console element (67) is formed from a mounting plate (77).
[4]
4. Insulating element according to claim 3, characterized in that the anchor rods (71, 72) on the mounting plate (77) are releasably fixed, in particular screwed.
[5]
5. Insulating element according to claim 4, characterized in that the first anchor rod (71) has a first longitudinal axis (73) and the second anchor rod (72) has a second longitudinal axis (74), and the first longitudinal axis (73) of the first on the mounting plate (77) fixed anchor rod (71) with a first angle (75) to the mounting plate (77) and the second longitudinal axis (74) of the second on the mounting plate (77) fixed anchor rod (72) with a second angle (76) to the mounting plate ( 77), and that the first angle (75) and the second angle (76) are different.
[6]
6. Insulating element according to claim 5, characterized in that the first angle (75) is a right angle and the second angle (76) is smaller or larger than a right angle.
[7]
7. Insulating element according to claim 5, characterized in that the anchor rods (71, 72) with a parallel to the plane (78) of the mounting plate (77) measured distance (u) to each other.
[8]
8. Insulating element according to claim 5, characterized in that an anchor rod (71, 72) in its length (Z) is divided.
[9]
9. insulating element according to one of claims 3 to 8, characterized in that the anchor rods (71, 72) are formed from threaded rods.
[10]
10. Insulating element according to claim 1, characterized in that the static console (40) has an anchor head (41) for attachment to the building (20) and a mounting flange (42) for fixing to the fastening strip (19).
[11]
11. Insulating element according to claim 10, characterized in that the static console (40) between the anchor head (41) and the fastening strip (19) is separated.
[12]
12. Insulating element according to claim 11, characterized in that the anchor head (41) and the mounting flange (42) via a flat element (43) are interconnected and the flat element (43) has a length (F) which is greater than the height ( H) of the insulating body (10).
[13]
13. Insulating element according to claim 12, characterized in that the fastening flange (42) and / or the anchor head (41) by an angled free end (47) of the flat element (43) is formed.
[14]
14. Insulating element according to claim 12, characterized in that the anchor head (41) as the flat element (43) separate component (45) is formed.
[15]
15. Insulating element according to claim 12, characterized in that the flat element (43) in a plane (33) which intersects a longitudinal center plane (32) of the insulating body (10) at an angle (25) of in particular 90 °.
[16]
16. Insulating element according to claim 1, characterized in that over the length of the insulating body (10) a plurality of static brackets (40) are arranged at a distance from each other.

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AT517187B1|2018-08-15|Insulating element with a static console

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EP0892118A1|1999-01-20|Building element for thermal insulation

---

DE202010008019U1|2010-11-04|Building facade with two-part spacers

---

AT402084B|1997-01-27|LOST FORMWORK ELEMENT

---

AT10536U1|2009-05-15|SHUTTER BOX

---

DE2715909A1|1978-10-19|Roller shutter case assembly element - has base slit matching top horizontal frame shank, extended for cover bar

---

DE202011052483U1|2013-03-25|Shutter element

---

DE102018121776A1|2020-03-12|Frame for windows and doors as well as window or door element with such

---

DE202007010845U1|2008-12-18|inspection flap

---

EP1396605A2|2004-03-10|Closure for wall openings

---

DE202014103071U1|2015-10-06|Shutter box

---

CH644668A5|1984-08-15|Casing on brickwork for windows and/or doors, in particular for cellar windows

---

EP3091167B1|2020-09-23|Fastening element for attaching a window frame to a ceiling of a structure, associated structure and method for fixing a frame of a window to a ceiling

---

EP2505760A2|2012-10-03|Module for holding a sliding door, sliding door device and method for fitting a sliding door device

---

AT506958B1|2010-01-15|EQUIPMENT FOR INSTALLING AN EXTERIOR PROTECTIVE ELEMENT FOR FALLING OR UNLOCKING A WALL OPENING

---

DE202016105596U1|2016-10-27|Structure and buildings

---

DE202006009323U1|2006-08-17|Profile frame for balcony safety screen around safety glass panel has slide-fit attachments to C-profile

---

DE3346442C2|1993-09-02|

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EP3441557B1|2020-09-30|Gate system comprising a door system

---

DE102020108412A1|2021-09-30|Extruded window or door hollow chamber profile, system with such a hollow chamber profile and frame made from it

---

DE1289642B|1969-02-20|Lintel with roller shutter box

同族专利:

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公开号 | 公开日

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DE102015015746A1|2016-11-17|

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AT517187B1|2018-08-15|

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DE202015009359U1|2017-03-29|

引用文献:

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公开号 | 申请日 | 公开日 | 申请人 | 专利标题

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EP0403557A1|1988-03-11|1990-12-27|Jalousie Shutters Limited|Improvements in the installation of roller shutters|

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DE102009056170A1|2009-11-27|2011-07-07|D & M Rolladentechnik GmbH, 56204|Quasi-cold bridge-free mounting arrangement for mounting roller shutter shield in area of e.g. window arrangement in passive house, has receiving device, whose rear wall element is connected with wall with specific over insulation in frame|

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DE102010004254A1|2010-01-08|2011-07-14|Trocha, Jochen, 64331|Window, door or glass element for use in building aperture, has circular dampening body connected with frame section or frame section glass pane, where body includes surface that is chamfered in inner side of body|

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BE1019446A3|2010-08-12|2012-07-03|Renson Sunprot Screens Nv|SCREEN DEVICE.|AT16457U1|2018-07-26|2019-10-15|Genboeck Haus Genboeck & Moeseneder Gmbh|Prefabricated wall for precast buildings|

法律状态:
2021-01-15| PC| Change of the owner|Owner name: ALUKON KG, DE Effective date: 20201214 |

优先权:

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申请号 | 申请日 | 专利标题

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DE102015006170|2015-05-12|

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