• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    It is described a Behangeinrichtung (19) with a at least one attachment point having base part (17) on which a curtain, such as Venetian blind (18), roller shutter, shading cloth or the like between an open and a shading position is arranged adjustable, the Behangeinrichtung at least a fall protection (21) connected to the attachment point, which has at least one anchoring part (24) which can be connected to a refractory building part (25). In order to provide simple installation conditions, it is proposed that the fall protection (21) has a flexible tension element (23) via which the base part (17) is connected to the anchoring part (24).
    公开号:AT14974U1
    申请号:TGM50187/2015U
    申请日:2015-10-15
    公开日:2016-10-15
    发明作者:
    申请人:Giessler Dirk;
    IPC主号:
    专利说明:

    Description: The invention relates to a hanging device with a base part having at least one fixing point, on which a curtain, such as external blinds, roller shutters, shading cloth or the like, is adjustably arranged between an open position and a shading position, wherein the hanging device has at least one connected to the fastening point Fall protection has, which has at least one connectable with a refractory building part anchoring part.
    Such Behangeinrichtung is known from EP 2 072 748 A2. It has an insulating body made of PUR foam with approximately U-shaped cross-section, which has at its upper end a transverse web, are integrally formed on the underside of two mutually parallel legs, between which a receiving space for a blind is formed. The blind has an approximately rectangular base part to which a blind element is fastened on the underside, which has a plurality of strips connected to one another via strips. To adjust the slats, a drive unit is integrated in the base part. In the Isolierstoffkörper two stiffeners are provided of metal, one of which limits the upper edge of the receiving space and the other is arranged at the top of the crosspiece. The two stiffeners are spaced from each other in the vertical direction by the insulating material of the insulating material and connected to each other by arranged within the insulating body stiffening iron. At the upper stiffener one leg of an angle plate is screwed, which is screwed with its other leg on the masonry of the building. If the insulation material should be destroyed by fire, the blinds via the lower bracing, the bracing bars, the upper bracing and the angle bracket would continue to be connected to the building, preventing the blind from falling in case of fire. However, the known Behangeinrichtung has the disadvantage that their installation on the building is still relatively expensive. In particular, the positionally accurate attachment of the angle plates has proven to be cumbersome.
    From practice, a hanging device is also known, in which the base part is screwed on the outside of the plastic material of a window frame. When exposed to sunlight, the curtain arranged on the base part can, if necessary, be lowered from a position in which it is arranged substantially above a glass pane in order to completely or partially shade the glass pane. Although the hanging device can be mounted in a simple manner, it has the disadvantage that the base part can come off the window or door frame in the event of fire if the plastic becomes yielding due to the heat occurring during the fire. This can cause the curtain to crash and endanger anyone outside the building, below the window or door, such as rescue workers or those trying to escape from the burning building.
    There is therefore the task of creating a Behangeinrichtung of the type mentioned above, which allows easy installation on the building and in the case of fire, a crash of the base part and an associated hazard to persons is reliably avoided.
    According to the invention, this object is achieved in that the fall protection has a flexible tension element, via which the base part is connected to the anchoring part.
    The base can then be attached to the building in a conventional manner, with no special requirements regarding the fire resistance must be made to the fastening technology. For example, the base part fixed by means of adhesive to the building and / or to a non-refractory building part, such as a window or door frame made of wood or plastic, are screwed. In addition, the attachment point of the base part is connected via the flexible tension element with the anchoring part attached to a refractory part of the building, such as a masonry or concrete pavement, around the base part and possibly the curtain arranged thereon when a
    Secure Brands against falling from the building façade. Since the tension element is designed to be flexible, only very low requirements are placed on the positioning accuracy of the anchoring part, i. the place where the anchoring part is attached to the building facade, can be chosen freely within the range of the tension element as far as possible.
    In a preferred embodiment of the invention, the flexible tension element on a wire rope. This allows a cost-manufacturable tension element that can be easily installed during assembly and also can support high loads.
    It is even possible that the tension element has a loop which surrounds the base part. The tension member can thereby be combined with a variety of commercially available shading devices, i. for different shading devices, the same tension element can be used. In addition, the loop allows easy mounting on the base part of the shading device.
    In another advantageous embodiment of the invention, the flexible tension member on a band. This allows a flat design of the tension element, in which this can nevertheless secure high loads against falling in case of fire. The strip may be formed as a sheet-metal strip, in particular perforated strip, which has a row of holes with a plurality of spaced apart in the longitudinal direction of the tension member through holes, which are selectively connectable to the tie rod. As a result, the point at which the perforated strip is anchored to the tie rod can be easily adapted by a fitter to the respective installation situation.
    In an advantageous embodiment of the invention, the flexible tension element is designed as a chain. The tension element then allows an even higher load and can thus secure even large and heavy shading against falling.
    In a preferred embodiment of the invention the Behangeinrichtung has a Isolierstoffkörper which limits a receiving space for the base part and the curtain, wherein adjacent to the receiving space at least one connected to the attachment point of the base part refractory fastening element, and wherein the fastening element via the flexible tension element connected to the anchoring part. Due to the insulating body, the base part with the curtain arranged thereon can be thermally decoupled from the building. In this case, the insulating material can be part of a thermal insulation composite system. The fastening element can be adapted to the attachment point of the base part, that this can be easily and quickly connected to the fastening element or detached from it. The fastening element can be designed in particular as a metal rail.
    In a further development of the invention, the fastener is connected via a refractory connection means with an arranged on a receiving space facing the outer boundary surface of the Isolierstoffkörpers connection point, wherein the connection point is connected to a remote from the anchoring part end portion of the flexible tension element. This allows an even easier installation of the Behangeinrichtung.
    Conveniently, the connection point is detachably connected by means of a coupling with the end portion remote from the anchoring part of the flexible tension element, wherein the coupling preferably has a snap hook. The anchoring part and the flexible tension element can then be mounted without the insulating material on the building, which facilitates assembly. Subsequently, the flexible tension element can be easily connected to the connection point by means of the snap hook. If necessary, it is even possible that the insulating material is initially mounted on the building during its installation without the flexible tension element, so that it can then be handled like an insulating body of a conventional hanging device. After the insulating material has been fixed to the building, it can be easily and quickly connected to the tension element by means of the coupling.
    [0014] It is advantageous if a receiving recess is embedded in the outer boundary surface of the insulating material, and if the connection point is arranged in the receiving recess. This makes it possible to completely accommodate the connection point and a possibly arranged thereon coupling in the receiving recess, so that the outer boundary surface of the insulating material can be positioned flush against a flat outer surface of an insulating body adjacent to the thermal insulation panel. The receiving recess is preferably provided on the upper side of the insulating material. But it can also be arranged laterally or at the back of the insulating material.
    In an advantageous embodiment of the invention, the insulating material is formed as a cross-sectionally approximately U-shaped box with two legs interconnected by a crosspiece, wherein the receiving space for the base part and the curtain having shading device is formed between the legs. The insulating material then forms a box, the receiving space bounded laterally and upwards.
    In another advantageous embodiment of the invention, the insulating body has an approximately L-shaped cross-section and has a extending in a horizontal plane first, with its free end to the building part facing leg portion and extending in a vertical plane second leg portion, the with its free end facing down. The insulating material can therefore also be designed as a Raffstore apron. Such an insulating material can be used in particular if the base part for the curtain is to be mounted directly in front of an optionally widened in height window and / or door frame, which consists of a heat-insulating material, such as wood or plastic.
    Embodiments of the invention are explained in more detail with reference to the drawing. FIG. 1 shows a partial longitudinal section through a building which has a window on which a
    2 is an enlarged partial section of FIG. 1, on which the hanging device can be seen; FIG. 3 shows a three-dimensional representation of a building area, which has a window on which a 4 shows a partial longitudinal section through the building area depicted in FIG. 3, [0022] FIG. 5 shows an enlarged partial section from FIG. 4, on which the curtain is to be seen, and [FIG. 0023] Fig. 6 shows a cross section through a Behangeinrichtung.
    A partially shown in the drawing building has a building wall 1, which has a wall opening, in which a window 2 is inserted. The window 2 has a window sash or window frame 3 made of plastic, which is anchored to the building wall 1 facing outer edge in a conventional manner by means of anchoring elements on the building wall 1. Gaps between the outer edge of the window frame 3 of the building wall 1 are foamed with mounting foam 4, such as polyurethane foam.
    On the window frame 3, a window sash 5 is pivotally mounted between a Qffen- and a closed position. The window sash 5 has a pivot part connected to the window frame 3 frame part 6, in which an insulating glass pane 7 is inserted.
    As can be seen in Fig. 2, the window frame 3 at its upper edge a frame extension 8 made of plastic, which runs parallel to the upper edge region of the window frame 3 and to the building wall 1 facing outer surface of the upper edge region of the window frame. 3 followed. In the window frame 3 and the frame part 6 hollow chambers are formed, which serve to improve the thermal insulation of the window 2.
    At the upper edge region of the outer surface of the window frame 3 is adjacent to a lintel panel 9 made of a thermally insulating rigid foam, which is glued by means of mounting foam 4 with the lintel of the building wall 1. The lintel cover plate 9 rests on its edge region facing the frame widening 8 and is sealed against the frame widening 8 adjacent to the support region by means of a sealing strip. On its outer side facing away from the building wall 1, the lintel panel 9 has a plaster base layer.
    A spaced from the window frame 3 edge region of the top and rear of the lintel panel 9 is positioned against an arranged on the outer surface of the building wall 1 thermal insulation panel 10 of a thermal insulation composite system. The thermal insulation panel 10 is made of a refractory material, such as mineral wool and serves as a fire bar.
    In the window frame 3 facing away from the outer end face of the lintel panel 9, a horizontal groove is recessed, in which a not shown in detail in the drawing insert profile is used, which serves as a cleaning edge. The male profile is glued to the lintel panel 9 and a fabric flap of a reinforcing fabric projecting upwardly from the top of the lintel panel 9 at an angle of 90 ° therefrom. The fabric flap is embedded in a mortar layer 11, which is applied to the exterior of the building wall 1 facing surface of the thermal insulation board 10. If necessary, can be applied to this layer of mortar 11, a top or noble plaster.
    In a corresponding manner, the outer soffits of the wall breakthrough are disguised with reveal plates 12. As can be seen in Figs. 1 and 2, also on the inside of the window 2, a lintel panel 13 and reveal plates 14 are provided on the wall opening.
    On the outside of the frame widening 8, a fastener 15 is attached, which consists of aluminum or galvanized sheet steel. The fastening element 15 extends in the horizontal direction and extends parallel to the frame widening 8. As can be seen in Fig. 2, fastener 15 is screwed by means of fastening screws 16 with the frame widening 8 and a base part 17 of a blindstore 18 having Behangeinrichtung 19. The base part 17 consists of a refractory material, such as steel or aluminum. In the base part 17, an inner cavity is provided in which at least one in the drawing not shown electric drive motor for moving up and down the Venetian blind 18 and / or for pivoting the slats of the Venetian blind 18 is arranged.
    As can be seen particularly clearly in FIG. 2, the base part 17 has an attachment point 20 for a fall protection 21. At the fastening point 20, a fastening eye is formed, in which a snap hook 22 is hooked, which is connected via a flexible tension member 23, namely a steel cable, with an anchoring part 24 which is anchored to a refractory building part 25, such as a concrete ceiling , A first portion of the anchoring part 24 is arranged in a gap formed between the thermal insulation board 10 and the building wall 1 32 and a second portion of the tension member 23 extends through a space between the heat insulation board 10 and the building wall 1 and between the lintel panel 9 and the Building wall 1 is formed. Another section of the tension element 23 penetrates a hole 26 provided in the lintel panel 9.
    The snap hook 22 and the anchoring part 24 are made of a refractory material, preferably made of galvanized steel. The fall protection 21 is dimensioned such that it can carry the weight of the base part 17 and the outer blind 18 in the event of fire when the plastic of the frame widening 8 can no longer support this weight.
    3 to 6 show a further wall opening, in which a window 2 is inserted. The window 2 has a window sash or window frame 3, which is anchored to the building wall 1 facing outer edge in a conventional manner by means of anchoring elements on the building wall 1. Gaps between the outer edge of the window frame 3 of the building wall 1 are foamed with mounting foam 4, such as polyurethane foam.
    On the window frame 3, a window sash 5 is pivotally mounted between an open and a closed position. The window sash 5 has a pivot part connected to the window frame 3 frame part 6, in which an insulating glass pane 7 is inserted.
    At the upper edge region of the outer surface of the window frame 3 is adjacent to a lintel panel 9 made of a thermally insulating rigid foam, which is glued by means of mounting foam 4 with the lintel of the building wall 1. The lintel panel 9 is located on the underside of its edge facing the window frame 3 on this and is adjacent to the support area sealed by a sealing tape against the window frame 3.
    A spaced from the window frame 3 edge region of the lintel panel 9 is positioned against the lower edge region of a first leg 27 of an insulating material Raffstore box, which is glued by means of mounting foam 4 on the outer surface of the building wall 1. The outer surfaces facing away from the building of the lintel panel 9 and the first leg 27 are arranged at an angle of approximately 90 ° to each other.
    The external blind box also has a second leg 28 which extends parallel to the first leg 27. Between the legs 27, 28, a receiving space 29 is formed, which receives a shading device with a base part 17 and a blindstore 18 connected thereto. On its underside, the external venetian blind box has a slot for the passage of the Venetian blind 18. Above the receiving space 29, the legs 27, 28 are connected by a transverse web 30 approximately U-shaped. The legs 27 and 28 and the crosspiece 30 are made of rigid foam. Against the top of the external venetian blind box, a thermal insulation panel 10 of a refractory material, such as rockwool, is positioned. The thermal insulation panel 10 is part of a fire bolt.
    At the bottom of the side facing away from the building wall 1 outer surface of the second leg 28 is a Proflllelste 31 is arranged, which has a cleaning edge. The profile strip 31 has a first leg part, which engages in a recessed into the outer surface of the second leg 28 horizontal groove. A second leg part, which is arranged parallel to the outer face of the second leg 28, is integrally connected to the first leg part. The second leg part is connected to a fabric flap of a Armierungsgewebes, which is parallel to the outer surface of the second leg 28 at a small distance to this embedded in a mortar layer 11 not shown in the drawing. If necessary, can be applied to this layer of mortar 11, a top or noble plaster.
    In Fig. 5 it can be seen that the second leg 28 of the external venetian blind covering the thermal insulation panel 10 partially. The thermal insulation panel 10 has in the covering area on its outer wall facing away from the building wall a recess whose depth corresponds approximately to the wall thickness of the second leg 28. But it is also conceivable that the second leg 28 is aligned with its upper end face with the upper end face of the transverse web 30 and the upper end face of the first leg 27 and is positioned blunt against the underside of the thermal insulation panel 10.
    In the adjacent to the receiving space 29 lower boundary surface of the transverse web 30, a strip-shaped fastener 15 is inserted, which extends parallel to the building wall 1 in the horizontal direction. The fastening element 15 has an approximately U-shaped cross-section with two leg parts pointing upwards with their free ends and a transverse web connected to each other, which is arranged in a horizontal plane. The leg portions serve to increase the flexural rigidity of the fastening element 15 and anchor it in the hard foam of the crosspiece 30. The fastening element 15 is made of metal, for example made of aluminum or steel. It may also consist of another refractory material, which has a greater strength than the hard foam of the crosspiece 30th
    On the fastening element 15, the base part 17 of the outer blind 18 with not shown in the drawing fastening means, such. Screws detachably fastened. The fastening element 15 also has a refractory connection means 33, which is designed as a metal rod which connects the transverse web 30 of the fastening element 15 with a connection point 34. The connection point 34 is formed by a metal ring, in which a snap hook 22 is hooked. The connection point 34 and the snap hook 22 are arranged in a receiving recess 35, which is embedded in the upper outer boundary surface of the transverse web 30. As can be seen particularly clearly in FIG. 6, the receiving recess 35 is spaced from the inner boundary surface of the U transverse web 30 facing the building wall 1 and from the outer boundary surface of the U-transverse web 30 facing away from the building wall 1.
    The snap hook 22 is connected to an end portion of a flexible tension member 23 which is connected to form a fall arrest 21 with its remote from the snap hook 22 other end portion with a refractory anchoring part 24 which is anchored to the refractory building part 25. The anchoring part 24 may be a metal expansion dowel, which engages in a matching hole of the building part 25.
    The tension element 23 is designed as a steel cable, which has a first portion which is passed between the external venetian blind box and the thermal insulation panel 10. A second section of the tension element 23 is arranged in a space 32 located between the first leg 27 and the building wall 1 or between the thermal insulation board 10 and the building wall 1. In the intermediate space 32, the tension element 23 has a course deviating from a straight line. As a result, the external venetian blind box can be moved relative to the anchoring part 24 when it is mounted on the building wall 1, when it is connected to the anchoring part 24 via the tension element 23. The fall arrest device is dimensioned to support the weight of the base 17 and the venetian blind 18 in the event that the hard foam parts of the external venetian blind box and / or the adhesive layer between the external venetian blind box and the building wall are destroyed.
    权利要求:
    Claims (11)
    [1]
    claims
    1. Behangeinrichtung (19) having a at least one attachment point having base portion (17) on which a curtain, such as Venetian blind (18), roller shutter, shading cloth or the like between an open and a shading position is arranged adjustable, the Behangeinrichtung at least one with the attachment point connected fall protection (21), which has at least one with a refractory building part (25) connectable anchoring part (24), characterized in that the fall protection (21) has a flexible tension element (23), via which the base part (17) is connected to the anchoring part (24).
    [2]
    2. Behangeinrichtung (19) according to claim 1, characterized in that the flexible tension element (23) comprises a wire rope.
    [3]
    3. Behangeinrichtung (19) according to claim 2, characterized in that the tension element (23) has a loop which surrounds the base part (17).
    [4]
    4. Behangeinrichtung (19) according to any one of claims 1 to 3, characterized in that the flexible tension element (23) has a band.
    [5]
    5. hanging device (19) according to one of claims 1 to 4, characterized in that the flexible tension element (23) has a chain.
    [6]
    6. Behangeinrichtung (19) according to any one of claims 1 to 5, characterized in that it has a Isolierstoffkörper which limits a receiving space (29) for the base part (17) and the curtain that at the receiving space (29) at least one with the fastening point of the base part (17) connected fireproof fastening element (32) adjacent, and that the fastening element (32) via the flexible tension element (23) is connected to the anchoring part (24).
    [7]
    7. Behangeinrichtung (19) according to claim 6, characterized in that the fastening element (32) via a refractory connection means (33) with a on a receiving space (29) facing away from the outer boundary surface of the Isolierstoffkörpers arranged connection point (34) is connected, and that the Connection point (34) with a of the anchoring part (24) remote end portion of the flexible tension element (23) is connected.
    [8]
    8. Behangeinrichtung (19) according to claim 7, characterized in that the connection point (34) by means of a coupling releasably connected to the anchoring part (24) remote end portion of the flexible tension element (23) is connected, and that the coupling is preferably a snap hook (22 ) having.
    [9]
    9. hanging device (19) according to claim 7 or 8, characterized in that in the outer boundary surface of the Isolierstoffkörpers a receiving recess (35) is embedded, and that the connection point is arranged in the receiving recess.
    [10]
    10. Behangeinrichtung (19) according to any one of claims 7 to 9, characterized in that the insulating body is formed as a cross-sectionally approximately U-shaped box with two by a transverse web (30) interconnected legs (27, 28), and that of Receiving space (29) for the base part (17) and the curtain between the legs (27, 28) is formed.
    [11]
    11. Behangeinrichtung (19) according to any one of claims 6 to 9, characterized in that the insulating body has an approximately L-shaped cross-section and extending in a horizontal plane first, with its free end to the building part (25) facing towards the leg portion and a extending in a vertical plane extending second leg portion, which points with its free end down.
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    同族专利:
    公开号 | 公开日
    DE202014008384U1|2014-12-04|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    DE202008003916U1|2007-12-19|2009-04-23|Josef Mang Gmbh & Co. Kg|Receiving element for a shading device|DE102015015604B4|2015-12-02|2019-03-21|Dirk Gießler|Receiving element for a shading device and method for fixing such on the outside of a building|
    法律状态:
    2019-06-15| MM01| Lapse because of not paying annual fees|Effective date: 20181031 |
    优先权:
    申请号 | 申请日 | 专利标题
    DE202014008384.3U|DE202014008384U1|2014-10-22|2014-10-22|Behangeinrichtung|
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