• 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:
    Window sill connection unit (10), which is set in the operating position for supporting a floor frame (1) in a wall opening, and in the operating position, upper-side connecting means (20, 22, 40) for coupling to a floor frame (1) and an outer bearing surface (12) adapted for mounting an outer sill (5), a multi-part design comprising a lower support base part (16) and an upper frame support part (15) provided by means of at least one wedge (Fig. 26, 27; 27 ') which is displaceable in the direction transversely to the window sill bearing surface (12), adjustable in height relative to the base part (16) and vertically displaceably guided on the base part, and which has the window sill contact surface (12) ,
    公开号:AT515020A1
    申请号:T50723/2013
    申请日:2013-11-05
    公开日:2015-05-15
    发明作者:Gabriel Pichler
    申请人:Gabriel Pichler;
    IPC主号:
    专利说明:

    The invention relates to a sill connection unit arranged in the operating position for supporting a floor frame in a wall opening and having, in the operating position, top-side connecting means for coupling to a floor frame and an outside abutment surface adapted for mounting an outer sill.
    Furthermore, the invention relates to a structural unit with such a connection unit.
    In the construction of buildings, the establishment of windows in corresponding openings of the supporting structure, with a corresponding load-technical support of the floor frame, re¬lativ cumbersome, time-consuming and problematic. It should be noted, for example, that for example a window may well have a mass of 80 to 100 kg and more, and on the other hand, around the frame of a window a gap with a width between 10mm and 25mm is to be maintained. In addition, the exact vertical or horizontal orientation of the Stockrah¬mens, as well as the orientation in the desired Mauerwerk¬ level, with an inclination to the outside of the structure is to be avoided. For supporting the floor frames, for load deflection, separate supporting elements in the form of blocks or wedges, for example of pressure-impregnated hardwood or of plastic, are used. The blocks or wedges which are conventionally used for load transfer are also complicated in handling, since they repeatedly move during assembly of the pole frame, so that the desired support of the pole frame is no longer present and the frame does not give the desired position continues to maintain.
    Another problem arises in the installation of floor frame, if this - as usual today - auf¬weisen on its underside aWestbank connection unit in the form of a connection profile, which is on the underside of the floor frame, beispiels¬weise snap connections or the like., Fixed ,
    In most cases, the floor frame is already angelie¬ mounted with this connection unit in the form of a rail to the site. If now in addition to this final unit Lastabstüt-zelemente for supporting the window as well as its
    Setup to be installed during installation results in a total of a relatively large height of the gap between the actual frame and the top of the lower edge of the wall opening. This height is all the greater when wedge devices with adjustable wedges are used as support devices for adjusting the height of the support devices, as these are already known. Overall, this results in a high content, in which final foaming and cleaning work are necessary.
    This disadvantage, as well as the problem of unsafe support, is found in e.g. on the assembly aid according to EP 767 314 Alzu. Here are two hingedly interconnected Kunststoff¬ parts are provided, which are spread apart like a bead with the help of a cylindrical Betätigungs¬stücks, which can be adjusted along inner inclined surfaces of the plastic parts.
    Lateral glands of the gantry frame are conventional per se, but are not for load transfer, but for maintaining the achieved alignment of the gantry in the opening of the building body and receiving wind loads or the like.
    DE 195 26 203 A1 discloses a wedge support device, in which a plate-shaped support part can be adjusted in height relative to a ramp-shaped base part by means of a setting screw which is screwed into a wedge. The adjusting screw passes through a second wedge, which has a widened end-side recess, with which the screw head comes into engagement when the adjusting screw is screwed in. However, when the adjusting screw is screwed into the first wedge while being axially displaced together with the second wedge, a corresponding wedge effect can not be ensured.
    A further wedge positioning device is described in EP 2 378 043 A2, in which two wedge elements can be displaced in opposite directions by means of an adjusting screw relative to positioning plates with corresponding inclined surfaces. This known positioning device is of a rather elaborate construction, with a clipped one
    Fastening plate must be accommodated in the gap permanently, and of course the disadvantage of the high height in the case of the presence of a window sill connection unit as stated above inevitably results.
    Finally, DE 10 2006 012 390 A1 discloses a wedge device in which a wedge is attached lengthwise to one side of the remaining floor frame and another wedge rela¬ tively with the aid of a strip-shaped pull web, which at the same time cross holes for the insertion of fixing elements is adjusted so as to "thickness". to adjust the wedge device according to the gap between the wall opening and floor frame. The direction of the adjustment of the at least one wedge is, as mentioned, parallel to the plane of the floor frame, which is troublesome for the attack on the pull bar, apart from the problem of connection of window sills to the underside of the window base when used on a window bottom stock frame.
    The object of the invention is now to propose an improved window sill connection unit as stated at the outset, which on the one hand reduces the width of the gap between the frame frame and the building structure and on the other hand ensures secure and lasting support of the respective floor frame in the window opening of the building and, moreover, in the establishment of the position of the pole frame, allows a simplified procedure over the prior art.
    Accordingly, the sill connection unit of the type mentioned at the outset according to the invention is characterized by a multi-part design comprising a lower support base part and an upper support frame part which is relatively movable by means of at least one wedge which is displaceable in the direction transverse to the sill support surface adjustable in height relative to the base part and vertically displaceable on the base part and having the window seat abutment surface.
    The present sill connection unit is thus characterized. in that, in one unit, they combine the two functions mentioned, namely, the connection of window sills, and, on the other hand, those of the exact, nonetheless easy adjustment of the sash frame for its exact alignment in an advantageous manner. In the present terminal unit, the base part in the window opening at the bottom usually lies on a sheet bar; the frame mounted on the connection unit (usually two or three connection units across the width of the window, but possibly also more used) can then be adjusted by adjusting the support part relative to the base part by means of the wedging action, in the manner of a parallel displacement, be set up locally in height so as to obtain a total of the desired height of the floor frame and on the other hand also ensure an exact horizontal alignment of the lower frame part of the floor frame. Thereby, no support wedges or blocks have to be exchanged or changed in their position, but it can be simple the desired local height correction of the floor frame can be made by the height adjustment of the support part via the mentioned wedge effect. In particular, unwanted slippage, as happens in the known wedge means, si¬cher can be avoided. If the at least one wedge bears against an underside oblique surface of the support part and is adjusted by means of a spindle along the oblique surface of the support part, a particularly simple but reliable handling can be achieved.
    The head of the spindle is located in the present connection unit on the inner peripheral surface or space side of the connection unit opposite the outer edge-bearing surface of the connection unit, so that the corresponding height adjustment or adjustment is achieved. Height correction can be carried out conveniently from the room side.
    Furthermore, it is expedient for the assembly of the connection unit as well as for the attachment of the connection unit, if the support part above its contact surface has a hook which is arranged for engaging behind a projection on the underside of the Stock¬ frame and for receiving the upper edge of the outer Fens¬terbank.
    It thus follows that preference is given in the present
    Final assembly of the at least one wedge by means of a threaded spindle, which engages with a threaded bore in the wedge, transversely, i. transverse to the general plane of the floor frame and the outer side abutment surface of the terminal unit, is displaceable.
    For ease of operation and great safety, it is then also advantageous if the spindle is held with a head at least in the base part against a longitudinal displacement. If appropriate, the spindle can also be held in the support part against axial displacement.
    In a particularly simple embodiment, the at least one wedge with an upper wedge surface bears against a lower-side oblique surface of the support part. In this case, furthermore, the base part can have a horizontal support surface for the at least one wedge, which then has only one wedge surface, namely for abutment with the lower side inclined surface of the support part.
    In a particularly preferred embodiment, it is favorable if two oppositely directed wedges, which are adjustable in opposite directions, are provided by means of a spindle which has opposite threaded sections, which engage against obliquely inclined oblique surfaces of the support part.
    The "symmetrical" counter-wedge action exerted in this embodiment provides a particularly secure and easy-going operation of the support device.
    It should be mentioned here that from US Pat. No. 5,427,349 A a double-wedge setting device with a spindle having two counter-rotating winding sections is known per se, but for a completely different type of apparatus, namely a machine tool, where particularly high precision is involved the setting of a tool is required. For an efficient height adjustment, it is also favorable if the at least one wedge has a lower-side wedge surface, preferably in addition to an upper wedge surface, with which it rests on an inclined surface of the base part.
    In order to avoid slippage of the support part and thus of the floor frame si¬ cher, the support member is guided vertically displaceable on the base part in the Monta¬stellung. In this case, a manufacturing simple manner can be achieved if the Stütz¬teil is guided by at least one engaging in a ver¬tikale in the mounting position recess of the base member, slidably received therein projection. However, it is also conceivable that at least one guide pin is arranged in mutually aligned bores of the base part and of the support part. In the latter case, the base part and the support part can be produced as comparatively simple molded parts, for example by spraying from plastic.
    The connection unit, more precisely its support part, may have on the upper side a shape suitable for the respective frame frame / in particular, the support member may have a flat upper side as a support surface for a floor frame. The support member may have on its upper side engagement projections for cooperation, in particular latching, with projections on a lower profile part of the floor frame. Such a training with Ein¬griff svorsprüngen at the top of the support member is known per sevon the so-called. Transport rails or Sohlbankanschluss profiles and can be used in a corresponding manner also in the present terminal unit.
    The invention will be further elucidated on the basis of preferred exemplary embodiments, to which, however, it should not be restricted, and with reference to the drawing. The drawings show in detail:
    Fig. 1 is a schematic cross-sectional view of a window frame frame including sash and including a transport rail according to the prior art, wherein schematically an additional Ab support means is illustrated;
    Fig. 2 is a corresponding schematic cross-sectional view of a window sill frame and sash, but now with a wedge height adjustment unit according to the invention;
    3 shows a schematic partial view of the room side of a window with three connection units at intervals from one another;
    4 shows a perspective view of part of an outside window sill in the form of an angle profile with a connecting unit connected thereto;
    5 shows a schematic longitudinal section through a termination unit; Figs. 6 and 7 are front views according to the arrows VI and VII inFig. 3;
    8 shows a simplified embodiment of a termination unit in a longitudinal section comparable to FIG. 5;
    Fig. 9 is a perspective view of a wedge used in the embodiment of Fig. 8; and FIGS. 10, 11 and 12 show a further embodiment of the termination unit in schematic section, in two different working positions (FIGS. 10 and 11) and in plan view (FIG. 12).
    In FIG. 1, a lower frame part 2 of a profile floor frame 1 is shown in the mounted position on a load-bearing structure 3; on this structure 3, a smooth line 4 is attached, over which the underside of the floor frame 2 is present at a predetermined distance. On the outside of an outer Fensterbank5 is provided; on the inside of the floor frame 1 there is an inner sill 6, below which a mortar bed (not shown) can be placed in the finished condition. Furthermore, in Fig. 1 also schematically indicated a sash, which can be opened in the direction of an arrow 7 'inwards.
    During assembly of the floor frame 1, this is to be supported by Abstützele¬mente 8 on the smooth line 4 load-bearing. In practice, supporting or window blocks or wedges or special wedge devices 8 are used in practice, which have been arranged in the appropriate size under the floor frame 1 or under the connection rail 9, whereby a large gap width (overall height) is required is, apart from the fact that the Einricht¬ work is a time-consuming, tedious task, since the floor frame 1 is to be set exactly horizontally with its bottom, except that the vertical plane of the floor frame 1 exactly parallel to the plane of the wall opening align and also the height of the Floor frame 1 - in accordance with the height of other floor frame in this building height - einzurich¬ten is.
    According to FIG. 1, a connection unit 3 in the form of a connection rail 9 is fastened to the underside of the floor frame 1, namely a so-called sole bank connection profile 9, to which the outer window sill 5 and the inner sill 6 connect. Below this connection rail 9 are the Abstützele¬mente 8, on which the floor frame 1 - here on the connection rail 9 - is supported foliage-bearing.
    2 is a cross-sectional view corresponding to FIG. 1 of the lower area of a floor frame 1 with an outer window 5 and inner sill 6 and a modified connection unit 10, with an integrated wedge device 11, which is shown only schematically in FIG. 2, FIG. illustrated / this modified terminal unit 10 is located directly on the structure 3 (the smooth line 4 of FIG. 1 is omitted in Fig. 2 for the sake of simplicity), so that in comparison to FIG. 1 ever lower construction or gap height between building 3 and underside of the lower profile frame part of the floor frame is made possible, as can be seen directly in a comparison with FIG. 1. This modified terminal unit 10 has an outer-side contact surface 12 for the outer sill 5, which may be e.g. as can be seen in FIG. 13, by means of a fastening screw 14 connected to the connection unit 10, specifically its upper support part 15. Instead, however, a bonding between the outer sill 5 and the support member 15 is possible, as is often preferred, and the like also applies to the attachment of the inner sill 6.The upper support member 15 is relative to a lower base 16, which on the building 3 rests, with the help of Keilvorrich¬ 11 in height adjustable, as will be explained below with reference to FIG. 5 ff.
    In the partial interior view of a built-in window shown in Fig. 3, with the floor frame 1 and the sash 7, a total of three block-shaped connection units 10 are seen, namely one at the left edge, one at the right edge and one in the middle of the longitudinal extent of the lower frame part 2 of the frame 1. The space 17 between each two adjacent terminal units 10 is sealed from the inside in a conventional manner, for example foamed as soon as the frame 1 of the window has been set up accordingly. The center-to-center distance between the connection units 10 carries at most 1 m, preferably at most 0.8 m, so that, correspondingly wider windows, more than three connection units per window sill are to be provided.
    From Fig. 2 is further for the operation of the wedge device 11, a threaded spindle 18 can be seen, the head 19 is located on the Raum¬innenseite and is thus easily accessible from the room, vgl.die view of FIG. 3rd
    FIG. 4 shows diagrammatically, in a diagrammatic, partial view, a part of an outside angle rail window sill 5 in connection with a block-shaped connection unit 10, wherein the window floor and further elements shown in FIG. 2 have been omitted. As outlined. 4, a hook 20 of the connection unit 10 engages over the upper edge of the upright leg of the window sill 5, said hook 20 furthermore being behind a hook projection 21 on the profiled underside of the lower frame part 2 of the profile floor frame 1 engages.
    In a corresponding manner, a hook 22 on the inner side of the connection unit 10 engages behind a hook projection 23 on the lower frame part 2, as can be seen in FIG. 2, so as to secure the connection unit 10 to the lower frame part 2 of the profile frame 1 connect to.
    On the upper side of the support part 15 there is further provided a comparatively solid block projection 24 for supporting the floor frame 1, which is preferably integral with the rest of the support part 15 and which is e.g. plastic or aluminum frame 2 between the hook 21, 22 is supported. Such a protrusion 24 can be dispensed with in the case of a wooden window, since then no hook latching 20/21 or 22/23 takes place and the support part 15, e.g. can be glued to the underside of the floor frame with its upper side (shown in broken lines in FIG. 2).
    A particularly preferred embodiment of such a connection unit 10 is shown in more detail in FIGS. 5 to 7, in which, in order to achieve a wedge effect for vertical adjustment of the upper support part 15 relative to the lower base part 16, two counter-adjustable, prismatic Wedges 26, 27 are provided; to their adjustment is an axially unver¬ pushed held, rotatably mounted spindle 18 vorgese¬hen. This spindle 18 extends with two opposing threaded portions 28, 29 having equal pitches through threaded bores of the prismatic wedges 26, 27 so that upon rotation of the spindle 18, e.g. by means of a screwdriver inserted in a groove 30 of the spindle head 19 (not shown), an opposite movement apart of the two wedges 26, 27 is achieved, which is indicated in Fig. 5 with oppositely directed arrows; Such a displacement of the legs 26, 27 is obtained, for example, when the spindle 18 is rotated in a clockwise direction according to the view in FIG. 6. The wedges 26, 27 run during their axial adjustment along oblique surfaces 26A, 27A, 26B, 27B of the base part 16 and of the support part 15, as can be seen directly from FIG.
    The spindle 18 is received with an enlarged disc portion 31 of the spindle head 19 in an undercut recess 32 of the upper support member 15 and the lower base member 16; the disk 31 is measured relatively large upwards and downwards so as to enable a relative height movement between the support part 15 and the spindle 18 or the spindle 18 and the base part 16 during the wedge adjustment. Correspondingly, the opposite end of the spindle 18 is received in a vertical slot 33 of a projection 34 of the upper support member 15 (see Fig. 7).
    The projection 34 protrudes into a vertical recess 35 of the base part 16 so as to effect a displacement guide during the vertical movement between the parts 15 and 16. In a corresponding manner, on the other side of the connection unit 10 there is a projection 36 of the support part 15 with a recess 37 of the base part 16 for guidance in the vertical sliding movement between the two parts 16, 15.
    The engagement of the projections 34, 36 in the recesses 35, 37 can be given with a relatively close fit, so that according to friction there is little resistance to the relative movement between the two parts 16, 15, this resistance or friction being sufficient in order to prevent falling apart of the two parts 16, 15 when the spindle 18 is not actuated. Nevertheless, of course, such relative movement under wedge action is possible with the aid of the wedge 26, 27 when the spindle 18 is rotated.
    In the initial position, as shown in FIG. 5, the two wedges 26, 27 are as close as possible to each other with their larger base surfaces. When pushing apart of the two wedges 26, 27 with the aid of the spindle 18, the described vertical Verstel¬lung the support member 15 (and also, in half extent, the Spindel18 including the wedges 26, 27).
    In order to avoid vertical adjustment of the spindle 18, and thus the wedges 26, 27, when the wedges 26, 27 move apart, the wedges 26, 27 could be used instead of lower inclined surfaces, as shown in Figs. 5, also have a horizontal bottom, as illustrated, for example, in the case of a single wedge, in FIG. Then, not only the base part 16 remains in its position during the adjustment of the upper support part 15, but also the spindle 18 can remain in its (height) position on the base part 16, which simplifies the mounting of the spindle 18; since then the securing of the spindle 18 against an axial displacement can also be achieved only by the base part 16, cf. Also, Fig. 8, from which it can be seen that upon lifting of the support member 15 by the wedging action, the head of the spindle 18 is disengaged from the raised support member 25.
    The embodiment according to FIG. 8 is, moreover, as already indicated, simpler than that of FIG. 3 in that only a single wedge 21 'is present, which in many cases is sufficient for vertical adjustment of the support part 15 relative to the base part 16 by wedging action. The spindle 18 in this embodiment may extend only over part of the length of the key 27 ', i. it is screwed into a threaded blind bore 38 of the wedge 27 ', cf. hier¬zu also Fig. 9.
    As mentioned, the spindle 18 is again to be scanned with its head against moving out of the connection unit 10 according to FIG. 6, but this is only schematically illustrated in FIG. 8 for the sake of simplicity. This axial securing can be carried out in detail, for example, as shown in FIGS. 5 and 6.
    In the embodiments according to FIGS. 5 to 8, the top surface 39 of the connection unit 10, i. from its supporting part 15, at the same time in the central region (see block 25). Other than the hooks 20, 32 shown in Figures 2, 4 and 5, other connections to the underside of the frame 2 are conceivable, such as lower protrusions of the frame member 2 (not shown) immersed in recesses 40 (see Figure 8). In this way, the connection units 10 can be used together with the floor frame 1 in the wall opening for Monta¬ge.
    Furthermore, a guide of the support member 15 relative to the base member 16 by means of a guide pin 41 can be seen in Fig. 8, which is inserted into corresponding, aligned holes 42, 43 in the base 16 and support member 15.
    Although the invention has been described in greater detail above with reference to preferred exemplary embodiments, further modifications and modifications are possible within the scope of the invention.
    Thus, it is of course also possible to reverse the displacement direction of the wedges 26, 27 during the height adjustment of the support part 15. Such an embodiment of the connection unit 10 is shown in FIGS. 10 (longitudinal section, initial position) and FIG. 11 (longitudinal section, extended support position) and FIG. 12 (top view). The wedges 26, 27 have oppositely inclined wedge surfaces in comparison with FIG. 5, and they are moved towards one another to push the support part 15 relative to the base part 16 by means of the spindle 18, which again has two opposite threaded sections 28, 29. On both sides of the spindle 18 (schematically indicated in FIG. 12 the spindle axis 18 'by a dot-dash line) guide pins 41 are provided, which slide in aligned bores 42, 43 and thus guide and stabilize the support member 15 and the base member 16 relative to each other these parts 15, 16 remain aligned parallel to each other. As a consequence, this means that the wedges 26, 27 are necessarily displaced symmetrically with respect to each other, so that the spindle 18 remains in its axial position, that is, in the axial direction. does not need to be secured separately against axial displacement.
    Of course, this principle can also be applied to the embodiments according to FIGS. 5 to 8.
    Another possible development is illustrated schematically in FIG. 5: The disk part 31 of the spindle 18 can be attached to at least one of its disk surfaces, e.g. as shown in FIG. 5 on its inner disk surface, with teeth 31 'or the like, so as to form a " gearing " or " wedging " desScheibenteils 31 on the adjacent wall of the recess 32 in the case of support and thus to achieve an additional fixation of the adjusted position.
    Not only for this purpose it is expedient if the parts 15, 16 are made of hard plastic, e.g. PE or PVC, but the spindle 18 is made of stainless steel. The parts 15, 16 may also be made of metal. On the other hand, in the case of plastic manufacturing, it may be advantageous to mount (cast in) metallic threaded sleeves 44 (see, e.g., Fig. 8) in the plastic and similarly to provide the spindles 18 with a metric thread.
    权利要求:
    Claims (11)
    [1]
    1. Sill connection unit (10), which is set up in the operating position for supporting a floor frame (1) in a wall opening, and the upper side connecting means (20, 22; 40) in the operating position for coupling to a floor frame ( 1) and an outer contact surface (12), which is adapted for attaching an outer window sill (5), characterized by a multi-part design with a base support base part (16) and an upper frame support part (15), with the help of at least one wedge (26, 27, 27 '), which is displaceable in the direction transverse to the window sill bearing surface (12) relative to the base part (16) adjustable in height and guided vertically displaceable on the base part, andthe sill bearing surface (12).
    [2]
    2. Connection unit according to claim 1, characterized in that the support part (15) above its contact surface (12) has a hook (20) for engaging behind a projection (21) on the underside of the floor frame (1) and for receiving the upper edge of the outer sill (5) is set up.
    [3]
    3. Connection unit according to claim 1 or 2, characterized gekenn¬zeichnet that the at least one wedge (26, 27; 21 ') by means of ei¬ner threaded spindle (18), which is in engagement with a threaded bore in the wedge, is transversely displaceable ,
    [4]
    4. Connection unit according to claim 3, characterized in that the spindle (18) is held with a head (19) at least in the base part (16) against a longitudinal displacement.
    [5]
    A terminal unit according to any one of claims 1 to 4, characterized in that said at least one wedge (26; 27, 21 ') bears with an upper wedge surface on a lower side inclined surface (26B, 27B) of said support member (15).
    [6]
    Connection unit according to one of Claims 1 to 5, characterized in that the support part (15) is formed by at least one projection (34, 36), which is slidably received therein and which engages in a vertical position in the mounting position (35, 37) of the base part (16). is guided.
    [7]
    7. Connection unit according to one of claims 1 to 5, characterized in that at least one guide pin (41) in zuein¬ander aligned bores of the base part (16) and the support part (15) is arranged.
    [8]
    8. Connection unit according to one of claims 1 to 7, characterized in that two by means of a spindle (18) having gegen¬läufige threaded portions (28, 29), in opposite directions adjustable, oppositely directed wedges (26,27) are provided which abut against inclined oblique surfaces (26B, 27B) of the support part (15).
    [9]
    9. Connection unit according to one of claims 1 to 8, characterized in that the at least one wedge (26, 27) has an un¬terseitige wedge surface, with which it rests on a Schrägflä¬che (26 A, 27 A) of the base part (16).
    [10]
    A terminal unit according to any one of claims 1 to 9, characterized in that the base part (16) has a horizontal support surface for the at least one wedge (27 ') having only one wedge surface for abutment with the lower side inclined surface of the support member (15).
    [11]
    Connection unit according to one of claims 1 to 10, characterized in that the support member (15) has on its upper side engagement projections (20, 22) for cooperation, in particular latching, with projections (21, 23) on a lower profile of the frame (1 ) having.
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    同族专利:
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    引用文献:
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    DE202010004924U1|2010-04-13|2010-07-22|Baumann, Josef|Device for positioning a component during assembly of the component to a building|PL3128112T3|2015-08-03|2018-09-28|Iso-Chemie Gmbh|Support bracket for a frame profile of a window or a door|
    EP3170959B1|2015-11-18|2018-05-09|Wlodzimierz Grobelny|A window installation apparatus|
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    法律状态:
    2021-02-15| PC| Change of the owner|Owner name: GKP HOLDING GMBH, AT Effective date: 20201223 |
    优先权:
    申请号 | 申请日 | 专利标题
    ATA50723/2013A|AT515020B1|2013-11-05|2013-11-05|Sill-line unit|ATA50723/2013A| AT515020B1|2013-11-05|2013-11-05|Sill-line unit|
    DE112014005073.3T| DE112014005073A5|2013-11-05|2014-11-04|SILL CONNECTION UNIT|
    PCT/AT2014/050263| WO2015066743A1|2013-11-05|2014-11-04|Windowsill connection unit|
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