• 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:
    In a partition for the division of rooms of buildings, with disc elements (1), at least at the bottom (2) and on the ceiling (3) of the building by means of connection structures (4, 4 ') are attached, which for the ground connection to the ground and for the ceiling connection to the ceiling fastened connection profiles (5), have the connection structures (4, 4 ') for the floor connection and for the ceiling connection at the end faces (10) of the disc elements (1) fixed holding profiles (16), spacer bolts (25, 25 ') which at least in the direction perpendicular to the plane (51) of the respective disc element (1) with the holding profile (16) and with the connection profile (5) of the respective connecting structure (4, 4') are in positive connection, wherein the spacer bolts ( 25) of the connection structure (4) for the ground connection carry the weight of the respective disc element (1), and covering profiles (33) which on the holding profile (16) and / or on the connection profile (5) of the respective ige connecting structure (4, 4 ') are fixed and cover the space between the holding profile (16) and connection profile (5). The spacer bolts (25 ') of the connection construction (4') for the ceiling connection are braced by means of helical springs (41) into a depression in the retaining profile (16).
    公开号:AT511168A1
    申请号:T2502011
    申请日:2011-02-24
    公开日:2012-09-15
    发明作者:Walter Dipl Ing Fh Mayer
    申请人:Mayer Walter Dipl Ing;
    IPC主号:
    专利说明:

    {
    Dr, Ralf Hofmann Thomas Fechner 6806 Feldkirch, Austria Egelseestr 65a, PO Box 61
    Patentanwälte H efel Sc Hofmann I * * * * · · * f
    M: T: A®J55 £ * 3 ... · F +43 (0) 5522 73 359 M office @ vpat, at I www.vpat.at 23835/33 / ss 110124 1
    A 1SO / H
    The invention relates to a partition for partitioning rooms of buildings, with disc elements, which are fastened at least on the floor and on the ceiling of the building by means of connection structures, which comprise for the floor connection to the floor and for the ceiling connection to the ceiling fixed Anschiuss profiles ,
    Such non-load-bearing partitions are used in particular for the division of work spaces, for example, to divide open-plan offices in individual offices. In order to maintain a widespread overall spatial impression, disk elements made of glass are primarily used. It can here all disc elements made of glass or made of glass and other materials, such as wood, existing disc elements are used mixed.
    Depending on the application, the partition may be equipped with one or more doors or be formed without doors.
    The disc elements are fixed at least on the floor and on the ceiling of the building by means of connection constructions. The adjacent to building walls disc elements are attached to the wall also by means of a connecting structure. These connection constructions are formed in a conventional embodiment of the floor, on the ceiling and possibly on the wall mounted connection profiles, which are formed in cross-section U-shaped. In these connection profiles, the disc elements are used and sealed in the sequence or glued. One disadvantage is u.a. in that the transition between the disc element and the connection profile is not flush. The step at the edge of the disk element disturbs the aesthetic impression and makes the cleaning of the disk element more difficult.
    A multi-part mounting rail for glass panes, in order to use these, for example, as a partition wall, is evident from EP 0 484 178 A1. Again, the edge of the glass is inserted into a U-shaped receiving space of the connection profile, resulting in a step between the connecting structure and the disc, the trained from several sub-profiles adjacent construction has a relatively complex overall design.
    From DE 202 16 557 U1 a partition wall made of glass with a built-in door is apparent. To hold the disc elements extends to the ceiling construction, a single U-shaped profile, in which the edge of the disc protrudes, while extending at the bottom of two U-shaped profiles.
    The object of the invention is to provide an improved partition wall of the type mentioned. According to the invention, this is achieved by a partition with the features of claim 1.
    In the partition wall according to the invention, connection constructions provided at least for the floor connection and for the ceiling connection comprise holding profiles which are fixed on the end faces of the pane elements. Furthermore, these connection constructions comprise spacer bolts which are in positive connection at least in the direction at right angles to the plane of the respective disk element held by the connecting structure both with the retaining profile and with the connecting profile of the respective connecting construction. The spacer bolts of the adjacent construction for the ground connection in this case bear the weight of the respective disc element. At the holding profiles and / or to the connection profiles cover profiles are attached, of which the gap between the respective holding profile and the respective connection profile is covered.
    The invention makes it possible to provide at least for the most part surface-flush connection constructions for connecting the disk elements to the floor and to the ceiling. In this way, an advantageous aesthetic impression can be achieved and a simple cleaning of the disc elements is made possible.
    In an advantageous embodiment, in which the cover profiles are fastened to the retaining profiles, preferably by a fastening web of the cover profile inserted into a slot of the retaining profile, the disk element, the retaining profile and the cover profile can be formed completely flush, i. their side surfaces lie in a common plane. The intermediate space between the holding profile and the connection profile is covered by a cover web of the cover profile, from which an end section attaches to a side wall of the connection professional. I .edelly between the voltage applied to the side wall of the connection profile end of the Abdeckstegs and the side wall of the connection profile results in a small step, wherein the Abdecksteg can be formed with a small wall thickness. In addition, this step can be arranged adjacent to the floor or the ceiling so that it is visually less conspicuous.
    The disk elements can be glass panes, so that a glass partition wall is formed. In this case, the glass panes can be designed in particular in the form of tempered safety glass (ESG) or laminated safety glass (VSG), optionally with soundproofing foil, or insulating glass (= a glass element having two or more parallel, individual panes spaced from each other). Also made of other materials, such as wood, existing disc elements may be provided. Disc elements that are at least substantially made of glass and disk elements made of other materials can also be used mixed.
    In the case of at least substantially glass, in particular of a frameless glass element, formed disc elements, the holding profiles are conveniently glued to the corresponding end faces of the disc elements. For a holding profile serving for the floor connection and for a ceiling connection, if appropriate also for a holding profile serving for the wall connection, this bonding is preferably carried out by means of a double-sided adhesive tape. 4
    If particularly high strengths are desired, a direct bonding mitteis an adhesive, in particular a two-component adhesive can be used.
    Further advantages and details of the invention are explained below with reference to the accompanying drawings. In this show:
    Fig. 1 is a view of a partition wall according to an embodiment of the invention;
    Fig. 2 is a section along the line AA of Fig. 1;
    Fig. 3 is a section along the line BB of Fig. 1;
    4 shows an oblique view of a section of a connection profile;
    5 is an oblique view of a portion of a holding profile.
    6 shows an insert for the ground connection in oblique view;
    FIG. 7 shows the insert part of FIG. 6 in a view; FIG.
    Fig. 8 is a section along the line CC of Fig. 7;
    9 shows an insert for the ceiling connection in oblique view;
    FIG. 10 shows the insert part of FIG. 9 in side view; FIG.
    Fig. 11 is a section along the line DD of Fig. 10;
    12 shows a spacer pin for the ground connection in view;
    Fig. 13 is a side view of the spacer bolt of Fig. 12;
    Fig. 14 is a section along the line EE of Fig. 13;
    FIG. 15 shows a spacer bolt for the ceiling connection in oblique view; FIG.
    Fig. 16 is a side view of the spacer bolt of Fig. 15;
    Fig. 17 is a section along the line FF of Fig. 16;
    FIG. 18 shows a section of a cover profile in oblique view; FIG.
    Fig. 19 is a section along the line GG of Fig. 1;
    FIG. 20 shows an edge section of a disk element; FIG.
    Fig. 21 is a section along the line HH of Fig. 1;
    Fig. 22 is a section of a frame profile in oblique view.
    The figures have different scales. 5
    * * * * * * * • * MM
    An exemplary example! for a partition according to the invention is shown in Figs. 1 to 22. 5 serving for the division of rooms, such as work spaces, buildings of partition wall comprises disc elements 1, in particular of frameless glass panes, such as toughened safety glass or laminated safety glass, are formed. At the bottom 2 and on the ceiling 3 of the building, the disc elements 1 are fastened by means of connection constructions 4, 4 '. The panel elements 1 adjoining the walls of the building are connected to the respective wall via connection constructions 4 " connected, which may be formed the same as the connection structures 4.
    Fig. 2 shows the bottom connection in cross section. At the bottom 2 a U-shaped connection profile 5 (see also Fig. 4) is fixed, which extends over the length of the separating wall 15 (wherein it may be formed of a plurality of shock-mounted sections). The connection profile 5 comprises a voltage applied to the bottom 2 base web 6, from both sides of side webs 7, 8 projecting, perpendicular to the base web 6, For fastening the Anschlussprofiis 5 on the building (here at the bottom 2) are screws 9 through holes in the base web 6 in the structure screwed-20.
    At the bottom 2 facing end face 10 of the disc member 1, a holding profile 16 is fixed, which covers the end face 10 over its entire longitudinal extent. 25
    The end face 10 has the end face 11 which is perpendicular to the side surfaces 14, 15 (= large surfaces) of the disk element or perpendicular to the plane 51 of the disk element (which is parallel to the side surfaces 14, 15 center plane through the disk element 1} The end face 11 is connected to the two side faces 14, 15 via beveled 30 faces or chamfers 12, 13, which lie on both sides of the end face 11 (see also Fig. 20) The chamfers 12, 13 close to the plane 51 of the disk element preferably angles which are each in the range vonΜ von t »» # # t t t t t t t t t t t von von von von von von von von von von von von von von von von von von von von von von von von von von von von von von von von von von von von von von von von 60 °, for example 45 ° Such chamfers 12, 13 are considered in the context of the present specification to belong to the respective end face of the disc element 1. The retaining profile 16 (see also FIG. 5) covers both the end face 11 and at least Parts of the case 12, I3, preferably as shown, the entire chamfers 12, 13 from. In this case, it has a contact web 17, which comprises a central portion 17a, which covers the end face 10, and side portions 17b, 17c, which cover the chamfers 12, 13. The outer surface of the center portion 17a facing the disk element 1 is parallel to the end surface 10, and the outer surface of the side portions 17b, 17c facing the disk element 1 are aligned parallel to the chamfers 12, 13.
    From the contact web are legs 18,19, between which a longitudinal direction 15 of the holding profile 16 extending groove 20 is located.
    The legs 18, 19 have at their ends remote from the plant web 17 each have a projection 21, 22, for example, as shown parallel to the respective chamfer 12, 13. There are between the contact web 17 and the Fort-20 sets 21, 22 slots 23, 24 are formed.
    The retaining profile 16 is held at a distance from the connection profile 5 by means of spacer bolts 25 (see also FIGS. For this purpose, the spacer bolts 25 each have a radially on a first shaft portion 27 projecting annular collar 26 on which the support profile 16 is supported, in the region of the edges of the groove 20. The first shaft portion 27 protrudes into the groove 20. It is characterized formed a positive connection between the spacer pin 25 and the support section 16 relative to a direction perpendicular to the plane 51 of the disc member 1 direction.
    The annular collar 26 is formed with a tool attachment, which in the exemplary embodiment is formed by the polygonal, in particular hexagonal, outer contour of the annular collar 30 of FIG. Other tool approaches are possible. Thus, the spacer pin 25 can be rotated by attaching a rotary tool on the annular collar 26 about its longitudinal axis.
    From the annular collar 26 are in the axial direction of the spacer bolt 25 on both sides shaft portions 27, 28 from. The second shaft portion 28 projecting in the opposite direction as the first shaft portion 27 is provided with an external thread in the connection structure 2 for the bottom connection. With this external thread of the second shaft portion 28 is screwed into an internal thread of a bore 30 formed in the form of a threaded bore, which is formed in an insert member 29.
    The insert part 29 shown in FIGS. 6 to 8, which may be made of aluminum or of a plastic, for example, is inserted into the receiving space 31 of the connection profile 5 located between the side legs 7, 8. The axis of the bore 30 is in this case perpendicular to the base web 6. The insert member 29 is thereby held immovably in the connection profile 5 at least with respect to the direction perpendicular to the plane 51 of the disc member 1. In the longitudinal direction of the connection profile, a displacement can be possible. In this way, the spacer pin 25 is connected to the connection profile 5 with respect to the direction perpendicular to the plane of the disk element 1 in positive connection.
    The disk element 1 is thus connected with respect to the direction perpendicular to its plane 51 immovably to the bottom 2 of the building, through the rigid connection of the connection profile 5 with the bottom 2 and the rigid connection of the holding profile 16 with the disk element 1 and the Mediation of the spacer bolt 25, which is in positive locking connection with the holding profile 16 and the connection profile 5 in the direction perpendicular to the plane 51 of the disc member 1, wherein the positive connection is communicated to the connection profile 5 in the embodiment via the insert member 29, with the spacer pin 25 in this direction is positively connected and which is held immovably in this direction relative to the connection profile 5 in the receiving space 31.
    At least two spaced apart in the longitudinal direction of the holding profile 16 and the connection profile 5 spacer bolts 25, which are each screwed into an insert 29 are provided, preferably in the two adjoining the vertical side edges of the disc member 1 end portions of the end face 10. Depending on the existing loads and required strength, at least one further intermediate spacer pin 25 may be provided, which is screwed into a further arranged in the receiving space 31 insert member 29.
    By rotation of the spacer pin 25 and the height of the disc member 1 and the orientation of its lower end face 10 can be adjusted relative to the horizontal.
    The connection profile 5 and the holding profile 16 are preferably made of aluminum. To avoid contact metal-glass in a simple way, the holding profile 16 is preferably adhered by means of a double-sided adhesive tape 32 on the end face 10 of the disc member 1, wherein the double-sided adhesive tape 32 between the end face 10 and the contact web 17 of the holding profile 16 and with the End 10 and the contact web 17 is glued.
    On the retaining profile 16 cover profiles 33 (see also Fig. 18) are fastened on both sides, which are e.g. made of aluminum or plastic. For this purpose, they each have a fastening web 34, which is inserted into the respective slot 23, 24 and clamped in this hä't. The insertion into the slot 23, 24 can be done for example by means of a hammer.
    The attachment web 34 is seen in cross-section through the cover 33 profiled at an angle from a Abdecksteg 35. Preferably, the cover web 35 and the attachment web 34 include an acute angle of less than 90 °, more preferably less than 70 °. But even a larger angle is possible in principle.
    The newly formed cover web 35 engages over the intermediate space between the retaining profile 16 and the connection profile 5, wherein it rests in the region of its end remote from the fastening web 34 on one of the side legs 7, 8 of the connection profile 5. By the two-sided attachment of a cover 33 on the support section 16, the gap between the support section 16 and the connection profile 5 is covered on both sides by the cover webs 35 of the cover 33.
    The outer surface 36 of the cover web 35, which is directed away from the intermediate space between the retaining profile 16 and the connection profile 5, lies flush with the surface or side surface 14, 15 of the disk element 1 (which lies parallel to the plane 51 of the disk element 1) on this side of the disk element 1. ie the outer surface 36 of Abdeckstegs 35 and the respective side surface 14, 15 of the disc member 1 lie in a common plane, Preferably are also located on the side edges of the side portions 17b, 17c of the contact web 17 edge surfaces 39, 40 of the contact web 17 in this plane, ie the respective edge surface 39, 40 is flush with the respective side surface 37, 38 and with the respective outer surface 36 of the Abdeckstegs 35. In this way, the connection structure 4 connects completely flush with the disk element 1 at. This flush-fitting connection continues close to the structure, here the floor 2. Only at the ends of the adjoining the side legs 7, 8 end portions of the Abdeckstege 35 there is a small gradation (to form a kind of small shadow then the building). This gradation is optically unobtrusive due to its location and the possible thin design of Abdeckstege 35.
    If a good acoustic separation is desired, then corresponding sound-insulating Sche: benelemente 1 can be used, for example, laminated safety glass with soundproofing foil. In order to avoid an acoustic bridge, the intermediate space between the retaining profile 16 and the connection profile 5, in particular in the longitudinal regions between the spacer bolts 25, can furthermore be filled, for example by means of stuffing cords. 10
    The connection structure 4 'for the ceiling connection is the same as the connection construction 4 for the ground connection, apart from the differences described below. Advantageously, in particular the connection profile 5, the holding profile 16 and the cover profiles 33 may be formed identical 5. The fixings of the retaining profile 16 on the disc element 1, the connection profile 5 on the building, here on the ceiling 3, and the cover 33 on the support profile 16 can be made in an identical manner.
    In contrast to the bottom connection of the second shaft portion 28 'of the distance 10 bolt 25' is formed here without external thread and a coil spring 41 is disposed on this second shaft portion 28 '. The bore 30 'is formed here without internal thread. The second shaft portion 28 'protrudes into this bore and the coil spring 21 passes through the bore 30' and is supported on the one hand on the base web 6 of the connection profile 5 and on the other hand on the annular collar 26 of the Distanzbol- 15 zen 25 'from. The annular collar 26 is thereby pressed against the retaining profile 16, wherein the first shaft portion 27 is held in the groove 20 of the retaining profile 16. In the assembled state, the free end of the second shaft portion 28 'from the base web 6 of the connection profile 5 is spaced. In this way, with respect to the direction perpendicular to the plane 51 of the
    Disc member 1 a positive connection between the Haiteprofil 16 and the connection profile 5 via the mediation of the spacer pin 25 'is formed. The outer contour of the annular collar 26 of the spacer bolt 25 'may for example be round, a tool approach is not required here. 25
    The connection constructions 4 " to connect to the respective side wall of the building are not shown in detail. This adjacent construction 4 " are preferably formed identical to the connection structures 4. For mounting, the spacer bolts 25 of the connection constructions 4, 4 " completely screwed into the internal thread of the holes 30. The disk element 1 is placed with the retaining profile 16 attached to it on the spacer bolts 25 of the connection construction 4, wherein the first shaft portions 27 are introduced into the groove 20. In the adjacent construction 4 'for the ceiling connection, the spacer bolts 25' are pressed against the force of the coil springs 41, whereupon the first shaft sections 27 are inserted into the groove 20 of the retaining profile 16 secured to the upper edge of the disk element 1. As a result, the spacer bolts 25 of the connecting structure 4 are unscrewed to the desired leveling of the disk element 1. If it is a rim-side disk element with a connection structure 4 " for wall connection, the spacer bolts 25 of the adjacent structure 4 " unscrewed as far as desired.
    Between adjacent disk elements 1 intermediate profiles 42 are used made of plastic, see. Fig. 19. The intermediate profiles 42 are advantageously elastically flexible. From a box-shaped central portion are at the end lip extensions 43 from which rest on the Fa $ EN12, 13 of the adjacent disc elements 1.
    A partition according to the invention may, if desired, be provided with doors or other fittings. Fig. 1 shows an example of a door, above which a disc element 1 'is arranged, which does not extend between the connection structures 4, 4' for the floor and ceiling connection but between the adjacent construction 4 'for the ceiling connection and a horizontal frame profile 44, which is fixed to the lower end face 10 of the disk element 1. Vertically arranged frame profiles 44, which are fixed to the door opening facing end faces 10 of the adjoining the door disc elements 1, complete the door frame.
    The disc element 1 'can also be omitted, so that the door is designed to be room-high.
    A portion of the frame profile 44 is shown in Fig. 21 in an oblique view. The frame profile 44 has a box profile-shaped portion, of which a side wall 45 is the same as the contact web 17 of the holding profile 16 is formed. This side wall 45 thus has a central portion 45a, which has one with the end face 11 of the 12 I < t «
    Disc member 1,1 'corresponding outer surface has, and side portions 45b, 45c on which have the chamfers 12, 13 corresponding outer surfaces. The attachment to the disk element 1, 1 'is again preferably effected by adhesion, in particular in the case of a disk element 1, 1' consisting at least essentially of glass. In order to obtain a sufficiently strong bond, a two-component adhesive is favorably used here.
    On box-shaped section of the frame profile 44, the door hinges 48 10 and a latch 49 can be attached to the door lock. For example, the door panel 50 may be conventionally formed as a glass door.
    Various modifications of the embodiment shown are possible without departing from the scope of the invention as defined in the claims. Thus, for example, the fastening of the cover profiles 33 on the retaining profiles 16 could also take place in other ways than illustrated, for example by latching elements. Although attachment of the cover profiles 33 on the retaining profile 16 is preferred, the cover profiles 33 could in principle also be attached to the connection profile 5. The end portions of the Abdeckstege 35 would then rest on outer surfaces of the 20 holding profile 16.
    The bores 30 and / or 30 'would not have to fully enforce the inserts 29, 29' but could be formed as blind bores. In the insert parts 29 ', the coil spring 41 would then be supported on the bottom of the bore 30' 25.
    In principle, it would also be conceivable and possible for the insert parts 29, 29 'to be integrated into the connection profiles 5, ie to be integrally formed therewith. The bores 30, 30 'are then formed in the respective connection profile 5. Thus, 30 different connection profiles for the floor connection and for the ceiling connection would be provided.
    Depending on the material of which a disc element is made, the retaining profiles 16 could also be fastened differently than by gluing, for example by screwing. Bonding is also preferred for glass elements other than glass elements 1.
    The invention enables an aesthetically very attractive design of a partition. The floor connection can advantageously be designed to be height-adjustable and subsidence of the building, whereby the distance between the floor and the ceiling can be reduced, can be accommodated.
    To be sealed joints between the disc elements and the connecting constructions are precontoured.
    The entire construction may conveniently consist of a few different parts. 14
    Legend to the reference numbers: 1, 1 'disc element 26 annular collar 5 2 bottom 27 first shaft portion 3 ceiling 28, 28' second shaft portion 4, 4 ', 4 " Connecting construction 35 29, 29 'Insert 5 Connecting profile 30, 30' Bore 6 Base web 31 Reception space 10 7 Side legs 32 Double-sided adhesive tape 8 Side legs 33 Cover profile 9 Screw 40 34 Fixing web 10 End face 35 Cover web 11 End face 36 Surface 15 12 Chamfer 39 Edge surface 13 Chamfer 40 Edge surface 14 side surface 45 41 coil spring 15 side surface 42 intermediate profile 16 retaining profile 43 lip extension 20 17 contact web 44 frame profile 17a middle section 45 side wall 17b side section 50 45a middle section 17c side section 45b side section 18 leg 45c side section 25 19 leg 46 stop section 20 groove 47 rubber stop 21 extension 55 48 door hinge 22 Extension 49 Trap 23 Slot 50 Door leaf 30 24 Slot 51 Level 25, 25 'Spacer bolt
    权利要求:
    Claims (14)
    [1]
    «» Ί PatentanwälteHefelScHofmann dr. Ralf Hofmarin · «» rv-ri ~, · · ·· Thomas Fecnner 6806 Feldkirch, Austria Egelseestr 65a, Postfach 61 * »M • * T - + SJ (0) 5¾2 73 1 37 ** F * ^ 3 MS522 73 359 M office@vpat.at I www.vpat.3t 23835 / 33 / ss 110124 A 5ΪΟjiA 15 Claims 1. Partition wall for partitioning rooms of buildings, with pane elements (1) attached at least to the floor (2) and to the ceiling (3) of the building by means of connection constructions (4, 4 ') are, which comprise for the floor connection to the floor and for the ceiling connection to the ceiling fixed connection profiles (5), characterized in that the connection structures (4, 4 ') for the ground connection and for Deckenanschuuss at the end faces of the disc elements (1) set Holding profiles (16), spacer bolts (25, 25 '}, at least in the direction perpendicular to the plane (51) of the respective disc element (1) with the holding profile (16) and with the Anschiussprofil (5) of the respective connecting structure (4, 4' ) are in positive connection, the Dist studs (25) of the connection construction (4) for the ground connection bear the weight of the respective disk element (1), and cover profiles (33) which on Halteprofii (16) and / or on the connection profile (5) of the respective connecting structure (4, 4 '} are fixed and cover the space between the holding profile (16) and connection profile (5).
    [2]
    2. Partition according to claim 1, characterized in that at least one or more of the disc elements (1) is at least substantially formed of glass / sir.d.
    [3]
    3. Partition according to claim 2, characterized in that, at least in the case of the disk elements (1) constructed essentially of glass, preferably in all the disk elements (1), the retaining profiles (16) are glued to the end faces (10) of the disk elements (1) ,
    [4]
    4. Partition according to one of claims 1 to 3, characterized in that the respective end face (10) of a respective disc element (1) on which "the respective holding profile (16) is fixed, an end face (11) perpendicular to the Level of the disc element (1) is aligned, and on both sides of the end face (11) subsequent chamfers (12, 13), via which the end face (10) with the side surfaces (14,15) of the disc element (1) is connected, wherein both the end face (11) and at least parts of the chamfers (12, 13), preferably the entire chamfers (12, 13), are covered by the holding profile (16).
    [5]
    5. Partition wall according to claim 4, characterized in that the holding profiles (16) each have a contact web (17) which has a middle section (17a) which covers the end face (11) of the respective disk element (1) and side sections (17b, 17c) which cover at least parts of the chamfers (12, 13), preferably the entire chamfers (12, 13).
    [6]
    6. Partition according to one of claims 1 to 5, characterized in that the spacer bolts (25, 25 ') each have a radially projecting annular collar (26), which is supported on the respective holding profile (16), and one of the annular collar (26) in Direction to the respective disc element (1) in the axial direction of the spacer bolt (25, 25 ') extending first shaft portion (27), which projects into a recess in the Haiteprofil (16).
    [7]
    7. Partition according to claim 6, characterized in that the recess of a longitudinal direction of the holding profile (16) continuous groove (20) of the holding profile (16) is formed.
    [8]
    8. Partition according to claim 5 and claim 7, characterized in that the groove (20) of the holding profile (16) between the contact web (17) projecting legs (18) of the holding profile (16), at whose ends extensions (21, 22 ), which, viewed in cross-section through the retaining profile (16), are aligned at an angle to the legs (18, 19).
    [9]
    9. Partition according to one of claims 6 to 8, characterized in that the spacer bolts (25, 25 ') each one of the annular collar (26) in the direction 17 "* ι * to the respective connection profile (5) extending second shaft portion (28, 28 ') which projects into a bore (30, 30') in the connection profile (5) or in an insert part (29, 29 ') which is inserted into a receiving space (31) of the connection profile (5). 5
    [10]
    10. Partition according to claim 9, characterized in that the connection profiles (5) are U-shaped, wherein abut one of the floor connection to the bottom (2) or for the ceiling connection to the ceiling (3) adjacent base web (6) on both sides Side legs (7, 8) protrude, between which the 10 receiving space (31) for the inserts (29, 29 ') is located.
    [11]
    11. Partition according to claim 9 or 10, characterized in that for the bottom connection, the second shaft portions (28) are provided with external threads and the bores (30) in the connection profiles (5) or in the Einsatztei-15 len (29) as threaded holes are formed, in which the second sheep tabschnitte (28) are screwed.
    [12]
    12. Partition according to one of claims 9 to 11, characterized in that for the ceiling connection on the second shank portions (28 ') Schraubenfe-20 the (41) are arranged, on the one hand on the connection profile (5) or at the bottom of the bore ( 30 '} of the insert part (29') and on the other hand on the annular collar (26) of the spacer bolt (25 ') support.
    [13]
    13. Partition according to one of claims 1 to 12, characterized in that the cover profiles (33) each have a cover web (35) for covering the space between the retaining profile (16) and the connection profile (5) and a fastening web (34). have, seen in cross-section through the cover (33) angle at an angle to the cover web (35) and in a slot (23, 24) is inserted in the retaining profile. 30
    [14]
    14. Partition according to claim 8 and claim 13, characterized in that the slots (23, 24), in which the fastening webs (34) are inserted, between the respective extension (21, 22) of the leg (18, 19) of the Holding profile (Ιό) and the respective side portion (17b, 17c) of the contact web (17) of the holding profile (16) lie.
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    同族专利:
    公开号 | 公开日
    DE102012202691A1|2012-08-30|
    AT511168B1|2013-09-15|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US3160246A|1960-10-24|1964-12-08|John J Donlon|Building wall and partition structure|
    US3181660A|1961-08-16|1965-05-04|Jr Alfred L Langtry|Yieldable panel structure|
    FR2826386A1|2001-06-21|2002-12-27|Oxatherm|Panel for modular enclosure comprises two quadrangular principal faces and four peripheral sections, web, facing covering one principal face and profile on one of peripheral sections|
    US5069010A|1990-11-01|1991-12-03|Doralco, Inc.|Glass door or partition support rail|
    DE20216557U1|2002-10-25|2003-01-02|Dorma Gmbh & Co Kg|partition wall|ITVI20120268A1|2012-10-15|2014-04-16|Gemino S R L|MULTILAYER PANEL FOR DIVIDING WALLS|
    WO2018185679A2|2017-04-04|2018-10-11|C&G S.A.S. Di Ruggero Grandi & C.|System for partitioning an environment|
    IT201700036902A1|2017-04-04|2018-10-04|C&G S A S Di Ruggero Grandi & C|SYSTEM FOR THE PARTITION OF AN ENVIRONMENT|
    法律状态:
    2018-10-15| MM01| Lapse because of not paying annual fees|Effective date: 20180224 |
    优先权:
    申请号 | 申请日 | 专利标题
    AT2502011A|AT511168B1|2011-02-24|2011-02-24|PARTITION WALL|AT2502011A| AT511168B1|2011-02-24|2011-02-24|PARTITION WALL|
    DE201210202691| DE102012202691A1|2011-02-24|2012-02-22|partition wall|
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