• 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:
    The invention relates to a glazing system (1) for a balcony, terrace and / or window glazing, which has a plurality of elements (2) and at least two defined rails (4, 5), which at least one or more elements (2) in one receive upper and a lower profile (9, 10), so that the plurality of elements (2) along the longitudinal direction of the at least two defined rails (4, 5) are slidably mounted and rotatably mounted at a defined point of the at least one defined rail. In addition, the invention comprises at least one compensating element (3), wherein the plurality of elements (2) at least partially overlap with the at least one compensating element (3) and at a defined point in front of the least one compensating element (3) can be transposed.
    公开号:AT15365U1
    申请号:TGM50218/2015U
    申请日:2015-12-09
    公开日:2017-07-15
    发明作者:Sedlmaier Martin
    申请人:Sedlmaier Gmbh;
    IPC主号:
    专利说明:

    description
    GLAZING SYSTEM
    The present invention relates to a glazing system for a balcony, terrace and / or window glazing according to the features of the preamble of the independent claim 1.
    Glazing systems are increasingly used especially for Baikon, terraces and / or the like their application. Glazing systems are characterized in particular by the fact that the enclosure of the balcony and / or the terrace can be opened at least in sections at any time completely and / or at least in sections. Depending on the characteristics of the glazing system, the individual elements can be moved and / or decayed out of the guideway. As a rule, specially designed guide rails are required for this purpose. The benefit of using such glazing systems is being able to use the balcony and / or terrace in all weather conditions and, moreover, the enclosure also contributes to a reduction in heating costs due to the additional insulation.
    Various arrangements of glazing systems for balconies and / or terraces are known in the art. A variant represents a glazing system in the form of a fixing glazing. The object to be incorporated, in particular the balcony and / or the terrace is enclosed with a fixed glass. The disadvantage, however, is that no opening of the glazing system can be made.
    A further variant for the formation of a glazing system for balconies and / or terraces represents the enclosure by displaceably mounted glass elements. For this purpose, the individual glass elements engage in parent and minor rails and are slidably mounted along the longitudinal extension direction of the rails. Possibly. At the end of the glazing unit, the individual elements can optionally be turned inwards and / or outwards. For the pivoting of the individual elements displaceably mounted special rails, including, for example, points are required.
    The disadvantages of the known in the art glazing systems for balconies and / or terraces are that several notches must be made for moving, in particular turning and pushing the individual elements. For this purpose, additional switches and / or rails must be arranged in each case at the upper and lower guide elements, to v. to allow the twisting of the individual elements. It has also proved to be disadvantageous that in the known glazing systems for balconies and / or terraces usually a special measure of the individual elements depending on the size of the object to be incorporated is required. The custom-made but proves to be costly for the end customer.
    The invention has for its object to provide a glazing system for a balcony, terrace and / or window glazing available, which in a simple manner and can be produced, is inexpensive and creates a variable modular system with standardized standard elements.
    These objects are achieved by a glazing system having the features in independent claim 1. Advantageous embodiments and further developments of the invention are specified in the respective dependent claims.
    The glazing system according to the invention is provided for a balcony, terrace and / or window glazing and comprises a plurality of elements, at least two defined rails, which receive the at least one or more elements in an upper and a lower profile, so that the plurality of elements along the longitudinal direction of the at least two defined rails slidably and rotatably mounted at a defined point of the at least one defined rail and at least one compensating element, wherein the plurality of elements with the at least one compensating element at least partially overlap and transversely positioned at a defined point in front of at least one compensating element can be.
    The present glazing system is in particular a frameless glazing system in which the plurality of elements can be arranged side by side. As elements glass elements, sliding sash and / or any other slidably mounted elements can be understood. The several elements each comprise a surface element, an upper and lower profile, and fitting parts such as rollers, pins or Einrasthilfen. The surface elements can each be made of wood, plastic, metal and / or any conceivable further material. Through the use of additional fitting parts, the plurality of elements, for example. In the form of sliding sash not only be moved linearly and used at the end of the glazing system as a rotary wing, but rather at any point inward and outward to be pivoted.
    The number of elements required depends on the size of the object to be incorporated, e.g. the balcony and / or the terrace. As a rule, up to three elements, each made in a standard size, are sufficient. It is also possible that the glazing system is formed of a single element, v. A. if it concerns a balcony and / or terrace of particularly small measure. The plurality of elements may each be received in an upper and a lower profile of the at least two defined rails, so that they are each individually displaceable horizontally to the left and / or horizontally right within the guide system.
    The glazing system typically includes a plurality of upper and lower rails. In addition to the plurality of elements, the glazing system may comprise at least one compensating element, which is bordered by the at least one further rail in an upper and lower profile. The at least one compensating element can serve to achieve a compensation in the width of the glazing system. Thus, no special sizes are required for the multiple elements. Rather, the plurality of elements can be made in a standard size, since the different opening sizes of Baikon and / or terraces can be compensated with the at least one compensating element. The at least one compensating element is characterized in that it can be vertically offset from the plurality of elements, so that the plurality of elements overlap with the at least one compensating element. Possibly. the at least one compensating element can also be flush with the plurality of elements. Due to the overlapping of the plurality of displaceably mounted elements with the at least one compensating element, a wide variety of opening dimensions of the baikonone and / or terraces can be created in width. The glazing system can be variably adapted to any size of object to be incorporated.
    The glazing system according to the invention is characterized in that the plurality of elements at the transition from the at least one rail to the at least one further rail, which holds the compensating element, can be pivoted or rotated. Due to the nature of the at least two defined rails with different profile geometries can be dispensed with a large part of the Auszie kungen described in the prior art. The pivoting of the plurality of elements can be achieved by each of the one end of the plurality of elements, in particular the second unit of the roller drive from the upper and lower guide is decayed. An axis of rotation can now be formed at the opposite end (here the first unit of the roller drive), to which the element is respectively held in an upper and lower profile. The plurality of elements can now be transposed transversely in front of the at least one compensating element in each case due to their pivotability.
    Further, the at least two rails may comprise a guide rail and / or a station rail.
    The at least two defined rails can be distinguished by their respective different profile geometries and are subject to different requirements in each case. A special feature of the present glazing system is in particular the linear arrangement of the rails. The lower station rail can be coupled with the guide rail and the upper station rail with the upper guide rail at the front. Due to the use of different profile geometries, the at least two defined rails can fulfill different functions. This is particularly important in the top running rails.
    The guide rail may preferably at least partially accommodate the plurality of elements respectively at the upper and lower ends, so that they are slidably mounted within the longitudinal extension direction of the guide rail. The guide rail may in this context each have receptacles for fixing the plurality of elements. In addition to the guide profiles of the guide rail, the station rail may comprise a further rail, so that the at least one compensation element is held in an upper and lower profile and is offset to the plurality of elements.
    The station rail can be designed in comparison to the guide rail with narrower tolerances to ensure a secure holding the at least one compensating element and an exact function of the rotational movement and / or the displacement of the plurality of elements. This can be made possible by the arrangement of webs, so that the rollers and / or the guide pin are strictly guided. The guide rail can be formed with larger tolerance ranges, so that more clearance is available in the area of the bearing and a displacement of the multiple elements without much effort is possible. The larger tolerance range of the guide rail can also be used to compensate for heights of several elements. Height tolerances can occur especially in glazing systems, which experience a deflection by periodic and / or intermittent loads, such as, for example, in snow load, wind load and / or the like. The system of the guide rail is designed so that a tolerance of up to approximately 25 mm can be accommodated with the occurring loads without loss of function or damage to the system. In the glazing systems known in the prior art, continuous rails of the same geometry are used in the upper rails, so that at most a tolerance range of three to four millimeters can be provided here.
    The at least one further rail or the station rail, is so ausgebil-det that this maintains its length in each glazing system. In order that the glazing system can be adapted to any balcony and / or patio size, the lengths of the at least one rail, in particular the guide rail, can be made flexible. For example. protruding lengths of the guide rails can each be shortened and adapted to the width of the object to be incorporated.
    An expedient development of the invention provides that the at least one compensation element is received in at least one receiving unit of the at least one defined rails.
    The station rail can provide at least one receiving unit for holding the at least one compensating element in addition to the profiles for guiding the plurality of elements. The at least one receiving unit can accommodate the at least one compensation element so that it is arranged offset to the plurality of elements. The at least one compensating element can be accommodated at least in sections at its upper and lower end by the at least one receiving unit.
    It can also be provided that the at least one compensation element is fixed.
    The at least one compensating element is held either inside and / or outside by means of a separate profile, which is provided by the at least one receiving unit of the at least one defined rail or the station rail available.
    The at least one compensating element can be received and fixed at least in sections at its upper and lower ends in each case by the at least one receiving unit. The fixation of the at least one compensating element can be effected by means of the clamping principle. It can also come to bear all conceivable further attachment methods. Alternatively, the at least one compensation element can be made flexible or movable.
    A further embodiment provides that the plurality of elements comprise at least two sliding elements, which engage respectively in the upper and lower profile of the at least two defined rails.
    To design the at least two sliding elements, for example, a roller drive can be taken into consideration. Other displaceably mounted embodiments may also be used.
    Further, the invention provides that the at least two sliding elements are designed as a roller drive, wherein the roller drive consists of at least two defined units, the first unit having a first main roller and a secondary roller and / or a guide pin and the second unit a second Main roller includes.
    The roller drive comprises two defined units, the first unit having a first main roller and a secondary roller and the second unit having a second main roller. The at least two sliding elements, for example in the form of a roller drive, can each be arranged at the upper and lower end of an element and at least partially accommodated by the at least one defined rail. Instead of the rollers, be it main roller and / or secondary roller, all conceivable further displaceably mounted embodiments are possible. At the lower end of an element, e.g. a secondary roller and / or a guide pin are included as part of the first unit of the roller drive of the lower rail. At the upper end, however, a roller can be performed as an element of the second unit of the roller drive of the upper rail. It is also possible that a guide pin, instead of a secondary roller and / or a roller can be provided. The shape of the guide pin corresponds to a bolt which preferably retains its radius. It is also possible that the guide pin is conical. The recording of the at least one guide pin is carried out such that a clearance between the rail and the secondary roller and / or the roller or the guide pin is present, so that the plurality of elements horizontally shifted to the left or to the right or to a defined Angle can be pivoted.
    Further, the at least one compensation element may be arranged at different positions within the glazing.
    The at least one compensating element may be disposed within the glazing system at an arbitrary position and is not associated with a defined position. The at least one compensation element can be positioned in each case at the left end, at the right end and / or also in the middle of the glazing system. Due to the flexibility thus gained, the glazing system can be designed at will to the object to be incorporated, for example, to the balcony and / or the terrace with a view to the best possible layout. As a rule, the at least one compensating element is arranged in each case at one end of the glazing system, which has proved to be advantageous in practice. The folded glazing system, in particular the multiple elements are not in the direct field of view of the user and may also be no obstacle.
    An expedient development of the invention provides that the plurality of elements are designed as standard wings.
    The plurality of elements may be formed in a standard size, since the width of the object to be incorporated, in particular the balcony and / or the terrace can be compensated due to the at least one compensating element. Expensive customizations in terms of the width of the multiple elements are no longer required. As standard values for the several elements, for example, 60 cm, 70 cm and / or 80 cm can be defined.
    It can also be provided that the plurality of elements are designed as sliding sashes.
    The sliding panels may each comprise an upper and lower profile, surface elements and fitting parts in the form of rollers, pins, or Einrasthilfen. The sliding leaves, in particular the surface elements, may be formed as glass panes. Glass panes as an embodiment of the several elements have proved to be advantageous because the glazing system in its entirety is better integrated into the environment and / or environment, optically appealing to the end customer and allows a view through the glazing system. Other materials for forming the multiple elements may also be any form of plastics and / or other transparent materials. It is also conceivable that the plurality of elements, in particular the surface elements of wood, metal and / or any other material may be formed.
    A further embodiment provides that the plurality of elements in height by means of defined profiles are adjustable.
    For height compensation, the defined profiles may be formed as a two-part grid profile. Thus, in each case a cantilever arm can be arranged at the lower end of a surface element, which engages in the opposite grooves and / or indentations, for example, in the form of a grid.
    Accordingly, the height of the plurality of elements can be compensated and the glazing system can be adapted to any balcony and / or terrace with different height profile. At the same time can be held by the height compensation in addition, the respective position of the plurality of elements between the at least two defined guides approximately equal.
    It can also be provided that the plurality of elements about 90 ° about an axis of rotation within the at least one defined rail are rotatable.
    The displaced elements can be rotated in each case at the left or at the right end of the at least one defined rail, inwardly and / or outwardly by approximately 90 °, so that the plurality of elements can be folded to save space. By pivoting the individual elements, the opening of the glazing system can be completed. When pivoting the individual elements, a release of one end of the guide takes place, so that the individual elements only at the opposite end to the secondary roller and the roller and / or the guide pin at least partially in an upper and lower profile of the at least one rail is included. The further recorded end forms the axis of rotation about which the respective element is pivotable. The notching of the one end of the individual elements usually takes place during the transition from the guide rail to the station rail, since in this area the individual elements can each be transposed in front of the at least one compensation element. The pivoting of the individual elements about the axis of rotation can take place up to an angle of approximately 90 °. Possibly. The multiple elements can also be pivoted by a smaller angle.
    An expedient development of the invention provides that the plurality of elements via corner profiles with an angle of about 90 ° to about 179 ° are displaced.
    In addition to linearly arranged glazing systems, the device according to the invention can also extend over corner profiles with angles of approximately 90 ° to approximately 179 °. Baikonons and / or terraces usually have at least two corners. The glazing system is designed so that the plurality of elements can each be pushed one after the other over the corner of the glazing system. This has proven to be advantageous because the glazing system can be ge opens despite the corners over its entire length. It is possible that the glazing system can have any number of corner profiles without the glazing system according to the invention losing its function.
    In the following, embodiments of the invention and their advantages are explained in more detail with reference to the accompanying figures. The proportions of the individual elements to one another in the figures do not always correspond to the actual size ratios, since some shapes are simplified and other shapes are shown enlarged in relation to other elements for better illustration.
    Figures 1A, 1B and 1C each show the glazing system in different
    Positions of a perspective view.
    FIG. 2 shows the glazing system with a corner profile in one
    Perspective view.
    FIGS. 3A and 3B respectively show sectional views of the glazing system along a section axis C-C of FIG. 1A.
    FIGS. 4A and 4B respectively show sectional views of the glazing system along a section axis A-A from FIG. 1B.
    FIG. 5 shows a sectional view of the glazing system along a section axis B-B from FIG. 1A.
    Figure 6A shows the upper profile of the station rail in a De tail view.
    FIG. 6B shows the upper profile of the guide rail in a detailed view.
    FIGS. 7A and 7B show the height adjustability of the individual elements in a detailed view.
    FIG. 8 shows the sliding element in the form of a roller element in its guided position in a perspective view.
    Figure 9 shows the slider in the form of a roller drive in its pivoted position in a perspective view.
    For identical or equivalent elements of the invention, identical reference numerals are used. Furthermore, for the sake of clarity, only reference symbols are shown in the individual figures, which are required for the description of the respective figure. The illustrated embodiments are merely examples of how the device of the invention may be configured and are not an exhaustive limitation.
    FIGS. 1A, 1B and 1C each show the glazing system 1 comprising a plurality of elements 2. The elements 2 are respectively received by at least two defined rails, a guide rail 4 and a station rail 5, at least in sections at the top and bottom. The multiple elements 2 in this embodiment are glass panes or sliding leaves, which are manufactured in a standard dimension. The plurality of elements 2 each comprise a surface element 21, an upper and lower profile, as well as fitting parts such as rollers, pins or Einrasthilfen. The surface elements 21 can each be made of wood, plastic, metal and / or any conceivable further material. The juxtaposed elements 2 can each be moved individually along the longitudinal extension direction of the at least two defined rails. The sliding direction of the individual elements 2 is indicated by the arrow direction. It is also conceivable that the plurality of elements 2 can be moved in the other direction. Through the use of additional fitting parts, the plurality of elements 2 can not only be moved linearly and be used at the end of the system as a rotary wing, but be pivoted at any point of the glazing system 1 inwards and outwards. By the arrangement of a compensating element 3, any measure can be achieved in the width of a balcony and / or a terrace. A special special size, adapted to the respective width of the object to be incorporated, is no longer necessary. The compensating element 3 is in each case fixedly mounted with a separate profile either inside and / or outside. The station rail provides the separate profile with a receptacle that at least partially absorbs and holds the at least one compensating element 3 at its upper and lower ends.
    As shown in FIG. 1A, the one element 2 overlaps with the at least one compensating element 3, so that due to this any width of the glazing system 1 for a balcony and / or terrace is possible. At a defined point of the at least one defined rail, preferably at the transition of the guide rail 4 to the station rail 5, the plurality of elements 2 can be pivoted about an axis of rotation 24 up to an angle of approximately 90 °. For this purpose, the second unit 15 of the roller drive 13 respectively releases from the upper and lower of the station rail 5, while the first unit 14 of the roller drive 12 (details of the roller drive, see Figures 8 and 9), at least in sections at its upper and lower end by means the station rail 5 is held. The held end forms the axis of rotation 24 of the element 2. The pivoted elements 2 can then be placed transversely in front of the at least one compensating element 3. The glazing system 1 in its fully open form is shown in FIG. 1C.
    The at least one compensating element 3 is arranged at the left end of the glazing system 1 in FIGS. 1A, 1B and 1C. The at least one compensating element 3 can, however, also be arranged at any other position, for example, in the middle and / or at the right-hand end of the glazing system 1.
    FIG. 2 shows a glazing system 1, which comprises a corner profile 8.
    According to the linear arrangement, the glazing system 1 also here a plurality of elements 2, which are slidably mounted along the longitudinal direction of the guide. Furthermore, the glazing system 1 comprises station rails 5 and guide rails 4. The corner profile 8 is particularly distinguished by the fact that the upper guide is designed as a station rail 5. The corner profile 8 may include an angle of about 90 ° to about 179 °, without the function of the glazing system 1 and the leadership of the multiple elements 2 are affected. For opening the glazing system 1, the individual elements 3 must each be displaced in the direction of the compensating element 3. Upon reaching the at least one compensating element 3, the individual elements 2 can be transposed transversely to an angle of approximately 90 ° in front of the compensating element 3.
    FIGS. 3A and 3B respectively show sectional views of the glazing system 1 along a section axis B-B of FIG. 1A. In particular, here the station rail 4 is disclosed with an element 2 in the form of a sliding wing. The compensating element 3 is not shown here. The figures mentioned are distinguished by the fact that they each have an upper profile 9 and a lower profile 10 and provide a receptacle for the sliding elements, for example in the form of a roller drive 13 (not shown here completely) and / or a guide pin 7. In this connection, the secondary roller 17 or the guide pin 7 can engage and slide as an element of the roller drive 13. It should be noted that in each case a small clearance between the leadership of the secondary roller 17 and / or the guide pin 7 is present.
    With regard to the use of sliding elements and / or guide pins 7 at the upper and lower ends of the plurality of elements 2, various embodiments and / or combinations are possible. As shown in FIG. 3A, the elements 2 are each guided in the lower profile 10 on a secondary roller 17. The upper roller, designed as a roller 16, serves to guide the elements 2.
    In FIG. 3B, the element 2 in the form of a sliding leaf runs in the upper profile 9 on a roller 16, so that the element 2 is moved in this form with rollers guided upwards. The lower end of the element 2 is formed with a guide pin 7, which is at least partially directed by the receptacle 12 of the lower profile 10 and takes over the lower guide. The guide pin 7 is movably mounted to accommodate tolerances and to allow easy movement of the plurality of elements 2.
    FIGS. 4A and 4B respectively show the sectional views of the glazing system 1 along a section axis A-A from FIG. 1A. In particular, here the guide rail 4 is disclosed with an element 2 in the form of a sliding wing. The compensating element 3 is not shown here.
    In FIG. 4A, the displaceability of the element 2 with respective running rollers is made possible. Accordingly, the element 2 runs down on rollers, in particular on a secondary roller 17 and on a first main roller 18 (not shown here), which engage at least in sections in a lower profile 9 of the guide rail 4. The upper roller in the form of a roller 16 takes over here only the function of lateral guidance. Alternatively, the lower guide of the element 2 can also take place with a guide pin 7 which at least partially engages in a lower profile 10 of the guide rail 4 (see FIG. 4B).
    In order to be able to variably adjust the height of the plurality of elements 2, the profiles defined by the plurality of elements 2 (see, for example, Figures 3A, 3B, 4A and 4B, 7A and 7B) have, for example, a two-part grid profile. Accordingly, a boom 6 is arranged at the lower end of the surface element 21, which engages in the opposite grooves and / or indentations, for example. In the form of a grid.
    FIG. 5 shows a sectional view of the glazing system 1 in that the compensating element 3 is overlapped by the element 2. The compensating element 3 is used to compensate for the width of the glazing system 1, so that Baikon and / or terraces can be housed with a wide variety of dimensions. The overlap is achieved in that the compensation element 3 is slightly offset relative to the displaceable element 2. The at least one compensating element 3 is received by a separate profile by means of receptacles 12. The compensation element 3 is thereby received at least in sections at its upper and lower end of the receptacle 12. On the other hand, the elements 2 in each case engage with rollers, in particular with the roller 16 and with the secondary roller 17, in the receptacle of an upper 9 and lower profile 10 of the guide profile and thus enable the relative displaceability to one another. The rail shown here is the so-called station rail 5. Instead of the rollers, guide pins 7 according to FIGS. 3A and 3B and / or FIGS. 4A and 4B may also be used.
    A peculiarity of the glazing system 1 lies in the linear arrangement of the at least two defined rails, according to which the lower station rail 5 is coupled to the lower guide rail 4 on the front side and the lower station rail 5 to the lower guide rail 4. Both rails differ in their profile geometry. Due to the design of the at least two defined rails, in particular the guide rail 4 and the station rail 5, the rails can fulfill different functions. This is especially important for the upper rails. According to FIG. 6A, the profile of the upper station rail 5 is characterized in that webs 20 are present in each case. By using webs 20, the roller 16 can be performed strictly. In contrast, FIG. 6B shows a guide rail 4, so that the different design of the profile geometry of the respective rail becomes apparent. Accordingly, the upper guide rail 4 in comparison to the station rail 5 no webs 20. Because of this, the roller 16 has more clearance 22 or a larger tolerance range. This clearance 22 may extend in an area up to 25mm. Thus, the guide rail 4 in the installed state tolerances of the glazing system 1 record. Such tolerances may temporarily, for example, due to the lowering of components due to snow load record.
    In a comparison of the lower station rail 5 with the lower guide rail 4 (see Fig. 3A, 3B and 4A, 4B) are also different forms of
    Profile geometries visible.
    In FIGS. 7A and 7B, reference is once again made to the height adjustability of the individual elements 2. Accordingly, the surface element 21 of the individual element 2 comprises at its lower end a boom 6, which can engage in opposing grooves 11 and / or indentations and / or grids. Depending on the height profile of the object to be incorporated, the boom 6 of the surface element 21 can be locked in such a way that the surface element 21 is, for example, completely retracted (cf., FIG. 7A) or extended (see FIG. The surface element 21 can thus be moved along the grid profile. Thus, the plurality of elements 2 can each be adapted to the conditions of the balcony and / or the terrace. A specially adapted glazing system 1 with regard to the height profile of the object to be incorporated is no longer necessary. The displaceability of the surface element 21 is indicated by the direction of the arrow.
    In the figure 8, the lower roller drive 13 is shown. Present figure 8 indicates that the roller drive 13 comprises two defined units. These two defined units are characterized by a first unit 14 and a second unit 15 of the roller drive 13. The decisive factor is that the first unit 14 of the roller drive 13 has a first main roller 18 and a secondary roller 17 and the second unit 15 of the roller drive 13 only a second main roller 19. The secondary roller 17 is designed so that it can be taken up by the profile of the lower rail and moved in this and / or can be performed. Instead of a secondary roller 17, a guide pin 7 can also be used. The first main roller 18 and the second main roller 19, however, runs on a web guide 23, which extends from the lower rail vertically upwards and groove-shaped. The web guide 23 is preferably narrow. But it can also take any conceivable arbitrary example. Roundish and or tapered configuration. Due to said formation of the roller drive 13, the pivotability of the plurality of elements 2 is achieved.
    The roller drive 13 in its pivoted position is shown in FIG. According to FIG. 8, the roller drive 13 also comprises a first unit 14 and a second unit 15. The first unit 14 comprises a secondary roller 17 and a first main roller 18 and the second unit 15 of the roller drive 15 comprises a second main roller 19 Formation of the roller drive 13, the pivoting of the element 2 can be made possible.
    Accordingly, the element 2 can be pivoted about a rotation axis 24 with a defined force. In the pivoting operation, a release of the second unit 15 of the roller drive 13, so that this section is free in the air. The first unit 14 of the roller drive 13, in particular the secondary roller 17, however, remains in the profile of the lower rail. The first main roller 18 is or can also be decayed out of the guide during the pivoting process. The first main roller 18 is rotated by about 45 ° after completion of the pivoting operation. Depending on your needs but also quite different swivel angle, for example. Up to 179 ° may be conceivable. In the pivoted position, the secondary roller 17 assumes the supporting function. In the upper area, this function takes over the roller 16 (not shown here). Finally, the plurality of elements 2 can also be pivoted inwardly and / or outwardly at any point within the glazing system 1.
    The invention has been described with reference to a preferred embodiment. However, it will be apparent to those skilled in the art that modifications or changes may be made to the invention without departing from the scope of the following claims.
    REFERENCE LIST 1 Glazing System 2 Elements 3 Compensation Element 4 Guide Rail 5 Station Rail 6 Boom 7 Guide Pin 8 Corner Profile 9 Top Profile 10 Bottom Profile 11 Groove 12 Receipt 13 Roller Drive 14 First Unit of Roller Drive 15 Second Unit of Pulley 16 Roller 17 Secondary Roller 18 First Main Roller 19 Second Main Roller 20 Web 21 surface element 22 clearance 23 web guide 24 axis of rotation
    权利要求:
    Claims (13)
    [1]
    A glazing system (1) for a balcony, terrace and / or window glazing, comprising - a plurality of elements (2), - at least two defined rails, which comprise the at least one or more elements in an upper and a lower profile (9, 10 ), so that the plurality of elements (2) along the longitudinal direction of the at least two defined rails are slidably mounted and rotatably mounted at a defined point of the at least one defined rail, - at least one compensating element (3), wherein the plurality of elements (2) the at least one compensating element (3) at least partially overlap and at a defined point before the at least one compensating element (3) can be transposed transversely.
    [2]
    2. Glazing system according to claim 1, wherein the at least two defined rails comprise a guide rail (4) and / or a station rail (5).
    [3]
    3. Glazing system according to claim 1 or claim 2, wherein the at least one compensating element (3) is received in at least one receiving unit of the at least one defined rails.
    [4]
    4. Glazing system according to one of the preceding claims, wherein the at least one compensating element (3) is fixed.
    [5]
    5. Glazing system according to one of the preceding claims, wherein the plurality of elements (2) comprise at least two sliding elements which engage respectively in the upper and lower profile (9, 10) of the at least two defined rails.
    [6]
    Glazing system according to claim 5, wherein the at least two sliding elements are in the form of a roller drive (13), the roller drive (13) consisting of at least two defined units (14, 15), the first unit (14) comprising a first main roller (18 ) and a secondary roller (17) and / or a guide pin (7) and the second unit (15) comprises a second main roller (19).
    [7]
    7. Glazing system according to one of the preceding claims, wherein the at least one compensating element (3) can be arranged at different positions within the glazing.
    [8]
    8. Glazing system according to one of the preceding claims, wherein the plurality of elements (2) are formed as standard wings.
    [9]
    9. Glazing system according to one of the preceding claims, wherein the plurality of elements (2) are designed as sliding sashes.
    [10]
    10. Glazing system according to one of the preceding claims, wherein the plurality of elements (2) are adjustable in height by means of defined profiles.
    [11]
    11. Glazing system according to one of the preceding claims, wherein the plurality of elements (2) by about 90 ° about a rotation axis (24) within the at least one defined rail are rotatable.
    [12]
    12. Glazing system according to one of the preceding claims, wherein the plurality of elements (2) via corner profiles (8) with an angle of about 90 ° to 179 ° are displaceable. For this
    [13]
    13 sheets of drawings
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    同族专利:
    公开号 | 公开日
    DE202015103771U1|2015-10-01|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    WO2000039426A1|1998-12-23|2000-07-06|Lmv Alnova Balkongsystem I Sverige Ab|Arrangement for reversible glazing-in of an open space|
    DE19947865A1|1999-10-05|2001-04-12|Schueco Int Kg|Balcony glazing comprises several glass components, whose upper and lower horizontal edges are provided with border profiles, to which support or guide fittings are fixed, engaging in upper and lower running rail|
    WO2002014639A1|2000-08-16|2002-02-21|Iloxi Oy|Support arrangement|
    EP2518249A1|2011-04-28|2012-10-31|Alutec Oy|Glazing arrangement|
    ITUA20163632A1|2016-05-20|2017-11-20|Vetrate Panoramiche Italiane|Glazing system with sliding doors|
    ITUA20164556A1|2016-06-21|2017-12-21|Metalglas Bonomi S R L|MOBILE PANEL SYSTEM WITH LOWER PIN ELEMENT|
    CN109424084B|2017-08-21|2020-09-29|北新集团建材股份有限公司|Wall unit supporting adjustment and adjustment method of wall unit|
    法律状态:
    2018-01-15| PC| Change of the owner|Owner name: MARTIN SEDLMAIER, DE Effective date: 20171122 |
    优先权:
    申请号 | 申请日 | 专利标题
    DE202015103771.6U|DE202015103771U1|2015-07-17|2015-07-17|glazing system|
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