• 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 cantilever sliding gate (1), comprising at least two roller blocks (2), a frame movable with respect to these roller blocks (2), comprising a lower (3) and an upper (4) guide beam, and drive means providing are for reciprocating the frame with respect to the roller blocks (2), the drive means comprising a drivable rack (7), said rack (7) being symmetrical with respect to the plane of symmetry of the lower guide beam (3) , which extends in the longitudinal direction of this lower guide beam (3). Such a cantilevered sliding gate (1) can be placed at several locations with different environmental factors.
    公开号:BE1019601A6
    申请号:E2008/0412
    申请日:2008-07-24
    公开日:2012-09-04
    发明作者:Joost Kristiaan Dirk Thurman
    申请人:Betafence Holding Nv;
    IPC主号:
    专利说明:

    CREATIVE SLIDING GATE
    The invention relates to a cantilevered sliding gate comprising at least two roller blocks, a frame movable relative to this roller block, which comprises a lower and an upper guide bar, and drive means which are provided for moving the frame back and forth with respect to the roller blocks, the drive means comprise a drivable gear rack.
    Freestanding sliding gates are often provided with openings in walls, fences, etc. to close off entrances and / or exits. Such sliding gates can slide in a horizontal direction, so that they release or close these entrances and / or exits.
    Usually, the gate faces of such sliding gates are made by welding or screwing a number of rods to surrounding beams that form the frame for the sliding gate. However, there are also cantilevered sliding gates where gate elements are secured in the frame by means of cooperating grooves, as described in EP1554458.
    With cantilevered sliding gates, this frame will usually be slidable back and forth with respect to so-called roller blocks. Such roller blocks provide support and guidance of the frame and usually comprise some support elements that are attached to the floor or wall. Furthermore, such roller blocks comprise support and guide wheels which on the one hand are mounted in the support elements and on the other hand are provided for rolling in the lower guide bar of the frame of the sliding gate.
    Sliding gates are often provided with a drive motor that can be fitted both in, under and next to the lower guide beam. With the help of the necessary transmission means, this drive motor drives a gear wheel. The gear wheel herein engages in a rack that is mounted in the longitudinal direction on the outside of the guide beam of the sliding gate, so that the sliding gate can move in a horizontal direction.
    In order to detect obstacles in the gate opening, safety devices can also be provided at the end faces of these cantilevered sliding gates. If someone then enters the gate opening when the gate is closed, the gate movement can be stopped based on the signal from the safety devices upon detection of this person. For this purpose, a signal transmission must also be provided to send this signal to a braking device of the gate. The signal transmission is in this case usually provided in current supply systems of the sliding gate.
    Despite the wide variety of existing cantilevered sliding gates, which we briefly presented here, embodiments of existing cantilevered sliding gates are always constructed depending on environmental factors, such as the presence of a pole, a wall, a tree, etc. A different embodiment is needed when gate wants to slide to the right, then when people want to move it to the left. Analogously, the embodiment changes depending on the dimensions of a gate opening, or depending on a wall or a tree or any other obstacle, for example, obstructing the placement of the drive or the sliding direction of the gate.
    If one wishes to install such a sliding gate, one must take these environmental factors into account. For example, when ordering the sliding gate it is necessary to know in which direction this gate will slide, whether there is room to place the motor in front of the gate, whether it will be positioned behind the gate, how large the gate opening is, etc.
    A cantilevered sliding gate will therefore usually only be manufactured after ordering, as a result of which long waiting times for placing such a sliding gate occur.
    It is therefore an object of the present invention to provide a cantilevered sliding gate that can be placed at multiple locations with different environmental factors. In this way it becomes possible for installers to keep cantilevered sliding gates in stock and to place a sliding gate relatively quickly on demand.
    This object of the invention is achieved with the aid of a cantilevered sliding gate, comprising at least two roller blocks, a frame movable relative to these roller blocks, which comprises a lower and an upper guide bar, and drive means which are provided for reciprocating the frame. moving relative to the roller blocks, the drive means comprising a drivable gear rack, said gear rack being symmetrical with respect to the plane of symmetry of the lower guide bar, which extends in the longitudinal direction of this lower guide bar.
    Towards drive, this central position of the rack ensures that the same motor can be placed both in front of and behind the lower guide beam. The position of the motor therefore no longer plays a role for the drive, so that this position can be selected depending on environmental factors such as, for example, the presence of an obstacle such as a wall or a tree or a better accessibility for maintenance of the motor.
    Preferably, the drive means of such a cantilevered sliding gate according to the present invention furthermore comprise a gear wheel provided for engaging the gear rack to drive it.
    The gear wheel of a simple-to-assemble embodiment of a sliding gate according to the present invention is provided in one of the aforementioned roller blocks. In this way the gear wheel is mounted together with the corresponding roller block, whereby a good positioning of the drive is ensured by a good positioning of this roller block.
    In use, the gear wheel is herein preferably arranged symmetrically with respect to the plane of symmetry of the lower guide bar, which extends along the longitudinal direction of this lower guide bar, so that the gear wheel can engage centrally in the gear rack.
    In a preferred embodiment of a cantilevered sliding gate according to the present invention, it comprises two roller blocks, which are correspondingly provided with guide and supporting rollers.
    In this way the roller blocks can be interchanged. If drive means are provided in one of the roller blocks, the location of the drive means can thus also be selected depending on environmental factors, without the gate support or guide having to change for this.
    In a still more preferred embodiment of a cantilevered sliding gate according to the present invention, the rollers of said roller block are arranged symmetrically with respect to the vertical centerline of the roller block in the position of use of the cantilever sliding gate.
    A roller block can thus be rotated about its axis without this having any influence on the support or guidance of the sliding gate. This is particularly useful for a roller block in which drive means are provided and in which, for example, the position of the drive shaft is also fixed relative to this roller block, because this also makes it possible to freely choose the positioning of a motor in front of or behind the sliding gate by the roller block , together with the drive means, including the motor, 180 ° to rotate the vertical centerline of the roller block.
    In a further preferred embodiment of a sliding gate according to the present invention, the roller blocks are connected to each other via a telescopic beam.
    A beam is often attached between the roller blocks of a sliding gate, because this allows the roller blocks to be aligned with respect to each other in a simple manner, in order to ensure a smooth guidance of the frame relative to these roller blocks, so that this frame without too much friction can be shifted.
    To accommodate different dimensions of gate passages, such a beam is often cut to size on site. However, if the sawing surface of this is not at right angles to the beam, correct alignment of the roller blocks is no longer ensured. By now telescopingly performing this beam, which is provided with the sliding gate between the roller blocks, different gate passages can be received locally by bringing the beam telescopically to the desired length. The roller blocks can then always be correctly aligned with respect to each other with the aid of this telescopic beam.
    Moreover, such a telescopic beam is moreover continuously infinitely adjustable, so that the gate passage can be infinitely adjustable at that location.
    Furthermore, the upper guide bar according to the present invention is preferably provided with a signal transmission for a safety device.
    Namely, with existing sliding gates, such a signal transmission is difficult to access for maintenance or repair. Providing this at the top of the sliding gate makes it easier to access. Moreover, unlike signal transmissions that are freely arranged in the lower guide profile at the bottom, it is better protected against dirt, moisture and other environmental influences by integration in the upper beam, so that it can be damaged less quickly.
    This signal transfer is further preferably done via induction. Namely, a safety device will be on the closing side of the sliding gate, while the power supply and the motor are preferably, but not limited to, in a column next to the sliding gate. The safety device is in this case supplied from the power supply, while the signal indicating whether an obstacle is present in the gate passage must be sent to the braking device of the motor in order to be able to stop the movement of the gate if necessary. When moving the frame of the sliding gate, this frame will also move relative to the power supply and the motor, whereby the distance between the safety device and the power supply and the motor is variable. This variable distance can be reliably compensated with signal transmission via induction.
    In a still further embodiment of a sliding gate according to the present invention, it comprises vertical beams, which connect the upper and lower guide beams to one another, to form together the frame of the sliding gate.
    The frame according to the present invention preferably comprises modular fill-in elements. By modular fill-in elements we mean here both plate-shaped fill-in elements with which the frame can be filled, as additional horizontal or vertical bars, and all kinds of ornamental fill-in elements. With modular fill-in elements, such a sliding gate can easily be adapted to all kinds of preconditions. For example, it may be desirable for such a sliding gate to still allow visual contact, for example at a car exit, where it is desirable for the driver to be able to see during opening whether there is, for example, a pedestrian on the other side of the gate. In other cases, on the contrary, it may be desirable that the gate does not allow visual contact, where, for example, it provides access to a business park on which there are items that may not (yet) be made public. Depending on the dimensions of the sliding gate, additional horizontal or vertical beams may be desirable for firmness and / or stability and / or as additional fixing points for other fill-in elements. Furthermore, modular fill-in elements also allow you to easily adjust the port without having to replace the entire port. For example, it may happen that a car hits the gate, whereby only a few modular fill-in elements are damaged. In such a case, one only has to replace the damaged fill-in elements and not the - much more costly - complete sliding gate. In addition, the modular presentation of a sliding gate also offers the additional advantage that when different aesthetic embodiments of fill-in elements are available, the sliding gate can be adjusted aesthetically according to the wishes of the consumer.
    The modular fill-in elements according to the present invention are preferably provided for fixing to the lower guide bar and / or the upper guide bar and / or the vertical bars. Even more preferably, these can moreover be attached to the lower and / or the upper guide bar and / or the vertical bars by means of a snap connection.
    The various components of the gate can be easily mounted or dismantled with click connections. The lower guide beam and / or the upper guide beam and / or the vertical beams can here for instance be embodied as a profile which is provided over the full length with ribs and / or recesses that can form part of the said snap connection, so that it over the full length of said beams is possible to attach modular fill-in elements to said beams with the aid of a snap connection. However, these modular fill-in elements can equally well be screwed to the said beams.
    In a special embodiment of a cantilevered sliding gate according to the present invention, the frame and the roller blocks are symmetrical in use with respect to the plane of symmetry of the lower guide beam, which extends in the longitudinal direction of this lower guide beam.
    This is because a modular sliding gate system in which almost all components are symmetrically constructed offers extremely high flexibility to adapt the sliding gate on site to the environmental factors and possible changing wishes of the consumer.
    This invention will now be further elucidated with reference to the following detailed description of some preferred embodiments of a cantilevered sliding gate according to the present invention. The purpose of this description is only to provide clarifying examples and to indicate further advantages and details of these embodiments of a cantilevered sliding gate according to the present invention, and thus can in no way be interpreted as limiting the scope of the invention or the patent rights claimed in the claims.
    In this detailed description reference is made to the accompanying drawings by reference numerals, in which: figure 1 shows a perspective view of a cantilevered sliding gate; Figure 2 is a sectional view of the lower guide bar and the drive means of an embodiment of a cantilevered sliding gate according to the present invention; Figure 3 is a sectional view of the lower guide bar and the drive means of another embodiment of a cantilevered sliding gate according to the present invention; Figure 4 shows a perspective view of the roller blocks of an embodiment of a cantilevered sliding gate, which according to the present invention are connected via a telescopic beam; Figure 5 shows a perspective view of the roller block of an embodiment of a cantilevered sliding gate according to the present invention, which is provided with a gear transmission and with the associated rack; Fig. 6 is a sectional view of the upper guide bar of an embodiment of a cantilevered sliding gate according to the present invention, which is provided with a signal transfer via induction; Figure 7 shows a perspective cut-away view of the top of an embodiment of a cantilevered sliding gate according to the present invention, wherein the upper guide bar is provided with a signal transmission via induction; Figure 8 shows a perspective cut-away view of the frame of an embodiment of a cantilevered sliding gate according to the present invention, provided with modular fill-in elements; Figure 9 shows a perspective cut-away view of the frame of another embodiment of a cantilevered sliding gate according to the present invention, provided with modular fill-in elements; Figure 10 is a sectional view of the upper beam of an embodiment of a cantilevered sliding gate according to the present invention; Figure 11 is a sectional view of a vertical beam of an embodiment of a cantilevered sliding gate according to the present invention; Figure 12 is a sectional view of an ornament provided for clicking on the top of the upper beam as shown in Figure 10; Figure 13 is a sectional view of a cover profile provided to snap onto the top of the top beam as shown in Figure 10; Figure 14 is a sectional view of a side cover profile provided to snap onto a vertical blade as shown in Figure 11; Figure 15 is a sectional view of an additional horizontal bar as a modular fill-in element for an embodiment of a cantilevered sliding gate according to the present invention; Figure 16 is a sectional view of an additional vertical beam as a modular fill-in element for an embodiment of a cantilevered sliding gate according to the present invention.
    The reference numbers refer to the following components: 1 cantilevered sliding gate 2 roller block 3 lower guide bar 4 upper guide bar 5 column 6 motor 7 gear rack 8 gear 9 (guide and support) rollers 10 telescopic bar 11 signal transmission 12 signal transmission via induction 13 vertical bar 14 modular fill-in element 15 ornament 16 cover profile 17 side cover profile 18 extra vertical beam 19 extra horizontal beam 20 tension cable 21 side cover 22 safety device 23 corner element 24 connecting cavity 25 snap element 26 fixing slot 27 fixing element 28 corner connecting cavity 29 wheel tread 30 tread guiding cavity 31 guiding cavity 32 signal transmission cavity
    Embodiments of a cantilevered sliding gate (1) according to this invention as shown in Figure 1 comprise at least two roller blocks (2), as also shown in Figures 2 to 5, a frame movable relative to these roller blocks (2), which is also shown in more detail in Figure 8 and which comprises a lower (3) and an upper guide beam (4) and drive means provided for moving the frame back and forth with respect to the roller blocks (2), the drive means being a drivable gear rack (7). Thanks to the tensioning cable (20), the frame of the cantilevered sliding gate (1) can partially rest on the roller blocks (2) in overhang.
    As is more clearly shown in Figures 2 to 5, the said rack (7) is herein symmetrical with respect to the plane of symmetry of the lower guide bar (3), which extends in the longitudinal direction of this lower guide surface (3). The rack and pinion (7) is provided in Figs. 2 to 5 with fastening elements (27), with which this rack (7) is slid into a fastening slot (26) of the lower guide bar (3) around this rack (7) on the lower guide bar (3). The driving means of the embodiments of a cantilevered sliding gate (1) as shown in Figs. 2 to 5 further comprise a gear (8) provided for engaging the gear rack (7) to drive it. In these illustrated embodiments, said gear (8) is each provided with a roller block (2). In order to allow the gear wheel (8) to engage centrally in the gear rack (7), this gear wheel (8) is arranged symmetrically in use with respect to the plane of symmetry of the lower guide bar (3), which extends along the longitudinal direction of this lower guide bar (3). With the help of the necessary transmission means in the form of a gear transmission as shown in Figures 2, 3, 4 and 5, an electric drive motor (6) drives the gear (8) which engages in the gear rack (7). In this way, the frames of these embodiments of a cantilevered sliding gate (1) can be shifted in a horizontal direction with respect to the roller blocks (2).
    The guide and support rollers (9) of the roller blocks (2) run, as shown in Figures 2 and 3, in the guide cavities (31) of the lower guide bar (3) to support the frame of the cantilevered sliding gate (1) and to guide on reciprocating movement of the frame relative to the roller blocks (2). For this purpose, the wheel treads (29) of the guide and support rollers (9) and the respective treads (30) of the guide cavities (31) are complementary. To ensure proper support and guidance of the cantilevered sliding gate (1), the wheel treads (29) are convex, while the respective treads (30) of the guide cavities (31) are correspondingly concave.
    The embodiment as shown in figure 4 comprises two roller blocks (2) which are correspondingly provided with guide and supporting rollers (9). In this way the roller blocks (2) can be exchanged with each other, without the support of the sliding gate (1) changing. The drive means which in this case are provided in one of the two roller blocks (2) can thus be moved in dependence on environmental factors, without thereby changing the support or guidance of the sliding gate (1).
    The rollers (9) of the roller block (2) of Figure 5 are arranged symmetrically with respect to the vertical center line of this roller block (2) in the position of use of the sliding gate (1). Such a roller block (2) can be rotated 180 ° around said vertical centerline, without this having any influence on the support or guidance of the sliding gate (1). The drive means provided in this roller block (2) are hereby rotated along with the roller block (2) about the said center line, so that its positioning can be selected depending on environmental factors, without the support or guidance of the sliding gate (1) changes.
    The roller blocks (2) from figure 4 are further connected to each other via a telescopic beam (10) that is continuously adjustable. In this way the width of the gate passage can easily be adjusted by adjusting the telescopic beam (10), ensuring a good alignment of the roller blocks (2) with respect to each other.
    To detect obstacles in the gate opening, as shown in Figure 7, a safety device (22) can be provided on the end face of the cantilevered sliding gate (1). If someone is in the gate opening when closing the sliding gate, the gate movement can be stopped based on the signal from the safety device (22) that is generated when this person is detected. For this purpose a signal transmission (11) is provided to send signal to a braking device of the sliding gate (1). As shown in Figures 6 and 7, this signal transfer (11) is provided in a signal transfer cavity (32) of the upper guide bar (4), making it easily accessible for maintenance or repair. The upper guide bar (4) is symmetrically provided on both sides with a signal transmission cavity (32), so that it is not necessary to turn it over if, depending on environmental factors, it is desired to provide the signal transmission on the other side of the cantilevered sliding gate (1). Compared to conventional installation of signal transmissions (11) in or near the lower guide bar (3), an installation in the upper guide bar (4) provides a better protection against dirt, moisture and other environmental influences, so that the signal transmission (11 ) can be damaged less quickly. In order to be able to reliably transmit the signal over the variable distance between the end face of the sliding gate (1) and the braking device, the signal transfer (11) as shown in Figs. 6 and 7 takes place via induction. The signal transmission (11) can furthermore also be extended through the vertical bars (13) to bring it shielded to the braking device.
    Embodiments of a cantilevered sliding gate (1) as shown in Figure 1 and those of which the frames are shown in Figures 8 and 9 also include vertical beams (13) connecting the upper (4) and lower guide beams (3) together to form the to form the frame of the cantilevered sliding gate (1). Furthermore, these embodiments are provided with modular fill-in elements (14). These modular fill-in elements (14) are, as shown in Figures 8 and 9, attached to the lower (3) and upper (4) guide beams with the aid of a screw connection or a snap connection. The modular fill-in elements from figure 1 are attached on the one hand to a vertical beam (13) and on the other hand to an additional vertical beam (19) which is placed between the two vertical beams (13) and is attached to the lower (3) and the upper (4) guide bar. A frame can further be provided with one or more additional horizontal beams (18), as shown in figure 9 or one or more extra vertical beams (19). Additional horizontal (18) or vertical (19) beams may, depending on the dimensions of the sliding gate (1), be desired for robustness and / or stability and / or as additional fixing points for other modular fill-in elements.
    As can be felt, an infinite number of fill-ins for the frame with all kinds of modular fill-in elements (14) is possible. With these modular fill-in elements (14) a cantilevered sliding gate (1) can easily be adapted to all kinds of preconditions. For example, it may be desirable that visual contact through the sliding gate (1) remains insured or that visual contact is avoided. Furthermore, modular fill-in elements also allow you to easily adjust the port without having to replace the entire port. In addition, the modular presentation of a sliding gate (1) also offers the additional advantage that when different aesthetic embodiments of modular fill-in elements (14) are available, the sliding gate (1) can be aesthetically adapted to the wishes of the consumer.
    In order to easily assemble or dismantle the various parts of a cantilevered sliding gate (1), the various parts were adapted to this. The lower guide beam (3) is for this purpose, as shown in Figures 2, 3, 8 and 9, designed as a profile, in which a connecting cavity (24) is provided at the top, in which modular fill-in elements (14) such as more specifically a cover profile (16) can be placed and can support. The upper guide beam (4) is, as shown in the embodiments in Figures 6, 7, 8, 9 and 10, both at the bottom and at the top provided with a connecting cavity (24) with ribs, which are provided to form part of a snap connection. The connecting cavity (24) of the lower guide bar (3) could be made analogously. In order to be able to click into the upper guide bar (4), various modular fill-in elements (14) as shown in Figs. 6 to 13 are correspondingly designed with complementary click elements (25). The ornament (15) which, as shown in figure 8, is provided with upright peaks, is hereby arranged at the top of an upper guide beam (4) to make it difficult to climb the cantilevered sliding gate. However, a cover profile (16) can also be provided at the top of the upper guide bar (4) as in Figure 9 and as also shown in Figure 8. The vertical beams (13) are also provided with a connecting cavity (24), as shown in Figure 11, into which the snap elements (25) of a side cover profile (17) as shown in Figure 14 can snap. The additional horizontal bar (18) is also provided with connecting cavities (24), as shown in Figure 15, to enable modular fill-in elements (14) to be attached with screws or to be clicked in with the aid of the click elements (25). The additional vertical beam (19) shown in Figure 16 was not provided for attaching modular fill-in elements (14), but could be provided with one or more connecting cavities (24) for this purpose.
    In order to be able to attach the lower (3) and upper (4) guide beams to the vertical beams (13) to form the frame together, as shown in Figures 7, 8 and 9, corner elements (23) are provided which can be attached or clicked into provided corner connecting cavities (28) and / or can be arranged in connecting cavities (24). Side covers (21) are provided for further shielding the different angles of the cantilevered sliding gate (1), as shown in Figures 7, 8 and 9.
    In order to be able to position the frame of the cantilevered sliding gate (1) and the roller blocks (2) symmetrically in relation to the plane of symmetry of the lower guide beam (3), the illustrated parts of the sliding gate (1) are so much possibly symmetrical.
    The same components can be used, for example, to build up residential sliding gates (1) or industrial sliding gates (1). Depending on the desired format of the sliding gates (1) and the gate passage to be bridged, it is advisable to adjust the lower guide bar (3) and the number of guide and support wheels (9) of the roller blocks (2) accordingly. The drive means, and more particularly the motor (6) and the gear transmission must also be adjusted accordingly. Figure 2 shows, for example, a possible embodiment of the lower guide beam (3) and the drive means for a larger sliding gate (1) which can be used, for example, in an industrial environment. Figure 3 furthermore shows, for example, a possible embodiment of the lower guide bar (3) and the drive means for a smaller sliding gate (1) which can be used, for example, in a residential environment.
    As shown in Figure 1, a cantilevered sliding gate (1) is further preferably provided with columns (5). These columns include the necessary guidance of the cantilevered sliding gate. Furthermore, the larger depicted column (5) can for instance serve as housing for drive means under which the motor (6) and a smaller depicted column (5) can for instance comprise a control panel for operating the cantilevered sliding gate (1). Further possible provisions that can be arranged in or on the columns (5) are signaling lights, lighting, an antenna, etc. The same columns (5) can also be used separately from the cantilevered sliding gate (1). For example, a column (5) with a control panel can be placed at a certain distance from the cantilevered sliding gate (1), such as, for example, at the start of a driveway.
    权利要求:
    Claims (15)
    [1]
    A cantilevered sliding gate (1) comprising at least two roller blocks (2), a frame movable relative to these roller blocks (2), which comprises a lower (3) and an upper (4) guide beam, and drive means which are provided to moving the frame back and forth with respect to the roller blocks (2), the drive means comprising a drivable gear rack (7), characterized in that said gear rack (7) is symmetrical with respect to the plane of symmetry of the lower guide bar (3) ), which extends in the longitudinal direction of this lower guide bar (3).
    [2]
    A cantilevered sliding gate (1) according to claim 1, characterized in that the drive means comprise a gear (8) provided for engaging the gear rack (7) to drive it.
    [3]
    A cantilevered sliding gate (1) according to claim 2, characterized in that said gear (8) is provided in one of said roller blocks (2).
    [4]
    A cantilevered sliding gate (1) according to claim 2 or 3, characterized in that in use the gear (8) is arranged symmetrically with respect to the plane of symmetry of the lower guide bar (3), which extends in the longitudinal direction of said lower guide bar (3).
    [5]
    Freestanding sliding gate (1) according to one of the preceding claims, characterized in that it comprises two roller blocks (2), which are correspondingly provided with guide and supporting rollers (9).
    [6]
    6. A cantilevered sliding gate (1) according to one of the preceding claims, characterized in that the rollers (9) of said roller block (2) are arranged symmetrically with respect to the vertical center line of the cantilevered sliding gate (1) in use condition the roller block (2).
    [7]
    Freestanding sliding gate (1) according to one of the preceding claims, characterized in that the roller blocks (2) are connected to each other via a telescopic beam (10).
    [8]
    A cantilevered sliding gate (1) according to claim 7, characterized in that the telescopic beam (10) is continuously adjustable.
    [9]
    A cantilevered sliding gate (1) according to one of the preceding claims, characterized in that the upper guide bar (4) is provided with a signal transmission (11) for a safety device (22).
    [10]
    The cantilevered sliding gate (1) according to claim 9, characterized in that this signal transfer (11) takes place via induction.
    [11]
    11. The cantilevered sliding gate (1) according to one of the preceding claims, characterized in that it comprises vertical beams (13), which connect the upper (4) and lower (3) guide beams to one another around the frame of the sliding gate ( 1) to form.
    [12]
    Freestanding sliding gate (1) according to one of the preceding claims, characterized in that the frame comprises modular fill-in elements (14).
    [13]
    A cantilevered sliding gate (1) according to claim 12, characterized in that said modular fill-in elements (14) are provided for connecting to the lower guide bar (3) and / or the upper guide bar (4) and / or the vertical bars (13) to confirm.
    [14]
    14. Cantilevered sliding gate (1) according to claim 13, characterized in that the modular fill-in elements (14) are connected to the lower (3) and / or the upper (4) guide bar and / or the vertical bars (13) by means of a snap connection. be confirmed.
    [15]
    Freestanding sliding gate (1) according to one of the preceding claims, characterized in that in use the frame and the roller blocks (2) are symmetrical with respect to the plane of symmetry of the lower guide beam (3), which extends in the longitudinal direction of this lower guide bar (3).
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    同族专利:
    公开号 | 公开日
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    FR3025237A1|2014-09-01|2016-03-04|Dirickx Groupe|SLIDING PORTAL AT THE FRONT AND SELF-SUPPORTING AT THE BACK|
    IT201800003082A1|2018-02-27|2019-08-27|Comunello Flii Spa|CARRIAGE FOR CANTILEVERED SLIDING GATES|
    法律状态:
    2014-01-31| RE| Patent lapsed|Effective date: 20130731 |
    优先权:
    申请号 | 申请日 | 专利标题
    BE200700424|2007-08-31|
    BE200700424|2007-08-31|
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