• 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:
    Fitting (100) for a along a longitudinal extent (LE) of a guide profile (2) movably mounted sliding door (5) of a shower partition (101), with a sliding door (5) connected to the suspension (1), at least one on the suspension (1 ), wherein the running body (3) along the longitudinal extension (LE) of the guide profile (2) is movably mounted, an adjusting device (6) for adjusting the position of the at least one running body (3) relative to the suspension (1) along a control axis (SA), with a locking device (13) for locking the position of the adjusting device (6).
    公开号:AT518919A1
    申请号:T50697/2016
    申请日:2016-08-01
    公开日:2018-02-15
    发明作者:
    申请人:Tif Gmbh;
    IPC主号:
    专利说明:

    Summary
    Fitting (100) for a sliding door (5) of a shower partition (101) which is movably mounted along a longitudinal extension (LE) of a guide profile (2), with a suspension (1) connected to the sliding door (5), at least one on the suspension (1 ) mounted running body (3), the running body (3) being movably supported along the longitudinal extent (LE) of the guide profile (2), an adjusting device (6) for adjusting the position of the at least one running body (3) relative to the suspension (1) along an actuating axis (SA), with a locking device (13) for locking the position of the adjusting device (6).
    (Fig. 2) / 19
    79577 26 / sv
    The present invention relates to a fitting with the features of the preamble of claim 1.
    Furthermore, a sliding door with at least one fitting and also a shower partition with a sliding door are to be specified. In addition, a procedure for setting a fitting should be specified.
    Fittings of the type mentioned are known for example from EP 1020154 A2 and are used for height adjustment of sliding doors. Due to the height adjustment of the sliding door, the sliding door can be adapted to a shower partition. The height adjustment also makes it possible to compensate for manufacturing tolerances on the sliding door or the shower partition. The height adjustment also makes it possible to compensate for deviations on the wall or ceiling of a room in which the shower partition is installed. The problem here is that the adjustment often takes place under difficult conditions, since the adjustment device is difficult to access. Furthermore, there is often no guarantee that the set position will be retained over a long period of time. Fittings of the type mentioned at the outset often have an adjusting screw, which tends to adjust when a sliding door is used several times over a longer period of time. Frequent opening and closing of sliding doors creates loads on the fitting, which can loosen or loosen the adjustment device, whereby the set position is lost. In this case, the sliding door is no longer correctly positioned, which can make it difficult to open the sliding door or damage the sliding door, the guide profiles or another element of the shower partition.
    The object of the invention is to avoid the disadvantages described above and to provide a fitting which is improved compared to the prior art, a sliding door which is improved compared to the prior art and a shower partition wall which is improved compared to the prior art, and a method for adjusting such a fitting.
    / 19th
    This is achieved in the fitting according to the invention by the features of the characterizing part of claims 1, 15, 16 and 17.
    If the fitting has a locking device for locking the position of an adjusting device, the preselected position can be locked after the setting of the position by the adjusting device via the locking device. Even after repeated use of the sliding door over a long period of time, the position of the adjustment device cannot be adjusted.
    If the adjusting device extends along the adjusting axis, the adjusting axis being oriented inclined to the longitudinal extent of the guide profile in the installed position of the fitting, then the forces acting on the adjusting device are better absorbed due to the inclined extension and do not act directly on z. B. a vertically aligned adjustment device. The forces are thus better introduced into the fitting, the adjusting device does not have to absorb all of the vertical forces. The inclined orientation - preferably inclined downwards to the longitudinal extent of the guide profile - also makes it easier for the assembly personnel to access the adjusting device. The tool can be inserted into the adjustment device at an angle to the sliding door; a collision with the sliding door itself is not to be expected when handling the tool. A fitting is arranged on each of the two upper corners of the sliding door. The adjusting axis of the adjusting device is always oriented obliquely in the direction of the side edge of the sliding door, which enables the tool to be inserted obliquely from below into the adjusting device.
    If the adjusting device has an adjusting screw, a carriage being arranged on the adjusting screw, and the position of the carriage along the adjusting screw being changeable when the adjusting screw is rotated, a compact adjusting device can be implemented. If the adjusting screw is turned, the slide moves along the adjusting screw. The carriage moves along a guide extending on the suspension, the guide extending along the actuating axis, the adjusting screw being rotatably but immovably mounted in the guide in the direction of the actuating axis. The size of the fitting can be reduced by arranging the slide and the adjusting screw in the guide, a stable and compact design is thus achieved.
    If the carriage has at least one axle journal for mounting the at least one running body, the adjustment is transferred directly to the running body, which is located in the guide profile. The adjustment of the barrel body relative to the fitting thus takes place immediately as soon as the position of the adjustment device is changed.
    If the suspension has an opening through which the adjusting device can be contacted and adjusted by means of a suitable tool - preferably using an Allen key, Torx key or a screwdriver, the opening extending along the adjusting axis, then the tool can be used to access the adjusting device via this opening be accessed. The adjustment device remains hidden inside the fitting. This is not visible from the outside and therefore does not disturb the appearance of the fitting. Furthermore, the adjustment device is protected from splash water in the shower, from dust or other contaminants. After the adjustment of the adjustment device, the opening is closed by the locking device itself. The locking device thus serves not only to lock the position, but also to lock the fitting after the adjustment of the adjustment device. If the locking device can be inserted axially in the direction of the adjusting axis in the suspension, then the adjustment of the adjusting device and also the locking of the locking device take place in the same axis, which greatly simplifies the work for the assembly personnel.
    If the locking device is formed by a screw, for example grub screw, and the opening has a thread for receiving the locking device, then a simple and nevertheless stable solution for locking the adjusting device is realized using conventional means. By using a screw, the opening is locked at the same time after the locking device / 19. As a result of the frictional connection between the locking device, which is designed as a screw, and the head of the adjusting screw, an unintentional adjustment of the adjusting device is no longer to be expected. This also takes place in that the locking device acts in the locked state of the adjusting device axially in the direction of the adjusting axis against the adjusting device, preferably presses and a non-positive connection can be established between the adjusting device and the locking device, the non-positive connection between the adjusting device and the locking device acting in the direction of the adjusting axis.
    If the locking device is formed by a screw, preferably a grub screw, which is rotatably mounted so that it can engage in a head of the adjusting screw in a thread of an opening aligned axially along the adjusting axis, then a sufficient locking force is achieved for locking the adjusting screw. In addition, an extremely small space requirement for the grub screw is realized, the fitting can be made compact. No elements of the locking device or adjusting device are visible from the outside - except for the holder of the tool for opening the locking device.
    If the adjusting device and the locking device are arranged in the installed position inside the suspension, they are protected from influences such as splash water, dust or other contaminants.
    If, in the installed position of the fitting, the adjustment of the position of the at least one running body relative to the suspension causes the sliding door to be raised or lowered, the position of the sliding door can be adapted to its place of use.
    Further details and advantages of the present invention are shown on the basis of the dependent claims.
    / 19th
    Further details and advantages of the present invention will become apparent from the
    Description of the figures with reference to that in the drawings of FIG
    Embodiments explained in more detail below. In it show:
    Fig. 1
    Fig. 2
    3a to 3f
    4 schematic structure of the fitting,
    Oblique view of the fitting with adjusting device and locking device,
    Procedure for adjusting a fitting, and shower partition with sliding door and two fittings.
    1 shows a sliding door 5 which is mounted along a longitudinal extension of a guide profile 2 and which is arranged on a suspension 1. The suspension 1 is connected to the guide profile 2 via the running body 3, preferably in the form of a roller. If the sliding door 5 is moved along the longitudinal extent LA of the guide profile 2, the running body 3 rolls along a running surface 7. The running body 3 can be designed not only as a roller, but also as a sliding shoe, needle bearing, ball guide or the like. The distance X between the upper edge O of the sliding door 5 or the door profile 4 fastened to the sliding door 5 and the center point of the bearing pin 9 to which the roller body 3 is fastened is set by the adjusting device 6. In this exemplary embodiment, the center point of the journal 9 is at the same time the rolling axis RA of the running body 3. In other words, the distance X is thus set between the rolling axis RA and the upper edge O. By adjusting the adjusting device 6, the sliding door 5 is thus raised further or moved further down. The guide profile 2 can be arranged directly on a ceiling of a room or also on a static part of the shower partition 101. For example, it is provided that the guide profile 2 is arranged directly on a fixed partition 8 of the shower cabin or the shower partition 101. It is also conceivable that the suspension 1 is inserted under the movable sliding door 5 and, together with a guide profile 2 arranged on the bottom of the shower partition 101, assumes a supporting function. An adjustment of the sliding door 5 would thus also be possible via the adjustment device 6. The sliding door 5 is connected via a further guide profile 2 on the top of the / 19th
    Shower partition 101 stored with enough height play to compensate for the adjustment path.
    FIG. 2 shows the fitting 100, the suspension 1 being drawn transparently in order to provide an insight into the interior of the suspension 1. For the sake of simplicity, the guide profile 2 has been removed in FIG. 2, but the longitudinal extent LE of the guide profile 2 has been drawn in in order to be able to make a reference to the actuating axis SA. The actuating axis SA is inclined to the longitudinal extent LE, which leads to easier assembly and better accessibility of the adjusting device 6. The slide 11, through which the adjusting screw 12 extends, is located in a guide 10. If the adjusting screw 12 is rotated, the movement and also the force is transmitted to the slide 11 via the thread on the adjusting screw 12. The adjusting screw 12 is rotatable about the adjusting axis SA but immovably in the direction of the adjusting axis SA in the guide 10. It can therefore rotate, but cannot deflect along the actuating axis SA. Thus, the movements on the thread of the set screw 12 are transmitted directly to the slide 11, which is located in the guide 10 and is mounted in the guide 10 against rotation. Because the adjusting screw 12 cannot be changed in its position relatively along the adjusting axis SA and the torsionally stable mounting of the slide 11 in the guide 10, a forced guidance along the guide 10 is achieved as soon as the adjusting screw 12 is rotated about the adjusting axis SA. On the slide 11 there is the bearing pin 9 for the barrel body 3, which is not shown in FIG. 2 for simplification. After the adjustment screw 12 has been adjusted, the locking device 13 is screwed into the thread located there along the adjustment axis SA, with a non-positive connection between the adjustment screw 12 and the locking device 13 is reached. The locking device 13 is located in an opening 15 in the suspension 1. Instead of a locking device 13 designed as a locking screw, for example, a stopper can also be provided, which engages positively in the head 14 of the adjusting screw 12 and a twisting of the adjusting screw 12 by the positive locking prevented by additionally supporting itself from the contour of the fitting 100.
    / 19th
    3a shows a first work step for adjusting the adjusting device 6, designed as an adjusting screw 12. The locking device 13 is acted upon by a tool W. A tool W is therefore inserted into an opening 15 in the suspension 1. The locking device 13 is preferably in the form of a screw, particularly preferably in the form of a grub screw. This grub screw has a hexagon socket, which can be loaded with an Allen key. A slotted screw or a Torx screw would also be possible here.
    3b shows how the locking device 13 is turned out of the opening 15. The position of the locking device 13 changes along the actuating axis SA. The position of the adjusting device 6, designed as an adjusting screw 12, does not change. The carriage 11 thus also remains in its position along its guide 10.
    3c shows how the locking device 13 has been removed from the opening 15 by the tool W. The access for the tool W to the head 14 of the adjusting screw 12 is thus established.
    FIG. 3d shows how the set screw 12 is rotated by the tool W. This does not change its position along the actuating axis SA. By turning the adjusting screw 12, the carriage 11 is moved along the guide 10. The position of the journal 9, which is firmly connected to the slide 11, also changes.
    3e shows how, after the desired position of the slide 11 has been set, the locking device 13 is reinserted into the opening 15. The locking device 13 is inserted along the actuating axis SA.
    3f shows the locked adjusting screw 12 with the tightened or fixed locking device 13. This contacts the head 14 of the adjusting screw 12. An unwanted turning of the adjusting screw 12 can no longer take place. The carriage 11 and thus also the barrel body 3 (not visible in FIG. 3f) on / 19
    Bearing pin 9 is locked in position and locked. A new adjustment can be made by repeating the work steps as shown in Fig. 3a to 3e.
    FIGS. 3a to 3f thus show a method for adjusting a fitting 100, characterized by the following work steps:
    Inserting a tool W into an opening 15 in the suspension 1 (Fig. 3a) and removing the locking device 13 - preferably in the form of a screw, particularly preferably in the form of a grub screw - from the opening 15 (Fig. 3b, Fig. 3c). The next step is to insert the tool W into the opening 15 of the suspension 1 and to adjust the adjusting device 6 to a preselected position by turning the head 14 of an adjusting screw 12 (FIG. 3d). The tool W is then removed from the opening 15. The locking device 13 is then inserted into the opening 15 in the direction of the actuating axis SA (FIG. 3e). The locking device 13 is then screwed into the opening 15 by means of tool W in the direction of the actuating axis SA. Finally, the locking device 13 is locked by contacting the locking device 13 with the set screw 12 (FIG. 3f).
    4 shows a shower partition 101 with at least one sliding door 5, to which at least one fitting 100 is attached. The tool W is used obliquely to the longitudinal extent LE of the guide profile 2. The adjustment thus takes place along the adjustment axis SA inclined to the longitudinal extent LE. The angle of inclination of the actuating axis SA is in a range between 15 to 70 ° relative to the longitudinal extent LE of the guide profile 2. The tool W is moved laterally on the sliding doors 5, a collision with the sliding door 5 or the guide profile 2 is thus excluded. The insertion and adjustment of the fitting 100 is greatly facilitated by the insertion of the tool W obliquely from below and also the adjustment work at this angle.
    Innsbruck, on July 28, 2016/19
    79577 26 / eh
    权利要求:
    Claims (17)
    [1]
    claims
    1. Fitting (100) for a sliding door (5) of a shower partition (101) which is mounted to be movable along a longitudinal extent (LE) of a guide profile (2), with:
    - a suspension (1) connected to the sliding door (5),
    - At least one running body (3) mounted on the suspension (1), the running body (3) being movably mounted along the longitudinal extent (LE) of the guide profile (2),
    - An adjusting device (6) for adjusting the position of the at least one running body (3) relative to the suspension (1) along an actuating axis (SA), characterized by a locking device (13) for locking the position of the adjusting device (6).
    [2]
    2. Fitting according to claim 1, characterized in that the adjusting device (6) extends along the adjusting axis (SA), the adjusting axis (SA) in the installed position of the fitting (100) being inclined to the longitudinal extent (LE) of the guide profile (2) is.
    [3]
    3. Fitting (100) according to claim 1 or 2, characterized in that the adjusting device (6) has an adjusting screw (12), a slide (11) being arranged on the adjusting screw (12), wherein when the adjusting screw (12 ) the position of the carriage (11) along the adjusting screw (12) can be changed.
    [4]
    4. Fitting (100) according to claim 3, characterized in that the carriage (11) is movably mounted along a guide (10) extending in the suspension (1), the guide (10) extending along the actuating axis (SA). extends, the adjusting screw (12) being rotatably mounted in the guide (10).
    [5]
    5. Fitting (100) according to claim 3 or 4, characterized in that the carriage (11) has at least one axle journal (9) for mounting the at least one barrel body (3).
    10/19
    79577 26 / eh
    [6]
    6. Fitting (100) according to one of claims 1 to 5, characterized in that the suspension has an opening (15) through which the adjusting device (6) by means of a suitable tool (W) - preferably by an Allen key, Torx key or a screwdriver Contactable and adjustable, the opening (15) extending along the actuating axis (SA).
    [7]
    7. Fitting (100) according to one of claims 1 to 6, characterized in that the locking device (13) axially in the direction of the actuating axis (SA) in the suspension (1) can be used.
    [8]
    8. Fitting (100) according to one of claims 1 to 7, characterized in that the locking device (13) is formed by a screw, preferably grub screw.
    [9]
    9. Fitting (100) according to one of claims 6 to 8, characterized in that the opening (15) has a thread for receiving the locking device (13).
    [10]
    10. Fitting (100) according to one of claims 1 to 9, characterized in that the locking device (13) in the locked state of the adjusting device (6) acts axially in the direction of the adjusting axis (SA) against the adjusting device (6), preferably presses.
    [11]
    11. Fitting (100) according to one of claims 1 to 10, characterized in that between the adjusting device (6) and the locking device (13) a non-positive connection can be established, the non-positive connection between the adjusting device (6) and the locking device (13) in the direction of Actuating axis (SA) acts.
    [12]
    12. Fitting (100) according to any one of claims 3 to 11, characterized in that the locking device (13) by a screw - preferably grub screw - is formed, which can be engaged in a head (14) of the adjusting screw (12) in an axial thread of an opening (15) aligned along the adjusting axis (SA) is rotatably mounted.
    11/19
    79577 26 / eh
    [13]
    13. Fitting (100) according to one of claims 1 to 12, characterized in that the adjusting device (6) and the locking device (13) are arranged in the installed position in the interior of the suspension (1).
    [14]
    14. Fitting (100) according to one of claims 1 to 12, characterized in that in the installed position of the fitting (100) the adjustment of the position of the at least one barrel body (3) relative to the suspension (1) raising or lowering the sliding door (5th ) causes.
    [15]
    15. sliding door (5) with at least one fitting according to one of claims 1 to
    14th
    [16]
    16. shower partition (101) with at least one sliding door (5) according to claim 15.
    [17]
    17. A method for adjusting a fitting (100) according to one of claims 1 to 14, characterized by the following steps:
    - Inserting a tool (W) into an opening (15) in the suspension (1) and removing the locking device (13) - preferably in the form of a screw, particularly preferably in the form of a grub screw - from the opening (15).
    - Insert the tool (W) into the opening (15) of the suspension (1) and adjust the adjusting device (6) to a preselected position by turning the head (14) of an adjusting screw (12).
    - Remove the tool (W) from the opening (15).
    - Insert the locking device (13) into the opening (15) in the direction of the actuating axis (SA).
    - Screw the locking device (13) into the opening (15) using a tool (W) in the direction of the actuating axis (SA).
    - Lock the locking device (13) by contacting the locking device (13) with the adjusting screw (12).
    Innsbruck, on July 28, 2016
    12/19
    Tif GmbH
    79577
    13/19
    Tif GmbH
    79577
    14/19
    Fig. 4
    Tif GmbH
    79577
    15/19 Austrian
    Patent Office
    类似技术:
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    DE4111929C2|1995-01-05|Trolley for hanging sliding doors or the like in particular.
    DE3001070A1|1981-07-23|CORNER JOINT FOR TURN-TIP WINDOWS, DOORS OR THE LIKE
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    DE19607846C1|1997-05-07|Hinge for door or window in building
    DE19541346A1|1996-05-09|Door hinge with frame and leaf parts
    EP0729540B1|1997-06-25|Door or window hinge
    DE10205926B4|2005-03-31|Door coordinator
    AT523518B1|2021-09-15|Protective device
    同族专利:
    公开号 | 公开日
    AT518919B1|2019-04-15|
    EP3278693A1|2018-02-07|
    EP3278693B1|2020-01-15|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    CH512658A|1970-09-01|1971-09-15|Hawa Ag|Suspension device for a heavy sliding door|
    DE3338146A1|1983-01-14|1984-07-19|Heinz Georg Hünibach Thun Baus|Shower partition|
    EP0818598A1|1996-07-11|1998-01-14|Hawa Ag|Fitting assembly for sliding elements|
    US2203219A|1938-03-31|1940-06-04|Timken Roller Bearing Co|Cap bolt lock|
    DE710243C|1938-06-28|1941-09-08|Dowaldwerke|Adjustment device for sliding doors by means of adjustable wedges|
    GB788871A|1955-07-18|1958-01-08|British Thomson Houston Co Ltd|Improvements in and relating to the locking of screws|
    DE7832884U1|1978-11-06|1980-01-03|Baus, Heinz Georg, Thun |CORNER CONNECTOR FOR THE FRAME OF A SLIDING WALL PANEL OF A SLIDING PARTITION|
    FR2736959B1|1995-07-19|1997-09-19|Midi Moulages Plast|SUSPENSION TROLLEY FOR SLIDING DOOR WITH HORIZONTAL MOVEMENT|
    JP2003120633A|2001-10-11|2003-04-23|Nuclear Fuel Ind Ltd|Looseness preventive screw for set screw|EP3790857A4|2019-06-28|2022-03-16|Idemitsu Kosan Co|Compound, material for organic electroluminescence element, organic electroluminescence element and electronic device|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    ATA50697/2016A|AT518919B1|2016-08-01|2016-08-01|Fitting for a sliding door|ATA50697/2016A| AT518919B1|2016-08-01|2016-08-01|Fitting for a sliding door|
    EP17177387.2A| EP3278693B1|2016-08-01|2017-06-22|Fitting for a sliding door|
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