• 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 supporting device (1) for erecting elevated walkable surfaces, for example of terraces or other floors, with a support part (2), comprising a support surface (3) for supporting at least one substructure element (100) or covering element, a base part (3). 4) and with a connecting means (5), by means of which the support part (2) against the base part (4) at a connection point (10) is connected, one of the support surface (3) facing away underside (6) of the support part (2) and an upper side (7) of the base part (4) form mutually facing outer sides (8, 9). It is provided that at least one of the outer sides (8, 9) has a curved contour (11) and the other outer side (9) is designed such that the outer sides (8, 9) roll against each other to the support part (2) opposite the base part (4) to be inclined.
    公开号:AT518706A2
    申请号:T230/2017
    申请日:2017-06-02
    公开日:2017-12-15
    发明作者:
    申请人:Achim Stiehler Gmbh & Co Kg;
    IPC主号:
    专利说明:

    Support device for the construction of elevated accessible surfaces, for example, terraces or other floors
    The invention relates to a support device for the construction of elevated walk-surfaces, for example, terraces or other floors. The invention further relates to an increased walk-in area with at least one such support device.
    Support devices of the type discussed here are, for example, so-called pedestal bearings or terrace storage. They are usually used in the construction of elevated walk-in areas, such as terraces, walkways or balcony areas, to increase the area from the underlying ground. For this purpose, the support devices on a support part with a support surface on which one or more sub-elements of a substructure or directly covering elements are stored. The support part · in turn can be connected to a base part which cooperates, for example via a thread with an attachable to the ground uprising part to allow height adjustment. Such a support device is known for example from DE 20 2013 105 584 Ul.
    When erecting the raised areas, it is often the case that the surface should be inclined relative to the underlying surface. This may be the case if the surface is to be built on a slope to the ground, for example, to drain from on the surface
    Favoring liquid. Also, this may be the case when the ground is sloping and the overlying elevated area, for example, should be horizontal. In addition, it often happens that the substrate is uneven despite previous treatment and the support devices are placed on uneven ground.
    In the development of the support devices such installation situations have not been taken into account or only insufficiently. Therefore, these installation situations can often not be overcome by the support devices themselves, but it is for example wedges or the like aids used as a base to compensate for unevenness and / or to create slopes.
    An embodiment of the invention is therefore based on the object to propose a support device of the type mentioned, which can adapt to unevenness of the ground. Preferably, the support device should also allow an oblique course between the surface to be generated and the underlying substrate, without additional aids are necessary.
    This object is achieved with a supporting device, which has the features of claim 1. To solve the problem, a walk-in area with the features of claim 13 and a walk-in area with the features of claim 14 are also proposed. Advantageous embodiments of the invention will become apparent from the dependent claims, the following description and the figures.
    According to one embodiment of the invention, a support device for the construction of elevated walk-on areas, such as terraces or other floors, is provided. The raised walk-in areas can be terrace areas, walkway areas, balcony areas or similar floor areas. The support device has a support part with a support surface for supporting at least one substructure element or covering element. The support device further has a base part and a connecting means, by means of which the support part is connected to the base part at a connection point, in particular is attached. An underside of the support part facing away from the support surface and an upper side of the base part form outer sides facing one another.
    It is provided that at least one of the outer sides, preferably in the region of the connection point, has a curved contour and the other outer side is designed such that the outer sides roll against one another in order to make the support part inclined relative to the base part. As a result, unevenness of the ground can be compensated by the support device itself. Also, an oblique course between the surface to be generated and the underlying substrate alone or at least largely alone by the support device can be realized. This is achieved in that, in the support device, an inclined position of the support part relative to the base part is deliberately allowed, at least within certain limits.
    In the support device, the inclination of the support part relative to the base part is achieved by rolling the outer sides of the support part and the base part against each other, wherein preferably the connection of the support part to the
    Base part is maintained by means of the connecting means. For this purpose, the curved contour of the one outer side and the special design of the other outer side are provided, through which a rolling against the curved contour i is allowed. It is characterized by an inclination of the
    To reach supporting part relative to the base part, by causing tilting or tilting of the support member relative to the base part. This tilting mechanism can be realized in a technically simple manner. Also, i result in advantages in the construction of the desired increased areas, since by rolling the support device has a high degree of flexibility to compensate in montagetechnisch simple way any unevenness of the ground and / or a desired oblique course between the zu! to realize generating surface and the underlying ground.
    It is advisable that the support part is rotatably mounted on the base part about a rotation axis, in particular rotatably I is held. It is also advisable that the support part is rotatably mounted on the base part by means of the connecting means. As a result, a high degree of flexibility in the assembly of the support device is achieved, since an inclination can take place by rolling the support part relative to the base part in any arbitrary rotational position of the support part relative to the base part.
    By means of the connection means it is to be ensured that, on the one hand, the connection of the support part to the base part is made possible and, on the other hand, the unrolling of the outer sides is permitted, at least within certain limits of movement.
    For this purpose, it may be provided according to an embodiment of the invention that the connecting means uses at least one elastic, in particular resilient, material portion through which the support member is connected to form a plug connection against the base part with movement in the insertion direction.
    Due to the elasticity of the material portion and the movement of the plug connection in the insertion direction is achieved in a technically simple manner that despite the connection of the i support part against the base part, a rolling of the outer sides of the support part and base part can take place against each other at least within certain limits of movement. Namely, in this case, the connecting means, due to the elasticity of the material section, yields in a corresponding manner while retaining the plug connection. The maintenance of the connector is further favored by the proposed movement in the insertion direction. The plug connection as such also allows the support part to rotate relative to the base part. An i skew by rolling the support member relative to the base in any rotational position of the support part is thereby realized in a simple manner.
    According to a further embodiment of the invention, the i connecting means comprises at least one, preferably a plurality of resilient snap elements, which on the one hand are assigned to the support part and on the other hand engage behind the edge of an opening, for example a through opening, of the base part. Alternatively, the connecting means may comprise at least one, preferably a plurality of snap elements, which on the one hand are assigned to the base part and, on the other hand, engage behind the edge of an opening, for example a passage opening, of the support part. In particular, by the at least one resilient snap element, a resilient spreading in the opening by elastic deformation of the spring leg or the snap elements realized.
    Due to the spring elasticity of the snap elements a certain flexibility of the connecting means is given by which the rolling of the outer sides of the support part and base part is favored against each other and thus in a simple) way tilting of the support member relative to the
    Base part is facilitated. For example, form the resilient snap elements together with the boundary of the opening or passage opening a segmented Ringschnappverbindung. Such a connection is realized in a technically simple manner to i, wherein by the connection a rotation of the
    Support part relative to the base part about an axis of rotation, in particular the longitudinal axis and / or center axis of the support device is reached. The axis of rotation or the longitudinal axis of the support device is to be understood as meaning in particular an axis which is substantially perpendicular to the support surface.
    It lends itself to that the snap elements each have a latching nose which engages behind the edge of the opening 5 and as a safeguard against loosening the
    Snap connection between the support part and the base part is used. As a result, a durable connection between the support part and the base part is realized by means of the connecting means. )
    For example, it is possible that an inclination of the substrate or the footprint of the support device relative to the support surface of the support member of up to about 8 percent can be generated. Such a tendency of the substrate can thus be compensated by means of the support device, so that then in spite of the inclination of the substrate, the support surface can be aligned substantially horizontally.
    It is advisable that the one of the outer sides is curved outwards. As a result, it is possible to realize the arched structure in a technically simple manner and to form the other outer side in such a way that unwinding of the two outer sides can be carried out against one another.
    In order to achieve the unrolling of the curved contour of one outer side relative to the other outer side, according to one embodiment of the invention, the other outer side may be planar, in particular substantially planar. Due to this flat configuration of the other outer side, the surface of the outer side is formed without elevations and / or countersinks or at least without larger elevations and / or countersinks. It is thereby taken a technically easy to implement and cost-effective measure, since for rolling the outer sides against each other only on one outer side, the curved contour is provided, whereas the other outer side can remain unchanged, namely can be maintained in its planar configuration. The inclination adjustment of the support device is thus to be realized alone by a corresponding constructive modification of the support part, so that in a simple manner, existing support devices can be retrofitted with the new support part cost.
    Alternatively, it can also be provided that the outer sides are arched to each other in the opposite direction. Also by this measure, a rolling of the outer sides of the support part and the base part against each other is possible.
    A further embodiment of the invention is that the curved contour is formed by a rib-like structure, which at least one, preferably at least two concentrically extending ribs around the connection point and / or from the region of the connection point radially outwardly extending ribs, in particular in a star shape of the Area of the connection point radially outwardly extending ribs having. As a result, to realize the curved contour with relatively little use of material, with a sufficient bearing surface is provided by the ribs to allow a durable investment of the curved contour against the other outside for the purpose of unwinding.
    It is advisable that the support part is a plastic part and / or an injection molded part. It is also advisable that the base part is a plastic part and / or an injection molded part. As a result, the support part and / or the base part is inexpensive and easy to manufacture in terms of weight, so that the construction of a walk-in raised surface is inexpensive and easy for a fitter to do.
    It is also advisable that the curved contour is formed by a spherical segment contour, in particular curved outwards. Such a contour is technically easy to implement and favors a rolling of the curved contour relative to the other outside. Also, by such a contour, a rolling of the support part relative to the base part in each rotational position of the support part favors, provided that the support part is rotatably mounted on the base part.
    The support member may be realized on various types and types of support devices, wherein the base part then may have different functions. For example, it can be provided according to an embodiment of the invention that the base part is a threaded intermediate part, which is used to exercise a height adjustment to change the distance of the support surface of the support member relative to a footprint of the support device.
    Alternatively, the base part may be formed as a rearing part, which can be placed on a substrate. Again alternatively, the base part may be formed as a plug-in part, which is in a Einsteckaufnahme a Bodenbefestigungsteiles, such as a Bodeneinschlaghülse plugged.
    Also, support part and base part can be realized on such a support device in which the base part is formed as an eccentric on which the support member is rotatably mounted about a rotation axis and which is rotatably mounted on an intermediate part or upstanding about an eccentrically arranged with respect to the rotation axis further rotation axis , The axes of rotation are, for example, substantially vertically extending axes of rotation with respect to the support part or the intermediate part or uprising part, wherein the axes of rotation can be inclined with respect to their vertical orientation in the course of rolling in a corresponding manner.
    According to a further embodiment of the invention is a walk-in area, such as a terrace or a
    Balconies, provided. The walk-on area has a substructure and covering elements attached thereto, the substructure being supported on at least one supporting device, as described above.
    According to a further embodiment, the invention comprises an accessible area, for example a terrace or a balcony, with covering elements and at least one
    Support device as described above, on which at least one of the covering elements is supported.
    Other objects, advantages, features and applications of the present invention will become apparent from the following description of an embodiment with reference to the drawings. All described and / or illustrated features alone or in any meaningful combination form the subject matter of the present invention, also independent of their summary in the claims or their dependency.
    Show it:
    1 shows a possible embodiment of a supporting device as part of a substructure for an elevated walk-on area, mounted on a sloping substrate, in a side view,
    Fig. 2 shows a possible embodiment of a support part of
    Support device according to the figure 1 in a perspective view as a plan view of the bottom,
    FIG. 3 is a sectional view of the support part according to FIG. 2 and a base part of the support device according to FIG. 1 connected thereto, the support surface of the support part being in a horizontal position relative to the base part, and FIG
    Fig. 4, the support part and the base part according to the figure 3, wherein the support surface of the support part is relative to the base part in an inclined position.
    Figure 1 shows - in a schematic representation - a possible embodiment of a support device 1 for the construction of elevated walk-surfaces, such as terraces, walkways or balcony areas. The support device 1 has a support part 2 with a support surface 3 and a base part 4, on which the support part 2 is attached, in particular releasably secured.
    The base part 4 may be a threaded intermediate part 30, which is used for exercising a height adjustment.
    The support device 1 may further comprise a further intermediate part 40, which cooperates with an uprising part 50 of the support device 1. For example, the further intermediate part 40 is threaded and at least partially screwed into a receptacle of the uprising part 50. Through the thread, the further intermediate part 40 can be used together with the uprising part 50 for exercising a height adjustment. In this case, the base part 4, which is used as a threaded intermediate part 30 and the further intermediate part 40, respectively provided for exercising a height adjustment to change the distance of the support surface 3 of the support part 2 against a contact surface 51 of the uprising part 50. For this purpose, the threaded intermediate part 30 may be screwed into the further intermediate part 40, so that a mechanism for height adjustment is realized by the threaded engagement between the intermediate part 30 and the further intermediate part 40 and the further intermediate part 40 and the uprising part.
    For this purpose, the thread of the intermediate part 30 is preferably formed in opposite directions to the thread of the further intermediate part 40, which is in engagement with the upright part 50. To actuate the height adjustment, it is preferably provided that on the further intermediate part 40, a handle 41 is arranged, in particular is formed, which is manually engageable to turn the other intermediate part 40 relative to the uprising part 50 and / or the intermediate part 30 by hand and thus make the height adjustment.
    In the figure 1, the support device 1 is shown in the installed state, in which the support device 1 between a sub-element 100 of a substructure, such as a beam, a bar or the like, and a substrate 200 is arranged, the surface of which runs obliquely. In order to bring the substructure element 100 into a predetermined, for example, horizontal position despite the inclined substrate 200, the support part 2 is fastened to the base part 4 at a connection point not visible in FIG. 1 such that the support part 2 is opposite the base part 4 in a corresponding manner obliquely.
    By this inclination, it is possible that the support device 1 adapts to the oblique course of the substrate 200 and automatically a corresponding leveling with respect to the substantially horizontally extending> sub-element 100 is realized.
    The substructure element 100 is for this purpose supported on the support surface 3 of the support part 2. For fixing the substructure element 100 against a lateral displacement on the support surface 3 l, the support part 2 may have an upwardly projecting projection 22 which serves as a stop or abutment for the substructure element 100. The projection 22 may have at least one, preferably a plurality of passage openings 23, for example, to fix the sub-element 100 against the projection 22 i, for example by means of screw elements in an end position.
    According to another embodiment may be provided instead of the projection 22, a so-called joint cross, by means of which the distance of several, for example, four bearing on the bearing surface 3 bearing elements is predetermined. In this respect, the support part 3 can be used both for Auflagerung the substructure element 100 of a substructure or it can be the Auflagerteil 2 or a similar Auflagerteil) used for direct Auflagerung at least one or more covering elements.
    Figure 2 shows an embodiment of the support part 2 as a perspective view in a view on the) underside 6, which in the assembled state of
    Support device 1 facing the base part 4. FIG. 3 shows the support part 2 according to FIG. 2 in the installed state on the base part 4 as a sectional view. As can be seen, the support device 1 has a connection means 5 for fastening the support part 2 against the base part 4 at a connection point 10.
    Preferably, by the connecting means 5, the support part 2 is rotatable relative to the base part 4 about an axis 24. The axis 24 is preferably orthogonal to the bearing surface 3.
    The connecting means 5 can use at least one elastic material section 16, by means of which, with the formation of a plug connection 17, the support part 2 is connected against the base part 4 with movement play in the insertion direction. For example, the connecting means 5 is formed by a plurality of resilient snap elements 12 or has such snap elements 12, which each form at least one elastic material portion 16. Preferably, the snap elements 12 are assigned on the one hand to the support part 2, in particular integrally formed on the support part 2, and on the other hand in an opening 14, for example through hole, the base part 4 plugged to form the connector 17. For this purpose, the base part 4, for example, a cavity 26, in which the snap elements 12 are inserted through the opening 14.
    Preferably, the snap elements 12, each with a nose 13, engage behind the boundary 15 of the opening 14, preferably at a predetermined distance from the boundary 15, thereby realizing the play of movement in the insertion direction of the plug connection 17. Preferably, the lugs 13 form a safeguard against withdrawal of the snap elements 12 from the opening 14, for example by the lugs 13 form a stop for the boundary 15 of the opening 14. Preferred are the
    Snap elements 12 arranged to each other such that they form with the opening 14 and the boundary a Ringschnappverbindung, in particular segmented Ringschnappverbindung.
    Due to the play of movement of the support part 2 relative to the base part 4 in the insertion direction and by the elasticity of the material portion 16 and the snap elements 12, the connecting means 5 in interaction with the opening 14 and the boundary 15 of the opening 14 is formed such that relative to the base part 4 can be made obliquely while maintaining the connection between the support part 2 and the base part 4. For this purpose, an outwardly curved contour 11 is provided on the underside 6 of the support part 2, in particular formed on the support part 2.
    Preferably, the outwardly curved contour 11 is formed by a spherical segment contour. For example, the curved contour 11 is formed as a rib-like structure, which has at least one or more ribs 18, 19, 20 running concentrically around the connection point 10 and / or ribs 21 extending radially outwards from the region of the connection point 10, which ribs are, for example, star-shaped the region of the connection point 10 can extend radially outward.
    The base part 4, however, on its upper side 7, which has the opening 14 for receiving the connecting means 5, flat. By the flat top 7 of the base part 4 and the curved contour 11 of the bottom 6 of the support part 2, the mutually facing outer sides 8, 9 of the support part 2 and the base part 4 are formed such that they can roll against each other. Through the connector 17 of the
    Connecting means 5 with the opening 14 of the base member 4 and the intended movement play in the insertion direction of the connector 17 in combination with the elasticity of the material portion 16 of the connecting means 5; ensures that a rolling of the curved contour 11 relative to the top 7 of the base part 4 can take place while maintaining the connection of the support part 2 to the base part 4 by the connecting means 5 in predetermined limits of movement. i
    Figure 4 shows the support part 2 and the base part 4 of Figure 3 in an inclined position to each other. In the figure 3, the support part 2 and the base part 4 are in a starting position, in which the support surface 3 in; Substantially parallel to the top 7 of the base part 4 extends. In the starting position, the axis 24 lies on the central axis 25 of the support device 1, about which the base part 4 is rotatable relative to the uprising part 50. In FIG. 4, the base part 4 is in the direction of arrow 27
    Rolling the curved contour 11 relative to the upper side 7 of the base part 4 brought into an inclined position or tilted in the oblique position. In this inclined position, the axis 24 of the support member 2 is brought out of the common position with the central axis i 25 of the support device 1 and is now at a certain angle transverse to the central axis 25. Such a skew of the support member 2 relative to the base member 4 can in each arbitrary rotational position of the support part 2 relative to the base part 4 with respect to the central axis 25 i be taken.
    Preferably, the support device 1 is designed such that by the rolling of the curved contour 11 relative to the upper side 7 of the base part 4, a skew of the support surface 3 relative to the contact surface 51 of the support device 1 can be made to about an angle of 8 degrees and insofar example An inclination of the top of the substrate 200 can be compensated up to such an angle, without thereby changing the desired horizontal position of the support surface 3.
    REFERENCE SIGNS LIST 1 supporting device 2 support part 3 support surface 4 base part 5 connecting means 6 underside 7 upper side 8 outer side 9 outer side 10 connection point 11 curved contour 12 snap elements 13 nose 14 opening 15 boundary 16 material section 17 plug connection 18 rib 19 rib 20 rib 21 ribs 22 projection 23 through opening 24 axis 25 central axis 26 cavity 27 arrow 30 intermediate part 40 further intermediate part 41 handle 50 uprising part 51 footprint 100 base element 200 background
    权利要求:
    Claims (14)
    [1]
    claims
    1. supporting device (1) for the construction of elevated walkable surfaces, for example of terraces or other floors, with a support part (2), comprising a bearing surface (3) for supporting at least one substructure element (100) or covering element, a base part (4) and with a connecting means (5), by means of which the support part (2) is connected to the base part (4) at a connection point (10), one of the support surface (3) facing away underside (6) of the support part (2) and an upper side (7) of the base part (4) form mutually facing outer sides (8, 9), of which at least one outer side (8) has a curved contour (11) and the other outer side (9) is designed such that the outer sides (8, 9) roll against each other to make the support part (2) with respect to the base part (4) obliquely.
    [2]
    2. Support device according to claim 1, characterized in that the connecting means (5) uses at least one elastic material portion (16), by which, forming a plug connection (17), the support part (2) against the base part (4) connected with movement play in the insertion direction is.
    [3]
    3. Support device according to claim 1 or 2, characterized in that the connecting means (5) has at least one, preferably a plurality of resilient snap elements (12), which on the one hand the support part (2) or the base part are assigned and on the other hand, the boundary (15) of a Behind opening (14) of the base part (4) or the support part engage behind.
    [4]
    4. Support device according to one of claims 1 to 3, characterized in that the other outer side (9) is flat.
    [5]
    5. Support device according to one of claims 1 to 3, characterized in that the outer sides (8, 9) are curved in opposite direction to each other.
    [6]
    6. Support device according to one of the preceding claims, characterized in that one of the outer sides (8, 9) is curved outward.
    [7]
    7. Support device according to one of the preceding claims, characterized in that the curved contour (11) is formed by a rib-like structure which at least one, preferably at least two concentrically around the connection point (10) extending ribs (18, 19, 20) and / or from the region of the connection point (10) radially outwardly extending ribs (21).
    [8]
    8. Support device according to one of the preceding claims, characterized in that the curved contour (11) is formed by a spherical segment contour.
    [9]
    9. Support device according to one of claims 1 to 8, characterized in that the base part (4) has a threaded intermediate part (30), which is used for exercising a height adjustment to the distance of the support surface (3) of the support part (2). to a footprint (22) of the support device (1) to change.
    [10]
    10. Support device according to one of claims 1 to 8, characterized in that the base part (4) is formed as a rearing part, which on a substrate (200) can be placed.
    [11]
    11. Support device according to one of claims 1 to 8, characterized in that the base part (4) is designed as a plug-in part, which can be inserted into a Einsteckaufnahme a Bodenbefestigungsteiles.
    [12]
    12. Support device according to one of claims 1 to 8, characterized in that the base part (4) is designed as an eccentric part, on which the support part (2) is rotatably mounted about a rotation axis and which at an intermediate part or uprising part about an eccentric with respect Rotary axis arranged further rotation axis is rotatably mounted.
    [13]
    13. Accessible surface, such as a terrace or a balcony, with a substructure and covering elements attached thereto, wherein the substructure is supported on at least one supporting device (1) according to one of claims 1 to 12.
    [14]
    14. Accessible area, for example a terrace or a balcony, with covering elements and at least one supporting device (1) according to one of claims 1 to 12, on which at least one of the covering elements is supported.
    类似技术:
    公开号 | 公开日 | 专利标题
    AT518706B1|2019-08-15|Support device for the construction of elevated accessible surfaces, for example, terraces or other floors
    DE3436091C2|1988-09-15|
    EP2754773B1|2019-05-01|Substructure for a floor covering
    DE202016103694U1|2016-08-23|Support device for the construction of elevated accessible surfaces, for example, terraces or other floors
    DE102015010894B4|2018-10-25|Mounting kit for the terrace construction
    DE2202131C3|1983-02-10|Support for making batter boards
    DE202019100539U1|2019-03-08|Substructure arrangement for a substructure of a terrace or other floor
    DE202006009045U1|2006-10-12|Rail for striping flooring and insulation is held by height-adjustable leveling feet
    EP3372749B1|2020-04-08|Floorboard system
    EP1247922A2|2002-10-09|Floor support with a head plate for supporting a false floor structure and false floor structure
    DE202008006995U1|2008-07-24|Angle adjustable foot
    DE202006010186U1|2006-12-28|covering
    EP0607462B1|1995-08-09|False floor
    DE202016100279U1|2017-04-24|Height-adjustable support bearing
    DE202018100202U1|2019-04-17|Plastic frame of a drainage channel or a shaft
    DE202020105939U1|2021-10-20|Stair system, for example for walking on a terrace area
    EP1087686B1|2003-07-23|Device for maintaining and adjusting platelike elements
    DE102012008187B4|2014-04-03|installation plate
    EP2071098A2|2009-06-17|Plastic element for building a floor grid
    EP2692961B1|2014-05-28|Supporting device for assembling a floor design
    EP3260632B1|2019-05-15|Support leg
    DE2833963C2|1980-02-28|Concrete mixer with swiveling support leg and chassis
    CH693553A5|2003-10-15|Cat ladder, for a cat to reach an upper balcony from the ground, has tube sections fitted together to form a pole, to carry spacers and stepping boards leading to an upper board at the balcony or its railing
    AT511891A1|2013-03-15|SUPPORT FOR THE SUPPORT OF A GROUND TO A LOWER AREA LOCATED THEREOF
    DE8531446U1|1986-01-02|Vegetation wall
    同族专利:
    公开号 | 公开日
    AT518706A3|2018-09-15|
    DE102016110212B4|2018-02-22|
    AT518706B1|2019-08-15|
    DE102016110212A1|2017-12-07|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
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    DE3022142A1|1980-06-13|1981-12-24|Schmidt Reuter Ingenieurgesellschaft mbH & Co KG, 5000 Köln|Double-floor construction, accommodating services - has plinth support faces at unitary level for non adjustable supports|
    WO2007048204A1|2005-10-28|2007-05-03|Alan Sian Ghee Lee|Slope compensator for pedestal for elevated floors|
    ES2326056B1|2006-09-01|2010-04-07|Simon Connect, S.L|IMPROVEMENTS INTRODUCED IN THE INSTALLATION SYSTEMS OF TECHNICAL FLOORS.|
    EP2610416A1|2011-12-27|2013-07-03|Solidor Rubber & Products|Support stand for supporting an item at a distance from an underlying surface|
    EP2971402A4|2013-03-13|2016-11-30|Ipe Clip Fastener Company Llc|Pedestal elevation system|
    DE202013105584U1|2013-09-09|2014-01-30|Karle & Rubner Gmbh|Bearing for a substructure, for example a terrace|DE202018105531U1|2018-09-26|2018-11-09|Dauer Gmbh|Plattenstelzlager for supporting floor elements|
    BE1026914B1|2018-12-20|2020-07-22|Buzon Pedestal Int S A|Support element of a floor covering element and assembly of a support element and a connecting lug|
    DE202020105939U1|2020-10-16|2021-10-20|Achim Stiehler|Stair system, for example for walking on a terrace area|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    DE102016110212.1A|DE102016110212B4|2016-06-02|2016-06-02|Support device for the construction of elevated accessible surfaces, for example, terraces or other floors|
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