AT10287U1 - SLEEPABLE WALL IN A UNDERFLOOR BAY - Google Patents

Description

2 AT 010 287 U1

The invention relates to a lowerable in a subfloor shaft wall, which is guided along wall guides and extending between the uprights wall panels, with a lifting drive for the wall of individual spindle drives for the hollow profile forming uprights, the spindles of the spindle drives a in the bottom end of the hollow section of the uprights rotatably held spindle nut enforce and are stored with their lower common drivable end portions outside the hollow section of the uprights in the bottom region of the underground shaft and with their upper ends in within the hollow profile of the uprights slidably guided bearings.

There are known lifting gates (AT 382 201 B), which are guided in lateral guide rails of a subfloor shaft and can be relocated from a lowered open position to a raised closed position by means of an attacking between the side guides on the door panel lifting cylinder. In order to avoid the disadvantage of such a lifting gate, namely the comparatively low stability of the raised slab according to the side guide exclusively in the underfloor area, it has been proposed (EP 0 672 813 B1) to extend the side guides over the entire stroke range of the slab and by a transverse bar to a goal frame to connect, which brings the required stability for the raised Tortafel with it. Within the uprights forming the side guides, space has also been created for the lifting drive, which in one embodiment is formed by two spindle drives whose spindles mounted in the uprights are driven by a common shaft in the upper transverse bar. Similarly, lowerable walls are also guided in a subfloor shaft. For this purpose it is known inter alia (AT 410 570 B) to provide two connected by a cross member to a portal uprights, which carry in cross-section U-shaped wall guides for receiving wall-side guide rails. Between the legs of these in cross-section U-shaped wall guides connected to a Hubtrieb traction means for lifting and lowering of the wall run. A disadvantage is especially for freestanding walls required for the necessary stability portal frame that interferes with lowered wall.

Finally, it is to reduce the space required known (DE 73 13 151 U) to provide a lowerable in a lower shaft wall with lateral, a hollow profile forming stators, which have a spindle nut for a spindle drive in the lower region of the hollow profile, the spindle above in a slidably guided within the hollow profile bearing and is held rotatably below the outside of the post in the bottom area of the underfloor shaft in a stationary bearing, so that upon actuation of each post associated spindle drives the wall of the height moves. For this purpose, however, the wall above the uprights must additionally be held in a wall guide which extends from the underfloor shaft into the upper area of the wall raised above the underfloor shaft, around the wall by means of sliding bodies associated with the stanchions on the guide rails of the wall guide to be supported against tilting.

The invention is therefore the object of a lowerable in a subfloor shaft wall of the kind so that sufficient stability for the raised wall on the underground shaft can be ensured without having to provide a portal frame or guide rails for wall guidance above the underfloor shaft ,

The invention solves the problem set by the fact that the posts are provided with a sliding guide provided for in the ceiling area of the underfloor shaft guide bearing for the wall and that the guide bearings for the wall each have two mutually spaced bearing points.

By providing distributed over the wall length, each guided in the underfloor shaft stanchions the design conditions for a stable wall are created, which in the raised position from the lower shaft shaft position without a subfloor shaft superior wall guide sufficient stability having. In fact, these uprights can be guided in guide bearings provided in the ceiling area of the underfloor shaft, which engage on a slide guide of the uprights. Since these guide bearings each have two mutually spaced bearing points, the non-tilting support of the wall is ensured by this guide bearings. In addition, the trained as a hollow profile uprights each take a spindle drive, which includes a rotatably held spindle nut and a support slidably held in the post for the spindle in the lower end portion of the hollow post, so that the spindles also availed for the tilt-safe storage of the raised and lowered wall can be. About the slidably guided in the hollow profile of the post spindle bearing yes, a radial support of the spindles in the hollow profile.

Particularly advantageous support conditions arise for the spindles of the spindle drives when the guide bearings are provided in the height range of the upper spindle bearings, so that the displaceable within the hollow profile spindle bearings come to rest in the guided area of the uprights. Although the guide bearings for the uprights and the bearings for the lower end portion of the spindles can each be fastened in the underfloor shaft, simpler mounting conditions result when the bearings for the lower end sections of the spindles and the guide bearings for the uprights are each arranged on a common support are moved in the underground shaft.

In order to obtain a watertight cover of the underfloor shaft with lowered wall, the uprights and the wall panels extending between the uprights can carry a cover which engage in the lowered wall position in gutters extending along the upper passage opening of the underfloor shaft for the wall. If appropriate, water reaching the cover thus flows into the drainage channels provided for this purpose and can be removed via these drainage channels. So that no water can penetrate into the underfloor shaft even when the wall is raised, the uprights and wall panels can carry sealing profiles which engage in the raised wall position in the gutters, so that, for example along the wall running rainwater can flow through the sealing profiles also in the gutters.

Due to the distributed over the wall length, the wall panels bearing stanchion it is easily possible to provide at least one of the wall panels with a door which is mounted between two exciting from pillar to pillar cross member. With the help of these cross beams results in conjunction with the wall panel with the door limiting stander a frame from which the additional loads through the door can be easily absorbed. If the lower cross member remains in the underfloor area, then a shoulder can be avoided in the passage area of the door. However, it must be ensured that the wall may only be lowered when the door is closed, which can be easily ensured in terms of control technology, since only one sensor is to be provided for the closed door.

The wall panels could connect to the facing longitudinal sides of the posts. Easier installation conditions, however, arise when the wall panels are mounted on the sliding guide for the guide bearing opposite longitudinal side of the uprights to this, so that the uprights are on a wall side. The pillars on the opposite side of the sliding guide wall panels, which preferably consist of glass panels can thus be fixed butt-jointing on the front-side longitudinal side of the uprights, preferably with the help of the shock covering fixing strips.

In the drawing, the subject invention is shown, for example. Show it:

1 shows an inventive, lowered into a subfloor shaft wall in a simplified front view,

2 shows a section through the wall along the line II-II of FIG. 1 on a larger scale with the wall raised from the underfloor shaft, FIG.

Claims (7)

4 AT 010 287 U1 FIG. 3 is a sectional view corresponding to FIG. 2 of the wall lowered into the underfloor shaft, FIG. 4 shows the guide of the uprights of the wall in guide bearings in the ceiling region of the underfloor shaft in a longitudinal section through a post, FIG. 5 shows a longitudinal section through FIG a post in the region of the spindle nut and Fig. 6 shows a section along the line Vl-Vl of Fig. 4 on a larger scale. According to the illustrated embodiment, the lowerable in a subfloor shaft 1 wall 2 is modularly constructed of three wall panels 3 and 4 between four uprights 5, wherein the central wall panel 4 is provided with a door 6. For this purpose, the central wall panel 4 limiting uprights 5 are connected by cross member 7 to a frame which receives the door 6. The door 6 is rotatably supported by bearing journals 8 between the cross members 7. The arrangement is made such that the lower cross member 7 comes to lie in the raised wall position of FIG. 1 below the floor level 9, so that the door 6 releases a continuous passage. The uprights 5 are made of a hollow profile, which has a sliding guide 10 for arranged in the region of the ceiling 11 guide bearing 12. In the lower end of the hollow sections, a spindle nut 13 of a spindle drive 14 is rotatably held, the spindle is designated 15. The lower at the lowered wall 2 from the hollow section 5 projecting end portion of the spindle 15 is mounted in the bottom region, wherein the bearing 16 is formed by the housing of an angle drive 17 for driving the spindle drive 14. The upper end of the spindle 15 is held within the hollow profile of the uprights 5 in a bearing 18 which is slidably guided within the hollow profile. Since the spindle 15 is supported radially over the bearing 18 with respect to the hollow profile of the uprights 5 and the uprights 5 are guided in the region of the bearings 18 through the guide bearings 12 in the area of the ceiling 11 of the lower-level shaft 1, there is no need for additional radial support of the spindle bearings 18th The uprights 5 are thus guided not only via the guide bearings 12 but also via the spindle 15 engaging in the spindle nut 13, which ensures their stability when the wall 2 is extended from the underfloor shaft 1. Prerequisite for lowering the wall 2 is that the door 6 is closed. For this purpose, a sensor for the closed position of the door 6 can be provided, which blocks the turning on of the motor 20 in the lowering sense of the wall 2, when the sensor does not start and therefore the door 6 is not closed. In the stop position of the lowered wall 2 close the upper covers 24 of the uprights 5 and the wall panels 3, 4, the passage opening 25 in the ceiling 11 of the underfloor shaft 1 in the manner described. To lift the wall 2 from the lower floor shaft 1, the motor 20 is to turn on in the reverse direction, which has a screw adjustment of the spindle nuts 13 along the spindles 15 upwards. The wall 2 is thus lifted from the lower floor shaft 1 until the end position of FIG. 1 is reached. The weight of the wall 2 and the additional wall loads are proportionately removed via the individual posts 5 on the one hand via the spindle drives 14 and on the other hand via the guide bearings 12 on the carrier 19 and of the carriers 19 on the underground shaft 1, wherein the choice of the number of posts 5 the respective wall size and load can be considered without having to increase the design effort in the area of a stirrup. Such walls are therefore particularly suitable as freestanding, if necessary lowerable walls for wind protection. Claims: 1. In a subfloor shaft lowerable wall, which along wall guides guided uprights and extending between the uprights wall fields, with a lift drive for the wall of individual spindle drives for the hollow profile forming uprights, the spindles of the spindle drives a in the lower end of the hollow section of the uprights 5 held through spindle nut and are stored with their lower common abreibba-ren end portions outside the hollow section of the uprights in the bottom area of the underground shaft and with their upper ends in the hollow profile of the uprights slidably guided camps, characterized in that the uprights (5) are provided with a sliding guide (10) for the wall guide bearing (12) provided in the ceiling area of the underfloor shaft (1) and in that the guide bearings (12) for the wall (2) are each two spaced from each other Have arranged bearings. 2. Wall according to claim 1, characterized in that the guide bearings (12) in the height range of the upper bearing (18) for the spindles (15) of the spindle drives (14) are provided. 3. Wall according to claim 1 or 2, characterized in that the bearings (16) for the lower end portions of the spindles (15) and the guide bearings (12) for the uprights (5) are each mounted on a common support (19). 4. Wall according to one of claims 1 to 3, characterized in that the uprights (5) and between the uprights (5) extending wall panels (3, 4) carry a cover (24) in the lowered wall position in gutters (26) engage, which extend along the upper passage opening (25) of the underfloor shaft (1) for the wall (2). 5. Wall according to claim 4, characterized in that the uprights (5) and the wall panels (3, 4) in the raised wall position in the gutters (26) engaging sealing profiles (27). 6. Wall according to one of claims 1 to 5, characterized in that at least one of the wall panels (3, 4) has a door (6) which is mounted between two from stayer to stayer (5) exciting cross members (7). 7. Wall according to one of claims 1 to 6, characterized in that the wall panels (3, 4) on the sliding guide (10) for the guide bearing (12) opposite longitudinal side of the uprights (5) are fixed thereto. For this purpose 5 sheets of drawings