DE126732C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The opening and closing of large roof areas and windows, as well as ceiling and wall surfaces are in the hitherto customary way of mounting the parts to be moved Fixed pivot due to the large pivot friction very difficult and only more cumbersome with help Devices and large amount of work possible.

By using rolling motion with an approximately horizontal center of gravity, where essentially only rolling friction comes into consideration as resistance, should make the movement easier and, as the resistance to movement become very small, thereby also enabling the automatic opening and closing of such components will.

In rooms in which the development of great heat, harmful gases and vapors, smoke, dust, etc. takes place, such as in boiler houses. Foundries, rolling mills, in retort houses, chemical workshops and the like. Effective ventilation is to be achieved, for example, by an arrangement shown in FIGS. 1 to 6 of the accompanying drawings. The whole roof, or, as Fig. 1 shows in cross-section, a part of it, is to be moved in such a way that the roof is closed on the wind side and opened on the leeward side, so that the gases and vapors that are drawn off escape on the leeward side, which through the suction effect of the wind blowing over the roof surface in the direction of the arrow is advantageously accelerated. This is mechanically facilitated by the present type of movement of rocking the entire roof surface from one side to the other. The roof surface shown in Fig. 2 and 3 in the outline and longitudinal section for a central position, which is dotted in Fig. 1, is supported by means of two cylinder segments aa on a generally horizontal path bb on the fixed parts of the building. By rolling the segment of a circle as in a cradle, the roof is rocked back and forth by a cable drive shown in FIG. 1. The exact adherence to the path is achieved in that the segment is provided with one or more teeth, the path, which can be straight or curved, has corresponding gaps in which the teeth engage from above, or vice versa, through teeth on the Track and tooth gaps on the rolling surface. The length of the W ⁷ eges can also be restricted against unintentional movement by resistances of any kind, as the details of FIGS. 4 and 5 explain. The forces required to roll large roof surfaces are small, since the arrangement can be arranged in indifferent equilibrium, that is, the center of the rolling cylinder surface is as close as possible to the center of gravity of the roof, i.e. only rolling friction remains to be overcome. Fig. 5 and 6 show how the roof reacts to wind forces. Comes z. B. the wind, as indicated in Fig. 6, from the left against the opening at an angle between io ° above and below the horizontal, the mean force of the wind pressure is at the upper limit position to the left of the base, so calls for a movement left. The more

If the roof rolls in the direction of the wind, the angle of incidence of the wind on the roof parts on the left will increase rapidly due to the convex, continuously curved or polygonal cross-section of the cradle roof for this purpose, and consequently both the magnitude of the mean force of the wind and their distance Increase to the left of the pivot point, briefly the torque of the wind promote the rolling of the roof with an increasing effect and, after the rotation is complete, work towards the solid closure. Even if the wind z. B. hits the lower surface of the movable roof in the horizontal direction, a left-turning moment will also arise, in the sense of the intended movement. Such a moment would also be effective if the wind came from below and hit even larger undersurfaces of the right half of the roof. Only in the case of a strongly rising wind direction, as shown in FIG. 5, where the wind zone is hatched, will a greater resistance oppose the closing of the movable roof surface. This initial resistance can be easily overcome by switching on a higher gear ratio, by attaching a counterweight or the like. if the roof is closed on the windward side in good time, avoid this entirely. A man pulls on the wire s (Fig. 1) and will be able to move over a roof area of 50 square meters.

In Fig. 5 even the possibility is shown to design the entire device automatically. The wind acts at the same time on a screen m located outside, which it drives forward as a result of its free pendulum suspension pp , and thereby generates the necessary force in the pulling cable s which is still necessary to close the roof. The device can also be designed in such a way that it only serves to disengage a counterweight or some other force collector. The fact that the force collector can also be designed in such a way that it consumes and stores any accelerations of the movement so that one is able to automatically produce a uniform movement of any roof surface should also be expressly mentioned here. The fact that finally the storage can also take place in fixed support pegs should not be ruled out. In this case, the main innovation is to close the roof by turning it on the windward side and open it on the leeward side.

The rolling movement about horizontal axes with large windows is shown in FIGS. 7, 8 and 9. Outwardly or inwardly, the windows are supported on segments .S ₁ in the closed state, S ₂ in the open state, which roll on a certain path BB of FIG. The drive rods AA hold the window firmly in every position as soon as they are designed in a known manner as toothed racks with pawls and the like. In Fig. 8 there is also the special embodiment that, for the sake of rain protection, the window is folded about a horizontal axis in such a way that the upper end 0 of the window remains below the lintel or a small fixed canopy through a guide f Folding axis F is advanced by the drive.

Apart from the advantage that very large windows with simple means and small ones Forces can be moved and retained, this also has the advantage that the air escaping upwards is given a larger cross-section to exit into the open air.

Claims (3)

Patent Claims: 1. Device for opening and closing space-closing building surfaces and windows, characterized in that the. surfaces to be moved are rigidly connected to a curved foot surface (a) with which they roll on a flat or curved support surface (b) when rotating around a movable horizontal axis. 2. An embodiment of the device characterized in claim 1 for the movement of roof surfaces behufs achieve a vigorous ventilation of the covered areas, such, that by one and the same movement, through special driving or automatically by the action of W ^T, however, the roof area at the Is closed on the windward side and opened on the leeward side. 3. An embodiment of the device according to claim 1 for moving windows, in which only part of the surface immediately follows the rolling motion, While the other part with this surface ~ is rotatably connected in a horizontal axis F (Fig. 8). 1 sheet of drawings.