SU648129A3 - Lining - Google Patents

Description

(54), COATING

Due to the screw plate made of artificial rubber, when tension is applied, it is unloaded and the spring perceives the screw practically

these extensions: no effort. Vulcaniseiro bath in a plate made of artificial rubber of a screw spring, significantly relieves artificial rubber during prolonged tensile forces. Before vulcanization of the artificial rubber plate 4, the screw spring can be welded or otherwise connected with metal sheets 5 and 6. Through a drilled hole in a metal sheet b, screw 8 is connected to the nut 9,

Schim1 flat carrier structure and roofs of the guy 10.

On the metal sheet 5 there are two sealing rings 11 and 12 of is-. of the piece of rubber, between which the plate is clamped 1. Sealing rings II and. 12 with a plate 1 installed between them is clamped between the aluminum plate 13 and the metal sheet 5. This clamping takes place by screwing in the central screw 14 when inserting the aluminum disk 15 and the artificial rubber disk 16 into the nut 17, which is accessed through a corresponding drilled hole in the metal sheet 5.

The outer sealing ring 12 has a central sleeve-like nozzle 18, the outer diameter of which corresponds to the drilled hole B of plate I and the height of which is equal to the thickness of plate 1. Nozzle 18 is high: blunt through cell 1 in such a way that the screw 14 in no way enters into contact with, plate I, so that the pressure of the inner surface of the hole is equalized.

The described fastener provides an equalizing movement of the supporting flat construction of the floor, in which, in order to avoid the clamping moments on the nodes, the carrier cables at the crossing points are set movably relative to each other, so that the plate is not subjected to an unacceptable load. In accordance with the load-elongation diagram, due to the appropriate choice of diameter, height and quality of artificial rubber, the fastener is designed so that the horizontal force transferred to the slab and the maximum displacement of the anchorage points in a flat supporting structure can not exceed the specified value. The horizontal force in the main plane of the slabs is thus limited to the value not dangerous for the slab. Further, fastener part

can freely perceive the load from the effect of the own weight of the plate, snow and wind, passing through the surface of a person, as well as compressive and tensile forces.

In order to block when the fastener is destroyed, it is also possible to provide a normally unloaded additional stretching guard that connects the vibrating element with the supporting structure. This stretching block may consist of a pull-around hook located around the strutholes, which is connected to a metal sheet of the fastener through the blind-threaded nipple.

When the shafts on which the plates are screwed with fasteners are displaced from their nearly square configuration in a resting state, according to the CTBOiHO, diamond-shaped configuration under

by the action of the load, the fasteners perceive the slight supporting forces that arise in the plate. However, the plates not only are displaced parallel to each other, but they are still under the action of the twisting of the plates around their main axis, and partially trapezoidal nshami are stopped near each other. In addition, due to the pliability of the synthetic material from which the plates are made, there are displacements of the main planes of the individual plates. The sealing strips in the seams must therefore be flexible and permanently elastic in all directions so that this upcoming movement does not resist, because otherwise there may be inadmissible stresses in the plates.

FIG. 3 shows such a sealing strip in cross section. It consists of a thin layer of weathering material that is weatherproof and especially resistant to accidental impacts of artificial rubber, and with its longitudinal edge.m 19 it is superimposed on the edge 20 of plate 1. It is pulled over a supporting strip 21 with a V-shaped cross section, which encompass upper and lower clamping plates 22

and 23 connecting elements, which with the help of screws 24 are connected to each other. The clamping plates are designed in such a way that, with loosened screws 24, they can open in the form of a beak and at the same time can easily move through the support strips 21. The screws themselves are not necessarily

must be sealing because they

do not pass through the sealing profile ..

Connectors can also

be designed as one piece of

The two clamping plates and in place, around which the rear plates should rotate relative to each other, should have a narrowing of the material in the form of notches, etc., which provides a turning against the slight pretension force. This type of connective

. e. items has the advantage of light

mounting especially because they are in front

the assembly remains pushed apart by the action of the springs and therefore no special measures need to be taken to push the two clamping plates apart.

Similar solid fasteners can also pass through the Bcip length of the edges of each plate. In this case, in any case. It is necessary that, in various places, as needed, because of the possible bending of the edges, transverse slots are provided, which, however, do not cut through the entire cross section, so that the connecting element remains integral throughout the length of the edge. The transverse slots can be provided in both the upper and lower clamping plates, in the area of the narrowing of the material, as well as in both clamping plates.

The clamp of the sealing strip 3 by the plate is waterproof and windproof. At the transverse joints of the plates relative to each other or across the seams, the individual parts of the sealing strip 3 are bonded to each other by welding or vulcanization.

Since considerable forces can not be transferred across the sealing strip 3 either perpendicularly or parallel to the edge 20 of plate 1, it is necessary that fasteners be installed in close proximity to the edges of the plate, for example, to transfer forces from the floor to a flat floor structure. and vice versa.

FIG. 4 shows a modified version of the seam seal in accordance with FIG. 1. The sealing strip 3 is here made with a V-shaped support strip 25, so that an easy mounting can be achieved. The seam between the overlapping elements, in addition, is covered by an additional covering seam strip 26, which will be described below in more detail. Sealing strip 3 can be extruded, for example, together with support strips 25.

FIG. 5 shows a perspective view of a part of the seam between two plates. The strap 26 on one side of the seam is fastened with screws 24 to the upper clamping bar 22, and the other longitudinal edge can slide freely relative to the corresponding clamping slats. Due to the overlapping of such coats, their seams of the planks can be avoided so that Snow and ice penetrated the seams between the plates and overloaded the sealing strip 3. On the other hand, the seams of the plank, on the other hand, are fixed only on one side of the seam, no force is transferred from one plate to another through n.x. This means that they cannot affect the action of the compliant sealing strip 3. The advantage of the described invention is that it increases the drying capacity of the coating and its tightness.

Claims (1)

1. Otto Frey. Bumpy coatings. M., 1960, p. 73-74, fig. 142-144.