NO127587B - - Google Patents

Description

Roof construction.

The present invention relates to a concave roof construction, in which

at least the lowest-lying parts form a collection channel for rain and meltwater.

With one type of such concave roof constructions, the roof surface usually consists of a number of planes, arranged so that they lean towards each other in pairs, so that the drainage of water can take place at the angle point or the joining zone between the planes in question.

In the case of roofs that are covered with plain boards or the like, the bottom zone is usually used for collecting and diverting water, as this is provided with drains at a certain distance from each other, e.g. 10 to 15 meters. However, this construction has proven to entail several problems, e.g. that the gutters are easily blocked, whereby the water stays on the roof. This gives rise to a water pressure in the joints, so that there is a great risk of leakage, above all in the case of rebated joints.

Another variant of concave roofs is one that is covered with corrugated sheets or discs, and equipped with a separate collecting gutter in the angle between the roof surfaces. Here, too, a significant problem arises if the drains in the collection channel were to be blocked again, as it is almost impossible to achieve a tight connection between the collection channel and e.g. the profiled sheets used to form the roof surfaces. This gives rise to an increased level of water in the gutter with the risk of the water seeping out through the connection between the gutter and the roof slab, as well as running down onto vulnerable structural parts, e.g. insulation, wood etc.

Another problem with such roofs is that they are relatively sensitive

for stresses arising from temperature changes, which can lead to dents and other deformations. However, these and other disadvantages are eliminated by means of the invention, which is based on

a concave roof construction, where at least the lowest-lying parts form a collection area for rain and meltwater, as this area is equipped with a drainage drain, which cooperates with devices for collecting and draining the water, where the roof construction includes a concave shell which is watertight and constructed of at least partially profiled material, and where the distinctive feature is that the shell is anchored in and supported by anchoring supports at such mutual distances that intermediate parts of the shell are mainly free-supporting, and the bottom zone of the shell is perforated and a chute for receiving and draining water that penetrates through the perforation holes is arranged below the perforation.

In the following, the invention will be explained in more detail with reference to a certain example of embodiment in the attached drawings, while at the same time further special features for. the invention will be indicated. Fig. 1 shows in perspective and with parts partially removed, a concave roof construction according to the invention, and which rests on an underlying beam layer or the like. Fig. 2 shows a part of essentially the same roof construction as in fig. 1, but on a larger scale and in a vertical section.

In fig. 1 generally denotes a building or a building scaffolding of some kind. This carries a beam layer which is generally denoted by 11, and which may be covered with some heat-insulating material 21. On this beam layer, with the help of suitable support devices, rests a shell 12 of disk- or panel-shaped material, as in the case shown is profiled plate. In the case of smaller buildings, this shell can be designed from a single continuous plate, but this is usually necessary

use several connected disks, plates or the like, such as e.g. the shown trapezoidal profiled plates 13, 14, 15, which are connected to each other along their longitudinal edges 16 and 17. Another suitable method for uniting the mutually reinforcing plates is double folding. As it will appear

of fig. 1, the ends of the plates are at a higher level than the bottom zone, generally denoted by 18, of the concave roof.

In this bottom zone, a large number of through holes 19 have been drilled through all the plates, the holes usually being arranged in several rows. In the transverse direction in relation to the connection between the plates and below the holes, a longitudinal collection channel 20 runs for the rain or melt water that penetrates through the holes.

According to the invention, the chute 20 can be completely detached in relation to the shell 12, or can also be attached directly to this in an appropriate manner. The shown gutter is also coordinated with the drain, not shown in more detail, for draining away the water that penetrates through the holes 19 and is collected in the gutter 20.

Since, with larger spans for such roofs, it may be practical, impracticable, to bridge the entire distance between the outermost points of the roof with discs or plates or the like in one length, according to the invention, one can proceed so that, for the bottom zone of the roof, is arranged and designed to be used as a collection channel for rain and meltwater, use at least one plate, strip or similar of such a length that this limits a collection area that is sufficient even for the most extreme rainfall conditions. The distance from the edges of this plate to the highest areas of the shell is covered in such a case by further plates, whereby the plates are joined together with a relatively good seal. It is usually preferred that the slices in question overlap each other.

In fig. 1, it is assumed that the bottom zone of the shell 12 is mainly horizontal.

In order to prevent the relatively thin shell 12 from being dented or damaged as a result of movements arising from temperature differences, it is assumed that said shell is worn in a way that allows yielding in the event of temperature stresses and

- movements.

To explain this, reference is made to fig. 2, where it is shown

that the shell 12 closest to the bottom zone rests on a number of beams 22 and on a number of further beams 23 which are placed further away from the bottom zone, as indicated in fig. 1. The beams 22 which are closest to the bottom zone and the gutter 20 are assumed to be relatively rigid and rest along their lengths on suitable supports 24 which are attached to the beam layer 11.

With the help of the beams 22, the bottom zone of the shell 12 is stably anchored to the underlying building or the supporting scaffolding. In the case of temperature stresses or tendencies to movements caused by such stresses, dents or other damage to the shell may occur when the shell is firmly clamped. To avoid this, according to the invention, beams 22, 23 are used with a relatively flexible intermediate piece or a suspension of the shell which allows displacements. In this way, the shell can expand in a direction away from the bottom zone or contract towards the bottom zone during heating and cooling respectively. From fig. 1, it will also appear that the openings between the fog and the building, respectively the stand, can be sealed by placing e.g. vertical plates 25 which are attached to the edge of the shell by means of overhanging end profiles 26.

According to the invention, the drainage openings can be arranged between the profile tops in cases where profiled plates are used in the shell. This also applies when the boards are only partially profiled, e.g. for folding purposes along the long sides. In cases where planar discs, ribbons, strips and the like are used which are joined together, e.g. in the case of double folding, the drainage openings are placed between each connection between the relevant planar construction materials. With the help of the invention's construction, it is possible to achieve a well-insulated roof by e.g. a roof is produced with an inner shell and an outer shell with intermediate insulation.

Claims (2)

1. Procedure for fixing magnetic track closing wedges in electrical machines and devices, as the wedge consists of a plastic, deformable material and has continuous side parts for contact with the side walls of the track as well as slots which, at least for part of its length, runs obliquely in relation to the longitudinal axis of the wedge, characterized by the fact that a wedge with a smaller width than the groove is introduced into this and by the application of forces acting in the opposite direction either on different side parts or on one side in the middle and on the other side at at least one point to the left of the center and one to the right of the center on the wide side of the wedge is made wider so that it is clamped firmly in the groove. 2. Magnetic closing wedge for slots for use in connection with the method according to claim 1, characterized in that it simultaneously forms a clamping device for the plate package containing the slot, the clamping action taking place in the longitudinal direction of the wedge as well as in its transverse direction.