CS225706B1 - Tower construction of roof tanks - Google Patents

Abstract

The roof structure is used for tower tanks suitable for agriculture, waterworks or for various storage purposes. The roof structure of tower tanks consists of a dome-shaped central part surrounded by a roof shell in the shape of an annulus. The roof shell is formed by saddle parts. The essence of the invention lies in the fact that the walls of the saddle parts (5) form an angle of 60° to 110° together and are formed by sheets (6) provided with a protective layer of enamel or plastic and are connected at the upper and lower peaks by peak reinforcements (7a, 7b) bent identically to the peak angle, and their outer ends are placed on the shell of the tower tank (1) and their inner ends on the vertical ring (4) of the dome-shaped central part (2).

Description

The invention relates to the roof construction of tower tanks, as used in agriculture, water supply and possibly for various storage purposes.

Tower tanks of circular cross-section are still made of enamelled sheets, which are shaped, punched and enameled in the factory and then unassembled easily transported to the construction site, where they are just assembled tower shell tank. The circumference of the upper edge of the tank is reinforced by two U-beams, one on the outside and the other on the inside of the shell.

The roof structures of these tower tanks are still being built in the traditional way. The upper edge of the tank is spanned by beams, which usually have a profile I. The beams are located on the reinforced upper edge of the tower tank shell with their outer end. With their inner end they converge radially in the center of the tank. This center is covered by a dome-shaped central part which rests on a vertical ring mounted on the beams. The remaining part of the roof in the form of an annulus is covered with a flat roof cladding that rests on the beams and consists of individual sheets, welded together or bolted. The roof cladding was also attached to the beams. After installation, the roof cladding was additionally protected against corrosion by chipping and other usual coatings which had to be repeated regularly.

There is also known a self-supporting cone-shaped roof cladding formed by saddle portions, the cross section of which is in the shape of an isosceles triangle. The saddle section consists of two sheets which are not provided with a protective layer, for example enamel or plastic. The longitudinal edges of the sheets are curved to form connecting locks with the curved edges of adjacent sheets.

The disadvantages of the existing roof structures of tower tanks are the material demands, the extent of assembly work and the necessity of a roof cladding. Material demands were found in cases where the roof cladding was straight, not self-supporting and had to be supported by beams. With a tower tank diameter of 9 to 18 m, due to the large span mentioned, profiled beams with appropriately large dimensions had to be used, with a flat roof cladding only minimally contributing to the load-bearing function. The actual production of beams, their placement and anchoring in the external shell of the tower tank and the attachment of the roof shell to the beams, represent an increased scope of assembly work. If the roof cladding was made of saddle parts, these were more difficult to manufacture because one of their edges had to bend 180 ° to form half the lock. The lock was then completed when mounted on the roof, which is a relatively time-consuming job.

According to the invention, the self-supporting annulus consists of saddle parts. SUMMARY OF THE INVENTION The invention is based on the fact that their walls are 60 ° to 10 ° together and are made of sheets provided with a protective layer of enamel or plastic and are joined at the apex by apex reinforcements bent in accordance with the apex angle. the tower tank and the inner ends on the vertical ring of the dome-shaped central part. The apex reinforcements may be formed by bending at least one edge of the sheets or may be formed by a separate V-shaped profile,

The vertical ring may be divided into a lower and an upper portion, at least the lower portion having a sawtooth contact edge corresponding to the profile of the saddle portions. In another alternative, the vertical ring may be provided on the outside with feet whose shape corresponds to the profile of the saddle portions. The outer ends of the lower apex reinforcements may be provided with webs for attachment to the upper edge of the shell of the tower tanks.

Due to its self-supporting construction, the roof construction thus achieved exhibits a saving in material, installation work and, due to the use of enamelled sheets or sheets and a plastic protective layer, maintenance work on the roof covering is almost completely eliminated. The material saving is that the roof cladding does not require a support structure. This also saves assembly work associated with anchoring the beams and attaching the roof cladding to the beams. A significant advantage is also the fact that the sheets of the self-supporting part are made using the same technology as the shell sheets of tower tanks. Most of the roof construction work is carried out conveniently on the ground and the pre-fabricated parts are connected to the roof by ordinary screw connections without the need for special tools.

The roof structure of the tower tanks solved by the invention is shown in an axonometric view in the drawing, in which Fig. 1 represents a view of the entire roof structure; 3 shows the formation of saddle portions of sheet metal, one edge of which is bent to an apex angle.

In an exemplary embodiment according to the invention, the tower tank 6 is covered by a roof structure which consists of a dome-shaped central part 2 and a self-supporting ring-shaped part 6, which is newly solved by the invention. The dome-shaped center portion 2 is mounted on a vertical ring 6, which serves to receive the inner side of the self-supporting portion 6. For this purpose, the vertical opaque ring 8 is provided with feet 8 whose shape corresponds to the profiles of the seat parts 8. The vertical ring 4 can also consist of two parts 4a. 4b. wherein at least its lower part 4a has saw-like contact edges corresponding to the profile of the self-supporting portion 4, and is fixedly connected to the upper part 4b.

The self-supporting part 8 consists of individual saddle parts 4, covering the annular ring between the shell of the tower tank 4 and the dome-shaped central part 2, and converging radially into the center of the tank 4. The saddle portion 8 has the shape of a horizontal triangular hollow pyramid with a cross-section of an isosceles triangle, but without one wall. Its apex angle has a span of 60 to 110 °. Most preferred is 90 °. The triangular pyramid has the largest base and height at the outer end mounted on the shell of the tank and the smallest at the inner end mounted on the vertical ring. The triangular pyramid is formed by sheets 6 which may have a bent or straight edge at the longer edge.

The bent edge must be formed on at least one longitudinal edge as shown in Fig. 3. The bent edge forms the desired apex angle of the saddle portion 8. The saddle portion 6 is folded so that the upper sheet 6b is positioned upwards with a bent edge so that the edge forms a roof under which the lower sheet 6a is inserted. whose bent edge forms a groove at the bottom, into which a flat edge of another sheet 6b is inserted. It is also possible to bend the edges at both longitudinal edges, in the opposite Z-shape. Furthermore, the saddle portion 6 may be formed integrally so that no joint is formed at the top. By these means, the self-supporting part of the roof is sufficiently rigid.

The saddle portion 6 can also be formed from sheets 6 with straight edges as shown in FIG. 1. In this case, the upper and lower apex reinforcements 7e need to be used. 7b. which are V-shaped profile rods with the required apex angle. The lower apex reinforcements 7a form a groove into which the sheets 6 are inserted. The upper apex reinforcement 7b covers the joint of two adjacent sheets 6.

For large-diameter tower tanks 4 or for which an extraordinary load on the roof can be expected by natural conditions, a reinforced self-supporting part 6 of sheet metal 6a can be provided. 8b with bent edges and upper and lower peaks can still be reinforced with reinforcements 7a. 7b.

Just as the entire casing of the tower tank 6 is assembled from the individual sheets already in the factory properly formed, perforated and provided with a protective layer at the construction site, the saddle part 6 also consists of individual sheets 6 having the correct dimensions and holes which have been pre-fabricated. with the same technology as the sheathed sheets. The individual saddle portions 8 can be made in the V-shaped mounting trough at the site of the construction of the tower tank, thereby reducing the amount of uncomfortable and dangerous work on the roof of the tank. Between the contact surfaces of the plates 6 and the reinforcers 7a. A durable self-curing sealant is applied.

The described roof structure is suitable for tower tanks 6 constructed of enamelled sheets or sheets with a plastic protective layer. Such tanks are mainly used in agriculture and water supply.

Claims (6)

SUBJECT OF THE INVENTION A roof structure of tower tanks comprising a dome-shaped central part surrounded by an annulus-shaped roof clad, with an inner edge on the dome-shaped central part and an outer edge at the upper edge of the perimeter cladding of the tower tank. central parts of spaced saddle portions with an isosceles triangular cross section, characterized in that the walls of the saddle portions (5) form an angle of 60 ° to 110 ° and are formed by sheets (6) provided with a protective layer of enamel or plastic; the upper and lower peaks are connected by apex reinforcements (7a, 7b) bent coincident with the apex angle, and the outer ends are supported on the shell of the tower tank (1) and the inner ends on the vertical ring (4) of the dome central portion (2). The roof structure of tower tanks according to claim 1, characterized in that the apex reinforcements (7a, 7b) are formed by bending at least one edge of the sheet (6). 3. The roof structure of tower tanks according to claim 1, characterized in that the apex reinforcements (7a, 7b) are formed by a separate V-shaped sectional bar. The tower structure of tower tanks according to claim 1, characterized in that the vertical ring (4) consists of a lower and an upper part (4a, 4b), at least the lower part (4a) having a sawtooth contact edge corresponding to the profile of the saddle part (4). 5). 5. The roof structure of tower tanks according to claim 1, characterized in that the vertical ring (4) is provided on the outside with feet (8) whose shape corresponds to the profile of the saddle parts (5). Tower container roof structure according to claim 1, characterized in that the outer ends of the lower apex reinforcements (7a) are provided with webs (9) for attachment to the upper edge of the tower container shell (1).