CS276232B6 - Sheets made of sheet metal, especially enamelled, for tanks, halls or buildings - Google Patents

Abstract

•The casing is assembled from the ribs (1), of which each inner rib (la) is connected by its upper and lower edges to the outer ribs (lb) and each sheet (2), provided with connecting holes (3) with the same spacing and provided on one narrower side with an upper and lower lock (6), is connected by a lock side (4) to the flat side (5) of the following sheet (2) and the lock sides (4) of the sheets (2) of one rib (la, lb) are positioned in a direction opposite to the direction of the lock sides (4) in the adjacent ribs (la, lb). A semicircular recess (7) can be formed in the horizontal side of the lock (6).

Description

The invention relates to a structural solution of a sheet metal casing, in particular of enamelled sheets, connected by at least one row of screws. An essential part of the invention is the construction of the corner joints of the sheets.

For the production of a sheet metal casing, the use of enamelled sheets will preferably be considered. Most of the problems associated with the construction of the shell are the same for both cylindrical and straight-walled constructions, so the example of cylindrical tanks will suffice, for which, on the contrary, there are some specific problems.

Tanks made of enamelled sheets connected horizontally into lugs are known. The legs are vertically connected so that the upper edge is attached to the inner side of the upper edge of the lower edge by the lower edge. As a result of this connection, each lub has the shape of a conical ring, the lower diameter of which is smaller than the upper diameter. The plates of the lugs have either straight sides, no locks. or have locks cut out at diagonal corners. ' · ..

In the case of straight sides, leaky corner joints are formed, into which a seal must be inserted, the service life of which is shortened by atmospheric influences acting from the outside and by ^: liquid acting from the inside.

In the case of sheets provided in the diagonal corners of the locks, close corner joints are formed, but even here the individual lugs have the shape of a conical ring. .

A big disadvantage for both types of sheets, ie for sheets without locks and for sheets with locks in diagonal corners, it is necessary to make each ore in the shape of a cone. The lugs shaped in this way are more difficult to connect. Therefore, it was necessary to choose different spacings of the connecting holes. There were a total of three pitches on the sheet: the basic was the pitch at the upper edge of the plates, the pitch at the lower edge was different and the pitch of the vertical holes had to be different. Due to the establishment of conical lugs, the lower row of holes was shorter than the upper, hence vertical holes.

they ran obliquely downwards from the end holes of the longer upper row of holes to the end holes in the shorter lower row of holes, so that the holes were arranged in a trapezoidal pattern on the sheet. This has resulted in more laborious sheet metal design and more complicated punching machine programming. Another disadvantage was that different spacings had to be calculated for each tank diameter and the program had to be changed on the machines. In addition, during this foundation of the conical lugs, the tanks could only be built up to a certain maximum diameter. If the sheets were to be used to form planar skins, the pitch had to be changed again and the vertical holes had to be placed at the same distance from the edge of the sheets. In both types of sheets, the disadvantageous arrangement of the corner joints was manifested in the fact that each upper lub had to be offset with respect to the lower lub by the width of the overlap at the joints of the lub plates. As a result, an oblique screw joint was created, the monitoring of which required increased attention during assembly.

These disadvantages are eliminated by the sheet metal cover according to the invention, the essence of which consists in that each inner lug is connected by upper and lower edges to outer lugs and each sheet metal provided with connecting holes of the same spacing and provided on one narrower side with upper and lower locks. is connected by the locking side to the straight side of the following plate, and the locking sides of one bar are built in a direction opposite to the direction of the locking sides in adjacent bars. To increase the tightness of the locks, it is possible to create a semicircular recess in the horizontal side of the lock.

The construction of the casing according to the invention brings many advantages and savings. The new arrangement of corner joints allows the creation of lugs in the shape of a cylindrical ring and their connection alternately as outer and inner lugs. This eliminates the disadvantages of the current foundation of conical lugs. These changes are due to the changed shape of the sheets and their perforation, and hence the most important advantage of the invention, which is the ability to create the whole shell with a single type of sheet, so that all sheets have the same dimensions, shape and perforation and all openings have the same spacing and distance from the edge. sheets, so that they form a rectangular shape on the sheet. With this single type of sheet metal, it is possible to build tanks of any diameter. Different diameters are conditioned only by the respective number of sheets. This single type

CS 276232 B 6 2 sheet metal represents a considerable simplification of the production program for the production, there is no need to produce different types of sheets according to the diameter of the tank. It is not necessary to adjust the program of machines according to the type of sheet metal, on the contrary, it pays to use a special machine, which punches out the shape of the sheet metal and at the same time all holes in a single operation. Furthermore, the storage of various types of sheets is eliminated and their inspection and acceptance and subsequent transport to the construction site is simplified. Due to the same spacing of all holes, the production of connecting and auxiliary structures will also be simplified. Assembly work will also be easier, as it is not necessary to monitor the offset of the plate during assembly. connections.

In an exemplary embodiment of the tank shell according to the invention, a part of the lower inner and a part of the upper outer lug are shown axonometrically. For greater clarity, a gap was left between the contact edges. '. .

In an exemplary embodiment, a tower tank shell made of enamelled sheets 2 is described. The shell is made of a single type of sheet 2, i.e. all sheets 2 have the same dimensions, the same shape and perforations. The spacing of all the holes £ and their distance from the edge of the plate 2 is the same. The diameter of the tank depends on the number of plates 2.

The casing consists of cylindrical lugs 1a, 1b which are vertically connected alternately as an inner lug 1a and an outer lug 1b so that an outer lug 1b is screwed to the outside of the upper edge of the inner lug 1a. Another inner lug JLa, which is no longer shown in the drawing, is screwed to the inner side of the upper edge of the outer lug 1b. The whole casing is composed of such alternately arranged inner and outer lugs 1a, 1b. In each lug 1a, 1b, the plates 2 are embossed so that their locking sides e are covered by the straight side e of the following plates 2. In addition, the locking sides e of one, for example the inner lube 1a, are placed in the opposite direction to the locking sides e of the adjacent. for example the outer lube 1b. Each plate 2 always comprises only one locking side 6, in which a lock 6 formed by a rectangular cutout is cut out in the upper and lower corners. A semicircular recess £ can be created on the horizontal side of the cut-out. After the locks £ have been connected, a circular opening is divided from two opposite semicircular recesses £, into which a circular insert is inserted. Since the locks £ cannot be pushed together absolutely tightly, at higher pressures of the stored liquid, the liquid may leak slightly between the contact edges of the locks £. This leak can be stopped. a labyrinth created by a circular hole filled with a circular insert. The round insert is used especially for sheets 2 with two rows of screws, if a tank for heavier loads is to be created. II of the single-row joint used in the drawing, it is more advantageous to blind both semicircular recesses 6 with a screw, which can be considered as equivalent to a circular insert.

According to the invention, tanks for liquids, gases and solids can be built economically and without major construction work, which are used in particular in agriculture. With the help of these sheets 2, it is possible to build halls in a short time, for example exhibition, sports, tunnel warehouses or building envelopes, which can be additionally thermally insulated. 3e can also use different colored enamels. .

Claims (2)

PATENT CLAIMS 1. A sheet of honeycombs, in particular enamelled, for tanks, halls or buildings, made up of bars consisting of overlapping sheets, provided with connecting holes along the sides and provided with locks at the corners, the upper lock of the lower barb sheet, connected to the lower extinction of the upper bar , is covered on the outside and inside by straight sides of the outer and inner plates, characterized in that each inner lub (1a) is connected by upper and lower edges to the outer lugs (1b) and each plate (2) provided with connecting holes (3) with the same spacing and provided on one narrower side with an upper and a lower lock (6), the lock is connected by the locking side (4) to the straight side (5) of the following plate (2) and the locking side (4) of the plates (2) 1a, 1b) are built in the opposite direction to the locking direction CS 276232 B 6 pages (4) in adjacent bars (la, 1b). 2. A casing according to claim 1, characterized in that a semicircular recess (7) is formed in the horizontal side of the lock (6).