DE549613C - Centrifugal machine with roller conveyor for the production of conical hollow bodies - Google Patents

Description

Centrifugal machine with roller conveyor for the production of conical hollow bodies A centrifugal machine with a roller conveyor is already known, on which conical Hollow bodies are produced in such a way that the conical molding box in one cylindrical container carried and driven by two cylindrical rollers is housed. The invention differs from this known device in that both the shape and the roles that support and drive it are truncated cones form whose virtual tips coincide in a common point. Of the The progress achieved in this way is that the cylinder receiving the molding box disappears, and that now the simple molding box in any order, great and small, long and short, without any focus on the circumferential truncated cones be hung up and thrown on them. That’s not just an essential one Saving of material, but also associated with strength, time and labor.

The invention is based on the fact that cones: those with the tip and- coincide with a surface line, under the action of rotating forces on each other roll off, whereby the angles lying at the tip of the cone are arbitrarily different, pointed or blunt and even elongated.

By applying this basic idea, names disappear in the manufacture of reinforced concrete poles all the disadvantages, "- those from the lathe system machines developed, namely the axial insertion and withdrawal of the Molding box, which requires cumbersome devices and double-long work spaces are the time-consuming centering of the molding box at all support points, the annoying rebuilding of the machine and moving the roller holder for each new molding box length, readjusting the to support the rotating molding box necessary support rollers with each change of diameter, the damaging torsion of the molding box in some versions of the previous system.

In addition, the device has a number of important advantages, namely due to the simplicity of the device r. low acquisition costs for the system, especially since the molding boxes because of the same conical basic shape for the molding and the molding box can be produced with the least possible amount of material can e.g. easy handling of the machine and 3. elimination of the setting, since without each preparation and adjustment in colorful succession, one after the other, bodies of different Thickness, length and slope can be made so that an almost uninterrupted Spin and thus a complete utilization of the machine is possible. In In the drawing, the subject of the invention is developed from its theoretical basis and shown schematically in one embodiment, wherein a machine for manufacturing of reinforced concrete poles is chosen as an example.

Fig. I and a show two cones A and B, which only have the tip S in common, in plan and elevation. If a third cone C is placed on these two cones in the sense of Fig. 3 in such a way that its tip coincides with the tips of the other two cones, it must touch each of the cones A and B in a surface line. The apex angle of this third cone C can, as Fig. Q. shows any size. If the two cones A and B are now rotated in the same direction and at the same angular speed, the third cone C rotates in the opposite direction due to the friction.

The machine shown in Figs. 5 and 6 is based on this basic theoretical idea. The two cones A and B are represented only by waves d with traction sheaves f and are designed as truncated cones. The shafts d rest in bearings e on solid foundations and are provided at the base with gear wheels n which are positively connected and rotated in the same direction by a third gear wheel o driven by the belt pulley p. The third, also truncated cone C, shown in Fig.y, serves as a molding box m. With the grooves k of its races g, it rolls on the frictional wedge surfaces lt of the drive pulleys f and is thus forced to follow the driving forces of the drive wheels and its distance of the common apex S of the three cones to keep unchanged. Since all the running circles of both the traction sheaves f and the running rings g lie in cone shells, the tips of which coincide in the common tip point S, this mechanical structure follows exactly the law as when three mathematical cones with a common tip roll on top of each other.

The operation of this device is exactly the same as that of the known roller conveyors used for the production of cylindrical tubes.

The centrifugal machine is expediently given a length such that the largest masts can be made. The dimensions are chosen so that that they correspond to the most common shapes with the usual degree of slenderness. Shorter masts with a very small point angle are placed on the lower side of the machine, In contrast, shorter masts with a larger point angle in the middle or at the top thrown from the machine, since all other things being equal, a mast is all the slimmer and becomes more pointed the further its base is from the apex of the cone.

Incidentally, the size and shape of the body to be molded is only determined by the dimensions of the molding box. Extremely slim masts received Molding boxes, in which the slenderness by appropriate dimensioning of the wall thickness and races is achieved, the cone tip S., pushes out accordingly. So Fig. 8 shows the shape of a mast, the tip of which SZ second over the tip S, des actual molding box m and the common cone tip S of the device has moved out. Another pushing out of the point S into infinity even allows the production of cylindrical pipes or hollow masts through .these conical device per se.

The race rings are in two parts and also serve to connect the two halves of the molding box. Latches, yokes or rollers can be used as security to prevent the rotating forn box from derailing. The simple traction sheaves can be fitted with solid rubber tires, pneumatic tires, padding or lids that act on suitable profiles of the raceways. The races can be omitted and the traction sheaves attack the molding box casing directly if the axial immovability of the molding box is guaranteed by at least one guide. The device could also be driven by only one of the two shafts. The shafts d can also be driven directly by belts. In this case the gears iz, o, za only have the purpose of ensuring the same angular speed for both shafts. By changing the shafts, bearings and traction sheaves accordingly, the machine can also be set to other common peak points. The plane on which the bearings rest can also be inclined at will.

Claims (4)

PATENT CLAIMS: i. Centrifugal machine with roller conveyor for the production of conical hollow bodies, in particular reinforced concrete masts, characterized in that both the form (C) and the rollers (A, B) carrying the form and circulating are designed as truncated cones, the virtual tips (S) of which are in coincide with a common point. 2. Spin machine according to claim i, characterized in that the frustoconical shape (m) has the outer surface of a truncated cone (C) has limited race rings (g) that are on rollers (f) that run within the lateral surfaces of the corresponding truncated cones (A, I3) lie. 3. centrifugal machine according to claim i and 2, characterized in that that the drive rollers (f) are provided with pneumatic tires or solid rubber tires. 4. Centrifugal machine according to claim i to 3, characterized in that the shafts (d) of the rollers (f) at their ends carry bevel gears (za) which are driven by a common bevel gear (o).