DE65678C - Device for the piece-by-piece production of the shape of bodies of revolution (wheels, pulleys, pulleys, etc.) - Google Patents

Description

IMPERIAL

PATENT OFFICE.

pulleys, pulleys, etc.).

. Belt pulleys, toothed wheels, pulleys, as well as other rotational bodies are partly formed without using full models. In this case, the Arms used the most varied of methods. The simplest is the one where the hubs and Arms made by cores which have been made beforehand and then made into the stenciled form can be used.

Fig. 1 shows the stenciled shape, Fig. 2 shows the basic pattern. Fig. 3 shows the same shape, only here the cores which form the shapes are inserted. Fig. 4 is the basic riff, where the arms are located in the middle of the core. Fig. 5 is also, a basic riff, only here the arm is formed between the two sides of the cohesive segment cores b and c, in each is half Poor. Fig. 6 the arm is bent, as a result of which the cores can also be made bent.

In order to produce these cores, one previously had to have core boxes, such as FIGS. 7 and 8 represent. The core boxes are to be omitted and the cores are to be manufactured on a machine which is set up as follows.

9 and 10. On a table α there is a plate b which can be adjusted as high and low as desired by means of the screw c and the conical wheels d, as well as the handwheel e. The sides ih and kh of the plate b are delimited by two side walls / and g, which are movable about the axis h , but are screwed to the table α when working. In the box η formed by the side walls f and g and the bottom b , a model of the hub and the arm (FIGS. 12 and 13) is inserted. Furthermore, the still open side of the box η is closed by the wall ο. Now the box is packed with sand and the kernel? manufactured. Then the bottom b is slowly lifted until it goes out with the core ρ consisting of sand and the wall 0 over the upper edge e of the side walls. The wall 0 is now carefully removed, the hub pulled out with the arm in the direction towards the center, the core removed from the plate, the plate b lowered again, the model and the wall o reinserted and other sand pulped for a new one Core. If enough cores are now ready, then they are inserted into the mold (Fig. 1).

If one wants to manufacture the cores as shown in Fig. 5, the model must be designed as in Fig. 14, ie on each side ih and kh there is half an arm instead of an arm in the middle. The walls / and g can be rotated about the axis h and placed so that they form any angle. These angles will be chosen so that a number of shaped core pieces form a full circle. If the angle of the walls f and g were 180 °, two core pieces would be required for one form, and four core pieces for 90 °, depending on how the side walls are placed. The machine can, however, be made much simpler, as shown in FIGS. 15 and 16.

On the table top α is the axis h, around which the side plates g and f rotate, the same are set at a certain angle, the model of the hub and the arm is placed in the box formed by the walls g and f , the wall ο inserted, the box is then filled with sand and then, that is the difference to the machine described so far, the side walls g and_ / are turned outward in the direction of the arrows / and m , the wall ο removed, the hub and arm pulled out and then removed the finished core from the plate α ; so the lifting of the core does not take place.

Claims (1)

Patent claim: Device for the piece-by-piece production of the shape of rotating bodies (wheels, pulleys, pulleys, etc.), characterized by two side walls (f and gj ) rotatable about an axis (h) , between which the core is formed after inserting the models for the hub and arms. For this purpose ι sheet of drawings.