DE383930C - Molding machine driven by a continuously rotating shaft - Google Patents

Description

Molding machine driven by a continuously rotating shaft. at Molding machines set up like a crank press with rotating crankshaft, at which the compression pressure from a spring connected to the crank mechanism depends and is set from the start by changing the length of the connecting rod is, it is known, the pressing pressure by means of an endless belt and Fixed and loose disk existing friction gear from a constantly rotating Derive wave.

In contrast, the present invention is based on the object a set up in the manner of a hand molding machine molding machine, in which the Working stroke of the mold table or the press plate by means of a swingable back and forth Crank arm is caused to be driven by a continuously rotating shaft so the effort previously required for machines of this type to exert the pressure muscle strength is avoided and the operator only needs a light movement has to carry out to initiate the pressing pressure. This task is solved by that the generated by the rotating shaft, through the mediation of a friction gear derived pressing pressure during the exercise and use of the molding machine directly can be adjusted by hand. For this purpose, according to the invention, such friction is achieved Friction = companies to use that are not just engaged and disengaged by hand can, but at the same time the contact pressure of the rubbing surfaces during the exercise of the pressure can be regulated within the broadest limits, so that the operator has it in hand, the frictional pressure on the working stroke of the press as required to strengthen or weaken so that just the required pressure is achieved but 'prevents machine parts from breaking down. Advantageous the device, which has proven itself in belt drop hammers, is used, whereby the Belt is placed over a continuously rotating pulley that his one The end hangs freely and the belt is attached to the pulley by pulling at this end can be pressed. The other end of the belt is attached to the known for lifting and lowering the mold table or the like attached rocker arm, who is provided with a face that always leads him back to the rest position. While but in the case of belt hammers only because the pulley entrains the belt the hammerbear is lifted, the working pressure on the other hand due to the weight of the falling one Bear is generated, the work pressure is reversed with the subject of the invention the belt is derived from the rotating pulley.

The drawing illustrates an embodiment of the new molding machine in a side view. .

a. is the frame of the molding machine B, the switch by hand and swung out, c of lateral arms supported Preßbrücke and d is the perpendicular guided mold table, the f through the intermediary of a push rod and a crank shaft G by the side of the: increased machine frame a bearing rocker h can be. i, i are the rods of the lifting device. who sit on a spider that can be moved up and down by means of a hand lever iii mounted on the front of the machine frame.

While in the known molding machines, the side rocker arm h upwards l; is erected and designed as a hand lever, it is with the new one The machine cranked backwards. He bears a weight n that is common to him holds in its rest position determined by not shown stops. On the rocker arm 1a is according to the invention one end of a belt o attached loosely over a Pulley p is placed and the other end carrying a handle q the front of the pulley hangs freely. The pulley p sits on one shaft mounted above the machine, e.g. B. a transmission wave r, which is constantly is driven in the direction of arrow x.

The pressing pressure is exerted, as is known, in such a way that the mold table d is raised against the press bridge b, for which purpose the rocking lever h must be rotated in the direction of the arrow y. In the new machine, the force required for this is derived from the pulley p by the worker pulling the handle d of the hanging belt end to stretch the line o around the pulley p so that the latter takes the belt with it through the increased number of rows. In doing so, the worker has it through more or less forceful pull ar1 end of the belt, i.e. H. by increasing or decreasing the friction between pulley and belt, it is in the hand to precisely regulate the pressing pressure according to the respective conditions. If he releases the handle q again, the rocker arm rotates back into its rest position due to the reduced friction between pulley p and belt o due to the effect of the weight n, while at the same time the mold table d lowers again due to its own weight. The weight n must, of course, be like that of a leg that the friction between the pulley and the belt when the belt is slack is not sufficient to swing the lever h upwards.

As can be seen without further ado, the new facility is the Operation of the machine is made much easier. While so far the generation the force required for the pressing had to be carried out by the worker, A slight pull on the handle q is now sufficient to generate the necessary pressure.

In addition to the example shown, there are numerous other embodiments possible. For example, instead of pulling on the free end of the belt, the belt could also go through a swivel-mounted roller can be pressed against the disc. To at idle the pulley to remove the friction between it and the belt, the belt, as known from belt hammers, by means of rollers that can be moved radially to the belt pulley be lifted off the disc. Instead of using belts and pulleys, it could Compression pressure also taken from a rotating shaft by another friction gear will. For example, the cranked shaft g could be engaged and disengaged and with respect to the contact pressure of the rubbing surfaces adjustable friction clutch with a constantly rotating shaft be coupled. Finally the general facility could too the molding machine differ from the example shown, e.g. B. is the invention Can also be used for molding machines with pressure from above.

Claims (3)

PATENT CLAIMS: i. Driven by a constantly rotating shaft Forming machine, characterized in that the generated by the rotating shaft, by means of a friction gear derived pressure during exercise and use of the molding machine can be controlled directly by hand. 2. Molding machine according to claim i, characterized in that the pressing pressure is mediated by a Pulling organ (o) from a disc (p) sitting on a constantly rotating shaft is removed, over which the pulling element is directed, and to which it can be regulated Pressure can be pressed. 3. Molding machine according to claim i and 2, characterized in that that at (learn to lift the mold table or the like serving rocker arm (h) (read one end of a strap (o) is attached. over a continuously rotating belt disc (p), and the other end of which carries a handle (q) from the Belt pulley hangs freely, the rocker arm by a weight (s) in its Rest position is held.