DE934828C - Device for the free-wheel adjustment of pistons and connecting rods in locomotives while driving - Google Patents

Description

Device for setting the free-wheeling of the piston and connecting rod at Locomotives while driving Various suggestions have been made, too to install a freewheel on steam-powered locomotives. But it was missing up to now on a possibility of a standstill of the steam piston during longer downward journeys, Provide cross head as well as the connecting rod and the rest of the linkage.

The invention now relates to a locomotive in which the normal operation of the piston can be switched off from the driver's cab, ie also while driving, so that the steam piston and the others mentioned above stop during the journey, especially during long downward journeys Parts becomes possible. The idea of the invention consists in placing two crank pins on the drive wheel of the locomotive. to attach, of which the first is firmly on the drive wheel, the second, however, in the center line of the first, z. B. can be adjusted in its distance to the first crank pin by means of a piston (. Here, the distance of the first :, crank pin from the center of the drive wheel is equal to the distance of the shifted second crank pin The invention is illustrated in the drawings, in which: Fig. 1 is a side view of part of the locomotive with the steam cylinder in section; Fig. 2 is a section through the cylinder controlling the change of the movable crankpin; Fig. 3 is a cross section of FIG. i in the line a Fig. 4 is a section through the Fig. in a line B-Bi, while Fig. 5 represents a variant .of the control mechanism.

In the drawings i is the drive wheel of the locomotive, 2 - the steam cylinder which is attached to the frame 4 of the locomotive by means of the structure 3. The piston 5 runs in the cylinder and moves the crosshead 7 and the connecting rod 8 via the piston rod 6. The connecting rod drives the movable crank pin 9, which ends in the slide plate io. This slide plate is firmly connected via the piston rod ii to a piston 13 movable in the cylinder 12. Through the hollow rod 14, which slides up and down in the cylinder 15, compressed air can be supplied to the cylinder 12 via the lines 16, 17, 18. The line 17 is movably guided in the round slide i9 in order to be able to participate in the displacement of the crank pin 9. The round slide i9 is pushed to the left when compressed air enters through the lines 18, 14, 16 and 17 in order to establish the connection 25, 24 to the space to the left of the piston 13 in the cylinder 12 and thus allow the compressed air to enter or exit . to enable from this space. After the compressed air has escaped, the round slide i9 is pressed to the right by the compression spring 23 and the connection 29, 30 to the space to the right of the piston 13 in the cylinder 12 is established in order to prevent the compressed air from entering or leaving this space enable. The application of compressed air in the cylinder 12 takes place only as long as the fixing of the piston 13 and thus the crank pin 9 in a certain position is intended.

If a change in this position is to take place, the compressed air is used first through the same lines 17, 16, 14 and 18 from the driver's stand let out and then new compressed air to make the shift of the piston 13 let in.

The slide plate io runs on the block 2o, which in turn comes with the crank pin 21 attached to the drive wheel i: is and also forms the counterbalance.

In the position shown in Fig. 3, the crank pin 9 is in the central axis of the drive wheel. When the drive wheel moves, stand Steam piston, crosshead and connecting rod still. By supplying compressed air in the cylinder 12, the piston 13 and thus the slide plate 1o including of the crank pin q moved out of the center axis of the drive wheel. Through this the normal operation is restored, so that now the steam piston works in the usual way.

Fig. 3 shows the crank pin 9 in the rest position at the moment in which the piston is to pass from the rest position into the working position. The compressed air that was in the cylinder to the right of the piston has already been released, and newly entering compressed air has pushed the round slide to the left in order to oppose the channels 24 and 25. The compressed air now enters the cylinder through these channels and moves the piston to the right into the working position. Cylinder 12 and round slide i9 remain pressurized with compressed air until it is intended to shift the crank pin 9 into the rest position. In this case, the compressed air located in the cylinder 12 and the round slide 19 is first released into the open through the channels 24, 25, 17, 16, 14 and 18. As a result of the relaxation, the compression spring 23 snaps to the right and shifts the round slide 19 so that the channels 29 and 30 are now connected and thus enable the entry of new compressed air into the space of the cylinder 12 located to the right of the piston 13. This is the position of the device illustrated by FIG. In this position, the locking lever 28 also sinks, as can be seen from FIG. Only when the compressed air flowing into the cylinder 12 through the channels 29, 30 has pushed the piston 13 so far to the left that the crank pin 9 is in the center of the drive wheel and the steam piston and linkage is in the rest position, the opener attachment on the pipe 17 is also in place 31 moved so far to the left that he lifts the locking lever 28 sufficiently to release the round slide i9. This is now pushed so far to the left by the compressed air let in through pipe 17 that the channels 24, 25 are connected to one another again.

Instead of the cylinder 12 with the compressed air-controlled piston 13 can for adjusting the crank pin also a device of the type shown in FIG Section drawn serve.

In Fig. 5, another embodiment of the invention is shown, in which the construction of the device for changing the crank pin distance is somewhat simplified. The figure shows a longitudinal section of the device, wherein the crank pin 9 is seated on a U-shaped frame 34. In this frame is the cylinder 32, which is on the side not shown here by the Crank pin 2i is firmly connected to the drive wheel. In the cylinder 32 runs the Piston 33, which is firmly connected to frame 34 by means of plate 35. By the control of the piston can be controlled by the frame 34 with the crank pin 9 in his Distance to the crank pin-2i can be changed. The counterbalance will made in a manner not shown here on the drive wheel; the way of working basically remains the same. However, the slide plate io and the Block 2o. The attachment of the crank pin 9 is easy, and the Construction of the entire device is in the axial direction, i. H. in the cross section of the Locomotive, shorter.

Claims (1)

PATENT CLAIMS: i. Device for changing the piston stroke of locomotives for the purpose of idling while driving, characterized in that two crank pins come into effect on the drive wheel of the locomotive, the first of which is fixed to the drive wheel, while the second, on which the connecting rod acts directly, is movable can be moved from the central axis of the drive wheel in extension of an imaginary line from the fixed crank pin to the axis. z. Device according to claim i, characterized in that the movably arranged crank pin is connected to a piston controlled by compressed air, by means of which the displacement is effected.