DE819345C - Infinitely variable V-belt change gear with automatic speed adjustment by means of a control ring by changing the center distance - Google Patents

Description

Infinitely variable V-belt transmission are known, where the initiation of the adjustment of the transmission ratio by axial Displacement of the conical pulleys forming the belt grooves by means of corresponding Drives, linkages or lever ratios partly on mechanical, hydraulic or by electrical means. The adjustment mechanisms are usually complicated.

The drive according to the invention avoids the disadvantages of the known Executions and simplifies the control organs significantly.

A drive according to the invention is shown in Figs. I and 2 in one embodiment shown, namely the same drive in two different translation positions.

The intermediate bushing b, which is designed as a grooved shaft on its outer diameter, is firmly wedged on an engine shaftea that is displaceable in its axial position. The conical pulley half with the flank angle c on the left is arranged to be displaceable on it. At the end of the stub shaft of the conical disk c, the conical control disk d is attached with the flank angle on the right. In between, there is also slidably seated the double pulley e, which forms the running groove of the V-belt with one flank and the running groove of the control ring f with the other flank and which cannot rotate in relation to the pulleys c and d. The V-belt stretched between the pulleys c and e expands the V-belt groove until the control ring is evenly in contact with the control ring flanks d and e and revolves concentrically with them. This gives the smallest pulley diameter of the interchangeable pulley. The control ring f should no longer be able to change its axis position during the subsequent adjustment process. The automatic adjustment of the conical disks takes place by shifting the axis from the position xy in the direction x'-y 'in that the control ring f rotates with it, but remains with its axis of rotation in the position xy. As a result, the control disk flanks d and e are pressed apart and the pulley flanks c and e are closed proportionally. The flank angles of the belt pulleys and control disks are related to one another and are selected so that constant belt tension is guaranteed during the adjustment process. The control ring itself is rotatably mounted in a machine part on the engine frame side, which can be readjusted by hand in the event of belt rotations or control ring wear in the direction x'-y ".

The drive according to the invention can be applied to any number of pulley grooves expand side by side in a known manner, with only one pair of control disk flanks with a control ring is required. By fixing the control ring in a In the plane perpendicular to the axis of rotation, the conical disk is shifted in such a way that a shift in the belt levels does not occur. With a sufficiently large center distance however, this fixation can be dispensed with. The intermediate bush is then not required b, and the disks c and d are placed directly on the engine shaft a and wedged. Only the disk e performs axial movements during the adjustment the end. The control ring must then be hung with its ball bearing housing in such a way that that although it cannot move in the axial direction but perpendicular to it.

Claims (1)

PATEN TANSPßl'Cli: V-belt change-speed gearbox, characterized in that the lateral adjustment of the conical pulley pairs (c, e) forming the belt groove is carried out by an accompanying control ring (f) whose axis of rotation is not shifted while the engine shaft (a) moves out of its position (xy ) is moved in direction (x'-y ') and which transmits the flank pressures during the adjustment process, so that with constant belt tension there is no increased flank load on the rubber fabric V-belt.