DE140036C - - Google Patents

Description

IMPERIAL

r140036
CLASS 47A.

The present invention relates to a friction gear transmission for power transmission between shafts lying in the same axial direction, which alone does not allow the speed from one wave to the other from zero to an upper one To change limit values within the broadest possible limits, but to change the previous, similar ones Purpose-serving gears still has the advantage that the friction body mediating the movement is capable its spherical shape with the size of the resistance, which is around the circumference of the one resp. to overcome the other with him in engagement friction body is, corresponding force is pressed against the friction wheels.

The essential feature of the transmission is that the frictional pressure between the spherical friction body and the friction wheels always automatically look at the just necessary measure is brought, so that neither sliding between the friction surfaces, too great a loss of work or too great a wear and tear as a result of too much Pressure can occur.

The transmission is shown in FIGS. 1 to 6 of the accompanying drawings, * namely Fig. ι shows a view of the same with partial Section as Dcckcnvorgclegc, Fig. 2

. the associated side view, FIG. 3 is a schematic representation of the transmission in FIG Zero position, Fig. 4 shows an improved device for regulating the friction pressure. FIGS. 5 and 6 show the friction gear mechanism almost in its two extreme positions.

As can be seen from FIGS. 1 and 2, the two loose disks b sit on the countershaft pulley α , furthermore the friction wheel d rigidly connected to the fixed disk c and the friction wheel f to be driven and forming a rigid whole with the pulley g Belt release device installed, which does not require further explanation here. Between the two friction wheels df mediates the transmission of motion of the spherical BEZW. ¹ frictional body e designed according to a spherical cap, which is pressed against the friction wheels if and f by means of a spring.

The latter swings around a bolt It, which passes through the center of the spherical shape e and the intermediate shafts a and the. Axis of rotation χ of the Kugclreibkörpers e intersects at right angles.

The pin / 1 is fixed in the machine frames respectively. stored here in the front bearing block. A hand lever k can be used to rotate the spherical body c around the bolt / 1 as desired.

In the position shown in Fig. 1, the intermediate gear is completely disengaged, even if the belt is still on the. Fixed disk c should be. If you turn the lever k in the direction of the arrow / until the friction wheel d the circumference of the spherical cap c

40

45

50

55

60

Ci. Outside, issued May 4, 1304.)

touches, it begins to rotate and take the friction wheel f with it, the two radii of the friction body e in engagement being governed by rf and / being decisive for the transmission ratio.

In Fig. 3 it is shown how the transmission ratio can be changed so far that the driven wheel / stands still completely, although the contact of the driving one

ίο wheel rf with the spherical body e takes place. The automatic control of the friction pressure between the friction body e and the friction wheels df , as indicated above, due to the spherical design of the friction body c, takes place as follows:

If, according to FIG. 5, the resistance acting on the circumference of the friction disk f is greater than that between the parts rf and c, the spring pressing the friction body e against the friction wheels / rf generates a correspondingly larger one due to the spherical design of the friction body between f and c Pressure than between rf and c. To this end, one must think of the spring force acting in the direction of the axis of the lever A ^{- as divided} into two components in relation to the two friction wheels fd , one of which is tangential to the contacting friction surfaces,. the others are directed perpendicular to it.

Only the latter come for the pressure to be generated between fe and . between de to overcome the resistances into consideration. Since now according to FIG. 5 the. the spring force acting in the direction of the axis is almost normal to the contact surface between f and e , while that between rf and e runs almost parallel to it, it is clear that the latter components are related. very large on the first level of contact, but very small in relation to the second level of contact.

If one now thinks of the friction body c rotated into the position illustrated by FIG. 6, the tension force of the spring will generate a greater frictional pressure between the friction bodies de, in contrast to the previously identified position, but a smaller frictional pressure between the 'friction bodies fe. This is also absolutely necessary because the friction wheel rf is now on a smaller lever arm e, whereas the friction wheel f is on one. acts larger lever arm with respect to the axis of the lever k.

In order to be able to use the gearbox also to be able to transfer from the friction wheel -rf to the friction wheel f, as was previously not assumed, with changing speed an always constant work output, but now a smaller, now a larger work output , the modification of the subject matter of the invention shown in FIG. 4 is used. Such drives are z. B. required when starting Schlcuderma-KSchinciT, which are first started at a relatively low work performance at a moderate speed and then gradually get higher speed with correspondingly changing work performance. Because as a result of the greater work performance, which z. B. is caused by the fast movement of the centrifugal baskets in centrifugal machines, the absolute sizes of the resistances between / and e respectively. rf and e grow, the Rejbungsdruck between said friction parts which (FIG. 4) is achieved by the action of the two Flichkraftpciidcl mm must be increased to the same extent. The latter are pushed outwards with greater force, the faster the spherical body c rotates. ,,

Even at the beginning of the rotation, that is to say also at zero speed, the friction surfaces are pressed against one another by a spring η , which can be seen from FIG. 1. This spring pushes the piston i and. further the plate o against the spherical body and in this way generates the frictional pressure between the friction bodies. However, as soon as the work to be transferred becomes greater and the disk c must receive a correspondingly greater number of revolutions, the friction pressure of the greater work output is increased accordingly, in that the pendulum m with its lever thumb ρ push the plate 0 further down against the spring pressure and onto it Way increase the tension of the spring η accordingly.

The mode of operation of the friction gear transmission described can therefore generally be summarized in that the changes in the resistances acting on the circumference of the friction gears due to the change in the transmission ratio are taken into account while the work output remains constant due to the spherical design of the friction body e , while the change in the Work performance per se and the change in the resistances and the number of revolutions between the friction bodies caused by this change, respectively, by the centrifugal pendulum mm. by increasing the spring tension «is compensated.

Claims (2)

Patent Claims: I. Friction wheel change gear , characterized in that a rotatably mounted, to the driving and to the driven friction wheel (dvmdfj by springs or the like pressed-on spherical linear body c is in contact with the two friction wheels with its pivoting around pin h arbitrary areas of its spherical surface 'brings, which is not just the gear ratio changed, but also ever. according to the angles between the direction of the spring pressure and the contact surfaces the wheels of the friction 'pressure between the friction bodies the resistances acting on the circumference of the friction wheels is regulated accordingly. 2. Friction wheels change transmission according to claim i, characterized in that a Flichkraftpendcl (m) (Fig. 4) is arranged on the spherical Rcilrkkörperscr so that the friction body is pressed against the circumference of the two friction wheels with a force corresponding to its rotational speed increasing, for the purpose of regulating the frictional pressure between the friction bodies according to the work to be transferred. 1 sheet of drawings. Berlin. nEtinuCKT in D ^ n reiciiSdmickf.rei.