DE1284716B - Friction clutch or brake - Google Patents

Description

The invention relates to a friction clutch or brake with in .statischer Determination of the friction bodies supported by the friction ring with a narrow circumferential extent.

.With! The mode of friction generation that has been common since then a large-area friction lining under a certain contact pressure in relative movement compared to a metallic counter surface which, because it is being machined, like turning and grinding, created, viewed with an ultramicroscope, of a high mountain landscape with steep peaks and crags that resembles the one hand opposite the friction lining have a scratchy effect and on the other hand break off again themselves, a Friction generation in which the surface zones involved are continually There are upheavals and the work of friction as machining work of the materials concerned What is achieved is to provide the largest possible "wear volume" in the friction lining maintains.

In contrast to this, a way of generating friction has become known, in the case of the extremely small-area friction body compared to a sufficiently hard metallic one Work counter surface that was created in a polishing process and as a result has a surface structure that, ultramicroscopically, resembles a flat hilly landscape with broadly laid out mountains and valleys, which are similar to the small area the friction body associated with extremely high specific pressure deep in its surface, possibly emboss the valleys until they are completely filled, without the broad ones Hills could be broken or sheared off at their base. One chooses here also a friction body material with the properties of high polymers, then tear the tightly meshed molecular chains not even if the whole is in the overlying one Landscape imprinted on the friction body surface in the friction movement along it is shifted, but they simply give way more or less elastically. this means a way of generating friction in which the work of friction is now called work of displacement and is obtained largely without material destruction, so that the surface structure is at least retained in its polished state, if not even promoted, and one can speak of a "polishing effect" all the more so than the frictional heat occurs almost exclusively in the metallic part of the friction pairing, and not for example on the extremely small surface of the friction body.

It is now the subject of the present invention, the effectiveness to increase the friction generation mode in polishing smoothness by using the rubbing system wholly or partially in the circumferential direction during the friction sliding process also a transverse movement perpendicular to this in the direction or axis of rotation among other things also oscillating type is given. As it is known to be with a the sliding process in progress no longer requires any additional frictional force, To bring about such a transverse displacement, arrangements can be made without difficulty create, for example, those already from the effect of the driver vibrations Bring transverse movements, provided that they can be moved easily is provided, including from the application of elastic deformations to regular ones Rolling processes are open to the most varied of possibilities for practical implementation.

The subject of the invention is based on A b b. 1 to 4 using the example two essentially identical inner jaw friction clutches that rub in smooth polishing or brakes described on which, the principle of transverse movement on various Wise realized, namely, shows SAb b. 1 shows the inner jaw assembly in its entirety and partial section perpendicular to the axis of rotation, in which the friction system as a whole, e.g. B. by means of a slide running on balls, the transverse mobility is subject to; A b b. 2 a modification of the A in full and partial section b b. 1, the carrier of the friction body designed as a rolling element for the transverse movement is, A b b. 3 - the special arrangement for the rolling movement in plan view towards the roller body axis X -X seen, A b b. 4 the arrangement according to A b b. 3 in plan view in the direction Y perpendicular to this.

In A b b. 1 exercise on the cylindrical inner circumference of the rim 1 of radius r in polishing smoothness, two diametrically opposed friction bodies 2, 2 'with a narrow circumferential extension from their friction generation according to the friction principle of displacement work on their molecular chains. Designed as rods with an approximately semicircular profile, they lie - rotatably about their longitudinal axes parallel to the axis of rotation of the ring 1 going through 0 - embedded in grooves of the same shape at a certain distance from one another on the outer circumference of a friction jaw 6 of a special type, which in turn is embedded in a cutting bearing joint 7 supported on the actuating lever 5, which receives it in a recess S formed on it and has its fulcrum in the cutting bearing 9. At the other end of the actuating lever 5, the piston tappet 10 engages with the force of an oil pressure cylinder 11 'which, with its base plate 21' - with the so-called brake shield or bearing, is to be thought of as rigid in which the shaft carrying the ring 1 is located around the center of rotation 0 in the counterclockwise direction compared to the frictional torque to be exerted on the rim 1 in the case of the brake, while in the case of the friction clutch: the inner parts are not stationary, but clockwise to the frictional torque exerted, which then also revolve clockwise circumferential ring 1 would have to act as a driving force.

If one takes the simplifying case of the brake in the examples Eye, in which the rim 1 representing the brake drum is initially counterclockwise of the direction arrow entered,: then you have it by exclusively in the cutting joint 7 with the operating lever s connected practically torque-free and with the friction bodies 2, 2 'armored jaws 6 - which rotate around point 7 of the ring 1 seeks to turn over - to do with an arrangement in which the piston tappet 10 exerted actuating force always in a statically determined manner by means of the friction body 2 and 2 ', e.g. B. on the cylindrical inner circumference of the ring 1, is supported, d. h. That both the friction body 2 as quasi punctiform in the circumferential point A1 supported as well as the friction body 2 'as quasi point-shaped at point A, supported can be understood between which two force application points A1 and A, the resultant of both appearing in point 7 passes through - that Ensuring balance of the jaw 6, an arrangement that uses a friction clutch or brake can be designed so that it is independent of: the coefficient of friction the friction body acts through vectorial forces shifting by itself adjusts.

But if one grasps in A b b. 1 the opposite direction of rotation of the, brake drum representing wreath 1 into the eye, then the one with its cutting edge 7 also quasi-punctiformly supported jaws 6, which are now on the other side is exposed to the assignment, this is not compared to this in the position shown more balanced and is forced to tip over to the right until he in the one provided for this case on the actuating lever 5 by means of the stop piece 12 Support point 13 finds its abutment, with which the jaw 6 comes into a position in which his friction body 2 is lifted off at point A1 and just be alone Friction body 2 'at point A, can come into play. The so in point 13 on the operating lever n supported and thus robbed of all mobility in relation to this, but after as before the actuating force of the piston tappet 10 transmitting jaws 6 can now only (like any ordinary actuating friction jaws that can be rotated around a support point 9) the role of a carrier for the static determinacy .the contact pressure alone supporting friction body 2 'to play, although the friction generation opposite arbitrariness: leaves the coefficient of friction helplessly faced, but at least still at least the advantage of friction generation in polishing smoothness offers to their fundamental improvement through the principle of transverse movement it is here.

The in A b b. 1 for the design of the transverse mobility of the overall system The measure taken sees the support of the friction jaw 6 with its friction bodies 2 and 2 'in its recess 8 receiving actuating lever 5 in a cutting bearing 9, the cutting edge of which here is not on an oil pressure cylinder 11 'resp. with its mounting block 21 'rigid pedestal, but rather on a z. B. carriage 24 running on balls 20, 23, parallel to the axis of rotation passing through 0 of the ring 1 is easily displaceable. Opposite is: the one in the cutting bearing 9 occurring vertical and horizontal support reaction components on the one hand provided with the balls 22, a shoulder bearing: whose shoulder 20 z. B. with the Brake cylinder 11 'is rigid, and on the other hand with the balls 23 a dovetail bearing, whose fixed half is formed on the actuating block 21 'g-c.

The measures for the easy axial displaceability of the overall system on its friction bodies 2 and 2 'during the sliding process in progress the generation of friction, which, according to physical knowledge, does not have any resistance to movement takes place in the direction perpendicular to this on the sliding surfaces, are in detail can be made so that: that in view of the tremors of the barrel and the vibration processes, as they naturally go hand in hand with the generation of friction maintain: the system will not remain in its place by itself and the transverse movement z. B. by forcing a certain center position of a certain lateral limit requirement. For this, see A b b. 1 shows the arrangement at a support point 25 of the mounting block 21 'attached springs 26 are provided, the ends 27 and 28 of the transverse mobility limit for example by elastic means, whereby in view of: the involved, not inconsiderable masses, the occurrence of oscillation processes even without special assistance appears to be given.

In the example of A b: b. 2 is the same basic friction generation arrangement as in Ab: b.1 with one over: the plunger 10 with the force K, e.g. B. an oil pressure cylinder 11 fastened on a base block 21, pressed-on actuating lever 5, the cutting bearing 9 of which, however, is rigid with the fastening block 21. Furthermore, instead of the friction shoe 6 accommodated in the trough 8, an arrangement is provided here which allows it to be maintained while maintaining its A b b. 1 is transformed into a rolling element with the peculiarity that it is only supported at point A 1 with a single friction body 2, while the support at the other end is simultaneously on two friction bodies 2 "and 2" arranged on a balance beam 14 mounted in the bearing intersection point 16. 'of the same type at points A' and A3 'of the friction ring 1 takes place.

The rolling element friction jaw consists, as in A b b. 3 and 4 especially illustrated, in the elongated central part of the in A b b. 1 illustrated friction shoe 6 right and left of the axis of rotation of the ring 1 going through 0 perpendicular standing center plane each from a web 30 made of spring material of flat, rectangular Profile. Each of these webs 30 is at its upper end with the friction jaws 2 supporting, approximately semicircular channel 22 firmly connected, while the lower ends are each provided with a rolling element head 31 in which they are provided in one on it Slot 33 are also used in a fixed connection.

The roller head 31 has the task of both the cutting bearing 7 as well as for the cutting bearing 16 supporting the Waab beam 14 on both sides of the said central plane each a curved bearing cutting edge 7 'and 16' to form, which at the same time a rolling process for the transverse movement of the friction jaws 2, 2 "and 2" 'on the bearing cutting edges allow themselves, in each case around the central axis 34 of the rectangular profile of the Spring plates 30. This is done in that the cutting edges 7 'and 16' are each strictly are curved in a circle (A b b. 3), the center of which is in the central axis 34 the spring plates 30 lies. This circular curvature is created on both sides the cutting edge 16 'the two conical surfaces 35 and 36 are worked out and on both sides the cutting edge 7 'on the one hand, the conical surface 38 is created while on on the other side, the flat end face 37, which has a strictly circular arching the cutting edge 7 ' creates a counter surface.

The spring plates 30, which: the head 31 with its curved bearing cutting edges connects at one end with the friction body groove 32 at the other end, have the task of to form a torsion spring that at its upper end 32 in the wreath point Al, held under the pressure P, of the friction shoe 2 to a certain extent, the cutting head 31 at its lower end with its two cutting edges 16 'and T : allows a certain elastic rotation about the central axis 34, than -deren Follow the transverse movement relative to the actuating lever 6 not participating in it carries out an elastic twist, which under the particular restlessness, under the this subsystem is, so to speak, at the source of the friction generation process, again an oscillation rolling process for the transverse movement of the friction bodies 2, 2 ", 2" 'is able to deliver under an elastic straightening force for the central position.

The context of the overall arrangement of the A @ b b. 2 are to be chosen so .that the couple of forces, which the torsional moment about the roll axis 34 ultimately to the friction surface of the friction body 2 has to support, in its radial component the at point A1 does not exceed the existing radial pressure component belonging to P ", so that a disturbance of the rubbing process is avoided - and only a wandering of the center of gravity along the line passing through A, parallel to the axis of rotation in 0 The longitudinal axis of the friction body 2 occurs, but not, for example, a longitudinal displacement of forces the scope. In addition, with such control of the rolling process on the rolling element even allow the fact that the rolling elements in their translatory transverse movement have to cover only half of the distance relative to the actuating lever 5, as it arises on the friction bodies 2, 2 "and 2" 'relative to the friction rim 1.

As explained with the force plan with regard to the actual friction-generating process that has remained unaffected, the individual components P2 and P3 arising in the support points A2 and A3 of the friction bodies 2 "and 2"'add up in point S23 to: a partial result P ",." together, which in turn is composed of the component P coming from the friction body 2 in point A: in point S to form the main component P "", on whose automatically adjusting vectorial force shift the friction coefficient independence is based again, as it is for the in Ab 'b . 2 marked. The direction of rotation of the rim is given in the case of a vein brake, which is evidenced by the fact that the result of the total friction generation as the sum of the circumferential forces U1, U2 and U3 arising at the individual friction bodies 2, 2 "and 2"'remains constant.

For the opposite direction of rotation for the case of the brake occurs as in Fig. 1 also the support of the then lifting friction shoe 2 at the point 13 of the stop piece 12 provided on the actuating lever 5, which at the same time also the fixed with the Reibkörperrinne 32 thumb 39 detected that the system of the spring pair 30 compared to a shift from the working position shown in the along the Torsion axis 34 in place when the friction ring 1 rotates clockwise holds, and where to support the torsional moment in now there in appearance Appropriate precautions can be taken when the forces are stepping.

It remains unaffected that the arrangement according to A b b. 2 with the one according to A b b. 1 to be combined in any combination, like all ways for the most varied practical induction of the transverse movement are open, indifferent, whether with or without amalgamation with other functions to the principle of the transverse movement to use as a means to perfect the friction generation in polishing smoothness.

Claims (5)

Claims: 1. Friction clutch or -.brake with in static Determination of the friction bodies supported by the friction ring with a narrow circumferential extent, . characterized in that the friction system wholly or partially opposite the friction rim is arranged to be movable in the axial direction. 2. Friction clutch or brake after Claim 1, characterized in that the transversely movable system compared to the Support reaction forces due to the use of rolling elements (20, 23, 31) easily displaceable is. 3. friction clutch or = brake according to claim 2, characterized in that the cutting (7 ', 16') of one or the other serving to transfer forces in the rolling process several cutting bearings (7,16) are curved. 4. Friction clutch or brake after claims 1 to 3, characterized in that springs (26, 30) are provided, in relation to their elastic straightening force, the transverse displacement in whole or in part he follows. 5. Friction clutch or brake according to claim 4, characterized in that that the mass and directional force of the transversely movable system are those from: the driver vibrations and the vibrations in the process of generating friction - the mechanical ones Pulses for an oscillating movement are provided.