SU657206A1 - Variable working diameter pulley with centrifugal governor - Google Patents

Claims (2)

The losses are due to the fact that the centrifugal weights are rigidly fastened to the cams and the latter do not have their own tangential inertia HOSTOMV. The purpose of the invention is to increase the compression of the belt due to the use of tangential forces of inertia that are opposed to the weights of the weights and cams. This goal is achieved by the fact that a pressure disk is mounted on the axis of the pulley with the possibility of rotation relative to it under the action of centrifugal weights, moving the movable cone in the middle of the cams with a screw surface on the disk. FIG. Figure 1 shows a pulley, cut through, passing through its axis and the axes of the guides of the movable cone; in fig. 2 is a view B in FIG. 1 at the point of contact of the cam disc and. protrusion shchiva; in fig. 3 shows section A-A in FIG. 1, with a local tear to show the bearing disc; ar in FIG. 4 shows a section B-B in FIG. 3. .. The pulley consists of a cone 1, rigidly connected to the axis 2, having a centering hole 3 and a threaded section 4 for fastening the pulley on the drive-shaft of the device. The movable cone 5 with the guides 6 fixed in it can move along axis 2 and compress the belt 7, which, with a fixed bolt, lies on the sleeve 8, which rotates freely on the mandrel 9, inside which the spring 10 rests, abutting with its second end the bottom of the slot 11 of the movable cone 5. The slot 12 serves to place the sleeves 8 in it when the cones 1 and 5 approach each other. The guides b can move freely in the holes of the support plate 13 having spline 14 and axle 2 with a bolt 15 and by the shoulder 16. The pressure plate 17 rotates freely with on a radial-footed support 18. The disk 17 is protected from axial displacement by the sleeve 19. The cams 20 of the disk D7 with its screw surface) 21 interact with the protrusions 22 of the movable: taper-.5 through an anti-friction lining 23 fixed in the protrusion 22, The centrifugal weights 2.4. Are pumped by none of the guides 6. The weigher consists of sleeve 25, shears 26, spacer sleeve 27, pressure roller 28 and axle 29 with a weight of 30, which serves to adjust the inertia force of the weights 24, the details of the weight, except for se roller 28 rotating on sleeve 27 are rigidly fastened between the wallpaper. The weights 25 of the weights are placed in the grooves 31 of the disk 17, and the pressure rollers 28 roll along the walls of the grooves 32, ensuring the rotation of the disk 17. The regulator mechanism is closed by a casing 33 inserted into the annular groove of the cone 5 and attached to the ends of the guides 6 by screws 34, the Pulley works in the following way. When the pulley is rotated in the direction indicated by the arrow in FIG. 3, the weights 24 begin to turn on the guides 6 under the action of centrifugal inertia forces. The rollers 28 of the weights 24 are pressed against the wall of the groove 32 of the disk 17 and cause it to rotate on the bearing 18 in the direction indicated by the arrow in FIG. 2. The rotation of the disk 17 causes the screw surface .21 of the cams 2O to slide on the anti-friction lining 23 of the protrusion 22 of the movable cone 5 and thereby moves the coring to the cone 1, compressing the belt 7 and transferring it to a larger diameter. The spring 10 at the same time is compressed, and when the chiol speed is reduced, the pulley returns the regulator mechanism. To its original position. When the pulley rotates with angular acceleration coinciding in direction with the angular velocity, weights 24 due to their location: their center of gravity is outside the line connecting the axes of the guides 6. and the axes 29 of the adjustable masses of the DA have an additional moment from the tangential - the forces of inertia. In addition, the angular acceleration in this case also forces the disk 17, due to its inertia and freedom of rotation on the bearing 18, to create additional pressure by the cams 2 O on the outlets 22 of the cone 5. Thus, during accelerated rotation, an additional compression of the belt occurs. In the case of a slower rotation of the pulley, additional forces from the tangential component of the inertia force of the weights 24 and. the inertia of the disk 17 changes the direction of & iaa opposite and folds down with the force of the return spring 1O, providing a faster decrease in the compression of the belt 7 and a correspondingly faster holding it to a smaller diameter. The technical and economic advantages of the pulley compared with the known structures consist in increasing the durability of the belt and reducing the dynamic characteristics of the vehicles for which it is mainly intended. Formula of the invention: Pulley with variable working diameter with centrifugal regulator, for V-belt variants, containing fixed axially movable cones, the latter of which is provided with projections with anti-friction linings, and axially moving the movable cone, centrifugal loads, whose swing axes are located , I-lch tlkh j - NY parallel to the axis of the pulley, about tl and h a yu-. y, y, n  / GT / TMH / XЧVЧЧЧЧ В Ч VVч Я У i S VOY ВVВЧ WU ///////, 6 / and f77 / X I- 9U2.1 And 6 so that, in order to increase belt compression by using tangential components of the inertia forces of the rotating masses, on the pulley axis is installed with the possibility of rotation relative to it under the action of centrifugal weights, the pressure disk moving the moving cone through the cams on the disk with screw surface. Sources of information taken into account in the examination 1. US patent No. 3.868.862,, 74-230.17, 1975. 2. German patent No. 155О899, ifc, 1 la 1 (jni. Ff 1 JT; X vJ CL 47 H 11/06, 1971.   . .  ., .- ,, f ... 4: - - 657206 L 2f /  25 Ri2L