SU1698553A1 - Infinitely-variable v-belt transmission - Google Patents

Abstract

A V-belt pulley assembly comprises two pulley halves (6, 8) for a continuously variable V-belt transmission in which the pulley halves are pressed against the belt in dependence on torque and gearing. A respective presser ring (14, 15) is associated with each of the pulley halves (6, 8) and is connected to that pulley half to be fixed in axial direction and rotatable. The two rings (14, 15) are articulatedly connected together by way of two or more tie rods (16). Two entraining pins (17, 18), which are fastened rigidly and parallelly to an input shaft (1) of the assembly, are arranged at each of the rings. Elongate openings (19, 20) with abutment surfaces at both ends for the free end portions of the entraining pins are arranged in regions of the pulley halves opposite the pins. The arrangement allows the rods (16) to generate a force on the belt in both directions of rotation. <IMAGE>

Description

The invention relates to mechanical engineering and can be used as an element of various machines and mechanisms, in particular for driving the running gear of self-propelled agricultural machines.

Known infantile adjustable V-belt transmission, containing mounted on the shaft movable in the axial direction and the stationary half of the pulley, which are connected by at least two rigid traction rods (Pat. GDR No. 103785. CL. F 16 H 7/09, 1976),

A disadvantage of the known transmission is that the pressure device, including rigid traction rods, operates only with one direction of rotation of the drive, and when rotated in the opposite direction, half of the pulleys operate only with a compression spring with a relatively weak force. As a consequence, the slippage of the belt is possible, which reduces the wear resistance and, consequently, the durability of the transmission.

The purpose of the invention is to increase durability by increasing wear resistance.

Figure 1 shows the drive pulley of a continuously variable, adjustable wedge-belt transmission, general view; figure 2 - section aa in figure 1; Fig. 3 shows the position of the pulley elements under the action of a load, the direction of which coincides with the direction of the torque, with a small distance between the pulley halves; Fig. 4 is the same, with a large distance between the pulley halves; Fig. 5 shows the position of the elements under the action of a load at the opposite direction of the torque with a small distance between the pulley halves; Figure 6 is the same, with a large distance between the pulley halves.

The stepless adjustable V-belt transmission contains a guide sleeve 2 mounted on the input shaft 1 of the cogging mechanism of the chassis of the self-propelled agricultural machine, which is connected to the clutch plate 4 with screws 3. On the clutch disc 4, on one side, the switchable dry clutch 5 is reinforced, and on the other side, by means of screws 7, half 6 of the pulley is fixed axially. The axially movable half of the pulley 8 has a hub 9 located on the guide hub 2. The axial force is created by a splined disc spring 10, which rests on the disk 11 screwed on the guide sleeve 2 and is connected to the axially movable half 8 of the pulley bearing ring 12. The pulley halves are covered by a wide V-belt 13 and are connected by at least two rigid traction rods 16. The transmission is equipped with two clamping rings 14, 15, each of which is set to a different stvuyuschey half pulley and recorded by

0 axial displacement relative to the latter, One clamping ring 14 is located between the clutch disc 4 and the axially fixed half 6 of the pulley 7 and is centered on the hub 9. The second clamping ring 15 is located between the half 8 of the pulley and the cup spring 10 and is also centered on the hub 9 In the clamping rings 14,15 are placed spherical hinges, which are fixed

0 rigid traction rods 16, mounted obliquely relative to the axis of the input shaft 1. Parallel to the latter, at least two driver pins 17, 18 are installed, each of which is fixed at one end

5 in the corresponding pressure ring, and in the areas of the pulley half opposite to the driving fingers, oval holes 19 are made 19. 20 having thrust surfaces 21-24 on both sides to interact with

0 other ends of the leash fingers.

Each two carrier finger of both clamping rings 14, 15 can be placed in one pair of oval holes. In addition, both clamping rings can be made identical.

Both ends of each rigid rod 16 may have a thread on which spherical hinges consisting of balls 26, 27 and liners 28, 29 are screwed.

0 placed in the stepped holes 30 of the clamping rings 14, 15. To lock the balls 26, 27, nuts 31 serve. The stop ring 25 secures the clamping ring 15 against axial movement. For rigid

The 5 tons of pivot rods 16B of the half-sheave pulley have oval holes 32, 33. The radii of curvature of the thrust surfaces 21-24 and of the driver pins 17, 18 are the same.

An inferior, regulated V-transmission operates as follows.

The rotation is transmitted from the driving pulley to the driven by means of a wide V-belt 13. Tensioned with

5 using the disc spring 10, a wide V-belt 13 transmits driving force to both halves 6, 8 of the pulley. A part of the force is transmitted from the pulley half 6, which is fixed axially, through the clutch disc 4 and the dry clutch 5 to the input shaft 1 of the switching mechanism. The other part of the force is transmitted to the input shaft 1 by rotating the axially movable half of the pulley 8, which through the driving fingers 17, 18 drives the pressure ring 15, and through the rigid pull rods 16, the pressure ring 14 until the latter it is not upturned by means of the leash fingers 17 to the half of the pulley stationary in the axial position half of the pulley. In this case, the lead pins 17 abut on the abutment surfaces 21, and the cap pins 18 on the abutment surfaces 24.

The rigid pull rods 16 arranged obliquely are arranged in such a way that, depending on their angular position and the distance from the axis of the input shaft 1, an additional axial force proportional to the torque is created on the edges of the wide /, V-belt 13. When adjusting the V-belt transmission, the angular position and the radial distance of the rigid traction rods 16 from the axis of the input shaft 1 also change. As a result, a different ratio of additional axial force and torque is established. This ratio can be adjusted by varying the length and position of the rigid pull rods 16.

In the case of the opposite direction of the driving force (slowing down the speed of movement, movement on an inclined surface), half of the pulley 8 in the axial direction is movable through the driving fingers 17, 18 and the pressing ring 14 moves and through the rigid pulling rods 16 pressing ring 15 until that moment until it is pushed by the driver pins 18 into the half-motionless half of the pulley. In this case, the lead pins 17 abut on the stubborn surfaces 23, and the lead pins 18 on the stubborn surfaces 22.

It is recognized as an invention according to the results of the examination carried out by the Office for the Invention of the German Democratic Republic.

Claims (4)

Claims 1. A stepless adjustable wedge drive comprising axially movable axially mounted and fixed pulley halves mounted on a shaft, which are connected by at least two rigid traction rods, characterized in that in order to increase durability by increasing wear resistance The transmission is equipped with two clamping rings, each of which is mounted on the corresponding half of the pulley and fixed against axial displacement relative to the latter, placed in the clamping brackets. There are ball joints, in which rigid traction rods are fixed, at least two parallel to the shaft with the lead pins, each of which is fixed at one end in the corresponding pressure ring, and in the opposite half of the pulleys of the pulley halves are made on both sides resistant surfaces for engaging with the other ends of the driver fingers. " 2. Transfer of pop. 1, excluding the fact that every two carrier fingers of both clamping rings are placed in one pair of oval holes. 3. Transmission according to claim 1, differing in that both clamping rings are identical. 4. Transmission according to claim 1, which is based on the fact that both ends of each rigid traction rod have a thread on which spherical hinges are screwed. a f 14 eleven w 15 23 20 m 14 2 / / III P 18 19 2232 16 26 ®U2.3 11 33 tf F 20 M I 21 2 33/5 22 32 FI I 18 26 17 W 2Ts 27 3; 23V V // Y) Y //; F 91 f nineteen 9 M.Tsitkina 18 21 32 Fa 6 Compiled by S.Taratukhin Tehred M. Morgenthal 15 eight 18 l 22 32 iS $ 1 / 8.5  W 27 33 7 / -J1i X A  21 32 , 76 Proofreader N. Revska