SU51999A1 - Belt drive - Google Patents

Description

The invention relates to belt drives with several parallel operating belts and with tapered discs that form pulleys along an axis, which are connected to two soils by means of separate rods for even and odd disks.

Creating a successful design of the drive mechanism, which would make it possible on the move, not to stop the machine, and smoothly, without gears, change the gear ratio (speed), is of great importance in general engineering.

Particularly in need of such mechanisms are machine-tool and textile machinery. In the latter, the use of such mechanisms as speed controllers increases the performance of spinning and torsion gauges by 5–8%.

All existing and known mechanisms for smoothly varying the speed of a V-belt (Texron) have their drawbacks.

One of the modern mechanisms for changing the speed is the mechanism manufactured by the American company Allis Chalmers. Two points should be attributed to the essential disadvantage of this construction: 1) when, as the tapered discs are moved apart and shifted, the V-belts violate the position of their center line; 2) when all the axial pressure transmitted from the tension of the V-belts is transmitted to the bearing, thereby creating additional energy consumption.

The proposed belt belt for changing the speed completely eliminates the first drawback and significantly reduces the second.

In the first case, this is achieved by the fact that conical even disks connected by three rods in one group and odd disks connected by rods to another group are moved apart and shifted simultaneously and evenly to both sides from the center line of the V-belt to be rotated a three-arm lever that interacts with transmission controls. In the second case, this is achieved by the fact that the tension from the tension of the V-belts is transmitted not directly, but through a wedge-lever mechanism, as a result of which a large axial force remains on the walls of the rotating sleeve, which is the body of the sliding pulley itself, and only a small part -forces are transmitted to jnopHO-briced bearings.

In FIG. 1 shows a longitudinal section of a belt drive, and FIG. 2 is a section along the line AB of FIG. one.

At the end of the drive shaft 7, the engine sits on a key bushing 2. In vzlka 2 on the hinge 3 a three-arm rotary lever 4 is placed, the transmission control element is a wedge-shaped core 5, equipped with an end surface inclined to the axis of the shaft, and 6 and 7 sliding treads and pushing the conical discs 8 and 9 apart. Tgb and 7, besides the assignment to move the discs, still function as movable keys connecting the sleeve 2 with the discs 8 and 9. The conical discs 8 and 9 are fastened together by six rod bushings mi 0 and 7 /. In this case, the disks 8 sit tightly on the three bushings-rods x / O, and the disks 9-on three vzlohkazhn x 7 /. The conical discs 8, which are integral with the bushings-rods 10, are moved to the right with the help of t-6 and shifted to the left during shifting. The disks I, which are integral with the bushings by the rods 77, are moved in the opposite direction with respect to and to the disks 8 by means of the cable 7 during the displacement and expansion.

The disks are moved and moved apart with the help of a nut / 2, which, being seated on a thread in the lid of the support bracket 75, when rotated by hand, mixes along the axis, and backwards move through thrust ball bearings to the wedge-shaped core 5 The core 5 acts on the axially directed shoulder of the three-arm lever 4, while the latter with two diametrically opposite shoulders at its turn moves the t-balls b and 7 and moves the disks through the hubs rods 10 and 77 5 and I changed the position

wedge-shaped belts diameter pulley.

Changing the diameter of one (lead; it or slave) of the pulleys entails the need to change the distance between the centers of the shafts. The distance between the centers is changed with the help of an additional device in the form of an asterisk / 5, a chain of Gaul / b, a second sprocket 77, a roller gear J8, a gear 19, a roller 20 and a batten 27 located on the fixed housing of the foundation plate 22. The engine is placed on a movable plate 23.

The movement of the engine, and consequently, the sliding pin relative to the driven shaft, is clear from the drawing and does not require an explanation.

The tension of the belts when they are pulled out is carried out by the friction fit of the sprocket 77 on the roller gear 18.

The subject matter of the invention.

Claims (2)

1. A wraparound transmission with several parallel operating belts and with cone pulleys that form sliding pulleys along their axis, connected into two groups by means of separate rods for even and odd discs, characterized in that a swivel three blade arm located inside shaft and interacting with two diametrically opposite and radially directed shoulders with the rods of both groups of disks, to ensure the position of the middle plane of the belts, and the third shoulder from interaction with the transmission control authority. 2. The form of transmission performance under item 1, characterized in that the transmission control body is implemented in the form of a core, arbitrarily rearranged inside the shaft along the axis of the latter and provided with an end surface inclined to this axis that interacts with the triple arm, pressure on the thrust bearing.