SU571644A1 - Friction-type variable speed gearing - Google Patents

Description

one

The invention relates to transmissions of a grenious rotational message message to multi-gear transmissions with a stepless modified gear ratio.

Known friction variator speeds 5 comprising a housing installed in it parallel to one another spring-loaded; in the axial direction of the input and output shafts, mounted on them; conical clutches, a roller placed between Frictio ™} 0 by us and an interacting one installed with the possibility of moving along the generator of the friction clutch and around its axis, and an actuator for moving the roller. However, a small range of control zones and the absence of automatic control of its operation are noted.

In order to expand the range of adjustment of the dynamic loaded in one of the 2S frictions, a cavity is made on the end face, and the variator is equipped with two debalais placed in the cavity symmetrically relative to the longitudinal axis of the friction clutch, one of which can be rotated in 25

friction axle circle, and pressure device, up to multimode with movable deceleration

In addition, the variator is equipped with an additional actuator with a rod located on the housing, and the pressure device is implemented in the form of a half-slide moving around the axis of the same friction clutch, which is harnessed to the rod of the additional actuator.

FIG. 1 shows the proposed frictional | variable speed, a general view; in fig. 2 -. section A-A of FIG. one; in fig. 3 is a sectional view of FIG. one,

In the case of the speed variator 1, the input and output shafts 2 and 3 are installed parallel to each other. Conical friction clutches 4 to 5 are located on them, respectively. Roller 6 is placed between clutches 4 and 5, and an actuator is installed on case 1. 7 roller movement 6.

The friction clutch 4 from the end face contains a cavity in which mobile and stationary unbalances 9 and MO are placed. The movable imbalance 9 has a sloping highlander and its turn is limited by a stopper 11. On the shaft 2

The pressure device 12 is set up to change the position of the mobile unbalance 9 around the axis of the shawl 2. The pressure control drive i2 is accomplished by complementing H1e1m using the I 3-3 load mechanism, hinged hingely connected with the speed control 112.

The rotational speed of the shaft 3 is changed by changing the position of the roller 6. The creation of a disturbing force is made by turning the mobile unbalance 9 B in the projection, pro- cessing the rotation of the shaft 3 to bring it closer to the unbalancing debalis 10.

The stationary unbalance is unfolding during the interaction of the elements of the pressing device with the beveled thorium surface of the mobile unbalance 9, On the opposite side, the forward AN 9 moves under the action of SyS Invai, As the executing mechanisms use, for example, electromechanisms,

Claims (2)

Invention Formula 1. The friction speed variator, containing a housing, mounting it parallel to one another in the SOM axis of the directions of the input and output channels installed on them by conical rims, a roller placed on the megacle frictions and a pivotal HHMHf set by the first with the ability to move along the forming clutch and around its axis, and an actuator for moving the roller, characterized in that, in order to expand the range of dynamic load control, in one of the frictions there is a side cavity torus a, and the variator is equipped with two unbalances placed in the cavity symmetrically with respect to the longitudinal axis of the 4/5 pulses, one of which is installed with the possibility of rotation around the axis of the clutch and olive with a device that interacts with a moving de balance. 2. A variator for and, 1, of tl and h and so that it is equipped with an M located on the body with an additional executive m & with a rod with a rod, and the device is made in the form of a movable around the axis of the same friction piece of coupling that is pivotally connected to the rod of an additional actuator. Sources of information taken into account in the examination: 1, Kozhevnikov, S. N. and others. Mechanisms. M., Mashinostroenie, 1965, 411, RNS. 5, 69,