FR2462610A1 - Rotary drive motion coupling - has pivotal weights which move under centrifugal force, against spring action, to alter angular position of rotary components - Google Patents

Abstract

The drive coupling comprises first and second components, one of which carries pins (17) off-set from, but parallel to, the axis of rotation of the coupling. The pins carry weights (18) which are coupled to the other component by further pins (19) carrying abutments (20) engaged in slots (21) in the weights. The weights are biassed against outward movement by leaf springs (22) which are located against curved outer surfaces of the weights. The end of the springs engage an annular part which is a skirt portion of the other component and the springs have ears (24) intermediate their ends which locate in slots (25) formed in the side faces of the weights.

Description

MOTION TRANSMISSION COUPLING
ROTATION BETWEEN TWO ROTATING ELEMENTS.

 The present invention relates to couplings intended to transmit a rotational movement between two rotary elements, this coupling comprising a pivoting mass which, under the effect of a variable centrifugal force, moves against the action of 'a spring, to modify the relative angular position of these elements.

 Such couplings find application in the transmission between an element driven by a motor (for example, a shaft) and the control shaft of a fuel injection pump. In such a case, the coupling has the role of regulating the supply of fuel by the pump as a function of variations in the driving speed of this pump.

 According to an embodiment of known type, the coupling comprises a first part carrying two pins whose geometric axes are located at a certain distance from the axis of rotation of the device and are parallel to this latter axis. These pins each carry a mass whose center of gravity is offset relative to the axis of the corresponding pin. I1 is provided a second part which carries two other pins, these pins carrying slides which engage in slots made in each of the masses. The geometric axes of these two other pins are offset from the geometric axes of the first pair of pins, so that, when the masses are driven outwards, there is a relative angular movement between these two parts. around the geometrical axis of the device. The masses carry leaf springs which oppose their displacement towards the outside.

These springs are of curved shape and each of them is interposed between the corresponding mass the inner face of a part of annular shape which surrounds this mass and which is part of one of the two parts or is connected to it.

 It is common practice to fix, for example using bolts, one end of the spring to the corresponding mass. This forces the mass to be machined to form a flat surface intended to receive the end of the spring. The value of this mass is therefore reduced and, in addition, the effective length of this spring is also reduced, because only the part of this spring which is beyond the machined face can play the role of spring. In addition, during use, the spring is subjected to high stresses in the area of said surface.

 The invention relates to a coupling of the type indicated above, having a simple and convenient shape.

 More specifically, the invention relates to a coupling of the type indicated above, characterized in that it comprises a first part carrying a pin, said pin being located at a certain distance from the axis of rotation of this coupling and parallel to this axis, a mass pivotally mounted on said pin and whose center of gravity is offset with respect thereto, a second part separated from said first part by this mass, a stop located on this second part is housed in a slot made in said mass, an annular part surrounding this mass and a leaf spring, of curved shape, having its ends applied against the interior surface of this annular part, said leaf spring having, between its ends, two ears housed in slots made in the lateral faces of the mass, the face of this mass which is turned towards the internal face of said part being curved, this curved face d e the mass and the internal surface of said part having a radius of curvature smaller than that of the spring, the assembly being such that, as the rotational speed of the coupling increases, the mass is entrained towards the outside against the action of the spring by modifying the relative angular adjustment of said first part and said second part, the radius of curvature of this spring decreasing as this mass moves outward.

 Other characteristics and advantages of the invention will emerge from the description which follows, given with reference to the appended drawings and giving, by way of explanation but in no way limiting, an embodiment.

On these drawings
- Lq Figure 1 is a side view of the coupling
according to the invention, in section along line BB of the
Figure 2
- Figure 2 is an elevational view of this coupling
according to the invention, and
- Figure 3 is a partial section, larger
scale, made along line CC in Figure 2.

 This coupling comprises a first part 10 comprising a projecting part 11 and a flange 12 which is integral therewith. This flange and this protuberance each have a shaped bore, making it possible to subject the part 10 to the control shaft of a fuel injection pump. A second part 13 is provided, having roughly a cut-out shape, the base wall of which has at its center, an opening for the passage of the projecting part 11. In addition, this part 13 comprises a flange 14 directed outwards , used to fix it to a part driven by a motor corresponding, for example, to a gear wheel. The two parts 10 and 13 can rotate relative to each other around the axis of rotation of the device , these two parts being kept assembled to each other using washers mounted on the projecting part 11 and retained using a circular stop ring 16.

 The rim 12 carries two pins 17, the geometric axes of which are parallel to the axis of rotation of the device, these pins being offset with respect to the axis of rotation of the device and diametrically opposite with respect to this axis.

Each pin carries a mass 18 of curved shape. The centers of gravity of the masses are offset with respect to the pins 17 and each of these masses advantageously comprises a bearing sleeve surrounding the corresponding pin 17.

 The base wall of the part 13 carries another pair of pins 19, each of which carries a stop 20, of square shape, housed in a slot 21 formed in the corresponding mass in the vicinity of its pivot axis.

 While the masses move outward under the action of centrifugal force, the parts 10 and 13 rotate relative to each other around the axis of rotation of the device, which ensures the adjustment fuel supply by the injection pump.

 The movement of each mass in the direction of the outside is opposed by a spring (Fig. 2), these two springs, designated by the reference 22 being leaf springs housed in the annular space comprised between the curved outer surface of the corresponding mass 18 and the inner face of a skirt 23 carried by the part 13.

 The springs 22 have a radius of curvature greater than the radius of the curved bure of the external surface of the masses 18 and of the internal surface of the skirt 23 of the part 13. The free ends of these springs press against the internal face of the skirt 23 , and they are applied by their median zones against the curved faces of the masses 18. These springs are held in place with respect to the masses by means of two ears 24 (fig. 3) which protrude from the curved springs and come lodge in recesses 25 made in the lateral faces of the masses. These holding means make it possible to dig into the masses only the minimum quantity of material necessary to ensure the retention of the springs and, on the other hand, the springs do not include recesses for attaching parts associated with the masses nor area of significant constraints.

 As the masses move towards the outside, there is a variation in the curvature of the springs and, consequently, a slight relative displacement between the ends of each spring and the inner face of the skirt 23 of the Exhibit 13.

 According to a preferred form of the invention, the annular skirt 23 is constituted by a part forming an integral part of the second part 13.

Claims (2)

1. Coupling for transmitting the rotational movement between two rotary elements, characterized in that it comprises a first part 10 carrying two pins 17 located at a certain distance from the axis of rotation of the coupling and parallel to this axis , two masses 18 pivotally mounted each on a pin 17 and whose center of gravity is offset from them, a second part 13 separated from the first part 10, the masses being housed between Ces. two parts, two stops 20 associated with this second part 13 and each housed in a slot 21 formed in the mass 18, an annular skirt 23 surrounding the masses 18 and a pair of leaf springs 22, of curved shape, having their ends applied against the inner surface of the skirt 23, the leaf springs 22 each having two ears 24 each housed in a slot 25 formed in the lateral face of the mass, the face of this mass facing the interior face of the skirt 23 being curved , this curved face of the mass and the internal surface of the skirt having a radius of curvature smaller than that of the spring 22, by this assembly, as the rotation speed of the coupling increases, the masses 18 being entat- born on the outside against the action of the springs 22 by modifying the relative angular adjustment of the first part 10 and of the second part 13 and the radius of curvature of these springs decreasing as the masses 18 d move outward.  2. Coupling according to claim 1, characterized in that the annular skirt 23 is constituted by a part forming an integral part of the second part 13.