DE3605181C1 - Link belt for continuously variable cone-pulley transmissions - Google Patents

Abstract

The invention relates to a link belt for continuously variable cone-pulley transmissions, the said belt comprising a multiplicity of trapezoidal plate elements which follow one another closely and, in the region of their narrower trapezium base, are provided with an oblique flat and are held together in contact with one another by tensile elements to form an endless drive belt. A multiplicity of joint pins extending in the direction of tension of the drive belt, arranged midway up the trapezium and in each case connecting two adjacent plate elements are arranged pairwise as tensile elements, the pairs of joint pins being arranged alternately on the inside and on the outside of successive plate elements, the contact surface (21) satisfies a convex cosine function at the transition from the zero line (M1-M2) to the flat (24). <IMAGE>

Description

The invention relates to a link belt for infinitely variable Conical pulley belt transmission in the preamble of the claim shown type.

DE-PS 24 41 569 and EP-PS 00 14 492 are link belts known for continuously variable conical pulley belt transmission, that of a multitude of closely sequential, trapezoidal Slab members exist in the area of their narrower trapezoidal base are flattened and touching each other via pulling elements to form an endless Drive train are held together.

As traction elements are laterally in the slots of the trapezoidal Panel links or in the middle recesses of the trapezoidal panel links arranged steel strips provided.

These known link belts have the disadvantage that they only as Push link belts with the necessary higher contact forces can be designed between conical pulleys and link belt and that the endless steel strips, especially in their multi-layer Arrangement are difficult to control in tolerance. Because of irregular Frictional contact between the trapezoidal plate members and these extensive, endless steel strips come at an early stage Wear and failure of the entire link belt.

Through the main application, German patent application P 35 33 778.8-12, is already a link belt for continuously variable conical pulley belt drives has been proposed from a variety of closely consecutive, trapezoidal plate members that are in slight Distance or at an angle in the area of their narrower trapezoidal base flattened shape touching each other via tensile elements to an endless  Drivetrain are held together, with a variety of tension elements of extending in the pulling direction of the drive train on the Two adjacent plate sections are arranged in the middle of the trapezoidal height connecting paired hinge pins are arranged, the Alternating pairs of hinge pins on successive plate links are arranged inside and outside.

Embodiments have been shown in the figures of the main application explained with trapezoidal plate members lying at a short distance.

However, an embodiment of the link belt with is particularly advantageous mutually touching trapezoidal plate members, because at these disturbing load peaks and fluctuations in tensile force Noise developments can be avoided, which is thus due to the Lifting and replacing the bolt heads in their contact surfaces would arise.

The object of the invention is a link belt according to the main application continue to be designed in such a way that by the close to each other Arrangement of trapezoidal plate links the advantage of a quiet running behavior as can be achieved with so-called push belts, although the link belt according to the invention is a tension belt acts.

According to the invention, this object is achieved by a link belt according to the preamble of the claim or according to the main application the measures indicated in the characterizing part of the claim having.

In that the two adjacent plate members connecting in pairs Articulated bolts are mounted under slight prestress and the adjoin adjacent slab links over a convex curved surface, becomes a particularly quiet belt run while avoiding disruptive Force peaks and noise in the event of fluctuations in tractive force achieved.  

The invention is illustrated by one in the drawings Embodiment explained in more detail. It shows

Fig. 1 is a view of a trapezoidal plate member of a split at one point link belt according to the invention,

Fig. 2 is a side view of a part of the link belt according to Fig. 1 in partial sectional view,

Fig. 3 is a plan view of a part of the link belt according to Fig. 1 in partial sectional view,

Fig. 4 is a greatly enlarged view of two adjacent plate links with stretched link belt and

Fig. 5 is an enlarged view of two adjacent plate links with a curved link belt.

As can be seen from FIGS. 1 to 3, a link belt according to the invention consists of a plurality of successive different trapezoidal plate members 1 and 1 ' , which touch each other and which are flattened in a known manner on their narrower trapezoidal base to enable bending are and which are successively connected to each other via a pair of hinge pins 2 and 3 .

As can be seen in particular from Fig. 4, the trapezoidal plate members 1 and 1 ' for this lying on the center of the trapezoidal height four holes 4 and 5 arranged at the same distance, each of which an inner pair with ball socket surfaces 6 lying to one side or 7 and an outer pair with ball socket surfaces 8 and 9 lying on the other side.

The hinge pins 2 and 3 consist of a head 11 , a shaft 12 and a foot 13 . The surfaces directed towards the shaft 12 of the head 11 and the foot 13 here have spherical cap surfaces which cooperate in an articulated manner with the corresponding ball socket surfaces in the trapezoidal plate members 1 and 1 ' .

The plate members 1 and 1 ' are provided from their neutral line towards their narrower trapezoidal base with an oblique flattening 24 .

As highlighted in particular in Fig. 4 by the interacting surfaces 20 on the plate member 1 and 21 on the plate member 1 ' , the transition to the flattened portion 24 must be carried out in a certain manner that when the band is bent, the individual members can roll on one another in such a way that the distance between associated spherical cap surfaces remains unchanged equal to the distance between the bolt heads from one another, thus preventing both the lifting of the links from one another and deformation.

As will be explained in particular in connection with FIG. 5, the contact surface 21 must fulfill a certain function here, since the contact surface 20 is basically a flat surface.

As shown in Figs. 4 and 5 drawn, the centers of the corresponding Kugelkalottenflächen are designated a hinge pin with 2 M 1 and M 2. The tilt angle between two adjacent plate members 1 and 1 ' is indicated by ϕ . The distance from M 1 to M 2 is denoted by t . As can be clearly deduced from FIG. 5, the curvature of the contact surface 21 is subject to the requirement where the variable S 1 is the respective vertical distance from the center M 1 on the contact surface 20 and thus simultaneously on the tangent of the curvature curve 21 at the point of contact between 20 and 21 and S 2 is the respective vertical distance to the center M 2 . The contact surface 21 must therefore function meet, which results in a certain curvature with which the contact surface 21 must be carried out in order to avoid stress peaks and canting when tilting two adjacent plate members.

Claims (6)

1. Link belt for continuously variable conical pulley belt transmission, made of a large number of closely sequential, trapezoidal plate links, which are flattened obliquely in the area of their narrower trapezoidal base and held together in contact with each other via tension elements to form an endless drive train, with a variety of tension elements in the direction of tension Drivetrain extending in the middle of the trapezoidal height, each connecting two adjacent plate members are arranged in pairs, the pairs of joint pins on successive plate members are arranged alternately inside and outside, according to patent. . . (Patent application P 35 33 778.8-12), characterized in that the two adjacent plate members ( 1 and 1 ' ) connecting paired hinge pins ( 2 and 3 ) are mounted under slight prestress and the adjacent plate members ( 1 and 1' ) when the Continuously rolling in contact with each other over a convex curved surface ( 21 ). 2. Link belt according to claim 1, characterized in that the convex curved surface ( 21 ) has the function met, whereby S 1 . . . the distance of the cam surface ( 21 ) from the center (M 1 ), t . . . the distance between the center points M 1 - M 2 of the spherical surfaces of a hinge pin ( 2 ), ϕ . . . the tilt angle between two adjacent plate members ( 1 and 1 ′ ), S 2 . . . the distance of the flat surface ( 20 ) from the center (M 2 ) of the spherical surface of the hinge pin ( 2 )
is.