RU51149U1 - FLEXIBLE TIGHTENER - Google Patents

Abstract

Technical result: Ensuring the invariance of the position of the fulcrum on the supporting surface of the rotary bearing element during operation of the mechanism with this tensioner. The essence of the utility model: The tensioner transmission device with a flexible connection contains a rotary bearing element 1 with a concave supporting platform 4, designed to interact with the tensioner pusher, and a guide sprocket 2 mounted on the rotary bearing element with the possibility of rotation. The support area of the rotary element may be part of the surface of the sphere or ellipsoid, and the position of the fulcrum on the support area may coincide with the position of the largest recess of the surface.

Description

The utility model relates to mechanical engineering and can be used in devices of hydraulic tensioners of belts or chains, for example, in distribution systems of internal combustion engines.

It is known a flexible communication transmission device comprising a rotatable bearing element with a support platform and a guide double-sprocket sprocket mounted on the rotary bearing element with the possibility of rotation. The rotary bearing element is made C-shaped and covering the sprocket. In this case, the rotary bearing element is provided with an oil supply channel to the axis of the guide sprocket, which is mounted on the axis of the rotary bearing element with a sliding bearing. The distance between the axes of rotation of the guide sprocket and the rotary bearing element, the coordinates of the pivot point and the angle between the tangent to the bearing platform and the longitudinal axis of the rotary bearing element are specified using empirical coefficients (see certificate for utility model of the Russian Federation No. 15924 according to class F 16 H 7 / 08 decl. 08/14/2000, publ. 11/20/2000 "Tension device transmission flexible communication").

The disadvantage of this device is the inability to ensure during operation of the mechanism with this tensioner the constancy of the position of the fulcrum, i.e. touch points of the tensioner pusher with the supporting platform of the rotary bearing element, which reduces the compensating ability of the tensioner.

The closest in technical essence, the achieved result and selected as a prototype is a flexible communication transmission tension device containing a rotary bearing element with a support platform and a guide double-sprocket mounted on a rotary bearing element with the possibility

rotation. The rotary bearing element is L-shaped, and the guide sprocket is mounted on the axis of the rotary bearing element with a rolling bearing. The distance between the rotation axes of the guide sprocket and the rotary bearing element, the coordinates of the fulcrum and the angle between the tangent to the bearing platform and the longitudinal axis of the rotary bearing element are specified using empirical coefficients (see certificate for utility model of the Russian Federation No. 29975 according to class F 16 H 7 / 08 declared 18.02.2003, published 10.06.2003 “Tension device for transmission by flexible connection”).

The disadvantage of the prototype, as well as the aforementioned analogue, is the inability to ensure during operation of the mechanism with this tensioner the constancy of the position of the fulcrum, i.e. touch points of the tensioner pusher with the support platform of the rotary bearing element, which reduces the compensating ability of the tensioner.

The objective of this utility model is to increase the compensating ability of the tensioner. The technical result obtained by the implementation of the utility model is to ensure the invariance of the position of the fulcrum on the supporting surface of the rotary bearing element.

This problem is solved due to the fact that in the known tensioner transmission device with a flexible connection containing a rotary bearing element with a support platform designed to interact with the tensioner pusher, and a guide sprocket mounted on a rotary bearing element with the possibility of rotation, according to the utility model, the support platform rotary bearing element, made concave.

The supporting platform of the rotary bearing element may be part of the surface of a sphere or ellipsoid,

fulcrum on the site may coincide with the position of the largest recesses of the concave surface.

Studies conducted on the sources of patent and scientific and technical information have shown that the claimed tensioner is unknown, i.e. meets the criterion of novelty.

The inventive tensioning device can be manufactured at any enterprise specializing in this industry, because this requires well-known materials and standard equipment, and is widely used in mechanical engineering, i.e. is industrially applicable.

When performing the supporting platform of the rotary bearing element of the claimed form, the possibility of the tensioner pusher moving sideways relative to the position of the fulcrum selected in the manufacture of the tensioning device is very difficult, because this point is located in the deepened part of the surface of the reference platform. This ensures that the position of the fulcrum on the supporting surface of the rotary bearing element remains unchanged during operation of the mechanism with this tensioner and, therefore, increases the compensating ability of the tensioner.

A utility model is illustrated in the drawing, which shows a General view of the tensioner.

The flexible coupling transmission tension device comprises a rotary bearing element 1, the embodiment of which is selected in accordance with the shape required for the particular mechanism in which the tensioning device is intended to be installed. The pivoting bearing element 1 can be made, for example, L-shaped. The guide sprocket 2 can be single-rib or double-rib and mounted on a rolling or sliding bearing 3, which is fixed to the rotary bearing element 1 by means of a locking ring or screw connection, or is fixed in the bearing

element 1 by pressing or expanding. The supporting platform 4 of the rotary bearing element 1 is made concave so that it is part of the surface of a sphere or ellipsoid. The most in-depth point of the bearing pad 4 (this may be the center of the bearing pad or its other point, determined by the geometry of the rotary bearing element 1) is the support point 5 of the tensioner pusher (not shown) that interacts with the tensioner. The tension device operates as follows. When operating the mechanism in which the inventive tensioner is installed, the tensioner pusher abuts against the support point 5, providing the required tension of the flexible connection. When changing during operation of the mechanism with the claimed tensioner, the tensioner pusher pressure force and the tensioner pusher tends to move relative to the pivot point 5, the concave shape of the support pad 4 prevents this movement. This ensures that the position of the pivot point 5 on the supporting surface 4 of the pivoting bearing member 1 remains unchanged and, therefore, increases the compensating ability of the tensioner. This increases the traction ability of the transmission.

Claims (2)

1. The tensioner transmission device with a flexible connection, containing a rotary bearing element with a support platform designed to interact with the tensioner pusher, and a guide sprocket mounted on the rotary bearing element with the possibility of rotation, characterized in that the bearing platform of the rotary bearing element is made concave. 2. The tensioning device according to claim 1, characterized in that the supporting platform of the rotary element is part of the surface of the sphere or ellipsoid, and the position of the fulcrum on the supporting platform coincides with the position of the largest recess of the surface.