CS238713B1 - Apparatus for fatigue resistance testing of gear belts reinforcement - Google Patents

Abstract

Fatigue testing equipment resistance of reinforcing materials that are for test purposes stored in test specimens the shape of an infinite flat belt. The device contains several equivalent test devices common drive stations they are star-shaped around the-- drive shaft. Each of the test The station consists of a drive pulley, two ballast pulleys and tensioners. Heavy pulleys are replaceable and change their diameter alternating bending stress is achieved at a different level, especially above the limit fatigue of the evaluated material. Fatigue stress on reinforcement sample happening in conditions that are equivalent operational. The test result is not distorted secondary damage such as wrinkling in jaws of testing machines, abrasion test pulleys, as well as side effects such as air humidity and grease. Loading device conditions are precisely defined Objectivity is ensured and repeatability of the test.

Description

The invention relates to an apparatus for testing the fatigue resistance of transmission belt reinforcement.

In particular, it is an apparatus which allows the quality assessment of the reinforcing material of elastomers, such as rubber, polyurethane, plasticized polyvinyl chloride, during the initial inspection stage, as well as comparing the fatigue resistance of the various reinforcing materials already in the pre-production stages. In this case, the reinforcing material means steel, glass and other cords or fibers.

There is currently no known test method that faithfully mimics the loading conditions and the fatigue damage mechanism of the transmission belt liner during operation.

> Fatigue resistance is most often tested on pulsators producing alternating or passing tensile stress or by bending under rotation, or by unidirectional bending of the specimen around the rotating pulleys. These test methods do not describe some of the peculiarities of the transmission belt support liner such as alternating bending, tensile stress and radial pressure from the transmission pulleys.

These drawbacks are overcome by a device according to the invention in which the test body in the form of an infinite flat belt with a pressed-in sample of the test material is stressed by bidirectional bending at a constant tension tension. The device consists of several equivalent common-drive test stations, which are star-shaped around the common drive shaft. Each of these stations consists of a drive pulley mounted on a common drive shaft, two rotatably mounted driven pulleys positioned so as to achieve alternating bending of the test body through the station. The tensioning pulley of the test station is rotatably mounted on a pivot arm pin, which is provided with a recess for attaching the end of the cable, which is tensioned by a weight over two rotatably mounted fixed pulleys.

The proposed devices allow evaluation of fatigue resistance of transmission belt reinforcement in conditions equivalent to operational. By placing the reinforcement sample in the specimen in the same way as the reinforcement in the actual transmission belt, protection against secondary damage such as squeezing in the jaws of test machines, abrasion by test rollers, etc. is achieved. Furthermore, protection against distorting environmental influences such as air humidity, corrosion, grease. Since the load conditions in the equipment are firmly defined and are not subject to external influences, an objective evaluation is also ensured for repeated tests. The unchangeability of the conditions is ensured by a simple design, whereby a space-saving, star-like arrangement of the test stations can be subjected to a fatigue load of several test bodies simultaneously.

The accompanying drawing shows one example of an embodiment of a fatigue testing device for transmission belt reinforcement according to the invention.

The apparatus consists essentially of a base plate X on which a plurality of test stations 2, which are driven by a common drive J, are mounted. The test stations 4 are star-shaped around a common drive shaft 6 on both sides of the base plate X, it consists of a drive pulley mounted on a common drive shaft 4, two rotatably mounted driven pulleys 1 and 2, and acts as a tensioner pulley 6 rotatably mounted on a pivot pin 10 of the rocker arm 10. The rocker arm X is provided with a recess XX is pulled by the weight XJ through the rotatably mounted fixed pulleys 11 and 11.When working on the device, the test body JJ is mounted on the pulleys X1 ^and 2 of the test station with a light weight 13. settles. After opening the cover (not shown), the device is started. The test body 11 is loaded with a predetermined number of cycles, wherein the rest bias is generated by the weight JJ. After the specified time e e, the device stops and, with the weight JJ raised, the test body 11 is removed. The worn test specimen 11 is then further torn on the shredder by known methods which have the purpose of determining the residual strength of the transmission belt extract.

The device according to the invention can be used in the rubber or plastics industry with the stated advantages.

Claims (1)

SUBJECT OF THE INVENTION Apparatus for testing the fatigue resistance of transmission belt reinforcement, in which an infinite flat belt test specimen with a molded sample of test material is stressed by bidirectional bending at a constant tension bias, characterized in that it comprises several equivalent test stations (2) with common drive ( 3) which are radially spaced around a common drive shaft (4) on either side of the base plate (1), each of these test stations (2) consisting of a drive roller (5) mounted on the common drive shaft (4), two rotatably mounted driven rollers (6, 7) for achieving alternating bending of the test body (16) running through the test station (2) and one tensioner (8) rotatably mounted on a pivot (9) of the pivot arm (10) provided with a recess (11) ) for attaching the end of the cable (12) which is tensioned by the weight (13) of the front part (12) with rotatably mounted fixed rollers (14, 15).