RU2604249C2 - Method of belt, chain or rope tension in universal self-centering system - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to machine building field, more specifically to universal self-centering system. Method of belt, chain or rope tension in universal self-centering system is characterized by fact, that tension roller acts on section of rope, chain or belt, which connects rollers located on one base. On outer base three or more external rollers are fixed. On inner base three or more internal rollers are fixed. Internal and external rollers are interconnected by closed rope or belt. During rope or belt movement along its perimeter all rollers rotate with same linear speed. Directions of internal and external rollers rotation are mutually opposite.

EFFECT: enabling higher reliability.

1 cl, 2 dwg

Description

The invention can be applied in any field of technology where it is necessary to use the properties of a universal measuring system. Known applications of a universal measuring system in sections A, B, D, E, F, G, H.

 A known method of tensioning a cable in a chain or belt in a universal self-centering system is that a tension spring is inserted into the gap of the cable, chain or belt (DE102011120054A1, DE102012002076A1, DE202012008201201201201201201202201201202201202201202202a1a2a2aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa , DE202013003017U1).

 The universal self-centering system contains an internal and external base. Three or more external rollers are mounted on the external base with the possibility of rotation relative to their axes. Three or more inner rollers are rotatably mounted on their inner base with respect to their axes. The number of outer and inner rollers is the same. The inner and outer rollers are interconnected by a closed cable or belt. When a cable or belt moves along its perimeter, all the rollers rotate with the same linear speed. The direction of rotation of the inner and outer rollers are mutually opposite. If the inner rollers are in volume V, then the outer rollers are outside this volume. One of the properties of the self-centering system is that when an external force P acts on the internal base, this force is distributed between the external rollers by a tensioned belt, chain or cable. Returning to the center after the termination of external forces does not depend on the tension force of the belt, chain or cable. The central position does not change with temperature. When operating a self-centering system, a cable, chain or belt oscillates along its perimeter. Ideally, the tension springs should remain in the initial position after the termination of external forces.

 The disadvantage of this method is that in reality the cable, chain or belt can move and tension springs can come into contact with the rollers and interfere with the oscillatory movements of the cable, chain or belt, which will entail a partial or complete loss of the properties of the self-centering system.

The aim of the invention is to eliminate these disadvantages.

 This goal is achieved by the fact that in a self-centering system, one rotation roller is replaced by a group of two or more rotation rollers, provided that the portion of the cable, chain or belt connecting the rollers of this group does not come in contact with the rollers from another base. The influence of external forces on these areas does not affect the properties of the self-centering system. Therefore, these sections can be used to tension the cable, chain or belt of the self-centering system.

In a specific embodiment, the self-centering system comprises an outer base 1 and an inner base 9. On the inner base 9, the inner rotation rollers 5, 6, 7 are fixed. On the outer base 1, the outer rotation rollers 2, 3, 4a, 4b are fixed. The rollers 4a, 4b replace one rotation roller 4. Such a replacement is equivalent to an imaginary roller 10 of increased diameter. The cable section S connecting the rollers 4a, 4b does not touch the inner rollers 5, 6, 7. A tension roller 8 connected to the tension spring F acts on this cable section. The impact of the roller 8 does not change the properties of the self-centering system.

 In FIG. 1 shows a universal self-centering system with a chain, belt or cable tension device.

 In FIG. Figure 2 shows the principle of replacing rotation rollers for tensioning a chain, belt or cable in a universal self-centering system.

Claims (1)

The method of tensioning a belt, chain or cable in a universal self-centering system containing an internal and external base, with three or more external rollers fixed to an external base rotatably relative to its axes, three or more internal rollers fixed to an internal base rotatably relative to its axes, internal and external rollers are interconnected by a closed cable, chain or belt, and when the cable, chain or belt moves along its perimeter, all the rollers rotate with the same linear speed, and the direction of rotation of the inner and outer rollers is mutually opposite, and if the inner rollers are in volume V, then the outer rollers are outside this volume, characterized in that the tension roller affects the portion of the cable, chain or belt connecting the rollers, located on the same basis.

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