RU44776U1 - BELTING - Google Patents

Abstract

The device relates to mechanical engineering and can find application as an element of the drives of various machines and mechanisms that ensure the rotation of the driven shaft. The belt drive contains a driving and driven pulleys, covering their flat belt, while the pulleys are barrel-shaped. This design increases the efficiency and reliability of the belt drive.

Description

The device relates to mechanical engineering and can find application as an element of the drives of various machines and mechanisms that ensure the rotation of the driven shaft.

A belt drive is known comprising a driving and driven cylindrical pulleys, covering their endless belt, while the working surface of at least one of the pulleys is formed by sections located in the circumferential direction, each of which is coated with a material having a coefficient of adhesion to the belt [1] ].

Known belt drive containing pulleys covered by a T-belt having an outer cylindrical

a surface for interacting with the side surfaces of the belt and an annular groove for interacting with the central part of the belt, while in order to increase the transmitted load, the bottom of the groove is described by a closed wave-like curve lying on the surface of the cylinder [2].

The closest analogue is a belt drive containing a driving and driven cylindrical pulleys, covering their flat belt, made with a variable width [3].

The disadvantage of these designs is that when the axles of the pulleys are not parallel or the fibers are not uniformly elastic across the width of the belt, the belt falls off the pulleys, which leads to increased wear of the belt, its breakage and failure of the entire mechanism.

The objective of the proposed technical solution is to increase the efficiency and reliability of the belt drive.

The problem is solved due to the fact that the belt drive contains the leading and driven pulleys, covering their flat belt, while the pulleys are barrel-shaped. Belt drive is illustrated by drawings, where Fig. 1 shows a diagram of a belt drive, Fig. 2 shows a barrel-shaped pulley with a flat belt covering it with forces.

Belt transmission contains a rack 1, a leading 2 and a driven 3 barrel-shaped pulleys placed on it, covering their flat belt 4.

The transfer works as follows.

The leading barrel-shaped pulley 2 through the belt 4 reports rotation to the driven barrel-shaped pulley 3. As is known, when the belt 4 on the driving 2 or driven 3 barrel-shaped pulleys deviates from the cross section with the largest diameter, a force component ### U96n arises in the belt 4, caused by the reaction of the belt support 4 about the pulley 2 or pulley 3 ### U96R and the pulley tension force F (Fig. 2), which returns the belt 4 to the side of the largest diameter, namely to the middle of the pulley 2 or pulley 3. Since the normal angle to the surface of the pulley is greater, the further the belt 4 deviates from the middle, then force component ### U96n, returning belt 4 to the middle of pulley 2 or pulley 3 is greater, and the faster the belt 4 will return to the middle of pulley 2 or pulley 3. The closer the location of the middle of belt 4 in place of pulley 2 or pulley 3 having the largest diameter , the lower the force component ### U96n. When the belt 4 is in place of the pulley 2 or pulley 3 having the largest diameter, the force component ### U96n is absent, and the belt 4 does not move.

Sources of information:

1. RF patent No. 2030659, (Dzhuraev Anvar, Mirkhamidov Jalil Halilovich, Mukhitov Nuritdin Nadzhimovich), September 27, 1991, “Belt drive”

2. USSR author's certificate No. 1577441 (Eremin VN; Apolchin B.I.), 11/23/1987, “Belt drive”

3. RF patent №2019765 (Dzhuraev Anvar, Mukhitov Nuritdin Nadzhimovich), 10/18/1989, "Belt drive"

Claims (1)

Belt drive, containing the leading and driven pulleys, covering their flat belt, characterized in that the pulleys are barrel-shaped.