SU1518236A1 - Conveyer with endless flexible member - Google Patents

Abstract

The invention relates to conveyor transport, namely to tensioning nodes of conveyors. The goal is to increase the reliability of the conveyor. A drum 3 is fixed on the drive shaft (B) of a conveyor with an endless flexible element 5. The tension device, made in the form of a roller 6, is mounted rotatably around axis 7. Axis 7 is connected to B 1 by means of levers (P) 8 and 9 pivotally connected with B 1 and axle 7. In B, the driving wheels (K) 10 and 11 are fixed, meshed respectively with slaves K 12 and 13. At the same time K 12 and 13 are rigidly fixed on axle 7. The tensioner is equipped with a braking unit K 13 , made in the form of a friction clutch, one half-coupling 14 of which is fixed on the P 9, and the other 15 - on the axle and 7. The coupling half 15 is compressed against the coupling half 14 by a spring 16, for adjusting the rigidity of which there is a nut 17. When the drum 3 and K 10, 11 rotate, a torque is transmitted to the flexible element 5 and to the roller 6, and K 10 and 11 transfer the torque to To 12 and 13. Since the axle 7 is braked by the friction clutch, the rotational speed of K 12 and 13 is less than the rotational speed obtained from K 10 and 11. This difference in rotational frequencies leads to rolling of K 12 and 13 relative to K 10, 11 and rotation of P 8 and 9 on B 1 in the direction of rotation of B 1, which ensures the tension of the element 5 by the roller 6. When the specified force is reached 5, tension element 14 and the coupling half 15 and slip rotation R 8 and 9 is terminated. Thus, the tension of the flexible element 5 is automatically maintained. 2 Cp. Of the sleeve, 2 or more.

Description

fae.2 17

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rotation around the axis 7, Axis 7 is connected with R 1 by means of levers (P) 8 and 9 pivotally connected to B 1 and axis 7. B 1 is rigidly attached to the wheel (K) 10 and 11, engaged with the driven K

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13. At the same time K 12 and 13 are tough.

fixed on axis 7, the tension device is equipped with a braking unit K 13, supercharged as a friction clutch, the H-Uia coupling half 14 is fixed on P 9, and the other 1b is attached to the axle 7, Half 15 is tucked into the half coupling 14 pr 82364

roller 6, and to 1.U and 11 transfer the torque to K 12 and 13. Since axis 7 is braked by a friction clutch, the rotational speed of K 12 and 13 is less than the rotational speed obtained from K 10 and 11. This difference in rotational frequencies leads to rolling K 12 and 13 relative to K 10, 11 and turning P 8 and 9 on B 1 jQ in the direction of rotation B 1, which ensures tension of the element 5 by the roller 6. When the specified tension of the element 5 of the coupling half 14 and 15 is reached, slip and turning P 8 and 9 pre

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16, to adjust the stiffness is reduced. T. arr. There is automatically an undercut. 17. When the drum 3 rotates and the K 10, 11 rotate, the torque r P4 OD on the flexible element 5 and on

tension of the flexible element 5 is maintained. 2 Cp. f-ly, 2 ill.

The invention relates to conveyor transport, in particular to tension-iniM nodes of conveyors.

The purpose of the invention is to increase the reliability of the conveyor.

FIG. 1 shows a conveyor, total ni1t; in fig. 2 shows section A-A in FIG. one .

The conveyor with an infinite element includes drums 3 and 4, fixed on the 1-in 1 shaft and 2 shaft, respectively, covering their flexible element 5, tensioning device, swiveled in the form of roller 6, which allows the knob to be able to rotate the BOKpyi axis 7. Axis 7 is connected with at ru5ji, H.ivi shaft 1 by means of additional-cr, te lever 8 and lever 9. Levers 8 and 9 are pivotally connected to the drive shaft 1 and axis 7. On the shaft 1 there is a rigidly fixed additional driving wheel .t forest 10 and drive wheel 11, which are engaged with the additional driven and driven wheels , respectively, 12 and 13, rigidly fixed on axis 7. The tensioning device is equipped with a braking unit of the driven wheel 13, made in the form of a friction clutch, one of which 14 is fixed on the lever 9, and the second 15 - on the axis 7. The half coupling 15 is tucked into the coupling half 14 by a spring 16, to adjust the stiffness of which there is a nut 17.

KoHBeiiep works as follows.

When the drum 3 is rotated and I drive the 1 × 1x wheels 10 and 11, a sharp moment is transferred to the tension of the flexible element 5. 2 Cp. f-ly, 2 ill.

five

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five

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five

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On the flexible element 5 and through it on the roller 6 and the drum 4. The drive wheels 10 and 11 transmit torque to the driven wheels 12 and 13. Since the axle 7 of the wheels 12 and 13 is slowed down by freaks, the ion coupling, the frequency of rotation of the wheels 12 and 13 are smaller than the rotational speed obtained by these wheels from wheels 10 and 11. This difference in rotation frequency causes wheels 12 and 13 to roll in relative to wheels 10 and 11 and rotate levers 8 and 9 on shaft 1 in the direction of rotation of shaft 1, ensuring tensioning a flexible element 5 with a roller 6. When a given tension is reached, the tension of the flexible element a 5, due to the fact that the force acting on the levers 8 and 9 through the roller 6 from the side) of the flexible element 5 is greater than the braking force of the driven wheels 12 and 13, the coupling half and 14 begin to slip one relative to the other and turn levers 8 and 9 on shaft 1 is terminated. Thus, the tension of the flexible element 5 is automatically maintained.

When the conveyor is stopped, i.e. stopping the drum 3, easing the tension of the flexible element 5 does not occur by keeping the levers 8 and 9 in the working position with braked wheels 12 and 13 and the wheels 10 and 11 stopped.

In case of a sudden stop of the flexible element 5 while rotating the driving drum 3 the tension roller b does not

rotates and the driven wheels 12 and 13 continue to rotate without increasing the tension of the flexible element 5 due to the slippage of the coupling halves 14 and 15 relative to the other.

Claims (3)

1. A conveyor with an infinite flexible element, including a drum fixed on the drive shaft, a tension device made in the form of a roller mounted for rotation around an axis connected to the drive shaft by means of a lever hinged to the drive shaft It has a drive wheel connected to the driven wheel, which is characterized in that, in order to increase the reliability of the conveyor, the tensioning device is equipped with a drive wheel braking unit. eleven 17 Editor N. GorVat Compiled by T. Bobylev Tehred L. Serdyukova Proofreader E. Lonchakova Order 6553/24 Circulation 722 VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, 4/5 Raushsk nab. 0 wherein the driven and driving wheels are engaged with each other and rigidly mounted on the drive shaft and the axle, respectively, and the lever is pivotally connected to the axis of the roller. 2. A conveyor according to claim 1, characterized in that the tensioning device is provided with an additional lever located on the opposite side of the drum, pivotally connected to the drive shaft, the driven and driving wheels, while the additional driven and driving wheels are hooked to each other and rigidly mounted on the drive shaft and the axle; and the additional lever is pivotally connected to the axis of the roller. 3.Conveyor on PP. 1 and 2, that is, the braking unit of the driven wheel is made in the form of a frictional clutch, one coupling half of which is fixed on an additional lever, and the other on the axis of the roller. Subscription