RU2777125C1 - Tubular conveyor with intermediate drive - Google Patents

Abstract

FIELD: conveyors.

SUBSTANCE: tubular conveyor with an intermediate drive includes an annular belt 1, an enveloping drive 2 and a tension drum 3 supporting roller bearings 4 mounted on the frame 5 of the conveyor, the profile of which is made variable and divided into sections inclined and flat, while an intermediate drive is installed on the flat section of the conveyor 13, consisting of an apron feeder 14, on the canvas of which rubber-coated grooved supports 15 are rigidly attached, made in the form of a semicircle with a perimeter equal to πR, where R is the radius of the circumference of the belt ring, in contact with the loaded 11 and empty 12 branches of the annular belt 1 and moving in the same direction at a speed greater than up to 8% of the speed of the conveyor, and the drive is made by a motor-drum, on which profiled wheels with teeth are installed, interacting with the carrier web.

EFFECT: load on the tubular belt is reduced.

1 cl, 3 dwg

Description

The invention relates to conveyor transport and can be used in mining, chemical and other industries, as well as in the driving of mine workings and mines.

Known intermediate drives of belt conveyors, including an additional belt conveyor located under the main belt and in contact with it (see I.S. Trofimov, Intermediate drive as a means of improving the belt conveyor. Mining and electrical engineering, No. 6, 2014).

Such conveyors with an intermediate drive are practically impossible to use for tubular conveyors due to the small area of contact with the main belt.

Also known is the design of a conveyor with an intermediate drive (see SU No. 583042, class B 65 G 23/18, publ. 12/5/1977), located between the loaded and empty branches and made in the form of a plate conveyor in contact with the moving belt of the caterpillar tracks .

The disadvantage of this intermediate drive device is the low traction capacity.

A well-known design of a tubular conveyor with large angles of inclination of the stav, including drive and tension drums, support rollers, through which a looped tubular belt passes, inside which partitions are located (see UK No. 131383, class B 65 G 15/08, publ. 10.01. 2019).

However, insufficient drive power in the prior art tubular conveyor design is the reason for limiting the length and angle of the line.

The closest analogue of the claimed technical solution is a multi-drive vertically inclined conveyor (see RU No. 2701631, cl. B 65 G 17/04, publ. 09/30/2019), including traction bands (tape) that go around the drive and tension drums supporting roller supports installed on the frame of the conveyor, the profile of which is made variable and divided into sections sequentially located one after the other, inclined and gentle, and an intermediate drive is located on each flat section.

The disadvantage of the known conveyor is that it cannot be used due to the high bending rigidity of the tubular conveyor.

The objective of the present invention is to improve the tubular conveyor by increasing the traction capacity and improving the reliability of the device.

The technical effect obtained in solving the problem is expressed in the fact that mechanical power is dispersed in the conveyor, which reduces the load on the tubular belt and reduces capital costs for the operation and repair of the conveyor.

To solve this problem in a tubular conveyor with an intermediate drive, containing an annular belt, an envelope of the drive and tension drums, supporting roller bearings mounted on the conveyor frame, the profile of which is made variable and divided into sections inclined and gentle, while an intermediate drive is installed on the flat section , consisting of an apron feeder, in which rubberized grooved supports are rigidly attached to the canvas, made in the form of a semicircle with a perimeter equal to πR, where R is the radius of the circle of the belt ring, in contact with the loaded and empty branches of the annular belt and moving in the same direction at a speed greater than up to 8% of the conveyor speed, moreover, the drive of the apron feeder is made by a motor-drum, on which profiled wheels with teeth (sprockets) are installed, interacting with the carrier web.

The design feature of the intermediate drive is the use of rubber-coated grooved supports on the apron feeder canvas, which increases the grip area with the traction belt and reduces the tension in the circuit, and an increase in the feeder speed relative to the conveyor belt allows dispersing power over the length of the conveyor.

The claimed device is illustrated in the drawing, where in Fig. 1 shows a general view of a tubular conveyor with an intermediate drive, in Fig. 2 - section A-A in Fig. 1 in FIG. 3 - section B-B in Fig. one.

The conveyor consists of a belt 1, which goes around the drive 2 and tension 3 drums supporting the roller bearings 4 mounted on the frame 5 of the conveyor, loading 6 and unloading 7 devices for transporting bulk cargo 8 (see Fig. 1-3). The profile of the frame 5 of the conveyor is made variable depending on the mining and geological conditions and is divided into inclined 9 and flat 10 sections. On the flat section 10 between the loaded 11 and empty 12 branches of the belt 1, an intermediate drive 13 is installed, which is made of a motor-drum with sprockets mounted on it (not shown in the figures) interacting with the carrier web 14 of the apron conveyor. On the canvas 14, grooved supports 15 are rigidly fixed, in contact with the loaded 11 and empty 12 branches of the annular carrier tape 1. The grooved supports 15 are made in the form of a semicircle, the perimeter of which is equal to πR (R is the ring radius), and moving in the same direction at a speed greater than conveyor belt speed, for example, by 5-8%.

Tubular conveyor with intermediate drive works as follows. The load 8 is continuously loaded through the device 6 onto the tape 1. The main drive of the traction body 1 is the head 2, the intermediate drive 13, installed between the loaded 11 and empty 12 branches and in contact with the annular tape 1 grooved supports 15, rigidly attached to the canvas 14 and moving in the same direction at a speed greater than the speed of the conveyor belt 1 by 5-8%.

Thus, the total power of the conveyor consists of the power of all its drives. As a result, capital costs for the belt, head drive, operation and repair of the conveyor are reduced.

Claims (1)

Tubular conveyor, including an annular belt, an envelope of the drive and tension drums, supporting roller bearings mounted on the conveyor frame, the profile of which is made variable and divided into inclined and flat sections, characterized in that an intermediate drive from an apron feeder is installed on the flat section, on the canvas of which rubberized grooved supports are rigidly attached, made in the form of a semicircle with a perimeter equal to πR, where R is the radius of the circumference of the belt ring, in contact with the loaded and empty branches of the annular belt and moving in the same direction at a speed of up to 8% greater than the speed of the conveyor belt, while the drive made by a motor-drum, on which sprockets are installed, interacting with the carrier web.

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