RU2336207C1 - Belt conveyer with facility for continuous belt centering - Google Patents

Abstract

FIELD: transportation.

SUBSTANCE: conveyer contains immovable grooved roller carriages with capability of conveyer belt bearing to it and facility for continuous belt centering containing carrier mounted on conveyer frame and rotatable and located on carrier taper rollers. Facility for continuous belt centering is implemented as two carriers located from both sides of immovable roller carriage of conveyer with rotatable carriers in a vertical plane relative to horizontal axes, oriented by conveyer longitudinal axis. Taper rollers are mounted on one free end of each carrier, and on the other end of carrier it is fixed friction element with capability of its interaction with underside of conveyor belt. Each taper roller is implemented of turned to longitudinal axis of conveyer side of its plain spigot portion and gradually adjoined to it flare section with alternating taper angle, increasing right-about. Taper rollers and friction elements on both carriers are located contrariwise to each other. Length of plain spigot portion of taper roller is accepted not less then value of conveyer belt transverse displacement during conveyer operating. Carriers are spring-loaded to conveyer frame with spring location at both sides of axes and at equally-spaced belt location relative to conveyer longitudinal axis - are balanced relative to axes. Plain spigot portion of each taper roller and each friction element are located with minimal open relative to underside of conveyor belt.

EFFECT: invention allows providing of increasing of centering action for conveyer belt.

5 dwg

Description

The invention relates to conveyor engineering, namely to belt conveyors with devices for centering conveyor belts.

A device for centering a conveyor belt is known, comprising a roller bearing with the possibility of supporting the conveyor belt on it, mounted to rotate in a horizontal plane relative to the hinge assembly fixed with a transverse beam on the runs of the conveyor, while on the roller bearing arcuate fists are fixed with the possibility of rolling them on stationary rollers mounted on the runs of the conveyor (Polunin V.T., Gulenko G.N. Conveyors for mining enterprises. M: Nedra, p. 67, fig. 2.19a, 1978).

However, a disadvantage of the known device is the limited centering effect on the conveyor belt.

A device for centering a conveyor belt is known, comprising a roller support mounted on a frame rotatable around a vertical axis and having brackets for the central and side rollers and supports with an arcuate surface with the possibility of their interaction with rollers mounted on the frame (AS No. 1749134, B65G 39/071, 1992) .

The disadvantages of the known device are the limited amount of centering effect on the tape, because the shape of the transverse tray of the tape during rotation of the roller support and only in the horizontal plane does not change. In addition, the use of deflector rollers in the centering system of the tape leads to delamination of its sides and reduce the life of the tape.

A known conveyor belt with a roller support for centering the conveyor belt (prototype), comprising a bracket rotatable in a horizontal plane relative to the vertical hinge with cylindrical rollers mounted on it with the possibility of supporting them with a conveyor belt with a grooved form of the tray and conical rollers mounted on the ends of the bracket with the possibility of interaction with arcuate guides fixed on the conveyor frame (АС No. 370132, В65G 39/071, 1973).

The disadvantage of a conveyor belt with a centering roller support is the limited amount of centering effect due to the rotation of the roller support only in the horizontal plane.

The technical result of the invention is to increase the centering effect on the conveyor belt.

The technical result is achieved in that in a conveyor belt with a device for centering a conveyor belt containing stationary grooved roller bearings with the possibility of supporting the conveyor belt on them and a device for centering the conveyor belt, including brackets mounted on the conveyor frame and conical rollers placed on the brackets, according to According to the invention, the device for centering the conveyor belt is made in the form of two brackets located on both sides of the stationary conveyor roller bearing , with the possibility of rotation of the brackets in a vertical plane relative to the horizontal axes oriented along the longitudinal axis of the conveyor, conical rollers are mounted on one free end of each bracket, and a friction element is fixed on the other end of the bracket with the possibility of its interaction with the lower side of the conveyor belt, each conical roller is made from the cylindrical part facing the longitudinal axis of the conveyor and the conical part smoothly adjacent to it with a variable taper angle, I increase in the opposite direction, while the conical rollers and friction elements on both brackets are placed on opposite sides relative to each other, and the length of the cylindrical part of the conical roller is adopted not less than the lateral displacement of the conveyor belt during conveyor operation, the brackets are spring-loaded to the conveyor frame with the springs arranged both sides of the axes and with a symmetrical arrangement of the tape relative to the longitudinal axis of the conveyor are balanced relative to their axes, and the cylindrical part of each conical roller and each friction element are located with minimal gaps relative to the bottom side of the conveyor belt.

A conveyor belt with a device for centering a conveyor belt is shown in FIG. 1 — a side view, in FIG. 2 — a section A-A in FIG. 1, in FIG. 3 — a section B-B, in FIG. 4 — a conical roller mounting unit , Fig.5 - the position of the elements of the centering device with a lateral displacement of the tape to the right side in Fig.2.

The conveyor belt contains stationary grooved roller bearings 1 mounted on the conveyor frame 2 with the possibility of supporting the conveyor belt 3. The device for centering the conveyor belt 3 is made in the form of two brackets 4 and 5, placed under the conveyor belt 3 with the deflection of the middle part of the brackets 4 and 5 way down. The brackets 4 and 5 are located on both sides of the stationary roller bearings 1 of the conveyor with the possibility of rotation of the brackets 4 and 5 in a vertical plane relative to the horizontal axes 6 and 7, oriented along the longitudinal axis 8 of the conveyor. On one of the free ends of each bracket 4, 5, conical rollers 9 and 10 are installed. And on the other free ends of the brackets 4 and 5, friction elements 11 and 12 are fixed with the possibility of their interaction with the lower side of the conveyor belt 1. Each conical roller 9 and 10 is made from the cylindrical part 13, 14 facing the longitudinal axis 8 of the conveyor and the conical part 15, 16 smoothly adjacent to it with a variable taper angle increasing in the opposite direction. In this case, the conical rollers 9, 10 and friction elements 11, 12 on both brackets 4, 5 are placed on opposite sides relative to each other. Moreover, the length of the cylindrical part 13, 14 of each conical roller 9, 10 is adopted not less than the lateral displacement of the conveyor belt 1 during operation of the conveyor. The cylindrical part 13, 14 of each conical roller 9, 10 and each friction element 11, 12 are located with minimal gaps 17 and 18 relative to the lower side of the conveyor belt 1 with its central location relative to the longitudinal axis 8 of the conveyor. The brackets 4 and 5 are balanced relative to their axles 6 and 7 and are spring-loaded to the conveyor frame 2 with the springs 19 and 20 located on both sides of the axes 6 and 7. 21 - transported cargo.

Belt conveyor operates as follows. When the conveyor belt 3 moves along the roller bearings 1 with a symmetrical arrangement of the conveyor belt 3 on the roller bearings 1, the conveyor belt 3 does not interact with the conical rollers 9, 10 and friction elements 11 and 12 due to the presence of gaps 17 and 18 between them and the conveyor belt 3. Brackets with conical rollers and friction elements balanced relative to their axes, and the presence of springs 19 and 20 excludes the possibility of accidental rotation of the brackets 4 and 5 and interaction with the conveyor belt 3 of the conical rollers 9, 10 and friction elements 11, 12. With the movement of the conveyor belt 3 and the occurrence of biasing of the conveyor belt 3 transverse effects, for example, directed from left to right, the conveyor belt 3 will begin to move in this direction. In this case, its starboard side will slide onto the conical part 15 of the conical roller 9. Due to the pressure of the conveyor belt 3 on the conical roller 9, the bracket 4 will begin to rotate in a vertical plane around axis 6 clockwise. Due to this, the friction element 11, mounted on the other end of the bracket 4, is pressed against the lower side of the conveyor belt 3. Due to the frictional force between the friction element 11 and the conveyor belt 3, a torque appears, turning the conveyor belt 3 in the direction opposite to the direction of the biasing effect. Moreover, the further the conveyor belt 3 moves along the tapered roller 9, the greater the friction element 11 is pressed against the conveyor belt 3 and the greater the restoring force acts on the conveyor belt 3 due to the braking effect of the friction element 11 from the side of the conveyor belt opposite from the vanishing direction 3. When the conveyor belt 3 vanishes in the opposite direction (from right to left), the centering action mechanism is similar to that described above. But in this case, the second element of the centering device with the tapered roller 10 and the friction element 12 will be involved.

Distinctive features of the invention provide an increase in the centering effect on the conveyor belt due to the braking effect on the laterally displacing conveyor belt from the side opposite to the direction of displacement of the belt.

Claims (1)

A conveyor belt with a device for centering a conveyor belt containing stationary grooved roller bearings with the possibility of supporting the conveyor belt on them and a device for centering the conveyor belt, including a bracket mounted on the conveyor frame with the possibility of rotation, and conical rollers placed on the bracket, characterized in that the device for centering the conveyor belt is made in the form of two brackets located on both sides of the stationary roller bearings of the conveyor, with the possibility of turning orot of brackets in a vertical plane relative to horizontal axes oriented along the longitudinal axis of the conveyor, tapered rollers are mounted on one free end of each bracket, and a friction element is fixed on the other end of the bracket with the possibility of its interaction with the bottom side of the conveyor belt, each conical roller is made of side of the longitudinal axis of the conveyor of the cylindrical part and the conical part smoothly adjoining to it with a variable taper angle increasing in opposite the side, while the conical rollers and friction elements on both brackets are placed on opposite sides relative to each other, and the length of the cylindrical part of the conical roller is assumed to be no less than the lateral displacement of the conveyor belt during conveyor operation, the brackets are spring-loaded to the conveyor frame with springs on both sides from the axes and with a symmetrical arrangement of the tape relative to the longitudinal axis of the conveyor - balanced relative to its axes, and the cylindrical part of each conical roller and each friction element are arranged with minimal gaps relative to the bottom side of the conveyor belt.

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