RU2038992C1 - Device for supporting belt at place of loading - Google Patents

Abstract

FIELD: transportation of heavy loads. SUBSTANCE: device for supporting belt at place of loading has flexible members and rollers supporting the members and arranged under belt on conveyor frame with clearances relative to each other. Flexible members are made in form of shafts each being freely fitted on two adjacent supporting rollers. Adjacent shafts are installed on common supporting roller. Diameters of shafts are greater than diameters of supporting rollers. EFFECT: enlarged operating capabilities. 5 cl, 3 dwg

Description

 The invention relates to conveyor engineering, and in particular to loading devices of belt conveyors with shock-absorbing supports for the conveyor belt in the area of conveyed cargo to it, and can be used when conveying heavy bulk cargoes by the conveyor.

 Known loading devices of conveyor belts, including inclined grooves with guide sides, supporting devices for the tape in the feed zone of the transported cargo, made in the form of rollers fixed to the axis, made up of pneumatic tires. However, a disadvantage of the known devices is the large mass of elements deformed under the influence of shock loading, which leads to the occurrence of stresses destroying it in the conveyor belt and to a reduction in the service life of the belt.

 Closest to the proposed is a conveyor belt loading device, including supporting elements interacting with the load-bearing branch of the conveyor belt, which are fixed on the axis with the possibility of rotation in the bearings, and the elements themselves are elastic with the possibility of their deformation at the moment of application of the shock load caused by falling on a tape with pieces of transported cargo [1] A disadvantage of the known device is the possibility of destruction of the tape under shock loads due to limited ammortiziruyuschey ability of the support elements due to their considerable mass and rigidity.

 The aim of the invention is to increase the efficiency of the boot device by reducing the mass of the supporting elements.

 The invention is characterized in that the support elements made in the form of rollers freely rest on the support rollers placed between the rollers with the possibility of rotation, each roller resting on two adjacent support rollers with a sag between them, and the adjacent rollers resting on a common support roller moreover, the diameter of the rollers adopted more than the diameter of the supporting rollers, which at the edges can be provided with collars with the possibility of their interaction with the rollers, and can also be an additional They are equipped with semicircular concentric tides placed along the length of the roller with the possibility of their interaction with the surface of the rollers.

 In FIG. 1 shows a device, side view; in FIG. 2 is a section along AA in FIG. 1; in FIG. 3 embodiment of the supporting roller with concentric tides of a semicircular shape.

 The loading device consists of supporting elements installed under the load-bearing branch of the conveyor belt 1 in the form of light elastic cylindrical rollers 2. The rollers 2 can be made of porous material or inflatable. The rollers 2 with gaps 3 between themselves and with gaps 4 between the extreme rollers 2 and the straight rollers 5 of the load-bearing branch of the conveyor belt 1 freely rest on the supporting straight rollers located between the rollers 2. Each roller 2 is supported on two adjacent supporting rollers 6 with sagging between them, and adjacent rollers 2 are supported by a common supporting roller 6. Moreover, the diameter of the rollers 2 is taken to be larger than the diameter of the rollers 6. The rollers 6 are rotatably mounted on the conveyor frame (run) 7 and provided with collars on the edges 8. The rollers 2 on the conveyor are installed in the area where the loading chute 9 is placed, along which the goods fall onto the load-bearing branch of the conveyor belt 1. The belts 1 in the conveyor loading zone have a flat shape, and the placement of the transported goods on the belt 1 along its width is limited by the guide sides 10. Outside of the guide boards 10, the load-bearing branch of the conveyor belt 1 has a grooved cross section formed by grooved roller bearings 11. The supporting rollers 6 can be made not smooth cylindrical (figure 2), but with concentric semicircular tides 12, placed along the length of the rollers 6, with the possibility of interaction of the tides with the surfaces of the elastic rollers 2 (figure 3).

 The loading device of the conveyor belt operates as follows. The cargo to be transported through the chute 9 enters the load-bearing branch of the conveyor belt 1. When large pieces fall on the belt 1, the latter, bending downward and interacting with the elastic rollers 2, elastically deforms them. The rollers 2, rotating from interaction with the belt 1, transfer the load perceived from the belt 1 to the rollers 6, and the latter to the conveyor frame 7. In this case, the rollers 2 rotate in the direction of travel of the belt 1, and the rollers 6 in the opposite direction. From the lateral displacement, the rollers 2 are held by the shoulders of the 8 rollers 6. When the rollers 6 are made with tides 12, the rollers 2 from the lateral displacement are additionally held by the tides 12 of the rollers 6 pressed into the rollers 2.

 The accepted ratio of the diameters of the rollers 2 and the rollers 6 eliminates the possibility of rolling the rollers 2 through the rollers 6 during operation of the conveyor.

 The adopted free support of the elastic rollers 2 on the rollers 6 and their rolling on them allows to minimize the mass of the rollers 2 and their rigidity, which means to reduce the load on the conveyor belt 1 when interacting with large pieces of transported cargo, to minimize the possibility of destruction and integrity tape 1, increase its durability.

 The placement of the rollers 2 between adjacent rollers 6 with minimum clearances 3 and with the sagging of the rollers 2 between the rollers 6 along with the accepted ratios of their diameters eliminates the possibility of displacement of the rollers 2 in the direction of movement of the tape 1, provides independent interaction of each roller 2 with the tape 1, reducing the inertia of the system, provides a minimum span between adjacent rollers 2, which further reduces the load on the conveyor belt 1.

 The implementation of the rollers 6 with shoulders 8, as well as their additional equipment with concentric rounded tides 12 provides for the fixation of the rollers 2 in the transverse direction, which increases the reliability of the device.

Claims (5)

 1. DEVICE FOR SUPPORTING THE TAPE IN THE PLACE OF ITS DOWNLOAD, including elastic elements and supporting rollers placed under the belt with gaps to each other on the conveyor frame, characterized in that the elastic elements are made in the form of rollers, each of which is freely mounted on two adjacent supporting rollers, and adjacent rollers are mounted on a common supporting roller for them, and the diameters of the rollers are larger than the diameters of the supporting rollers.  2. The device according to p. 1, characterized in that the supporting rollers at the edges are provided with collars located with the possibility of their interaction with the rollers.  3. The device according to claims 1 and 2, characterized in that the supporting rollers are provided with semicircular concentric tides arranged along the length of the roller with the possibility of their interaction with the surface of the rollers.  4. The device according to claim 1, characterized in that the rollers are made of porous material.  5. The device according to claim 1, characterized in that the rollers are inflatable.

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