CN202529492U - High-temperature-resistant high-dip-angle conveying belt - Google Patents

Abstract

The utility model relates to a high-temperature-resistant high-dip-angle conveying belt which comprises a base band generated by vulcanization, a wave form baffle edge and baffle plates, wherein the wave form baffle edge is annularly arranged at edge parts at two sides of the base band; the base band is internally provided with an inner core; the upper surface of the base band is vertically provided with a plurality of baffle plates; and two ends of each of the plurality of baffle plates are connected with the wave form baffle edge and are arranged at intervals along 10-100cm of the base band. The conveying belt has favorable bearing and load bearing performances, can lift and convey materials at the high dip angle of 0 degree-90 degrees, can lift the materials with different specifications, different shapes and different particle sizes conveniently, timely, accurately and effectively, and can effectively prevent the materials from rolling off or sliding off the base band.

Description

High temperature resistant, high dip angle load-transfer device

Technical field

The utility model relates to a kind of high temperature resistant, high dip angle load-transfer device, and what particularly have wave like capped edge, dividing plate can be used for high dip angle, the load-transfer device of convey materials accurately.

Background technology

Load-transfer device is widely used in metallurgy, mine, cement, chemical fertilizer, food processing, building, mechano-electronic industry, processing industry; Be mainly used in the material that promotes and transmit different size, difformity, different sizes; Particularly when promoting the transport condition of high dip angle material >=30 °; Because the front of traditional load-transfer device is a plane; Roll owing to the inclination of traditional load-transfer device makes material for some small particles material, make its material break away from load-transfer device and cause and transmit failure, be difficult to carry out conveyor line production and automated job.

The utility model content

The technical matters that the utility model will solve provides a kind of high temperature resistant good carrying load-bearing property that has; Can promote and convey materials at 0 °-90 ° high dip angle, can be convenient, in time, accurately actv. promotes conveying different size, difformity, varigrained material and actv. and prevents that material from tumbling or the load-transfer device of landing from base band.

For solving the problems of the technologies described above; High temperature resistant, the high dip angle load-transfer device of the utility model comprises the base band and the wave like capped edge of sulfuration and is arranged on the dividing plate of base band upper surface; Wave like capped edge is arranged on the boundary position of said base band both sides ringwise; The base band set inside has inner core, and the base band upper surface vertically is provided with a plurality of dividing plates, and the two ends of said a plurality of dividing plates link to each other with the wave mode rib and arrange along base band 10CM-100CM equidistance.

Through at base band set inside inner core; Can increase the durability and the weight capacity of load-transfer device; Wave like capped edge can prevent effectively that graininess or powdered material from tumbling or landing to the side of load-transfer device, and dividing plate can prevent that material rolls or slides when the high dip angle convey materials downwards.

As a kind of preferred structure of the utility model, the cross-sectional plane of dividing plate is down T-shape.Be the T font of handstand, the base portion below it links to each other with base band, and base portion is vertical with base band; As the another kind of preferred structure of this load-transfer device, the dividing plate of load-transfer device is bent to a lateral bending of load-transfer device motion in the vertical, can make material when nearly 90 ° high dip angle transmits, prevent that effectively material from coming off.

Description of drawings

Below in conjunction with accompanying drawing the utility model is further described.

Fig. 1 is the structural representation of the utility model.

Fig. 2 is the cutaway view of the utility model along A-A line among Fig. 1.

Fig. 3 is the shape scheme drawing of the dividing plate of the utility model.

Fig. 4 is the shape scheme drawing of the another kind of dividing plate of the utility model.

The specific embodiment

Fig. 1 is the structure diagram of the utility model.Behind base band 1 and wave like capped edge 2 dividing plates 3 difference molding sulfurations; Post-cure is integral loop configuration on specialized equipment again; Be provided with dividing plate 3 at base band 1 upper surface, wave like capped edge 2 is arranged on the boundary position of said base band both sides ringwise, and base band 1 set inside has inner core 4; Base band 1 upper surface vertically is provided with a plurality of dividing plates 3, and the two ends of said a plurality of dividing plates 3 link to each other with wave mode rib 2 respectively and arrange along the every 10CM of base band 1 upper surface-100CM equidistance.The load-transfer device of sulfuration can tolerate the high temperature below 300 degrees centigrade; Through at base band 1 set inside inner core 4; Can increase the durability and the weight capacity of load-transfer device; Wave like capped edge 2 can prevent effectively that graininess or powdered material from tumbling or landing to the side of load-transfer device, and dividing plate 3 can prevent that material rolls or slides when the high dip angle convey materials downwards.

Fig. 2 is the cutaway view of the utility model along A-A line among Fig. 1.As a kind of optimal way of the utility model, inner core can be provided with multilayer, and inner core is tiling near the upper strata core of upper surface 5 and lower floor's core 7 near lower surface, and its interlayer core 6 is set to waveform.Inner core can be polyester-cotton blend canvas or EP sail face cloth or steel wire.Waveform inner core 6 can increase the durability and the weight capacity of load-transfer device.

Fig. 3 is the shape scheme drawing of the dividing plate of the utility model.As a kind of preferred structure of the utility model, the cross-sectional plane of dividing plate is the T font of handstand, and the base portion 8 below it links to each other with base band, and base portion 9 is vertical with base band, dividing plate can prevent material when transportation to lower slider.

Fig. 4 is the shape scheme drawing of the another kind of dividing plate of the utility model.As the another kind of preferred structure of this load-transfer device, the dividing plate of load-transfer device is bent to a lateral bending of load-transfer device motion in the vertical, can make material when nearly 90 ° high dip angle transmits, prevent that effectively material from coming off.

In sum, adopt the load-transfer device of the utility model, can realize that high temperature resistant, high dip angle carries various materials.

Claims (5)

1. high temperature resistant, high dip angle load-transfer device; Comprise base band that sulfuration generates and wave like capped edge, dividing plate; It is characterized in that: described wave like capped edge is arranged on the boundary position of said base band both sides ringwise; Described base band set inside has inner core, and described base band upper surface vertically is provided with dividing plate, and the two ends of described dividing plate link to each other with described wave mode rib and arrange along base band 10CM-100CM equidistance.

2. load-transfer device according to claim 1 is characterized in that: described inner core is a multilayer, and the interlayer core is the waveform setting, is provided with for tiling near the upper strata core of upper surface with near lower floor's core of base band lower surface.

3. load-transfer device according to claim 2 is characterized in that: described inner core is polyester-cotton blend canvas or EP sail face cloth or steel wire.

4. load-transfer device according to claim 2 is characterized in that: the cross-sectional plane of said dividing plate is down T-shape.

5. load-transfer device according to claim 2 is characterized in that: said dividing plate is vertically crooked to the same side.

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