0-90 Degree Underground Mining Coal Curve Conveyor Belts
USD $4 - $30 /Meter
Min.Order:50 Meters
Lixian Huadu Rubber Belts Co., Ltd.
corrugated rubber belt conveyor
Feature:
Din Standard Apron/Sidewall Rubber Conveyor Belt is one of the most effective ways of elevating materials in a confined space, the economy is achieved by single belt operation, wide range material can be handled, less space requirement, no transfer point, low maintenance and big capacity. Corrugated sidewall belt can be designed into a set of complete transportation system according to application.Din Standard Apron/Sidewall Rubber Conveyor Belt.
Base Belt Structure:
Four parts: Top cover rubber; Bottom cover rubber;
Reinforced core; Cross rigid.
Thickness of top cover rubber: 3-6mm;
Thickness of bottom cover rubber: 1.5-4.5mm.
Belt core: Cotton, Nylon, EP or Steel Cord
The Width is the same as normal belt. The standard meets with GB/T7984-2001.
Cleat:
Cleat types: T, TS, C, TC and TCS
The cleat is made of enforced fabric, solid, anti-shock to avoid distortion.
"TS" and "TCS" cleat are normally used for abrasion condition
"T" and "TS" cleat are normally used up to 40 degree
"TC" and "TCS" are normally used from 40 degree to 90
(c) the level of :2-10
(d) plastic cover: Face :1.5-8 mm non-Face: 0 mm-4.5mm
Sidewall conveyer belt always work together with the wave-shape Apron transfardng system, normally the angle is more than 30o, it also could work together with the common use belt conveyor for [he horizontal and short distance transportation (No clapboard generally).
Sidewall conveyer belt uses the baseband, flange and diaphragm (it is not necessary in the horizontal transpodation) that the trough degree no greater than 0.03, and after twice suguration it could be made.
Sidewall conveyer belt using the technics of twice sulfuration compared to the similar products using the gluing process, has the advantages of high bonding degree and splendid flexibility, it could avoid the phenomenon of flange, clapboard cracking and fall off etc.
The parameter relationship of the base belt width and flange height is as the following table(mm): |
Bandwidth B of base | Block high H | Horizontal baffle high H1 | The wave bottom wide B1 | Effective bandwidth B2 | Empty wide B3 | Horizontal baffle form |
300 | 40 | 35 | 25 | 180 | 35 | TC |
60 | 55 | 50 | 120 | 40 | ||
80 | 75 | |||||
400 | 60 | 55 | 50 | 180 | 60 | TC |
80 | 75 | |||||
100 | 90 | |||||
500 | 80 | 75 | 50 | 250 | 75 | TC |
100 | 90 | |||||
120 | 110 | |||||
650 | 100 | 90 | 50 | 350 | 100 | TC |
120 | 110 | |||||
160 | 140 | 75 | 300 | |||
800 | 120 | 110 | 50 | 460 | 120 | TC |
160 | 140 | 75 | 410 | |||
200 | 180 | |||||
1000 | 160 | 140 | 75 | 550 | 150 | TC |
200 | 180 | |||||
240 | 220 | |||||
1200 | 160 | 140 | 75 | 690 | 180 | TC |
200 | 180 | |||||
240 | 220 | |||||
300 | 260 | 100 | 640 | |||
1400 | 200 | 180 | 75 | 830 | 210 | TC |
240 | 220 | |||||
300 | 260 | 100 | 780 | |||
400 | 360 |