Cement Bucket Elevator/Chain Plate Bucket Elevator
Max. Particle Size (mm) Bucket Volume (L) Bucket Width (mm) Bucket Pitch (mm) Bucket Speed (m/s) Max. Lifting Height (m) Max. Particle Size (mm) Bucket Volume (L) Bucket Width (mm) Bucket Pitch (mm) Bucket Speed (m/s) Max. Lifting Height (m) Succinic Acid,Natural Succinic Acid,Succinic Acid Plant Growth Regulator,Soil Conditioner JIANG SU CYCLE BIOSCIENCE CO.,LTD , https://www.cyclebiostimulants.com
It is designed for transporting vertically for granular, powder and small block of grinding suction smaller disperses the shape material. It adopts belt as the traction component , can reach to max.40 meters . Capacity could be approx. 4~238m3/h .
Working Principle
The bucket is filled with material and is conveyed to the head terminal, and then the material is thrown from the outlet under the action of centrifugal force according to the parabolic design. The driving device drives pulley to operate the bucket belt in circular motion from bottom to up. After discharging, the empty bucket is back to the boot by conveying and be filled again, and then lifted up to do parabolic motion such repeated cycle. The material is lifted from bottom to the top to the specified height to reach conveying vertically.
Features
  1.Smooth transmission - no impact caused due to the traction member
  2.Less noise pollution - good sealing sound system
  3.Greater conveying speed due to smooth transmission
  4.Longer life span
  5.Low cost compared with other conveyor for powder materials.
Advantages
  1.Uses 1 to 4 rows of closely spaced heavy duty seamless steel buckets
  2.Designed steel cord high temperature elevator belt.
  3.Capable of belt speed up to 2.3 m/s
  4.Achieve far greater capabilities per case size then chain (up to double times)
  5.Saves 33% of components costs
  6.Much lower capital investment
  7.Belt wear less than chain
  8.Reduced maintenance and spares cost
  9.Reduces down time and maintenance costs
  10.Throughputs up to 1300 TPH and over
Application
  The vertical belt bucket elevator is widely used in mining , metallurgy , chemicals , power plant , agriculture and quarry etc industries for handling products such as cement, raw meal, alumina, coke, foundry sand, wood chips and other materials.
Maintenance
  A general belt bucket elevator inspection every six months, mainly on the hopper and belt tightening bolt joints check processing, tightening or replacing bolts. Each belt test once a year to confirm the age of the plastic surface of the belt and the belt strength. Adjust the level of the cylinder head and tail roller to correct the belt deviation. If the deviation is caused by drum plastic surface wear, re-roll the car hanging plastic and rubber surfaces. The rear bearing need to regularly check. Generally, after a long time usage, it will cause wear on slip ring seal. This can cause the bearing oil drip and caused bearing damage. Generally, a good slip ring seal can be used for many years.
   A.Check belt for tears, cuts and etc
Sudden signs of unusual damage call for immediate action.
   B.Check cups for loose or missing bolts
A loose dangling cup is the necessary lever to start a busted belt rip.
   C.Replace belt cups
Cups with a pronounced forward bend hold the belt in a vertical arc, which is a contradiction of forces. When the belt is bent in a horizontal arc around the pulleys, this will cause lengthwise cracks to appear at the bolt holes.
   D.Check belt tension
This is a possible source of drive slippage and excessive wear. Belts running loose in a leg are put to severe flex due to lack of full contact with the boot pulley. A loose belt may swing causing the cups to catch and tear the belt.
   E.Check alignmentÂ
Belts not running true due to out-of-plumb pulleys, idlers or casing cause edge wear and pave the way for costly accidents.Â
   F.Check slippage on drive pulleys
Proper lagging of pulleys can increase efficiency and belt life appreciably.
   G.Check bucket elevators for uneven loading
This can cause the belt to crawl across the head pulley and cause edge wear or break the belt fabric.
   H.Check boot for water
A belt allowed to sit in water will rot and tear very easily.
   I.Check discharge throat
The throat to the down leg should be closed as much as possible with a piece of rubber belting adjusted close to the cups. This will prevent back legging.
 Parameters
Â
Model
Capacity
(m3/h)
NE15
15
40
2.5
250
203
0.5
35
NE30
32
55
7.8
300
305
50
NE50
60
60
15.7
300
305
45
NE100
110
70
35
400
400
45
NE150
170
90
52.2
600
400
45
NE200
210
100
84.6
600
500
40
NE300
320
125
127.5
600
500
40
NE400
380
130
182.5
700
600
40
NE500
470
140
260.9
700
700
30
NE600
600
150
330.2
700
700
30
NE800
800
165
501.8
800
800
30
Introduction
It is designed for transporting vertically for granular, powder and small block of grinding suction smaller disperses the shape material. It adopts belt as the traction component , can reach to max.40 meters . Capacity could be approx. 4~238m3/h .
Working Principle
The bucket is filled with material and is conveyed to the head terminal, and then the material is thrown from the outlet under the action of centrifugal force according to the parabolic design. The driving device drives pulley to operate the bucket belt in circular motion from bottom to up. After discharging, the empty bucket is back to the boot by conveying and be filled again, and then lifted up to do parabolic motion such repeated cycle. The material is lifted from bottom to the top to the specified height to reach conveying vertically.
Features
  1.Smooth transmission - no impact caused due to the traction member
  2.Less noise pollution - good sealing sound system
  3.Greater conveying speed due to smooth transmission
  4.Longer life span
  5.Low cost compared with other conveyor for powder materials.
Advantages
  1.Uses 1 to 4 rows of closely spaced heavy duty seamless steel buckets
  2.Designed steel cord high temperature elevator belt.
  3.Capable of belt speed up to 2.3 m/s
  4.Achieve far greater capabilities per case size then chain (up to double times)
  5.Saves 33% of components costs
  6.Much lower capital investment
  7.Belt wear less than chain
  8.Reduced maintenance and spares cost
  9.Reduces down time and maintenance costs
  10.Throughputs up to 1300 TPH and over
Application
  The vertical belt bucket elevator is widely used in mining , metallurgy , chemicals , power plant , agriculture and quarry etc industries for handling products such as cement, raw meal, alumina, coke, foundry sand, wood chips and other materials.
Maintenance
  A general belt bucket elevator inspection every six months, mainly on the hopper and belt tightening bolt joints check processing, tightening or replacing bolts. Each belt test once a year to confirm the age of the plastic surface of the belt and the belt strength. Adjust the level of the cylinder head and tail roller to correct the belt deviation. If the deviation is caused by drum plastic surface wear, re-roll the car hanging plastic and rubber surfaces. The rear bearing need to regularly check. Generally, after a long time usage, it will cause wear on slip ring seal. This can cause the bearing oil drip and caused bearing damage. Generally, a good slip ring seal can be used for many years.
   A.Check belt for tears, cuts and etc
Sudden signs of unusual damage call for immediate action.
   B.Check cups for loose or missing bolts
A loose dangling cup is the necessary lever to start a busted belt rip.
   C.Replace belt cups
Cups with a pronounced forward bend hold the belt in a vertical arc, which is a contradiction of forces. When the belt is bent in a horizontal arc around the pulleys, this will cause lengthwise cracks to appear at the bolt holes.
   D.Check belt tension
This is a possible source of drive slippage and excessive wear. Belts running loose in a leg are put to severe flex due to lack of full contact with the boot pulley. A loose belt may swing causing the cups to catch and tear the belt.
   E.Check alignmentÂ
Belts not running true due to out-of-plumb pulleys, idlers or casing cause edge wear and pave the way for costly accidents.Â
   F.Check slippage on drive pulleys
Proper lagging of pulleys can increase efficiency and belt life appreciably.
   G.Check bucket elevators for uneven loading
This can cause the belt to crawl across the head pulley and cause edge wear or break the belt fabric.
   H.Check boot for water
A belt allowed to sit in water will rot and tear very easily.
   I.Check discharge throat
The throat to the down leg should be closed as much as possible with a piece of rubber belting adjusted close to the cups. This will prevent back legging.
 Parameters
Â
Model
Capacity
(m3/h)
NE15
15
40
2.5
250
203
0.5
35
NE30
32
55
7.8
300
305
50
NE50
60
60
15.7
300
305
45
NE100
110
70
35
400
400
45
NE150
170
90
52.2
600
400
45
NE200
210
100
84.6
600
500
40
NE300
320
125
127.5
600
500
40
NE400
380
130
182.5
700
600
40
NE500
470
140
260.9
700
700
30
NE600
600
150
330.2
700
700
30
NE800
800
165
501.8
800
800
30