Our Products
This pellet mill can process agriculture and forestry processing wastes such as sawdust, straw, rice husk and bark into high density pellet fuel. The biomass pellet is ideal alternative fuel of coal and oil, which both saves energy and reduces soot emissions.
1.Available raw material: woodiness, straw, peanut shell, palm nut, coconut shell, cotton seed, bamboo dust, elephant grass, sugar cane, pulp, olive slag, organic manure and so on.
2.The main drive system uses high-precision gear revolve, it improves the production of 15%-20%.
3.The drive part of the machine uses high quality bearings which are all imported. They all made the machine effective , steady and environmental.
4.The lubrication system made all bearings work well.
5.The machine adopts a system of conversion speed-adjustable feeding and axial steam spraying, external discharging and overload protection.
This pellet mill can process agriculture and forestry processing wastes such as sawdust, straw, rice husk and bark into high density pellet fuel. The biomass pellet is ideal alternative fuel of coal and oil, which both saves energy and reduces soot emissions. Whats more, the biomass pellet is high effective and clean renewable energy. Biomass pellet machine is divided into flat die pellet mill and ring die pellet mill.
Biomass falls into the mill vertically from feed inlet, then evenly and continuously distributed in the mold inner cavity surface (the pressing roller and mold contact surface) and then the powdery material gets through the holes that evenly distributed in the mold under the pressure of pressing wheels. In this process, the material has physical change or appropriate chemical change under high pressure and high temperature (according to material), prompting the powdery materials forming into ever-lengthening solid cylinders which then cut off by the cutting knife, and at last pellets discharged from the discharge hole.
Model
Capacity (t/h) | Power (kw) | Inner diameter of die | Pellet size (mm) | Dimension (mm) | Net weight (T) | |
YPM250 | 0.1-0.2 | 18.5 | 250 | Ø6,Ø8,Ø10 | 1300*1330*850 | 0.73 |
YPM320 | 0.3-0.5 | 37 | 320 | Ø6,Ø8,Ø10 | 2100*1100*1140 | 1.2 |
YPM350 | 0.5-0.8 | 55 | 350 | Ø6,Ø8,Ø10 | 2500*1100*1150 | 1.65 |
YPM420 | 0.9-1.2 | 90 | 420 | Ø6,Ø8,Ø10 | 3000*1200*1470 | 2.8 |
YPM520 | 1.3-1.8/1.8-2.5 | 132/160 | 520 | Ø6,Ø8,Ø10 | 3200*1300*1420 | 4 |
YPM600X | 2.5-3 | 185 | 600 | Ø6,Ø8,Ø10 | 3000*1750*1810 | 4.5 |
YPM660 | 3-4 | 200 | 660 | Ø6,Ø8,Ø10 | 3570*1800*1850 | 7.5 |
YPM800 | 4-6 | 315 | 800 | Ø6,Ø8,Ø10 | 4300*1900*2040 | 11 |
The roadheader equips large span cutting boom and small diameter cutting head which makes it work for a large cross section and have stronger rock breaking capacity.
Double layout, increase the installation and maintenance of space, the weight distribution is balanced, stable center of gravity.
The automatic cable drum and multi degree of freedom overcast cooperate to pick and lay cables automatically when the roadheader is walking.Instead of manual operation, the automatic cable drum can protect cables , ensure excavation and supporting synchronous and improve construction efficiency.
Spraying system adopts Venturi spray nozzles, which makes the roadheader have high water pressure and good effect, at the same time, dust fan is equipped on the machine, all these provide a good environment for the tunnel construction.
The machine uses much intelligent control technologies, such as remote control, leakage detection, failure warning, security protection etc.The use of international famous hydraulic, electrical components and humanized design make it safe and reliable to operate.
Project
Unit | Parameter | |
Total weight | (kg) | 12000 |
Overall dimension | ||
Total length without additional conveyor) | (mm) | 22900 |
Total width Ramp plate | (mm) | 4200 |
Total width Aggregat | (mm) | - |
Total width Main frame | (mm) | 4000 |
Total height The highest point of cutting head for laying horizontally | (mm) | 5200 |
Total height Main frame | (mm) | 4900 |
Undercut max telescoping/non-telescoping | (mm) | 550 |
Ground clearance of machine | (mm) | 440 |
Height Cutting cross section | (mm) | 8800 |
Width Cutting cross section | (mm) | 9500 |
Gantry height | (mm) | - |
Max./Economic compressure strength for cutting coal petrography | (MPa) | ≤130/100 |
Travel speed | (m/min) | 10 |
Installed power of cutting motor | (kW) | 320/270 |
Installed power of pump motor | (kW) | 132 |
Supply voltage | (V) | AC380/660 |
Line frequency | (Hz) | 50 |
Loading capacity | (m³/min) | - |
Pressure of water spraying | (MPa) | External spraying:2 |
EBH200 cantilever-type roadheader with double gun horizontal cutting, has good cutting stability. Hydraulic system uses imported hydraulic components, with high reliability. Adapts to minimum cross section of 7.8 square meters.
Suitable for working in coal mine, water conservancy tunnel, engineering excavation, potash mine, sodium mine, bauxite and other geological conditions with hardness coefficient upto f8.5.
Equipped with a scraper conveyor, it can achieve rapid excavation and uninterrupted transportation.
QSM-5-15-B-SH is a new type of portable cutting equipment functioning by front-mix abradant water jet flow; it adopts cold cutting technologies.
This waterjet cutting machine has passed spark test, static electricity test and temperature test, and met the anti-explosion requirements.
Note: QSM-5-15-B-SH waterjet cutting machine is an integral part of the main machine system and provides high-pressure water jet flows for cutting operations; it needs to assist cutters (for example pipe cutter), cutting gun assembly and high/low-pressure hose to complete cutting operations.
Gas gets into the scrubber tangentially through the bottom air intake, under the action of the fan, quickly filled the air intake segment space, and then flow evenly through uniform flow section up to the first stage feeding absorption section.
Small resistance, low consumption, low noise, high purification efficiency, compact structure, small cover space, good corrosion resistance and aging resistance, light weight.
Gas gets into the scrubber tangentially through the bottom air intake, under the action of the fan, quickly filled the air intake segment space, and then flow evenly through uniform flow section up to the first stage feeding absorption section. On the surface of the filler, the pollutants in gas phase react with the liquid phase substance. The reaction resultant (mostly soluble salts) flowing into the lower portion of the reservoir with the absorption liquid. The gas not completely absorbed continues rises into the spray section. The absorption liquid sprays in high-speed through the uniformly distributed nozzle in the ejection segments, generating numerous small droplets continue react with the gas. This treatment can cool the exhaust gas to remove particles and other impurities. The tower uppermost segment is for defogging, and the absorbing liquid droplets carried by gas are cleared here. The treated clean air is blown into the atmosphere through the upper end of the scrubber.
Gas gets into the scrubber tangentially through the bottom air intake, under the action of the fan, quickly filled the air intake segment space, and then flow evenly through uniform flow section up to the first stage feeding absorption section. On the surface of the filler, the pollutants in gas phase react with the liquid phase substance. The reaction resultant (mostly soluble salts) flowing into the lower portion of the reservoir with the absorption liquid. The gas not completely absorbed continues rises into the spray section. The absorption liquid sprays in high-speed through the uniformly distributed nozzle in the ejection segments, generating numerous small droplets continue react with the gas. This treatment can cool the exhaust gas to remove particles and other impurities. The tower uppermost segment is for defogging, and the absorbing liquid droplets carried by gas are cleared here. The treated clean air is blown into the atmosphere through the upper end of the scrubber.
Gas gets into the scrubber tangentially through the bottom air intake, under the action of the fan, quickly filled the air intake segment space, and then flow evenly through uniform flow section up to the first stage feeding absorption section. On the surface of the filler, the pollutants in gas phase react with the liquid phase substance. The reaction resultant (mostly soluble salts) flowing into the lower portion of the reservoir with the absorption liquid. The gas not completely absorbed continues rises into the spray section. The absorption liquid sprays in high-speed through the uniformly distributed nozzle in the ejection segments, generating numerous small droplets continue react with the gas. This treatment can cool the exhaust gas to remove particles and other impurities. The tower uppermost segment is for defogging, and the absorbing liquid droplets carried by gas are cleared here. The treated clean air is blown into the atmosphere through the upper end of the scrubber.
The Scrubber has A, B and C three models. A model is wet scrubber. B model is acid and alkaline gases scrubber. C model is organic gases and heat gases scrubber.
Counter-flow cooler is newly developed and most advanced pellet cooling equipment. It is mainly used for high temperature pellets cooling after granulation.
Counter-flow cooler is newly developed and most advanced pellet cooling equipment. It is mainly used for high temperature pellets cooling after granulation.
The pellets discharged from the pellet mill are of high temperature and moisture. They are fed by a closed air feeder at the top of the cooler. Then the rotating distribution structure disperses the feed evenly in the cooling cabinet. The air blower sucks hot air from the top feed part, while the cold air enters the cooler from the bottom in all directions and pierce into the feed vertically to take away the heat and moisture. Cooling air reverse the pellets and the pellet is cooled from the bottom to top gradually, thus the cooling time is increased, which does good to the production of high quality pellets and to extend the time of pellets storage. Cooling time is controlled by material upper and lower level. When material reaching upper level, the motor is turn on, beginning discharging. But when material lower than lower level, the motor is stopped, stopping discharging. To avoid overflow, the cooler has been provided with an overflow sensor, which stops feeding to the cooler.
The pendulum counter-flow cooler is composed of a closed air feeder, air exhaust header, upper and lower feeders, hydraulic controlling system, pendulum flap discharging system and air sucking system, etc.
Drum chipper is specialized equipment for high-quality biomass sheet processing, which is applied to all paper mills, particle board plants, fiber plants and wood chip production base, wood chip export base.
Drum chipper is specialized equipment for high-quality biomass sheet processing, which is applied to all paper mills, particle board plants, fiber plants and wood chip production base, wood chip export base. The slicer can cut logs, small diameter wood and other material into high-quality industrial wood chips with uniform length and thickness and flat cut. It can also cut branches, plates, etc.
The slicer can cut logs, wood branches, slab, waste veneer, bamboo, cotton stalks and other non-wood fiber stalks into certain specification sheet material, which can be material of particleboard, fiberboard, non-wood-based board and paper. It has advantages such as advanced structure and high quality sliced product, strong materials adaptability and easy operation and maintenance. This machine is composed of base, blade roll, upper and lower feed rollers, conveyor belts, hydraulic system and other components. The welded base that made of high strength steel is support of the whole machine. Two fly knives are fixed onto the blade roll by specially manufactured fly knives and pressure blocks. According to different raw material thicknesses, the upper feeding assembly can up and down within certain range by means of hydraulic system. Qualified flakes falling down through the mesh sieve and large flakes will be re-cut in the machine.
Specifications
BX213 | BX216 | BX2108 | BX2110 | |
Number of rotor knives (pieces) | 2 | 2 | 16 | 18 |
Feed opening (mm) | 120×350 | 500×200 | 250×600 | 350X700 |
Rotor speed (Rpm) | 760 | 590 | 650 | 550 |
Feed speed (m/min) | 37 | 33 | 26 | 21 |
Stock processed max diameter (mm) | 90 | 200 | 210 | 300 |
Chip length (mm) | 26 | 30-35 | 20 | 20 |
Capacity (m3/h) | 4-6 | 6-10 | 20-30 | 50-70 |
Main drive motor power (kw) | 30 | 55 | 90 | 160 |
Feed roller motor power (kw) | 1.1×2 | 3×2 | 4×2 | 7.5×2 |
Pump motor power (kw) | 1.5 | 2.2 | ||
Machine net weight (kg) | 1250 | 4300 | 5700 | 7500 |
Multilevel classifier is new type classifier designed by our company. We referenced foreign advanced experience to develop classifier independently.
Original vertical type impeller is adopted to classify the final product avoiding coarse material in final product uniform product size high accuracy of classification.
It could match up with all kinds of grinding mill (ball mill Raymond mill and high pressure mill) to constitute closed circuit or open circuit line.
It could produce 1-6 size of products at the same time.
Professional automatic control device is adopted automatic and reasonable control.
Multilevel classifier is new type classifier designed by our company. We referenced foreign advanced experience to develop classifier independently. Its a perfect combination of shunt inertial classification, centrifugal classification, core technology has reached international level, and it has a better technology performance than turbine classifier does.
High degree of automation
model
partition size (μm) | capacity (kg/h) | efficiency of classification (%) | main motor power (kw) | |
4DF-10 | 2-150 | 100-800 | 80-97 | 20 |
4DF-20 | 2-150 | 200-1500 | 80-97 | 32 |
4DF-30 | 2-150 | 500-2500 | 80-97 | 41 |
4DF-44 | 2-150 | 1000-3000 | 80-97 | 62 |
4DF-55 | 2-150 | 1200-4000 | 80-97 | 76 |
4DF-75 | 2-150 | 1500-5500 | 80-97 | 102 |
4DF-102 | 2-150 | 2000-10000 | 80-97 | 138 |
Self lighting type permanent magnet separators is constituted by Nd-fe-b magnetic core, de-iron belt, shell frame, roller and other parts, matching up with many kinds of conveyor
High efficiency neodymium iron boron with strong magnetism and its hard to be demagnetized.
Rollers in both sides adopts drum shape structure possessing rectifying deviation function.
Good leakproofness makes machine can adapt all kinds of severe environment condition.
The control section could be linked with belt conveyor manual control and centralized control two methods are available.
Self lighting type permanent magnet separators is constituted by Nd-fe-b magnetic core, de-iron belt, shell frame, roller and other parts, matching up with many kinds of conveyor, it is applied for removing ferromagnetic substance from non-magnetic materials, permanent magnet separators is set in the de-iron production line.
When the material flows through the separator the ferromagnetic materials are adsorbed to the stainless steel pipe wall and gradually move with the permanent magnet and slide to the tap hole thus realize the material separation. At the tap hole the permanent magnet move away along the cycling direction the ferromagnetic material that loses magnetic attraction discharge from the tap hole under the gravity force therefore achieve the automatic removal of iron materials.
Parameter
Adaptive Bandwidth (mm) | Rated Hanging High(mm) | Material Thickness (≤mm) | Magnetic Intensity (≥mt) | Driving Power (≤kw) | Speed (≤m/s) | Weight(kg) | The shape size(mm) | |||
RCYD(C)-5 | 500 | 150 | 100 | 60 | 1.5 | 4.5 | 750 | 1900 | 935 | 735 |
RCYD(C)-6 | 600/650 | 180 | 130 | 60 | 1.5 | 4.5 | 920 | 2050 | 1030 | 780 |
RCYD(C)-6.5 | 650 | 200 | 150 | 70 | 1.5 | 4.5 | 1200 | 2165 | 1080 | 780 |
RCYD(C)-8 | 800 | 250 | 200 | 70 | 2.2 | 4.5 | 1400 | 2350 | 1280 | 796 |
RCYD(C)-10 | 1000 | 300 | 250 | 70 | 3 | 4.5 | 2120 | 2660 | 1550 | 920 |
RCYD(C)-12 | 1200 | 350 | 300 | 70 | 4 | 4.5 | 3350 | 2860 | 1720 | 1010 |
RCYD(C)-14 | 1400 | 400 | 350 | 70 | 4 | 4.5 | 4450 | 3225 | 1980 | 1050 |
RCYD(C)-16 | 1600 | 450 | 400 | 70 | 5.5 | 4.5 | 6200 | 3350 | 2160 | 1180 |
RCYD(C)-18 | 1800 | 500 | 450 | 80 | 5.5 | 4.5 | 8100 | 3580 | 2450 | 1210 |
RCYD(C)-20 | 2000 | 550 | 500 | 80 | 7.5 | 4.5 | 9700 | 3800 | 2700 | 1300 |
Pulse bag dust catcher is high efficiency energy saving machinery designed by our researcher after several years mining crushing and grinding dedusting and ore powder collecting experience, it can adapted strict dust discharging standard domestic and overseas.
In powder making process dust catcher can filter air collect dust and reduce air pollution
Automation Control device is set to achieve automatic and reasonable control
Matching up with sand and stone production line collecting dust and reducing air pollution
Filtering air collecting dust and reducing air pollution in ball mill powder making beneficiation production line.
Dust-laden air through the inlet into the next ash bucket by fan powered then speed dips large weight dust particles fall into the ash bucket fine dust into the cabinet with the airflow and out of the discharge outlet after the purification treatment by the sieve of the filter bag. The dust which separated outer of the surface of the filter bag makes the resistance increases gradually this time the controller send up signal according to the set resistance range electromagnetic pulse valve is open the high-pressure air which in the air bag spray quickly through the Venturi-tube several times in the first wind-induced ambient air into the filter bag so the filter bag instant expansion and shake off the dust fall into the dust hopper by a purge-air role.
Pulse bag dust catcher is high efficiency energy saving machinery designed by our researcher after several years mining crushing and grinding dedusting and ore powder collecting experience, it can adapted strict dust discharging standard domestic and overseas.
model
Air Capacity (m3/min) | Filtrate Air (m2) | Wind Speed (m/min) | Filtering Bag specification (mm) | Filtering Quantity (Pcs) | Pulse valve (Pcs) | Air Blower+Discharge+Screw (kw) | |
DMC-25 | 1200~1920 | 20 | 1.0~1.6 | φ130×2000 | 25 | 5 | 2.2+1.5+4 |
DMC-30 | 1500~2400 | 25 | 1.0~1.6 | φ130×2000 | 32 | 5 | 2.2+1.5+4 |
DMC-36 | 1680~2680 | 28 | 1.0~1.6 | φ130×2000 | 36 | 6 | 3+1.5+4 |
DMC-49 | 2340~3740 | 39 | 1.0~1.6 | φ130×2000 | 49 | 7 | 3+1.5+4 |
DMC-64 | 3060~4896 | 51 | 1.0~1.6 | φ130×2000 | 64 | 8 | 5+1.5+4 |
DMC-80* | 12000~16800 | 80 | 2.5~3.5 | φ130×2500 | 80 | 10 | 15+0.75 |
DMC-104 | 6032~9500 | 104 | 1.0~1.6 | φ130×2500 | 104 | 13 | 30+1.5+5.5 |
DMC-104* | 15600~21840 | 104 | 2.5~3.5 | φ130×2500 | 104 | 13 | 15+0.75+4 |
DMC-112 | 6720~10752 | 112 | 1.0~1.6 | φ130×2500 | 112 | 14 | 45+1.5+5.5 |
DMC-120* | 18000~25200 | 120 | 2.5~3.5 | φ130×2500 | 120 | 15 | 0.75+4 |
DMC-160 | 9600~15360 | 160 | 1.0~1.6 | φ130×2500 | 160 | 20 | 75+1.5+5.5 |
DMC-160* | 24000~33600 | 160 | 2.5~3.5 | φ130×2500 | 160 | 20 | 0.75+4 |
DMC-184* | 27600~38640 | 184 | 2.5~3.5 | φ130×2500 | 184 | 23 | 37+0.75+4 |
DMC-200* | 30000~42000 | 200 | 2.5~3.5 | φ130×2500 | 200 | 25 | 37+0.75+4 |
DMC-224* | 33600~47040 | 224 | 2.5~3.5 | φ130×2500 | 224 | 28 | 37+0.75+4 |
DMC-264* | 39600~55440 | 264 | 2.5~3.5 | φ130×2500 | 264 | 33 | 55+0.75+4 |
DMC-304* | 45600~63840 | 304 | 2.5~3.5 | φ130×2500 | 304 | 38 | 55+0.75+4 |
KX superfine rotor classifier is external circulating new type classifier with rotor and its designed and developed by EMCC. based on rotor type classifier and combined plane eddy flow theory this kind of classifier is designed.
New type high efficiency low resistivity cyclone dust collector makes low resistance and high dust collection efficiency.
New type lining plate is adopted in all consumable parts easy to maintain and effectively extanding the life of the host machine.
Dustproof -shock absorpting fan minimize the vibration of the whole system
Flexible sweeper is set inside the machine to keep machine clean.
KX superfine rotor classifier is external circulating new type classifier with rotor, and its designed and developed by EMCC. Based on rotor type classifier and combined plane eddy flow theory , this kind of classifier is designed. Proved by practical use, powder classifying efficiency is up to 85%, flexible in fineness adjustment, reliable in performance.
1.Raw material is taken to the inside of classifier from hopper then falls on the combination propeller bulk plate which combines with rotor under the force of rotation of bulk plate. Material will be diffused to all around under the centrifugal force meanwhile material will be raised by the updraft caused by blade rotation and material boiling will be formed on the bulk plate blade. Finer powder will float and suspend and coarse material will falls down along the cylinder wall. Then the first process will be completed.
2.A lower cage-shape rotor 10 is set under the material diatributing tray. The lower cage-shape rotor rotates along with the principle axis. With the rotating movement vortex flow is formed. Then the coarser and heavier material will be scattered again and the finer material will be raised and returned to the circulating air for another classification. And the coarse powder will be excluded from endocone through trickle device.
model
speed of mainshaft (r/min) | capacity (t/h) | Product fineness (80um Square hole sieve) (80um) |
Main motor | supporting fan | |||||||
model | power (kw) | speed adjustable range (r/min) | model | rotate speed (r/min) | wind pressure (Pa) | blast capacity (m3/h) | motor power (kw) | ||||
KX500 | 190-380 | 16-20 | 8%-10% | YCTL225-4A | 11 | 125-1250 | KXJF-No8C | 1680 | 2494 | 29668 | 30 |
KX600 | 150-350 | 21-28 | 8%-10% | YCTL225-4B | 15 | 132-1320 | KXJF-No10C | 1200 | 2400 | 34996 | 37 |
KX700 | 130-320 | 35-46 | 8%-10% | YCTL225-4C | 18.5 | 132-1320 | KXJF-No12.5C | 1000 | 2390 | 64188 | 55 |
KX800 | 120-280 | 55-65 | 8%-10% | YCTL280-4B | 22 | 132-1320 | KXJF-No14C | 980 | 2546 | 86331 | 75 |
KX900 | 120-280 | 70-86 | 8%-10% | YCTL355-4A | 37 | 132-1320 | KXJF-No16B | 800 | 2456 | 99493 | 90 |
KX1000 | 120-280 | 90-115 | 8%-10% | YCTL355-4B | 55 | 132-1320 | KXJF-No16B | 900 | 2684 | 136430 | 110 |
KX1200 | 120-260 | 120-160 | 8%-10% | Y380M-4 | 75 | 120-1480 | KXJF-No20B | 680 | 2771 | 165164 | 160 |
The telestack conveyor is fully programmable to build partially or fully desegregated stockpiles, in-line stockpiles, precision bin filling and barge loading. The telestack conveyors can make full use of the terrain, it can makes reasonable piles.
Mobile Telestack conveyors have numerous advantages, here are just a few:
Mobile Telestack conveyor is made by Shanghai Exceed Industry Co., Ltd. It is a new machine for material handling. The telestack conveyor is fully programmable to build partially or fully desegregated stockpiles, in-line stockpiles, precision bin filling and barge loading. The telestack conveyors can make full use of the terrain, it can makes reasonable piles. Available capacity from 300T/H to 1000T/H, available in lengths from 20 meters to 40 meters. They are road portable and fully customizable.
Mobile Telestack conveyor is made by Shanghai Exceed Industry Co., Ltd. It is a new machine for material handling. The telestack conveyor is fully programmable to build partially or fully desegregated stockpiles, in-line stockpiles, precision bin filling and barge loading. The telestack conveyors can make full use of the terrain, it can makes reasonable piles. Available capacity from 300T/H to 1000T/H, available in lengths from 20 meters to 40 meters. They are road portable and fully customizable.
Mobile Telestack conveyor
Model | Main conveyor |
Extention conveyor |
Length (M) |
Power (KW) |
Capacity (T/H) |
Weight (T) |
TB500 | 500mm | 500mm | 25-40 | 7.5X2 | 100T/H | 20 |
TB650 | 650mm | 650mm | 25-40 | 11X2 | 200T/H | 24 |
TB800 | 800mm | 800mm | 25-40 | 15X2 | 400T/H | 28 |
TB1000 | 1000mm | 1000mm | 25-40 | 18.5X2 | 600T/H | 32 |
TB1200 | 1200mm | 1200mm | 25-40 | 22X2 | 800T/H | 36 |
Belt conveyor is a kind of machine that transfers the material continuously. The belt works under the effect of frictional force. It is not only the component to transfer the material but also the components to transfer the force.
Roller is the main part for power transmission.
Control horizontal positions; reduce the impact of material.
Belt conveyor get tension to avoid slipping; deflection is under control.
High quality of belt conveyor; large dip angle and high delivery value conveying slipping and maturing is could be avoided.
Belt conveyor is a kind of machine that transfers the material continuously. The belt works under the effect of frictional force. It is not only the component to transfer the material, but also the components to transfer the force. EMCC belt conveyor is advanced and simple in structure, easy to maintain. Transfer capacity is more higher, and transfer distance more longer. It is widely used in mining, metallurgical and coal industry to transfer sandy or lump material, or packaged material. In many situation, it is a very important component of nonstandard machinery.
The belt conveyor is composed of standard parts, advanced and simple in structure, easy to maintain. They are widely used in mining, metallurgical and coal industry to transfer sandy or lump material, or packaged material. According to different transferring equipment, the transfer system can be one independently or multi-conveyors or combined with other transfer equipments. It can be installed horizontally or aslope to meet the needs of different transfer lines. The conveyor can be operated in the circumstance temperature range from -20 to +40. Temperature of transferred material by this belt conveyor should be lower than 50.
Belt conveyor is composed of rollers and closed conveyor belt. There are two rollers one is for driving conveyor rotating another one is for changing the motor direction of conveyor. Head roller is drived by motor conveyor is draged by force of friction which is generated from head roller and conveyor. Head roller is often set in the discharging end to increase traction for a better dragging. Material is fed from feed end and falls on the rotating conveyor belt and discharged by conveyor delivery
Belt Width (mm)
)Belt Length (m) / Power (kw) | Belt Speed (m/s) | Capacity (t/h) | |||
400 | ≤12/1.5 | 12-20/2.2 | 20-25/3 | 0.8-2 | 40-80 |
500 | ≤12/3 | 12-20/4 | 20-30/5.5 | 0.8-2 | 78-191 |
650 | ≤12/4 | 12-20/5.5 | 20-30/7.5 | 0.8-2 | 131-323 |
800 | ≤10/4 | 10-15/5.5 | 15-25/7.5 | 1.0-2 | 278-546 |
1000 | ≤10/5.5 | 10-20/7.5 | 20-25/11 | 1.0-2 | 435-853 |
1200 | ≤10/7.5 | 12-20/11 | 20-25/15 | 1.0-2 | 655-1284 |
Drying machine is used in beneficiation, construction material, metallurgy and chemical engineering industry to dry wet material, rotary dryer has strong adaptation of materials characters
Stable working performance of barrel makes material get uniform dried.
Whole process could be completed quickly
Energy saving and high efficiency
Wide application could make better benefit for manufacturer
Drying machine is used in beneficiation, construction material, metallurgy and chemical engineering industry to dry wet material, rotary dryer has strong adaptation of materials characters, many kinds of material could be processed and because of its simple structure, drying machine is general adopted by clients. For a better control of drying machines temperature, thermocouple is set on feeding and discharge device, temperature variation of feeding and discharge end is shown on thermometer to control the working temperature(350-380 degree).
Drying machine is composed by barrel big gear ring pinion riding wheel catch wheel and supporting shaft. Through reducer double reduction pinion drives big gear ring motor drives barrel working in designed speed to dry the material.
length×diameter (mm)
volume (m3) | reduction box | thickness(mm) | weight(t) | power(kw) | dust pelletizing system power of induced draft fan (kw) |
|
Φ1000×10000 | 7.9 | JZQ350 | 10 | 6.2 | 5.5 | 5.5 |
Φ1000×12000 | 9.4 | JZQ350 | 10 | 7.3 | 7.5 | 5.5 |
Φ1200×8000 | 9 | JZQ350 | 10 | 8 | 11 | 7.5 |
Φ1200×10000 | 11.3 | JZQ400 | 10 | 9.5 | 11 | 7.5 |
Φ1200×12000 | 13.6 | JZQ400 | 12 | 10.5 | 15 | 7.5 |
Φ1200×14000 | 15.8 | JZQ400 | 12 | 11.5 | 15 | 7.5 |
Φ1500×12000 | 21.2 | JZQ500 | 12 | 14.4 | 15 | 7.5 |
Φ1500×14000 | 24.7 | JZQ500 | 12 | 15.6 | 18.5 | 11 |
Φ1500×16000 | 28.3 | JZQ500 | 12 | 16.8 | 18.5 | 11 |
Φ1800×14000 | 35.6 | JZQ500 | 14 | 21 | 18.5 | 15 |
Φ1800×16000 | 40.7 | JZQ650 | 14 | 23 | 18.5 | 15 |
Φ1800×18000 | 45.8 | JZQ650 | 14 | 25 | 22 | 15 |
Φ2000×18000 | 56.5 | JZQ650 | 14 | 30 | 30 | 18.5 |
Φ2000×20000 | 62.8 | JZQ650 | 14 | 32 | 30 | 22 |
Φ2000×22000 | 69 | JZQ650 | 14 | 34 | 30 | 22 |
Φ2200×18000 | 68.3 | JZQ650 | 16 | 36 | 30 | 22 |
Φ2200×20000 | 75.9 | JZQ650 | 16 | 40 | 30 | 22 |
Φ2200×22000 | 83.5 | JZQ650 | 16 | 44 | 30 | 22 |
Φ2200×24000 | 91.1 | JZQ650 | 16 | 48 | 37 | 22 |
Φ2400×16000 | 72.3 | JZQ650 | 18 | 45 | 37 | 30 |
Φ2400×18000 | 81.4 | JZQ650 | 18 | 48 | 45 | 30 |
Φ2400×20000 | 90.4 | JZQ750 | 18 | 51 | 45 | 37 |
Φ2400×24000 | 108.2 | JZQ750 | 18 | 60 | 55 | 37 |
Φ2400×28000 | 126.6 | JZQ750 | 18 | 67 | 75 | 55 |
Φ2500×20000 | 98 | JZQ750 | 18 | 55 | 55 | 45 |
Φ2500×24000 | 117.7 | JZQ750 | 18 | 64 | 75 | 55 |
Φ2500×28000 | 137.4 | JZQ750 | 20 | 75 | 75 | 55 |
Vibrating feeder is for feeding block material for crushing and screening machine. It is divided into steel plate structure and grate structure two types; steel plate structure vibrating feeder is applied in stone and sand production line, grate structure vibrating feeder is for coarse screening material to make whole system more economical, its an essential machine in the crushing and screening line.
Grate clearance is adjustable according to requirement backplate is removable to simplify maintenance and lengthen service life.
High strength and high high precision gear make stable working of machine
Famous motor brand clients can choose Siemens brand
Clients can check the position of lubricating oil
Vibrating feeder is for feeding block material for crushing and screening machine. It is divided into steel plate structure and grate structure two types; steel plate structure vibrating feeder is applied in stone and sand production line, grate structure vibrating feeder is for coarse screening material to make whole system more economical, its an essential machine in the crushing and screening line.
GZD Series Vibrating feeer adopts vibration motor as the source of vibration, which has features of simple structure, high capacity, low maintenance rate. It can be widely used in the fields of metallurgy, construction, stone crushing, etc.
While, ZSW Series Vibrating feeder adopts eccentric block as the source of vibration, gear drove by turns which has low vibrating noise, smooth operation, long usage. It can also pre-screen fine raw materials which makes higher effiency. The design of adjustable fence can prevent the materials from blocking in the gap.
GZD Series Vibrating feeer adopts vibration motor as the source of vibration which has features of simple structure high capacity low maintance. It can be widely used in the fields of metallurgyconstruction stone crushing etc.
While ZSW Series Vibrating feeder adopts eccentric block as the source of vibration gear drove by turns which has low vibrating noise smooth operation long usage. It can also pre-screen fine raw materials which makes higher effiency the designing of adjustable fence can prevent the materials from blocking in the gap.
Model
Max . Feeding Size (mm) | Capacity (t/h) | Motor Power Pole | Power (kw) | Installation Angle (°) | Size of Funnel (mm) | Machinery Weight (t) | Dimension (L×W×H) (mm) | |
GZD-180×80 | 300 | 30-80 | 4 | 2×1.5 | 0-10 | 1800×800 | 0.8 | 1907×964×890 |
GZD-300×90 | 400 | 40-100 | 4 | 2×2.2 | 0-10 | 3000×900 | 1.5 | 3400×1020×900 |
ZSW-300×90 | 450 | 50-150 | 6 | 7.5 | 0-10 | 3000×900 | 3.5 | 3080×1650×1180 |
ZSW-380×96 | 500 | 120-210 | 6 | 11 | 0-10 | 3800×960 | 4.2 | 3880×1724×1180 |
ZSW-420×110 | 650 | 180-400 | 6 | 15 | 0-10 | 4200×1100 | 4.8 | 4200×1804×1180 |
ZSW-490×110 | 650 | 250-480 | 6 | 15 | 0-10 | 4900×1100 | 5.3 | 4976×1864×1180 |
ZSW-490×130 | 800 | 300-550 | 6 | 22 | 0-10 | 4900×1300 | 6.7 | 4976×2064×1180 |
ZSW-600×130 | 800 | 340-600 | 6 | 30 | 0-10 | 6000×1300 | 7.8 | 6100×2004×1250 |
ZSW-600×160 | 1050 | 400-800 | 4 | 37 | 0-10 | 6000×1600 | 10.8 | 6400×3085×2395 |
LSX spiral sand washer machine can be used for cleaning and separating the powder dust and soil from construction sand. Novel seal structure and reliable transmission of this sand washing device make sure the cleaning effect.
Clever design plays a role in separation of powder and soil in the sand stone.
Reliable transmission device makes sure the cleaning effect.
Greater capacity smaller power consumption easier operation and maintenance and high efficiency.
Lower price than other series sand washing machine with the same capacity.
The electric motor runs slowly with the impellor after being decelerated by the belt decelerator and gears wheel. The sand and stone flow into washing launder from feeding launder roll with the impellor and grind each other. The impurity covering the sand is washed away. At the same time adding more water the strong water flow will take away waste and some low-weight wastes from washing launder. Through the above process the washing function is finished. The clean sand and stone is lifted up by vane. When it goes up slowly the water begins to drop through the mesh and fall back in the washing launder. On one hand water is removed from the sand and stone; on the other hand the water can be fully used. Finally the sand and stone go to the out launder from the rotary impellor to finish the washing task.
LSX spiral sand washer machine can be used for cleaning and separating the powder dust and soil from construction sand. Novel seal structure and reliable transmission of this sand washing device make sure the cleaning effect. LSX sand washing machine is usually used with a sand making equipment, and there are two sorts of single spiral type and double spiral type, with features of a high degree of washing, reasonable structure, large capacity, low power consumption, and less loss of sand available. Especially transmission parts of sand washing machine are water and sand isolated, so the failure rate is much lower than the commonly sand washing machine. So it is the best choice for upgrading washing sand industry
Model
LSX-920 | 2LSX-920 | LSX-1120 | 2LSX-1120 | |
Number of Screw(Pcs) | 1 | 2 | 1 | 2 |
Screw Diameter(mm) | 920 | 920 | 1120 | 1120 |
Tub Length(mm) | 7585 | 7585 | 9750 | 9750 |
Feeding Size(mm) | ≤10 | ≤10 | ≤10 | ≤10 |
Capacity (t/h) | 100 | 200 | 175 | 350 |
Screw Speed(r/min) | 21 | 21 | 17 | 17 |
Required Power(KW) | 11 | 11×2 | 18.5 | 18.5×2 |
Water Requirement (t/h) | 10-80 | 20-160 | 20-150 | 40-300 |
Weight (t) | 6.2 | 11.5 | 10.9 | 17.8 |
Fine Sand Recycling Machine is designed based on the actual situation in our country and absorbing advanced technologies in home and abroad.
Cyclone liner composition containing polyurethane improves the life of whole sand recycling device which is conducive to concentrated slurry and liquid clarification.
Vibrating screen uses polyurethane screen mesh and has a longer life than other types of screen mesh without blocking.
Higner production easier operation and maintenance and higher efficiency.
New whole casting and assembly process.
The HX22 sand recovery equipment is mainly composed of wash tank slurry pump motor hydrocyclone vibrating screen and storage bin. When it starts working the mixture of cement will be pumped into hydro-cyclones by mortar pump and through the cyclone centrifugal grading a mass of concentrated fine sand are given to the linear vibrating screen for sieving and dehydrating. At the same time a small amount of fine sand return back to washing trough from container and will be discharged through overflow pipe when the wash tank liquid level is too high. Mediation fineness modulus of fine sand moisture content25%can be controlled by changing the speed of the pump controlling slurry concentration regulating water and replacing the sand mouth to realize three functions of washing dewatering and grading.
Fine Sand Recycling Machine is designed based on the actual situation in our country and absorbing advanced technologies in home and abroad. This sand recovery device overcomes problems of fine sand material loss and being difficult to control during the traditional process where sand washing machine is adopted for sand mud washing and dehydration. The equipment can effectively reduce the loss of fine sand and the content of stone powder in water, thus well solving the difficulty where final sand fineness modulus is on the high side and the stone powder content is on the low side.
Model
Slurry pump power (kw) |
Hydrocyclone | Hydrocyclone Model |
Vibrating Screen Model |
Vibrating Screen Powder(kw) |
Capacity(m3/h) | |
HX22-30 | 11 | 300 | 300 | 850×2500 | 6P-3KW×2 | 50-80 |
HX22-50 | 11×2 | 500 | 250×2 | 1200×3000 | 4P-4KW×2 | 100-160 |
HX22-60 | 22×2 | 600 | 300×2 | 1200×3000 | 4P-4KW×2 | 160-230 |
Mineral powder surface modifying machine, also called as Powder surface coating machine, is widely used in the fields of non-metal stuffing like pigment, plastic, rubber, adhesive, macromolecule materials, high polymer composite, functional materials and dope industries, is an outcome of the development of new and high technology nowadays. After dealing with Powder Coating machine, it can not only improve the compatibility of both non-organic mineral stuff and organic high polymer, enhance binding force of interfaces and rising the mechanical strength and comprehensive ability, but also increase the stuffing ability of powder, saving product cost and adding special physical and chemical property to the product to some extent. For resolving the above-mentioned problem in production, this high efficiency equipment CLG powder surface modifying machine is recommended by our company as a result of hard research work.
1, Continuous operation, large capacity, suitable for industrialization production in various scale.
2, High use and less consumption of modifying agent. high covering and active index of power, energy saving.
3, Both modifying and dispersion function, suitable for any fine materials, special active effect for material with small proportion and big cubage weight like white carbon, mica powder and talcum powder.
4, Powder and agent mixing and running in high speed and vortex, high modifying efficiency, with little change of granulate shape.
5, Running at vacuum, air tight, no dust leakage, no pollution, good operation condition, low labor intensity.
6, Operating in heat and cold conditions, no additional heating or cooling system required, easy operation.
7, Independent fluid and non-fluid agent adding system for continuous, stable and even operation.
Mineral powder surface modifying machine, also called as Powder surface coating machine, is widely used in the fields of non-metal stuffing like pigment, plastic, rubber, adhesive, macromolecule materials, high polymer composite, functional materials and dope industries, is an outcome of the development of new and high technology nowadays. After dealing with Powder Coating machine, it can not only improve the compatibility of both non-organic mineral stuff and organic high polymer, enhance binding force of interfaces and rising the mechanical strength and comprehensive ability, but also increase the stuffing ability of powder, saving product cost and adding special physical and chemical property to the product to some extent. For resolving the above-mentioned problem in production, this high efficiency equipment CLG powder surface modifying machine is recommended by our company as a result of hard research work.
The powder surface treatment is completed mainly by means of three modifying rollers. The dry powder and dosed agent are put into modifying rollers simultaneously. With high speed rotation, the materials and agent is running in the form of fluidizing vortex. The modification is completed with the heat generated by high speed shearing, colliding and friction among the rotor, stator and thePower.
Model
Main Power | Blower Power | Speed of Shaft | Capacity | Weight | Overall Dimension | |
CLG-200D | 11kw | 2.2kw | 5700 r.p.m | 40-150kg/h | 1t | 3200*600*2200mm |
CLG-3/300 | 3-18.5kw | 5.5kw | 4500 r.p.m | 500-1800kg/h | 3t | 5800*1800*5600mm |
CLG-3/600 | 3-37kw | 15-22kw | 2700 r.p.m | 2000-4000kg/h | 10t | 11200*3100*6200mm |
CLG-3/900 | 3-75kw | 45kw | 2000r.p.m | 4000-7000kg/h | 20t | 21000*3800*6500mm |
YGMX series high pressure ultrafine grinder could process barite, limestone, ceramic, slag and other non flammable material whose Mohs hardness is less than 9.3, moisture is less than 6%, it is applied in mining, metallurgy, chemical engineering and construction material industry fine powder process.
Speed of main shaft has been increased positive pressure of grinding is improved grinding area is increased because rollers diameter is increased and efficiency of grinding is improved.
Impeller blade is increased thickness of blade is decreased centrifugal force is increased resistance of powder and air is decreased; rational design of shell of classifier; rational design of air seal coarse particles are kept away from inside impeller final product quality is improved.
High wind pressure and small flow air blower gas collection tank steel plate thickness is increased rigidity is increased.
Key parts of main machine are strengthened shock absorption device and air bellow are improved and covering cylinder possesses ground connection vibration damping and anti-crack performance.
YGMX series high pressure ultra-fine powder grinder is the most advanced grinding mill designed by our techniques developing department, its widely applied in nonmetal mining industry, it possesses many advantages, such as stable working performance, wide range of application, simple structure, easy operation, high capacity, energy conservation and environment protection, and its high technology grinding mill. YGMX series high pressure ultrafine grinder could process barite, limestone, ceramic, slag and other non flammable material whose Mohs hardness is less than 9.3, moisture is less than 6%, it is applied in mining, metallurgy, chemical engineering and construction material industry fine powder process. In product development and technological innovation field, EMCC not only values the improvement of function, but also pursues efficiency, reliability, stability and persistence. We focus on helping clients to achieve long term and stable benefit.
When main motor power decelerated by gear reducer center shaft and star rack will be forced to rotate roller will rotate around the center shaft under the force of centrifugal at the same time it parallel swings around arm shaft roller will be forced to press on grinding ring to make sure the perfect surface contact between roller and grinding ring. Roller revolves on its axis around roller material will be grinded and crushed grinded powder will be taken to classifier by air blowers air flow to be classified standard powder will be taken to cyclone collector by air flow then discharged by powder tube coarse powder will fall in the main machine chamber to be reground.
Model
YGMX95 | YGMX130 | YGMX160 | YGMX190 | |
Roller Size (R×h)(mm) | Ф310×170 | Ф410×210 | Ф530×270 | Ф630×320 |
Roller Size (R×h)(mm) | Ф950×170 | Ф1280×210 | Ф1600×270 | Ф1900×320 |
NO. of grinding roller | 4 | 5 | 4 | 4 |
Max. Feeding Size(mm) | < 20 | < 25 | < 30 | < 35 |
Speed of Main Mill (r/min) | 130 | 103 | 82 | 66 |
The Final Size(mesh) | 200-600 | 200-600 | 200-600 | 200-600 |
Capacity (t/h) | 0.4-3 | 0.8-6 | 1.2-10 | 3.5-18 |
Mainframe Power (KW) | 37 | 75 | 132 | 185 |
Motor Model and Power of Air Blower(KW) |
30 | 75 | 132 | 250 |
Motor Model and Power of Classifier(KW) |
11 | 15 | 18.5 | 37-55 |
YGM high pressure ultrafine grinder is also called ultrafine grinder, we learned experience and technology from Germany and Japan and solved many ultrafine powder classification difficulties, and EMCC finally developed YGM high pressure ultrafine grinder based on industrial grinder foundation.
Advantage High pressure spring Strong grinding force
Compared with YGM high pressure ultrafine grinder the grinding force of YGM high pressure ultrafine grinders roller to material is increased by 800-1200 kg under the function of high pressure spring.
Big input size High output fineness
Big input size average out put size could be 6.5um.
Energy-efficient
In the condition of same capacity and fineness energy consumption is 1/3 of jet mills.
Seal Grinding
Eclipsed form multiple seal grinding device with perfect seal.
Product introduction
YGM high pressure ultrafine grinder is also called ultrafine grinder, we learned experience and technology from Germany and Japan and solved many ultrafine powder classification difficulties, and EMCC finally developed YGM high pressure ultrafine grinder based on industrial grinder foundation. YGM high pressure ultrafine grinder is mainly applied in feldspar, talc, barite, marble, limestone, carbon black, argil over 500 kinds of material ultrafine powder process, final product size could be 500 mesh(25 micron)-2500 mesh(5 micron), finest size could be 3500 mesh(3.55 micron)
Working principle
After crushing process material will be taken to storage silo by elevator then vibrating feeder will bring material to machine grinding chamber then material will be scooped up to the gap between roller and grinding ring to be grinded blower makes air flow goes to grinding chamber powder will be taken to classifier to be classified coarse powder will fall and be reground standard fine powder will go to cyclone powder collector then discharged from discharge port. Material contains moisture water vapor would be generated when grinding some gas will be absorbed because the whole tube is not absolutely sealed and circular air volume would be increased in the system. To guarantee the grinding mill working in the negative pressure state extra air would goes into bag dust collector for purification.c
model
YGM7826 | YGM8327 | YGM9531 | |
no.of roller(Pcs) | 3 | 3 | 4 |
diameter of roller(mm) | Ф260 | Ф270 | Ф310 |
inner diameter of grinding ring(mm) | Ф780 | Ф830 | Ф950 |
Speed of Main Mill(r/min) | 160 | 140 | 130 |
max input size(mm) | <20 | <20 | <20 |
capacity(kg/h) | 25-500 | 30-680 | 150-1000 |
motor model of main machine(kw) | Y225M-8-18.5 | Y225M-8-22 | Y225S-4-37 |
motor model of blower(kw) | Y160L-4-15 | Y180M-4-18.5 | Y200L-4-30 |
motor model of classifier(kw) | Y160M-6-7.5 | Y160M-6-7.5 | YCT200-4A-7.5 |
Dimension (L×W×H)(m) | 4.5 × 4.2 × 5.1 | 5.3 × 4.1 × 5.2 | 7.1 × 5.9 × 7.9 |
final product size(mm) | 500 目 (0.025)—1250 目 (0.01) 最细 2500 目 (0.005) |
High-efficiency Fine Crusher is medium and fine material crusher combining domestic and international stone and sand industry specific situation and it absorbs latest technology.
High manganese steel and high chromium cast are adopted product has good abrasive resistance and longer service life.
High quality motor is adopted to guarantee stable operation of machine.
Easy to observe the situation of machine when machine is shut down.
High capacity and good shape of final product.
Motor drives rotor rotating material will be taken into first crushing cavity to be impacted and crushed by hammer plate then be taken to secondary crushing cavity to be crushed again finally final product will be discharged from discharge port.
High-efficiency Fine Crusher is medium and fine material crusher combining domestic and international stone and sand industry specific situation, and it absorbs latest technology. It adopts advanced production technique and unique structure design. Fine crusher combines the advantages of hammer crusher and impact crusher, it leads in medium soft material crusher field. High-efficiency Fine Crusher has stable working performance and simple technique and structure, high capacity and longer service life, it is widely applied for granite, basalt, limestone, pebble, cement clinker, comprised, iron ore, bauxite crushing, also it is applied in artificial sand, high class road, railway, water conservancy, airport, construction, cement, refractories, metallurgy industries to produce high quality stone.
Model
Feed Opening (mm) | Feeding Size (mm) | Output Size (mm) | Adjustable Size of Discharge Opening (mm) |
Capacity (t/h) | Power (kw) | |
PXJ800×400 | <120 | 400×185 | <5 | 5-20 | 20-45 | 37-45 |
PXJ 800×600 | <180 | 500×250 | <5 | 5-20 | 35-55 | 45-55 |
PXJ 800×800 | <180 | 550×330 | <5 | 5-20 | 35-65 | 45-55 |
PXJ 1010×1010 | <180 | 1000×350 | <5 | 5-20 | 45-75 | 55-75 |
PXJ 1200×1000 | <180 | 1200×400 | <5 | 5-20 | 70-110 | 100-110 |
PXJ 1200×1200 | <180 | 1200×450 | <5 | 5-20 | 90-120 | 100-132 |
PXJ 1400×1400 | <190 | 1500×500 | <5 | 5-20 | 100-150 | 160 |
PXJ 1600×1600 | <190 | 1600×550 | <5 | 5-20 | 170-250 | 250 |
PXJ 1800×1800 | <190 | 1800×800 | <5 | 5-20 | 250-310 | 315 |
The multi-cylinder is the latest generation product which can replace the spring cone crusher in the mine construction industry today and the general hydraulic cone crusherwhich is the most ideal equipment for stone and mining crushing.
While working the electric motor through vee belt transmission shaft big belt pulley bevel pinion big bevel gear drives the eccentric sleeve to rotate. With the driving of eccentric sleeve the dynamic cone makes pendulum movement making the dynamic cone and static cone approach and leave now and then. The material in the crushing chamber is crushed due to continuous impact and squeezing. Finally the crushed material is discharged from the bottom.
The multi-cylinder is the latest generation product which can replace the spring cone crusher in the mine construction industry today and the general hydraulic cone crusher, which is the most ideal equipment for stone and mining crushing.Its unique internal structure design and the application of wear resistant material can crush hard rock such as basalt, at the same time can crush various hard ore minerals, widely used in stone production, artificial sand, ore dressing production etc.
Discharge Opening
Model | T/H | 10mm | 13mm | 16mm | 19mm | 22mm | 25mm | 32mm | 38mm | 45mm | 51mm |
XHP200 | T/H | 90-120 | 120-150 | 140-180 | 150-190 | 160-200 | 170-220 | 190-235 | 210-250 | ||
XHP300 | T/H | 115-140 | 150-186 | 180-220 | 200-240 | 220-260 | 230-280 | 250-320 | 300-380 | 350-440 | |
XHP400 | T/H | 140-175 | 185-230 | 225-280 | 255-320 | 275-345 | 295-370 | 325-430 | 360-490 | 410-560 | 465-630 |
XHP500 | T/H | 175-220 | 230-290 | 280-350 | 320-400 | 345-430 | 365-455 | 405-535 | 445-605 | 510-700 | 580-790 |
XHP800 | T/H | 260-335 | 325-425 | 385-500 | 435-545 | 470-600 | 495-730 | 545-800 | 600-950 | 690-1050 | 785-1200 |
In July 2015, Xinjiang Jiugan Peng Mining Co., Ltd rented one EBH120 roadheader machine for the construction of Wuqia county copper mine tunnel. The tunnel had copper and a small amount of limestone, the roadway section is 18 square meters, the average footage is about 6 to 7 meters, slightly uphill. Through our training, the customers team learnt the way of use and maintenance quickly (earlier they used to dig with blasting and driving, not using a roadheader machine). Now the equipment is running very well and the accident rate is low, the footage efficiency has increased 5 to 7 meters per day.
This case is the classic ultrafine talcum powder processing field. HGM80 three-ring medium speed micro powder grinder can process talcum into 800 meshes used for papermaking filler. The fineness is even and through sieving rate is about 95%, which is very satisfied for the customers. HGM series three-ring micro powder grinder can also be called Ultrafine Grinder. On the basis of the mill production experience for many years, it absorbed Swedens advanced mechanical manufacturing technology. After more than 20 timess test and improvement, it is a new type of ultra-fine powder processing equipment and is the latest product to lead the world trend of mill.