Used Discharge for sale (2,504)
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Listing
Zwevegem
7,255 km
Mobile loader for 200L eurobins
Beriefmobiele lift voor 200L normwagens
Call
Condition: used, all stainless steel
discharging height ± 1.450 mm
400V - 50 Hz
Motor 0,55 kw
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mobile
dimensions (l x w x h) : ± 1.450 x 1.350 x 2.900 mm
Listing
Zwevegem
7,255 km
Spray Drum
Manfred BlindCoating tumbler, Type Spray Drum
Call
Condition: used, all stainless steel
dimensions: ± 5.000 x 2.200 x 2.700 mm
drum diameter: 1.300 mm
net drum length 4.200 mm
adjustable inclination angle
easy to clean
inlet height: ± 1.700 mm (adjustable if necessary)
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discharge height: ± 1.000 mm
power 3kW
400V, 50Hz
4 spray pipes
Provided for extraction
Listing
Poland
6,946 km
FANUC ROBOCUT alpha C800iB
FANUCROBOCUT alpha C800iB
Call
Condition: ready for operation (used), Year of construction: 2016, operating hours: 4,439 h, travel distance X-axis: 800 mm, travel distance Y-axis: 600 mm, travel distance Z-axis: 310 mm, wire diameter (max.): 0.3 mm, overall weight: 4,200 kg, controller manufacturer: FANUC, controller model: 31i-WB, product length (max.): 2,900 mm, number of axes: 5, wire diameter (min.): 0.1 mm, This 5-axis FANUC ROBOCUT alpha C800iB was manufactured in 2016, featuring a large work area with X-axis travel of 800 mm, Y-axis travel of 600 mm, and Z-axis travel of 310 mm. It supports a maximum workpiece weight of 3000 kg and utilizes a CNC control FANUC 31i-WB for precise operations. If you are looking to get high-quality wire EDM capabilities, consider the FANUC ROBOCUT alpha C800iB machine we have for sale. Contact us for more information.
• Work area / travels:
• U-axis: 200 mm
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• V-axis: 200 mm
• Rapid traverse rates:
• X-axis: 2000 mm/min
• Y-axis: 2000 mm/min
• Z-axis: 900 mm/min
• U-axis: 450 mm/min
• V-axis: 450 mm/min
• Workpiece capacity:
• Maximum workpiece dimensions: 1250 × 975 × 300 mm
• Maximum workpiece weight: 3000 kg
• Wire EDM parameters:
• Maximum wire weight: 16 kg
• Maximum taper angle: ±30° / 150 mm
• Minimum positioning increment: 0.0001 mm
• Machine data:
• Permissible workpiece mass: 3000 kg
• Electrical data:
• Power supply: 3-phase, 50/60 Hz
• Connected load: 13 kVA

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+44 20 806 810 84
+44 20 806 810 84
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Listing
Poland
6,946 km
AgieCharmilles FORM 30
AGIE CHARMILLESFORM 30
Call
Condition: ready for operation (used), Year of construction: 2017, operating hours: 6,417 h, travel distance X-axis: 600 mm, travel distance Y-axis: 400 mm, travel distance Z-axis: 400 mm, overall weight: 4,400 kg, number of axes: 4, This 4-axis AgieCharmilles FORM 30 was manufactured in 2017. It features a stroke of 600mm x 400mm x 400mm, with axis speeds up to 6 m/min. The machine can handle workpiece weights up to 1000kg and dimensions of 1000 x 700 x 400 mm. It includes a dielectric unit with a 750l capacity and a robust weight of 4400kg. Consider the opportunity to buy this AgieCharmilles FORM 30 die-sinking EDM machine. Contact us for more information about this machine.
• Axis speed (X/Y/Z): 4 / 4 / 6 m/min
• Position reading accuracy (X/Y/Z): 0.1 µm
• C-axis (standard) rotation speed: 0–100 rpm
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• Work tank size: 1200 x 800 x 500 mm
• Worktable size: 800 x 600 mm
• Max electrode weight: 100 kg
• Max workpiece weight: 1000 kg
• Workpiece dimensions: 1000 x 700 x 400 mm
• Dielectric unit capacity: 750 l
• Generator type: ISPG
• User interface: AC FORM HMI
• Power supply: 3 x 380 V, 3-phase, 50 Hz
Listing
Kusel
6,971 km
High voltage test device
StahlGH-200.11A
Call
Condition: used, Available quantity: 4 units
“Removed from a production facility of an automotive supplier, professionally dismantled”
Designation: DC high-voltage/insulation test module GH-200.11A
Manufacturer: STAHL Prüftechnik
Application: Checking and determining voltage and insulation strength
Technical data:
- Test voltage (setpoint specification): 100 ... 7500 V DC
- Control deviation/measurement accuracy: 0.1 % ± 2 V of the setpoint
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- Rise rate (ramp): 50 V/s - 30 kV/s
- Discharge internal resistance: 100 MΩ
- Measurement range: 0 ... 7500 V DC
- Output isolation: ± 1500 V max. voltage difference between HV 0 output and PE connection
- Trigger current: 1 µA ... 10 mA
- Measurement ranges:
- Range 1: 0 ... 10 mA
- Range 2: 0 ... 200 µA
- Resolution: 1 nA
- Measurement uncertainty:
- Range 1 (10 µA to 10 mA): < 0.5 % of the measured value ± 0.5 µA
- Range 2 (0.5 µA to 200 µA): < 1.0 % of the measured value ± 0.01 µA
- Discharge energy: < 350 mJ
Interfaces:
- Ethernet (Modbus protocol)
- Optional: Profinet, EtherCAT
- Optional: 2-channel safety circuit
Special features:
- Safety current limited to 10 mA
- Precise insulation measurements in the GΩ range through guard connection
- Compact industrial design for installation in automated testing applications
- Voltage supply with wide-range input
Listing
Nattheim
6,764 km
Chopper
WeimaWL 6
Call
Condition: used, Year of construction: 2026, Special Price - Showroom Machine Garbsen Our Machine Concept WL 6 The Weima High-Performance - Shredders with their flexible application possibilities can process all types of wood-based materials (hardwood, softwood, chipboard, MDF materials, plywood, veneer scraps, etc.) into fuel chips, achieving enormous volume reduction of material for bulky items. Functionality: The machine is equipped with a large feed hopper and can be fed with a conveyor belt or by hand. This hopper can be adapted to individual needs and guarantees continuous and cost-effective material feeding without the need for manual assistance. The hydraulically controlled pusher supplies the wood waste to be shredded to the cutting area of the rotor and is automatically and load-dependently controlled. The internal pusher guides are made of highly abrasion-resistant plastic (polyamide) and can be adjusted. The hydraulic cylinders are suspended in a cardanic way to avoid lateral forces on the piston seals. The patented and profiled V-rotor made of solid steel has a diameter of 252 mm and operates with a rotor speed of 80 - 120 rpm. The concavely ground, aggressive, and 4-times reversible knives / cutting crowns are located in milled knife pockets on special knife holders; this patented system guarantees high throughput performance, low energy consumption, and optimum discharge of shredded material by reducing the cutting gap between counter knife and rotor for the first time. The screen located under the rotor determines chip size (10 - 100 mm ). A hydraulically opening screen basket is available upon request. Power transmission from the electric motors is via V-belts to a heavy-duty gearbox mounted on one end of the rotor shaft. Precise cut at high throughput with profiled V-rotor The specially developed by WEIMA V-rotor can be used universally and is made from solid material. Its aggressive material intake with up to two rows of knives guarantees high throughput with low power requirements. It can be equipped with hardened steel cutting knives with edge lengths of 30 mm and 40 mm. These can be turned several times in case of wear, which drastically reduces maintenance costs. Intuitive operation via Siemens PLC control with touch display To ensure that the electronics are optimally matched to the machine, we design, build, and wire our control cabinets ourselves. We use only high-quality components – for example from Siemens or Rittal. Intuitively operated touch surfaces guarantee quick adjustments. Functions such as setting the pusher stroke or stop ensure high throughput. The built-in overload protection also prevents defects on the machine. Technical Specification WL 6Feed opening 800 x 1,250 mmHopper capacity 0.9 m³Rotor length 800 mmRotor diameter 256 mmDrive power 22 kWRotor speed 90 rpmMax. number of knives 42 piecesKnife type and size concave / 40 x 40 mm, cutting crownsScreen perforation 10-60 mmPaint finish WEIMA Standard RAL 2022 / 7016Connection value 400 V +/- 5% / 50 HzWeight approx. 1,600 kgIncluding: - Control cabinet* (Rittal) incl. electrical control (Moeller/Siemens) and S
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Listing
Karlsbad
6,889 km
Multi-spindle machine
IndexMS22-6
Call
Condition: used, Year of construction: 2007, functionality: fully functional, 6-spindle
Hainbuch Spanntop Axfix D22
ARTIS integrated process monitoring system
Slide units
- Slide unit 1.1: X-axis fixed, Z-axis NC-controlled
- Slide unit 2.1: X-axis fixed, Z-axis NC-controlled
- Slide unit 1.2: X-axis and Z-axis NC-controlled
- Slide unit 2.2: X-axis and Z-axis NC-controlled
- Slide unit 3.1: X-axis and Z-axis NC-controlled
- Slide unit 3.2: X-axis and Z-axis NC-controlled
- Slide unit 4.1: X-axis and Z-axis NC-controlled
- Slide unit 4.2: X-axis and Z-axis NC-controlled
- Slide unit 5.1: X-axis and Z-axis NC-controlled
- Slide unit 5.2: X-axis and Z-axis NC-controlled
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- Slide unit 6.1: swiveling axis and Z-axis NC-controlled
- Slide unit 6.2: X-axis and Z-axis NC-controlled
Synchronization device, position 6.1
Part discharge via chute
Workpiece conveyor belt at spindle position 6
High-pressure pump
Fire extinguishing system
Coolant cleaning system
Hinged belt chip conveyor
Flat loading magazine: IEMCA SIR MS 22/33 P
Listing
Karlsbad
6,889 km
Multi-spindle machine
INDEXMS 22-6
Call
Condition: excellent (used), Year of construction: 2007, operating hours: 77,264 h, functionality: fully functional, number of spindles: 6, spindle speed (max.): 10,000 rpm, bar diameter (max.): 22 mm, Equipment: rotational speed infinitely variable, 6-spindle machine
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Part discharge via chute at spindle position 6
Option for polygon turning
Collet holders renewed
Chip conveyor
Magazine IEMCA SIR MS 22 C / 33 P
Listing
Zwevegem
7,255 km
Vacuum tumbler, Type T40
LutetiaVacuümtumbler, Type T40
Call
Condition: used, loading : max. 2000 to 2200 kg (depending on the product)
all stainless steel
vacuum pump not included
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Lutetia control
adjustable speed
tilting system to discharge
1 water filter
dimensions (l x w x h) : ± 3.600 x 1.550 x 1.990 mm
Listing
Cloppenburg
6,932 km
2021 Vollmer Vpulse 500
VollmerVpulse 500
Call
Condition: used, Year of construction: 2021, Suitable for the complete machining of rotationally symmetrical workpieces with cutting edges made of ultra-hard cutting materials. The workpieces can be picked up on the fly or between the centres (option).
Accessories:
Total enclosure
HR workpiece magazine (round magazine) for up to 16 workpieces up to 130 mm in diameter, 20 kg, or up to 8 workpieces up to 230 mm in diameter, 20 kg.
Magazine disk for 16/8 HSK63-A,E workpieces with a diameter of 130/230 mm, up to 20 kg.
Adapter to the A axis for HSK63-A,E.
Automatic fire extinguishing system.
N282 extraction system with 600 m³/h air flow.
Automatic cover flap.
Automatic central lubrication.
Measuring probe.
Cooling unit for dielectric fluid including cooling unit.
HSK-A63 test mandrel.
Workpiece diameter: up to 320 mm
workpiece length: up to 500 mm
workpiece weight: up to 25 kg
Holding mandrel: SK 50
Wire diameter: 0.1 - 0.25 mm
Travel path X1-axis: 535 mm
Travel stroke Y1 axis: 300 mm
Travel stroke Z1-axis: 195 mm
Travel stroke A1--axis: 360 °
Travel stroke C1-axis: 180 °
Connected load approx.: 5 kVA (400 V / 50 Hz)
weight: 4100 kg
Dimensions W x D x H approx.: 2549 x 3163 x 2709 mm
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colour: RAL 7047 telegray 4, RAL 7045 telegray 1.
Listing
Cloppenburg
6,932 km
2011 Vollmer QWD 760 H
VollmerQWD 760 H
Call
Condition: used, Year of construction: 2011, Suitable for the automatic machining of PCD-tipped milling cutters, shank tools, disc-shaped tools such as saws, milling cutters etc. using the wire-electro-erosion process.
Accessories: Total enclosure
Integrated loading system and tool magazine Automatic machining of up to 12 HSK 63 tools
Program for erosion across the tool center at the cutting edge and for free erosion
Hardware and software for DNC service
Gripper fingers for workpiece automation SK40/HSK63-A,E/HSK63-B,F
Adaptation to the A-axis on HSK63-A,E including 25 mm diameter test mandrel (HSK63 A,E system)
Grinding mist extraction N 181
Cooling unit for dielectric fluid
Automatic fire extinguishing system
Measuring probes
Machine lamp
Automatic central lubrication
Tailstock
Cutter outside diameter: Max. 250 mm
Cutting length: Max. 260 mm
Shank tool diameter: 10-250 mm
Tool weight: Max. 20 kg
traverse: X-axis 275 mm
Y-axis travel: 300 mm
W-axis travel: 200 mm
Rotation range A-axis: 360 °
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tool holder: ISO 50
E-axis swivel range: 120 °
Dimensions machine: W x D x H = 2535 x 2200 x 2280 mm
Weight: about 4500 kg
Connected load: 4.5 kW (400 V / 50Hz)
colour: telegrey RAL 7045/7047
Listing
Cloppenburg
6,932 km
2014 Vollmer QWD 760 H
VollmerQWD 760 H
Call
Condition: used, Year of construction: 2014, Suitable for the automatic machining of PCD-tipped milling cutters, shank tools, disc-shaped tools such as saws, milling cutters etc. using the wire-electro-erosion process.
Accessories: Total enclosure
Integrated loading system and tool magazine Automatic machining of up to 12 HSK 63 tools
Program for erosion across the tool center at the cutting edge and for free erosion
Hardware and software for DNC service
Gripper fingers for workpiece automation SK40/HSK63-A,E/HSK63-B,F
Adaptation to the A-axis on HSK63-A,E including 25 mm diameter test mandrel (HSK63 A,E system)
Grinding mist extraction N 181
Cooling unit for dielectric fluid
Automatic fire extinguishing system
Measuring probes
Machine lamp
Automatic central lubrication
Cutter outside diameter: Max. 250 mm
Cutting length: Max. 260 mm
Shank tool diameter: 10-250 mm
Tool weight: Max. 20 kg
traverse: X-axis 275 mm
Y-axis travel: 300 mm
W-axis travel: 200 mm
Rotation range A-axis: 360 °
tool holder: ISO 50
E-axis swivel range: 120 °
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Dimensions machine: W x D x H = 2535 x 2200 x 2280 mm
Weight: about 4500 kg
Connected load: 4.5 kW (400 V / 50Hz)
colour: telegrey RAL 7045/7047
Listing
Mögglingen
6,784 km
Die-sinking edm
OPS INGERSOLLGANTRY EAGLE 1200
Call
Condition: excellent (used), Year of construction: 2011, Control PC-NC Dialog
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Travel paths X/Y/Z: 1000/1510/700 mm
C-axis
30-way electrode changer
Hirschmann clamping system
Support surface WxD 1140/1640 mm
Load capacity 7500 kg
Filter system
Fire extinguishing system
Listing
Emmelshausen
6,961 km
Diesinking / EDM
IngersollCenter 400
Call
Condition: used, Year of construction: 1999, Diesinking / EDM
Travel distance X: 400 mm
Travel distance Y :300 mm
Travel distance Z: 300 mm
table size X: 550 mm
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table size Y: 470 mm
max. workpiece size X: 700 mm
max. workpiece size Y: 500 mm
max. workpiece size Z: 250 mm
max. electrode weight: 50 kg
max. workpiece weight: 500 kg
electrode changer: 20 - time
generator: 50 Ampere
drop tank
Control
CNC control: Mitsubishi 32-bit EDM control
Listing
Zheng Zhou Shi
3,684 km
Ball mill for powder and mining plant
Mingyuan Ball Mill For Fine PowderPowder grinding mill for coal, silica
Call
Condition: new, functionality: fully functional, power: 55 kW (74.78 HP), Year of construction: 2026, Ball Mill for Powder and Mining Plant: Structure, Function, and Technical Details
A ball mill is a key grinding machine widely used in mining, metallurgy, cement, chemical, and powder-making industries. It is designed to grind various ores and other materials into fine powder through impact and attrition between steel balls and the material inside a rotating cylindrical shell. In mining plants, ball mills are essential for ore beneficiation, preparing materials for flotation, magnetic separation, or leaching processes. In powder production, they ensure uniform particle size and high surface area for further processing.
Working Principle
The ball mill operates on a simple yet effective principle: as the cylindrical shell rotates around its horizontal axis, the grinding media (steel or ceramic balls) are lifted along the inner wall by centrifugal force and friction. When they reach a certain height, they fall freely, striking and grinding the material below. This repeated motion causes both impact and abrasion, reducing the material to the desired fineness. The grinding process can be performed in dry or wet conditions depending on the application.
Structural Composition
A standard ball mill consists of several main components:
Feeding part: Equipped with a feeder or screw conveyor to ensure uniform material input.
Discharging part: Can be grate type or overflow type, depending on the discharge method.
Rotating part: The cylindrical shell made of steel plates, lined with wear-resistant liners.
Transmission system: Includes motor, reducer, small transmission gear, and electrical control.
Grinding media: Steel balls or ceramic balls of different diameters for efficient grinding.
The internal liner design and ball size distribution are optimized to achieve maximum grinding efficiency and minimal energy consumption.
Technical Details
Typical Specifications:
Feeding size: ≤25 mm
Discharge size: 0.074–0.4 mm
Capacity: 0.65–615 t/h (depending on model and material hardness)
Cylinder speed: 18–38 r/min
Power: 18.5–4500 kW
Liner material: High manganese steel, rubber, or alloy steel
Grinding media load: 30–45% of cylinder volume
Operating Modes:
Dry grinding: Suitable for materials that must remain moisture-free, such as cement clinker, limestone, and quartz.
Wet grinding: Common in ore beneficiation, where water or slurry improves grinding efficiency and particle uniformity.
Application in Mining Plants
In mining operations, ball mills are used after crushing to further reduce ore size and liberate valuable minerals. They are integrated into grinding circuits with classifiers, hydrocyclones, and flotation systems. The ground material is classified by size, and oversized particles are returned to the mill for regrinding. This closed-circuit system ensures consistent product fineness and efficient energy use.
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Common Applications:
Gold, copper, iron, and zinc ore grinding
Cement clinker and slag processing
Silicate and ceramic powder production
Coal and mineral powder preparation
Conclusion
A ball mill is an indispensable piece of equipment in both powder production and mining beneficiation plants. Its ability to grind materials into fine, uniform particles makes it vital for downstream processes such as flotation, sintering, and chemical reactions.
Listing
Zheng Zhou Shi
3,684 km
Crushing equipment
Mingyuan Dry and Wet Ball MillCustomerizable Model for ball mill plant
Call
Condition: new, functionality: fully functional, Year of construction: 2026, Dry and Wet Ball Mill: Structure, Operation, and Technical Details
A ball mill is a fundamental grinding device used in mineral processing, cement manufacturing, chemical production, and other industrial applications. It works by rotating a cylindrical shell filled with grinding media—usually steel balls—causing impact and friction that reduce materials to fine powder. Based on the grinding environment, ball mills are classified into dry and wet types, each suited for specific materials and process requirements.
Working Principle
Both dry and wet ball mills operate on the same mechanical principle. The rotating cylinder, driven by a motor through a gear system, lifts the grinding media and material along the inner wall. As the rotation continues, the balls fall under gravity, striking and grinding the material. The difference lies in the presence or absence of a liquid medium during grinding.
Dry Ball Mill
A dry ball mill is used when the material must remain moisture-free or when water could affect product quality. It is commonly applied in cement clinker, limestone, quartz, and refractory material grinding. The discharge can be either grate type or overflow type, depending on the desired fineness.
Technical Features:
Feeding size: ≤25 mm
Discharge size: 0.075–0.4 mm
Capacity: 0.65–90 t/h
Liner material: High manganese steel or wear-resistant alloy
Drive system: Gear-driven or direct-coupled motor
Dust control: Equipped with air exhaust and dust collector
Advantages:
Suitable for materials sensitive to moisture
No drying process required after grinding
Lower corrosion risk and simpler maintenance
Easier material classification and separation
Limitations:
Dry grinding produces more dust and heat, requiring efficient ventilation and dust collection systems.
Wet Ball Mill
A wet ball mill operates with water or another liquid medium added to the material. The slurry formed during grinding improves efficiency by reducing friction and preventing excessive heat buildup. It is widely used in ore beneficiation, ceramics, and chemical industries.
Technical Features:
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Feeding size: ≤25 mm
Discharge size: 0.074–0.2 mm
Capacity: 0.65–615 t/h
Liner material: Rubber or high-chromium steel
Discharge method: Overflow or grate type
Auxiliary equipment: Classifier, pump, and thickener for slurry circulation
Advantages:
Higher grinding efficiency and finer particle size
Reduced dust and noise levels
Continuous operation suitable for beneficiation circuits
Better control of particle uniformity
Limitations:
Requires drying if the final product must be in powder form and involves more complex slurry handling.
The selection between dry and wet grinding depends on the material characteristics, downstream process, and environmental conditions. Dry mills are preferred for materials that must stay moisture-free, while wet mills are ideal for fine grinding and slurry-based processes.
Conclusion
Dry and wet ball mills share the same mechanical structure but differ in their grinding environment and application scope. The dry type offers simplicity and low maintenance for moisture-sensitive materials, while the wet type provides higher efficiency and finer output for mineral and chemical processing. Understanding their technical parameters and operational differences ensures optimal equipment selection, improved productivity, and reliable performance in industrial grinding operations.
Listing
Wien
6,306 km
Wire eroding machine
ChmerA422S
Call
Condition: used, Year of construction: 2008, functionality: fully functional, workpiece weight (max.): 250 kg, travel distance X-axis: 400 mm, travel distance Y-axis: 250 mm, travel distance Z-axis: 220 mm, total height: 2,000 mm, total length: 3,000 mm, total width: 2,300 mm, wire diameter (max.): 0.3 mm, workpiece height (max.): 215 mm, workpiece width (max.): 560 mm, workpiece length (max.): 800 mm, type of input current: AC, overall weight: 2,500 kg, input voltage: 400 V, positioning accuracy: 0.001 mm, Equipment: cooling unit, documentation/manual, CHMER A422S Wire EDM Machine
Year of manufacture: 2008, used
Travel in X: 400 mm
Travel in Y: 250 mm
Travel in Z: 220 mm
Maximum workpiece size: 800 x 560 x 215 mm
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Maximum workpiece weight: 250 kg
Travel in U x V: +/- 30 mm
Maximum taper angle: +/- 14.5° / 80 mm
Wire diameter: 0.15 to 0.3 mm
Axis drive system: AC servo motors
Glass scales in X and Y axes
Achievable surface accuracy: RA 1.6 µm
Anti-electrolysis generator
CNC control: FANUC compatible
15“ TFT touch screen monitor
Handheld remote control
Automatic wire threading with thermal wire cutting,
Threading without water jet in 6 seconds
Dielectric cooler
Block for automatic vertical and conical wire alignment
Documentation in English
Connection: 400 V, 3-phase, 13 kVA
Dimensions (L x W x H): 230 x 300 x 200 cm
Machine weight: 2,500 kg
Optional
Hirschmann clamping frame: € 2,000.00
Commissioning, price based on effort
Basic training, price based on effort
Listing
Wien
6,306 km
Wire eroding machine
ChmerA422S
Call
Condition: used, Year of construction: 2008, functionality: fully functional, workpiece weight (max.): 250 kg, travel distance X-axis: 400 mm, travel distance Y-axis: 250 mm, travel distance Z-axis: 220 mm, total height: 2,000 mm, total length: 3,000 mm, total width: 2,300 mm, wire diameter (max.): 0.3 mm, workpiece height (max.): 215 mm, workpiece width (max.): 560 mm, workpiece length (max.): 800 mm, type of input current: AC, overall weight: 2,500 kg, input voltage: 400 V, positioning accuracy: 0.001 mm, Equipment: cooling unit, documentation/manual, CHMER A422S Wire EDM Machine
Year of manufacture: 2008, used
Travel in X: 400 mm
Travel in Y: 250 mm
Travel in Z: 220 mm
Maximum workpiece size: 800 x 560 x 215 mm
Maximum workpiece weight: 250 kg
Travel in U x V: +/- 30 mm
Maximum taper angle: +/- 14.5° / 80 mm
Wire diameter: 0.15 to 0.3 mm
Axis drive system: AC servo motors
Glass scales in X and Y axes
Achievable surface accuracy: RA 1.6 µm
Anti-electrolysis generator
CNC control: FANUC compatible
15” TFT monitor
Handheld remote control
Automatic wire threading with thermal wire cutting
Threading without water jet in 6 seconds
Dielectric cooler
Block for automatic vertical and conical wire alignment
Documentation in English
A horizontal rotary axis (6th axis) is included. This was removed due to lack of need and was not in use.
Connection: 400 V, 3-phase, 13 kVA
Dimensions (L x W x H): 230 x 300 x 200 cm
Machine weight: 2,500 kg
Optional
Hirschmann clamping frame: €2,000.00
Commissioning, price based on effort
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Basic training, price based on effort
Listing
Poland
6,946 km
Mitsubishi MV1200S
MitsubishiMV1200S
Call
Condition: ready for operation (used), Year of construction: 2017, operating hours: 28,500 h, travel distance X-axis: 400 mm, travel distance Y-axis: 300 mm, travel distance Z-axis: 220 mm, wire diameter (max.): 0.3 mm, overall weight: 2,700 kg, controller manufacturer: MITSUBISHI, controller model: D-CUBES, number of axes: 5, wire diameter (min.): 0.1 mm, This Mitsubishi MV1200S wire EDM machine was manufactured in 2017. It features an X-axis travel of 400 mm, Y-axis travel of 300 mm, and Z-axis travel of 220 mm. The machine is equipped with automatic wire threading and the Mitsubishi D-CUBES control system, ensuring efficient and stable production. If you are looking to get high-quality wire EDM capabilities, consider the Mitsubishi MV1200S machine we have for sale. Contact us for further details.
• Control: Mitsubishi D-CUBES
• Automatic wire threading: Yes
• U/V travel: 120 / 120 mm
• Maximum workpiece dimensions: 810 x 700 x 200 mm
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• Maximum taper angle: ±30° @ 87 mm, ±15° @ 200 mm
• Condition: Regularly used and well maintained; very good technical condition
• Operating hours: approx. 28,500 h
• Inspection: Machine can be inspected under power
• Documentation: Available
Listing
Zheng Zhou Shi
3,684 km
Crushing equipment
Spring & Hydraulic cone crusherSpring & Compound&Hydraulic cone crusher
Call
Condition: new, functionality: fully functional, fuel type: electric, Year of construction: 2026, Spring & Hydraulic Cone Crusher: Design, Operation, and Technical Insights
Cone crushers are vital in mining, metallurgy, and aggregate production, designed for secondary and tertiary crushing of hard and medium-hard materials. Among the most common types are the spring cone crusher and the hydraulic cone crusher, each offering distinct advantages in structure, performance, and control.
Spring Cone Crusher
The spring cone crusher is a traditional design that uses mechanical spring systems for overload protection. When uncrushable material enters the crushing chamber, the spring mechanism allows the bowl liner to move downward, preventing damage to the crusher. Once the foreign object passes, the springs restore the original position, ensuring continuous operation.
Structural Composition:
Main frame and base assembly
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Eccentric shaft and transmission system
Fixed and moving cones (mantle and concave)
Spring and adjustment mechanism
Working Principle:
Material is fed into the crushing chamber and compressed between the mantle and concave. The laminated crushing principle ensures that particles are crushed by both impact and pressure, producing uniform and well-shaped aggregates.
Technical Highlights:
Feed size: ≤300 mm
Discharge size: 3–60 mm
Capacity: 30–700 t/h
Motor power: 75–400 kW
Advantages: Simple structure, low maintenance cost, stable performance, and reliable overload protection.
Applications:
Widely used in crushing granite, basalt, iron ore, copper ore, and limestone. It is suitable for medium-scale operations where cost efficiency and durability are priorities.
Hydraulic Cone Crusher
The hydraulic cone crusher is an advanced evolution of the spring design, integrating hydraulic systems for improved automation, safety, and precision. It replaces the mechanical spring system with hydraulic cylinders that control the discharge opening and provide overload protection.
Structural Composition:
Main frame and eccentric assembly
Hydraulic cylinders and control system
Crushing chamber with optimized liner design
Automatic lubrication and hydraulic adjustment units
Working Principle:
The hydraulic system adjusts the discharge opening and releases pressure automatically when uncrushable material enters. This prevents mechanical damage and allows the crusher to resume operation quickly. The combination of high-speed eccentric motion and optimized chamber geometry enhances crushing efficiency and product quality.
Technical Highlights:
Feed size: ≤320 mm
Discharge size: 3–50 mm
Capacity: 45–1200 t/h
Motor power: 90–630 kW
Advantages: Automatic cavity cleaning, precise control, high crushing ratio, and superior particle shape.
Applications:
Ideal for large-scale mining, aggregate production, and high-demand crushing lines requiring consistent output and minimal downtime.
Comparative Overview
Both crushers operate on the same compression principle but differ in control and automation. The spring cone crusher offers simplicity and cost-effectiveness, making it suitable for stable working conditions. The hydraulic cone crusher provides advanced control, faster adjustment, and higher efficiency, ideal for modern, large-capacity plants.
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Zheng Zhou Shi
3,684 km
Crushing equipment
Hammer crusher /Hammer milllimestone, coal gangue,concrete crusher
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Condition: new, power: 55 kW (74.78 HP), Year of construction: 2026, A hammer crusher is a machine that uses high-speed rotating hammers to crush and break materials into smaller pieces. It is commonly used in various industries, including mining, cement, construction, metallurgy, and chemical processing. The basic principle of a hammer crusher involves a central rotor with hammers or blades that rotate and impact the material being crushed against a hard surface.
Here are the key features and components of a typical hammer crusher:
1. Rotor:
- The rotor is a central component of the hammer crusher. It usually consists of a shaft with multiple discs or hammers attached.
- The rotor's rotation causes the hammers to swing outward, impacting the material.
2. Hammers:
- Hammers are the striking or crushing elements attached to the rotor. They can be fixed or pivotally attached.
- The material is crushed as the hammers impact it, generating kinetic energy.
3. Casing or Housing:
- The casing or housing encloses the rotor and hammers, providing structural support and safety.
- It also serves to contain the crushed material and direct it to the desired discharge point.
4. Grate Bars or Screens:
- Positioned at the bottom of the crusher casing, grate bars or screens control the size of the crushed material by allowing smaller particles to pass through while keeping larger ones inside for further crushing.
5. Impact Plate:
- Located near the bottom of the crusher, the impact plate absorbs the impact energy generated by the hammers and prevents excessive wear on the casing.
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6. Drive System:
- The hammer crusher is powered by a motor connected to the rotor through a drive belt or coupling.
- The motor provides the necessary power to rotate the rotor, enabling the hammers to crush the material.
7. Adjustable Discharge:
- Some hammer crushers feature an adjustable discharge, allowing users to control the size of the crushed material by adjusting the gap between the impact plate and the hammers.
8. Applications:
- Hammer crushers are used for crushing a variety of materials, including coal, limestone, gypsum, aggregates, and various minerals.
- They are commonly employed in the mining industry for primary and secondary crushing of ore.
- In the cement industry, hammer crushers are used to crush limestone and other materials before they are mixed into the raw meal.
9. Maintenance and Safety:
- Regular maintenance is essential to ensure the efficient operation of a hammer crusher. This includes checking and replacing worn hammers, inspecting the rotor, and lubricating moving parts.
- Safety features, such as access doors and safety guards, are typically incorporated to prevent accidents during operation and maintenance.
Technical Specifications (Typical MINGYUAN Series)
Model Category,Max Feed Size,Capacity (t/h),Motor Power (kW),Rotor Speed (rpm)
Small (PC-400), ≤100mm, 5 – 10, 11, "1,000"
Medium (PC-800),≤200mm, 20 – 50, 55, 750 – 900
Heavy (PC-1200),≤350mm, 80 – 110, 132 – 160, 600 – 750
Heavy Hammer,"≤1,200mm", "500 – 1,000+ ","400 – 1,000" ,Variable
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Zheng Zhou Shi
3,684 km
Mill / grinding mill
Batch Ball Mill, Silica grinding millQuartz ball mill, silica powder grinding
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Year of construction: 2026, condition: new, ceramic ball mill ,Batch ball mill ,also called ceramic ball mill ,it is used for fine grinding of feldspar,quartz,clay,ore and so on.The ceramic ball mill is mainly used for material mixing, grinding,uniform product fineness,and saving power.It can be dry or wet.The machine can use different liner types according to production needs to meet different needs.The fineness of the grinding operation is controlled by the grinding time
ceramic ball mill Working principle
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when ball mill working,steel balls inside drum will rotate with the drum to some height,and then steel balls fall down with materials to reach the point of grinding.
Working Principle of Ceramic ball mill
ceramic ball mill ,Intermittent ball mill grinding operation is finished in the cylinder body. When the cylinder rotates, materials ascend to a certain height and then fall along a certain path due to the balls' gravity. Two forces are generated on the balls inside. One is the force on balls through tangent direction; the other is a opposite force in the contrast to the diameter of balls, as a result of the force generated when the balls slide down. These two forces will constitute a couple for the steel balls. The balls are squeezed between the cylinder and the adjacent steel balls, so the couple can make unequal-sized friction force. The balls will orbit along with the cylinder axis and then fall down, which can produce a strong impact force on the ores in the cylinder body and, as a result, the ores will be crushed. In conclusion, the ores in the cylinder body are mainly crushed by composite effect of peeling force, impact force and extrusion force.
Ceramic ball mill also named Intermittent ball mill which adopts the wet intermittent operation, is used for fine grinding and mixing the material such as feldspar, quartz, clay ceramic raw materials. The discharging and the mud size can through through 1000 sieve pore. This machine is high milling machinery, materials should be Broken in the fineness of the state into the grinding mill to get the highest efficiency and economic benefits.
The cement mill is key equipment for the grinding process of the cement clinker after the crushing process of it. It is mainly used in the cement silicate product industry. After long term design and manufacture of the cement mill, our company now has series of cement mill with various specifications to meet with different requirement from our customers.
Features of Cement Mill
Our company adopts suitable transmission methods according to different specifications. We have brim drive and center drive as transmission form. The cylinder adopts new type step lining to increase the grinding area. And it is easily repairable and changeable. The new designed separate-chambered structure adopts flexible lifting blade and fixed lifting blade and it is easily fixed and repaired.
Technical Details
We have different models and options for different requirements, please contact us for more info.
Listing
Zheng Zhou Shi
3,684 km
Crushing equipment
Mingyuan Stone & rock impact crusherImpact crusher for sand gravel crushing
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Condition: new, functionality: fully functional, power: 75 kW (101.97 HP), Year of construction: 2025, Impact Crusher: Structure, Operation, and Technical Specifications
An impact crusher is a high-efficiency crushing machine widely used in mining, cement, construction, and recycling industries. It is designed to crush materials by utilizing the energy of impact rather than pressure, making it ideal for medium-hard and soft materials such as limestone, gypsum, coal, and concrete aggregates. Its ability to produce uniform, cubic-shaped particles makes it a preferred choice for aggregate production and fine crushing applications.
Working Principle
The impact crusher operates on a simple yet powerful principle: material is fed into the crushing chamber and struck by high-speed rotating blow bars mounted on a rotor. The kinetic energy from the rotor transfers to the material, causing it to break upon collision with the impact plates (also known as breaker plates). The crushed material rebounds within the chamber for secondary impacts until it reaches the desired size and exits through the discharge opening.
The process involves:
Primary Impact: Material is hit by blow bars and thrown against the impact plates.
Secondary Impact: Rebounded fragments collide again with the rotor or other particles, achieving finer crushing and better shape.
Structural Composition
An impact crusher consists of several key components that ensure efficient operation and durability:
Rotor Assembly: The core component, equipped with blow bars that deliver high-speed impact energy.
Impact Plates (Aprons): Adjustable plates that control the crushing gap and final product size.
Feed Inlet and Discharge Outlet: Designed for smooth material flow and uniform discharge.
Frame and Housing: Heavy-duty welded structure providing stability and vibration resistance.
Adjusting Device: Hydraulic or mechanical system for controlling the gap between rotor and impact plates.
Safety Mechanism: Hydraulic opening system for easy maintenance and overload protection.
Technical Highlights
Feed size: ≤500 mm
Discharge size: 0–60 mm (adjustable)
Capacity: 30–800 t/h
Motor power: 45–560 kW
Rotor speed: 500–1500 rpm
Performance Features:
High Crushing Efficiency: The high-speed rotor and optimized chamber design ensure strong impact force and high reduction ratio.
Excellent Particle Shape: Produces cubic, uniform aggregates suitable for concrete and asphalt production.
Adjustable Output Size: Hydraulic or mechanical adjustment allows precise control of product size.
Easy Maintenance: Replaceable blow bars and liners with quick access doors simplify servicing.
Versatile Applications: Suitable for primary, secondary, and tertiary crushing in various industries.
Types of Impact Crushers
Horizontal Shaft Impact (HSI) Crusher:
Uses a horizontal rotor to deliver impact energy. Ideal for soft to medium-hard materials and widely used in aggregate and recycling applications.
Conclusion
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The impact crusher combines high-speed impact energy with a robust structural design to deliver efficient, reliable, and versatile crushing performance. Its ability to produce well-shaped aggregates, adjustable output sizes, and low maintenance requirements make it indispensable in modern crushing systems. Whether in mining, construction, or recycling, the impact crusher remains a key machine for achieving high productivity and superior material quality.
Listing
Zheng Zhou Shi
3,684 km
Construction/Building debris Recycling
Construction & Demolition RecyclingConstruction Waste Recycling Equipment
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Condition: new, functionality: fully functional, power: 260 kW (353.50 HP), fuel type: electric, color: dark red, overall weight: 42,000 kg, operation weight: 42,000 kg, chain condition: 100 %, axle configuration: 3 axles, Year of construction: 2026, The construction industry is moving away from the "build-demolish-dump" cycle and toward Urban Mining. At the heart of this shift is the Mobile Stone Crusher, a powerhouse designed to turn piles of jagged concrete and brick into high-quality recycled aggregate right on the job site.
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## 1. The Engineering Logic: From Waste to Wealth
In a traditional setup, demolition waste is hauled to a landfill—a process that is expensive, carbon-heavy, and wasteful. A mobile crusher flips the script. It brings the factory to the waste. By processing materials on-site, contractors save on transport costs and produce "Road Base" or "Sub-base" materials immediately.
### Key Components of a Mobile C&D Plant:
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* Vibrating Feeder: Uses a "Grizzly" bar system to pre-screen fines (dirt/sand) so the crusher only works on the big stuff.
* Crushing Unit: Usually a Jaw Crusher (for primary compression) or an Impact Crusher (for better grain shape and higher reduction ratios).
* Magnetic Separator: This is the "secret sauce" for C&D waste. It pulls out rebar and scrap metal that would otherwise contaminate the recycled aggregate.
* Discharge Conveyor: Transports the finished product to a stockpile.
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## 2. Technical Specifications & Performance
When evaluating these machines, "Throughput" ($TPH$ or Tons Per Hour) is the metric that matters. For C&D recycling, the machine must handle unpredictable feed sizes and varied material hardness.
### Typical Technical Specifications Table
| Feature | Specification Range | Why it matters |
| --- | --- | --- |
| Throughput | 100 – 500 $t/h$ | Determines project timeline efficiency. |
| Max Feed Size | 500mm – 1,100mm | Dictates if you need a hydraulic breaker first. |
| Power Source | Diesel-Electric or Hydraulic | Dual power (Electric) is better for urban noise/emissions. |
| Crusher Type | Jaw or Impact | Impactors provide a more "cubic" final product. |
| Mobility | Crawler Tracks | Essential for moving over uneven rubble piles. |
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## 3. The "C&D" Specialization
Recycling construction waste isn't just about "breaking rocks." It’s about cleaning material. Modern mobile units are equipped with:
1. Over-belt Magnets: Specifically designed to lift heavy steel reinforcement bars (rebar) out of the crushed concrete flow.
2. Dust Suppression: High-pressure misting systems to keep neighbors happy and workers healthy in tight urban environments.
3. Active Pre-screening: Removing sticky soil or asphalt fines before they enter the crushing chamber to prevent "plugging."
> The Insight: Using a mobile crusher can reduce project carbon footprints by up to 40% simply by eliminating the "truck-in, truck-out" logistics of aggregate management.
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## 4. Maintenance and Longevity
Because C&D waste is highly abrasive (and often contains "surprises" like wood or plastic), maintenance is non-negotiable.
* Jaw Plates: Must be flipped or replaced regularly to maintain the "Closed Side Setting" (CSS), which determines the size of your output.
* Blow Bars: In impact crushers, these are the high-wear items that take the brunt of the force.
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Would you like me to compare the cost-effectiveness of Jaw vs. Impact crushers for a specific type of demolition project, or perhaps look into the environmental regulations regarding on-site crushing?
Listing
Zheng Zhou Shi
3,684 km
Drying system
Single & Triple pass rotary dryerFor wood, sawdust,coal,fertilizer drying
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Condition: new, Year of construction: 2026, functionality: fully functional, power: 11 kW (14.96 HP), A triple pass rotary drum dryer is a type of industrial dryer that is used to reduce or remove moisture from a material. It gets its name from the three rotating drums through which the material passes, each with a different purpose in the drying process. This type of dryer is commonly used in the production of various bulk solids, including minerals, agricultural products, and biomass.
Here are the key features and components of a triple pass rotary drum dryer:
1. Triple Pass Design:
- The material being dried passes through three rotating drums or cylinders, hence the term "triple pass." Each drum serves a specific purpose in the drying process.
2. Material Flow:
- The material enters the dryer and first passes through the innermost drum. After the initial drying phase, it moves to the middle drum and then to the outer drum, undergoing additional drying in each pass.
3. Heat Source:
- Heat is typically provided by a combustion system, such as a burner or furnace, located at one end of the drum dryer. The hot gases generated by the combustion process flow through the rotating drums, transferring heat to the material.
4. Air Flow:
- The dryer is designed to optimize air flow through the drums, ensuring efficient drying. In a triple pass design, the material and hot gases move counter-currently through the three drums, enhancing heat transfer and drying efficiency.
5. Lifting Flights or Lifters:
- Lifters are internal components inside the drums designed to lift and cascade the material as it rotates. This movement promotes good heat transfer and uniform drying.
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6. Retention Time:
- The triple pass configuration allows for an extended retention time of the material in the drying system. This longer exposure to heat enhances the drying efficiency, making the triple pass rotary drum dryer suitable for materials with high moisture content.
7. Cooling Section:
- After the material completes the three passes and reaches the end of the drum dryer, a cooling section may be included to reduce the temperature of the dried material before it is discharged.
8. Applications:
- Triple pass rotary drum dryers are used in various industries, including agriculture (drying crops like grains), minerals (drying ores or concentrates), and biomass (drying wood chips or other organic materials).
9. Efficiency and Energy Consumption:
- Triple pass rotary drum dryers are known for their high efficiency due to the extended drying time and effective heat transfer. However, they may have higher energy consumption compared to single or double pass dryers.
When selecting a triple pass rotary drum dryer, it's essential to consider factors such as the type of material to be dried, required moisture reduction, and overall processing requirements. Proper design and operation are crucial to achieving optimal drying performance.
Technical details
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