Heavy Duty Conventional Lathe Machine Model:CW61100,CW61125,CW61140
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Product Introduction of Heavy Duty Universal Lathe
1). Carry Load as Heavy as Possible : Internationally forerunner computation technologies and optimized finite element analysis methods are adopted and the selected materials are suitable for the design .
2.). High Rigidity, Stability and Precision Maintenance: All castings are made of high-strength meehanite HT300. which is particularly suitable for heavy cutting. All large castings stand the test of annealing and vibration aging and internal stress is eliminated, so the overall precision is greatly enhanced and processed parts are found with high geometric accuracy.
3.) One-piece structure made of meehanite, greatly enhancing its abrasion resistance, and the internal force elimination process produces high vibration resistance and considerably enhances stability. The cross-shaped base and rectangular bearing structure ensure high structural stability and permanently stable quality.
4.) The lathe bed is in fixed heavy cutting structure, including rectangular hard rails tested by high frequency heat treatment and high-precision surface grinding (straightness in full stroke<0.05mm)
Heavy duty lathe/ Heavy duty lathe/ Heavy duty lathe/ Heavy duty lathe/ Heavy duty lathe/ Heavy duty lathe
5.)Turcite-B is pasted on the sliding surface in order to enhance the rail's smoothness and wearing resistance. The widened hard rail design can provide required resistance and stability for heavy cutting.
Heavy duty lathe/ Heavy duty lathe/ Heavy duty lathe/ Heavy duty lathe/ Heavy duty lathe/ Heavy duty lathe
6.) The headstock, made of high strength and high rigidity keel rib, is in special cage shape, and the gearbox includes class P5 grinding gears, which can provide desirable driving accuracy and greater torque.
7.) Incorporating German AM technologies, the main shaft is made of chrome-molybdenum alloy and proves high precision, high rigid and desirable deformation resistance after rough/finish machining, carbonization, aging treatment and precision grinding. The motor figures high output (26kw) and the max. rev. is 3000RPM. After the main shaft assembling is completed, the entire assembly shall be calibrated by dynamic balance test. The independent lubrication will further enhance the stability of the headstock during operation.
8.) Standard 4 tool library, mounted on a turret used in precision turning.
9.) The tailstock consists of two parts: the upper one includes a sleeve moving mechanism, spindle assembly, and a shaft centerline adjustment mechanism, with a rectangular head in the rear, which is designed to lock the sleeve manually; and the lower one includes a tailstock fast-moving motor and a locking mechanism, with the main shaft installed on the high-precision radial clearance-adjustable double-row cylindrical roller bearing in the sleeve, rendering the high-precision rotating top on the tailstock. However, in order to satisfy certain special requirements of the machining process, it is feasible to transfer the plug board from the flange groove in the front of the sleeve to the groove near the front end of the main shaft in order to fix the main shaft and obtain a dead center.
Products Specification of Heavy Duty Universal Lathe
Item | Unit | CW61100 | CW61125 | CW61140 |
Swing over bed | mm | 1000 | 1250 | 1400 |
Swing over cross slide | mm | 615 | 860 | 1010 |
Wdith of guideway | mm | 755 | ||
Loading weight | Kg | 6000-20000 | ||
Distance between center | mm | 1000/1500/2000/3000/4000/5000-10000 | ||
Max. workpiece through spindle | mm | 128 | ||
Spindle bore | mm | 130 | ||
Taper of spindle bore | Metric 140 | |||
Range of spindle speed | r/min | Clockwise: 21kinds 3.15-315 | ||
r/min | Anti Clockwise: 12kinds 5-400 | |||
Step of feed | kinds | 56 kinds | ||
Longitudinal feed range | 0.1-12mm/r | |||
Cross to longitudinal feed rate | 0.05-6mm/r | |||
Carriage rapid moving feed rate | m/min | 0.025-3mm/r | ||
Metric threads range | mm | 43 1-120mm | ||
Inch threads range | mm | 29 28-3/8teeth/inch | ||
Module threads range | mm | 45 0.5-60mm | ||
Pitch threads range | 1/inch | 25 1-55 | ||
Distance between center line of spindle to tool post | mm | 48 | ||
Section of tools shank | mm | 45x45 | ||
Swivel anger of tool pos | ±90° | |||
Max..travel of cross slide | mm | 1450, 1950-14950 | ||
Max..travel of top slide | mm | 520/750 | ||
Rapid travel speed | mm | Longitudinal:3740mm/min | ||
Cross: 3740mm/min | ||||
Slide | ||||
Center quill diameter and travel | mm | 140, 300 | ||
Tailstock quill taper | mm | Metric 80 | ||
Main motor power | kW | 22 | ||
Motor rotation speed | r/m | 1470 | ||
Slide rapid motor pwer | kW | 1.5 | ||
Coolant motor power | kW | 0.15 | ||
Coolant pump flow | L/M | 45 | ||
Manufacturing facilities
Glance of workshop of Heavy Duty Universal Lathe
Product Introduction of Heavy Duty Universal Lathe
1). Carry Load as Heavy as Possible : Internationally forerunner computation technologies and optimized finite element analysis methods are adopted and the selected materials are suitable for the design .
2.). High Rigidity, Stability and Precision Maintenance: All castings are made of high-strength meehanite HT300. which is particularly suitable for heavy cutting. All large castings stand the test of annealing and vibration aging and internal stress is eliminated, so the overall precision is greatly enhanced and processed parts are found with high geometric accuracy.
3.) One-piece structure made of meehanite, greatly enhancing its abrasion resistance, and the internal force elimination process produces high vibration resistance and considerably enhances stability. The cross-shaped base and rectangular bearing structure ensure high structural stability and permanently stable quality.
4.) The lathe bed is in fixed heavy cutting structure, including rectangular hard rails tested by high frequency heat treatment and high-precision surface grinding (straightness in full stroke<0.05mm)
Heavy duty lathe/ Heavy duty lathe/ Heavy duty lathe/ Heavy duty lathe/ Heavy duty lathe/ Heavy duty lathe
5.)Turcite-B is pasted on the sliding surface in order to enhance the rail's smoothness and wearing resistance. The widened hard rail design can provide required resistance and stability for heavy cutting.
Heavy duty lathe/ Heavy duty lathe/ Heavy duty lathe/ Heavy duty lathe/ Heavy duty lathe/ Heavy duty lathe
6.) The headstock, made of high strength and high rigidity keel rib, is in special cage shape, and the gearbox includes class P5 grinding gears, which can provide desirable driving accuracy and greater torque.
7.) Incorporating German AM technologies, the main shaft is made of chrome-molybdenum alloy and proves high precision, high rigid and desirable deformation resistance after rough/finish machining, carbonization, aging treatment and precision grinding. The motor figures high output (26kw) and the max. rev. is 3000RPM. After the main shaft assembling is completed, the entire assembly shall be calibrated by dynamic balance test. The independent lubrication will further enhance the stability of the headstock during operation.
8.) Standard 4 tool library, mounted on a turret used in precision turning.
9.) The tailstock consists of two parts: the upper one includes a sleeve moving mechanism, spindle assembly, and a shaft centerline adjustment mechanism, with a rectangular head in the rear, which is designed to lock the sleeve manually; and the lower one includes a tailstock fast-moving motor and a locking mechanism, with the main shaft installed on the high-precision radial clearance-adjustable double-row cylindrical roller bearing in the sleeve, rendering the high-precision rotating top on the tailstock. However, in order to satisfy certain special requirements of the machining process, it is feasible to transfer the plug board from the flange groove in the front of the sleeve to the groove near the front end of the main shaft in order to fix the main shaft and obtain a dead center.
Products Specification of Heavy Duty Universal Lathe
Item | Unit | CW61100 | CW61125 | CW61140 |
Swing over bed | mm | 1000 | 1250 | 1400 |
Swing over cross slide | mm | 615 | 860 | 1010 |
Wdith of guideway | mm | 755 | ||
Loading weight | Kg | 6000-20000 | ||
Distance between center | mm | 1000/1500/2000/3000/4000/5000-10000 | ||
Max. workpiece through spindle | mm | 128 | ||
Spindle bore | mm | 130 | ||
Taper of spindle bore | Metric 140 | |||
Range of spindle speed | r/min | Clockwise: 21kinds 3.15-315 | ||
r/min | Anti Clockwise: 12kinds 5-400 | |||
Step of feed | kinds | 56 kinds | ||
Longitudinal feed range | 0.1-12mm/r | |||
Cross to longitudinal feed rate | 0.05-6mm/r | |||
Carriage rapid moving feed rate | m/min | 0.025-3mm/r | ||
Metric threads range | mm | 43 1-120mm | ||
Inch threads range | mm | 29 28-3/8teeth/inch | ||
Module threads range | mm | 45 0.5-60mm | ||
Pitch threads range | 1/inch | 25 1-55 | ||
Distance between center line of spindle to tool post | mm | 48 | ||
Section of tools shank | mm | 45x45 | ||
Swivel anger of tool pos | ±90° | |||
Max..travel of cross slide | mm | 1450, 1950-14950 | ||
Max..travel of top slide | mm | 520/750 | ||
Rapid travel speed | mm | Longitudinal:3740mm/min | ||
Cross: 3740mm/min | ||||
Slide | ||||
Center quill diameter and travel | mm | 140, 300 | ||
Tailstock quill taper | mm | Metric 80 | ||
Main motor power | kW | 22 | ||
Motor rotation speed | r/m | 1470 | ||
Slide rapid motor pwer | kW | 1.5 | ||
Coolant motor power | kW | 0.15 | ||
Coolant pump flow | L/M | 45 | ||
Manufacturing facilities
Glance of workshop of Heavy Duty Universal Lathe
