Small Size Conventional Lathe: Compact Performance for Space-Constrained Environments
In today's fast-paced manufacturing and repair landscape, space is often at a premium. From mobile repair units and compact job shops to educational institutions and hobbyist workshops, many operators need the power and precision of a manual lathe without the bulky footprint of full-sized models. The Small Size Conventional Lathe is engineered to fill this gap, packing all the essential turning capabilities into a streamlined, space-efficient design. This lathe isn't just "small"-it's a purpose-built solution that prioritizes portability, accessibility, and versatility, making it an indispensable tool for environments where every square foot and every pound matters.
The first thing operators notice about the Small Size Conventional Lathe is its compact footprint. Unlike standard lathes that require dedicated floor space and often need permanent installation, this model is designed to fit in tight corners, on workbenches, or even in the back of a service van. Its dimensions typically allow it to be placed alongside other tools in a home workshop or mounted on a rolling cart for easy movement in a commercial space. For a mobile repair technician who services agricultural equipment on farms, this means bringing the lathe directly to the job site instead of transporting heavy, oversized parts back to a fixed workshop-a time-saving and cost-effective advantage that eliminates logistics headaches and reduces downtime for the client.
Despite its small size, the Small Size Conventional Lathe doesn't compromise on core performance. It's engineered to handle small to medium-sized workpieces with the same precision as larger models, making it suitable for a wide range of applications. In electronics manufacturing, it can turn tiny precision components like connectors and pins; in medical device repair, it can fabricate small replacement parts for instruments; in jewelry making, it can shape and finish precious metals with delicate detail. The lathe's spindle is designed for smooth rotation, with precision bearings that minimize runout-critical for achieving tight tolerances on small parts where even a fraction of a millimeter of deviation can render the component useless.
Portability is another defining feature of the Small Size Conventional Lathe, and it's achieved without sacrificing durability. The lathe's frame is crafted from high-strength, lightweight materials like aluminum alloy and reinforced cast iron, balancing sturdiness with ease of transport. Most models weigh less than 100 kilograms, meaning two people can lift and move them, or a single operator can use a hand truck to reposition the lathe within a workshop. For vocational schools that need to set up temporary machining stations for classes, this portability is invaluable-lathes can be stored when not in use and quickly deployed when needed. For field service technicians working in remote areas, the ability to load the lathe into a pickup truck or van ensures that they always have the turning capabilities they need to solve unexpected repair problems.
User-friendliness is a top priority in the design of the Small Size Conventional Lathe, making it accessible to operators of all skill levels. Hobbyists and beginners appreciate the simple, intuitive controls that eliminate the intimidation factor often associated with machining equipment. The handwheels are sized for comfortable grip, with clear markings that make it easy to adjust the carriage and cross-slide for precise cuts. Seasoned machinists, meanwhile, value the lathe's responsiveness-its compact design means less mass to move, allowing for quick adjustments and fine-tuning when working on delicate parts. Many models also feature a built-in tool post that accepts standard turning tools, eliminating the need for specialized accessories and making it easy to get started right out of the box.
The Small Size Conventional Lathe is also highly versatile, adapting to a wide range of materials and tasks. It can handle soft materials like wood, plastic, and foam for craft projects, as well as metals like aluminum, brass, and mild steel for industrial applications. This versatility makes it a favorite among makers and tinkerers who work on diverse projects, from building custom robotics parts to creating decorative home goods. For small businesses like custom key cutting shops or small-scale hardware manufacturers, the lathe can serve as a primary production tool, handling low-volume batches of parts with consistent quality.
Maintenance is simplified with the Small Size Conventional Lathe, a critical advantage for operators who don't have dedicated maintenance staff. The lathe's components are easily accessible, with removable panels that allow for quick lubrication of moving parts and inspection of the spindle and bearings. Unlike larger lathes that require complex alignment or specialized tools for upkeep, this model's routine maintenance can be performed with basic hand tools and a few minutes of time. This means less downtime and more productivity-whether you're a hobbyist working on a weekend project or a small business owner with tight production schedules.
In educational settings, the Small Size Conventional Lathe has become a staple tool for teaching the basics of manual turning. Its compact size makes it safe for students to operate in a classroom environment, with less risk of injury compared to larger, more powerful machines. The intuitive controls allow instructors to focus on teaching machining principles rather than troubleshooting complex equipment, and the lathe's ability to produce small, tangible parts (like custom washers or small shafts) gives students a sense of accomplishment that reinforces their learning. For technical schools preparing students for careers in manufacturing, this lathe provides a practical introduction to the skills they'll need in the workforce, bridging the gap between theory and hands-on practice.
Another key advantage of the Small Size Conventional Lathe is its affordability. While it delivers professional-level performance, its smaller size and simplified design make it more accessible to individuals and small organizations with limited budgets. Hobbyists can invest in a quality lathe without breaking the bank, while small businesses can add turning capabilities to their service offerings without a significant capital expenditure. This affordability, combined with the lathe's durability and versatility, makes it a cost-effective long-term investment-one that can serve multiple purposes and adapt to changing needs over time.
The Small Size Conventional Lathe also excels in applications where precision and portability must coexist. For example, in the aerospace industry, technicians often need to repair small components on-site at airports or manufacturing facilities. This lathe allows them to fabricate replacement parts quickly, without the need to ship components to a centralized machining shop. In the military, field engineers use small lathes to repair equipment in remote locations, ensuring that critical systems remain operational even in harsh conditions. In each of these scenarios, the lathe's small size and portability don't just add convenience-they enable mission-critical work that would be impossible with larger equipment.
In conclusion, the Small Size Conventional Lathe is a testament to the power of thoughtful design. It proves that "small" doesn't mean "limited," delivering the precision, durability, and versatility needed for professional applications in a compact, portable package. Whether you're a hobbyist, a student, a field service technician, or a small business owner, this lathe adapts to your environment and your needs. It's a tool that goes where you go, handles what you need it to handle, and delivers results that meet professional standards-all while fitting in spaces that larger lathes can't reach. The Small Size Conventional Lathe isn't just a piece of equipment; it's a flexible, reliable solution that empowers operators to create, repair, and innovate wherever their work takes them.
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|
Items |
Unit of Measure |
Measurement |
|
|
Swing over bed |
mm |
400 |
500 |
|
Turning diameter inside the saddle |
mm |
630 |
720 |
|
Maximum workpiece length (distance between two tips) |
mm |
1000/1500/2000/3000 |
1000/1500/2000/3000 |
|
Maximum turning length (maximum machining length) |
mm |
850/1350/1850/2850 |
850/1350/1850/2850 |
|
Turning diameter on the tool holder |
mm |
210 |
300 |
|
Distance from spindle center to bed plane guide rail |
mm |
205 |
250 |
|
Main spindle through-hole diameter |
mm |
52 |
52 |
|
Spindle hole front end taper |
- |
MT6 |
MT6 |
|
Spindle speed level |
- |
+24;-12 |
+24;-12 |
|
Spindle speed range |
r/min |
+10-1600 (50HZ)/12-1680 (60HZ);-14-1580(50HZ),17-2000 (60HZ) |
+11-1600 (50HZ)/12-168 0(60HZ);-14-1580(50HZ),16.8-1896 (60HZ) |
|
Type of longitudinal feed range |
- |
64 |
64 |
|
Longitudinal feed range - standard feed |
mm/r |
0.08-1.59 |
0.08-1.59 |
|
Longitudinal feed range - small feed |
- |
0.028-0.54 |
0.028-0.54 |
|
Longitudinal feed range - increase feed |
- |
1.71-6.33 |
1.71-6.33 |
|
Types of cross feed range |
- |
64 |
64 |
|
Cross feed range - standard feed |
mm/r |
0.04-0.79 |
0.04-0.79 |
|
Cross feed range - small feed |
- |
0.014-0.027 |
0.014-0.027 |
|
Cross feed range - increase feed |
- |
0.86-3.16 |
0.86-3.16 |
|
The fast longitudinal movement speed of the tool holder |
m/min |
4 |
4 |
|
The fast lateral movement speed of the tool holder |
m/min |
2 |
2 |
|
Maximum travel of upper/lower tool holder (travel of small tool holder/travel of horizontal tool holder) |
mm |
140/280 |
140/320 |
|
Rotation angle of tool holder turntable |
° |
±90° |
±90° |
|
Cross section size of tool holder (cross section of the square tool holder) |
mm |
25×25 |
25×25 |
|
Distance from spindle centerline to tool support surface |
mm |
26 |
26 |
|
Bed tail spindle diameter (tail seat sleeve diameter) |
mm |
75 |
75 |
|
Bed tail spindle hole taper (tailstock sleeve taper) |
- |
MT5 |
MT5 |
|
Maximum stroke of the spindle at the end of the bed |
mm |
150 |
150 |
|
Machine tool lead screw pitch |
mm |
12 |
12 |
|
Range and number of metric thread processing |
mm |
44 ;1-192 |
44 ;1-192 |
|
Processing range and number of imperial threads |
tpi |
20 ;2-24 |
20 ;2-24 |
|
Processing module thread range and variety |
mm |
39 ;0.25-48 |
39 ;0.25-48 |
|
Range and number of processed radial pitch threads |
DP |
37 ;1-96 |
37 ;1-96 |
|
Bed rail width (rail span) |
mm |
400 |
400 |
|
Hardness of bed guide rail |
RC |
RC52 |
RC52 |
|
Main motor power |
kW |
7.5 |
7.5 |
|
Net weight of machine tool |
kg |
2400/2600/3000/3500 |
2600/2800/3000/3500 |
|
Machine tool outline dimensions (length x width x height) |
mm |
2650/3150/3650/4650×1150×1230 |
2650/3150/3650/4650×1150×1312 |







