NAGMANI HUC4 MANUAL LATHE

NAGMANI HUC4 NAGMANI HUC4 MANUAL LATHE equipment image

Equipment Overview

Share Link
OEM
NAGMANI
Model
HUC4
Year of Manufacture
-
Category
MANUAL LATHES

Market Value Calculator

A+

Technical Description

The Nagmani HUC4 Manual Lathe is a precision-engineered machine designed for medium to heavy-duty turning operations. It features a robust swing capacity of 24.02 inches, enabling the machining of large diameter workpieces. The lathe supports a between-centers length of 144.53 inches, allowing for the handling of long components. Powered by a 4.95 HP motor, it delivers a maximum spindle speed of 382 RPM, suitable for diverse machining requirements. The swing over the cross slide measures 15.94 inches, providing additional versatility for detailed cross slide operations. Constructed with a durable bed and equipped with a sturdy tailstock and headstock, the HUC4 ensures stability and precision during operation. This manual lathe is optimal for engineering workshops and manufacturing environments requiring reliable, repeatable performance in turning and threading tasks. Its manual operation offers precise control over feed and speed settings, making it ideal for skilled machinists working on automotive, aerospace, textile, and general engineering applications. The machine’s design emphasizes durability, long service life, and ease of maintenance, aligning with Nagmani’s reputation for quality lathe machines used extensively across industries such as sugar mills, paper mills, and heavy engineering. Overall, the Nagmani HUC4 Manual Lathe combines substantial power with large capacity and precision, meeting rigorous production and maintenance workshop demands.

Technical Attributes

Distance Between Centers
144.53 ''
Max Swing
24.02 ''

Data Accuracy and Verification

Specifications and technical details are compiled from manufacturer documentation, historical records, and third-party industry sources. While care is taken to ensure accuracy, this information is provided for reference purposes only and may contain errors or omissions. Users should independently verify all details before relying on them.

If you identify any inaccuracies, please help us improve our data by reporting them here.