Model Q1313/ Q1319/ Q1322/ Q1325/ Q1327/ Q1330/ Q1335/ Q1343/ Q1353 pipe thread lathe is mainly used for machining shaft and disc parts and all kinds of thread processing. Because the spindle hole is large, so the spindle can pass through the large diameter of the bar or pipe, so as to achieve convenient processing.

Specification Parameter

Specification	Unit	Q1327	Q1330	Q1335	Q1343	Q1353
Max. swing over bed diameter	mm	800	800	1000	1000	1250
Max. swing over cross slide diameter	mm	480	480	610	610	860
Max. length of workpiece	mm	1500/3000
Width of bed	mm	600/650	600/650	755	755	755
Spindle bore	mm	280	305	360	440	540
Power of spindle motor	kw	15	15	22	22	22
Spindle speed	r/min	VF2 steps,	VF2 steps,	VF2 steps,	VF2 steps,	VF2 steps,
Z axis feed range	mm/r	32/0.095-14	32/0.095-14	32/0.1-15	32/0.1-15	32/0.1-15
X axis feed range	mm/r	32/0.095-14	32/0.095-14	32/0.05-0.75	32/0.05-0.75	32/0.05-0.75
Cariage rapid traverse speed	mm/ min	3740	3740	3740	3740	3740
Cross slide rapid traverse speed	mm/ min	1870	1870	1870	1870	1870
Inch thread range	T.P.I	26/14-1	26/14-1	22/28-2	22/28-2	22/28-2
Traverse of cross slide	mm	420	420	520	520	520
Max. traverse of turret	mm	200	200	300	300	300
Tailstock quill travel	mm	250	250	300	300	300
Tailstock quill diameter	mm	Φ100/ Morse 6	Φ100/ Morse 6	Φ140/ Morse 6	Φ140/ Morse 6	Φ140/ Morse 6
Chuck	mm	Φ630 4 jaw manual	Φ630 4 jaw manual	Φ780 4 jaw electric	Φ1000 4 jaw electric	Φ1000 4 jaw electric
Overall dimension	mm	37501700 1600	37501700 1600	50002100 1680	50002100 1680	50002100 1700
Net weight	T	6.5	7	12.8	13	15

Product introduction

Application

The pipe thread lathe is popular lathe suitable for processing complex shaped shaft, sleeve, and disc parts. Such as turning inner and outer cylindrical surfaces, conical surfaces, circular arc surfaces, end faces, slotting, chamfering, threading, etc., especially suitable for multi variety, small and medium-sized batch wheel turning processing. Strong process adaptability, high processing efficiency, low scrap rate, good consistency of finished products, which can reduce the requirement for workers' technical proficiency in procedures. Easy to program, simple to operate, and fully functional, it is an ideal medium-sized machining equipment.

Pipe thread lathes are widely used in various industries:

1. Oil and natural gas: used for processing oil well casing, tubing, and various connectors;

2. Mechanical manufacturing: used for processing precision threaded components such as bearings, valves, joints, etc;

3. Automotive industry: used for processing key components such as exhaust pipes and steering column pins for automotive engines;

4. Aerospace: Used for processing components in the aerospace field such as aircraft engine pipelines and gas turbine blades.

Characteristics and advantages of pipe thread lathe

1. High precision: capable of completing thread processing with micrometer level precision, ensuring the stability and consistency of product quality.

2. High efficiency: With automated and continuous processing capabilities, it greatly improves production efficiency and shortens processing cycles.

3. Multi functional: The car can be used for threading pipes of different types and sizes, with strong adaptability to meet diverse processing needs.

4. Flexibility: By changing the program and tool settings, CNC pipe threading machines can quickly adapt to the processing requirements of new products and provide more flexible production solutions.

Main structure of pipe thread lathe
1.Bed frame
The bed of the pipe thread lathe is made of cast iron material. The bed is the foundation of the entire lathe, carrying various components such as the spindle box, feed box, tool holder, and hydraulic system. The important role of the bed is to ensure high-precision machining of the lathe, requiring excellent rigidity and stability of the bed.

2.Spindle box
The spindle box is the core component of the pipe thread lathe, which is installed on the bed. The main function of the spindle box is to drive the pipe or shaft to rotate through the spindle, thereby achieving the machining of threads. The spindle box is equipped with components such as the spindle and spindle bearings, which need to ensure accuracy and stability during high-speed rotation.

3.Feed box
The feed box is the component responsible for the feed work of the pipe thread lathe. It drives and drags the valve stem through an electric motor, controlling the feed over a certain range, thereby achieving the forward and backward operation of the workpiece. There are also some supporting components in the feed box, including sliders, screws, and nuts, which work together to ensure the feed accuracy and speed stability of the lathe.

4.Tool holder
The tool holder is one of the most important machining components on the pipe thread lathe. It adopts a replaceable multi tool holder design, which can cut threads of different specifications through different tool holders. The design and materials of the tool holder are also crucial, requiring the stability and accuracy of the tool holder to meet very high standards.

5.Hydraulic system
The hydraulic system mainly drives various components to move through hydraulic oil. The production of industries such as automobile manufacturing generally requires the manufacture of threaded pipes with good sealing properties, and hydraulic systems are an important part of providing driving force for the manufacturing and processing of such threaded pipes. They can help components such as spindle boxes, feed boxes, and tool holders to complete machining work quickly and accurately.

6.Other
In addition to the above-mentioned components, the pipe thread lathe also has some supporting equipment and accessories, such as speed controllers, cutting tools, and fixtures. These supporting equipment and accessories also play a very important role in the process of pipe thread lathe machining.

In addition, there are some advanced layouts and technologies for pipe thread lathes, such as CNC pipe thread lathes, which can automatically process and greatly improve processing efficiency and accuracy.

In summary, the main structure of the pipe thread lathe includes components such as the bed, spindle box, feed box, tool holder, and hydraulic system. The design and production of these components are very complex, requiring strict processing standards and high-level craftsmanship. Only in this way can high-quality and high-precision pipes and shafts be produced, providing strong support for industrial manufacturing.