Do you like to do home improvement work yourself, without involving various craftsmen? Self-installation or repair not only allows you to save money on calling specialists, but also greatly increases your self-esteem, right?
During the installation of communications, it is often necessary to prepare threads on pipes. We have to find ways not to spoil the product.
We will tell you how to cut threads using different tools, which method is preferable to use in a given situation. The article discusses methods available for implementation by an unqualified performer. The features of cutting different types of threads and the equipment used for this are covered.
The presented material is provided with visual photographs depicting tools for performing the work. A video with recommendations will help you understand in detail all the intricacies of this process.
Basic cutting methods
You can cut threads on pipes in one of two ways:
- automatic - on machines, power tools;
- manually - using hand tools.
For living conditions, of course, manual technology is more relevant. Cutting threads on water pipes or other pipes by hand is often done using a die.
Solid dies for pipe threads, made of strong alloy steel, are available with a body diameter of up to 65 mm. Dies with a body diameter of up to 120 mm are available for metric threads. On the body of metric products there is a symbol “M”
A die is a simple device for cutting threads on pipes at home. The same tool is successfully used on industrial machines.
The device looks like a disk with several axial holes drilled along its inner diameter. The edges of these holes form several incisors (usually 8-10). The material for the dies is alloy steel or other hard alloys.
There are several types of such devices:
- solid;
- spring-loaded (split);
- clamp (sliding).
According to the design, the die is produced in the form of a circle, square, hexagon, or prism. The most common are disc (round) instruments. They are used for threading water pipes up to a diameter of 36 mm.
For ease of working with dies, use:
- simple knobs with locking screws - hand tools;
- threading chucks on lathes.
Cutting threads (metric, conical) of the best quality on pipes manually or on machines is provided by solid dies.
However, this type of tool, due to the rigidity of its own design, has its negative sides. The cutters wear out quickly.
A spring-loaded thread cutting tool is distinguished by the presence of a cut in the area of one of the axial holes. The presence of a cut reduces the load on the cutters, but at the same time the degree of rigidity required to achieve high cutting quality is reduced.
Spring-loaded (split) dies have a less rigid design, which makes it possible to cut threads on pipes and at the same time change the thread diameter in the range of 0.1-0.3 mm.
Such devices are characterized by increased wear resistance of the cutters, but do not provide high accuracy and cleanliness of thread cutting.
Sliding dies consist of two working parts. They are designed for installation in a fastening module - a clamp.
Fastening in the clamp is carried out by a mechanism consisting of a cracker and an adjusting screw. The screw adjusts the diameter size for thread cutting. Usually the die is equipped with a set of dies for several different diameters.
Method #1 - making pipe threads with dies
The process of creating a thread on a pipe with a die or die requires the mechanic to perform some preliminary actions:
- The surface of the pipe in the cutting area must be thoroughly cleaned.
- The end part of the pipe should be processed with a file (make an entrance chamfer).
- Apply lubricant to the surface to be treated to reduce resistance.
If possible, it is advisable to secure the pipe vertically, for example, in a bench vice, leaving free access to the upper part - the cutting area. The fastening force must be correctly calculated so as not to deform the pipe body.
Then take a pre-prepared driver with a roughing die (No. 1) of the required diameter and suitable thread characteristics.
An example of cutting a thread on a water pipe using a hand wrench. A die is inserted into the working cylinder of the driver and secured with two (four) bolts located opposite each other
The tool is held horizontally - perpendicular to the end area of the pipe. Place the roughing die onto the chamfer of the edge using the internal hole. Light pressure and successive short turns of 25-30° make the initial cut.
This work should be done carefully, slowly, constantly monitoring the right angle between the horizon of the ram and the vertical of the pipe.
Using this technique, the first two or three threads are carefully cut. Usually, after cutting the first two or three threads, the tool is firmly in its working position. Further, the right angle can no longer be controlled.
But the technology of cutting with short (without particularly strong traction) circular movements should be maintained until the end of the cut. It is recommended to periodically add lubricant at the cutting point.
After the first pass, twist the device and then repeat one or two more times with a finishing die (No. 2).
Image gallery
Photo from
Tapping with a fixed tap
Die cutting of external threads
Manual thread cutting machine
Working side of the thread cutting die
Method #2 - clump cutting technique
The die is a variation of the same die for cutting threads, including on pipes. A distinctive feature of the die is the ability to adjust the cutters.
A set of clamps for different sizes of pipe threads. Each of these devices is equipped with screws for fastening blocks with cutters. These screws can additionally change the thread diameter within small limits
There are clamps for manual use, as well as similar devices with an electric drive.
Option #1 - cutting with a hand clamp . Manual cutting of pipes is usually done with a clamp, which is installed in a ratchet holder. This holder makes the work of cutting pipe threads convenient and less complicated.
Of course, depending on the conditions of plumbing work, you can use other types of hand holders. For example, a standard locking knob with two handles.
The principle of creating a thread with a die is almost the same as the method of working with traditional dies:
- Clean the working surface of the pipe and make sure there are no defects.
- Sand the cut area until it has a distinct metallic sheen.
- Process the outer working part of the end edge at an angle of 45-60º (chamfer).
- Lubricate the prepared surface with technical petroleum jelly.
- Secure the pipe in a mechanical vice or hold it with a gas wrench.
After these procedures, the cutting tool (blank) is placed with the internal hole on the pipe chamfer and, with moderate, uniform pressure, they begin to rotate it with short reciprocating movements.
A convenient tool for working with a clamp is the so-called “ratchet” - a lever with idle reverse. Using such a hand tool, it is easy to cut threads on a pipe under different installation or repair conditions.
If a ratchet clamp is used as a holder, only forward cutting is carried out. It should be noted that the ratchet clamp is convenient to use when working in cramped conditions.
For example, when it is necessary to process a pipe laid in close proximity to a wall.
Option #2 - cutting with an electric clamp . Along with hand tools, electrically driven devices are widely used. The obvious advantage for the mechanic is a significant reduction in labor intensity.
But on the other hand, not all electric machines are capable of performing work in cramped conditions. In addition, when working with hand tools, it is possible to obtain a better result.
To obtain a similar result from electrical sockets, extensive experience with this tool is required.
Equipment for the clamp, supplemented with an electric drive. A modern, effective tool that significantly reduces the physical load of a mechanic. True, electric sockets are more often used in the professional sphere than in everyday life
Working with an electric clamp:
- Preparation of the pipe surface in the cutting area - cleaning, chamfering, lubrication.
- Fastening the pipe with devices capable of providing rigid fixation.
- Fixation at the starting point of the die holder with the clamp included in the kit.
- Checking the stroke and direction of rotation of the die.
- Cutting the first two or three turns in the jog mode.
Next, pipe threads are cut automatically. The cutting length is considered optimal when the upper edge of the die cutting heads reaches the leading edge of the pipe.
At this point, the operation of the device is stopped, the reverse rotation function is turned on, and the bug is twisted from the pipe with a push feed. Be sure to periodically moisten the cut area with oil throughout the process.
Method #3 - using lathes
Large-scale construction and repair work, as a rule, excludes the use of hand tools. Here, lathes are usually used to process the pipes accordingly.
Threading functions are supported by many universal lathes.
Lathes are used to produce threaded parts on pipes of different diameters. You can make threads of any configuration on a lathe
Using the machines, both internal and external pipe threads are made efficiently and easily. The pneumatic (or mechanical) fastening module of the lathe ensures high-quality reliable fastening of the pipe and precise supply of the workpiece to the cutter.
To perform thread-cutting functions, different types of cutters are used:
- rod,
- lamellar,
- intercalary
Work on lathes is carried out by specialists trained in this field and having the appropriate qualifications. Without experience and professional skills, trying to cut threads with your own hands on a machine is not recommended.
For home craftsmen who decide to take up plumbing and carve metal workpieces, the following tips will help them in their work:
Image gallery
Photo from
Selecting the appropriate drill diameter
Processing the workpiece with a file before cutting
Tapping in several stages
Parts with external and internal threads
Thread profiles
The shapes of the workpieces, depending on the type of surface, can be cylindrical or conical. Threads can be external (on the surface) and internal (in the hole of the blank). The type of threaded connection depends on the thread profile.
There are five types of profile:
- triangular;
- rectangular;
- trapezoidal;
- persistent;
- round.
The thread can be single-start or multi-start:
- single-thread - formed by a single threaded thread;
- multi-thread - created by two or more threads placed at the same distance from one another.
The main indicators of both types of thread are pitch and stroke. Thread pitch is the distance between the nearest threads and is measured along the center line of the workpiece being processed. The stroke of one thread is the gap between two peaks of one turn on the working surface of the product. The stroke is equal to the product of the thread pitch and the number of starts.
Conclusions and useful video on the topic
All the nuances of cutting pipe threads in one video:
Knowledge about the creation, operation, and maintenance of threaded connections on pipes is always relevant for every person who deals with housekeeping, plumbing, and other utilities..
Without this information, it is impossible to carry out quality repairs, modernize pipeline systems, or simply maintain the operation of household economic systems.
Do you have anything to add or have questions about cutting threads on pipes? Please leave comments on the publication and suggest your own methods and effective tools for creating carvings. The contact form is located in the lower block.
Features of the left
First, you need to switch the operating mode of the lead screw so that it starts turning to the left. This is done by switching the lever that determines the direction of unwinding. And then everything happens exactly the opposite compared to the right-hand thread.
You just need to take into account that when switching to reverse, the cutter will not move to the side of the tailstock, but, on the contrary, will move towards the chuck. To avoid their collision, you must carefully monitor your movements.
Classification of taps and their scope of application
Lathes or drilling machines have been used for cutting threads for quite a long period. They are designed to rotate a workpiece or tool. In almost all cases, the working tool is a tap.
The classification of such a tool is carried out according to a number of different characteristics:
- As a rule, high-quality tool steel is used in the manufacture of tools. It can withstand long-term use and does not heat up during operation. A high quality tap has a strict geometric shape and looks neat. A similar tool is often used for cutting metric threads, but there are versions for producing inch threads. The shape of the base can be cylindrical or conical.
How to correctly determine the hole diameter?
Before cutting a thread, a hole is made, the diameter of which is determined according to standardized tables. If you prepare a hole whose cross-section is smaller than the recommended size, the tool will fail; if it is larger, the result will be of poor quality.
Thread designation | Diameter, mm | Thread designation | Diameter, mm | Thread designation | Diameter, mm |
M 2 | 1,6 | M 8 | 6,7 | M 22 | 19,4 |
M 2.2 | 1,75 | M 9 | 7,7 | M 24 | 20,9 |
M 2.5 | 2,05 | M 10 | 8,5 | M 27 | 23,9 |
M 3 | 2,5 | M 11 | 9,5 | M 30 | 26,4 |
M 3.5 | 2,9 | M 12 | 10,2 | M 33 | 29,4 |
M 4 | 3,3 | M 14 | 12,0 | 31,9 | |
M 5 | 4,2 | M 16 | 14,0 | M 39 | |
M 6 | 5,0 | M 18 | 15,4 | M 42 | 37,4 |
M 7 | 6,0 | M 20 | 17,4 | M 45 | 40,4 |
Thread size, inches | Diameter, mm | Thread size, inches | Diameter, mm |
1/8 | 8,8 | 7/8 | 28,1 |
1/4 | 11,7 | 1 | 30,5 |
3/8 | 15,2 | 1 1/8 | 35,2 |
1/2 | 18,9 | 1 1/4 | 39,2 |
5/8 | 20,7 | 1 3/8 | 41,6 |
3/4 | 24,3 | 45,2 |