Where to get a profession as a turner. Where to learn to become a turner? Course curriculum

Specialties:
230101 – Computingcars, complexes, systemsAndnetworks(based on grades 9 and 11).
Duration of training – basic level / advanced level:
– based on 9 classes: 3 years 10 months / 4 years 10 months;
– based on 11 classes: 2 years 10 months / 3 years 10 months.
090108 – Informationsafety(based on 11 classes).
Duration of training: 2 years 10 months.
032002 – DocumentationsecuritymanagementAndarchival science(based on grades 9 and 11).

080504 – StateAndmunicipalcontrol(based on grades 9 and 11).
Duration of training: 2 years 10 months (based on 9 classes); 1 year 10 months (based on 11 classes).
Profession:
1 . 9 – Operatorelectronically- computingcars(based on grades 9 and 11).

Specialties:
150414 – InstallationAndtechnicalexploitationrefrigerated- compressorcarsAndinstallations(based on grades 9 and 11).
Duration of training: 3 years 10 months (based on 9 classes), 2 years 10 months (based on 11 classes);
080501 – Management(Byindustries) (based on 11 grades and primary vocational education).
Duration of training: 1 year 10 months.
Professions:
22 . 11 – Installersanitary- technical, ventilationsystemsAndequipment(ondatabase9 And11 classes).
2 . 13 – Turner- station wagon(ondatabase9 And11 classes). Duration of training: 3 years and 1 year.
2 . 14 – Milling operator- station wagon(ondatabase9 And11 classes). Duration of training: 3 years and 1 year.
2 . 17 – Locksmith(ondatabase9 And11 classes). Duration of training: 3 years and 1 year.
1 . 12 – ElectricianByrepairsAndserviceelectrical equipment(based on 9 classes). Duration of training: 3 years;
1 . 9 – Operatorelectronically- computingcars(based on grades 9 and 11).
Duration of training: 3 years and 1 year.
7 . 2 – Collectorpoints(based on 11 classes). Duration of training: 10 months.
ProfessionalPreparation:

19149 – Turner; 19479 – Milling operator; 18466 – Locksmithmechanical assemblyworks.
Duration of training: 2 years.
Speciality:
151001 – Technologymechanical engineering(based on 9 classes and primary vocational education in the specialty profile).
Duration of training: 3 years 10 months (based on 9 classes), 2 years 4 months (based on NGOs).
Professions:
2 . 12 – Machine operator(metalworking), operatormachine toolsWithCNC(based on 9 classes).
Duration of training: 3 years;
30 . 20 – Auto mechanic(ondatabase9 And11 classes).
Duration of training: 3 years and 1 year.
2 . 17 – Locksmith(ondatabase9 classes).
Duration of training: 3 years;
1 . 9 – Operatorelectronically- computingcars(based on 9 classes).
Duration of training: 3 years.
38 . 14 – Secretary(ondatabase9 classes).
Duration of training: 3 years;
ProfessionalPreparation:
based on 8 classes with basic general education (9 classes):
19149 – Turner; 19479 Milling operator– duration of study: 2 years;
based on 9 classes for graduates of type VIII schools:
18466 – Locksmithmechanical assemblyworks– duration of study: 2 years.
Introductorytests:
based on 11 classes: Russian language (USE), and at the choice of applicants:
computer science and information and communication technologies (ICT) (USE)
or mathematics (USE);
based on 9 classes: Russian language (dictation), mathematics (written) or results
GIA in these disciplines;
on the basis of NGOs: Russian language (dictation), testing in special subjects.
At the level of primary vocational education – admission without exams.
Training is free. Deferment of service in the ranks of the RA. Scholarship. Preferential travel. Free food. Continuing professional education. Continuation of studies at universities: MATI, MAMI, MGUPI, MFPA.

Turning appeared at the dawn of the industrial revolution and has come a long way since then. Nowadays, the profession of a turner has lost its attractiveness for young people. But on the other hand, with the advent of a large number of computer-controlled machines, turning takes on a new meaning and moves into the category of engineering art. Turning parts are used in mechanical engineering, electrical power engineering, construction and other areas of industry and technology.

Basic principles of turning

For beginners, turning seems like a dark forest full of incomprehensible terms. Although in fact the essence of the turning process is quite simple. The main tool of a lathe is a machine in which the clamped part rotates at high speed, and the cutting element carries out processing processes on wood, metal or plastic.

A wide variety of materials can be processed. The most popular material in turning is undoubtedly steel.

But historically, everything began with wood processing; 12 still operating lathes of Peter the Great are still preserved in the Hermitage collection. The Russian Tsar was fond of crafts, but turning wooden and metal parts was his favorite pastime.

Modern machines, of course, are much more complex than the first wooden models. But the basic principle remains the same, despite the advent of an electric motor instead of a manual drive and a multiple increase in size.

A lathe consists of several basic elements:

• the frame on which all other elements are attached;
• headstock with motor and spindle for fixing the part;
• a caliper moving along guides in the frame, with a cutter located on it;
• tailstock with locking dimensional parts.

The part is clamped, the drive imparts rotation to it and, by adjusting the position of the cutting or milling tool, the material is processed.

Standard turning operations that are used in both metalworking and woodworking are:

1. turning of spheres, conical and cylindrical workpieces;
2. trimming;
3. cutting grooves inside and outside parts;
4. cutting;
5. alignment;
6. drilling;
7. thread cutting, external and internal;
8. countersinking.

Each operation requires a special tool, which is selected in accordance with the material, the required processing accuracy and the design features of the machine.

Types of turning equipment

In Soviet times, there was an extensive network of vocational schools in which young people after school could learn the profession of a turner completely free of charge. The training program included a theoretical part, practical work on a training machine within the walls of the school and industrial practice. One of the most important elements of theoretical training, along with the study of the properties of metal, was learning to use a tool. A professional turner will not be able to do without understanding why each type of cutter is needed, how it is installed in the machine and at what angle the processing takes place. Now catalogs of turning tools and milling cutters are multi-volume reference books and manuals for turners in a huge format. The variety of equipment designed for any subtleties of metalworking operations is comparable to the classification of species in biology. The main tools that no production can do without and most operations can be carried out are cutters:

• pass-through, used for grinding;
• boring, allow you to sharpen blind holes;
• cutting, for slicing;
• threaded ones are needed for cutting threads on workpieces;
• shaped;
• slotted;
• fillets.

Lathe training includes preparation for working with all types of these cutters. And each tool requires precise tool holding specifications. The sharpening angle, the angle at which the cutter approaches the part, the feed speed. In this case, all parameters will change with a change in material. Even with steel, depending on the presence of various additives, the processing process is adjusted separately.

The machines that can now be found among manufacturers vary greatly in a number of parameters:

• by size: from desktop machines for a home workshop, to industrial machines weighing tens of tons for processing parts of hydroelectric power plants;
• by control method: manual, CNC, fully automatic systems;
• according to processed materials: for wood, metal, hard plastics.

The first experiences of a novice turner begin with studying a lathe, general principles of operation and the simplest operations for cutting parts. Further, with the growth of skills, working with the machine and theoretical training, you can move on to new work, for example, thread cutting or grooving.

But progress in skills is far from quick; you will have to get used to the idea of ​​long, painstaking training. In vocational schools, the training period takes 3 years plus industrial practice, which presents theoretical knowledge in a completely different way.

Turner ranks

With the growth of professional training, a turner can confirm his skills by passing exams to move to the next rank; the higher the rank, the more theoretical knowledge a specialist needs and, moreover, the finer knowledge of tools he must demonstrate

• a 2nd category turner has the skills to work on universal machines, with parts of 12-14 quality;
• a 3rd category turner has confirmed his skills in setting up universal machines, working with a plasma torch, sharpening cutters, and is ready to process parts of 7-10 quality;
• a turner of the 4th category performs plasma-mechanical processing, controls sleds with three or more supports, cuts double-start threads;
• a 5th grade turner processes complex parts up to 6-7 precision grades, processes high-alloy steels and rolls multi-start threads;
• 6th grade turner is the highest level of professional skill, a specialist works with 5th grade and can adjust a thin tool with several mating surfaces.

Passing exams to move from rank to rank is separated by a period of at least a year.

The last sixth category indicates a very high level of preparation in the theoretical part, practical skills in processing parts and setting up machines. The salary of such a specialist may exceed the salary of a professional engineer.

And sometimes the production process at an enterprise can completely depend on a specialist with unique turning skills. Taking exams in the specialty of turning is open in many professional training centers; usually, for the exam you will need to additionally take a training course and pay for retraining and the exam itself.

How to become a metalworking professional

Training in turning, as, for example, in the profession of a doctor, lasts a whole life, in addition to a significant amount of theoretical information, books and practical skills that need to be mastered, there is a constantly updated fleet of equipment that requires study, lathes are developing. The range of processed materials is also increasing, and new composite and polymer materials with unstudied properties are appearing.

Download turning tutorial

Training in the working profession of a lathe-borer in Moscow guarantees that a specialist will be in demand on the labor market; moreover, over the past years, the Russian economy has experienced a clear shortage of qualified technical specialists. You can obtain this profession in 3-16 weeks at our training center, where, after completing the classes, the ready-made specialist will receive knowledge and a certificate that will significantly raise his status in the eyes of the employer.

Course Information

Find out the terms and cost of training or call 8 800 555-93-71 (toll-free within the Russian Federation)

What does training include?

Training in a working profession involves studying theoretical material, as well as acquiring practical skills through completing tasks and analyzing situations related to further work activity.

Important point! A qualified specialist must understand all the nuances of the technological process, be able to use modern equipment, and apply different techniques for solving production problems.

Sample ID

ETKS (Unified Tariff and Qualification Directory of Work and Professions of Workers)

Important point! Depending on the category assigned to the student, the timing of theoretical and practical classes may vary.

The Boring Turner training program covers the following theoretical and practical issues:

Select rank

Turner-borer training course 2nd category

Characteristics of the work.

Processing of simple parts according to 12 - 14 grades on universal boring machines and deep drilling machines using cutting tools and universal devices. Control of boring machines with a spindle diameter from 200 to 250 mm under the guidance of a more highly qualified boring machine operator.

Must know:

design and operating principle of similar boring machines; name, purpose and conditions of use of the most common universal and special devices; arrangement of control and measuring instruments; angles and rules for sharpening and installing cutting tools; system of admissions and landings; qualities and roughness parameters; purpose and properties of cooling and lubricating fluids.

Examples of work

1. Strikers of forging hammers - milling of grooves.
2. Forks, earrings, rods, brackets - boring holes.
3. Parts up to 1300 mm long - milling straight edges and chamfers.
4. Workpieces - trimming ends and centering.
5. Levers - preliminary boring of holes.
6. Simple flanges - preliminary boring of holes with trimming of the end.
7. Fitting flanges - drilling holes along the conductor.
8. Simple foundations - processing of planes.
9. Gears, wheels, runners - drilling and boring holes.

Sign up for a course (2nd category)

Turner-borer training course 3rd category

Characteristics of the work.

Processing of parts of medium complexity using 8 - 11 qualifications on universal and jig boring machines using cutting tools and universal devices and 7 - 10 qualifications on specialized machines, as well as on diamond boring machines of a certain type, set up for processing simple parts. Installation of parts and assemblies on the machine table with precise alignment in two planes. Control of boring machines with a spindle diameter of 250 mm and above.

Must know:

device, rules for adjustment and accuracy testing of various types of boring machines; rules for controlling large-sized machines, serviced together with a more highly qualified boring machine lathe; device and rules for using universal and special devices; purpose and rules for using control and measuring instruments and devices; cutting tool geometry, heat treatment; rules for sharpening and installing cutting tools; system of admissions and landings; qualities and roughness parameters; basic properties of processed materials.

Examples of work

1. Punching hammers - milling grooves for stones.
2. Rear headstocks of metal-cutting machines - drilling and preliminary boring.
3. Engine cylinder blocks - preliminary boring of holes for liners and liners.
4. Excavator eccentric yokes - boring and trimming.
5. Shafts - end milling with centering.
6. Pad inserts for rolling mills - boring recesses for the refrigerator.
7. Ship bearing shells - drilling sockets and holes up to 10 drill diameters deep, located at an angle to the parting plane.
8. Parts longer than 1300 mm - milling of straight edges and chamfers.
9. Parts and workpieces up to 1300 mm long - processing of curved edges and chamfers.
10. Parts of medium complexity - boring of elliptical cuts and necks, processing of chamfers.
11. Curly parts with necks and holes - boring holes, milling along the contour and processing chamfers.
12. Bottoms of tanks - boring holes with chamfers.
13. Drawing mill sprockets - drilling and boring holes.
14. Rings for bearings - boring holes and cutting ends.
15. Rings and flanges with a diameter of up to 1000 mm - drilling, drilling holes.
16. Jigs with holes in one or two planes - boring holes.
17. Bearing housings - preliminary boring and trimming of ends.
18. Gearbox housings - preliminary boring of holes for bearings.
19. Covers, bottoms, shells, sections - drilling, boring, milling windows according to markings and given coordinates.
20. Matrices with round and rectangular windows - drilling and boring corner control holes.
21. Mortars - preliminary boring.
22. Connecting couplings - preliminary boring of holes.
23. Rolling mill knives, levers, cranks with hole diameters up to 100 mm - drilling and boring holes.
24. Four-jaw machine chucks - boring.
25. Partitions - drilling, boring and milling of windows according to markings and given coordinates.
26. Molds, simple templates and cams for automatic machines - boring.
27. Anchor plates - milling and drilling.
28. Tractor crawler frames - boring holes for axle shafts.
29. Steering wheel hubs with variable outer section - milling the outer contour according to the markings.
30. Calipers, racks of small machines, beds of large machines - boring holes.
31. Slam plates - drilling and boring holes.
32. Portal crane trolleys - boring holes for the roller axles.
33. Tees, elbows, pipes - trimming and boring.
34. Transitional chamfers on complex parts - milling straight edges.
35. Foundations - processing of planes.
36. Connecting rods - preliminary boring of the large and small heads.

Sign up for a course (3rd category)

Turner-borer training course 4th category

Characteristics of the work.

Processing of complex parts and assemblies according to 7 - 10 qualifications with a large number of transitions and settings on universal, jig boring, as well as diamond boring machines of various types. Processing of parts that require precise adherence to the distance between the centers of parallel holes, perpendicularity tolerance or specified axis locations. Boring using one or two boring bars simultaneously and a flying slide. Determination of the position of the coordinate axes when boring several holes located in two planes. Setting up machines. Control of boring machines with a spindle diameter over 200 mm.

Must know:

device, kinematic diagrams and rules for checking the accuracy of boring machines of various types; design features and rules for using universal and special devices; arrangement of control and measuring instruments and instruments; geometry, rules of heat treatment, sharpening and finishing of cutting tools; methods for setting up specialized boring bars; system of admissions and landings; qualities and roughness parameters.

Examples of work

1. Rear headstocks of screw-cutting lathes - boring holes for the quill.
2. Headstocks and guides of stamping hammers - boring center holes and milling parallels.
3. Rudder stocks for medium and large ships, ship intermediate shafts - milling of keyways.
4. Cantilever beams - marking, drilling and boring holes.
5. Crankshafts - boring holes in the crankpins, drilling and reaming holes in the flange.
6. Ship shafts - drilling, countersinking and reaming conical holes for connecting bolts in flanges.
7. Propellers with a diameter of up to 2000 mm - drilling and boring holes.
8. Mortar bushings - final boring.
9. Bushings for hydraulic turbine impellers - preliminary boring.
10. Conical heads and spherical bodies - drilling, boring holes and necks in various planes, cutting ends from the axis at given coordinates.
11. Turret heads - boring holes.
12. Complex parts with curved edges and a length of over 1300 mm - milling of edges and chamfers.
13. Bottoms - drilling, boring, opening holes at given coordinates in various planes.
14. Flaps - boring holes for pressing bushings and boring bushings after pressing.
15. DUIM bodies - preliminary boring.
16. Flap bodies are complex, welded and stamped - boring holes and pockets with trimming the ends.
17. Housings and covers - boring oppositely located holes using a boring bar to the length of the table stroke.
18. Gearbox housings with two or more axes located in the same plane with a diameter of up to 300 mm - boring.
19. Filter housings with a diameter of over 1000 mm - final boring.
20. Hydraulic turbine stator columns - final boring.
21. Support bearing housings with a diameter of up to 400 mm - final boring.
22. Fuel pump housings, diesel liners - diamond boring.
23. Machine headstock housings - preliminary boring, end milling.
24. Gearbox housings - boring and cutting ends.
25. Cranks with a diameter of over 100 mm - boring of holes.
26. Brackets with intersecting hole axes - fine boring.
27. Overhead crane hooks - boring.
28. Matrices, fixtures and jig plates - boring holes located in different planes.
29. Branch pipes for a blast furnace - sphere boring and cutting.
30. Partitions, brackets - drilling, boring, opening holes at given coordinates in various planes.
31. Molds, complex jigs - boring holes located in different planes.
32. Marine support bearings with a shaft diameter of up to 400 mm - final boring.
33. Beds of forging machines, beds of working and gear stands, beds of blooming shears - preliminary boring, milling and trimming.
34. Stators of turbogenerators - boring.
35. Tables of milling, drilling and forming machines - fine boring and milling of T-slots.
36. Ice propeller hubs - final boring of recesses and sockets for the blades.
37. Steering wheel hubs, tillers and other parts - milling of internal keyways.
38. Posts, sternposts - milling locks, grooves and drilling holes.
39. Foundations - processing in 2 or more planes.
40. Connecting rods of diesel engines, forging machines, main steam engines with a distance between centers of up to 1800 mm - final boring.
41. Dies for cutting rotor, stator and pole iron - marking, drilling, boring dies and punches, milling edges.
42. Dies - milling curved edges.
43. Brake pulleys, couplings - boring of conical holes.

Sign up for a course (4th category)

Turner-borer training course 5th category

Characteristics of the work.

Processing of complex parts and assemblies with a large number of machined external and internal surfaces, with places that are difficult to access for processing and measurements and compliance with dimensions according to 6 - 7 qualifications on universal boring machines. Processing of parts and assemblies with alignment in several planes using racks, boring bars, flying supports and milling heads. Cutting threads of various profiles and pitches. Coordinate boring of holes in and without fixtures, moving along coordinates using indicators and micrometric tiles. Boring of holes on diamond boring machines of all types in complex parts of 6th grade.

Must know:

design features and rules for checking the accuracy of universal boring machines and various universal and special devices; geometry, rules of heat treatment, sharpening and finishing of various cutting tools and the influence of these factors on the cleanliness and accuracy of processing; rules for setting up and regulating instrumentation and instrumentation; rules for determining the cutting mode using reference books and machine data sheets.

Examples of work

1. Nozzle apparatus - final boring of holes, grooves, grooves, platforms, pockets and threading.
2. High pressure drums - boring.
3. Engine cylinder blocks - final boring.
4. Marine propeller shafts - milling of keyways.
5. Propellers with a diameter of over 2000 mm - drilling and boring holes in the blades.
6. Vessel hydroskis, bow shield brackets - boring holes.
7. Diaphragms of steam turbines with a diameter of over 2000 mm - scraping milling of connectors and final boring.
8. Mortar cone rings - final boring of holes according to measurements from the shafting installation site.
9. Support bearing housings with a diameter of over 400 mm - final boring.
10. Compressor housings - final boring of holes for threading.
11. Housings of multi-spindle heads - boring holes for pressing in rolling bearings.
12. Float valve bodies - final boring.
13. Gearbox housings with intersecting hole axes - final boring of holes for bearings.
14. Housings, heads, conical and spherical units - milling of planes, locks, boring of holes with cutting of ends at given coordinates.
15. Various gauges and devices - marking, drilling and boring holes.
16. Covers of large hydraulic cylinders, rudder brackets - boring and tapping holes.
17. Gear stands of rolling mills - boring of liners after pouring.
18. Jigs - boring holes in planes located at different angles.
19. Headstock housings of metal-cutting machines - final boring of holes.
20. Housings of turbopumps and pump gearboxes - fine boring.
21. Diesel cylinder covers - boring valve seats, trimming ends and reaming holes.
22. Complex matrices for dies, molds, injection molds - marking the working body, drilling and boring.
23. Electrical panels - drilling, boring holes, milling grooves.
24. Rudder blade - boring.
25. Multi-cavity molds - boring of holes located in different planes.
26. Multi-place devices and multi-punch dies - boring.
27. Marine support bearings with a shaft diameter over 400 mm - final boring.
28. Marine thrust bearings with shaft diameter up to 400 mm - final boring.
29. Frames of trolleys of overhead electric overhead cranes - boring.
30. Beds of forging machines, shears, working and gear stands of blooming - complete turning.
31. Hydraulic turbine stators - milling of joints.
32. Steering wheel hubs up to 300 mm long - boring of a tapered hole.
33. Calipers of large lathes, milling and other machines - boring and trimming.
34. Steam engine cylinders - final boring.
35. Hydraulic lift cylinders - full turning.
36. Complex templates and patterns for distribution jaws and copiers - marking, drilling and boring.
37. Shabots of stamping hammers - boring and milling of dovetail grooves.
38. Main connecting rods of steam engines with a distance between centers of more than 1800 mm - final boring.
39. Gears of portal cranes with an offset hole for the axle of the crank mechanism - boring of holes.
40. Scales and verniers - marking and applying precise marks.
41. Articulated spindles for bloomings with a diameter of up to 1000 mm - boring and trimming.

Sign up for a course (5th category)

Turner-borer training course 6th category

Characteristics of the work.

Processing of complex experimental and expensive parts and tools according to grades 1 - 5 with a large number of transitions and settings, with places that are difficult to access for processing and measurement, and also requiring combined mounting and precise alignment in various planes during installation on boring machines of various types and designs. Coordinate boring of holes without devices with movement along coordinates using indicators and microscopic tiles. Processing of parts and assemblies using racks, boring bars, flying supports and milling heads. Cutting complex threads using threaded supports of various designs. Processing of complex large-sized parts and assemblies, as well as thin-walled parts subject to deformation, on unique boring machines.

Must know:

design and rules for checking the accuracy of boring machines; methods for installing fastenings and alignment of complex parts and the universal special devices required for this; device, geometry and rules of heat treatment, sharpening and finishing of all types of cutting tools.

Examples of work

1. Blocks of eight or more cylinder engines - boring for liners and crankshaft.
2. Housings of high-speed multi-axis gearboxes - boring along six to seven axes.
3. Housings of powerful blowers - final boring of holes.
4. Working wheels of large water turbines - boring for working blades.
5. Large water turbine wheels assembled with shafts - boring holes for connecting bolts.
6. Headstock housings of large-sized machines - final boring.
7. Marine thrust bearings with a diameter of over 400 mm - final boring.
8. Marine thrust bearings of a special type with a diameter of over 800 mm - final boring.
9. Hydraulic turbine impeller shackles maintaining a center-to-center distance of up to 0.02 mm - final boring.
10. Multi-roll (fifty-roll) beds of sheet-leveling machines - milling planes and boring holes.
11. Stern tubes - boring.
12. Articulated spindles for bloomings with a diameter of over 1000 mm - boring and trimming.

Sign up for a course (6th category)

Who is vocational training aimed at?

Applicants who meet the following requirements can obtain a useful and, most importantly, in-demand working profession in Moscow:

age from 18 years; state of health corresponding to the profession; presence of a certain qualification (when assigning higher level ranks).

Reference!An employee can take a course at his own request or at the direction of the employer. Details

Do you want to become a turner? There are several training options - you can go to school, you can learn from a machine, or you can take turner courses in Moscow or throughout Russia.

Turner is a working specialty. In this specialty, a worker processes various hard materials using mechanical equipment. In most cases, the work involves wood, metal, plastic, etc. Everyone develops a profession and a turner is no exception. By attending turner courses and learning practically, a candidate for the profession learns the basics of the profession step by step.

A universal turner, using a lathe, processes and bores any surface, as well as cuts threads, drills and calibrates. A professional lathe operator knows everything about a lathe. To gain such knowledge, you must carefully choose a reputable and professional educational institution or specialized turning courses that are popular and have a good reputation. Also, when choosing courses, you should be interested in the availability of a license to provide such services and state accreditation.

Study to become a turner in Moscow

Throughout Russia, in every city, there are many educational institutions and courses for turners that train students in the working profession. Turner courses in Moscow can currently be taken at almost 50 centers teaching working specialties. And this is not counting dozens of vocational technical schools, where people from other cities of our country come to Moscow to study to become a turner. Also in Moscow there are entire training centers for the training of professional workers. One of the most famous training centers throughout the capital is the Tushinsky training center, located on Volokolamsk highway.

Studying to become a turner in Moscow is quite simple, since there is a large selection of educational institutions competing with each other for applicants and students. And, of course, each such center tries with all its might to improve the quality of training and practice provided.

Every person who wants to get the profession of a turner must undergo training in a special educational institution - a turner has the opportunity to take them at specialized turner courses.

While attending coursework, the student learns the theory and practice of turning, necessary for the professional activity of a turner. First come lecture materials, after which the acquired knowledge is recorded through practical training in specialized workshops or workshops located at the training center.

Turner course plan

In principle, in all Moscow and regional training professional centers, the training program for turners is the same and it consists of two areas: theory and practice.

The information course itself is divided into two parts:

• General. Students study on a PC using electronic textbooks. After the course, they take a test that tests the knowledge they have acquired.
• Specialized. This part of the course is taught directly to turners by a practitioner. Training centers attract professionals who have practical skills in turning. After completing this course there is an exam.

In turning courses, a lot of time is devoted to knowledge of labor protection. The profession of a turner, like all other working professions, has its dangerous sides. These include hot chips flying in different directions, heavy and large parts and workpieces. These are multifunctional machines and devices, without knowledge of the operation of which you can get seriously injured. Thus, a turner will not be allowed to work until he has passed a theoretical examination on work safety.

At the courses, turners are taught to understand drawings and learn how to properly use measuring devices. A turner candidate learns to use various cutters and processing modes for a particular part made of different materials. Upon completion of the turner courses, which can last up to 160 hours, a certificate of qualification and a turner certificate with a certain rank, valid for five years, are issued.

Turner training or advanced training courses are not free. Studying to become a turner in Moscow costs about 20 thousand rubles. In the regions, of course, they are cheaper, for example, in Chelyabinsk they cost about 15 thousand.

Whatever it is, if a person has a strong desire to become a turner, then he will not stand by the price. Moreover, the salary of a second-rate turner (entry level) in Moscow is about 14 thousand rubles per month. In fact, the courses cost one month’s salary of a novice turner.

Nowadays, more and more people are interested in turning. Of course, based on the results of turner courses, specialists will not earn a lot of money, unless this applies to 6th category generalist turners, whose salary can reach up to 100 thousand rubles; the average pay for a 4-5 category turner in Russia is 40-50 thousand rubles. Although there is a “vein” in a person to strive for more, so you can reach the 6th category and earn decent money.

But in the work of a turner, not only money is important. And you can trade on the market, receiving the same 40 thousand. The work of a turner, in addition to earning money, has creativity, which is very pleasant for the soul of the master who looks at his creation with love. Each shapeless piece, after being processed by a master, turns into a useful thing. Isn't this real skill?

Today you can master it - come to study as a turner in Moscow or take turner courses in your city - it doesn’t matter where. It is important that this is quite realistic, affordable and promising for income and life. Career growth is inevitable here. He will not bypass you either.

Documents for enrollment	Application, 3x4 photo, medical certificate
Document on completion of the course	Certificate Qualification certificate "Turner" Protocol
At the moment, group recruitment is temporarily suspended!
Program of additional professional education and advanced training

NIGHT DPO "MOSDOR" provides training to become a turner in Moscow.

A turner is a profession with a working direction. This worker is engaged in processing various solid materials. Most often, it interacts with the following materials: wood, metal, plastic.

Do you want to get such a specialty? Our training center for additional education will be happy to provide you with this opportunity! With us you can get training to become a turner at the most affordable prices for you!

What is included in the training program?

Courses that allow you to train as a turner consist of studying both theoretical and practical parts.

All information may consist of the following parts:

1. General. Students are told about the theoretical foundations of the profession and are provided with various manuals in electronic form. After listening to the program, a person takes a test - that is, our specialists check whether you have learned everything that was told to you well.
2. Special. This part of the training program is conducted exclusively by an employee - a professional in the industry in question. Our training center guarantees that you will undergo practice with a real master - all our teachers perform their work responsibly and with interest.

Training to become a turner also involves researching labor safety issues. This specialty belongs to the category of quite dangerous, it has specific features. Let's say heavy parts, developments, and so on. An important point: it is necessary to understand all the nuances of machines and devices - if you do not take into account all these points, you will most likely suffer severe damage. That is, not a single specialist will be allowed to perform work duties without passing the theoretical part.

Our training program consists of research:

• Varieties and indicators of different materials.
• Requirements - how exactly it is necessary to study the diagrams and all technical documentation.
• Nuances - what structure do different machines and cutting tools have?
• Calculations required to obtain a specific cone-type surface.
• The question is, how can you monitor the characteristics of the materials being studied?

How does the turner training program end?

Training to become a turner involves passing a final qualifying exam after listening to theory and undergoing practice. If the exam is passed, the person becomes the holder of a certificate. He is awarded a qualifying degree. Next, a corresponding certificate with the designation of the category is issued. The document is valid for exactly five years.

Want answers to additional questions? Just dial our phone number or leave a request in the appropriate window on the site - and we will definitely call you! If you want to use our services, but do not know which training program to choose, we also offer our assistance - our specialist will place your order in the shortest possible time!