Screw-cutting lathe 16K20F3: characteristics, passport, diagrams

16K20F3 screw-cutting lathe with an NC-210 CNC device is equipped with a Mitsubishi FR-740 main drive and two feed drives HA-075 and NA-040 along the Z and X axis, respectively. It is designed for automatic turning of external and internal surfaces of parts such as bodies of revolution with stepped and curved profiles of varying complexity according to a pre-compiled control program. Deviation from cylindricity is 7 microns, taper is 20 microns at a length of 300 mm, deviation from straightness of the end surface at a diameter of 300 mm is 16 microns. Area of application of the machine: small-scale and mass production.

Design Features:

high-strength bed made of cast iron grade SCh20 with heat-treated ground guides ensure long service life and increased processing accuracy
Main motion drive including 11 kW main motor and spindle head provides the highest torque of up to 800 Nm
high-precision spindle with a 55 mm bore (64 mm on request), allowing the processing of parts made of bar material; the processing area can be equipped with both a linear adjustment and a turret, depending on the customer’s requirements
reliable protection of ball screw pairs ensures durability of the movement mechanisms along the X and Z coordinates; the machine is equipped with CNC systems and electric drives, both domestically produced and manufactured by foreign companies

Lathe 16A20F3

The 16A20F machine is designed for turning external (diameter up to 400 mm) and internal surfaces of parts (length up to 1000 mm) with a stepped and curved profile in the axial section in a closed semi-automatic cycle.

The 16A20F3 lathe is designed on the basis of the 16K20F3 screw-cutting lathe, so the layout, components and movements of these machines are the same. The design of the machines has been largely unified.

The CNC device of the machine (the machine can be equipped with various types of CNC systems: open, closed, CNC) provides shaping movement (the number of simultaneously controlled coordinates is two), changing feed values, switching spindle speeds, indexing the cutting head and threading according to the program.

Machine tools can be produced with various CNC devices, designed for integration into flexible production modules (GPM), as well as in special and specialized versions when equipped with adjustments in agreement with the customer.

16A20F3 machines can be equipped with removable tool heads with 6, 8 and 12 position tool holders with a horizontal axis of rotation.

Design Features:

high-strength bed
made of cast iron grade SCh20 with heat-treated ground guides ensure long service life and increased processing accuracy
main motion drive
including 11 kW main motor and spindle head provides the highest torque of up to 800 Nm
high-precision spindle
with a bore of 55 mm (optional 64 mm), allowing the processing of parts made of bar material; the processing zone can be equipped with both a linear adjustment and a turret
reliable protection of ball screw pairs
ensures durability of the movement mechanisms along the X and Z coordinates; the machine is equipped with CNC systems and electric drives, both domestically produced and manufactured by foreign companies

Main movement mechanism of the machine

The machine is equipped with a 16A20F3.025 spindle head. having three ranges with a ratio of 1.25:1; 1:2; 1:5.8; manually switchable.

The machine spindle is mounted in double-row and single-row conical bearings. Bearings are adjusted at the machine manufacturer's factory and do not require adjustment during operation.

The position of the spindle head axis on the frame is adjusted using two screws. The spindle head is lubricated from a lubrication station mounted on the base of the machine. To ensure the possibility of threading, a threading sensor is installed on the spindle head.

A frequency-controlled asynchronous electric motor with a control range with a constant power of 1500...4500 rpm (1000...3500 with DC motors made in Bulgaria) is used as the main movement drive.

The transmission of rotation from the electric motor to the first shaft of the spindle head is carried out by a 2240L20 poly V-belt with a gear ratio of 115:257 (160:257 in the case of using a DC electric motor manufactured by NRB).

The base of the machine is a rigid casting. The base, the electric motor of the main movement, lubrication stations for the guides of the carriage and the spindle head are installed on the base. Two types of bases are used:

with a window for chip collection and an opening for installing a chip removal conveyor, which is inserted from the right side;
without a window, divided vertically in the middle part by a solid partition, in this case the middle part of the base serves as a collector for chips and coolant, the compartment in the lower right part of the base serves as a coolant reservoir, and a coolant pump is installed at the rear on the right side of the base.

The largest diameter of the product installed above the frame, mm	500
The largest diameter of the workpiece above the bed, mm	320
The largest diameter of the workpiece above the support, mm	200
Maximum length of the installed product in centers, mm	900
Diameter of cylindrical hole in spindle, mm	55
Maximum transverse travel of the caliper, mm	210
Maximum longitudinal stroke of the caliper, mm	905
Number of controlled coordinates	2
Number of simultaneously controlled coordinates	2
Spindle speed range, min-1	20…2500
Maximum speed of fast movements - longitudinal, mm/min - transverse, mm/min	7500 4000
Number of tool head positions	8
Main drive drive power, kW	11
Total power consumption, kW	13
Overall dimensions of the machine, mm	3700x2260x1650
Machine weight, kg	4050

Electrical diagram of a screw-cutting lathe 16K20F3 with CNC NC-210

Below are sketches of two pages of the electrical circuit diagram of a 16K20F3 screw-cutting lathe with an NC-210 CNC device, a Mitsubishi FR-A740 main drive and feed drives for the X and Z axes - HA-040 and HA-075, respectively.

You can download for free the electrical circuit diagram of the screw-cutting lathe 16K20F3 (22 sheets) in excellent quality from the link below. This machine uses an electric drive for the main movement Mitsubishi FR-A740 and an electric drive for feeds HA-040 and Ha-075, so here are links to the documentation for these electric drives.

Electrical diagram of a 16K20F3 screw-cutting lathe with CNC NC-210. (HA-075 and HA-040. Mitsubishi FR-A740).

Features of design and functionality

Appearance

This machine is designed for various types of turning of workpieces. The diameter limit is 40 cm for external turning. When internal turning, the length of the workpiece should not exceed 100 cm.

The main advantage is the ability to install various types of CNC – closed, open and STS. For this purpose, the design provides contact connectors. The number of controlled coordinates when performing shaping is limited to two.

Additionally, the presence of automatic control allows you to perform the following operations on the 16K20F3 lathe, specified in the passport:

automatic control over the feed value;
changing the number of spindle revolutions;
the ability to form threads according to the drawn up program.

To these qualities it is worth adding high precision of the work performed and good performance characteristics. According to the GOST 8-82 classification, the 16K20F3 machine has an accuracy rating of “P”. To adapt to the specific type of operations performed, turning equipment of this type can be equipped with additional modules and an expanded range of settings.

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Manufacturer information

Milling machine 676: brief description, technical characteristics. metal cutters for milling machine

Near the workshop in Zamoskvorechye, the Bromley brothers began construction of a mechanical plant in 1857. His first products were axes, sickles and other tools for peasants. In 1864, the brothers purchased a new plot and began to obtain permission to build new workshop buildings.

In 1870 and 1872, planing and drilling machines from Zamoskvorechye received gold medals at the Moscow Industrial Exhibition. The triple expansion steam engine was awarded the Grand Gold Medal at the International Exhibition in Paris.

In 1918, the plant was nationalized and modernized. Since 1922, the plant has completely switched to the production of metal-cutting machines. In 1971, the first machines of the 16K20 series were produced. After the reconstruction of the plant, in 1973 they began to produce 16A20F3 with CNC.

Important! Since 2016, the Moscow Machine Tool Plant has been located in New Cheryomushki. The production of CNC lathes has resumed.. https://www.youtube.com/embed/qukAnYfZsIc

Technical characteristics, description and passport 16K20

16K20 Screw-cutting lathe is a universal equipment for precise processing of metal products in full compliance with international quality standards. The objective advantages of machines of this type include convenient operation, wide functionality and excellent performance indicators, which guarantee high results and maximum efficiency when used correctly in repair, production and other metalworking enterprises. As a rule, screw-cutting lathes are used to perform technological operations of varying complexity with the external and internal surfaces of parts, including rotating bodies that have a varied axis profile. In addition, the 16K20 lathe is very often used for quick and convenient cutting of left-hand and right-hand threads (metric, inch, modular and pitch), fully meeting the needs of enterprises in all sectors of modern industry. The screw-cutting lathe 16K20 has an expanded package that includes all the necessary equipment to ensure successful operation:

gearbox
electrical cabinet
feed box
headstock
chuck guard
bed
carriage and support
apron
caliper guard
tailstock

Location of the components of the TS16k20f3 machine

Location of the main components of the TS16k20f3 machine

List of main components of the TS16k20f3 machine

Cabinet;
Bed;
Caliper;
Headstock;
Longitudinal feed drive;
Cross feed drive;
Cabinet;
Cabinet with electrical equipment;
Turret;
Control panel with CNC system;
Centralized pulse lubrication system;
Coolant supply and collection system;
Rear grandma.

Technical characteristics of the lathe 16K20

Accuracy class according to GOST 8-82	N
The largest diameter of the workpiece installed above the bed, mm	400
Height of the center axis above the flat guides of the frame, mm	215
The largest diameter of the workpiece processed above the support, mm	220
Maximum length of the part installed in the centers (RMC), mm	710, 1000, 1400, 2000
The greatest distance from the axis of the centers to the edge of the tool holder, mm	225
The largest diameter of the drill when drilling steel parts, mm	25
The largest mass of the part processed in the centers, kg	460..1300
Maximum mass of the part processed in the chuck, kg	200
Spindle
Spindle hole diameter, mm	52
The largest diameter of the rod passing through the hole in the spindle, mm	50
Spindle rotation speed in forward direction, rpm	12,5..1600
Spindle rotation speed in reverse direction, rpm	19..1900
Number of forward spindle speeds	22
Number of spindle reverse speeds	11
Spindle end according to GOST 12593-72	6K
Tapered spindle bore according to GOST 2847-67	Morse 6
Spindle flange diameter, mm	170
Maximum torque on the spindle, Nm	1000
Caliper. Submissions
Maximum length of longitudinal movement, mm	645, 935, 1335, 1935
Maximum length of transverse movement, mm	300
Speed of fast longitudinal movements, mm/min	3800
Speed of fast transverse movements, mm/min	1900
Maximum permissible speed of movement when working on stops, mm/min	250
Minimum permissible speed of movement of the carriage (support), mm/min	10
Price for dividing the longitudinal movement dial, mm	1
Transverse movement dial division price, mm	0,05
Longitudinal feed range, mm/rev	0,05..2,8
Transverse feed range, mm/rev	0,025..1,4
Number of longitudinal feeds	42
Number of cross feeds	42
Number of threads to be cut - metric
Number of threads to be cut – modular
Number of threads cut - inch
Number of threads to be cut - pitch
Limits of metric thread pitches, mm	0,5..112
Limits of pitches of inch threads, threads/inch	56..0,5
Limits of modular thread pitches, module	0,5..112
Limits of pitch thread pitches, diametric pitch	56..0,5
The greatest force allowed by the feed mechanism on the cutter is longitudinal, N	5884
The greatest force allowed by the feed mechanism on the cutter is transverse, N	3530
Cutting slide
Maximum length of movement of the cutting slide, mm	150
Movement of the cutting slide by one division of the dial, mm	0,05
Scale of rotation angle of the cutting slide, deg	±90°
Scale division of the tool slide rotation scale, deg	1°
The largest cross-section of the cutter holder, mm	25 x 25
Height from the supporting surface of the cutter to the axis of the centers (cutter height), mm	25
Number of cutters in the cutting head	4
Tailstock
Quill diameter, mm
Tailstock quill hole cone according to GOST 2847-67	Morse 5
Maximum movement of the quill, mm	150
Movement of the quill by one division of the dial, mm	0,1
The amount of lateral displacement of the headstock body, mm	±15
Electrical equipment
Main drive electric motor, kW	11
Electric motor for fast movement drive, kW	0,12
Coolant pump electric motor, kW	0,125
Dimensions and weight of the machine
Machine dimensions (length width height) RMC=1000, mm	2795 x 1190 x 1500
Machine weight, kg	3010

Equipment technical parameters

Equipment components

By default, lathes of the 16A20F3 series are equipped with a CNC of the 2P22 series, model 16A20F3S39 is supplied with the NTs-31-02 block. At the same time, the overall dimensions of the equipment are 370 * 170 * 214.5 cm with a weight of 4150 kg. To connect, you will need a three-phase 380 V power line.

Significantly, the modification of the machine changes the maximum permissible size of the part processed above the bed. This parameter can be 40 or 32 cm. The same applies to the cross-section of the workpiece above the caliper, which is 22 or 20 cm. The maximum length cannot exceed 100 cm. It can vary depending on the installed tool head - 90, 75 or 85 cm.

It is also necessary to consider the characteristics of the 16A20F3 lathe with a drive. The most important of them are:

number of operating speeds – 22;
speed limits, rpm – from 12.5 to 2000;
speed range that can be set manually for each row: I – 12.5-200; II – 50-800; III – 125-2000;
in automatic mode, 9 speeds can be installed;
automatic switching range - 16;
the maximum permissible torque is 800 Nm.

Technical characteristics of machine feeds:

maximum displacement parameters. Along the X axis – 90 cm: along the Z axis – 25 cm;
thread pitch - from 0.1 to 39.999 mm;
the range of possible transverse and longitudinal speeds is the same and can vary from 3 to 2000 mm/rev;
permissible cutter height is 25 mm.

The standard CNC blocks that come with the 16A20F3 lathe have almost the same parameters. The number of controlled coordinates is 2. The discreteness of changing the value for each of them is 0.001 mm. The difference lies in the feedback sensor. The BE178A5 block has expanded functionality.

The video shows an example of the first launch of a machine with a CNC unit.

Machine design

The basis of the device is a durable U-shaped frame with 2 hardened, ground guides on top. It is installed on pedestals in a cast metal support, which is used as a trough for emulsion and collecting chips. The main electric drive is located in the cabinet on the headstock side of the product.

Dimensions of screw-cutting lathe 16K20

Machine dimensions: length 2505, 2795, 3195 or 3795 mm; width 1190 mm; height 1500 mm. The weight of the machine depends on its length and can be 2.835; 3.005; 3.225 or 3.685 per 103 kg.

Spindle

The spindle shaft is steel with a through longitudinal hole through which a rod is passed, used as a workpiece, or a drift when knocking out the front center. To rotate the spindle in this machine, specialized precision rolling bearings are used. They are distinguished by high manufacturing precision and wear resistance, so they do not require periodic adjustments during maintenance during the operational period.

The shaft supports are lubricated by oil supplied to them under pump pressure. The front end of the spindle shaft is made in accordance with GOST 12593 - with a short centering cone 1:4.

Headstock

The headstock or headstock of the workpiece serves to fix one end of the workpiece and transmit torque to it. It houses the spindle, bulkhead box and other components. On the outside there are switching levers for the bulkhead box.

The output shaft of the headstock of the product is connected through gears to the feed reducer. The latter allows the slide to carry out the feed movement using the drive shaft during turning. Or by means of a lead screw for thread cutting. Which can be connected to the feed box without intermediate links.

Apron

This unit is necessary to move the caliper with the tool holder both along and across the axis of rotation of the part. It converts the rotary motion of the screw into linear displacement of the caliper. You can move the latter not only manually, but also by taking away part of the rotational torque from the spindle. The apron of this machine is equipped with a high-precision feed cut-off device on a stop, a design that has not been seen before.

Caliper

Designed to hold the tool holder with the cutter fixed in it near the workpiece. Possessing several degrees of freedom, it can move under the influence of the apron to form the desired surface character of the part with a cutter. To control the amount of movement, the unit is equipped with scale rulers with sighting devices that increase the accuracy and ease of reading readings.

Tailstock

She's a stubborn grandma. It is installed on guides that allow it to move along the machine. It has a tapered hole coaxial with the headstock output shaft. Which allows you to set a center to support the second end of the blank. Or a reamer, tap, drill and other similar ones for performing operations from the open end of the workpiece.

Headstock of lathe 16k20

The headstock contains the gearbox and spindle assembly. The spindle transmits torque to the workpiece through devices. For installation and centering of devices, a flange is used, a conical neck is used for installing cartridges, and a conical hole is used for installing centers. In lathes, this hole is made using a Morse taper. The front ends of the spindles are standardized (for lathes with flanged front ends of the spindles GOST 12593-81).

The guitar is used to adjust the feed chain using the selection of replaceable gears for cutting metric, inch, modular, pitch threads, as well as for adjusting the pitch (stroke) of the thread when cutting non-standard threads. In double-pair guitars, the distance L between the shaft I; shaft II is constant. A slope is freely mounted on shaft II, which is attached to the wall of the spindle head using a bolt.

Lathe apron 16k20

An apron is a mechanism for converting the rotation of a lead screw or lead shaft into translational movement of a caliper. The caliper receives translational movement from the lead screw through a split nut, and from the drive shaft through a series of gears through a rack and pinion gear.

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Rotary tool holder of the machine 16K20F3S32

Drawing of the rotary tool holder of the machine 16K20F3S32

The design of the rotary tool holder is shown in Fig. 2.15. On the output shaft 4 there is a removable tool head (not shown in the figure), connected to the movable coupling half 6 of the flat-toothed coupling. The rotation of the tool holder is carried out through a worm pair 1–2, a cam coupling half 7, the other half 8 of which is rigidly connected to the shaft 4. At the initial moment of movement of this cam coupling, the shaft 4 is fed to the left, while the movable coupling half 6 of the flat-gear coupling moves away from the stationary coupling half 3 and the tool holder begins turning to the desired position, which is determined by pressing the cam 10 on the corresponding limit switch 9. Then the engine is reversed and the coupling half 7 rotates in the other direction, while the coupling half 6 with the tool head is kept from turning by a lock. The cams of the coupling half 7 rest against the cams of the coupling half 8, the spring 5 is compressed and the coupling half 6 is fixed on the teeth of the coupling half 3. The clamping limit switch gives a command, the rotation motor is turned off, and the processing cycle begins.

In the removable tool head, you can install six cutter inserts or three tool blocks, which are adjusted to size outside the machine in special optical devices with adjusting screws in two planes.

The diagram shows a variant of a mechanized tailstock, in which the quill moves from the electromechanical head of the EG.

Technical characteristics of the machine 16B20

Parameter name	16В20	1V62G	1V625M
Main settings
Accuracy class according to GOST 8-82	N	N	N
The largest diameter of the workpiece above the bed, mm	445	445	500
The largest diameter of the workpiece above the support, mm	220	220	290
The largest diameter of the workpiece above the frame recess, mm	–	620	690
Maximum workpiece length (RMC), mm	750,1000,1500	750,1000,1500	1000,1500,2000
Maximum turning length, mm	650,900,1400	650,900,1400	900,1400,1900
Maximum mass of the workpiece in the chuck, kg
The largest mass of the workpiece in the centers, kg
Spindle
Diameter of through hole in spindle, mm	54	54	60
Maximum rod diameter, mm
Number of speed steps for direct spindle rotation	24	24	24
Spindle direct rotation frequency, rpm	10…1400	10…1400	10…1400
Number of spindle reverse rotation frequency steps	12	12	12
Spindle reverse rotation frequency, rpm
Size of the inner cone in the spindle	M5	M5	M5
Spindle end according to GOST 12593-72	6K	6K	6K
Submissions
Maximum longitudinal movement of the caliper carriage, mm	900	900	900
Maximum lateral movement of the caliper, mm	280	280	302
Maximum lateral movement of the upper support (slide), mm	130	130	130
Number of longitudinal/transverse feed stages	50/ 50	50/ 50	50/ 50
Limits of longitudinal feed speed, mm/rev	0,018..22,4	0,018..22,4	0,036..22,4
Transverse feed speed limits, mm/rev	0,009..11,2	0,009..11,2	0,018..11,2
Speed of fast movements of the caliper, longitudinal/transverse, m/min	4/ 2	4/ 2	4/ 2
Longitudinal movement per dial division, mm	1	1	1
Longitudinal movement per vernier division, mm	0,1	0,1	0,1
Transverse movement of the caliper per dial division, mm	0,05	0,05	0,05
Movement of the slide by one division of the dial, mm	0,05	0,05	0,05
Number of metric threads to be cut	36	36	36
Limits of pitches of cut metric threads, mm	0,5..224	0,5..224	0,5..224
Number of inch threads to be cut	45	45	45
Limits of pitches of cut inch threads	77..0,125	77..0,125	77..0,125
Number of modular threads to be cut	36	36	36
Limits of pitches of cut modular threads	0,5..224	0,5..224	0,5..224
Number of cut pitch threads	45	45	45
Limits of pitches of cut pitch threads	77..0,125	77..0,125	77..0,125
Overload fuse	There is	There is	There is
Blocking longitudinal and transverse feeds	There is	There is	There is
Switching longitudinal stops	There is	There is	There is
Surface roughness of a workpiece made of structural steel during finishing turning, microns, no more	Ra 2.0	Ra 2.0
Tailstock
Maximum length of movement of the tailstock quill, mm	150	150	150
Maximum movement of the tailstock, mm	±15	±15	±15
Electrical equipment
Number of electric motors on the machine	3	3	3
Main drive electric motor, kW	7,5	7,5	7,5
Accelerated motion drive, kW	0,75	0,75	0,37
Cooling pump electric motor, kW	0,12	0,12	0,12
Total power, kW	8,37	8,37
Dimensions and weight of the machine
Machine dimensions (length width height) (RMC 1000), mm	2800 1190 1450	2800 1190 1450	2800 1370 1700
Machine weight (RMC 1000), kg	2450	2430	2430

Bibliography:

Screw-cutting lathes 16V20, 16V20A, 1V62G, 1V62GA, 1V625. Operating manual, 2004 Screw-cutting lathes 16V20, 1V62G, 1V625M. Operating manual 16В20.00.000 РЭ Screw-cutting lathes 16В20, 1В62Г. Operating manual 1V62G.00.000 RE3, 1993

Acherkan N.S. Metal-cutting machines, Volume 1, 1965

Batov V.P. Lathes., 1978

Beletsky D.G. Handbook of a universal turner, 1987

Denezhny P.M., Stiskin G.M., Thor I.E. Turning, 1972. (1k62)

Denezhny P.M., Stiskin G.M., Thor I.E. Turning, 1979. (16k20)

Modzelevsky A. A., Muschinkin A. A., Kedrov S. S., Sobol A. M., Zavgorodniy Yu. P., Lathes, 1973

Pikus M.Yu. A mechanic's guide to machine repair, 1987

Skhirtladze A.G., Novikov V.Yu. Technological equipment for machine-building industries, 1980

Tepinkichiev V.K. Metal cutting machines, 1973

Chernov N.N. Metal cutting machines, 1988

Tailstock of the machine 16K20F3S32

Drawing of the tailstock of the machine 16K20F3S32

The tailstock has a rigid structure. Using a handle, an eccentric shaft, a clamping bar and a lever system, the tailstock is secured to the frame.

If handle 13, retracted to the rearmost position, does not provide sufficient clamping of the tailstock to the frame, then it is necessary to set the required clamping force by adjusting screws 17 and 23 with lock nuts 13 and 24 released, changing the position of the clamping bar 19.

The quill is moved using an electromechanical head “PRIZ VS05” through a screw, in increments of 5 mm.

The constant clamping force of the part is ensured using disc springs.

CNC system

The 16K20F3 lathe is equipped with various CNC systems. Machine modifications, depending on the configuration of the CNC device, have different indices (for example, 16K20F3S32). The contour CNC system ensures the movement of shaping, changing the feed rates and spindle speeds in the processing cycle, indexing the rotary tool holder, and cutting threads according to the program. The number of simultaneously controlled coordinates is 2, the total controlled coordinates are 2. The discreteness of specifying transverse feed movements (along the X axis) is 0.005 mm, longitudinal movements (along the Z axis) is 0.01 mm. The 16K20F3 machine with a 2P22 CNC device is equipped with a KEMRON main drive and a KEMTOK feed drive along the Z and X axis.

The alphanumeric index of the machine 16K20F3 means the following: number 1 is a lathe; number 6 - designates a screw-cutting lathe, letter K - generation of the machine, number 20 - height of the centers (200 mm). The presence of “F3” at the end of the index indicates the presence of CNC - numerical program control.

Specifications	Options
Machining diameter above the bed, mm	500
Machining diameter above the support, mm	200
Maximum processing length, 6-position head, mm	900
Maximum processing length, 8-position head, mm	750
Maximum processing length, 12-position head, mm	850
Maximum processing length in centers, mm	1000
Diameter of cylindrical hole in spindle, mm	55
Maximum lateral stroke of the caliper, mm	210
Maximum longitudinal stroke of the caliper, mm	905
Maximum recommended speed of longitudinal working feed, mm	2000
Maximum recommended speed of transverse working feed, mm	1000
Number of controlled coordinates, pcs.	2
Number of simultaneously controlled coordinates, pcs.	2
Discreteness of movement task, mm	0,001
Spindle speed limits, min-1	20 — 2500
Speed of fast movements of the caliper - transverse, mm/min	2 400
Maximum speed of fast longitudinal movements, mm/min	15000
Maximum speed of fast transverse movements, mm/min	7500
Number of tool head positions	8
Power of the electric motor of the main movement, kW	11
Accuracy class according to GOST 8-82	P
Overall dimensions of the machine (L x W x H), mm	3700 × 2260 × 1650
Machine weight, kg	4000

The high-strength machine bed 16K20F3 is made of cast iron SCh20 with heat-treated ground guides, ensuring long service life and increased processing accuracy. The main movement drive, which includes a 11 kW main motor and a spindle head, provides the highest torque of up to 800 Nm. High-precision spindle with a 55 mm bore (64 mm on request), allowing the processing of parts made of bar material. The processing area can be equipped with either a linear adjustment or a turret, depending on the customer's requirements. Reliable protection of ball screw pairs ensures the durability of the movement mechanisms along the X and Z coordinates. The 16K20F3 machine is equipped with CNC systems and electric drives, both domestically produced and manufactured by foreign companies. Feedback and threading sensors model VTM-1M.

The tool movement program, main drive control and auxiliary commands are entered into the control system memory from the operator console keyboard, as well as from an external memory cassette and can be adjusted from the CNC operator console with visualization on the digital display panel.

Automatic tool head

The 16K20F3 CNC lathe is equipped with a 6-, 8- or 12-position automatic universal head (UG9321, UG9324, UG9325) with a horizontal rotation axis. The head has a tool disk for 6 radial and 3 axial tools (6-position) or 8 blocks for radial and axial tools (8-position) or 12 blocks for radial and axial tools, combined when setting up a part (12-position).

Advantages and disadvantages of the machine

Thanks to its unified design, the 16K20F3 CNC lathe will allow you to solve even the most complex production operations. Experts call the main advantage of the machine the ability to carry out modernization using various CNC controls. The process of changing programming is quite simple.

In addition to the above properties, the 16K20F3 CNC lathe has several more advantages:

level of productivity, thanks to which it is possible to produce a large volume of products per shift;
there is no need for preliminary testing and manual adjustments;
the accuracy of parts processing is one of the best;
the speed of operation corresponds to modern standards of operation of such equipment;
this model has a minimum number of workpiece reinstallations;
the design is distinguished by the reliability and strength of all components;
the dimensions and weight of the 16K20F3 CNC lathe allow for the installation of heavy parts;
affordable price.

Widespread production of the model has long ceased, but the machine can still be purchased: even in used condition, the equipment works efficiently and productively. Many shops offer to purchase various brands and series of turning mechanisms.

If we talk about significant shortcomings of the equipment, then there are none: the 16K20F3 CNC lathe, when used correctly and when replacing worn parts is observed, guarantees a long service life and excellent quality of the products produced. Now you can use modernization services to turn an old device into an innovative and functional machine.

Marking

The 16K20F3 turning unit, the technical characteristics of which we will consider further, is marked. Its decoding looks like this:

Index “1” – turning.
6 – screw-cutting.
K – production.
20 – height indicator at centers in centimeters.
F3 – CNC equipment.

Equipment in this category has a standard power of 10-11 kW, the accuracy class corresponds to GOST 8-82-P.