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EMO MILANO 5-10.10.2015

image1We would like to thank very much all our visitors, customers, guests and partners which have visit us during the EMO MILANO 2015 exhibition on our booth. EMO MILANO 2015, the world exhibition dedicated to the industry manufacturing machine tools, robots and automation systems, held at fieramilano from 5 to 10 October, has been finished. EMO has always been considered the most important event at the disposal of trade operators from the world’s manufacturing industry to keep up-to-date on the new production technologies. EMO MILANO 2015 has presented products offered by almost 1,600 exhibitors, on 120,000 square meters of exhibition area. The whole production spectrum has been presented: from metal forming to metal cutting machines, from robotics to automation, from tooling to auxiliary technologies, to mechatronics.

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image2Promoted by CECIMO, European Association of Machine Tool Industries and organized by the operational structures of UCIMU-SISTEMI PER PRODURRE, EMO MILANO 2015 registered over 155 thousands visits over the six exhibition days, from visitors representing 120 countries. The already high expectations, considering the positive economic period, have been largely exceeded. The positive forecast on the global use of machine tools, that will reach 60 billion in 2015, 63 billion in 2016 (+5.2%), 66 billion in 2017 (+4.8%), are a good indication for a successful exhibition. The exhibition will also be remembered for all side events organized as a complement: institutional and B2B meetings, presentations, press conferences, conventions and technical seminars. The next edition of EMO MILANO will take place in six years: from 4 to 9 October 2021.

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EMO MILANO 2015

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Dear customers and partners. As a company, we are opening up against our clients,  in October we will be at your disposal during  EMO MILANO 2015,  on 5th to 10 th October 2015 in Milano Italy. Our Stand, will be in hall 3 stand L35 and we wish to welcome you there. Thanks to these fairs will be able to meet our growth plans for the coming years, as well as get an invitation to our factory, where we present you with our park machines machines slope and determine the conditions of delivery of your devices.

EMO MILANO 2015 | General information EMO 2015 |

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nieb_kolo_1000

W80 – 250 EN

nieb_kolo_1000

Short Description

The machine tool is provided with equipment enabling drilling and boring of holes up to 12000 mm length due to use of high efficient special tools. The machine tool is purposed for processes requiring long holes drilling and boring.
MACHINING APPLICATION
W80-250 drilling machine is applied to perform long holes. The effective values and durability of the machine tool are guaranteed due to use of driving systems and control systems verified in operation.

Main Features

Maximal spindle torque 130000 Nm
Maximal weight of a work piece 100 tons
Length of machined hole 12000 mm
Maximal hole diameter 1800 mm

Catalog

W celu uzyskania więcej informacji na temat maszyny pobierz specyfikację techniczną w pliku PDF.
Uwaga: Producent zastrzega prawo do zmiany specyfikacji technicznej.

 

Download

W80-250.PDF

1 General features of the machine

1.1 two-guideway bed cast of cast iron of advanced mechanical properties, standardized, suitably ribbed, supported on foundation along the entire length;
1.2 guideways of the bed hardened to hardness of minimum 45 HRC;
1.3 drilling tailstock lined with anti-friction materials and aided with central lubrication, which travels along two guideways ensuring perfect precise guidance;
1.4 body of a headstock cast of cast iron of advanced mechanical properties;
1.5 spindle supported on bearings of advanced accuracy class;
1.6 all shafts and gear wheels are carburized, hardened and grinded;
1.7 pressure head to feed coolant for drilling on to an independent plate;
1.8 damping steadies for tool poles to eliminate vibrations occurring at drilling;
1.9 hydraulic system provided with 15000 l tank to produce a jet of coolant for drilling

2 Standard execution

2.1 swing over bed – Ø 2500;
2.2 maximal drilling length: 12 m;
2.3 main power drive 150 kW;
2.4 infinitely variable adjustment of spindle revolutions of drilled work piece:
0.5-160 rpm;
2.5 Voltage supply: 3x400V/50 Hz;
2.6 Z axis travel provided from gearbox;
2.7 central lubrication;
2.8 drilling tailstock equipped with stationary tool;
2.9 carriage of pressure head provided with a clamping ring;
2.10 control panel;
2.11 adjustable wedges for levelling and bolts for anchoring on foundation;
2.12 CE certificate of conformity;
2.13 User manual

3 Optional execution

3.1 a drilling tailstock provided with a rotary drilling rod;
3.2 other execution complying with arrangements with a customer

4 Special equipment

4.1 Ø 250-650 stationary steady for a work piece;
4.2 Ø 600-1000 stationary steady for a work piece;
4.3 Ø 1000-1800 stationary steady for a work piece;
4.4 a damping steady for a drilling rod;
4.5 carriage (manual) for the surface turning

nieb_kolo_1000

W30 – 160/200 EN

nieb_kolo_1000

Short Description

The machine tool is provided with equipment enabling drilling and boring of holes up to 8000 mm length due to use of high efficient special tools.
The machine tool is purposed for processes requiring long holes drilling and boring.
MACHINING APPLICATION
W30-160/200 drilling machine is applied to perform long holes. The effective values and durability of the machine tool are guaranteed due to use of driving systems and control systems verified in operation.

Main technical data

Maximal spindle torque 50000 Nm
Maximal weight of a work piece in steadies 40 tons
Length of machined hole 8000 mm
Maximal hole diameter 800 mm

Catalog

W celu uzyskania więcej informacji na temat maszyny pobierz specyfikację techniczną w pliku PDF.
Uwaga: Producent zastrzega prawo do zmiany specyfikacji technicznej.

 

Download

W30-160_200.PDF

1 General features of the machine

1.1 two-guideway bed cast of cast iron of advanced mechanical properties, standardized, suitably ribbed, supported on foundation along the entire length;
1.2 cast iron guideways of the bed hardened to hardness of minimum 45 HRC;
1.3 drilling tailstock lined with anti-friction materials and aided with central lubrication, which travels along two guideways ensuring perfect precise guidance;
1.4 body of a headstock cast of cast iron of advanced mechanical properties;
1.5 spindle supported on bearings of advanced accuracy class;
1.6 all shafts and gear wheels are carburized, hardened and grinded;
1.7 pressure head to feed coolant for drilling on to an independent plate;
1.8 damping steadies for tool rods to eliminate vibrations occurring at drilling;
1.9 hydraulic system provided with 10000 l tank to produce a jet of coolant for drilling

2 Standard execution

2.1 swing over bed – Ø1600 (W30-160);
2.2 maximal drilling length: 8 m;
2.3 main power drive 75 kW ;
2.4 infinitely variable adjustment of spindle revolutions of drilled workpiece:
0.5-315 rpm;
2.5 Voltage supply: 3x400V/50 Hz;
2.6 X axis travel provided from gearbox;
2.7 central lubrication;
2.8 drilling tailstock equipped with stationary tool;
2.9 carriage of pressure head provided with a clamping ring;
2.10 control panel;
2.11 adjustable keys for levelling and bolts for anchoring on foundation;
2.12 CE certificate of conformity;
2.13 User manual

3 Optional execution

3.1 swing over bed – Ø 2000 (W30-200);
3.2 a drilling tailstock provided with a rotary tool;
3.3 Steel plates on the bed guideways are hardened up to 56 HRC min. and ground;
3.4 other execution complying with arrangements with a customer

4 Special equipment

4.1 Ø 100-400 stationary steady for a workpiece;
4.2 Ø 250-600 stationary steady for a workpiece;
4.3 Ø 400-800 stationary steady for a workpiece;
4.4 Ø 700-1100 stationary steady for a workpiece;
4.5 Ø 1100-1600 open steady (provided for W30-200);
4.6 a damping steady for a drilling rod;

nieb_kolo_1000

T9D – 115/135 CNC EN

P1220875-1000-600

Short Description

The lathe owing to application of innovative mechanical solutions combined with the advanced control and programming systems guarantees efficient rough and finish-machining.
Design of the lathe is supported on rigid bed provided with hardened guideways fully supported on foundation and a rear chips chute.
The design of the referred massive lathes features solutions ensuring favourable vibration damping and outstanding rigidity.
The effect covers high accuracy, repeatability and excellent finish of machined surfaces providing operational reliability.
The wide range of accessories enables further increase of machining efficiency.
The lathe is purposed for machining pipes (external and internal turning, face turning, external and internal threading) for example: in extractive industry.

Main technical data

Maximal diameter of pipes for machining 300/420 mm
Maximal work piece weight in centres 9 ton
Turning length 2-4 m
Chip conveyer in standard equipment

Catalog

W celu uzyskania więcej informacji na temat maszyny pobierz specyfikację techniczną w pliku PDF.
Uwaga: Producent zastrzega prawo do zmiany specyfikacji technicznej.

 

Download

T9D-115-135_CNC.PDF

1 General features of the machine

1.1 The bed guideways made out of high-grade cast iron of advanced mechanical properties, standardized, suitably ribbed, supported on foundation along the entire length (on the leveling screws) ;
1.2 Longitudinal saddle travelling along two slides V-block type ensuring perfect precise guidance;
1.3 Guideways of the bed and carriage are induction hardened to hardness of minimum 45 HRC;
1.4 Travel of longitudinal and transversal carriage with use of anti-friction materials aided with central lubrication;
1.5 Body of a headstock cast of cast iron of advanced mechanical properties;
1.6 Spindle supported on bearings of advanced accuracy class;
1.7 All shafts and gear wheels are carburized, hardened and grinded

2 Standard execution

2.1 spindle bore Ø 300 or Ø 420;
2.2 turning length 2 m up to 4 m;
2.3 main motor power – 40 kW (continuous operation);
2.4 Voltage supply 3×400/50 Hz;
2.5 FANUC 0i-TD numerical control system including Manual Guide i
provides basic turning functions and basic threading functions;
2.6 automatic 4-position turret head of vertical axis;
2.7 X and Z axes travels provided from ball screw;
2.8 automatic change of spindle speed ranges ;
2.9 central lubrication controlled by CNC;
2.10 chip conveyer;
2.11 cooling system for tools – 2,6 bars – 20l/minute (only for automatic tool
head);
2.12 lighting system;
2.13 tailstock quill Ø 190 mm provided with rotary spindle, Morse No 6, indicator of clamp force and compensation of workpiece elongation;
2.14 dead centre No 6 – 1 piece;
2.15 shields of working area;
2.16 hand catch for tailstock provided with the carriage;
2.17 control panel movable along the entire machine length;
2.18 bolts for levelling and anchoring on foundation;
2.19 CE conformity declaration;
2.20 User manual

3 Optional execution

3.1 swing over bed – Ø 1350 (T9D-135 CNC);
3.2 SIEMENS 840D SL OPERATE numerical control system
with basic turning and threading functions and main drive power 40 kW (continuous operation);
Options:
3.2.1 Shop Turn – basic turning functions;
3.2.2 PCU 50.3;
3.2.3 language options;
3.2.4 real – time simulations;
3.2.5 3D simulations;
3.3 tailstock with quill Ø 190 mm provided with rotary spindle, Morse No 6,
indicator of clamp force and compensation of workpiece elongation,
provided with automatic quill travel and tailstock travel along the bed;
3.4 automatic 8-position turret head;
3.5 1-way change tool post;
3.6 4-way quick-change tool post;
3.7 linear digit readout in Z and X axis;
3.8 tank for chips instead of chip conveyer;
3.9 air-conditioned control cabinet;
3.10 other execution complying with agreements with a customer

4 Special equipment

4.1 stationary steady Ø 50-450 of roller type;
4.2 stationary steady Ø 450-750 of roller type;
4.3 stationary steady Ø 450-950 of roller type;
4.4 3-jaw lathe self-centring chucks depending on customer’s requirements;
4.5 4-jaw lathe independent chucks depending on customer’s requirements;
4.6 boring attachment Ø 130/1000;
4.7 boring attachment Ø 160/1250;
4.8 boring attachment Ø 200/1500;
4.9 dead centre Morse No 6;
4.10 tool holders up to customer’s requirements;
4.11 foundation base for steady rest;
4.12 levelling bridge to check the bed

101-600-320

WT80 – 250 CNC EN

WT80–250_CNC

 

 

Short Description

The machine tool based on construction of T80-250 CNC lathe and W80-250 type lathe is provided with equipment enabling drilling and boring of holes up to 12 000 mm length due to use of high efficient special tools. The machine tool is purposed for processes, in which apart from basic turning processes carrying out long holes through drilling and boring is also required. MACHINING APPLICATION WT80-250 CNC lathe-drill machine is purposed to perform long holes as well as external and internal turning, reaming, screw cutting. The effective values and durability of the machine tool are guaranteed due to use of driving systems and control systems verified in operation.

Main technical data

Maximal spindle torque 130000 Nm
Maximal weight of a work piece in centres 80 ton
Maximal length of machined hole 12000 mm

Catalog

W celu uzyskania więcej informacji na temat maszyny pobierz specyfikację techniczną w pliku PDF.
Uwaga: Producent zastrzega prawo do zmiany specyfikacji technicznej.

 

Download

WT80-250_CNC

1 General features of the machine

1.1 the bed consists of double two-guideway bed cast of cast iron of advanced mechanical properties, standardized, suitably ribbed, supported on foundation along the entire length;
1.2 longitudinal carriage travels along two guideways ensuring perfect precise guidance;
1.3 guideways of the bed hardened to hardness of minimum 45 HRC;
1.4 travel of longitudinal and transverse carriage along guideways lined with anti- friction material and aided by central lubrication;
1.5 body of a headstock cast of cast iron of advanced mechanical properties;
1.6 spindle supported on bearings of advanced accuracy class;
1.7 all shafts and gear wheels are carburized, hardened and grinded;
1.8 pressure head to feed coolant for drilling on to an independent plate;
1.9 drilling carriage provided with clamping ring for tool rods and split bushes enabling to clamp a work piece of various diameters;
1.10 damping steadies for tool rods to eliminate vibrations occurring at drilling;
1.11 hydraulic system provided with 15000 l tank to produce a jet of coolant for drilling

2 Standard execution

2.1 swing over bed – Ø 2500;
2.2 turning length: 4-25 m, every 1m;
2.3 carriage borne on two guideways;
2.4 main drive power 150 kW (continuous operation);
2.5 spindle revolutions: 0.5-160 rpm;
2.6 Voltage supply: 3x400V /50 Hz;
2.7 FANUC 0i-TD numerical control system including Manual Guide;
2.8 automatic 4-post tool head;
2.9 Z axis travel provided from rack-pinions backlashless drive;
2.10 travel of cross slide (X axis) provided from a ball screw;
2.11 automatic change of headstock rotational speeds;
2.12 central lubrication controlled by CNC;
2.13 drilling tailstock equipped with stationary tool;
2.14 carriage of pressure head provided with a clamping ring;
2.15 tailstock including Ø 450 mm quill provided with a rotary spindle, an
indicator of clamp force and compensation of workpiece elongation, with
automatic quill slide out and sliding travel along the bed;
2.16 a dead centre – 2 pieces;
2.17 control panel;
2.18 adjustable wedges for levelling and bolts for anchoring on foundation;
2.19 CE certificate of conformity;
2.20 User manual

3 Optional execution

3.1 SIEMENS 840D SL numerical control system with main drive power 150 kW (continuous operation);
Options:
3.1.1 Shop Turn – basic turning functions;
2.1.2 PCU 50.3;
3.1.3 language options;
3.1.4 real – time simulations;
3.1.5 3D simulations;
3.2 automatic tool head including driven tools ( CNC drive ) and controlled C axis provided from main drive;
3.2.1 options for rotary tool – dependant on technology used, to be agreed;
3.3 automatic tool head including driven tools ( CNC drive ), Y axis
( CNC drive ) and controlled C axis provided from main drive;
3.3.1 options for rotary tool – dependant on technology used, to be agreed;
3.4 double shelf toolholder;
3.5 linear readout (measurement system) in Z and X axes;
3.6 measuring system purposed for a tool and a work piece
3.6.1 measuring cycles according to needs of the customer;
3.7 air-conditioned control cabinet;
3.8 other execution up to arrangements with a customer/vc_column_text]

4 Special equipment

4.1 Ø 250-600/25 tons stationary steady;
4.2 Ø 600-1000/25 tons stationary steady;
4.3 Ø 600-1000/40 tons stationary steady;
4.4 Ø1000-1800/50 tons open steady (not passing a support)

WT30–160_200_CNC

WT30 – 160/200 CNC EN

WT30–160_200_CNC

Short Description

The machine tool based on construction of T30-160/200 CNC lathe type is provided with equipment enabling drilling and boring of holes up to 8000 mm length due to use of high efficient special tools. The machine tool is purposed for processes, in which apart from basic turning processes carrying out long holes drilling and boring is also required.
MACHINING APPLICATION
WT30-160/200 CNC lathe-drill machine is purposed to perform long holes as well as external and internal turning, reaming, screw cutting. The effective values and durability of the machine tool are guaranteed due to use of driving systems and control systems verified in operation.

Main technical data

Maximal spindle torque 40 000 Nm
Maximal weight of a work piece in centres 30 ton
Length of machined hole 8000 mm

Catalog

W celu uzyskania więcej informacji na temat maszyny pobierz specyfikację techniczną w pliku PDF.
Uwaga: Producent zastrzega prawo do zmiany specyfikacji technicznej.

 

W30-160_200.PDF

1 General features of the machine

1.1 three-guideway bed cast of cast iron of advanced mechanical properties, standardized, suitably ribbed, supported on foundation along the entire length;
1.2 longitudinal carriage travels along two guideways ensuring perfect precise guidance;
1.3 guideways of the bed and carriage hardened to hardness of minimum 45 HRC;
1.4 travel of longitudinal and transverse carriage along guideways lined with anti-friction material and aided by central lubrication;
1.5 body of a headstock cast of cast iron of advanced mechanical properties;
1.6 spindle supported on bearings of advanced accuracy class;
1.7 all shafts and gear wheels are carburized, hardened and grinded;
1.8 pressure head to feed coolant for drilling on to an independent plate;
1.9 drilling carriage provided with clamping ring for tool rods and split bushes enabling to clamp a work piece of various diameters;
1.10 damping steadies for tool rods to eliminate vibrations occurring at drilling;
1.11 hydraulic system provided with 10000 l tank to produce a jet of coolant for drilling

2 Standard execution

2.1 swing over bed – Ø 1600 (WT30-160 CNC);
2.2 turning length: 3-20 m, every 1m;
2.3 carriage borne on two guideways;
2.4 main drive power 75 kW (continuous operation);
2.5 spindle revolutions 0.5-250 rpm;
2.6 Voltage supply: 3x400V/50 Hz;
2.7 FANUC 0i-TD numerical control system including Manual Guide
provides basic turning functions, main drive power 71 kW;
2.8 automatic 4-post tool head;
2.9 Z axis travel provided from rack pinions backlashless drive;
2.10 travel of cross slide (X axis) provided with a ball screw;
2.11 automatic change of headstock rotational speeds;
2.12 central lubrication controlled by CNC;
2.13 drilling tailstock equipped with stationary tool;
2.14 carriage of pressure head provided with a clamping ring;
2.15 tailstock including Ø 280 quill provided with a rotary spindle, an indicator
of clamp force and compensation of work piece elongation, with
automatic quill slide out and sliding travel along the bed;
2.16 a dead centre – 2 pieces;
2.17 control panel;
2.18 adjustable wedges for levelling and bolts for anchoring on foundation;
2.19 CE certificate of conformity;
2.20 User manual

3 Optional execution

3.1 swing over bed – Ø 2000 (WT30-200 CNC);
3.2 a spindle with A1-20 taper;
3.3 spindle revolutions: 0.6-315 rpm;
3.4 ———————————————————————————–
3.5 SIEMENS 840D SL numerical control system
with 71 kW main drive (continuous operation);
Options:
3.5.1 Shop Turn – basic turning functions;
3.5.2 PCU 50.3;
3.5.3 language options;
3.5.4 real – time simulations;
3.5.5 3D simulations;
3.6 SIEMENS 840D SL numerical control system
with 100 kW main drive (continuous operation);
Options:
3.6.1 Shop Turn – basic turning functions;
3.6.2 PCU 50.3;
3.6.3 language options;
3.6.4 real – time simulations;
3.6.5 3D simulations;
3.7 automatic tool head including driven tools ( CNC drive ) and controlled C
axis provided from main drive
3.7.1 options for rotary tool – dependant on technology used, to be agreed; 3.8 automatic tool head including driven tools ( CNC drive ), Y axis ( CNC
drive ) and controlled C axis provided from main drive
3.8.1 options for rotary tool – dependant on technology used, to be agreed;
3.9 double shelf toolpost;
3.10 linear readout (measurement system) in Z and X axes;
3.11 measuring system purposed for a tool and a work piece
3.11.1 measuring cycles according to needs of the customer;
3.12 air-conditioned control cabinet;
3.13 Steel plates on the bed guideways are hardened up to 56 HRC
min. and ground;
3.14 other execution up to arrangements with a customer

4 Special equipment

4.1 Ø 100-400 stationary steady;
4.2 Ø 250-600 stationary steady;
4.3 C Ø 150-700 stationary steady;
4.4 C Ø 400-800 stationary steady;
4.5 C Ø 700-1000 stationary steady;
4.6 Ø 1100-1600 open steady, not passing a carriage;
4.7 4-jaw lathe chuck: Ø 1600;
4.8 5.5 kW grinding head purposed for automatic 4-post tool head;
4.9 10 kW face milling head purposed for automatic 4-post tool head and controlled C axis provided from main drive;
4.10 10 kW face milling head with Y axis purposed for automatic 4-post tool head and controlled C axis provided from main drive