LP-3025 - Large Bridge Type Vertical Machining Center

X-axis travel : 98.4" ~ 275.5"

Y-axis travel : 62.9" ~ 129.9"

Z-axis travel : 29.9" ( 39.3" / 47.2" / 55.1" Opt. )

Dist. between columns : 66.9" ~ 137.7"

Table size ( X direction ) : 90.9" ~ 276.3"

Table size ( Y direction ) : 58.9" ~ 118.5"

Table load capacity : 17,635 ~ 44,090 lb

Spindle speed : 6,000 ~ 10,000 rpm

Spindle power : 22 / 26 kW ( 30 / 35 HP )

( cont. / 30 min. )

Tool magazine capacity : 32 T ( 60 / 90 / 120 T Opt.)

Standard Accessories

Spindle cooling system

Centralized automatic lubricating system

Fully enclosed splash guard w/o roof ( LPXX16 series )

4 pcs splash guard ( LP series )

Coolant system with pump and tank

Twin screw type chip conveyor

Caterpillar type chip conveyor and bucket

Automatic power off system

Foundation bolt kit

Alarm light

Air gun

Tool box

Optinal Accessories

Spindle:

Spindle taper : CAT50

Milling head ( Manual ) :
35° / 90° / Extension / Universal Head

Milling head ( Automatic ) :
35° / 90° / Extension / Universal Head

Y travel extension :
2,500 / 3,200 / 4,000 mm ( 98.4" / 125.9" / 157.5" )

Z travel extension :
1,000 / 1,200 / 1,400 mm ( 39.4" / 47.2" / 55.1" )

Column extension :

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Ultra Performance Bridge Type Machining Center

Representing YAMA SEIKI’s “The royal family of bridge machines” of mature manufacturing abilities and advanced technology skills, the SP and LP series bridge type vertical machining centers combine strong spindle power and high rigidity structure along with high quality automation equipments and full product line to provide you with high efficiency, high productivity machining strategies; it can be broadly applied in the automotive, precision mold, aerospace and energy industries., etc.

The LP series can be equipped with an automatic head changer and vertical / horizontal ATC system which turns into a 5-face machining center providing more cutting flexibility to meet your demands of today and tomorrow.

LP series Product Map

Thanks to our advanced developing skills and strict assembly process, gives the SP series ultra performance bridge type vertical machining center optimum rigidity, accuracy and efficiency.

The modular spindle design provides cutting flexibility for various working conditions.

High rigidity roller type linear guide ways on the X, Y axes offer heavy-duty cutting, fast movement and low abrasion capabilities.

The Z-axis is adopted with high rigidity box way which is hardened and precisely ground suitable for heavy-duty cutting conditions.
( Opt. : The Z-axis can be adopted with roller type linear guide ways if equipped with high speed direct driven spindle. )

High Rigidity Structure

One-piece base structure built with complex 4 guide ways is enlarged proportional to the length of the travel to eliminate working table over hang issue while ensuring maximum structural support. ( X travel longer than 6,000 mm may be in two sections due to transportation limit. )

Wide span symmetrical center-driven design with X-axis ball screw placed in the center of the axial movement provides high precision axial feeding features, avoids movement yawing problem and guide ways uneven wear out due to eccentric driven design as in other machine.

The ball screw vibration absorber reduces the vibration of long ball screw to increase machining accuracy.

LP-2516 / 3016 / 4016 / 5016 : one-piece base structure with 2 roller type linear guide ways design.

Optimum Spindle System

lnner-rail embraced structure provides high rigidity and gains good stress flow which minimizes over hang and vibration issues. The Y-axis roller type linear guide ways offset from each other increases structural rigidity reduces distance between spindle to cross beam enhances overall cutting performance.

Unique head design which the main spindle, spindle motor, ball screw and hydraulic counter weight cylinders are symmetrically placed. Hereby preventing thermal distortion and minimizing deflection. Assuring accuracy and heavy cutting capability.

2-speed super heavy-duty gear box

Floating type hydraulic tool release device eliminates pressure on the spindle bearing when releasing a tool.

4,000 rpm high torque spindle is equipped with powerful 26 kW motor, delivering maximum torque output of 977 Nm at 254 rpm which can meet with various heavy-duty cutting conditions.

5,000 / 6,000 rpm gear spindle ( Opt. )

4,000 rpm Gear Spindle

6,000 rpm Gear Spindle

The built-in motor design reduces centrifugal force effect and restrains spindle vibration, which increases the spindle life span and improves long-term machining accuracy.

Floating type hydraulic tool release device eliminates pressure on the spindle bearing when releasing a tool.

6,000 rpm and 8,000 rpm are available, which provides maximum 600 Nm torque output at 350 rpm to meet with various working conditions.

6,000 rpm Build-in Motorized Spindle

8,000 rpm Build-in Motorized Spindle

Direct-drive spindle efficiently separates the heat generated from the motor, which reduces deformation, therefore, increasing machining accuracy.

Floating type hydraulic tool release device eliminates pressure on the spindle bearing when releasing a tool.

8,000 rpm and 10,000 rpm are available, which provides maximum 165 Nm torque output at 1,500 rpm to meet with various high speed working conditions.

8,000 rpm Direct-drive Spindle

10,000 rpm Direct-drive Spindle

NC Intelligence

Multiple Functions Status Display

Trouble Shooting

When the alarm appears, the program will display the breakdown cause and a troubleshooting procedure. Users can easily troubleshoot minor problems to save machine shutdown time.

Circular Work Piece Measurement

The circular work piece program can calculate the center coordinate of a work piece by measuring point A, B and C coordinates.

Rectangular work piece measurement

The rectangular work piece program can calculate the center coordinate and the slant angle of a work piece by measuring point A, B, C, D and E coordinates; the calculated center coordinate can be inputted into the work piece coordinate program( G54~G59 ).

Manual Tool Length Measurement

After manually measuring the tool length, the controller will automatically calculate the tool tip position and input the data into the tool length offset table.

Adaptive feed control

Adaptive feed control is capable of real-time monitoring the spindle load to control the axial feed rate which effectively extends tool life, shortens rough cutting time, and detects abnormal cutting conditions.

CNC parameter optimization

From rough cutting to fine finishing, the operator can select various cutting modes based on the working condition, and then set the allowable error and work piece weight to obtain the optimum parameter.