Designed for manufacturers demanding both rigidity and precision, this new Boost motor type vise combines a mechanical force-multiplying mechanism with anti-floating engineering to solve common clamping challenges in heavy-cutting environments.
| MODEL | A | B | C | D | E | F | G | H | I | J | J1 | J2 | J3 | K | M | X | Clamping force (kgf) | Net weight (kg) | Carton |
| WGV-100D | 464 | 340 | 124 | 102 | 130 | 133 | 65 | 15 | 110 | 0-130 | 65-210 | 110-240 | 175-305 | 48 | 18 | 45 | 4000 | 25 | 530x150x185 |
| WGV-130D | 539 | 415 | 124 | 130 | 147 | 150 | 75 | 15 | 138 | 0-180 | 75-270 | 125-305 | 213-393 | 55 | 18 | 65 | 4500 | 36 | 600x180×200 |
| WGV-160D | 639 | 515 | 124 | 160 | 160 | 163 | 85 | 15 | 138 | 0-240 | 85-320 | 138-358 | 223-443 | 58 | 18 | 99 | 4500 | 55 | 705x210x215 |
| WGV-160DL | 684 | 560 | 124 | 160 | 160 | 163 | 85 | 15 | 138 | 0-300 | 85-400 | 138-438 | 223-523 | 58 | 18 | 99 | 4500 | 58 | 750x210x215 |
| WGV-200D | 734 | 610 | 124 | 200 | 187 | 190 | 100 | 19 | 130 | 0-340 | 100-458 | 130-395 | 230-570 | 70 | 18 | 70 | 5000 | 89 | 800x250x240 |
Mechanical Pressure Boosting Without Hydraulic Drift
Unlike conventional hydraulic vices that risk pressure loss over time, the MC series uses a patented mechanical pressure-boosting device. The integrated force-multiplying design delivers a maximum clamping force of 5000 kgf while maintaining self-locking stability. This makes the Boost motor type vise particularly suitable for vertical and horizontal integrated machining centers as well as FMS flexible manufacturing systems.
A key engineering highlight is the internal anti-floating transmission mechanism. During clamping, a downward force is generated simultaneously, significantly limiting upward workpiece movement and movable body lift. Meanwhile, the main body and fixed jaw are cast as one unit, effectively preventing clamp body tilt – a common issue that compromises machining perpendicularity in high-load operations.
Built for Long-Term Durability in Harsh Conditions
Every MC Precision Power Vise is cast from high-strength ductile iron (FCD600), offering a tensile strength of 60 kgf/mm². Sliding surfaces and jaw areas undergo hardening treatment to HRC42 or above, ensuring wear resistance and long-term geometric accuracy. An optimized chip-proof structure further prevents iron filings from entering the internal mechanism, extending service life even in automated production lines with minimal downtime.
MSK sales stated, "This booster motor vise was developed specifically for customers who cannot tolerate clamping instability during multi-shift heavy cutting operations. From roughing steel to industrial precision machining, this vise can hold firmly without pressure loss or loosening."
Application Scenarios and Technical Configurations
The MC series is offered in multiple models – WGV-100D, WGV-130D, WGV-160D, WGV-160DL, and WGV-200D – with clamping force ratings from 4000 to 5000 kgf and net weights ranging from 25 kg to 89 kg. Each model includes precision-polished slide rails for smooth movement and high repeat positioning accuracy.
Ideal applications include:
Heavy milling, drilling, and tapping of steel, cast iron, and high-strength alloys
Mass production of precision components requiring ≤0.01mm repeatability
Robotic tending work cells and automated horizontal machining centers
Mold manufacturing and aerospace structural part machining where clamping deformation is critical
Availability and OEM Support
The MC Precision Power Vise is available for global order directly from MSK (Tianjin) Cutting Technology Co., Ltd. The company also offers private-label manufacturing and technical consultation for workholding integration.
For media or sales inquiries:
Molly
molly@mskcnctools.com
Product page: MC Power Machine Vise-Hydraulic Type
About MSK CNC Tools
MSK (Tianjin) Cutting Technology Co., Ltd. specializes in high-performance cutting and workholding solutions for CNC machining environments. The company’s product portfolio emphasizes mechanical innovation, European-standard materials, and application-specific designs for heavy-load and high-precision manufacturing.
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Post time: Jun-05-2026
