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Ultra Fast Table Vise 1h30, Zero Hardware

IP Report

Print Profile(2)

All
A1 mini
H2D
X1E
A1
H2S
P2S
H2D Pro
X1 Carbon
H2C
X1
P1S
P1P
X2D
A2L

0.28mm layer, 2 walls, 15% infill
0.28mm layer, 2 walls, 15% infill
Designer
1.7 h
1 plate
4.8(11)

0.28mm layer, 2 walls, 15% infill
0.28mm layer, 2 walls, 15% infill
Designer
55 min
1 plate
4.0(1)

Open in Bambu Studio
Boost
111
351
26
3
185
138
Released 

Description

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🛠️ Super-Compact Table Vise – 100% 3D Printed

This table vise is designed to provide maximum clamping force in minimum printing time, without the use of screws, bolts, inserts, or glue.

The model is entirely 3D printable, assembles with a snap fit, and is optimized to be printed in a single plate, compatible even with compact printers (180×180 mm).

Unlike many printable vises that require days of printing and additional components, this version:

  • prints quickly
  • requires no supports
  • requires no hardware
  • offers surprising clamping force for its size and material

During testing, the structure demonstrated high mechanical resistance, with components failing before the vise body itself.

🔧 Key Features

  • 100% 3D printed
  • Zero hardware – zero glue
  • Prints in a single plate
  • Compatible with 180×180 mm plates
  • No supports required
  • Extremely reduced printing times
  • Compact and functional design
  • Quick snap-fit assembly

⚠️ Important Note – Breaking-in and Initial Use

This model is designed with precise tolerances to ensure strength, durability, and thread stability, even in the presence of friction and heat generated during use.

During initial uses, the movement may feel slightly stiffer:
this is normal and is part of the intended behavior of the design.

🔧 Recommended Breaking-in

  • For the first 3–4 use cycles, operate the vise carefully
  • Screw and unscrew gradually, without forcing
  • Proceed as in an initial threading phase, working little by little

After the first uses, the mechanism will become progressively smoother, while maintaining a solid and reliable grip.

It is not necessary to force the initial tightening:
a proper breaking-in phase helps to prolong the life of the model and preserve the threads over time.

This model is an original design intended for hobby, laboratory, and workbench use.
Performance depends on the material used, print settings, and printer calibration.

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License

This user content is licensed under a Standard Digital File License.

You shall not share, sub-license, sell, rent, host, transfer, or distribute in any way the digital or 3D printed versions of this object, nor any other derivative work of this object in its digital or physical format (including - but not limited to - remixes of this object, and hosting on other digital platforms). The objects may not be used without permission in any way whatsoever in which you charge money, or collect fees.