The nutcracker principle is a common mechanical principle, which realizes the compression and shearing operation of the object through the structure of levers, inclined planes and helices. In the use of nutcrackers, the two handles are connected through a lever, and through the role of the inclined plane, the object can be pressurized or cut.
From a product structure point of view, the nutcracker usually consists of two levers, connected together by an shaft. One end of one lever is connected to the gripper and the other end is connected to the end of the other lever by shaft. The other end of the other lever is connected to the blade. This structure allows the object to be pressurized or cut only by operating the handle when in use.
From the perspective of the working principle of the product, the nutcracker uses the lever principle to achieve pressure or shear operation on the object. When the two handles are closed, the gripper will clamp the object and the blade will also cut the object apart. This is due to the action of the lever, which allows the gripper and the blade to operate simultaneously.
From the point of view of product advantages, the nutcracker has the advantages of simple, practical and easy to operate. Due to its simple structure, the price is relatively low and suitable for a variety of different application scenarios. At the same time, because it can achieve pressure and shear operations on the object, it is widely used and can be applied to a variety of different materials.
| Weight |
170g-250g |
| Function |
Wire stripping |
| Appearance |
V-shape |
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