stand type wire-rewinding machine is mainly used in annealing hard stainless steel wire which wire diameter is more than 1.5mm.Feature;wire coil neat, not throw cap, upload wire easily and save labor.
The utility model relates to a vertical winding machine used for winding large-scale hollow reactor coils, which comprises a main machine, a face plate and a vertical winding mould. The main machine only rotates without lifting, and the main machine drives the vertical winding mould to rotate together with the main shaft connected to it; An inner support ring with reinforced rigidity is provided around the middle of the inner cavity of the mold.
The inner support ring adopts a butt-type connection, and is self-centering when the mold stay and the positioning mold stay are deformed and pressed against it. The vertical winding machine is provided with a wire arrangement mechanism and a yarn winding mechanism, which are arranged beside the host machine, and receive the instructions of the control system to move up and down to realize the wire arrangement and yarn winding.
The glue dipping mechanism adopts thin glue dipping and multi-roll glue pressing method, which can better control the glue content of the glass yarn. The utility model has the advantages of simple and reasonable structure, automatic winding, yarn winding and dipping, etc. The mold has strong universality, good rigidity, easy assembly and disassembly, high product winding efficiency, uniform dipping, less resin sag, stable and reliable quality .
A vertical winding machine for winding large-scale hollow reactor coils, including a main machine (13), a flower plate (31) and a vertical winding mold (5) If the rotation does not go up and down, the host (13) drives the vertical winding mold (5) to rotate together with the main shaft (24) connected to it; the inner cavity of the vertical winding mold (15) is provided with an inner support ring (28) that strengthens the rigidity, The inner support ring (28) adopts a butt-type connection, and self-centers when the mold stay (22) and the positioning mold stay (27) are deformed and pressed against it by force.