In this type of inverted wire drawing machine equipment, the design adopts the double automatic tower wheel structure. The main feature of the wire drawing machine is that the main structure of the equipment of various specifications and models is finalized, and the relevant parameters such as the drawing pass, compression rate, speed, motor type, and capacity, etc., are all calculated or confirmed according to the requirements of the user.
Therefore, the water tank-type wire drawing machine can well meet the user’s application requirements.
Compared with other equipment, this series of water tank-type wire drawing machines have the advantages of being lightweight, small footprint, energy saving, and consumption reduction.
When the user needs to make major changes to relevant parameters such as drawing passes and compression ratio due to product changes, the main body of the equipment can be moved and only a small change to the relevant parts can be completed.
In addition, a product reel reverse moving mechanism can be added to facilitate unloading.
According to the purpose, the wire drawing machine has different winding methods, and the reel part of the product can be flexibly matched.
Equipped with an I-wheel take-up machine, the vertical reel can be changed to a horizontal one, or not equipped with a vertical reel.
It is more convenient to restore the installation when needed in the future.
As an important central part of the water tank type wire drawing machine equipment, what kind of guidelines should the tower pulley follow in the structural planning?
The output, quality, and consumption of equipment are all related to the planning of the tower wheel.
The most important thing is the fit between the gradient of the tower pulley and the elongation coefficient of the steel wire.
In the final analysis, it is how to keep the slip coefficient.
If the sliding coefficient is kept too small, it will lead to the problem of disconnection due to the negative effect of the error of the die hole and the cone wheel; otherwise, the sliding coefficient is too large, and the excessive slip will cause serious consequences.
Normally, the sliding coefficient required by different materials should be different. For medium and high carbon steel wire, the sliding coefficient should not be greater than 2%, and the sliding coefficient of the first set of tower pulleys can be lower.
The process requires that the range of compressibility of the product part be relaxed so that the range of adaptation is wide.
In addition, during the use of the water tank type wire drawing machine, the tower wheel is prone to damage, and the size of the tower wheel directly affects the consumption cost. cost.
If the planning of the cone wheel part is successful, the superiority of the equipment can be fully utilized.