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Drive system applicable to large-tonnage servo direct-driven hot die forging press

A technology of hot die forging press and transmission system, applied in the field of transmission system, can solve the problems such as dare not choose high-power servo motor, cannot meet the requirements of direct drive, and the servo motor is expensive, and achieves the goal of overcoming the lack of force enhancement effect. Ideal, reduced power, compact effect

Active Publication Date: 2014-02-19
XI AN JIAOTONG UNIV
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  • Summary
  • Abstract
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  • Application Information

AI Technical Summary

Problems solved by technology

However, since large flywheels and clutches are no longer used, current servo presses have high requirements for motor power and torque. If the original transmission system is not improved and the servo motor is directly used, the cost of the press will increase significantly
Due to the limitation of servo motor technology, the power of the servo motor that can be put into use is relatively small, which is far from meeting the requirements of the current large-tonnage hot die forging press for the direct drive of the servo motor
In addition, the price of the servo motor is expensive, and the greater the power of the servo motor, the higher the price, which has caused many manufacturers to dare not choose high-power servo motors in actual production.
At present, for large-tonnage hot die forging presses, many technicians have spent a lot of energy on researching the transmission system to reduce the press's demand for high-power servo motors, but with little success

Method used

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  • Drive system applicable to large-tonnage servo direct-driven hot die forging press
  • Drive system applicable to large-tonnage servo direct-driven hot die forging press
  • Drive system applicable to large-tonnage servo direct-driven hot die forging press

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Embodiment Construction

[0015] The present invention will be described in detail below in conjunction with the accompanying drawings.

[0016] refer to figure 1 , figure 2 , image 3 and Figure 4 , a transmission system suitable for large-tonnage servo direct-drive hot die forging presses, including four sets of transmission mechanisms and two sets of actuators. The four sets of transmission mechanisms adopt a multilateral layout and are symmetrically arranged around the press. Each set of transmission The mechanism includes a servo motor 1, and four servo motors 1 are symmetrically arranged on the hot forging press, which is the main power source for the hot forging press. The output shaft of each servo motor 1 is connected to the small pulley 2, and the small The pulley 2 can play the role of energy storage, the small pulley 2 is connected with the large pulley 4 through the transmission belt 3, the outer side of the large pulley 4 is connected with the brake 5, and the inner side of the large...

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Abstract

Disclosed is a drive system applicable to a large-tonnage servo direct-driven hot die forging press. The drive system comprises four sets of drive mechanisms and two sets of actuating mechanisms. The drive mechanisms are in multilateral layout, each set of the drive mechanism comprises a servo motor, an output shaft of each servo motor is connected with a large belt wheel through a small belt wheel and a drive belt, the outer side of each large belt wheel is connected with a brake, and the inner side of each large belt wheel is connected with an input shaft of a planetary gear reducer. Two sets of toggle link mechanisms are adopted as the actuating mechanisms, each set of toggle link mechanism is composed of a crank, a triangular connecting link, an upper toggle link and a lower toggle link which are connected, output ends of the four planetary gear reducers are connected with two ends of the two cranks respectively, one end of each triangular connecting link is directly sleeved on the corresponding crank, the upper end of each triangular connecting link is connected onto an upper crossbeam of the hot die forging press through the corresponding upper toggle link, and the lower end of each triangular connecting link is connected with a slider through the corresponding lower toggle link and a guide plunger type connecting link. By the drive system, torque needed for forging can be lowered remarkably, the requirement on motor power is lowered, and bearing capacity and working efficiency of the hot die forging press are improved.

Description

technical field [0001] The invention belongs to the technical field of servo direct-drive hot die forging press manufacturing, and in particular relates to a transmission system suitable for a large-tonnage servo direct drive hot die forging press. Background technique [0002] The servo direct-drive hot die forging press can realize servo control of the forging process, and is an advanced forging equipment that realizes hot forming of metal blanks by means of molds. Various hot forging processes of metal profiles such as ordinary die forging, eccentric die forging and extrusion can be completed on hot forging presses. Hot die forging presses are commonly used die forging equipment in industrial production. With the rapid development of my country's machinery industry, the demand for high-performance forgings is increasing. At the same time, the requirements for energy saving, servoization and precision of die forging equipment are getting higher and higher. At present, th...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B21J9/18F16H37/12
Inventor 赵升吨陈超李靖祥范淑琴崔敏超李雪
Owner XI AN JIAOTONG UNIV
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