The present work shows the development of a portable workshop designed for small-scale machining and operations. The system is a multipurpose machine capable of performing various tasks such as drilling, milling and grinding of small workpieces with high precision. Conventional drilling machines typically consume more power, require longer production times, and involve complex workpiece handling. To overcome these limitations, a compact, automatic, and low-maintenance multipurpose drilling machine has been developed. The proposed design significantly reduces power consumption, production time, and cost compared to traditional machines. The system incorporates an innovative modification inspired by the screw-drawing mechanism. In the proposed set up, tool movement takes place both horizontally and vertically operated by DC motor, while the discs and drill are also motor driven. A protractor allows precise angular drilling, and all DC motors are operated through a centralized switch box. The design eliminates the need for manual operation, improving safety and consistency. This set up shows simple construction, low cost, and versatility make it suitable for industrial workshop and household repair applications. 

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

Design and Development of an Automatic Multipurpose Precision Workshop for Small-Scale Operations

  • Asim Ahmad,
  • Om Prakash,
  • Rukaiya Kausher,
  • S. M. Mozammil Hasnain,
  • Subodh Kumar Suman,
  • Manish Kumar

摘要

The present work shows the development of a portable workshop designed for small-scale machining and operations. The system is a multipurpose machine capable of performing various tasks such as drilling, milling and grinding of small workpieces with high precision. Conventional drilling machines typically consume more power, require longer production times, and involve complex workpiece handling. To overcome these limitations, a compact, automatic, and low-maintenance multipurpose drilling machine has been developed. The proposed design significantly reduces power consumption, production time, and cost compared to traditional machines. The system incorporates an innovative modification inspired by the screw-drawing mechanism. In the proposed set up, tool movement takes place both horizontally and vertically operated by DC motor, while the discs and drill are also motor driven. A protractor allows precise angular drilling, and all DC motors are operated through a centralized switch box. The design eliminates the need for manual operation, improving safety and consistency. This set up shows simple construction, low cost, and versatility make it suitable for industrial workshop and household repair applications.