Extreme Concrete: Machine Tooling Builds the Foundation for Modern Manufacturing

Readingworking (of machinery)Drawings and Finished Products
Mechanical machining is the basic material, precision, and efficiency that is essential for manufacturing.

The metal parts which are made by the members and the fittings are put into the hands of the members and the fittings, and the parts are transformed by the material which are cut into the fittings and the fittings are transformed by the people. It's also a mechanically processed product. In addition to the single-use machinery, the entire manufacturing process is carried out in an engineering system. In this account, we have thoroughly "seen" mechanical processing, and we understand its core and internal theories.

I. Cona: Rotary Disc Processing, Flatbed Processing, Central Processing, 3 Basic Engineering Analyses
For machining, there are many processes, such as rotary disc machining, flues machining, and medium-range machining, which are the most basic and widely used among the 3 pillars, and they are considered to be the most important.

Rotary Disc Processing: Imagine the process of stranding pottery. The raw material is turned and the tool is fixed to cut. The same applies to the spinning process, where the main part is turned back (such as the seat, the brush, and the neji). The workpiece is turned back by spinning, and the rotary tool is moved in the direction of axis or radius to remove the remaining material, cylindrical, conical, and other shapes.

Flatbed machining: Rotary disc machining and counterbalance, flatbed machining is accompanied by the turning of tools and the fixing of workpieces. By the high-speed turning of multi-flute flute cutter, the surface of the workpiece can be machined with flat, groove, and complex surface. This machine is the main force in the processing of boxes and boards.

Revolving: The revolving is a tool that can be used to achieve a high degree of accuracy in the diameter, finish and position of the hole, especially in the case of a hole superstage. The revolving tool in the hole is used to achieve the "superposition" of the hole by turning and feeding the hole. For large-sized parts of Precision Cavity Processing System (Enjambrock, etc.), the revolving process is not available.

Secondly, Soul: Engineering Requirements, "Action Guidelines" for Manufacturing Works
Equipment is mechanically processed "筋肉 "であるならば、Project specification book is instructed to "脳 "であり "Spirit "である。 The processing quality is guaranteed, the productivity is upgraded, and the project is managed by the guideline and the project specification book.

The development of fully processed proxies and protocoils usually includes the following stapes:

Analysis of product drawings: We have a thorough understanding of the relationship between the function of a part, the technical elements, and the assembly of the product. This is the basis for all mechanical processing activities.

Engineering Audit: We will determine the accuracy of the dimensions, drawings, and technical requirements recorded on the drawings, analyse the manufacturing possibilities of the components, and confirm the economic efficiency of the manufacturing process.

Decision of Blanks: The most suitable shape of blanks to be applied to the parts, machining, forging, ploughing, welding parts, and so on. This has a direct effect on the amount of subsequent mechanical processing, the amount of components, and the performance of the part.

Development of Processing: This is the core of the core. It is necessary to decide whether the surface of a part should be processed initially, the hole of a part should be processed after processing, the roughing process is necessary for the specific features of a part, the super finishing process is necessary for the specific features of a part, and the heat treatment configuration for the specific features of a part is necessary. The rationality of the tool configuration is directly related to the efficiency and accuracy of the parts.

OPSWork Machines/ToolsWe cut the appropriate working machines, jigs, tools, and guides for each project.

Parameter determination: Designation of machining allowable value, machining inch, tolerance, and cutting volume (cutting speed, feed, etc.) for each process.

III. Evolution: CNC Technology and Automation, the Driving Force of Modern Manufacturing Industry
The introduction of CNC technology is a revolutionary change in the way that mechanical processing has been greatly dependent on the experience of oparettes.

CNC machining: numerical control by copilot. The plotter is based on a 3-dimensional model with a machining plot (G-coordinate), and the CNC system is driven by mechanical axes to produce precise and complex movements automatically.

It is accompanied by a number of advantages:

High complexity: Complex surfaces and structures can be easily processed by hand.

High Consistency: Once a product is tested, it is infinitely cycled and mass-produced with consistently high quality parts.

High efficiency: The efficiency of machining can be increased dramatically by the reduction of human intervention and the function of automatic tool changer.

Flexibility: On occasions when products are changed, it is common to change the design of the product to a higher level of adaptability.

IV.キ: Quality Management, Accuracy and Reliability Assurance
In the case of machining, quality is a problem, and inspection is a problem. It is also the last hurdle for the inspection to find out what problems have arisen.

Engineering capabilities: Work machines, cutting tools, and engineering parameciums are linked to the production of products with the necessary tolerances.

Engineering Inspection: Self-inspection by workers, inspection by quality inspectors, and inspection and correction of faults in taimurinas.

Final Inspection: Using high-precision guides (CMM), the critical dimensions, shape and positional tolerances, and surface roughness of the finished part are completely measured, and the suitability of the drawing is verified.

V. Trend: Intelligent Planning for Continuous Development and Its Progress
The machining technology is now being advanced, and is now being directed towards the development of Intelligence and Grill and Sasthanavi Realty.

Smart Manufacturing: AI and Mechanical Learning is used for optimisation of processing parameter, tool life prediction, and practical application of anticipation and preservation.

Online Services: The Online CNC Processing Platfrom is now available, and users can access the CAD model to instantly see the accumulated information, select production materials, and greatly simplify the manufacturing process.

Green Manifesto: Optimisation of Mechanical Processing Engineering and Expansion of the Use of Possible Materials for Reservoirs, Reduction of Consumption of Energy and Use of Cutting Fluids, and Environmentally Friendly Production

Conclusion
Understanding of machining is based on the knowledge of single-use machines and cutting tools, as well as on the understanding of the examination method of a standardised system engineered for machining. The diagrams are based on precision parts, engineering design, CNC technology, and quality control.

In today's highly competitive manufacturing world, a deeper understanding of machining means that innovative design is a key component in the development of high-quality products. Anata is a design engineer, a buyer, a manager, and a helper in understanding and appreciating the core of the manufacturing industry.