Linear Cylindrical Guide Selection: A Comprehensive Guide

1) High positioning accuracy When using a linear guide as a guide, the friction is rolling friction. Not only does the friction coefficient decrease to 1/50th of a sliding guide, but also the difference between …

Linear Guide Explained

Linear guide can be divided into: It is utilized to aid and direct moving components, enabling them to make repetitive linear movement in a specified direction. Depending on the nature of the friction, linear motion …

Screw Drive Explained

The screw drive is a mechanical transmission that converts the rotary motion and the linear motion by screwing the spiral surface with the thread surface. Classification According to its role in the machine, the screw …

Herringbone Gear Explained

The helical gear has a lateral force on the shaft. To eliminate this force, a gear is made into a helical gear with the opposite direction of symmetry to eliminate this force. It looks like …

Helical Bevel Gear Explained

The helical bevel gear refers to the tooth line on the curved surface of the gear, and is a type of bevel gear with a helix angle that does not extend through the apex of …

Ratchet and Pawl Explained

The Ratchet and Pawl mechanism is a one-way, intermittent motion device consisting of a ratchet and pawl. The Ratchet mechanism is widely used in the intermittent rotation of rotary or indexing tables in various machine …

Cycloidal Pinion Drive Explained

The cycloidal pinion transmission refers to a planetary gear transmission composed of a pair of internal gears and an output mechanism whose outer gear tooth profile is a metamorphic cycloidal wire and the internal gear …

Crank Slider Mechanism Explained

A flat link mechanism, also known as a crank linkage mechanism, is a mechanism that converts rotation and movement through the use of a crank and a slider. In a crank slider mechanism, the slider …

Harmonic Gear Transmission Explained

Harmonic gear transmission is a novel mechanism that achieves transmission through elastic deformation motion. Harmonic gear transmission represents a breakthrough in traditional mechanical transmission methods that rely on rigid components. This novel mechanism utilizes a …

Open Gear Drive Explained

Open gears are widely used for their high efficiency in transmitting power. Definition Gear transmission is a crucial component of mechanical transmission. It comes in various forms and is widely utilized. The transmitted power can …

How the Eccentric Gears Work Explained

As depicted in the illustration, the bottom of an eccentric gear is offset from the center of the circle. When the eccentric gear rotates, the connecting rod that is positioned in the arc will gradually …

Non-circular Gear Explained

Special-shaped gears, also known as non-circular gears, are those whose indexing surface is not a rotating surface. When paired with another gear, the instantaneous angular velocity ratio of the gear pair changes according to a …

Universal Coupling Explained

A universal coupling makes use of its mechanism to connect two shafts that are not aligned on the same axis. The universal coupling enables the continuous rotation of the coupled shafts at an angle, allowing …

Troubleshooting Bearing Heat Treatment Process Woes

Are you tired of experiencing common problems during the heat treatment process of your bearing parts? Do you want to learn how to control the deformation of your parts, prevent overheating, and avoid quenching cracks? …

Universal Joint Bearing Explained

“Universal joint bearing” refers to a mechanical structure that utilizes ball connections to facilitate power transmission between different shafts. Universal joint bearings are a crucial component of automotive bearings, particularly in the context of the …

Gear Lubrication Failure Types Explained

Mechanical equipment failures can take on various forms, including bearing wear, box cracks, screw cuts, coupling damage, surface corrosion, and more. The following are the most common lubrication faults that occur: 1. Inoperable, significant power …

Hydraulic Transmission Explained

Hydraulic transmission systems have long been a vital component in various industrial applications, offering reliable power and high levels of efficiency. As you explore this technology, you will discover how it harnesses the power of …

Cam Explained

A cam refers to a mechanical swivel or slide (such as a protruding part of a wheel or wheel). It transmits motion to a roller that moves against its edge or a needle bar that …

Overview Special processing refers to techniques that are not part of traditional processing technology. Unlike traditional processing methods, which use tools and abrasives to remove excess material through mechanical energy, special processing involves the direct …

The processing technology The non-traditional machining technology is a method of directly processing various forms of energy, including electric, light, chemical, electrochemical, acoustic, thermal, and mechanical energy. Development The future development of non-traditional machining technology …

Electric Discharge Machining Explained

Electrical discharge machining is a special processing method for etching conductive materials by electro-erosion caused by pulse discharge between two electrodes immersed in working fluid. Also known as electrical discharge machining or electrolytic etching, referred …

Ultrasonic Machining Explained

Ultrasonic Machining (USM) is a special type of processing that uses high-frequency vibrations to produce small amplitude impacts on the surface of the workpiece. In this process, an abrasive material is suspended in a liquid, …

Laser Cutting Technology Explained

Laser cutting technology is widely utilized for processing both metal and non-metal materials. It effectively shortens processing time, lowers processing costs, and enhances the quality of the finished product. Laser cutting is accomplished through the …

Laser Welding Process Parameters Explained

(1) Power density Power density is a crucial parameter in laser processing. A higher power density allows the surface layer to reach boiling point within microseconds, resulting in significant vaporization. This makes high power density …

Laser Classification Explained

There are two primary types of lasers utilized for welding, CO2 lasers and Nd:YAG lasers. Both CO2 and Nd:YAG lasers are invisible to the naked eye. The light beam generated by the Nd:YAG laser is …

Laser Drilling Explained

I. Brief description The material to be processed is subjected to a high-power density laser beam, causing it to rapidly heat up to its vaporization temperature and evaporate, forming a hole. Laser drilling is a …

Laser Quenching Explained

Definition of laser quenching Laser quenching is the process of heating the surface of a material above its phase transition point using a laser. As the material cools, austenite transforms into martensite, resulting in a …

Water Cutting Explained

Water cutting, also known as waterjet, is a high-pressure water jet cutting technology that utilizes a machine to cut through various materials. Under the control of a computer, the workpiece can be intricately carved without …

Laser Processing Considerations Explained

I. Machining accuracy The accuracy of laser cutting is the overall accuracy determined by the performance of the machine, beam quality, and processing. Even if the cutting is performed according to the program, there are …

Ultra High Pressure Water Cutting Explained

Ultra high pressure water cutting is also called water jet. It is a high-energy water stream produced by multi-stage supercharging of ordinary water, reaching a pressure of 380MPa. The water is then jet-cut at a …

In laser cladding, two types of lasers are commonly used: CO2 lasers and solid-state lasers. The main types of lasers used in laser cladding are disc lasers, fiber lasers, and diode lasers. Older lamp-pumped lasers …

Electrolytic Processing Explained

Electrolytic processing is a special processing method that uses a principle that the metal is dissolved in an electrolyte to form a workpiece. During processing, the workpiece is connected to the positive pole of the …

Electron Beam Processing and Ion Beam Processing Explained

Electron beam processing can be used for punching, cutting, etching, soldering, heat treatment, and lithography processing depending on the energy injection time of its power density. The application of ion beam processing is expanding and …

Water Jet Processing Explained

(1) A Wide Range of Applications This technology is suitable for processing almost all materials. In addition to steel, aluminum, and copper, it can also handle particularly hard, brittle, and soft non-metallic materials. Examples include …

Plasma Explained

The plasma has a high temperature and can provide a high enthalpy working medium to produce materials that cannot be obtained by conventional methods. In addition, the atmosphere technology is controllable, the equipment is relatively …

Laser Heat Treatment Explained

Laser heat treatment is a process of surface treatment of metal with a high-density laser beam. Laser heat treatment can be performed on metal surfaces, resulting in modifications such as surface hardening, surface alloying, and …

Powder Metallurgy Explained

Powder making method Making powder is the first step in powder metallurgy. Powder metallurgy materials and products continue to increase, and its quality continues to increase, requiring more and more types of powders. For example, …

Types of Chemical Processing Explained

Milling Chemical milling is a process used to selectively remove material from the surface of workpiece parts by immersing them in a chemical solution. The parts that do not require processing are protected by applying …

Etching Explained

Etching is a technique in which a material is removed using a chemical reaction or a physical impact. Etching techniques can be classified into two types: wet etching and dry etching. It can be used …

Abrasive Flow Machining Explained

Abrasive Flow Machining (AFM) is a state-of-the-art machining method. Abrasive Flow Machining (AFM) uses an abrasive medium, a flowable mixture of abrasive particles, to perform deburring, flashing, and rounding under pressure to improve the surface …

Abrasive Water Jet Polishing Explained

Abrasive Water Jet Polishing is a process that involves using a mixture of a polishing liquid and fine abrasive particles. The mixture is sprayed at high speed from a nozzle onto the surface of the …

Classification of Electrochemical Machining Explained

Looking for a revolutionary way to shape and refine metals? Look no further than electrolytic processing! This cutting-edge method combines electrochemical reactions with mechanical grinding to create precise and efficient results. From electrolytic etching to …

Heat Treatment Explained

Heat treatment refers to a metal thermal processing process in which the material is heated, held, and cooled in the solid state to obtain the desired structure and properties. In the process from the Stone …

Heat Treatment Process Explained

The heat treatment process generally includes three processes of heating, heat preservation and cooling. Sometimes there are only two processes of heating and cooling. These processes are connected to each other and cannot be interrupted. …

Arc Welding Robot Explained

A robot designed for automatic arc welding is known as an arc welding robot. The composition and operating principles of an arc welding robot are similar to those of a spot welding robot. System composition …

Spot Welding Robot Explained

Spot welding robot is an industrial robot used for spot welding automation. The world’s first spot welder was introduced in 1965 and is the Unimate robot launched by Unimation Corporation of the United States. In …

Composition of Arc Welding Robot Workstation Explained

Arc welding robot workstation components: The general arc welding robot is composed of teaching box, control panel, robot body, automatic wire feeding device, welding power source etc. Continuous trajectory control and point control can be …

Robot Arc Welding Station Safety Protection Classification Explained

The harm of the robot arc welding workstation to the human body mainly comes from two aspects. On the one hand, the welding itself is harmful to people. On the other hand, the mechanical equipment …

Parallel Mechanism Classification Explained

From the perspective of sports form, parallel mechanisms can be divided into: Further subdivision can be divided into: Classified by the freedom degree of the parallel mechanism (1) 2 degrees of freedom parallel mechanism. A …

Industrial Robots: Key Technical Parameters Explained

Are you curious about the incredible capabilities of industrial robots and how they are designed to meet varying user requirements? Look no further! In this blog post, we delve into the main technical parameters that …

Clean Robot Explained

Clean robot is an industrial robot used in a clean environment. As the level of production technology continues to increase, its requirements for the production environment are increasingly demanding. Many modern industrial products are produced …

Scroll to Top