Modern Marking Systems in the Industrial Market

Marking systems are utilized for permanent identification of parts use in a variety of industries. The most efficient marking system on the market is “Laser Marking”. This is among the fastest marking machines and is able to be used with even the hard metals such as carbides. The quality guaranteed through Laser Marking is quite high. Laser marking that is high-precision small objects is able to set up quickly up. This reduces the amount of waste and improves the speed of production. Laser marking are used as a dynamic, highly adaptable process that allows for high-speed graphics, character, logo bar code and two-dimensional data marking. Furthermore laser engraving is extremely readable and durable and prevents the tampering. Furthermore, they are able to endure harsh conditionslaser machine manufacturer.

Pad printing

The pad printing process is an actual wet method. It is a 3D glass, rubber, plastic or wood part is able to be beautifully decorated. Image is then transferred onto the object from the ink image etching on the form of a printing plate made of a silicon pad. Pad printing is an effective way to embellish three-dimensional objects. Particularly, precise detail and precise multicolor registration are easily achievable through pad printing. There are three main types that pad printing can be used for. These are single color pad printing multicolor pad printing, and high-volume pad printing. Pad printing allows us to quickly achieve fine details and rich multicolor registration.

Ultrasonic welding

Ultrasonic welding is a common industrial process. It is a process where high frequency ultrasonic vibrations of acoustic are locally applied to the workpieces being joined under pressure to form solid state welding. This technique is typically used with plastics and is particularly to join dissimilar, non-shapeless materials. The main benefit of this type of ultrasonic welding is that it eliminates no requirement for connecting bolts or nails, soldering substances or adhesives that are typically used to connect two components to each other.

Automation systems

Automation refers to the application in the control of systems as well as the application of technology to decrease human labor in the areas of the production of goods and services. In the realm of industrialization Automation is the next step after industrialization. In contrast to mechanization, which provided human operators with machines to help them in their muscular work, automation drastically reduces the requirements for human mental and sensory need in addition. There are a variety of tools for automation available today.

Automation tools of various kinds include:

1) ANN (Artificial Neural Networks)

2) DCS (Distributed Control Systems)

3) HMI (Human Machine Interface)

4) SCADA (Supervisory Control and Data Acquisition

5) PLC (Programmable Logic Controller)

6) PAC (Programmable Automation Controller)

7) Instrumentation

8.) Motion control

9) Robotics

The benefits of automation

1.) Human operators are replaced when performing tasks that require physically demanding work.

2.) Replacing human beings in jobs that must be carried out in potentially dangerous situations.

3.) Automation can help with jobs that require the capabilities of humans such as handling machines, heavy loads and carrying hot or cold items.

Advantages of automation

1.) Technology’s limitations.

2.) The development cost is high and is also unpredictable.

3.) The initial costs are expensive.