The global manufacturing industry is rapidly evolving, and companies need to find partners who are efficient, high-quality, and capable of integrated services to maintain competitiveness. Jinholly Co., Ltd., a Taiwan-based company deeply rooted in precision metal processing, is providing clear solutions for this industrial transformation through its unique "one-stop" service model.

Artificial intelligence and automation technologies are advancing at a rapid pace, driving large‑scale deployments of robots across manufacturing, healthcare, logistics, and service sectors. This momentum is propelling overall industry upgrades and operational efficiency leaps. Amid this wave, mastering the manufacture of high‑precision, high‑reliability core components has become the decisive factor in market competitiveness.

As global concerns over environmental protection and food safety continue to grow, plastic processing and packaging equipment are undergoing a transformative shift. Taiwanese machinery manufacturers are leveraging automation, biodegradable material processing capabilities, and modular design to secure strong competitive advantages—especially in the production of everyday consumables like straws, strapping bands, shrink film, and cotton swabs

Through ultrasonic-assisted processing technology, hard and brittle materials can be processed easily, reducing-edge chipping and improving surface quality.

A grinding machine, or grinder is a widely used abrasive processing process in which a spinning wheel is covered with coarse grains. Cutting pieces of metallic or non-metallic substances from a workpiece to make the surface flat or smooth.

Ultra-precision machining technology is an important way to improve the performance, quality, service life and reliability of electromechanical products, as well as saving materials and energy. For example: improving the machining accuracy of cylinders and pistons can improve the efficiency and horsepower of automobile engines and reduce fuel consumption; improving the machining accuracy of rolling elements and raceways of rolling bearings can increase the speed of bearings, reduce vibration and noise; improve flatness of processing of magnetic disks, thereby reducing the gap between it and the magnetic head, can greatly increase the storage capacity of the magnetic disk; improving the marking accuracy of the semiconductor device (reducing the line width, increasing the density) can improve the integration of the microelectronic chip, etc.

A grinder is a widely used abrasive processing process in which a spinning wheel is covered with coarse grains. Cutting pieces of metallic or non-metallic substances from a workpiece to make the surface flat or smooth.

Through ultrasonic-assisted processing technology, hard and brittle materials can be processed easily, reducing-edge chipping and improving surface quality.

The aerospace industry has always been a key development industry in all countries in the world. In addition to strict quality system certification and highly complex integration technology, it also has the characteristics of high added value and high industry relevance, which makes all countries take the development of the aerospace industry as a national industry.

Thickness gauges are instruments used to measure the thickness of materials and objects to meet various high-precision measurement and testing needs.

Threading is a method of machining various internal and external threads with threading tools. Thread cutting is the most efficient and economical processing method for processing threaded parts.

The process of milling a plane at right angles to the axis of rotation of the tool.

The five-axis controller is the core of the five-axis processing machine, which is used to control the trajectory of the five-axis simultaneous motion and the compensation of the motion.

Ultra-precision machining technology is an important way to improve the performance, quality, service life and reliability of electromechanical products, as well as saving materials and energy. For example: improving the machining accuracy of cylinders and pistons can improve the efficiency and horsepower of automobile engines and reduce fuel consumption; improving the machining accuracy of rolling elements and raceways of rolling bearings can increase the speed of bearings, reduce vibration and noise; improve flatness of processing of magnetic disks, thereby reducing the gap between it and the magnetic head, can greatly increase the storage capacity of the magnetic disk; improving the marking accuracy of the semiconductor device (reducing the line width, increasing the density) can improve the integration of the microelectronic chip, etc.

Honing is a common procedure, similar to grinding, which is a used on the inside surface of a cylinder, tube, or bore hole after precision machining and grinding. It is performed as a final procedure after grinding, to attain a precise shape and high-quality surface finish on a workpiece.

In the manufacturing application of digital technology, CNC machining has been focusing on the improvement of the precision and accuracy of material processing, as well as the improvement of the operating process, so that most production processes can be completed on one machine, thereby improving overall production and efficiency, and reducing costs.

Titanium alloys are widely used in aerospace, chemical, marine, and automotive industries due to their excellent strength-to-weight ratio, corrosion resistance, and ability to maintain strength at high temperatures. However, the disadvantages of titanium alloys are poor thermal conductivity and strong reactivity with tool materials. Their high strength, and low elastic modulus make them difficult to cut materials.

A CNC machining center is a kind of CNC machining machine which has had many other functions added. Combining milling, boring, drilling, tapping, and threading functions into one machine, enables a machining center to perform multiple processes.

To maintain the accuracy of finished products in the manufacturing industry, rapid detection and adjustment of machine tool performance is essential.

Micromachining technology is an important support technology for modern high-tech warfare, and is the development foundation and direction of modern high-tech industries, science and technology.