Pacific Connection
We supply equipments and know how technology for a long time..
Raw Materials
Our company specializes in the sale of the most commonly used and frequently sought-after raw materials in the medical field.
Machinery
We offer our range of machines that are designed to cater to various production needs, especially in the medical field.
Machinery
We are pleased to offer our range of machines that are designed to cater to various production needs, especially in the medical field. Our machines come equipped with a variety of functions that are tailored to meet the specific requirements of our clients.
Our machines are not only reliable but also efficient, ensuring that your production process is optimized for maximum output. We understand that the medical industry requires precision and accuracy, and our machines are designed with these factors in mind.
Whether you require machines for diagnostic imaging, laboratory testing, or pharmaceutical production, we have a solution that will meet your needs. Our team of experts is dedicated to ensuring that you receive the support you need to get the most out of your investment.
We are committed to providing our clients with the highest level of service and support. Our machines are backed by comprehensive warranties and maintenance plans to ensure that they remain in optimal condition throughout their lifespan.
Thank you for considering our machines for your production needs. We look forward to the opportunity to serve you and provide you with the best possible solutions for your business.
Swiss Type Lathe Machine
Swiss Type Lathe Machine, also known as a sliding headstock lathe or a screw machine, is a type of lathe machine where the holding mechanism or collet is recessed behind the guide bushing. Swiss lathes are commonly referred to as Swiss screw machines, Swiss automatic lathes, or Swiss turning centers. The Swiss type lathe machine differs from traditional lathe machines in that the holding mechanism or collet does not directly expose the bar stock to the lathe bed and tools. This unique configuration provides a number of advantages over traditional types of lathe machines. The advantages of Swiss type lathe machine over traditional lathe machines largely stem from its use of guide bushings. The purpose of the guide bushing is to provide additional support for the bar stock as it is being machined or turned. This guide bushing is loosely but securely fitted to surround the bar stock material. The support provided by this bar stock material allows the guide bushing to function similarly to a fixed anchor in the carriages of traditional lathe machines. As a result, Swiss style lathe machines typically have better tolerance on parts since machining operations are performed close to the guide bushings. The guide bushing provides stability to machined parts due to minimal amount of stock being exposed after the bushing has disengaged from the part. The guide bushing provides significant rigidity to the stock and these machine types are well adapted to holding tight tolerances. Another benefit of Swiss style lathe machines is their ability to turn small diameter parts. Alternatively, they can also handle larger length-to-diameter ratio parts. The noise from the tools is minimized due to the position of the guide or tool bushing. In conclusion, Swiss type lathe machines offer several advantages over traditional lathe machines. Their use of guide bushings provides better tolerance on parts and stability during machining operations. Additionally, they are capable of handling both small and large diameter parts, making them versatile machines in the manufacturing industry.
Grinding Machine
Tool grinding is a crucial aspect of the machining industry, where abrasives or grinding wheels are used to produce or re-sharpen a workpiece. This process is particularly important when producing rotationally symmetric cutting tools, which are entirely made from one full round rod. High-speed steel (HSS) tools are sharpened using grinding wheels made of materials such as CBN or corundum, while diamond grinding wheels are used for carbide tools. Modern tool grinding machines require the ability to process cutting tools using high-performance mineral oil-based cooling lubricants that are not water-soluble. This is essential to ensure that the ground cutting tools are of the highest quality and can be used for chipping during metal, wood, and plastic processing. Worn tools can be restored to the correct cutting geometry through a process called dressing, which not only restores the quality of the cutting edge but also improves the durability and economy of the tool. The range of tools that can be produced and sharpened is vast and includes millers, drills, step tools, profile tools, thread drills, reamers, facers, saw blades, and many more. The use of tool grinding machines ensures that these tools are of the highest quality and meet the demanding requirements of modern manufacturing processes. In conclusion, tool grinding is an essential aspect of the machining industry, and its importance cannot be overstated. The use of high-quality grinding wheels and cooling lubricants, combined with modern tool grinding machines, ensures that cutting tools are of the highest quality and can be used for a wide range of applications. The ability to re-sharpen worn tools through dressing further adds to the durability and economy of these tools, making them an indispensable part of modern manufacturing processes.
Solvent Cleaning Machine
Solvent cleaning machines have been used in various industries for many years for oil removal and cleaning processes. These machines are designed to effectively remove oil and dirt from different types of materials, ensuring a thorough and efficient cleaning process. One of the main advantages of solvent cleaning machines is their ability to remove oil and grease from parts and components. Solvent cleaning machines use a combination of heat, agitation, and solvent chemicals to effectively dissolve and remove oil and grease from surfaces, leaving them clean and ready for further processing or use. In addition to oil removal, solvent cleaning machines are also highly effective in removing dirt, dust, and other contaminants from various materials. This is particularly important in industries such as electronics, where cleanliness is crucial for the proper functioning of electronic components. Solvent cleaning machines are able to remove even the smallest particles of dirt and dust, ensuring a clean and contaminant-free surface. Furthermore, solvent cleaning machines are designed to be versatile and flexible, allowing for the cleaning of a wide range of materials. Whether it's metal parts, plastic components, or delicate electronic devices, solvent cleaning machines can be adjusted to meet the specific cleaning requirements of different materials. This versatility makes solvent cleaning machines suitable for use in a variety of industries, providing efficient and reliable cleaning solutions. In conclusion, solvent cleaning machines have proven to be an essential tool in many industries for oil removal and cleaning processes. Their ability to effectively remove oil, grease, dirt, and other contaminants from different materials makes them a valuable asset in ensuring the cleanliness and functionality of various components and products. With their versatility and efficiency, solvent cleaning machines continue to play a crucial role in maintaining high standards of cleanliness in industries worldwide.
Laser Marking Machine
Laser marking machines operate by using an intense beam of light to mark the surface of a material. This beam interacts with the surface of the product by burning it, resulting in a reaction. Laser marking machines can target specific areas, allowing for the creation of high-quality, high-contrast codes that can be easily read and scanned on almost any surface. These machines offer a reliable and efficient solution for marking various materials, making them an essential tool in many industries. With their ability to produce precise and permanent markings, laser marking machines are widely used in applications such as product identification, traceability, and branding. They offer numerous advantages over traditional marking methods, including increased speed, accuracy, and versatility. Laser marking machines can create detailed and intricate designs, logos, and serial numbers on a wide range of materials, including metals, plastics, glass, and ceramics. The non-contact nature of laser marking also eliminates the risk of damage or distortion to the material being marked. Additionally, laser marking is a cost-effective solution as it eliminates the need for consumables such as inks or labels. Furthermore, laser marking is a highly efficient process that requires minimal maintenance and downtime. The use of laser marking machines has become increasingly popular in industries such as automotive, aerospace, electronics, medical devices, and packaging. These machines enable manufacturers to meet industry standards and regulations while ensuring product quality and safety. Overall, laser marking machines offer a reliable and versatile solution for marking and identifying products, providing businesses with a competitive edge in today's fast-paced and demanding market.
Dental Sandblasting Machine
We have designed a fully automatic machine for the surface treatment of implants. It is one of the most advanced machines in the world for sandblasting the surface of dental implants The most commonly used type of sandblasting machine is the rotary table sandblaster. It consists of a circular table with a template mounted on it, and the INDEX TABLE rotates in 6 or 8 segments. Sandblasting is performed by rotating one step at a time. The type of equipment can be changed according to the needs of the buyer, and it can be converted to projection direct pressure/suction type, and automatic/semi-automatic production can be carried out. The type of dust collector may need to be installed separately or it can be produced as an integrated type according to the requirements. SERVO and GEAR MOTOR, are used for table rotation.
Ultrasonic Cleaning Machine
Ultrasonic Cleaning is a process of removing contaminants from materials by applying high-frequency sound waves to a liquid-filled tank. The ultrasonic energy induces a phenomenon called 'cavitation', which helps in the cleaning process. Typically, the cleaning is done using water as the liquid medium. This process is widely used in various industries such as automotive, aerospace, medical, and electronics, where precision cleaning is required. Ultrasonic cleaning offers several advantages over conventional cleaning methods, such as increased efficiency, reduced cleaning time, and improved cleaning quality. Additionally, it is a safe and environmentally friendly method of cleaning, as it does not involve the use of harsh chemicals or solvents. Overall, ultrasonic cleaning is an effective and reliable method for removing contaminants from materials, and it has become an essential part of many industrial cleaning processes.
