

The high-efficiency cooling system designed according to the African tropical 55 ℃ high temperature environment can fully adapt to different operating environments, and there will be no overheating or environment due to the operation of the unit. The patented separator: triple separation can make the oil content in the equipment ≤ 2ppm, and can reduce the number of coolant supply. Belgian main engine: 5:6 patented rotor line type ensures efficient operation, meets the European first-class energy efficiency standard and effectively reduces carbon emissions. Integrated transmission system: gearless transmission, 1:1 direct transmission, the most ideal transmission system, without any consumption. The most advanced intelligent control system in the world promotes the harmony between man and machine to the maximum extent. The unique cold and hot zone design ensures efficient intake efficiency, effectively improves the air displacement of the air compressor, and the efficient special motor for the air compressor ensures the user's 24-hour trouble-free operation.

Specializing in the design and manufacture of Class I and II pressure vessels, the main products are oil separation tanks, adsorption tanks, carbon steel, stainless steel gas storage tanks, vacuum tanks, steam, oxygen, nitrogen tanks, diaphragm pressure tanks, sandblasting tanks, sub-cylinders, warehouse pumps, reactors, storage tanks for food, medicine and chemical industries, water treatment equipment in all fields, and to undertake a variety of non-standard pressure vessel customization. Full digital production line, safe, efficient and stable. The company is equipped with laser cutting machine, welding robot, CNC, automatic bending machine, shot blasting machine, assembly machine and other modern equipment, as well as high-quality technical team and skilled technical industry workers, in strict accordance with the relevant national standards, regulations, design, manufacture and acceptance.

Oil-gas separator The oil-gas separator of the screw air compressor is the key component of the screw air compressor system. Its main function is to separate the oil and gas in the compressed air to ensure the quality of the compressed air and prevent the equipment from being polluted by the oil. Its basic working principle is to use filters and separation technology to remove the oil mist mixed in the compressed air to ensure that the output compressed air is clean and oil-free. Main functions and effects: Oil and gas separation: In the compression process, oil and air will enter the system together. The oil-gas separator effectively separates the oil mist from the air through a special filtering device, thereby reducing oil pollution and damage to downstream equipment. Protection of equipment: Clean air helps to protect downstream equipment (such as pneumatic tools, instruments, etc.) from failure or wear caused by oil contamination. Improved air quality: The oil and gas separator ensures that the oil content of the output air is kept at a very low level, thus improving the air quality and meeting the high air quality requirements of some industries, such as the food and medical industries.


The high-precision and high-efficiency compound processing machine TM series realizes the design of reducing thermal deformation and occupies a small area. It is the best choice for the processing of small precision parts such as medical instruments and measuring instruments that pursue high-precision and high-efficiency processing of workpieces with complex shapes. The machine tool structure adopts the turn-milling compound technology to realize high-precision one-time clamping processing.

LU620 five-axis processing machine adopts high-rigidity base to support the rotation of B and C axes of single swing, and X/Y axis adopts the design of cross sliding table to ensure the best stability required by processing accuracy and surface quality, so as to provide customers with the highest production efficiency.

TX series improves the value of BT-30 drilling center. The improvement of structure, shaft guide rod and transmission system, the improvement of spindle structure and performance, the improvement of chip removal system and the fast tool change mechanism greatly improve and optimize the new generation of drilling and tapping center. In pursuit of high production efficiency, it shortens the starting and stopping time of the spindle, adopts high-speed feed and acceleration, shortens the non-processing time, high-speed ATC tool exchange mode, and adopts a new generation of control system.




PU pipe products have excellent high pressure resistance, vibration resistance, corrosion resistance, wear resistance, weather resistance, bending resistance, convenient and flexible use, excellent temperature resistance, heat insulation and superior bending performance at will! With bright color and high glossiness, it is the best choice for mechanical piping. Brand: Konex Raw material: 100% pure imported TPU raw material Withstand voltage at room temperature: 8-10 Kg Bursting pressure: 32Kg Temperature resistance of working environment (temperature range): -20 ℃ ~ + 60 ℃ (non-chemical gas space) Hardness: 80A, 85A, 90A, 95A Application: It is suitable for conveying liquid under general working pressure in the fields of industry, agriculture, food, medicine, civil engineering, fishery, aquaculture, garden irrigation, etc. Features: The hose made of TPU material has tensile strength, high tear strength, wear resistance, bending resistance, penetration resistance, low temperature resistance, hydrolysis resistance and other properties, and has good resilience and long service life. This product does not contain plasticizers, non-toxic and tasteless, is a high-performance environmentally friendly hose.
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Brand: Konex High temperature resistance: 200 ℃ Low temperature resistance: -40 ℃ Product name: Silicone tube Product application: water pipe, air pipe Inner diameter: 0.5-20MM Color: Any color can be customized Hardness: 20-80 degrees Product Certification: FDA Application: Water pipe, air pipe Material: silicone rubber Product features: Silicone rubber is a new type of polymer elastic material, which has excellent high temperature resistance (250-300 ℃) and low temperature resistance (-40-60 ℃), good physiological stability, and can withstand repeated harsh and disinfection conditions, with excellent resilience and small permanent deformation (not more than 50% at 200 ℃ 48 hours). Breakdown voltage (20-25 KV/mm), ozone resistant, UV resistant. Radiation resistance and other characteristics, special silicone rubber has oil resistance. Product application: 1. Medical treatment: application in medical equipment. 2. Radio and motor: in the telecommunication industry. 3. Application in instrument and meter industry. 4. Application in aviation industry. Supply of high quality transparent silicone tube, food grade silicone tube, medical silicone tube, flame retardant silicone tube

PU spring tube: Product introduction: Excellent flexibility, small bending radius, good shock resistance, light weight, wide working temperature and working pressure range. Excellent chemical properties, minimal pressure loss, constant hardness, long service life. Non-toxic and tasteless. . The color can be customized according to the requirements, and the pipeline is easy to identify. Meet ROSH environmental requirements Product use: Industrial robots, pneumatic tools, assembly plant pneumatic tools, pressurized pipelines Water and other fluids and non-corrosive oil. Can be use as a vacuum suction tub Protective jackets for metal and electronic products


JH5, a domestic horizontal machining center with double exchange worktables, continues the consistent core advantages of Muye equipment, deeply integrates the three characteristics of "high rigidity, high stability and high durability" into the product gene, provides core support for enterprises in the market competition of multi-varieties and fast delivery, and helps parts manufacturing enterprises to cope with the production challenges of rapid changes in the market. JH5 is suitable for a variety of processing scenarios, which can not only be suitable for mass production scenarios, meet the large-scale processing needs of parts suppliers, but also for complex parts processing tasks in the field of general engineering machinery processing.

Makino DA500 machine tool is a high-performance 5-axis vertical machining center, designed to improve the productivity and accuracy of parts processing, which can achieve agile feed axis movement and efficient processing. Processing advantages 1 Efficient machining: Makino DA500 can significantly reduce various non-cutting time, including spindle acceleration, positioning, tool change, tool breakage detection and pallet change time, thus improving the overall machining efficiency. 2. High-precision machining: By using advanced control technology and high-precision sensors, the machine tool can achieve micron-level machining accuracy and meet the machining requirements of high-precision parts. 3 Flexibility: The machine tool is equipped with a wealth of optional specifications and equipment, which can be customized according to the specific needs of customers, such as pallet magazine specifications, turntable functions, etc., to enhance the flexibility and adaptability of processing. Field of application Makino DA500 machine tool is widely used in semiconductor equipment, medical, aerospace, automotive parts and other high-precision, high-efficiency processing fields. Its excellent processing performance and flexibility enable the machine to meet the processing needs of complex parts and improve production efficiency and product quality. In addition, the machine tool is also suitable for occasions requiring rapid production change and processing of various workpiece sizes, which is helpful for enterprises to improve overall production efficiency and competitiveness.

EDAF2i ULTRA is the latest high-precision CNC EDM machine tool launched by Makino Machine Tool. It uses Makino's newly developed micro-EDM control circuit and marble worktable to release powerful machining performance and improve the quality and efficiency of EDM surface to a new height. Processing advantages: Vdi grain surface uniformity, connector corner clearing and melting, electrode loss control, processing efficiency, etc. Applications: ultra-precision connector industry, medical industry, IC packaging industry and other industries with higher requirements for EDM



A compact integrated linear servo system, this product serves as a core motion parts for precision electromechanical devices in robotics, industrial automation, medical equipment, and related fields.Internally integrated with high-precision reducers,coreless DC motors,lead screw mecha-nisms,sensors and servo drivers.The actuator enables precise servo positioning control at any point within its stroke range.

The dexterous hands employ an innovative linear drive design, with micro linear servo actuator as its core motion parts.Integrated with a hybrid force-position control algorithm, it delivers ±0.2mm positioning precision,several kilograms grasping force ,real-time force feedback ontrol.Additionally, the dexterous hand was launched in 2020. It is China's first commercial mass-produced dexterous hand.


The “sprue gripper” in robotic end-effectors is a specialized end-effector designed for gripping and removing plastic part sprues (commonly known as “sprues”) from automated injection molding production lines. Core Functions and Part Removal Methods Comparison Characteristic Dimension: Sprue Gripper (Specialized) Vacuum Suction Universal Parallel Gripper Primary Application: Specifically designed to grip, extract, or shear off sprue (water gate) waste. Suction of workpieces with flat, smooth surfaces. Gripping of workpieces with regular shapes and reliable gripping surfaces. Working Principle: Typically pneumatically driven, utilizing direct piston thrust to generate substantial gripping force; some designs can directly shear off sprues. Adheres to workpieces via negative pressure. Cylinder-driven, parallel opening/closing grips workpieces. Applicable Objects: Irregular plastic scrap from injection molding (e.g., sprues, runners). Finished products with intact surfaces (e.g., plastic shells, plates). Workpieces with symmetrical gripping surfaces (e.g., blocks, shafts). Key Advantages: Highly targeted design with jaw shapes matching sprues; high gripping force for reliable grasping or cutting. Large contact area minimizes surface damage. High versatility accommodates various regular-shaped parts. Technical Features and Selection Considerations Sprue grippers are engineered for efficient, reliable handling of specific waste materials: · Lightweight yet robust construction: Main body typically crafted from ultra-hard aluminum alloy, ensuring rigidity and longevity while minimizing robot end-effector load. · High gripping force design: Utilizing methods like direct piston push, its gripping force typically exceeds standard parallel grippers, ensuring secure grasping or cutting of sprues. · High flexibility and customizability: · Modular: Supports threaded mounting or quick assembly with standard EOAT (End-of-Arm Tooling) components. · Interchangeable jaws: Offers multiple jaw shapes to accommodate sprues of varying forms and dimensions. · Customization: Many suppliers accept bespoke designs to address specialized sprue handling requirements. · Integration and detection: Premium sprue grippers can incorporate magnetic switches or sensors to verify jaw closure or successful sprue capture, enabling process monitoring. Application Scenarios and Development Sprue grippers are critical components in automated injection molding production lines. They can function as standalone tools or integrate into multifunctional composite grippers alongside suction cups for finished parts or insert-holding grippers, enabling robots to simultaneously perform sprue separation and part handling. With the advancement of industrial automation, sprue grippers are trending toward miniaturization and intelligent capabilities. Miniature sprue grippers are better suited for operations in confined spaces, such as those found in precision electronics and medical devices. Integration with sensors and IoT technology enables intelligent functions like gripping force monitoring and predictive maintenance.

The “single-action ejector fingers” at the robot end effector are specialized grippers designed for part removal from injection molding machines, primarily used to pick up finished products on automated production lines. Their purpose differs entirely from the previously mentioned “sprue grippers.” Simply put: · Single-action ejector fingers: Aim to remove finished products. · Sprue grippers: Aim to remove or cut off sprue waste. To help you quickly grasp their differences, here's a comparison of their core characteristics: Single-Action Finger Plucker · Core purpose: Grasping plastic products after injection molding · Operating logic: Single action primarily for gripping and flipping products to aid demolding · Application scenario: Retrieving plastic products · Key features: Relatively simple structure, direct action Sprue Cutter · Core Function: Grasping or shearing off sprue (gate) scrap · Operating Logic: Typically requires high clamping or shearing force, specifically designed for scrap geometry · Application Scenario: Sprue scrap separation · Key Features: Highly targeted, high clamping force Key Characteristics of Single-Action Ejector Fingers Based on existing product information, single-action ejector fingers generally feature the following design characteristics: 1. Single-action mechanism: Streamlined structure with a primary gripping action in one direction. 2. Modular assembly: Can be combined with other modules (e.g., “gripper pins”) via connectors to form a complete gripping unit. 3. Built-in Magnetic Ring: The cylinder typically houses a magnetic piston, enabling external magnetic switches to detect the “open” or “closed” status of the gripper for position feedback. In summary, single-action ejector fingers and sprue clamps are two distinct end-of-arm tools with clear functional divisions on automated injection molding lines. Understanding their differences facilitates selecting the appropriate tool based on specific process requirements—whether retrieving finished parts or handling scrap material.
