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JDGR200T is suitable for five-axis machining of precision molds, precision parts and complex hardware. + Stable micron-level processing capability, which can achieve "0.1 micron feed, 1 micron cutting and nanoscale surface effect" + 150 high-speed synchronous spindle in configuration, which has the characteristics of high speed and low vibration, and has the ability of precision milling, boring, drilling and tapping. Beijing Jingdiao On-machine Inspection System is equipped to inspect and correct the state of workpieces, tools and machine tools on the machine, so as to reduce the influence of "inherent deviation" of key ten elements on the accuracy of parts. A chain tool magazine with a capacity of 63 tools can be configured, and an automatic feeding system can be configured to realize automatic processing.
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JDGR500-MG is suitable for five-axis precision grinding of hard and brittle materials such as metal, quartz, silicon and ceramics. + Stable micron machining capability to achieve "0.1 micron feed, 1 micron cutting and nanoscale surface effects". + Equipped with Φ150 high-speed synchronous electric spindle, it has the characteristics of high speed and low vibration, and meets the use requirements of precision grinding head. + Beijing Jingdiao On-machine Inspection System is configured to inspect and correct the status of workpieces, tools and machine tools on the machine, so as to reduce the key The effect of the "inherent bias" of the element on the accuracy of the part. + Different accessories and software can be configured to realize features such as hole, column, profile, optical spherical lens, optical aspheric lens, etc. Or precision grinding of products.

JDMR800 Five-Axis High-Speed Machining Center Description: The JDMR800 is suitable for five-axis machining of medium to large complex parts in industries such as aerospace, energy, automotive, and mold manufacturing. The machine features a symmetrical moving-beam gantry frame with a cradle-style dual-axis rotary table, offering a compact structure, high rigidity, and good thermal stability. The A-axis employs dual-drive technology, providing high rotary accuracy and large output torque. It is equipped with a high-torque synchronous electric spindle with an HSK-A63 tool holder interface, which allows the use of large-diameter tools and offers multi-functional tool capabilities including milling, boring, drilling, tapping, and reaming. It is configured with the Beijing Jingdiao in-process inspection system, which enables in-process inspection and correction of workpieces, tools, and machine status, reducing the impact of "inherent deviations" on part accuracy.





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.




Using the radius measurement method with the workpiece rotating, the system can measure and analyze functions such as cylindricity, roundness, straightness, coaxiality, concentricity, face run-out, total face run-out, perpendicularity, parallelism, and flatness. It can also analyze surface waviness, spectral analysis, wave height analysis, adjacent disc run-out, and inter-disc step differences.

Translation: This instrument employs the Cartesian coordinate measurement method with a stylus contact approach. It can measure the following dimensions, angles, tolerances, and generate auxiliary elements, as well as perform roughness and waviness analysis: Dimensions: Horizontal distance Vertical distance Linear distance Radius Diameter Angles: Horizontal angle Vertical angle Included angle Positional Tolerances: Parallelism Perpendicularity Form Tolerances: Straightness Flatness Circular profile Auxiliary Generation: Auxiliary points Auxiliary lines Auxiliary circles Roughness Analysis: Arithmetic mean height (Ra) Root mean square height (Rq) Maximum height of the profile (Rz) Peak height (Rp) Total height of the profile (Rt) Skewness (Rsk) Mean spacing of the profile elements (Rsm) Core roughness depth (Rc) Rz (DIN standard) R3z Rz (JIS standard) Maximum peak height (Rpmax) Maximum profile peak height (Rpm) Kurtosis (Rku) Root mean square height of the profile (Rdq/RΔq) Maximum profile valley depth (RδC) Material ratio at a specified section (Mr1, Mr2) Core roughness depth (Rpk) Valley depth of the core roughness (Rvk) Core roughness depth (Rk) Reduced peak height (Rdc) Amplitude parameters (A1, A2) Maximum profile height (Rx) Maximum profile height (AR) Core roughness depth (Rpc) Maximum roughness depth (Rmax) Rz (ISO standard) Profile height (4um) Maximum profile height (Ry) Waviness Analysis: Total waviness height (Wt) Arithmetic mean waviness height (Wa) Maximum waviness peak height (Wp) Maximum waviness valley depth (Wv) Root mean square waviness height (Wq) Core waviness depth (Wc) Kurtosis (Wku) Skewness (Wsk) Maximum waviness height (W) Maximum waviness height (Wx) Maximum waviness height (Wz) Mean spacing of the waviness profile elements (Wsm) Reduced peak height (Wdc) Total waviness height (Wte) Material ratio at a specified section (Wmr) Amplitude parameter (Aw) Material ratio curve (C(Wmr)) Material ratio at a specified section (Wmr(C)) Root mean square waviness height (Wdq/WΔq) Primary Profile Analysis: Total profile height (Pt) Arithmetic mean profile height (Pa) Maximum profile peak height (Pp) Maximum profile valley depth (Pv) Root mean square profile height (Pq) Core profile depth (Pc) Kurtosis (Pku) Skewness (Psk) Root mean square profile height (Pdq/PΔq) Mean spacing of the profile elements (Psm) Reduced peak height (Pdc) Material ratio at a specified section (Pmr(c)) Maximum profile height (Pz) Material ratio at a specified section (Pmr) Material ratio curve (C(pmr))