


GLY5 high-pressure water deburring machine uses a special pump to pressurize water or water-soluble liquid, and then spray it from the nozzle in a certain shape, such as fan, cone, etc., to produce huge impact energy to impact the parts, so as to achieve the purpose of deburring. By upgrading the existing CNC machine tool and installing a high-pressure water deburring device, the best deburring parameters adapted to the burr characteristics can be obtained through appropriate selection of pressure, flow and feed speed. Through the control of CNC machine tools, burrs can be accurately positioned and automatic high-pressure injection can be realized; the system has high flexibility and adjustability, is suitable for various workpieces, and is suitable for the processing requirements of various varieties, specifications and scenes; the generated waste water can be recycled after being filtered, has no consumables, is environment-friendly and energy-saving, and helps enterprises to achieve the development goal of reducing cost and increasing efficiency.

Based on the customer's demand, a new generation of machine tool high-pressure oil supply cooling filter device GLY2 is developed, which can realize the functions of tool internal cooling, deep hole chip removal, high-pressure chip breaking, high-pressure cooling, efficient filtration, etc., with high filtration accuracy, no consumables, no need for frequent maintenance, and can be recycled to ensure the service life of the main components of the high-pressure pump. It is mainly used in high-pressure internal cooling of machine tools, cutting, improving the service life of cutting tools and improving the processing accuracy and surface finish of products. Equipment advantages: 1. Avoid the winding of scrap iron: Eliminate the trouble of scrap iron winding the cutter and workpiece in metal processing, avoid the winding of scrap iron on the parts and cutter, and make the cutting smoother. 2. High-efficiency filtration system: filtration precision 20-60 μm, no consumables, recyclable filter element, to ensure the service life and performance of the high-pressure pump. 3. Improve the surface finish: improve the surface finish of processed parts, improve the quality of parts, and improve the market competitiveness of products.



Application and Benefit of OPS-20 Probe System ● For machining centers, turning centers, CNC boring and milling machines; ● Used for automatic setting of workpiece reference in batch production; ● Used for quality control before, during and after the production process; ● Reduce production assistance time and improve production efficiency; ● Reduce investment in process equipment and production cost. Composition of OPS-20 probe system 1) OP500 infrared communication probe (including standard probe); Standard probe model: M4-P50-RB6-S35; 2) Taper shank of measuring head (optional as required by the user); 3) OSI-10E infrared signal receiver (including 8m long cable); 4) SP-W10 measurement software package (ten standard measurement functions). Functions of the OPS-20 probe system 1) Infrared coding signal communication is adopted between the measuring head and the receiver; 2) Three different infrared coded signals emitted by the OP500 probe: 3) Four kinds of switching value signals output by cable of OSI-10E receiver: Probe status, error, probe battery voltage low, and probe status pulse number; 4) Indication of the working status of the measuring head: three three-color LED indicators. Characteristics of OPS-20 probe system 1) The OP500 measuring head uses two standard lithium batteries as the power supply, and the battery model is: 14250 3.6V,1200mAh; 2) The OP500 probe is equipped with a new probe reset elastic force adjustment mechanism, which enlarges the probe Range of selection; 3) a new connection and adjustment mechanism is adopted between the main body of the OP500 probe and the taper shank, The needle position adjustment operation is more convenient; 4) The shield of the infrared signal emitter of the measuring head can be made of two kinds of materials to realize the protective performance and emission. For different combinations of distances, the launch distances are: 6m/with glass shield, 4m/with With the polycarbonate shield, the polycarbonate shield has the advantage of resistance to chip impact, especially Suitable for machining centers with bamboo hat type tool magazine; 5) The main body of the measuring head is made of stainless steel, which has excellent anti-rust performance. Technical parameters of OP500 infrared communication probe 1) Measurement direction: ± X, ± Y, + Z 2) Diameter of probe body: 48 mm 3) Standard probe: Length 50mm,? 6mm ruby measuring ball, M4 connecting thread 4) Measuring head one-way repetitive trigger accuracy (2σ): ≤ 1 μm 5) The maximum swing angle of the probe in the XY plane: ± 15 ° 6) The maximum floating stroke of the probe in the Z direction: 5 mm 7) When the standard probe is used, Probe trigger force: 600 ± 30 G in Z direction, XY plane 38 to 40 G (minimum) 70 to 80 G (maximum), 8) Opening mode of measuring head: Rotary start, speed > 300 rpm 9) Closing mode of measuring head: delay (0.5/1/3/5/10/20 minutes) 10) Trigger force adjustment range: 100 ~ 200% 11) Infrared signal transmission range: Radial 360 °, Axial 50 ° to 110 ° 12) Receiver input voltage: 24 ± 10% V DC 13) Protection grade of probe system: IP68 Functions of SP-W10 measurement software package 1) Automatic calibration of measuring needle 2) Protection against probe collision during probe movement 3) Measurement of boss and groove 4) Measurement of holes and shafts 5) XY single plane measurement 6) Measurement of internal and external angles 7) Measurement of the fourth axis 8) Measurement of XY plane angle 9) Three-point measurement of circular arc 10) Measurement of hole center distance
Composition and function of RPS-L10 probe system 1) RPS-L10 radio communication probe, including TP200 probe, RPDM radio transmission module, mounting rack and battery compartment; 2) RSI-10 radio signal transmitter-receiver, including 10 meters of cable; 3) SP-W10 measurement software package (five standard functions); 4) Radio frequency of RPS-L10 probe system: 2.4G ~ 2.525G; 5) The working distance between RPS-L10 probe and RSI-10 receiver is 10m; 6) RPS-L10 probe and RSI-10 receiver have two-way communication function; 7) The signal response time of RPS-L10 probe system is less than 1ms, which can realize single trigger measurement; 8) Overall protection grade of the system: IP68 RPS-L10 Radio Probe System--Special for CNC Lathe Main functions: Automatic establishment of workpiece coordinate system and automatic calibration of measuring head Automatically detect and set the process datum of the workpiece in the machine coordinate system Control of Machining Accuracy and Automatic Compensation of Tool Wear Collision protection during probe movement Application and Benefit of RPS-L10 Radio Probe System ● For large and medium-sized turning centers, CNC lathes, grinders, etc.; ● Used for automatic setting of workpiece reference in batch production; ● Used for quality control before, during and after the production process; ● Reduce production assistance time and improve production efficiency; ● Reduce investment in process equipment and production cost. Functions of SP-W10 measurement software package 1) Automatic calibration of measuring needle 2) Protection against probe collision during probe movement 3) Measurement of flange and ring groove 4) Measurement of holes and shafts 5) Single plane measurement Technical parameters and functions of RPS-L10/radio communication probe ● Measurement direction: ± X, ± Y, + Z; ● Standard probe length: 40 mm; ● One-way reset accuracy of measuring needle: 1 μm; ● The maximum swing angle of the probe in the XY plane is 12 °, and the T stroke of the probe in the Z direction is 5 mm; ● XY plane minimum trigger force: 38 ~ 40 G, maximum trigger force: 70 ~ 80 G; ● Trigger force in Z direction: 200 ~ 230 G; ● The main body of the measuring head is made of high-quality stainless steel with the best anti-rust performance; ● Opening mode of measuring head: M code start; ● Closing mode of measuring head: delay closing, M code closing; ● Optional delay closing time: 1, 2, 3, 4, 5, 6, 7, 120 minutes; ● Probe start time: < 1 second; ● Range of probe transmitting signal: circumferential 360 °, axial 360 ° ● The probe can transmit three signals: trigger, error and low voltage. ● The probe status is indicated by three three-color LED indicators. Power supply of measuring head: one high-energy lithium battery, specification: 26500, 3.6 V, 7000mAh; A small-capacity lithium battery can also be used if the space of the cutter head is small. Specifications: 14250,3.6V,1200mAh ● Probe working current: 1.2mA, trigger current: 5.0mA, sleep current: 100μA; ● A new battery can work for 1.5 ~ 2 years; Technical parameters and functions of RSI-10 wireless signal transmitter-receiver ● Four kinds of SSR signals including probe trigger, error, low voltage and pulse are provided for the machine tool, which are respectively sent by 4 LEDs display the working status of the system; ● Input power: 24 ± 10% V DC; ● Receive the M code of the machine tool and control the start or close of the measuring head; ● With a dial switch, the start mode and sleep time of the probe can be set;




JeanCherng adopts high-precision CNC optical projection grinding machine as the main model, with the top professionals, any special molding parts can be manufactured, with the cooperation of two shifts, to create the highest quality with excellent efficiency. Whether the accuracy is 0.002 mm or the roundness, concentricity, perpendicularity, parallelism within 0.002 mm, or the surface roughness can meet the requirements of customers.

JeanCherng can provide rough blanks and molds for the optical industry, such as camera and mobile phone lens molds; rough blanks for contact lens molds. In the field of optoelectronics, JeanCherng can provide precision parts for backlight modules, liquid crystal displays, optical fiber communications, etc.



The spring terminal is automatically fed by the motor gear. When cutting the terminal, the circular positioning pin fixes the material belt hole for cutting PIN, and the material is cut by the motor cam mechanism. The index plate sucks the part of the product, and the cut product is moved to the next station by the sucked part. The CCD detection light source station can be equipped with a high-precision diamond mirror to achieve the function of detecting multiple surfaces. CCD1 and CCD2 detect the overlapping, shortage, deviation and other conditions of the product in the previous cutting, the detection signal is sent to the next station, and the defective products are automatically discharged into the box through the pipeline. The packaged shielding cover is manually placed in the storage bin, and the shielding cover is conveyed to the flexible vibration plate by direct vibration; the bottom of the flexible vibration plate is a backlight source, which is convenient for the CCD to position the product; The product suction mechanism is composed of 8 suction heads, 4 of which take the material from the flexible disk and put it into the 3D detection jig, and the other 4 suction heads take the product after detection from the 3D detection jig for tape packaging. The 3D line laser detection replaces the traditional optocoupler detection, realizing zero-cost replacement. The correlation and repeatability accuracy of 3D line laser detection is 0.015 mm-0.02 mm. Products without flatness detection can be directly packed by 8-head machine.

The shielding cover is manually placed in the storage bin, and the shielding cover is conveyed to the flexible vibration plate by direct vibration; the bottom of the flexible vibration plate is a backlight source, which is convenient for the CCD to position the product; The product suction mechanism consists of six suction heads, three of which take the material from the flexible disk and put it into the 3D detection jig, and the other three suction heads take the product after detection from the 3D detection jig and put it on the plastic suction plate. The 3D line laser detection replaces the traditional optocoupler detection to realize zero-cost replacement. The correlation and repeatability accuracy of 3D line laser detection is 0.015 mm-0.02 mm. For products without flatness detection, the blister tray can be placed directly according to the 6-head machine. The blister tray mechanism has the function of AB tray. It is convenient and fast to change the blister tray with different external dimensions. The length and width of the blister tray packaging mechanism can be adjusted by shaking the two-way screw rod and handle. The maximum length is 390 and the width is 310, and the minimum length is 285 and the width is 140.

The shielding cover is manually placed in the storage bin, and the shielding cover is conveyed to the flexible vibrating plate at the time of direct vibration; the bottom of the flexible vibrating plate is a backlight source, which is convenient for the CCD to locate the position of the product; the product suction mechanism is a four-suction head, and a single product is synchronously placed on the detection and packaging production line after being sucked and rotated. The whole assembly line can be adjusted back and forth, and the product fixture can be adjusted according to the size of the product, so as to realize zero-cost replacement. 3D line laser correlation and repeatability accuracy 0.01. After the laser detection of the product line, the PPU is transported and put into the transfer line (one out of two). The PPU carries the product from the transfer line to the CCD detection station (one out of one). CCD1 detects the front paint surface of the product from bottom to top, and CCD2 detects the front appearance of the product from top to bottom. The product transfer mechanism is completed by double modules. The operator puts the stacked blister tray into the empty tray bin, and the blister tray taking mechanism takes out the empty blister tray. After the blister tray is filled with products, it is automatically stacked or the blister tray is packed in a staggered manner, and it is taken out manually.


Selected material: high quality alloy tool steel (such as Cr12MoV), vacuum heat treatment and cryogenic treatment to ensure high hardness and toughness. · Precision manufacturing: full CNC precision machining, precision grinding of key surfaces, ensuring straightness, parallelism and angle accuracy, bending without indentation. · Optimized design: Provide a variety of standard groove types and angles, support rapid non-standard customization, and meet the needs of complex sheet metal forming. · Widely used: It is designed to provide reliable tools for precision sheet metal processing in chassis cabinets, elevator parts, auto parts, metal furniture and other industries. · Efficiency multiplication: Modular design, no tools can quickly complete the installation and disassembly of the mold, the mold change time is shortened by more than 70%. · Safe and reliable: Built-in safety locking mechanism can prevent the mold from loosening during processing and greatly improve the safety of operation.

· Efficiency multiplication: Modular design, no tools can quickly complete the installation and disassembly of the mold, the mold change time is shortened by more than 70%. · Safe and reliable: Built-in safety locking mechanism can prevent the mold from loosening during processing and greatly improve the safety of operation.
