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13918157955
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16th Floor, Kaihe Sunshine Plaza, No. 3003 Baoyang Road, Baoshan District, Shanghai
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Shanghai Pudan Optical Instrument Co., Ltd
19JPC computer type universal tool microscope
NegotiableUpdate on 05/11
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Overview
19JPC computer type universal tool microscope
Product Details
application
19JPCMicro universal tool microscope is a new generation of universal tool microscope that applies computer-aided measurement,Can solve various complex two-dimensional measurement problems. Traditional Wan Gong displays deal with geometric elements that cannot be directly observed in the field of view, such as the center, midpoint, intersection point, centerline, and their mutual distances. It is difficult to measure angles and other factors, but19JPCIt can be easily solved on the instrument. This instrument uses precision grating sensors andPCSeries microcomputers and data interface cards collect measurement data,At the same time19JPCThe two-dimensional measurement program processes data, displays, and prints measurement results. The instrument is easy to operate. Simply enter the measurement command according to the graphical menu displayed on the screen to start the measurement. During the measurement process, the color display screen of the instrument can display the workpiece coordinates of the aiming point in real time, and the Cartesian or polar coordinates can be converted at any time, which is particularly convenient for polar coordinate measurement and cam measurement.
This instrument uses both metric and imperial units of measurement. The calculation accuracy reaches:0.0001Millimeters and0.0001Inch. The instrument can automatically correct the assembly error of the worktable slide guide rail, further improving the measurement accuracy.
Product Features
Microcomputer based universal tool microscope19JPCIt's a digital universal tool microscope19JPCOn the basis of this, computer technology is used to process the measurement data. The dual beam interference fringe measurement method, which is superior to the imaging method and the axial cutting method, has greatly improved the performance of the microcomputer based universal display system. The software's composability and developability have enhanced the system's functionality, meeting the needs of a wider range of users.
Microcomputer based universal tool microscope is a versatile measuring instrument widely used in mechanical, electronic manufacturing, and metrology testing industries. It can be used to measure the size, shape, angle, and position of any part within the measuring range.
1Typical measurement objects include:
a)Measure the shape of various molded parts such as templates, template cutting tools, template milling cutters, stamping dies, and camshafts;
b)Measure the pitch, diameter, pitch, and half angle of external threads (such as thread plug gauges, screw rods, and worm gears);
c)Measure the lead, tooth profile, and tooth angle of the gear rolling cutter;
d)Measure the positional accuracy of holes on circuit boards, drill dies, or orifice plates, as well as the symmetry of key slots and other positional errors;
2The main microscope is equipped with multiple eyepieces and objectives, with a large field of view and clear imaging;
3Adopting photoelectric digital display technology and using a precision grating ruler as the measuring element;
4By adopting advanced computer technology, the length signal collected by the grating digital display system is input into the computer in real time, processed by specialized two-dimensional measurement software, and printed out with accurate and efficient results or graphics;
5The main microscope can be tilted left and right, used for measuring spiral parts;
6Using non-contact measurement as the basic method, transparent and reflective lighting can be used to inspect parts with complex geometric shapes;
7Complete attachments and wide range of applications;
Product specifications
Main technical parameters
| project | specifications | parameter |
| Measurement range and division value | X-Y coordinate measurement range | 200x100 millimeters |
| Resolution | 0.5 microns (multi kinetic energy digital display) | |
| Aiming microscope | Lift stroke | 120mm |
| Vertical arm tilt range | 15 degrees on each side with a division value of 10 points | |
| Range of adjustment for illumination aperture | 3 to 32 millimeters per division value of 1 millimeter | |
| goniometer eyepiece | Angle measurement range | 360 degrees/division value 1 point |
| template eyepiece | Angle measurement range | ± 7 degrees/division value of 10 points |
| Arc dividing board | Curvature radius R 0.1-100 millimeters | |
| Thread dividing plate | Ordinary thread pitch T=0.25-6 millimeters | |
| Trapezoidal thread pitch T=2-20mm | ||
| Optical indexing table (optional) | measuring range | 360 degrees/division value of 10 seconds (projection reading) |
| Glass countertop diameter | Φ 106 millimeters | |
| optical dividing head | measuring range | 360 degrees/division value 1 point |
| Optical locator | Measuring head diameter | Φ 3 ± 0.1 millimeters |
| The maximum verification error of the actual diameter value is not greater than 0.5 micrometers | ||
| Measuring force | 8-14 grams | |
| maximum measuring depth | 15 millimeters | |
| Glass workbench | Glass countertop size | 215x130mm |
| Top needle holder | Maximum clamping diameter | Φ 100mm |
| Maximum clamping length | When the diameter of the tested component is ≤ 55 millimeters, it equals 750 millimeters | |
| When the diameter of the tested component is greater than 55 millimeters, it equals 600 millimeters | ||
| High top needle holder | Maximum clamping diameter | Φ 180 millimeters |
| Maximum clamping length | 600 millimeters | |
| V-shaped frame | Front and rear adjustment range of left V-frame | 5 millimeters in front and back respectively |
| Right V-shaped frame height adjustment range | Up 15mm/Down 3mm | |
| Maximum carrying capacity | 40 kilograms | |
| instrument quality | Net weight of the host: 250 kilograms | Instrument dimensions: 980x102x640mm |
| Gross weight of host packaging: 400 kilograms | Host box volume: 1230x1100x980 millimeters | |
| Net weight of attachment: 70 kilograms | Attachment packing volume: 900x600x1000mm | |
| Attachment packing gross weight: 100 kilograms | Packing of attachments: 2 pieces in attachment box |
Instrument precision(Complies with the national standard GB3719-88 of the People's Republic of China)
Temperature requirements:The temperature in the studio should be 20 ± 2 ℃
⑵The temperature change in the studio does not exceed 1 per hour℃
⑶The temperature difference between the tested object and the instrument shall not exceed 0.5℃
Under the condition of meeting the specified temperature requirements, the instrument has the following guarantees:
| 1. When using a glass millimeter ruler to calibrate X-Y coordinates, the maximum inaccuracy of the instrument is: | ||
| When the dividing scale of the instrument is not corrected, the X direction should not exceed 0.0035 millimeters and the Y direction should not exceed 0.0025 millimeters | ||
| When correcting the dividing scale of the instrument according to the correction table, the X direction should not exceed 0.0025 millimeters and the Y direction should not exceed 0.0015 millimeters | ||
| 2. goniometer eyepiece | Maximum inaccuracy in measuring angles | No more than 1 point |
| 3. Binocular eyepiece | Instability of composite images | Not greater than 0.5 microns |
| Inaccurate degree of composite image | Not greater than 1 micrometer | |
| 4. optical dividing head | Maximum inaccuracy | No more than 1 point |
| 5. optical dividing table | Maximum inaccuracy | No more than 30 seconds |
| 6. Optical locator | Measurement instability | Not greater than 1 micrometer |
| Measurement inaccuracy | Not greater than 1.5 microns | |
Optical parameters of microscope
| Indicator value of objective magnification factor | 1× | 3× | 5× | |
| total magnification | Use angle measuring or contour eyepiece | 10× | 30× | 50× |
| Using a binocular eyepiece | 15× | 42× | 65× | |
| Object field of view | Use angle measuring or contour eyepiece | Ф20 | Ф6.6 | Ф4 |
| (millimeters) | Using a binocular eyepiece | Ф13 | Ф4.7 | Ф3 |
| work distance | Use angle measuring or contour eyepiece | 81 | 90 | 65 |
| (millimeters) | Using a binocular eyepiece | 47 | 85 | 63 |
2D measurement program
Basic measurement function
useWINDOWSinterface,All operations are controlled by the mouse,Can perform point, line, circle, arc, straightness, roundness, gear, threadMeasurement of cam and other components
Calculation function
After the measurement process is completed, the contour map of the workpiece is displayed on the computer screen, and all calculations and evaluations are completed by the mouse
Graphic editing function
The contour of the workpiece can be modified to generate a new contour map
Printing function
All measurement results, calculation results, and workpiece contour drawings are saved in file format on the computer, which can be accessed and printed at any time
CADinterface
pass throughCADThe interface can be calledAUTOCADMake full use of itAUTOCADFunction
