Optiese saamgestelde beeldvlak

1. 1.Aansoek

Die optiese saamgestelde beeldvlak word wyd gebruik om die gradiënte van plat oppervlak en silindriese oppervlak na horisontale rigting te meet; Die vlakheid en reguitheid van die glybaan of basis van masjiengereedskap of optiese meganiese instrument sowel as die korrektheid van die installeringsposisie van toerusting.

2. 2.Tegniese data

(1) elke gradueringswaarde: ...0.01mm/m

(2) maksimum meetbereik: ...0~10mm/m

(3) toelae: ...1mm/binne een meter... 0.01mm/m

Binne volle meetbereik...0.02mm/m

(4) vlakafwyking op werkoppervlak...0,0003mm/m

(5) elke gradueringswaarde van die waterpas...0.1mm/m

(6) werkoppervlak (LW): ...165 48mm

(7) netto gewig van die instrument: ...2kgs.

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4. 3. Struktuur van die instrument:

Die saamgestelde beeldvlak bestaan ​​hoofsaaklik uit die volgende dele soos mikroverstelskroef, moer, gegradueerde skyf, waterpas, prisma, vergrootglas, hefboom asook basis met gewone en v werkoppervlak.

4. 4. Werksbeginsel:

Die saamgestelde beeldvlak gebruik prisma om die lugborrelbeelde in die waterpas saamgestelde te kry en vergroot om leesakkuraatheid te verbeter en gebruik hefboom- en mikroskroef-oordragstelsel om leesgevoeligheid te verbeter. As die werkstuk dus met 'n helling van 0.01mm/m, kan dit akkuraat gelees word in die saamgestelde beeldvlak (die waterpas in die saamgestelde beeldvlak speel hoofsaaklik die rol om nul aan te dui).

5. 5.Bedryfsmetode:

Plaas die saamgestelde beeld vlak op die werkoppervlak van die meetwerkstuk en die gradiënt van die meetwerkstuk veroorsaak ongelyke beelde van die sleep lugborrel; Draai die gegradueerde skyf totdat die sleeplugborrelbeelde saamval en lees onmiddellik kan verkry word. Die werklike gradiënt van die meetwerkstuk kan met die volgende formule bereken word:

Werklike gradiënt=gradiëntwaarde Steunpuntafstand Skyflesing

Fox voorbeeld: Skyf lees: 5 gradiënte; Aangesien hierdie saamgestelde beeldvlak met sy gradiëntwaarde en steunpuntafstand gefok word, is dit gradiëntwaarde: 0.01mm/m en steunpuntafstand: 165mm.

Dus: Werklike gradiënt=165mm 5 0.01/1000=0.00825mm

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7. 6.Operasiekennisgewing:

(1) voor gebruik, maak die oliestof skoon met petrol en maak dan skoon met absorberende gaas.

(2) Temperatuurverandering het groot invloed op instrument en daarom moet dit met hittebron geskei word om foute te vermy.

(3) Tydens meting, draai die gegradueerde skyf totdat die sleeplugborrelbeelde heeltemal saamval en dan kan die lesings op beide positiewe en negatiewe rigtings geneem word.

(4) If the instrument is found with in correct zero position, it may be adjusted; Put the instrument on a stable table and rotate the graduated disc to set the tow air bubble images coincide to get first reading a; Then turn the instrument by 180o and put back to its original place. Ra-rotate the graduated disc to get the tow air bubbles coincide to get the second reading b. So 1/2 (α +β ) is the zero deviation of the instrument. Loosen the three supporting screws on the graduated disc and press lightly by hand the embossed adjusting cap; Rotate the disc by 1/2 (α +β) to get the zero deviation and the point line composite; At last fasten the screws.

(5) Na werk moet die werkoppervlak van die instrument skoongemaak en bedek word met suurvrye, watervrye, antiroesolie en antiroespapier; Plaas dit in 'n houtboks en bêre dit dan op 'n skoon droë plek.

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Tegniese parameters

- Plaatwaarde-skakelaar 0,01 mm/m

- Meetreeks 0-10 millimeter/meter

- Parent-child error within ± 1mm/m+0.01 mm/m

- The parental error within the entire measurement range is ± 0. 02 millimeters/meter

- Bank platheid afwyking van 0.003mm

- Selwaarde-akkumulasiestandaard 0,1 millimeter/meter

- Kantoor lessenaar grootte 165 x 48 millimeter

- Netto gewig 2,2 kilogram

Optical Composite Image Level Maintenance: Antirust Oil & Storage Tips

Proper maintenance ensures your optical composite image level retains its 0.01mm/m precision and durability. Follow these steps to protect its prism technology and mechanical components:

1. Daily Cleaning for Surface Protection

After use, wipe working surfaces (V-groove, edges, lenses) with isopropyl alcohol on a lint-free cloth to remove oils and dust. Use a soft brush for stubborn debris—never abrasives, which can scratch optical parts or damage metal coatings. This preserves the precision ground surfaces (Ra ≤ 0.1μm) critical for accurate readings.

2. Routine Antirust Care for Metal Parts

While the granite base resists corrosion, metal components (screws, levers, hinges) need protection. Apply Storaen’s non-acidic anti-rust oil every 3 months or after moisture exposure:

Apply thinly to threads and pivots with a dropper, avoiding pooling on granite/lenses.
Prevents seizing: Maintains lever mechanism sensitivity (0.001mm precision) for cylindrical slope measurements.

3. Optimal Storage Practices

Store in the included hard case or a dry cabinet to avoid temperature/humidity damage:

Environment: 10°C–30°C, <60% humidity to prevent lens condensation and optical distortion.
Positioning: Lay flat or upright in padded slots; never under heavy objects to avoid misaligning the optical system.
Long-term storage: Reapply anti-rust oil and add a silica packet; inspect 24 hours before use, verifying zero position via 180° rotation calibration.

4. Monthly Functional Inspections

Check performance regularly to ensure reliability:

Bubble clarity: Confirm the composite bubble image aligns smoothly without blur.
Lever movement: Test micro-screws for smooth rotation—stiffness signals needed lubrication.
Flatness check: Use a reference plate to validate factory-calibrated flatness (±0.0003mm/m).

5. Storaen’s Support for Longevity

Leverage our expert services to maintain peak performance:

Factory recalibration: Restores 0.01mm/m precision via ISO-certified equipment for critical applications.
Genuine parts: Replacement components ensure compatibility and preserve original accuracy.

By following these steps, your Storaen optical composite image level will deliver consistent precision for industrial alignment tasks, backed by our 30+ years of engineering expertise.

Zero Position Calibration of Optical Composite Image Level: 180° Rotation Method Explained

Accurate zero calibration is vital for your Storaen optical composite image level to maintain its 0.01mm/m precision and ±0.0003mm/m flatness. The 180° rotation method eliminates subtle optical or mechanical shifts, ensuring reliable measurements in critical tasks like CNC machine alignment or aerospace component inspection. Here’s a streamlined, step-by-step guide:

1. Why Calibrate?

Impacts, vibrations, or temperature fluctuations can shift the level’s zero reference, leading to measurement drift. Calibration realigns the bubble vial with the tool’s optical prism and lever system, ensuring consistent baselines for industrial applications where 0.001mm deviations are unacceptable—such as verifying machine tool guides or structural frameworks.

2. Setup Requirements

Storaen optical composite image level (featuring a V-grooved base and micro-adjusting screw)
Certified precision reference flat (e.g., our Storaen granite surface plate, with flatness ≤0.0002mm/m)
A clean, vibration-free workbench in a temperature-stabilized environment (18°C–22°C recommended)

3. Step 1: Initial Measurement

Place the level lengthwise on the reference flat, aligning the V-grooved base with the flat’s central axis. Rotate the micro-adjusting screw until the composite bubble image—created by the 45° prism system—perfectly overlaps in the viewfinder. Record this initial scale reading (A), which reflects the current deviation from true zero.

4. Step 2: 180° Rotation & Second Reading

Carefully flip the level 180° end-to-end while maintaining its longitudinal orientation on the flat (avoid any lateral movement). Adjust the micro-screw again to align the bubble image and record the new reading (B). The difference Δ = |A - B| indicates zero position error; ideal values for Storaen levels should be ≤0.005mm/m.

5. Step 3: Error Correction & Verification

Calculate the target zero position as the midpoint: C = (A + B)/2. Loosen the protective cap on the zero-adjustment screw (typically located near the bubble vial), rotate the screw until the scale reads C, then retighten. Repeat Steps 3–4 until Δ ≤0.002mm/m, ensuring minimal residual error.

6. Pro Tips for Precision

Triple-Check Consistency: Perform 3 calibration cycles, especially after transporting the level or working in environments with temperature swings, to ensure repeatable results.
Lubricate Moving Parts: Apply a drop of Storaen’s non-acidic oil to the micro-screw before adjustment to ensure smooth, backlash-free operation and prevent binding.
Environmental Control: Avoid calibrating near heat sources or drafts, as even minor temperature gradients can affect the granite base’s dimensional stability and introduce errors.

7. Storaen’s Calibration Support

Every Storaen optical composite image level includes a NIST-traceable calibration certificate, but quarterly in-field checks are recommended for heavy use. Our support includes:

Factory Recalibration: Restoring original 0.01mm/m accuracy using laser interferometers for high-stakes applications.
Genuine Spare Parts: Readily available adjustment screws and maintenance kits for long-term usability.
Video Tutorials & Expert Guidance: Step-by-step videos and engineer support to assist with on-site calibration procedures.

Final Notes

Mastering the 180° rotation method ensures your Storaen optical composite image level delivers the precision required for cylindrical slope measurements, machine tool flatness checks, and other critical alignments. With proper calibration, this tool, backed by our 30+ years of engineering expertise, becomes an indispensable asset in your quality control workflow, ensuring every measurement is as reliable as the first.