Harmonic Drive Carburized Machining Harmonic Gear Reducer CSF-14-100-2UH

Tower-type turning pattern inspection involves machining steel into cylindrical samples with three distinct steps, observing the number of patterns on the sample. The Harmonic Drive carburized machining harmonic gear reducer CSF-14-100-2UH assesses the severity of internal pattern defects in steel based on the number and length grades. This method is typically used for inspecting critical steel materials.

Product Description

gearbox

Abstract 

Tower-type turning pattern inspection involves machining steel into cylindrical samples with three distinct steps, observing the number of patterns on the sample. The Harmonic Drive carburized machining harmonic gear reducer CSF-14-100-2UH assesses the severity of internal pattern defects in steel based on the number and length grades. This method is typically used for inspecting critical steel materials.

 

Section Four: Carburized Layer Depth Inspection

 

(1) The depth of carburized, nitrided, and cyanided layers is generally inspected using macroscopic or metallographic methods.

 

(2) During inspection, the depth of carburized or cyanided layers should typically follow these principles: for carburized or cyanided layers, it equals the sum of the diffusion layer, coalescence layer, and the transitional zone; for nitrided layers, it equals the total depth from the surface to the clearly discernible boundary with the base metal structure (including the transitional zone).

 

(3) The macroscopic method involves breaking a flat specimen with notches, etching it with solutions like nitric acid or alcohol, and inspecting the depth of the metal layer with the naked eye or low-power magnifying glass.

 

(4) The metallographic method includes grinding and polishing the specimen, followed by etching with solutions like nitric acid or alcohol. The depth of the layer is then examined using a metallographic microscope.

 

The metallographic method is commonly used for inspecting layer depths.

 

[II) Rolling Cutter Measurement Instruments

 

Rolling cutter errors are numerous; single-item error measurements are typically performed using universal tools like microscopes or simple measuring instruments such as post-grinding rolling cutter inspection devices. Complex error measurements require universal rolling cutter measuring instruments. Simple rolling cutter measuring instruments lack complex relative movements and can only measure single-item errors.

 

Specialties

It is a combination type equipped with high rigidity bearings (cross roller bearings) that are suitable for servo motors of various companies and have a one click installation feature.

High torque

Long lifespan (increased rated lifespan)

No back gap

CSF series ratio: increases torque capacity by 30%

43% increase in lifespan (10000 hours)

※ Motor matching can be confirmed through selection tools

CSG-GH series gearbox

1. Model name: CSG series

2. Models: 14, 20, 32, 45, 65

3. Reduction ratio: 50, 80, 100, 120, 160

4. Type: GH=gearbox type

5. Output shaft shape:

F0=flange output

J2=straight axis (keyless)

J6=Straight axis (with key and center screw hole)

6. The shape of the motor flange and input shaft coupling shall comply with (depending on the installation of the motor)

7. Non standard products:

● Unsigned=standard product

SP=non-standard product

Planetary reducer CSF-GH series gear box

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