About this product
Carding flat drive belts and button belts are supplied as machine-specific transmission interfaces for stable flat movement in carding systems. The belt execution is selected based on actual running conditions, not only on nominal dimensions, so that tracking, engagement, and service life remain consistent during operation.
Product Purpose
This product is used in flat drive sections where motion transfer must remain uniform over long production cycles. A correctly executed belt helps maintain predictable flat speed, smooth engagement, and reduced unplanned stoppage risk during routine mill operation.
Execution Approach
- Machine-model-wise fitment verification before supply
- Profile and pitch matching based on existing drive requirements
- Width and length confirmation against running reference
- Button/cleat geometry aligned to application direction and load
Technical Scope
- Flat drive belt and button belt executions for textile carding applications
- Replacement against existing belt reference or measured sample
- Support for planned maintenance as well as urgent replacement requirements
- Repeat supply with controlled execution reference for consistency
Supply and Use Notes
For best replacement accuracy, provide machine make/model and existing belt reference wherever available. Where markings are unclear, dimensional and profile confirmation can be done from sample or verified measurement inputs. Final selection should always follow the actual drive-side requirement of the running machine.
Technical specifications
| C50-C51 | AT10-3806.4 (25.4)+104 |
|---|---|
| All Truetz models with Belt | T10-3040 -26T -84 Buttons |
Positioning
Essential spares govern carding behaviour through interfaces like waste separation, fibre control, and airflow integrity. Selection is interface-first, not part-name-first.
Non-negotiables
- Correct interface geometry and fit for stable behaviour
- Predictable running without repeated compensatory adjustments
- Supply with application clarity (machine + location + observed change)
What goes wrong
- False cleanliness and invisible fibre loss (waste interfaces)
- Load shifting to other carding elements (knives/plates)
- Airflow leakage causing instability (undercasing/covers)
RFQ logic
Share machine make/model, interface location, and what changed first. If you have a drawing, we can manufacture to it. For behaviour-critical interfaces, OEM intent is the safest reference point.