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General debugging steps of 3D printing filament extruder machine production line

Time: 2024-07-12 Hits: 0

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Step 1: Check before starting
Verify temperature control responsiveness of all heating zones (feed zone, compression zone, metering zone).
Ensure all instruments are working properly, including temperature controller, pressure gauge and motor ammeter.
Check the velocity, pressure and no leakage of cooling water circuit is normal.
Check electrical connections and verify that the voltage supply is normal.
Clean the hopper and feed port to remove any impurities.
Check the screw and barrel if there were any signs of wear or damage.

Step 2: heating extruding machine
According to the operation procedures of the extruder heating screw, barrel and die. From the feeding area to the die head gradually heating in stages, the initial temperature should be about 10-20°C lower than the target processing temperature. When the temperature reaches this set point, it takes 30-40 minutes for the temperature to stabilize in all areas.
After the initial heating stage is completed, the temperature is raised to the normal production temperature. After reaching the target temperature for normal production, maintain the temperature for about 10 minutes. This holding time allows all components of the machine to reach thermal balance, ensuring a consistent temperature distribution throughout the system before starting the production process.

Step 3: Secure the connection
After the best working temperature extrusion machine, carefully tighten all of the die head screws and bolts. Using the calibrated torque wrench, ensure accurate uniformly tighten die head bolts. Check that there is no thermal expansion gap between the parts due to heating, and check that all mold parts are properly aligned.
For safety reasons, the operator must maintain a safe distance from the die head during this process, positioning himself to the side rather than directly in front. This precaution helps prevent potential injury from accidental failure of a bolt or screw due to thermal stress.

Step 4: Initial extrusion
At the beginning of the extrusion process, the screw speed should be slow, and then gradually accelerate to prevent overload and damage to the machine parts.

Step 5: feed
To begin the extrusion process, a small amount of material is added to the hopper to ensure a continuous feed. Closely monitor key metrics such as torque, motor amperage and melt pressure to detect any anomalies early. Start out from the mold and when the material is then mesh traction device, observing the initial quality of extrudate.
Gradually increase the feed speed while keeping a close eye on system performance indicators until a stable and normal extrusion flow is achieved. This method helps prevent system overload and ensures that the material is properly plasticized and extruded.

Step 6: Traction and cooling
For convenience of traction, finalize the design should maintain a certain distance between mold and die. Open the water channel to ensure that water does not splash the die head to avoid extrusion problems. For complex shapes or small cavities, the lid of the mold can be opened. After the extrusion material is plasticized, the material is pulled to the traction machine using a pre-set traction rope.
Adjust the plastic machine and the distance between the die head, close the lid, start the vacuum pump, balance of extrusion and drawing speed. Observe the contour to make sure the extrusion is normal, then adjust the distance to the ideal value.

Step 7: Adjust defects
If the extrude is not properly formed at the mold entrance, or the internal rib sticks to the inside surface of the profile, use a pointed tool to poke small holes in the problem area. This allows the small hole to communicate with the atmosphere, creating negative pressure and helping the extruder adhere to the mold wall.

Step 8: Deal with congestion
If a partial blockage occurs, immediately move the shaping table backwards or increase the traction speed, or implement both solutions. If the adjustment is not effective, the shaping table is moved back, the material is cut along the shaping die, the water and air of the shaping die are turned off, the traction speed is reduced, and the profile is slowly pulled out. If some material remains in the mold, the mold should be disassembled and the residue thoroughly cleaned.

Step 9: Shutdown procedure
When stopping, first add the stopping material, extrude and remove the production material. Then, stop the machine and remove the die head while it is hot for cleaning.

These steps ensure the smooth operation and maintenance of the 3D printing filament extruder machine production line, covering important aspects from pre-start-up inspections to dealing with clogging and shutdown procedures.

conclusion
Mastering the commissioning process of a 3D printing filament extruder machine production line is essential to ensure high-quality filament production and maintain efficient operations. The steps outlined in this article provide operators with a comprehensive guide to help them effectively troubleshoot and optimize the extrusion line.
Regularly perform these debugging steps will improve the overall performance, reduce waste, and improve the productivity of 3 d printing filament extruder machine manufacturing. With the continuous development of 3 d printing industry, and master the basic process and make application for increase of material production to remain competitive, high quality material still is very important.
Keep in mind that while these steps provide a solid foundation, each extrusion line may have unique characteristics. Operators should always refer to the specific manufacturer's guidelines and adjust these general steps to their specific equipment and materials for best results.

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