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Guía para la autodegradación en el moldeo por inyección

Moldeo por inyección is a precision-driven process where every detail matters, and one crucial aspect is the efficient separation of molded parts from the runner system. Specifically, degating is the meticulous procedure of removing the puerta—a solid protrusion that forms as molten plastic cools and solidifies inside the cavidad del molde.

Traditionally, gates required manual trimming post-ejection, adding a secondary operation to the manufacturing process. However, in modern injection molding, the advent of self-degating molds has revolutionized this landscape.

These innovative molds offer an automatic and seamless solution, eliminating the need for additional demolding processes. For a clearer idea, let’s go ahead and explore the self-gate cutting principle, precision gates, and essential considerations for successful implementation, empowering you with the knowledge to optimize your injection molding endeavors.

Sufficient Mold Opening Stroke

The self-degating process relies on the sequential opening of two parting lines within the molde de inyección. This unique approach allows for the automatic separation of the gate from the molded part. To execute this sequence seamlessly, it is imperative to have a mold with a sufficiently large opening stroke.

Machine Design Implications

Notably, some máquina de moldeo por inyección designs may overlook this essential requirement. The opening stroke of the mold must be carefully considered and aligned with the self-gate-cutting process.

Mold Installation Height

Additionally, the mold’s installation height becomes a crucial factor, particularly when dealing with deep parts. To accommodate the drive mechanism necessary for the two-step opening process, there must be ample space within the mold’s vertical dimensions.

Ensuring that your mold possesses the necessary opening stroke and installation height is pivotal for the successful execution of self-gate removal in injection molding. These considerations help streamline the process, allowing for automated gate removal y efficient part separation.

Understanding the Self-Degating Principle

To grasp the concept of self-demolding in injection molding, it’s essential to delve into the intricacies of the self-gate removal principle. This ingenious approach relies on the configuration of two distinct parting lines within the mold, each playing a crucial role in the overall process.

Parting Line 1: Initiating the Flow

The first phase of self-gate trimming is initiating the flow for removing the gate from the mold in parting line 1. For this, you need to consider the following steps:

  • Melt Distribution: The journey begins as the molten plastic, ready to take shape as your desired part, flows through the central runner.
  • Navigating the Runner System: Continuing its path, the melt courses through the runner system, a network of channels designed to deliver the molten plastic precisely where it’s needed.
  • Rising to the Occasion: The runner system guides the melt to a riser located in the intermediate plate, a pivotal component in this process.
  • Gateway to Formation: At the end of this intermediate plate, a gate awaits—the gateway to the cavity where your intended part will be molded.

Parting Line 2: The Grand Unveiling

After initiating the flow in parting line 1, you need to follow the steps in the mold’s parting line 2:

  • Molded Part Placement: Simultaneously, on the second parting line of the mold, your part-to-be rests in anticipation.
  • Unveiling the Runner: As the mold begins its meticulously orchestrated opening movement, it is Parting Line 1 containing the runner system that takes the lead.
  • Gate Separation: The primary purpose of this initial separation is to discreetly disconnect the gate situated in the middle plate from the awaiting molded part.
  • Ejection Essentials: To ensure a seamless transition, proper measures must be in place, guaranteeing the timely ejection of the runner system and runner as Parting Line 1 gracefully opens.

Advantages of Precision Gates

Precision gates offer a plethora of advantages that significantly enhance their effectiveness within self-gate trimming on molds. Let’s delve into these advantages in more detail:

Enhanced Fillability for Thin Walls

Precision gates shine when it comes to enhancing fillability, particularly in parts with delicate, thin walls. Their meticulously designed structure ensures the efficient and precise flow of molten plastic into these intricate sections.

As a result, the mold achieves complete cavity fill, leaving no room for unfilled gaps. This meticulous process guarantees uniform part formation, free from any imperfections or inconsistencies.

Reduced Risk of Sink Marks

In applications involving thick-walled parts, precision gates prove their worth by substantially reducing the risk of marcas de hundimiento. Sink marks are a common concern in injection molding, often resulting from uneven cooling that causes depressions or imperfections on the part’s surface.

Precision gates come to the rescue by maintaining a consistent distribution of molten material throughout the cavity. This meticulous control ensures that each section of the part cools uniformly, effectively minimizing the occurrence of sink marks.

Efficient Filling Under Pressure

Precision gates excel under challenging conditions, including scenarios with high-pressure drops. These gates are designed to help the melted plastic flow smoothly into the mold space, even if the pressure of injection molding inside the system changes.

Consequently, the injection molding process proceeds with remarkable efficiency and consistency. Precision gates demonstrate their prowess by accommodating variations in pressure dynamics while ensuring that each part is formed to perfection.

Localized Steel Heating

A distinguishing feature of precision gates is their unique ability to induce localized heating of the steel surrounding the gate. This controlled heating mechanism prevents premature solidification of the plastic within the gate area.

By maintaining the melt in a fluid state for an extended period, the gate facilitates continuous flow. This not only promotes optimal part formation but also compensates for shrinkage and freezing. The result is a flawlessly molded part that exhibits minimal defects and consistently meets quality standards.

3 Key Considerations to Avoid Degating

While precision gates offer numerous advantages, their successful integration into the injection molding process can help exclude the need for degating in a mold. For this, you need to pay careful attention to specific considerations, including:

1. Flow Channel Size

To prevent premature solidification of the molten plastic, it is essential to provide sufficiently large flow channels within the mold. These channels allow the melt to continue flowing smoothly, ensuring that it reaches the cavity without obstruction.

2. Injection Pressure

Consistent injection pressure is a critical factor for the effective operation of precision gates. Hydraulically driven machines typically excel in maintaining the required pressure levels from the beginning of injection, ensuring optimal gate performance.

3. Injection Speed Limitations

In machines equipped with specific drive types, such as spindle and toggle drives in plunger machines, velocidad de inyección limitations may come into play. It is crucial to be aware of these limitations and make necessary adjustments to optimize flow resistance through the precision gate.

Elevación de industrias a través de la precisión en el mecanizado CNC y el moldeo por inyección

Degating vs. Deflashing vs. Cleaning vs. Decorating: The Importance of Mold Finishing Processes in Injection Molding

Injection molding is a fascinating process that allows us to create all sorts of plastic parts and products with precision and efficiency. But did you know that producing these plastic parts doesn’t stop with the molding itself? That’s right!

The final product often requires some additional attention in the form of mold finishing processes. Let’s take a closer look at these important steps in the world of injection molding.

Degating: Removing the Gates

Imagine the mold cavities where plastic is injected as doors with gates. These gates allow the melted plastic to flow in and create our parts. However, once the part is formed, we’re left with these gate remnants sticking out. These gate remnants need to go. And so, the process of getting rid of these gates is called degating.

Deflashing: A Clean Finish

So, you’ve removed the gates, but there’s more work to be done. Sometimes, there are still bits of excess material clinging to our parts. This can be due to the molding process itself or resin bleed. These imperfections can make our final product less than perfect. Deflashing is the step where we meticulously remove these remaining bits and pieces to achieve a clean finish.

Cleaning: Making It Spotless

Even after degating and deflashing, we might still find tiny remnants hanging onto the plastic’s surface. This stubborn residue needs to go! It’s important to clean thoroughly to make sure the surface is completely clean. It’s like giving your part a good scrub to make sure it’s pristine.

Decorating: Adding Some Flair

Functionality is crucial, but let’s not forget about the looks. Depending on where and how the part will be used, it might need a bit of sprucing up. This is where decorating comes into play. It could be as simple as adding a logo or a pattern or even creating a unique texture. Even when it’s all about aesthetics, decorating is essential to make the part look its absolute best.


In conclusion, mastering the art of self-degate in injection molding is a significant stride towards efficiency and precision in the manufacturing process. By understanding the principles behind self-gate cutting and the advantages of precision gates, manufacturers can streamline production, reduce post-molding operations, and enhance the overall quality of molded parts.

Remember that successful self-gate trimming hinges on adequate mold opening stroke, thoughtful consideration of machine limitations, and meticulous implementation of precision gates.

With these key factors in mind, you can elevate your injection molding processes to new levels of productivity and excellence, ultimately delivering exceptional plastic parts to meet diverse industry demands.

For professional guidance and expertise in injection mold manufacturing and prototyping, turn to Prototool. We ensure efficient degating through the advanced and professional practices mentioned above, ensuring precision manufacturing of injection molded parts.

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