Double Injection mold base, or Two-color mold base, or Bi-color mold base. In the dual color injection molding process, this type of mold is designed to sequentially or simultaneously inject two different colored plastic materials into a single mold, thereby producing plastic products with dual or multi-color appearances.

Characteristic

1. Multi cavity design: usually with two or more injection cavities for simultaneous or continuous injection of plastic of different colors or materials. Usually composed of multiple layers of structure. Each layer has different materials or colors, and through the combination of mold bases and injection molding process, the multi color or multi material effect of the product can be achieved. The multi-layer structure enables the dual color non-standard mold base to have a wider range of applications, which can meet the color and material requirements of different products.

2. Complex structure: Due to the need to handle injection molding and bonding of two materials, the structure of the mold base is relatively complex, including rotating mechanisms, sliders, ejection systems, etc. Some parts of the double injection non-standard mold base may have adjustable structures. By adjusting the position or parameters of these parts, fine-tuning of product size, shape, and color can be achieved. The adjustable structure increases the flexibility and adaptability of the mold base, which can meet the personalized needs of different customers.

3. High precision requirements: In order to ensure the appearance quality and dimensional accuracy of dual color products, the manufacturing and installation of the mold base need to meet high precision standards. The double injection non-standard mold base emphasizes precision fit in structural design. The various components of the mold base need to be precisely matched to ensure the stability and accuracy of the mold during use. Precision fitting can reduce friction and wear of the mold during use, improve the service life and manufacturing accuracy of the mold.

Application of mould base

1. Consumer goods: such as phone cases, electronic product accessories, toys, etc., which usually require attractive appearance and feel.

2. Automotive components: Automotive interiors, buttons, switches, etc., two-color injection molding can provide better visual effects and tactile experience.

3. Medical devices: Some medical devices and components also use two-color injection molding technology to improve product recognition and usage safety.

Points for attention

When designing and manufacturing a "Double Injection mold base", special attention should be paid to the following points:

1. Material selection: The two injection molding materials need to have good compatibility and bonding to ensure smooth flow during the injection molding process and the final quality of the product. And it is usually made of high-strength materials to ensure the stability and durability of the mold during use. High strength materials can withstand greater pressure and stress, while also possessing good wear and corrosion resistance. This makes the two-color non-standard mold base suitable for various complex production environments and process requirements

2. Temperature control: During the double color injection molding process, it is necessary to accurately control the temperature of the mold and injection molding machine to ensure the injection quality of different materials.

3. Mold maintenance: Due to its complex structure, the maintenance and upkeep of molds need to be more meticulous and frequent to ensure their long-term performance and stability.

In summary, the "Double Injection Mold Base" is a key component in the double injection molding process, and its design and manufacturing have a significant impact on the final quality and appearance of the product. In practical applications, it is necessary to choose the appropriate mold structure and injection molding process based on specific product requirements and production conditions.

Ordering mold bases separately and considering them separately can bring multiple benefits, mainly reflected in the following aspects:

Cost effectiveness

1. Cost control: Ordering mold bases separately allows manufacturers to select the most suitable mold base materials and specifications based on specific needs, thereby optimizing costs. For example, for specific types of molds, the highest strength mold base may not be required, so lower cost materials or designs can be chosen.

2. Avoid over-investment: In some cases, molds may need to be replaced or adjusted frequently, while mold bases may be relatively stable. Ordering the mold base separately can avoid replacing the entire mold base at the same time during mold replacement, thereby saving costs.

Flexibility and customizability

1. Enhance flexibility: Ordering mold bases separately can provide higher flexibility, and manufacturers can quickly replace or adjust mold bases according to different mold needs to adapt to different production scenarios and product requirements.

2. Strong customizability: The mold base can be customized according to the specific structure and size of the mold, ensuring a perfect match between the mold and the mold base, improving production efficiency and product quality.

Improve production efficiency

1. Simplify mold design: Using standard mold bases can simplify the mold design process, reduce design time and costs. Because the standard mold base has been validated and optimized, it can ensure compatibility with various molds.

2. Shorten manufacturing cycle: Ordering mold bases separately can accelerate the mold manufacturing process. As the mold base is pre manufactured, manufacturers can assemble and debug the mold faster, thereby shortening the production cycle.

Ensure product quality

1. Improve mold stability: The mold base provides stable support and positioning for the mold, ensuring its stability and accuracy during the processing. Ordering the mold base separately can ensure that the quality and performance of the mold base meet high standard requirements, thereby improving the stability and service life of the mold.

2. Easy to repair and replace: When the mold malfunctions or needs maintenance, a separately ordered mold base can be easily replaced or repaired, reducing interference and impact on the production process.

Other advantages

1. Space saving: Some mold bases are designed to be compact and stackable for storage, and ordering mold bases separately can help make more efficient use of storage space.

2. Environmental protection and energy conservation: By optimizing the design of the mold base and material selection, the goals of energy conservation, emission reduction, and environmental impact reduction can be achieved.

In summary, separately ordering mold bases and molds has significant cost-effectiveness, flexibility and customizability, improved production efficiency, guaranteed product quality, and other advantages. These advantages help manufacturers improve their competitiveness and meet constantly changing market demands.

When designing the mold base, it is necessary to pay attention to multiple aspects to ensure that the structural strength, accuracy, maintainability, and safety of the mold base can meet the requirements. Here are some key design considerations:

1、 Structural Strength and Material Selection

Structural strength: The mold base should be able to withstand loads under various working conditions, including self weight, operational loads, etc. Its structural strength must meet relevant standards and specifications to ensure the stability and reliability of the mold during use.

Material selection: The material of the mold base should have sufficient strength and rigidity to withstand corrosion, wear, and impact in the working environment. The commonly used materials include steel, iron, aluminum alloy, etc., and the specific selection needs to be determined according to the usage conditions and requirements of the mold. Common mold steels include S50C, P20, S136H, 718H, XPM, 4Cr13H, etc

2、 Dimensions and Geometric Accuracy

Dimensional accuracy: The dimensions and geometric accuracy of the mold base should meet the design requirements to ensure the assembly accuracy and working performance of the mold components. This includes the overall dimensions of the mold base, the relative positional accuracy of each component, and the surface roughness of the machined surface.

Standardization: Mold base design should use standardized and serialized components as much as possible to facilitate manufacturing, assembly, and maintenance.

3、 Mold installation and commissioning

Installation convenience: The mold base should be designed with a convenient and fast installation and debugging method, so that the mold can be quickly adjusted and adapted to work requirements. This includes reasonable installation interfaces, positioning devices, and debugging mechanisms.

Debugging space: When designing the mold base, the space and tools required for mold debugging should be considered to ensure smooth debugging work.

4、 Mold stability and protection

Stability: The mold base should have a stable structure to ensure the stability and reliability of the mold during operation. This includes reasonable support structures, fastening devices, and limit mechanisms.

Protective measures: The mold base should have necessary protective measures, such as earthquake resistance, corrosion resistance, wear resistance, etc., to extend the service life of the mold. At the same time, the convenience of maintenance and upkeep of the mold should also be considered.

5、 Attachments and Detail Design

Attachment design: The mold base design should consider various accessories required for the mold, such as guide devices, ejector devices, cooling systems, etc., and ensure their good operating condition and reliability.

Detail handling: In the design of the mold base, attention should also be paid to some details, such as the selection and arrangement of cooling water nozzles, the fixing and identification of nameplates, and the convenience of mold lifting and transportation.

6、 Security

Safety regulations: The design of the mold base should comply with relevant safety regulations and take appropriate measures to ensure the personal safety of the operator. This includes setting up safety protection devices, avoiding sharp edges and protrusions, etc.

Emergency measures: In the design of the mold base, possible emergency situations should also be considered, and corresponding emergency measures and rescue plans should be formulated.

In summary, during the design phase of the mold base, attention should be paid to multiple aspects such as structural strength, material selection, size and geometric accuracy, mold installation and debugging, mold stability and protection, accessory and detail design, and safety. By considering these factors comprehensively, a mold base that meets the requirements can be designed, providing strong support for the production and use of molds.

Mold bases and molds play different roles in industrial production, and there are obvious differences between them, which many customers may confuse. The following is a detailed explanation of the differences between the mold and mold base:

Definition and Function

Mold base: The mold base is the supporting structure of the mold, used to fix and support the various components of the mold, ensuring the stability and accuracy of the mold during operation. The mold base usually consists of a base, columns, beams, and other parts, and can be equipped with auxiliary devices such as guiding devices and ejector devices as needed. The main function of the mold base is to provide support and fixation, which is the foundation for the normal operation of the mold.

Mold: A mold is a fixture used for manufacturing products in processes such as molding, processing, and stamping. According to different process requirements, molds can be divided into various types such as stamping molds, plastic molds, casting molds, etc. The main function of a mold is to process and shape raw materials according to the shape and size requirements of the product. Molds are usually composed of multiple parts and components, such as upper mold, lower mold, mold core, as well as some auxiliary devices and accessories.

Structural characteristics

Mold base: The design of the mold base mainly focuses on stability and support to ensure that the mold can work accurately and stably.

Mold: The structure of the mold is more complex, containing multiple precision parts and components. The design of molds needs to fully consider factors such as product shape, size, precision requirements, and production processes to ensure the production of products that meet the requirements.

Scope of use

Mold base: Mold bases are usually used in automated production lines for large-scale production. As most automated production lines require continuous high-speed operation, more robust and durable mold bases are needed to ensure the normal operation of the molds.

Mold: The use of molds is very extensive, involving almost all fields that require mass production. Whether in the fields of automotive, electronics, healthcare, or aviation, molds are needed to manufacture various components and products.

Interrelation

Mold bases and molds are inseparable in industrial production. The mold base provides support and fixation for the mold, ensuring that the mold can work stably and accurately; The mold directly participates in the processing and forming process of the product, processing raw materials into the desired shape and size of the product. The two work together to achieve the manufacturing and processing of products.