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Home Appliance Plastic Mould Manufacturers

We mainly produce electrical appliances and various air fryer molds, mainly made air fryer molds of sharknijia, xiaomi, PHILIPS, and other brands. Our air fryer molds have the following characteristics:
We use S136 and H13 high-end steel, which can make the service life of the mold longer. When the surface is treated with a mirror light, the texture is stronger. When CNC machining air fryer molds, we use German giant waves and Japanese Sodick and other brand models to make When CNC machining and polishing the air fryer mold, various high-end secret chemical reagents are added manually to corrode the surface of the mold. The dimensional tolerance of the air fryer mold is very precise, reaching an error accuracy of 0.01mm. The gap is very small, and the top three coordinates are used to detect various data; there are various models, including single and double doors, square and circular composite shapes, and there are many options for selection. In terms of steel and product material selection, both can achieve contact Food standards, high-end Taiwan Chi Mei ABS and PBT and other expensive plastic materials are used for injection molding. The production and sales volume of customers is relatively large, and the sales volume of products served by customers is leading in the world.
At the same time, the color of our products can be customized according to the needs of customers. The internal space of the product is relatively large and the appearance is beautiful. Our team has complete assembly and after-sales experience. Considering the later customer improvement or upgrade, it is convenient for subsequent modifications. Logo and other switching, some products have digital display touch light function, which is a very advanced design in the market

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// Yuyao City Yunpeng Plastic Mould Co., Ltd.

Who Are We

YUYAO YUNPENG PLASTIC MOLD CO.,LTD.
A famous China Home Appliance Plastic Mould manufacturers and Home Appliance Plastic Mould suppliers, with extensive experiences in the production of molds for power tool components and home appliances. We are conveniently located in Yuyao city of Zhejiang province, positioned 1 hour from Ningbo port, 1 hour from Hangzhou airport, and 2.5 hours from both Shanghai Hongqiao and Pudong airports. As a leading custom Home Appliance Plastic Mould factory, the foundation of our company is our experienced designers, engineers and technicians. We offer multiple options for all types of injection molds based on their expected production cycles and the warranties they carry. Vigorous quality standards, competitive prices, timely deliveries, and responsive post-sales services form the cornerstone of our business philosophy, which we follow closely in all our operations to ensure strong and confident relationships with our domestic and international clients.
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  • 10000

    Factory Area

  • 4000

    Daily Output

  • 600+

    Staff

  • 20+

    Creation Time

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  • What role does precision play in the production of Air Purifier injection Moulds?

    Precision plays a critical role in the production of air purifier injection molds due to the intricate and complex nature of the components involved. Here's how precision contributes to the manufacturing process:Mold Accuracy: Precision is essential in the design and machining of injection molds to ensure that the final components meet tight tolerances and specifications. Air purifier components often have intricate shapes and features that require precise molding to achieve the desired functionality and performance.Consistent Part Quality: Precision molding ensures consistent part quality across production runs. Tight tolerances and precise mold design and machining help minimize variations in part dimensions, surface finish, and other critical parameters, resulting in uniformity and reliability in the finished components.Optimized Airflow and Filtration: Air purifier components, such as filter housings and air channels, require precise molding to optimize airflow and filtration efficiency. Accurate mold design and machining ensure that air pathways are precisely shaped and aligned, maximizing air circulation and filtration effectiveness within the purifier system.Sealing and Leak Prevention: Precision molding is crucial for ensuring proper sealing and leak prevention in air purifier components. Tight-fitting seals and mating surfaces require precise mold design and machining to achieve a secure and leak-free assembly, minimizing the risk of air leaks and maintaining the purifier's efficiency.Durability and Longevity: Precision molding contributes to the durability and longevity of air purifier components by producing parts with consistent material properties and structural integrity. Well-designed molds with precise cooling and ejection systems help prevent defects and molding issues that could compromise component strength and reliability over time.Cost Efficiency: Precision molding helps optimize material usage and minimize waste, leading to cost-efficient production processes. By producing high-quality components with minimal scrap and rework, precision molding reduces manufacturing costs and improves overall production efficiency.Customization and Innovation: Precision molding enables the production of customized and innovative air purifier components tailored to specific design requirements and performance objectives. Advanced mold design and machining capabilities allow for complex geometries, intricate features, and advanced materials, empowering manufacturers to develop cutting-edge air purification solutions.In summary, precision in the production of air purifier injection molds is crucial for achieving consistent part quality, optimizing airflow and filtration, ensuring sealing and leak prevention, enhancing durability and longevity, promoting cost efficiency, and enabling customization and innovation in air purifier design and manufacturing. By prioritizing precision throughout the molding process, manufacturers can deliver high-performance air purification solutions that meet the needs of customers and markets effectively.

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  • How does the choice of molding process impact the efficiency of Air Purifier manufacturing?

    The choice of molding process can significantly impact the efficiency of air purifier manufacturing in various ways. Molding is a crucial step in creating the housing or casing for the air purifier, Air Purifier injection Mould and the method selected can influence factors such as production speed, cost, product quality, and design flexibility. Here are some ways in which the choice of molding process can impact efficiency:Production Speed:Injection Molding: This process is generally faster compared to other molding methods. It allows for high-volume production with shorter cycle times. Faster production speeds can lead to increased overall manufacturing efficiency.Cost Efficiency:Injection Molding: While the initial tooling and setup costs for injection molding can be relatively high, the per-unit cost decreases with higher production volumes. This makes injection molding cost-effective for large quantities.Material Utilization:Injection Molding: This process is known for its efficiency in material usage. It minimizes waste and ensures precise control over the amount of material injected into the mold, reducing material costs.Design Complexity and Flexibility:Injection Molding: It allows for the production of complex and intricate designs with a high degree of precision. This is beneficial for air purifier casings that may have specific design requirements.Material Selection:Different molding processes may have limitations on the types of materials they can effectively use. The choice of molding process may impact the ability to use specific materials suitable for air purifier components, such as those with anti-microbial properties or UV resistance.Tooling and Setup Time:Injection Molding: Although the initial tooling and setup can be time-consuming, once the mold is ready, the production process is relatively quick. This is advantageous for large-scale manufacturing.Consistency and Quality:Injection Molding: It provides a high level of consistency and repeatability. This is crucial for maintaining product quality in air purifiers, ensuring that each unit meets the required standards.Environmental Impact:Different molding processes may have varying environmental impacts. Manufacturers increasingly consider sustainability and environmental concerns, so the choice of molding process can impact the overall eco-friendliness of air purifier production.In summary, selecting the appropriate molding process for air purifier manufacturing is a critical decision that can impact efficiency, cost, quality, and design. Manufacturers need to weigh the specific requirements of their production process and the desired characteristics of the final product to make an informed choice.

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  • How can Air Purifier injection Mould technology contribute to improved air quality?

    Air Purifier injection Mould can contribute to improved air quality through various design and manufacturing features. Here are some ways in which air purifier injection mold technology can have a positive impact:Efficient Filtration System Design:Injection molding allows for intricate and precise designs, enabling the creation of complex filtration systems with multiple layers. This precision is crucial for optimizing the air purifier's filtration efficiency.Seamless Integration of Filters:Injection molding allows for the seamless integration of various filters, including HEPA filters, activated carbon filters, and pre-filters. This integration ensures airtight seals between different filter components, preventing air leakage and maximizing filtration effectiveness.Reduced Air Bypass:Air purifiers must prevent the bypass of unfiltered air. Injection molding enables the creation of air purifier housings with tight seals, reducing the likelihood of unfiltered air bypassing the filtration system.Customized Airflow Paths:The injection molding process allows for the creation of customized airflow paths within the purifier. This design flexibility helps optimize air circulation and ensures that all air passes through the filtration system, improving overall efficiency.Durable and Long-Lasting Components:Injection-molded components are known for their durability and resistance to wear. This is particularly important for air purifiers, as it ensures the longevity of the device and maintains its effectiveness over time.Sealed Electronic Components:Injection molding can be used to create sealed compartments for electronic components, protecting them from dust and contaminants. This helps maintain the functionality and reliability of the air purifier.Reduced Noise Levels:The design flexibility provided by injection molding allows for the creation of components that reduce noise levels during air purification. This contributes to a quieter and more user-friendly experience.Consistent Production Quality:Injection molding ensures consistent production quality, reducing variations in the manufacturing process. This consistency is crucial for maintaining the air purifier's performance and meeting specified filtration standards.Lightweight and Portable Design:Injection molding enables the creation of lightweight yet durable components. This is advantageous for portable or compact air purifiers, making them easy to move around and position in different areas for improved air quality.Cost-Effective Mass Production:Injection molding is a cost-effective method for mass production of components. This cost efficiency can contribute to making air purifiers more accessible to a broader range of consumers, promoting widespread use for better air quality.Ease of Maintenance:Components manufactured through injection molding can be designed for easy assembly and disassembly, facilitating maintenance and filter replacement. This encourages users to perform regular maintenance, ensuring continued effectiveness.By leveraging the advantages of injection molding technology, air purifiers can be designed and manufactured to meet high standards of performance, durability, and efficiency, ultimately contributing to improved air quality in various indoor environments.

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  • What are the key design considerations for optimizing Air Purifier injection Mould?

    Optimizing the design of Air Purifier injection Moulds is crucial for ensuring efficient and high-quality production. Here are some key design considerations:Airflow Design: How is the airflow within the Air Purifier optimized to ensure maximum exposure to the filtration system, and how does this impact the mold design?Material Selection: What materials are best suited for Air Purifier injection Moulds to ensure durability, resistance to environmental factors, and compatibility with filtration components?Sealing Mechanism: How is the sealing mechanism designed to prevent air leakage and ensure the effectiveness of the purification process?Part Integration: How are different components of the Air Purifier integrated into the injection mold design to streamline the manufacturing process and enhance product reliability?Cavity and Core Design: What considerations are taken into account for the cavity and core design to achieve the desired shape and functionality of the Air Purifier components?Precision and Tolerance: How are precision and tolerance levels maintained in the mold design to ensure the consistent production of high-quality Air Purifier parts?Ease of Demolding: What features are incorporated into the mold design to facilitate the demolding process and minimize the risk of damage to the Air Purifier components?Injection Point Placement: Where are the optimal injection points located within the mold to ensure even distribution of the molding material and prevent defects?Cooling System: How is the cooling system designed to control the temperature during the molding process and reduce cycle times?Mold Surface Finish: What surface finish is chosen for the mold to enhance the appearance of Air Purifier components and reduce the need for additional finishing processes?Tooling and Mold Construction: What considerations are made regarding tooling and overall mold construction to ensure longevity and cost-effectiveness in production?Reusability and Maintenance: How is the mold designed to allow for easy maintenance and potential reuse, minimizing downtime and costs associated with frequent replacements?Regulatory Compliance: What design features are implemented to ensure that the Air Purifier injection Mould complies with industry standards and regulatory requirements?Scalability: How is the mold design scalable to accommodate variations in production volume and demand for Air Purifier units?Waste Reduction: What design features are implemented to minimize material waste during the injection molding process for Air Purifier components?Addressing these considerations ensures that the Air Purifier injection Mould is optimized for efficient, reliable, and cost-effective manufacturing of high-performance air purification products.

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  • What challenges or common issues are associated with the injection molding process for air purifier components?

    Injection molding is a widely used manufacturing process for producing plastic components, including those used in Air Purifier injection Mould. While injection molding offers efficiency and precision, there are certain challenges and common issues associated with the process. Here are some challenges and issues specific to injection molding for air purifier components:1. Material Selection:Compatibility with Filtration Systems:Air purifiers often incorporate filtration systems that come into direct contact with the molded components. Selecting materials that are compatible with the filtration media and do not release harmful substances into the air is crucial.2. Design Complexity:Complex Geometries:Some air purifier components may have intricate or complex geometries that can pose challenges during the molding process. Designing molds for such intricate parts requires careful consideration to ensure proper filling and uniform cooling.3. Mold Design and Tooling:Uniform Cooling:Achieving uniform cooling is essential for preventing warping or distortion in the molded parts. Variations in cooling rates can lead to uneven shrinkage, affecting the dimensional accuracy of the components.Venting Issues:Inadequate venting can result in trapped air or gases during the molding process, leading to surface defects such as voids, burns, or short shots. Proper mold design with adequate venting is crucial for ensuring high-quality parts.4. Material Flow and Filling:Flow Length and Pressure:Parts with long flow lengths or complex shapes may experience variations in pressure and flow rates during injection. Balancing these factors is essential to avoid issues like flow lines, air traps, or incomplete filling.Weld Lines:Weld lines occur when molten plastic from different flow fronts meet but do not fully fuse, resulting in a visible line on the surface of the part. Careful consideration of part geometry and mold design can help minimize the occurrence of weld lines.5. Material Properties:Material Incompatibility:Some air purifier components may require materials with specific properties such as flame resistance, chemical resistance, or low outgassing. Ensuring that the selected material meets these requirements is critical for the functionality and safety of the air purifier.Overmolding Challenges:Overmolding, which involves molding one material over another, can present challenges related to material compatibility and adhesion between layers. Achieving a strong bond without compromising the integrity of the parts is crucial.6. Quality Control:Dimensional Accuracy:Maintaining tight tolerances and dimensional accuracy is essential for ensuring that air purifier components fit together properly and function as intended. Variations in the molding process can affect part dimensions.Surface Finish:The appearance and surface finish of air purifier components are important, especially for parts visible to users. Issues such as sink marks, flash, or surface imperfections may require additional processing steps or affect the aesthetic appeal.7. Environmental Considerations:Recyclability:As environmental concerns grow, selecting materials that are recyclable and environmentally friendly is becoming increasingly important. Balancing material performance with sustainability goals can be a challenge.8. Production Efficiency:Cycle Time Optimization:Achieving a balance between cycle time and production efficiency is crucial. Longer cycle times can impact throughput and increase costs, while overly short cycle times may lead to quality issues.Tooling Maintenance:Regular maintenance of molds is necessary to prevent issues such as wear, corrosion, or damage that can affect the quality and consistency of molded parts.Addressing these challenges requires collaboration between design engineers, material experts, and injection molding specialists. Conducting thorough material testing, mold flow analysis, and quality control measures can help mitigate potential issues and optimize the injection molding process for air purifier components.

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  • How does the precision and accuracy of an Air Purifier Injection Mould contribute to the overall performance of air purifier components?

    The precision and accuracy of the injection molding process for air purifier components can significantly impact the overall performance of the device. Injection molding is a manufacturing process used to produce parts by injecting molten material into a mold, which then cools and solidifies to form the final product. Here's how precision and accuracy in this process contribute to the performance of air purifier components:Component Fit and Sealing:Precision: The precision of injection molding ensures that components are manufactured with tight tolerances, allowing for precise fits and sealing. This is crucial in air purifiers to prevent air leakage and ensure that all air passing through the device is properly filtered.Accuracy: Accurate molding ensures that components maintain their intended shapes, minimizing the risk of gaps or misalignments that could compromise the seal.Airflow Efficiency:Precision: Precise molding contributes to the creation of components with consistent shapes and dimensions. In air purifiers, this is essential for optimizing airflow patterns, ensuring that air passes through the filters efficiently without creating turbulence or dead zones.Accuracy: Accurate molding helps maintain the designed contours of components, which is important for controlling and directing airflow within the device.Filter Performance:Precision: The precision of injection molding impacts the production of filter components. Filters need to be precisely molded to accommodate the filter media and ensure that there are no gaps or irregularities that could allow unfiltered air to bypass the filters.Accuracy: Accurate molding contributes to the uniformity of the filter structure, ensuring that the filter media is properly supported and positioned for optimal performance.Durability and Longevity:Precision: Precise molding helps create durable components with consistent material distribution, reducing weak points that could lead to premature failure.Accuracy: Accurate molding ensures that components are free from defects, contributing to the overall longevity of the air purifier.Cost Efficiency:Precision: Precise molding can reduce the need for post-production adjustments or corrections, contributing to cost efficiency in manufacturing.Accuracy: Accurate molding helps avoid defects that could lead to the rejection of components, minimizing waste and production costs.In summary, the precision and accuracy of the injection molding process play a critical role in ensuring the reliable performance, efficiency, and longevity of air purifier components. These factors contribute to the overall effectiveness of the air purifier in providing clean and filtered air.

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Industry Knowledge Extension

Several common home appliances are manufactured using plastic molds. Some examples include:
Refrigerators: Plastic molds are used to manufacture various components of refrigerators, such as door handles, vegetable crispers, shelves, and interior parts.
Washing Machines: Plastic molds are used to produce components like detergent drawers, control panels, door seals, and tubs for washing machines.
Dishwashers: Plastic molds are used to manufacture parts like spray arms, detergent dispensers, racks, and door panels for dishwashers.
Air Conditioners: Plastic molds are used to produce components like air conditioner grills, fan blades, control panels, and housing parts.
Microwave Ovens: Plastic molds are used to manufacture components such as control panels, door handles, turntable trays, and cavity interiors for microwave ovens.
Coffee Makers: Plastic molds are used to produce parts like water reservoirs, filter holders, carafes, and control panels for coffee makers.
Toasters: Plastic molds are used to manufacture components like casing, control panels, bread slots, and crumb trays for toasters.
Blenders: Plastic molds are used to produce parts such as blender jars, lids, blade assemblies, and control panels for blenders.
Vacuum Cleaners: Plastic molds are used to manufacture components like housing parts, brush heads, dust containers, and attachments for vacuum cleaners.
Irons: Plastic molds are used to produce parts like iron casings, handles, water tanks, and temperature control knobs for irons.
These are just a few examples, and plastic molds are widely used in the manufacturing of various other home appliances as well. The specific components and parts manufactured using plastic molds may vary depending on the appliance type and brand.

Several different types of plastic materials are commonly used in home appliance molds, depending on the specific requirements of the application. Here are some examples:
ABS (Acrylonitrile Butadiene Styrene): ABS is a versatile thermoplastic known for its impact resistance, rigidity, and good dimensional stability. It is commonly used in home appliances like refrigerators, washing machines, and air conditioners.
PP (Polypropylene): PP is a lightweight, durable, and chemically resistant material. It is often used in home appliances such as dishwashers, microwave ovens, and coffee makers. PP is known for its high melting point and excellent electrical insulation properties.
PC (Polycarbonate): PC is a transparent thermoplastic with high impact strength and heat resistance. It is commonly used in home appliances where transparency is desired, such as blender jars, control panels, and microwave oven doors.
PVC (Polyvinyl Chloride): PVC is a versatile plastic known for its chemical resistance and flame-retardant properties. It is used in various home appliances, including vacuum cleaners, irons, and water-resistant electrical components.
PA (Polyamide/Nylon): PA is a strong and tough thermoplastic material with good heat resistance. It is commonly used in home appliances for components that require high strength and durability, such as gears, handles, and structural parts.
PET (Polyethylene Terephthalate): PET is a transparent and lightweight plastic often used for packaging purposes, such as plastic bottles. In home appliances, PET may be used for components like water reservoirs and beverage containers in appliances like coffee makers and blenders.
PBT (Polybutylene Terephthalate): PBT is a thermoplastic with good mechanical properties and electrical insulation. It is commonly used in home appliances for components that require dimensional stability and resistance to heat and chemicals.
These are just a few examples of plastic materials commonly used in home appliance molds. The material selection depends on factors such as desired properties, functional requirements, aesthetics, regulatory compliance, and cost considerations. Different grades and formulations of these materials may be utilized based on specific application needs.

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