Product Description
Plastic bucket, lifting hopper, grain lifting bucket (special accessories for grain elevator)-is a kind of bucket used for grain lifting and special material lifting. The lifting bucket models are: SB1109, SB1311, SB1612, SB1812, SB2314, SB2814, SB3518 and other models, special ones can also be customized within a certain range. The corresponding bucket belt widths matched by the lifting bucket are: 100mm, 125mm, 150mm, 180mm, 200mm, 250mm, 300mm, 400mm, etc.
HangZhou Yida industry and Trade Co., Ltd. is a professional manufacturer of injection molding plastic products and moulds
processing. Founded in 1999,The products range covers Construction, Home Appliances, Foods, Machinery, Vehicles & Accessories, Daily Consumer Goods, Sports & Fitness, Electronic Components & Accessories, Tools, Fishery, Packaging & Printing etc.
Rapid tooling
Fast and cost-effective process to create aluminum or steel injection molds for quick turn injection molding. Ideal for rapid prototyping needs or validating product concept for production.
Overmolding
Overmolding is a unique injection molding process that combines 2 or more components together. It is the best practice for the plastic manufacturing of multi-color and multi-layers products.
Insert molding
Insert molding is a custom injection molding process that encapsulates components in a plastic part. It is most commonly used for
prototype injection molding designs with threads and holes.
Liquid Silicone Rubber injection molding
Liquid silicone rubber (LSR) is a flexible prototype injection molding process that produces elastic, durable parts. Get custom
prototypes and production parts from 15 days.
Mould Design Process
Step 1: Analyze the product drawings
Step 2:Create the Design for Manufacturability (DFM) report
Step 3: Make the mould flow analysis
Step 4: Design tooling drawings
Step 5: Mould making
Once the mould making is finished, we’ll make several pieces of pre-production samples for test, if the dimensions are correct,then we will send the samples to customers for final confirmation. If the test failed, we will modify the mould or adjust the molding parameter to make new samples, and test it again. Once the samples are approval by customers, we will purchase the raw material and making quality inspection. Then mixing material, molding and trimming, we will make many times of inspection during the production. Finally we will arrange the assembly and packing. After whole order is ready, we will send the packing list to customer to arrange the shipment.
Mold Material | S45C, S50C, P20, 718H, 738H, NAK80, S136, S136H |
Mold Life Time | 300K times |
Product Material | ABS+PC, PP, PC, ABS, PA, HIPS, PVC, PE, PS, POM, Acrylic, |
Surface | Smooth, glossy, textured, matte |
Size |
1) According to customers’ drawings 2) According to customers’ samples |
Drawing Format | step, dwg, igs, pdf |
Process | Injection Plastic Modling |
Payment Term | T/T, L/C, Trade Assurance |
Place of Origin | China |
Color | Customized |
FAQ
Q1:Where can I get product&price information?
A1:Send us e-mail , we will contact you as we receive your mail.
Q2: How soon can I get samples?
A2: Depending on your specific project, it usually takes 10 to 20 days.
Q3:How to enjoy the OEM services?
A3:Usually, base on your design drawings or original samples, we give some technical proposals and a quotation to you, after your agreement, we produce for you.
Q4:Can you make machining parts based on our samples?
A4:Yes, we can make measurement based on your samples to make drawings for machining parts making.
Q5: Is it possible to know how are my products going on without visiting your company?
A5: We will offer a detailed production schedule and send weekly reports with digital pictures and videos which show the machining progress.
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Mold Material: | S45c, S50c, P20, 718h, 738h, Nak80, S136, S136h |
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Mold Life Time: | 300K Times |
Product Material: | ABS+PC, PP, PC, ABS, PA, HIPS, PVC, PE, PS, POM |
Surface: | Smooth, Glossy, Textured, Matte |
Size: | 1) According to Customers′ Drawings 2) According T |
Drawing Format: | Step, Dwg, Igs, Pdf |
Samples: |
US$ 10/Piece
1 Piece(Min.Order) | |
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Customization: |
Available
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What is a power lock, and how does it work in locking mechanisms?
A power lock is a type of locking mechanism used in various applications to securely hold or lock components together. It provides a reliable and robust means of preventing unintended movement or separation of parts. Power locks are commonly employed in industrial machinery, automotive systems, aerospace equipment, and other mechanical systems where strong and reliable locking is required. Here’s an overview of how power locks work:
- Principle of Operation: Power locks typically utilize mechanical or hydraulic principles to generate locking force and secure the components. The specific design and mechanism may vary depending on the application and requirements. In general, a power lock consists of two main components: a locking element and an actuation mechanism. The locking element is the part that engages with another component to create the locking effect, while the actuation mechanism is responsible for generating the force or motion needed to engage or disengage the lock.
- Locking Element: The locking element of a power lock is designed to engage with a corresponding feature or surface on the components to be locked. It may take the form of a bolt, pin, wedge, cam, or other locking configurations. The locking element is usually made of sturdy and durable materials such as steel or alloys to provide the necessary strength and reliability.
- Actuation Mechanism: The actuation mechanism of a power lock is responsible for generating the force or motion required to engage or disengage the locking element. Depending on the design, the actuation mechanism can be mechanical, hydraulic, pneumatic, or even electric. Common types of actuation mechanisms include levers, gears, hydraulic cylinders, solenoids, or combinations thereof. The actuation mechanism may be manually operated, remotely controlled, or integrated into the overall system’s automation.
- Engagement and Disengagement: To engage the power lock, the locking element is brought into contact with the corresponding feature or surface on the components to be locked. The actuation mechanism then applies the necessary force or motion to firmly secure the locking element in place. This engagement creates a strong mechanical connection between the components, preventing unintended movement or separation. To disengage the lock, the actuation mechanism reverses the force or motion, allowing the locking element to release its grip and enabling the components to move or separate as needed.
- Strength and Reliability: Power locks are designed to provide high strength and reliability to withstand the forces and loads encountered in the application. The materials used in their construction are chosen for their durability and resistance to wear, corrosion, or deformation. Precision engineering and manufacturing techniques are employed to ensure tight tolerances, smooth operation, and consistent locking performance over time.
- Application-Specific Variations: The design and implementation of power locks can vary depending on the specific application requirements. Some power locks may incorporate additional safety features such as locking indicators, position sensors, or fail-safe mechanisms to enhance their functionality and reliability. The size, shape, and configuration of power locks can also be tailored to fit the space constraints and integration needs of the application.
Power locks provide a robust and dependable solution for locking mechanisms, ensuring secure connections and preventing unintended movement or separation of components. Their versatile design and application-specific variations make them suitable for a wide range of industries and mechanical systems.
editor by CX 2024-01-05