Product Description
Product Description
OEM Custom Injection Molded Plastic Parts
Being an established organization, we have brought CHINAMFG Plastic Moulded Parts for our esteemed customers. Manufactured using qualitative plastic material, these products are known for their durable finish and resistance to corrosion. We offer these components & parts at reasonable rates with the promised specifications. Plastic Moulded Parts Injection Components
Features:
– Durable
– Corrosion resistant
– Dimensionally accurate
A great numbers of materials are available for customer’s flexible choice, such as PP, PE, Nylon, PC, ABS, PS, Acrylic, PET, POM, TPR, TPU, PVC, or even eco-friendly materials.
We have professional engineering team to review and work on mold-flow analysis to foresee potential issues, such as knit lines, warpage, sink, mold structure, etc., This strength benefits customers to review from different perspectives and modify his design before officially cutting a tool.
An injection mold is a tool comprised of a series of parts that allows molten plastic to be formed and cooled in such a way as to create a discrete part shape.
In order to quote for you earlier, please provide us the details together with your inquiry.
1. 3D drawings (STEP, CAD, CHINAMFG Works, PROE, DXF and PDF)
2. Material requirement (include contact material and insulation material.)
3. Surface treatment
4. Quantity or Consumption (per order/ per month/ annual)
5. Any special demands or requirements, such as packing, labels, delivery, etc.
Company Profile
FAQ
1. Q: What is your main product range?
A: CHINAMFG is professional in designing, developing and manufacturing rubber products. For example, o rings, oil seals, piston and rod seals, rubber shock absorbers and custom rubber products.
2. Q: What kinds of rubber materials are available?
A: NBR, FKM, VMQ, EPDM, CR, SR, PU… other rubber compounds can be with your request.
3. Q: What shall be provided before a offer?
A: The materials and dimensions are needed before a offer. If the product is nonstandard, the drawing or sample shall be
provided.
4. Q: What’s your payment terms and delivery date?
A: T/T, L/C, Western Union, Paypal,etc. Normally, delivery date is 7-25days according to the order.
5. Q: Which shipping method will be used for a delivery?
A: DHL, FedEx, TNT, UPS, EMS … By seal or by air are also available.
6. Q: How to packing the goods?
A: All goods will be well packed into pp bags and outer cartons. Special packing can be available with customers’ request.
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| Material: | ABS/PP/PA/PE/PTFE/PC/POM/PA66/PU |
|---|---|
| Application: | Medical, Household, Electronics, Automotive, Agricultural |
| Certification: | RoHS, ISO, SGS, Reach |
| Service: | OEM/ODM Available |
| Drawing: | Step, Igs, Pdf |
| Tolerance: | +/-0.05mm |
| Samples: |
US$ 1/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
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|---|
How do power locks differ from traditional mechanical locks in terms of operation?
Power locks and traditional mechanical locks differ significantly in terms of their operation and functionality. While both types of locks serve the purpose of securing components or objects together, they employ different mechanisms and methods of operation. Here’s a detailed comparison of power locks and traditional mechanical locks:
- Mechanism: Traditional mechanical locks rely on physical mechanisms such as keys, tumblers, pins, or levers to engage or disengage the locking mechanism. They typically involve manual operation, requiring the use of a physical key or manipulating the lock components directly. In contrast, power locks utilize mechanical, hydraulic, pneumatic, or electric actuators to generate the force or motion needed to engage or disengage the locking mechanism. Power locks can be manually operated, remotely controlled, or integrated into automated systems.
- Force and Speed: Traditional mechanical locks require manual force to operate. The user must physically turn the key, move the bolt, or manipulate the lock components to engage or disengage the lock. This manual operation limits the force and speed at which the lock can be operated. Power locks, on the other hand, can generate significantly higher forces and operate at faster speeds. They can be actuated using hydraulic or pneumatic pressure, electrical power, or mechanical force amplification, allowing for rapid and reliable locking or unlocking.
- Locking Mechanism: Traditional mechanical locks typically employ mechanisms such as pins, tumblers, or levers that physically obstruct the movement of the lock or latch. When the correct key or combination is applied, the lock components align, allowing the bolt or latch to be moved and securing the lock. Power locks, on the other hand, often use different types of locking elements such as bolts, wedges, cams, or clamps. The locking elements in power locks are designed to engage with corresponding features or surfaces on the components being locked, creating a secure mechanical connection.
- Flexibility and Adjustability: Traditional mechanical locks usually have fixed configurations and limited adjustability. They are manufactured with specific dimensions and designs to fit particular applications. Adjustments or modifications to traditional locks often require physical alterations or replacement of the lock components. In contrast, power locks offer greater flexibility and adjustability. They can be designed with adjustable locking positions or variable locking forces, allowing for customization to meet specific application requirements.
- Integration and Control: Power locks are well-suited for integration into larger systems and can be controlled remotely or automated. They can be integrated with electrical, hydraulic, or pneumatic control systems, allowing for centralized operation, monitoring, and synchronization with other processes or machinery. Traditional mechanical locks, on the other hand, are typically standalone devices that require manual operation. They may not have built-in compatibility with advanced control systems or automation.
- Complexity and Maintenance: Power locks tend to be more complex in design and operation compared to traditional mechanical locks. They may require additional components, such as actuators, sensors, or control systems, which can increase the overall complexity. This complexity may require more specialized maintenance and troubleshooting. Traditional mechanical locks, being simpler in design, are often easier to maintain and repair, with fewer components and simpler mechanisms.
In summary, power locks differ from traditional mechanical locks in terms of their mechanism, force and speed of operation, locking mechanism design, flexibility and adjustability, integration and control capabilities, as well as complexity and maintenance requirements. Power locks offer enhanced functionality, adaptability, and control options, making them suitable for a wide range of applications where higher forces, rapid operation, remote control, or automation are desired.
editor by CX 2024-03-29