Product Description
| main product | Plastic injection parts can be custom made in a variety of shapes, colors, and sizes. Injection molded parts are produced from many different plastic materials |
| mould base | LKM,HASCO,etc |
| Mould Material | s136/2344/718/738/NAK80/p20 etc. |
| Moud Precision | +/-0.01mm |
| Mould Life | 100k-5000K shots (depend on your requirement) |
| Mould Cavity | Single cavity or multi-cavity |
| Runner System | Hot runner or cold runner |
| Gate Type | Pinpoint Gate, Edge Gate, Sub Gate, Film Gate, Valve Gate, Open Gate, etc. |
| Equipment | High speed CNC, Standard CNC, EDM, Wire Cutting, WEDM, Grinder, Plastic Injection Molding Machine from 50-818T available. |
| Plastic Material | PA6,PA66, ASA, POM, PPS, ABS,ABS+GF,ABS+PC,POM,PP, PE,PC,PMMA(Acrylic),TPE,TPU,PEI,PBT,PTFI |
| Metal Material | pre-harden steel, heat treatment steel |
| Surface Treatment | Polishing/smooth,texture/frosted, painting, plating, printing , etc. |
| Pls Provide | 2D/3D drawing, samples |
| Quanlity System | ISO 9001: 2015 |
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| Warranty: | 1 Years |
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| Shaping Mode: | Injection Mould |
| Surface Finish Process: | Polishing, Sand Blasting, Heat Treatment |
| Mould Cavity: | Single Cavity and Multi Cavity Available |
| Plastic Material: | as Requirement |
| Process Combination Type: | Single-Process Mode |
| 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 Dream 2024-04-19
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