Large butterfly latch lock with no spring M812
This butterfly latch lock is a large-sized butterfly lock without springs on both sides, commonly installed on heavy-duty boxes. It is frequently used in wooden or plastic boxes and is an indispensable component for boxes, often used in combination with handles.
Each part of the M812 latch is stamped from thick and high-quality cold-rolled steel, assembled with screws in the middle, making it very stable. The latch is designed to be strong and durable, ensuring that it can withstand the rigors of heavy use. Its large size makes it easy to manipulate, providing a secure and reliable locking mechanism for boxes.
Currently, this latch is available in two materials: iron and stainless steel 304. This gives users the flexibility to choose the material that best suits their specific needs and preferences. Additionally, the surface treatment can be selected from electroplated blue zinc or electroplated chromium, or surface spraying. These surface treatments not only enhance the appearance of the latch but also provide added protection against corrosion and wear.
In summary, this butterfly latch lock is a high-quality and versatile locking solution suitable for a wide range of applications. Its durability, ease of use, and customizable options make it a popular choice among box manufacturers and users alike.
The M812 latch is a large, sturdy butterfly latch that boasts the following features and benefits:
Robust and stable: Each part of the M812 latch is crafted from thick, high-quality cold-rolled steel, and assembled in the middle with screws, ensuring its robustness and stability.
Convenient to use: The M810 latch is reusable, and its glue-free pavement and demolition is easy and can be reused, providing convenience for users.
Strong decorative: The M812 latch is delicate and beautiful, and has a significant decorative effect when needed for exhibitions or temporary places.
These characteristics and advantages make the M810 latch a popular product suitable for various application scenarios.
