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About Project

This precision-engineered brass connector adaptor is ideal for garden water guns and other watering systems. Machined using high-quality CNC turning processes, this adaptor ensures a secure and leak-free connection.

Key Features

• Durable Brass Construction: Made from solid brass for corrosion resistance and long-lasting performance in outdoor environments.
• Precision CNC Machining: Ensures accurate threading and dimensions for a tight and reliable fit.
• Versatile Application: Suitable for connecting various components in garden watering systems, such as water guns, hoses, and nozzles.
• Easy Installation: Designed for simple and quick attachment.

This adaptor is a reliable solution for your gardening needs, providing a durable and secure connection for efficient watering.

Looking for custom metal parts with tight tolerances and high quality? FacFox offers professional CNC machining services for a wide range of materials, including brass. From prototypes to mass production, our experienced team and advanced equipment ensure precision and efficiency for your projects. Contact us today for a quote!

Solution

• Step 1: Raw material, typically brass stock in the form of bars or rods, was selected based on the required specifications for the connector adaptor.
• Step 2: The brass stock was fed into a CNC lathe, a computer-controlled machine tool.
• Step 3: The outer diameter and initial shape of the connector were rough turned by various cutting tools according to the pre-programmed instructions.
• Step 4: The internal bore of the connector, including any specific diameters or tapers, was drilled and then bored to the precise dimensions.
• Step 5: The external threads for connecting to other components were cut onto one end of the connector using specialized threading tools.
• Step 6: Any other external features, such as grooves or shoulders, were machined into the part as per the design.
• Step 7: The internal threads, if required on the other end of the connector, were tapped using a threading tool.
• Step 8: The finished part was cut off from the remaining bar stock by a parting tool.
• Step 9: The machined connector was deburred to remove any sharp edges or burrs resulting from the cutting process.
• Step 10: The connector was cleaned to remove any machining fluids or debris.
• Step 11: A final inspection was performed to ensure that the dimensions and quality met the required standards.
• Step 12: The finished CNC turned brass connector adaptor was packaged for distribution.