The T Nut provides a secure fastening point for bolts or screws, ensuring that components are held together firmly.
| Drop-in design | The nut's design allows it to be easily dropped into a pre-drilled hole, simplifying the installation process. |
The T Nut provides a secure fastening point for bolts or screws, ensuring that components are held together firmly.
| Drop-in design | The nut's design allows it to be easily dropped into a pre-drilled hole, simplifying the installation process. |
The M4 thread size enables a secure connection between the T Nut and a compatible bolt or screw.
Key Features
| The Hammer Drop-In T Nut (M4106 T) boasts the following key features |
M4, with a pitch of 0.7mm
10mm
6mm
High-strength steel or stainless steel (dependent on the manufacturer)
Zinc-plated or nickel-plated (dependent on the manufacturer)
10 pieces per pack
The drop-in design enables quick and effortless installation
The T Nut provides a secure fastening point, ensuring that components are held together reliably
Suitable for use in a wide range of IoT applications, including robotics, automation, and mechanical systems
Applications
| The Hammer Drop-In T Nut (M4106 T) is suitable for use in various IoT applications, including |
Robotics and mechanical systems
Automation and industrial control systems
IoT prototyping and development
DIY projects and maker initiatives
Any application requiring a secure and efficient fastening solution
Technical Specifications
ISO 7380
Dependent on the manufacturer, but typically ranges from 500 MPa to 1000 MPa
Dependent on the finish, but typically provides resistance to corrosion in normal environmental conditions
Conclusion
The Hammer Drop-In T Nut (M4106 T) is a reliable and efficient fastening component suitable for use in a wide range of IoT applications. Its drop-in design, M4 thread size, and high-strength material make it an ideal choice for IoT developers, engineers, and hobbyists seeking a secure and versatile fastening solution.
Hammer Drop-In T Nut (M4106 T) DocumentationOverviewThe Hammer Drop-In T Nut (M4106 T) is a type of fastener designed for use in Internet of Things (IoT) projects, robotics, and automation applications. This T-Nut is specifically designed to be dropped into a pre-drilled hole, providing a secure and reliable mounting solution for various components.Technical SpecificationsThread size: M4
Height: 10mm
Width: 6mm
Material: Carbon steel or stainless steel (dependent on specific variant)
Finish: Zinc plated or stainless steel (dependent on specific variant)
Package includes: 10 piecesCode Examples### Example 1: Mounting an Arduino Board using Hammer Drop-In T NutsIn this example, we will demonstrate how to use the Hammer Drop-In T Nut to mount an Arduino board to a wooden or plastic plate.Hardware RequiredArduino board (e.g., Arduino Uno)
Hammer Drop-In T Nut (M4106 T)
Wooden or plastic plate with pre-drilled holes
M4 screwsCode```c++
//Arduino code omitted, as this example focuses on the mechanical assembly
```Assembly Instructions1. Pre-drill holes in the wooden or plastic plate to match the M4 thread size.
2. Drop the Hammer Drop-In T Nut into the pre-drilled hole, ensuring it is securely seated.
3. Place the Arduino board on top of the plate, aligning the mounting holes with the T-Nut.
4. Screw in the M4 screws to secure the Arduino board to the plate.### Example 2: Mounting a Load Cell using Hammer Drop-In T Nuts in a Robotics ApplicationIn this example, we will demonstrate how to use the Hammer Drop-In T Nut to mount a load cell in a robotics application.Hardware RequiredLoad cell (e.g., HX711)
Hammer Drop-In T Nut (M4106 T)
Aluminum or steel plate with pre-drilled holes
M4 screws
Robot chassis or frameCode```c++
// Load cell libraries and setup omitted for brevity
```Assembly Instructions1. Pre-drill holes in the aluminum or steel plate to match the M4 thread size.
2. Drop the Hammer Drop-In T Nut into the pre-drilled hole, ensuring it is securely seated.
3. Mount the load cell to the plate using the M4 screws and Hammer Drop-In T Nut.
4. Attach the plate to the robot chassis or frame, ensuring proper alignment and support.Note: The code examples provided are simplified and focus on the mechanical assembly aspect. You will need to consult the datasheets and documentation for the specific components used in your project to write the complete code.