8-32 UNC x 0.61 Inch Torx / Slotted Combination Flare-In Captive Panel Screws (47-11-364-10) - Aluminium Ferrule / Knurled Knob Description
The 8-32 UNC x 0.61 Inch Torx / Slotted Combination Flare-In Captive Panel Screws (47-11-364-10) - Aluminium Ferrule / Knurled Knob has the following features:
- Drive Size: T25
- Drive Type: Torx / Slotted Combination
- Fastened Head Height (H2): 0.41 inch
- Bright Zinc Plated / Knurled / Natural Finish
- Screw / Knob / Ferrule Finish Classification
- Flare Section Length (L): 0.135 inch
- Head Diameter: 0.51 inch
- Installation Style: Flare-In
- Installation Tool: 47 Flare-In Installation Tool
- Installation Tool Link: /drive-bits/1006314-
- Steel / Aluminium / Aluminium
- Screw / Knob / Ferrule Material Classification
- Steel / Aluminium / Aluminium Material Family
- Maximum Screw Protrusion (P2): 0.36 inch
- Minimum Height to Countersink (B): 0.062 inch
- Minimum Screw Protrusion (P1): 0.17 inch
- Panel Thickness (Max) (A): 0.189 inch
- Panel Thickness (Min) (A): 0.126 inch
- Promoted: New Product
- Shaft Diameter (SD): 0.262 inch
- Thread Pitch: 32 TPI
- Thread Size: 8-32 UNC
- Total Float Value: 0.03 inch
- Unfastened Head Height (H1): 0.61 inch
Discover more about the Imperial Torx Knob Captive Panel Screws range.
Imperial Torx knob captive panel screws are precision-engineered fasteners that solve the common problem of lost hardware during panel maintenance. Each unit is a pre-assembled component, integrating a spring-loaded screw and a ferrule, which is operated by a robust knob featuring a high-torque Torx or a versatile Torx / slotted combi-drive.
The core design principle is component retention; once fitted, the fastener remains securely attached to the panel, even when unscrewed from its mating part. This streamlines assembly, simplifies fieldwork, and ensures the integrity of equipment.
These captive-style fasteners are indispensable in fields like electronics, industrial manufacturing and mechanical engineering, where they are used for access panels, control unit housings, and service covers that require frequent and reliable access.
How Imperial Torx and Torx / Slotted Combi Knob Captive Panel Screws Function
The functionality of these imperial captive Torx knob fasteners relies on the precise interaction of three parts: the ferrule, the spring-loaded screw and the drive knob.
Installation involves securing the ferrule into a pilot hole on the outer panel. The internal spring mechanism holds the screw in a retracted position. When an operator turns the knob, the spring is compressed, which extends the screw’s threads to engage with the corresponding thread in the chassis or sub-panel.
A key advantage is the drive type. The Torx drive provides superior grip and torque transmission, virtually eliminating the risk of cam-out or tool slippage. The Torx / slotted combi drive enhances this by adding operational flexibility, allowing use of either a Torx bit or a common flat-blade screwdriver.
Consider a technician servicing a densely packed control unit. They can use a precision Torx driver or a simple flat-blade screwdriver, depending on what tools they have access to, all without ever worrying about dropping and losing the screw.
Materials Imperial Torx Knob Captive Panel Screws Are Made From
The multi-part construction of these screws necessitates the use of different high-grade metals, each chosen for a specific purpose within the assembly:
- Steel: Provides essential robustness and load-bearing capacity, ideal for the high-stress parts of the fastener.
- Aluminium: Used where a lower component weight is a design priority, while still offering good corrosion resistance.
- Stainless Steel: Delivers superior protection against corrosion and wear, ensuring long-term reliability in demanding or repetitive-use environments.
Because the ferrule, spring, knob and screw each perform a different function, the material composition varies across the assembly. Therefore, selection should be guided by the application's demands and the specific installation method.
Sizes and Types of Imperial Torx Knob Captive Panel Screws Available
Accu’s range of imperial Torx and Torx / slotted combi knob captive panel screws is available in thread sizes from 4-40 UNC up to 1/4-20 UNC, ensuring a fit for various panel and load specifications.
A wide array of installation types is offered to suit different panel materials and designs:
- Flare In: Secures the fastener into non-metallic substrates such as plastics and castings, especially near edges.
- Floating: Incorporates radial play, allowing the screw to compensate for slight misalignment between the panel and the mating thread.
- PC Board: Specifically designed for secure mounting on printed circuit boards and fibreglass panels without causing damage.
- Press In: Creates a perfectly flush fit when installed into sheet metal, offering a clean and professional aesthetic.
- Snap In: Allows for rapid, tool-free installation, ideal for speeding up assembly line processes.
Each type is available with either the high-grip Torx drive or the flexible Torx / slotted combi drive. Fully depressed screw protrusion lengths vary from 0.15” to 0.5”, providing options for diverse panel thicknesses and application gaps.
FAQs
Q: Why choose imperial Torx drive captive panel screws over other types of captive screws?
A: The Torx drive's star-shaped profile allows for more efficient torque transfer with minimal downward pressure. This reduces wear on both the tool and the screw, and significantly lowers the risk of slippage or "cam-out," especially during repeated use.
Q: Is it safe to use power tools to install these captive imperial Torx knob screws?
A: This is not recommended. Using power tools introduces a high risk of over-torqueing, which can damage the delicate internal spring mechanism or damage the ferrule, compromising the fastener's function.
Q: Are these imperial Torx captive panel screws suitable for use with materials like PCBs or fibreglass?
A: Yes, the "PC Board" variants are engineered specifically for this. They are designed to be installed securely into composite materials like printed circuit boards and fibreglass without causing delamination or damage to the substrate.
