8-32 UNC x 0.61 Inch Phillips Flare-In Captive Panel Screws (47-11-324-15) - Aluminium Ferrule / Smooth Knob Description
The 8-32 UNC x 0.61 Inch Phillips Flare-In Captive Panel Screws (47-11-324-15) - Aluminium Ferrule / Smooth Knob has the following features:
- Drive Size: PH2
- Drive Type: Phillips
- Fastened Head Height (H2): 0.41 inch
- Bright Zinc Plated / Smooth / 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 Phillips Knob Captive Panel Screws range.
Imperial Phillips knob captive panel screws are specialised captive fasteners engineered for precision applications. Their primary function is to secure removable panels, ensuring the fastener is never lost, which is critical during routine maintenance or frequent access.
The assembly itself includes a ferrule which houses a spring-loaded screw. This is topped by a tactile knob featuring either a Phillips or a Phillips/slotted combination drive. After installation, the screw is permanently held within the panel, offering a dependable, reliable and repeatable solution for many project use cases.
Commonly found in precision machinery, electronics and manufacturing settings, these fasteners are perfect for access covers or service panels that require frequent removal and reattachment. The inclusion of a combination drive adds flexibility, as the screw can be turned by hand or with a standard Phillips or flat-head screwdriver, blending precision with operational speed.
How Imperial Phillips Knob Captive Panel Screws Work
Imperial Phillips knob captive panel screws are comprised of three main components: the knob (with its Phillips or combi drive), the spring-loaded screw and the ferrule.
Installation begins by fitting the ferrule, which comes in several mounting styles, into the panel's pilot hole. This ferrule serves as the housing that retains the screw. The spring-loaded mechanism keeps the screw captive, even when it's not engaged in the mating part. The knob provides an easy grip for hand operation, while the drive allows for more controlled torque when needed.
When the knob is turned, it compresses the internal spring, pushing the screw's threads outward to engage with the target component. When loosened, the spring’s tension automatically retracts the screw securely back into the ferrule, so it cannot be lost.
A practical example is an equipment casing or control panel. These screws allow service access in seconds; they can be released quickly and re-secured without the risk of dropping and losing the hardware, enhancing both accessibility and safety.
Materials Imperial Phillips and Phillips/Slotted Combi Knob Captive Panel Screws Are Made From
These multi-component imperial captive screws are manufactured from a mix of high-quality metals. Each material is chosen to optimise the function of a specific part of the assembly:
- Steel: Provides high tensile strength and robustness, ideal for heavy-duty use where stability under load is key.
- Aluminium: A lightweight yet durable option that also offers good natural resistance to corrosion.
- Stainless Steel: Delivers superior corrosion resistance, ensuring reliability and a long service life, especially in demanding environments.
Given that the knob, screw and ferrule are often different materials, the best choice usually hinges on the specific installation method and the intended operating environment, rather than just the material itself.
Sizes and Types of Imperial Phillips Knob Captive Panel Screws Available
Accu's range of imperial Phillips and Phillips/slotted combi knob captive panel screws is available in thread sizes from 4-40 UNC up to 1/4-20 UNC. This variety offers significant flexibility to accommodate diverse panel thicknesses and design needs.
We offer several installation configurations:
- Press In: Creates a secure, flush fit in sheet metal panels.
- Flare In: Ideal for near-edge applications in cast components or plastics.
- Snap In: Allows for quick, tool-free fitting, perfect for streamlining assembly.
- PC Board: Specifically designed for use in printed circuit boards and composites like fibreglass.
- Floating: Features radial float to accommodate minor misalignments between mating parts.
Every type includes the versatile Phillips or Phillips/slotted combi drive for operation by hand or with a corresponding screwdriver. The maximum screw protrusion, i.e the length of the screw exposed when the spring is fully compressed, is available from 0.15” to 0.5”.
FAQs
Q: Why choose a Phillips or Phillips/Slotted Combi drive for a captive panel screw?
A: The main benefit is versatility. This combination drive allows the fastener to be turned by hand using the knob, or with either a Phillips or a standard flat-blade screwdriver, making it adaptable to various tools and assembly preferences.
Q: Can I use a power driver on these imperial Phillips knob captive screws?
A: It's generally advised to tighten them manually. While a low-torque power tool could be used cautiously, hand-tightening prevents the risk of over-torqueing, which might damage the knob, spring mechanism, or ferrule.
Q: Are special tools needed to install imperial Phillips combi knob captive screws?
A: Depending on the variant, such as 'Snap In' or 'Press In' types, they are designed for simple manual installation or fitting with basic hand tools, ensuring assembly is fast and efficient.
Q: Are these screws suitable for composite panels or printed circuit boards?
A: Absolutely. We offer a 'PC Board' variant specifically engineered for this purpose. It provides a secure fixing in materials like fibreglass and PCBs without causing damage to these more delicate components.
