Eiszapfen Chrome quick release connector kit G1/4 inner thread from Alphacool
A quick coupling is used everywhere where expandability, flexibility and cleanness play an important role. These compact couplings have a 1/4 "thread on both sides with which they are compatible with all standard connections.
By pulling down the outer ring these couplings can be disconnected. Both sides close immediately completely tight so that no water can escape. Thanks to the special N.D.S.L. Technology (no drip, no splash, no leak) a leak, drip or splash out of the water on opening the lock is excluded. By assembling again, both sides must click into each other audibly and shut themselves tightly by a double O-ring, which is simply compressed when plugged together.
Likewise, the mechanism was designed for durability to ensure a secure connection even years.
Many quick couplings usually also affect the flow rate. But Alphacool has found a way to resolve this issue. A high flow rate is maintained at these quick couplings!
Alphacools quick couplers are available in two finishes. In deep black and fully chromed these add seamlessly on every system. Features • Dimensions (L x D): 64,6 x 23,9mm
• Material: Brass
• Colour: Chrome
• Thread: 2x 1/4" internal thread
Please note your statutory rights are not affected.
For further information regarding Scan's warranty procedure please see our terms and conditions
- 24 months
- Return to base
- DOA Period:
- 28 days
- RTB Period:
- 24 months
Date Issued: 20th Oct 2008
This TekSpek explains why you’d want to overclock your graphics board, the risks in doing so and how you can go about doing it.
Date Issued: 19th Jun 2008
Watercooling for the PC has been around for years in some form or another, for at least as long as Scan have been in business, with basic physics defining why you want to use it. That means for air cooling, to cope with increasing temperature in the heatsink you need to move the air across it faster. That is why thermostatically controlled fans in your PC will turn faster the hotter something gets.
Date Issued: 5th Mar 2007
Anybody who has been near their share of computer systems will appreciate that not all systems make the same amount of noise. There are a number of reasons for why this is so. Firstly, a computer makes noise for different reasons. Generally, anything mechanical is going to make noise.