Akko - Dracula Switch
Ultra low Operating force Linear switch
POK housings with POK stem
Dust-proof to protect against dust
Light Diffuser LED Friendly
Akko Dracula
Typ Linear
Force 35±5gf
Total Travel 3.8 mm
Pre-travel 2.0±0.6 mm
POK – High Impact Strength
According to researches from famous EU polymer suppliers, DREYPLAS has offered reports from HYOSUNG (the company to first commercialized the use of POK) about POK.POK shows over 230% higher impact strength than Nylon, PBT. There is no degradation thanks to its effective hydrolysis resistance.
Enhanced smoothness
An additional opening at the stem's bottom boosts airflow and smoothness.
Product Information
Product Information
Shipping & Returns
Shipping & Returns
Akko - Dracula Switch
Akko - Dracula Switch
Ultra low Operating force Linear switch
POK housings with POK stem
Dust-proof to protect against dust
Light Diffuser LED Friendly
Akko Dracula
Typ Linear
Force 35±5gf
Total Travel 3.8 mm
Pre-travel 2.0±0.6 mm
POK – High Impact Strength
According to researches from famous EU polymer suppliers, DREYPLAS has offered reports from HYOSUNG (the company to first commercialized the use of POK) about POK.POK shows over 230% higher impact strength than Nylon, PBT. There is no degradation thanks to its effective hydrolysis resistance.
Enhanced smoothness
An additional opening at the stem's bottom boosts airflow and smoothness.
Product Information
Product Information
Shipping & Returns
Shipping & Returns
Description
Ultra low Operating force Linear switch
POK housings with POK stem
Dust-proof to protect against dust
Light Diffuser LED Friendly
Akko Dracula
Typ Linear
Force 35±5gf
Total Travel 3.8 mm
Pre-travel 2.0±0.6 mm
POK – High Impact Strength
According to researches from famous EU polymer suppliers, DREYPLAS has offered reports from HYOSUNG (the company to first commercialized the use of POK) about POK.POK shows over 230% higher impact strength than Nylon, PBT. There is no degradation thanks to its effective hydrolysis resistance.
Enhanced smoothness
An additional opening at the stem's bottom boosts airflow and smoothness.
