What are you looking for?

Enter search term

We are sorry!

Unfortunately no results were found.

Login

Are you a new customer?

Register and get many benefits:

Checking the product availability
Fast reordering & order history
Personal product recommendation
Payment by invoice

Help & Contact

Your direct line to us

If you have any questions about the online store or our products, you can call our customer service at:

Monday - Thursday: 8:00AM - 5:00PM
Friday: 8:00AM - 4:00PM
Except saturdays, sundays and holidays

Or use our FAQ

There you get answers to the most frequently asked questions.

Helping people help themselves
FAQs

HK 2P 4 FSRA

Gear pump, group 2 FSRA

Characteristics

Design
  • Gear pump group 2. 
Material
  • housing: aluminium 
  • front flange, end cover: aluminium. 
Connection suction side
  • Ø 40 / M6, German standard. 
Connection pressure side
  • Ø 35 / M6, German standard. 
Connection drive side
  • Hole pattern 100 x 72 - Ø 80. 
Shaft
  • Conical shaft 1:5. 
Customs tariff number
  • 84136031 
All characteristics

Product description

Notes
Tightening torque of the fastening nut on the shaft: 40 Nm
Ordering information
Other pump versions available on request

Product variants

18 Results
Show dimensional drawing
Identifier
VFU (cm³)
p1 max. (bar)
p2 max. (bar)
p3 max. (bar)
Details / items
4.2 cm³
260 bar
280 bar
300 bar
Learn more
4.2 cm³
260 bar
280 bar
300 bar
Learn more
6 cm³
260 bar
280 bar
300 bar
Learn more
6 cm³
260 bar
280 bar
300 bar
Learn more
8.4 cm³
260 bar
280 bar
300 bar
Learn more
8.4 cm³
260 bar
280 bar
300 bar
Learn more
10.8 cm³
260 bar
280 bar
300 bar
Learn more
10.8 cm³
260 bar
280 bar
300 bar
Learn more
14.4 cm³
250 bar
270 bar
290 bar
Learn more
14.4 cm³
250 bar
270 bar
290 bar
Learn more
VFU = conveying volume per revolution
p1 = continuous pressure
p2 = working pressure
p3 = maximum pressure

Shows 10 of 18

Column selection

VFU (cm³)
p1 max. (bar)
p2 max. (bar)
p3 max. (bar)
A (mm)
B (mm)
Direction of rotation
Max. speed (r/min)
Min. speed (r/min)
VFU = conveying volume per revolution
p1 = continuous pressure
p2 = working pressure
p3 = maximum pressure