Intensifier0 pages
INTENSIFIER
Hydraulic
HB443
Pressure ratio 5:1
PUMPS
CONVERTS LOW-PRESSURE PORTABLE
HYDRAULIC PUMPS OR ON-BOARD
HYDRAULIC SYSTEMS, INTO HIGH
PRESSURE POWER SOURCES.
10,000 psi
• May be used to operate two separate, single-acting tools (with integral valves) independently, without
need for additional manifold.
• Control valve included. Other Power
Team valves available as an option
to suit your specific application, if
needed; consult factory.
• Applications include utilities,
railroads, construction, riggers
and others.
• Operates single- or double-acting
cylinders, jacks, and tools such
as crimpers, spreaders, cable
cutters, or tire tools. Version for
use with double-acting torque
wrenches available.
• Compact and rugged for use inside
a utility vehicle aerial bucket or
stowing in a vehicle.
• No reservoir level to maintain;
uses low pressure system as
oil supply.
• Has 3⁄8" NPTF ports; compatible
with standard fittings for low and
high pressure systems.
F
WARNING
C
A
E
D
B
Pump
No.
HB44
Series
For use with
Cyl. Type
Single-Acting
Single-Acting/
Double-Acting
Double-Acting
Output
Flow @
10,000
(psi)
A
(in.)
B
(in.)
C
(in.)
D
(in.)
E
(in.)
F
(in.)
Prod.
Wt.
(lbs.)
44 cu. in./min.
8 5/8
141/2
61/8
2 3/4
41/2
101/2
16
Order
Description
No.
Hydraulic intensifier for HB443
Valve
Type
3-Way
single-acting systems
3-Position
Hydraulic intensifier for HB444
4-Way
double-acting systems
3-Position
Hydraulic intensifier for HB445-RR 4-Way
double-acting torque
3-Position
wrench tools
Valve
No.
9520*
9506*
–
† For maximum efficiency, recommended input flow is 5 gpm at a maximum
pressure of 2,000 psi. Higher flows and/or pressures must be compensated for at the system pump (e.g., relief valve, variable flow devices, etc.).
98
Output Flow
Valve
Function
Input Flow
Range
(gpm)
Input Flow
Pressure
(psi)
Output Flow
Range
(gpm)
Advance Hold
Return
Advance Hold
Return
Advance Hold
Return
0 -10
300 - 2,000
0 - 2.5
0 -10
300 - 2,000
0 - 2.5
0 -10
300 - 2,000
0 - 2.5
* “Posi-Check®” valve design, “Posi-Check®” guards against
pressure loss when valve is shifted from “advance” position
to “hold” position.