Royal Spring-Type Live Centers

  • Unique spring-loaded point compensates for workpiece thermal expansion.
  • Low-profile design provides outstanding tool clearance.
  • Available with standard and extended points.
  • Can be used in the turret of sub-spindle machines to overcome a lack of hydraulic compensation.
Royal Heavy-Duty Spindle Type Live Center
Royal Spring Type Live Center — Standard Point Sizing Schematic
Proudly Made In USA

Royal Spring Type Live Centers —Standard Point

Filters Sort results
Reset Apply
Taper
B
F
G
SPRING
TRAVEL
MAX.
SUGGESTED
RPM1
WEIGHT OF
WORKPIECE
(lbs.)
THRUST
LOAD (lbs.)2
PART NUMBER
PRICE
2 MT
0.70
0.88
0.39
0.11
5,000
540
150
$976.00
Max:
Min: 0
Step: 1
Add
3 MT
0.938
1.16
0.55
0.14
5,000
940
315
$976.00
Max:
Min: 0
Step: 1
Add
4 MT
1.231
1.38
0.63
0.18
4,500
1,400
435
$1,160.00
Max:
Min: 0
Step: 1
Add
5 MT
1.748
2.00
1.10
0.19
4,500
2,340
785
$1,710.00
Max:
Min: 0
Step: 1
Add

Royal Straight Shank Models

Filters Sort results
Reset Apply
Taper
B
F
G
SPRING
TRAVEL
MAX.
SUGGESTED
RPM1
WEIGHT OF
WORKPIECE
(lbs.)
THRUST
LOAD (lbs.)2
PART NUMBER
PRICE
1″ Dia.
1.00
1.16
0.55
0.14
5,000
940
315
$976.00
Max:
Min: 0
Step: 1
Add
1 1⁄4″ Dia.
1.25
1.38
0.63
0.18
4,500
1,400
435
$1,160.00
Max:
Min: 0
Step: 1
Add

1 Maximum recommended operating limit. Operating above this speed could result in heat build-up and accelerated bearing wear.
2 Exceeding this value will bottom-out springs.

Heavy-Duty CNC Spindle Type Live Center Sizing Schematic
Proudly Made In USA

Royal Spring Type Live Centers — CNC Point

Filters Sort results
Reset Apply
Taper
B
F
G
H
I
SPRING
TRAVEL
MAX.
SUGGESTED
RPM1
WEIGHT OF
WORKPIECE
(lbs.)
THRUST
LOAD (lbs.)2
PART NUMBER
PRICE
2 MT
0.70
0.88
0.39
0.19
0.35
0.11
5,000
150
150
$1,030.00
Max:
Min: 0
Step: 1
Add
3 MT
0.94
1.16
0.55
0.25
0.47
0.14
5,000
260
315
$1,030.00
Max:
Min: 0
Step: 1
Add
4 MT
1.23
1.38
0.63
0.38
0.70
0.18
4,500
435
435
$1,230.00
Max:
Min: 0
Step: 1
Add
5 MT
1.75
2.00
1.10
0.50
0.93
0.19
4,500
785
785
$1,710.00
Max:
Min: 0
Step: 1
Add

1 Maximum recommended operating limit. Operating above this speed could result in heat build-up and accelerated bearing wear.
2 Exceeding this value will bottom-out springs.