Zero Backlash Cycloidal Reducer - DieQua Corporation

Have Any Questions? Call Us: 630-980-1133

Spinea - High Precision Cycloidal Reducers

Spinea TwinSpin (TS) high precision cycloidal reducers are designed with a revolutionary speed reduction mechanism along with a new combination of a radial-axial output bearings. As a result, they represent a new generation of gearboxes for precise motion control.

The TS series is the optimal solution for applications requiring a high reduction ratio, high kinematic accuracy, low lost motion, high moment capacity and high stiffness in an extremely compact design.

Features & Benefits:
  • Zero Backlash
  • High Moment Capacity
  • High Positioning Accuracy
  • High Positioning Repeatability
  • High Torsional and Tilting Stiffness
  • Small Envelope Size
  • High Torque Density
  • High Reduction Ratios
  • High Efficiency
  • Long Lifetime
  • Easy Assembly
  • No Maintenance

Product Line Overview: Series T, E, H, M

Series T

This zero backlash cycloidal reducer allows mounting of the load directly to the output flange or outer case without the need for additional bearings.

Size

Ratios

Nominal Torque (Nm)

Acceleration Torque (Nm)

60

35, 47, 63

37
74

70

41, 57, 75
50
100

80

37, 63, 85
78
156

110

33, 67, 89, 119
122
244

140

33, 57, 87, 115, 139
268
670

170

33, 59, 83, 105, 141
495
1237

200

63, 83, 125, 169
890
2225

240

37, 87, 121, 153
1620
4050

300

63, 125, 191
2940
7350


Series E

This design also allows the load to be mounted to the output flange or case. This unit can be piloted on the outer diameter and the case has through hole mounting. An input flange and gasket kit are required for sealing the unit.

Size

Ratios

Nominal Torque (Nm)

Acceleration Torque (Nm)

70

41, 75

50
100

80

37, 85
78
156

110

33, 67, 119
122
244

140

33, 69, 115
268
670

170

33, 59, 125, 141
495
1237

200

49, 63, 125, 169
890
2225

220

55, 125
1250
3125


Series H

This series is similar in mounting configuration to Series E with the added benefit of a hollow clearance bore to allow cables, tubes, etc. to be passed through. This unit is completely sealed.

Size

Ratios

Nominal Torque (Nm)

Acceleration Torque (Nm)

70

75

50
110

140

69, 115
200
500

170

69, 125
420
1050

200

63, 125
712
1780

220

55, 125
1100
2750


Series M

This is the mini series with similar mounting and all the performance advantages of the standard designs. With only one size presently available, smaller versions are in development.

Size

Ratios

Nominal Torque (Nm)

Acceleration Torque (Nm)

50

47, 63

18
36

Application Examples - Robotics & Machine Tools

Spinea Twinspin Catalog:

Download Catalog
PDF - 21MB


Video - Spinea Series T


What's Next?
Email Your Application
Download This Catalog
Download CAD Drawings
Why Choose DieQua?
Have Any Questions?
Call Us: 630-980-1133

Quick Assist:

Application Examples


Stay In Touch
Join DieQua On Facebook
Follow DieQua On Twitter
See DieQua On YouTube

Related Products:

Precision Servo Worm

High Torque Servo Gearheads

Precision Planetary

Precision Hypoid

Precision Cycloidal - Mini Series

Why Choose Spinea?

High productivity manufacturing requires automation systems that are highly accurate and extremely repeatable. Standard gear products, like planetary gearheads, rarely have the backlash control or torsional rigidity to perform as necessary. This is especially true in robotics, machine tool, medical, communication and some military applications.

There are a few devices available that provide many of the characteristics required for these types of applications. But none provide the torque density, rigidity and backlash control that is available from Spinea through DieQua. With some of the best delivery times in this market, you'll actually be able to take advantage of the high performance features without having to wait for the seasons to change.


Sample Applications:

Robotics
Machine Tools
Communications
Defense
and many more...


180 Covington Drive
Bloomingdale, IL 60108-3105
Phone: 630-980-1133 Fax: 630-980-1232

Copyright © 2017 DieQua Corporation
Request Info or Email Directory
Read our Privacy Policy