Products Catalog
High pressure
Unit of Measure

Specifications

Size

N/A C2

Rotorseal Type

N/A C2

Number of Passages

N/A 1
Inlet Port Thread (O)1 N/A 1/2-14
Mounting Size Thread2 N/A 1-14

Dimension D

N/A 4.45 in4.49 in113 mm114 mm

Dimension D1

N/A 3.00 in3.15 in76 mm80 mm

Dimension H

N/A 2.38 in2.50 in60 mm64 mm

Dimension L2

N/A 1.00 in19 mm
Dimension O3 N/A 0.75 in1/2-14 in1/2-14 mm19 mm
Dimension O14 N/A 1/2-14

Dimension U1

N/A 15.4 in391 mm

Dimension U2

N/A 2.3 in58 mm

Dimension U3

N/A 14.2 in361 mm

Dimension U4

N/A 12.8 in325 mm

Passage Area

N/A 0.307 in²1.98 cm²

Hex Size

N/A 1.375 in34.9 mm

Dimension D2

N/A 0.75 in19 mm

Dimension M

N/A 0.69 in18 mm

Dimension N

N/A 0.63 in16 mm
Maximum Speed5 N/A 400 rpm
Maximum Pressure6 N/A 1000 psi69 bar

Weight

N/A 2.0 lb0.9 kg

Manufacturer

N/A Eaton-Airflex

General Description

N/A The rotating seal is established by a non-metallic sealing ring, held against the rotorseal shaft by a light spring force. The sealing ring is designed so that media pressure acts on both of its ends to minimize the force on the sealing surface.

This design gives positive protection against leakage and compensates for seal wear. Ball bearings are used between the stationary and rotating ports to provide rigidity to the rotorseal assembly and to minimize the running torque.

Rotorseals are available with single, dual and triple passages, in a variety of sizes and designs, to provide the versatility needed to handle most requirements. Single passage rotorseals, in pneumatic installation, can be plumbed with a quick release valve at its inlet port to provide a convenient exhaust.

In most applications, the rotorseal is mounted to the end of a shaft. The shaft is rifle and cross drilled to provide a passageway for the media transmitted. It is important that the rotorseal's axis of rotation be concentric with the rotating member's axis of rotation to minimize rotorseal wobble.

To accommodate eccentricities, a flexible connection must be used between the rotorseal and supply. A rigid connection will tend to preload the rotorseal bearings. The flexible connection should not be installed taut and should include a union and 45º elbow.

The flexible connection should be attached to the rotorseal prior to fastening the rotorseal to the rotating body to avoid seal or bearing damage. The union connection to the supply line is made last.
In most applications, only one fluid is to be transmitted to a rotating assembly. This group of rotorseals will handle most medium volume, single passage requirements. External threads on the seal shaft and standard pipe threads on the inlet port make installations an easy job.

Note

N/A Operation at maximum pressure and speed should be avoided. Refer to K-14 for operating parameters.

  • 1 American National Pipe Thread
  • 2 American National Standard for Unified Screw Threads.
  • 3 American National Pipe Thread.
  • 4 American National Pipe Thread.
  • 5 Operation at maximum pressure and speed should be avoided. Refer to K-14 for operating parameters.
  • 6 Operation at maximum pressure and speed should be avoided. Refer to K-14 for operating parameters.