H-TLC Adjustable Torque Limiter
 H-TLC operates on the
same basic principle as Torq-Tender, except the torque setting Is adjustable
and it uses polymer materials in its major components to resist corrosion.
If operating conditions require periodic changes in torque settings, the H-TLC gives you that ability. Simply adjust the unit's external compression bolts until the desired new setting is reached.
Unlike friction-type designs, you can submerge an H-TLC in oil and still depend on precise disengagement at your design limits.
Benefits
| H-TLC Is Durable |
H-TLC will never rust because its major components are designed from special polymer materials which are resistant to water, salts, mild acids and most other pollutants. Even in temperatures from -40°F to +180°F, the unit still withstands many corrosive elements and abuse |
| H-TLC Is Dependable |
It works on a spring- loaded convex pin and detent design which reacts to overloads...but not to lubricants. Unlike friction-type designs, you can submerge an H-TLC in oil and still depend on precise disengagement at your design limits. |
| H-TLC Is Repeatable |
When a friction-type torque limiter disengages, it generates heat which often alters its disengagement characteristics. It also wears the faces which require the unit be readjusted to counteract a constantly lowered release torque. However, the H-TLC's resilient *Nylatron GS® and **Delrin® materials don't build up or retain the kind of heat unique to friction designs. |
| Adjustable Torque Setting |
If operating conditions require periodic changes in torque settings, the H-TLC gives you that ability. Simply adjust the unit's external compression bolts until the desired new setting is reached. |
| H-TLC Will Trigger Automatic Alarm And Shut-Down Systems |
One of the H-TLC's most important special features is its ingeniously simple and inexpensive actuating disc. Used in conjunction with a properly installed external limit switch, the actuating disc triggers an automatic warning or power shut- down the instant the H-TLC reaches an overload condition. |
Note:
*Nylatron GS® is a registered trademark of Polymer Corp.
**Delrin® is a registered trademark of EI Dupont Company
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