Lisle 77080 Harmonic Balancer Socket, 19 mm, Heavy Duty Impact
- The Lisle 77080 Harmonic Balancer Socket for Honda is a heavy-duty impact socket engineered to remove and install 19 mm harmonic balancer bolts on Honda engines with superior grip and energy transfer.
- Features:
- 19 mm precision hex profile ensures full contact with Honda crank pulley bolts, minimizing rounding or slip during removal
- Thick-wall, heavyweight alloy steel construction delivers enhanced impact energy for stubborn fasteners
- Compatible with standard 1/2 inch square drive ratchets and impact wrenches for versatile workshop use
- Heat-treated, impact-grade alloy steel ensures durability through repeated high-torque cycles
- Specifications:
- Manufacturer: Lisle
- Part Number: 77080
- Socket Size: 19 mm hex
- Drive Size: 1/2 inch square
- Material: Heat-treated alloy steel (impact grade)
- Quantity: Single socket
- System Compatibility: Honda engines that use a 19 mm harmonic balancer or crank pulley bolt
- Special Performance Attribute: Heavyweight design improves energy delivery for tight fasteners
- Also referred to as Honda harmonic balancer socket, 19 mm crank pulley bolt socket, impact harmonic balancer socket, and 1/2 inch drive 19 mm socket for Honda.
Lisle develops precision tools tailored to demanding automotive tasks. The 77080 Harmonic Balancer Socket combines accuracy and impact-optimized mass to make quick work of Honda crank pulley bolts without slippage.
Q: Is this socket safe for use with impact tools?
A: Yes-it’s designed with a standard 1/2 inch square drive and durable alloy steel to withstand use with impact wrenches, provided OEM guidelines are followed.
Q: What engines is this for?
A: It’s made for Honda engines equipped with a 19 mm harmonic balancer or crank pulley bolt-please verify bolt size against your service manual.
Q: How does the heavy-duty design help?
A: The increased mass and thicker walls improve energy transfer from the impact tool to the bolt, enhancing effectiveness on rusted or thread-locked bolts while reducing slippage risk.
