- Extreme Strength: These solid steel tiedown anchors are rated to 35KN, ideal for use as rock climbing anchors, hammocks, trailer tie-downs, sporting, hardware, construction, rescue and more.
- Material: Made of high quality and durable stainless steel material, high strength, durable, and wear & corrosion resistance. Suitable for indoor/dry environment, not marine environment.
- Simplicity: Unlike D-Rings, there are no moving parts in our tiedown anchors, meaning nothing to wear out and no complex rigging. These anchors install in seconds with a 3/8" screw and provide years of service.
- Low Profile: Plenty of space to attach a ratchet strap, tiedown, bungee, carabiner and more, but without the bulk of larger tiedowns.
- Widely Use: Widely worked as a assistant during for mountaineering, sport climbing, caving and working at heights. Can also be used in hammock installation.
Feature:
Weighs 110g with 316 stainless steel, major Axis strength is 35KN. Safety with expansion bolt and washer.
Length: 10.8cm, Bolts Diameter: 10 mm.
Professional Top Rope Anchor for Rock Climbing, Downhill, Rappelling. Indoor Hanger Bolt for Hammock, Swing, Aerial Yoga, Punching bag etc.
Package Includes:
8* Climbing Bolt Hanger
Eyebolts must be installed on a structurally sound internal wall before the ladder can be deployed for the first time. Do not fix to an external wall. Do not tamper with or disassemble eyebolt.
1. Select solid parent material like concrete. Drill only into stone or brick. Eyebolts will not be secure if installed into mortar or wood.
2. Use a twelve-millimeter drill bit with cutting edges which are either three or four points on the head, to get a completely round hole.
3. Drill a 90 degrees hole and make sure don't move or tilt the drill during the drill.
4. Use a hammer to fix expansion screws into the solid parent
5. Install the hanger with the screws and use a wrench to tighten the nuts. Tighten locking nut on eyebolt with a spanner. Do not over-tighten!
The eyebolts should be at 90 degrees to the floor (not parallel) in their final, tightened position.
