Inline Jet Perc to Tree Perc Straight Tube Bong
- 16 inches tall
- Inline jet and tree percolators for great filtration
- Ice catcher for extra-cool hits
- Huge dry herb bowl with grip
- Wide, sturdy base
- Dewar’s joint
- Feels comfortable in your hands
- Straight tube bong design
- Clears fast
- Perfect bong for taking huge rips
- Durable glass design
The Inline Jet Perc to Tree Perc Straight Tube Bong combines an awesome scientific glass design with excellent filtration for a high-quality smoking experience! Whether you’re looking for a bong to smoke with friends or a piece for daily use, the Inline Jet Perc to Tree Perc Straight Tube Bong is the perfect choice.
For smokers who enjoy the smooth, clean taste of smoking a water pipe, the Inline Jet Perc to Tree Perc Straight Tube Bong has everything. After moving from the dry herb bowl and through the glass stem, the smoke passes through the inline percolator. Featuring multiple slits, this perc filters the smoke, removing the harsh taste. Then, the smoke progresses into the water chamber, which also diffuses the smoke. As the smoke rises, it also passes through the tree perc, which again has a filtering effect on the smoke.
Thanks to the ice catcher, you can insert several ice cubes into your water pipe without worrying about them falling into the main chamber. This can make a real difference when you enjoy extra-cool smoke.
The sleek, clear scientific glass design means that you can watch as the bubbles stack! This awesome feature is sure to impress smokers in any group setting. The straight tube style allows you to clear this bong faster than most other pieces. And, the huge bowl has plenty of space for dry herbs, meaning you can enjoy more smoking with less downtime!
The Inline Jet Perc to Tree Perc Straight Tube Bong is sure to last through the years! Crafted with high-quality scientific glass, this piece won’t break easily. The Dewar’s Joint between the water pipe and the glass stem helps to keep it intact, and the wide base will help keep it upright on any flat surfaces.