35" x 6" Candy Cane With A Bow Solar Stake
The 35″ Candy Cane With A Bow solar stakes offer a classic holiday look with a bright and festive twist. They are ideal for illuminating sidewalks, driveways, garden beds, or lawns without any need for wiring. The traditional red‑and‑white striped candy cane design evokes nostalgic holiday charm, while built‑in solar‑powered LED lights automatically charge by day and glow at night, giving your yard a warm, welcoming glow throughout the evening. The added height of the 35″ stakes keeps them visible even if snow accumulates, making them practical for winter‑season displays.
Easy to install and lightweight, these stakes simply press into soft soil or mulch, no tools are required. Use them in pairs or groups to line pathways, frame driveways, or decorate around trees and gardens for an instant seasonal upgrade. Their solar-powered functionality makes them energy-efficient and maintenance‑free, perfect for homeowners or small businesses looking for simple, reusable holiday lighting.
Whether used to create a walkway of glowing candy canes leading to your front door or scattered throughout your yard for a festive atmosphere, these solar stakes add cheerful holiday spirit with minimal effort and maximum impact.
Care Instructions:
Placement: Insert each stake firmly into soft soil, mulch, or lawn ground. Ensure the solar panel portion of each stake receives direct sunlight for several hours daily to fully charge.
Lighting Activation: The built-in photocell will automatically turn the LEDs on at dusk and off at dawn. For best performance, place in a sunny location during the day.
Cleaning: Wipe the stake and plastic lens gently with a damp cloth to remove dirt or debris. Avoid abrasive cleaners.
Storage: Remove stakes from the ground at the end of the season, dry thoroughly, and store in a cool, dry place to protect the plastic and solar components.
Maintenance: Before reuse each season, ensure the solar panels are clean and exposed to sunlight. Replace internal batteries if lighting becomes dim.
