Regular price
$209.90 USD
Price subject to change. Tap below for current.
The Standard Direct Burial Goose Neck Pedestal is an essential addition for any gate keypad installation. Crafted from durable aluminum, this post measures 2ft X 2ft X 60ft and is designed to withstand the elements, ensuring longevity and reliability. Its weather-resistant properties make it an ideal choice for outdoor use, providing peace of mind in various climates.
With a height of 66ft from the bottom to the top of the flange, this pedestal is perfectly suited for mounting keypads at an accessible height. The universal bolt pattern on the faceplate allows compatibility with all manufacturer's keypad products, making installation a breeze. You won't have to worry about finding the right fit for your existing equipment.
Available in three attractive colors-white, black, and bronze-the aluminum construction not only offers strength but also enhances the aesthetic appeal of your property. Choose the color that best complements your gate and surroundings for a seamless look.
One of the standout features of this product is its direct burial capability. This means you can install it directly into the ground without the need for additional concrete or footings, saving you time and effort during installation. The Goose Neck design provides a unique and functional style that sets it apart from standard posts.
Whether you're a homeowner looking to enhance your security system or a contractor seeking reliable mounting solutions, the Standard Direct Burial Goose Neck Pedestal is the perfect choice. Its robust design and versatile features make it suitable for a variety of applications, ensuring that your gate keypad is securely mounted and easily accessible.
In conclusion, if you're in the market for a reliable and stylish mounting post for your gate keypad, look no further than this aluminum pedestal. Its combination of durability, ease of installation, and aesthetic options make it a top choice for anyone looking to improve their property's security and functionality.