This heavy-duty magnetic mount is the ideal tablet holder for use on refrigerators, file cabinets, cubicle panels, and other iron-based or steel surfaces around the home, office, or commercial kitchen - any place where counter space is hard to find. The powerful heart of this mount is a small-but-mighty super-strong magnet that can hold an extraordinary amount of weight. This kit includes a convenient universal tablet enclosure - compatible with virtually any 7-14-inch tablet - with or without any case up to 1 inch thick. Your device is securely held - and locked - by an adjustable frame that cradles the corners then locks in place with the turn of the included key. If using without a device case, a foam piece provides the padding necessary for a tight fit within the corner brackets. Once affixed to a steel surface, the bracket rotates to allow use in both portrait and landscape orientations.
- Strong magnets in the back of the device work with any flat, iron-based steel surface
- VESA mount works with any compatible 75 x 75- or 100 x 100-millimeter device cases
- Heavy-duty locking holder with durable black finish
Portrait or landscape mounting
The holder connects to the magnet via a VESA 75-mm x 75mm capable mount and plate - Soft rubber accents to prevent scuffing
- Compatible with iPad 10.2" (7th/ 8th/ 9th Generation), 11" iPad Pro (2018), iPad Air 4, iPad Gen. 5-6, iPad Pro 9.7, iPad Pro 10.5, iPad Air Gen. 1-3, Galaxy Tab A 9.7", Galaxy Tab S2 9.7", Galaxy Tab S3 9.7", Galaxy Tab 3 10.1", and Galaxy Tab 4 10.1", Galaxy Tab A 10.1" (2019), Lenovo Tab 4, Surface Go, Surface Go 3, Galaxy Tab S5E, Zebra Tablets, and more
- Magnet Mount offers a reliable, convenient mounting solution
- Compatible with the screen size of 14"
- Black finish enhances the grace of your magnet mount and gives it a sophisticated look
- Built with steel product material to offer usage dependabilty and durability, ensuring prolonged use
- Heavy Duty feature for maximum efficiency and convenience
- File Cabinet application/usage for better dependability with added efficiency