EVA Storage Carrying Case for Franklin ProSensor 710/710+ Precision Stud Finder
EVA Storage Carrying Case for Franklin ProSensor 710/710+ Precision Stud Finder
Compatibility
Compatibility
Compatible with Franklin Sensors ProSensor 710, 710+, M210, and T13 Professional Stud Finder models. Please verify your device dimensions for compatibility with other models
Description
Description
The Travel EVA Empty Hard Case provides essential protection and portability for your Franklin Sensors ProSensor 710, 710+, M210, and T13 Professional Stud Finders. Crafted from high-quality EVA material, this case offers shockproof, water-resistant, and shock-absorbent protection, ensuring your stud finder remains safe from accidental drops, bumps, and impacts. Please note that the case is sold separately and does not include the stud finder or any other accessories.
Designed with travel in mind, the case features a lightweight structure and a convenient carry handle for easy transport. The interior is lined with soft nylon to prevent scratches and abrasions, keeping your device’s surface in pristine condition. With inner dimensions of 8.5 x 4.25 x 2.9 inches, this protective cover is tailored to fit the specified Franklin Sensors models, though it is important to check compatibility with other devices before purchasing. Franklin Sensors does not endorse this case, and all trademarks are the property of their respective manufacturers.
Features
Features
● Size: Inner dimensions 8.5 x 4.25 x 2.9 in. EVA Protective Case for sale only (Does NOT include Bluetooth speaker or other accessories).
● All rights reserved: All trade names are registered trademarks of respective manufacturers listed. Franklin Sensors does not endorse use of these products.
● Protection: Shock-absorbent protection safeguards your device against accidental drops, bumps, and impacts.
● Travel Friendly: Made with lightweight EVA material and a convenient handle for easy on-the-go carrying during travel.
● Material: Soft nylon inner lining to prevent scratches and abrasions on the device’s surface.