How big is a low flow shower valve?
How big is a low flow shower valve?
Using a low-flow faucet or showerhead may cause you to notice lower pressure for the first time. Shower valves are sold in two sizes: 1/2-inch and 3/4-inch.
Why does my water pressure drop when I replace my shower head?
Adding a second water source to a low-flow household will translate into a drop in water pressure at each of the sources of water. If you replaced the showerhead at the same time you replaced the valve, you may notice a drop in pressure as a result.
How can you tell the pressure of a new shower head?
Some showerheads are also adjustable; you determine the amount of water pressure by twisting the head or controlling a small switch on the side. Your new showerhead also most likely has a water restricter inside. Removing this restricter may translate into higher pressure once the head is returned to position.
What is the depth of Grohe shower trim?
Whatever the installation depth of the rough-in, the total depth of the trim never exceeds 1 5 ⁄8” (43 mm). The Grohtherm® GROHE SmartControl® trim combines space-saving convenience in the shower and slim good looks.
Do you need a diverter for a Grohe shower?
Today, people want more than the standard shower head and tub spout. But, in order to have a hand shower and body sprays, you need a diverter or multiple volume control trims and the corresponding rough-in valves. GROHE Rapido® SmartBox and GROHE SmartControl® make it simple.
How does the Grohe shower control system work?
The GROHE SmartControl has an integrated sealing system, eliminating the possibility of water seeping in behind the wall. The control knobs come with a range of different symbols, representing the different shower options. These symbols are clear and recognizable and their functionality distinct.
Which is the best way to install Grohe bathroom faucets?
Even if the best solution to install these products is to make it done by professional, these very didactic videos will allow you to realize your installation in the best conditions to obtain an optimal result.
