Because of the builder's health situation and my low $ we are having to do things in a bit of a rush. We've already made a few mistakes, but over all I am still excited and think we may still end up with a nice place when we are done. If you see anything in the construction plan details posted which could be done better at the same or lower cost, please let me know. I also have one question at the end.---------------------------------------------------------
PLAN BASICS
THE ROOMS
Room 1 will be the control room.
Room 2 will be a small tracking room/large soundlock. Hopefully this room will help keep sound from passing from the drums in room 3 to the control room and/or room 4. If things get loud in 3 or 4, this room could still be used to record scratch material or un-mic'ed instruments.
Room 3 will be the live room - mainly for recording drums.
Room 4 will be a tracking room.
Room 5 will be an iso booth for an amp. If someone is using 5 really loud it will likely leak to 4 and 6 but hopefully not 1, 2 or 3.
Room 6 will be a small booth for scratch vocals or for recording quiet instruments when nothing too loud is going on in 4 or 5.
Room 7 is a utility room that has an HVAC which is not too loud. It does not matter if sound leaks into room 7 as long as it doesn't pass from room to room through 7.
THE WALLS
The A walls need to do a good job of isolating. Unfortunately, each of the A walls has the weakness of containing at least one glass door with only 3/8" space between it's two panes. I wonder how well a single glass door will do at isolating. Hence the need for room 2 to double as a soundlock. The hardest job for the A walls will likely be keeping the drums in 3 from leaking into 4 or 1.
The B walls are a little less crucial since they merely serve as help for the C walls in keeping the sound from disturbing the side neighbors. They will have only one side of their studs covered. (of course the B wall in the control room will also serve to create the correct angle for room acoustics)
The D walls are constructed of concrete block and are below ground so they pose little threat of leaking except perhaps from room 3 to room 4.
The E walls face a tree line and where there are no near neighbor so they also are a bit less crucial. They have the weakness of having four windows; two in room 1 and two windows in room 3.
All of the walls of 5 will be heavily treated. The walls in room 4 must also do a good job of isolating. All the remaining walls are for tuning the rooms and have not been designed to provide isolation.
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WHAT WE'VE ALREADY DONE
We started by adding faced R19 insulation to the entire basement. I gather from what I've read that perhaps we should have used unfaced, but what's done is done. We then added a layer of blackboard to all the exterior walls, most of the internal ones and the ceiling. Next we soffited a large vent that ran the length of the basement by using metal frame, treating the inside with rockwool and covering it with a layer of blackboard followed by 1/2" drywall. Most recently added was a 1/2" layer of drywall along the back of the control room and 5/8" drywall applied beneath the blackboard on the entire ceiling. I think everything has been applied with screws except the 5/8" drywall on the ceiling which was applied with a mixture of nails and screws.
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CONSTRUCTION DETAILS
In all of the drawings that follow, colors have been used consistently (for example drywall is always drawn in gray and celotex drawn in orange) Existing items are labeled in black text and planned items are labeled in red text. Everything will be applied with screws.
As pictured, the C wall is done; blackboard covered by 5/8" drywall. The B wall which is not yet built will be 4" metal frame with blackboard and 1/2" drywall facing the inside of the control room. This wall will not have anything applied to the other side of the frame. The A wall of the control room and of the drum room will be 6" metal frame staggered stud with rockwool or insulation (which is better?) weaved in between the studs, a layer of blackboard, RC and 5/8" dry wall on each side. IF THERE IS A BETTER PLAN FOR THE MONEY, PLEASE LET ME KNOW ASAP. We will probably be building this wall tomorrow or Wednesday. Note that the track will go all the way back to the blackboard on the front wall. The blackboard of the A wall will be tucked into the drywall. Finally, the RC of the A wall will float the 5/8" drywall out and neither the front of back walls will have a layer beyond it that might hamper the RC's performance. (the ceiling is another matter - more on that below)
This picture represents a cross-section of the front of the control room. From bottom to top it show the floor, the E (front) wall of the control room and the two ceilings. AGAIN - IF THERE IS ANY BETTER WAY TO INTERLAY THESE MATERIALS, PLEASE LET ME KNOW ASAP. We are going to prepare some home made isolators with slices of old tires and wire. Notice that the ceiling's track will go all the way to the wall's blackboard layer.
This picture represents a cross-section of the back of the control room. Notice again the drop ceilings track goes all the way to the blackboard on the soffit.
This picture shows the detail of where the A wall of the control room meets the A wall shared by rooms 2 and 4. ANY COST EFFECTIVE WAYS TO IMPROVE THIS?
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A FINAL QUESTION(s)
When the frame is 6" staggered stud like the control room's A wall pictured above, how would one frame in french doors? glass doors? It seems to me that it would be important that the door not tie together the two sides. Does the door need to be built into a single side? how?
Any answers, suggestions, pertinent links or information appreciated.
Thanks
