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Marijuana Stealth Cabinet (NGB) - as seen on OG

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    Marijuana Stealth Cabinet (NGB) - as seen on OG

    Many people have been looking around for this so i thought i should post it.

    those that don't like it are free to rant about it...

    WARNING The pictures are like in the original thread. I DID NOT save every individual pic at it's normal / non-thumbnail size.... and of course i am sorry for it now.

    Marijuana Stealth Cabinet

    An elegant solution to growing marijuana anywhere! Maximize your yield with this compact screen and bubbler system.

    Even rows of colas like this are the result of a well maintained Screen-Of-Green (SCROG).

    The Marijuana Connoisseur's Cabinet
    There are lots of reasons to grow weed. I wanted to grow to keep my spouse and I in fresh supply of gear. I’m not into dealing, or being around real dealers. Growing makes us independent of outside suppliers and even less likely to get caught if done correctly. We needed our grow to be done in our home, and it needed to be extremely stealthy. I want to grow, but I don’t want to go to jail. Growing aside, I am a standup citizen and I want to keep it that way.

    With this in mind, I set out to build the smallest grow cabinet I could. I believe in understanding the requirements of any project before undertaking the design, so here is a general list of my requirements for this cabinet:

    * Must be completely stealthy. The smaller the better was the primary design force.
    * Must supply two regular smokers plus occasional friends.
    * Must support bonsai mothers as outlined in Oldtimer1's Overgrow article.
    * Must adapt to a variety of growing methods, but in particular Shallow Water Culture (SWC) SCreen Of Green (SCROG). This method is outlined later in this article.

    Know how much you need to succeed

    When we relied on dealers to supply us, my spouse and I typically smoke about 15 to 25 grams per week of poor quality bud. When we started growing and had top quality bud to smoke, the two of us smoked about 10 to 15 grams per week.

    Knowing how much smoke your situation will use will help in designing the best-sized cabinet. I figured 10 weeks per harvest at 15 grams per week equals 150 grams of bud. To get that, the cabinet has to support at least 150 watts, but preferably upwards to 300 watts of HID lighting. Using an average of 50 grams per sq. ft., I decided that 3 sq. ft. of flowering room would be good.
    Visualize and plan your new growing space
    My requirements for the cabinet looked like they could be accommodated in about the size of a 36-inch TV box. Actually, I had a strong desire to make sure the box could fit in such a box. What if you need to move? Most people throw away their TV boxes, but I kept mine and it now works great as a skin around my growing cabinet. When we move, it will be easy to keep the mothers safe from point A to point B.

    Left: design sketch of the front view of the cabinet. The cabinet is divided into 3 separate chambers, each serving a different role. The utility room is located in the top left chamber and holds the lighting ballasts, main electrical wiring harness, exaust fan, timers, and a place for air freshener gels.

    Middle: Top view design sketch of connoisseur cabinet.

    Right: The mother room is located in the bottom left chamber and is designed to hold upwards to 6 or so mothers. Notice the room is only 8 inches wide. The mothers will do great in such small quarters. The flowering room is located in the right chamber and is just big enough to accommodate a custom air cooled hood as outlined in Jackerspackle's article, and a mini-scrog that will accommodate 10 inch buds.

    Keeping everything fresh and flowing
    Airflow is important, but I wanted it to take up as little space as possible. The cabinet is designed to use an exhaust fan because I wanted a negative pressure environment. This keeps smell from leaving the box from any place other then the exhaust fan.

    Air enters the cabinet via the mother chamber. I used 3 1-inch PVC pipes to provide the air inlets. This lets me route the air to different parts of the mother chamber. Figure 3 shows the air inlet holes. Air flows in through each hole and is directed throughout, effectively cycling all of the air in the mother room. The PVC also keeps the light from the mother room from glowing out the side of the box.

    Getting the right equipment
    Air leaves the mother room via a 2 inch pvc pipe that wraps around the walls of the flower chamber to the back and into the center of the room. This places the air inlet for the flowering room directly under the screen and buds and then flows directly upwards towards the air-cooled hood. This also provides enough bends to keep light from the mother room from getting into the flowering room during the dark period. It also puts the air right where it is needed, in the buds. This helps eliminate any problems with bud mold.

    Finally, air is sucked out of the flowering chamber into the utility chamber via another 2 inch PVC pipe that is attached to the air cooled hood via metal hosing used for driers. PVC was used for least resistance. Dryer hose causes drag, while the smooth surface of the PVC makes airflow easier.

    The power behind this is the 150 cfm Dayton pole fan shown in the above photo. You cannot get this at the Home Depot, buy you can get it through Grainger. This thing works so well that the air inlets for the mother chamber can hold up a piece of paper no problem. It’s like a vacuum cleaner. The mother chamber gets fresh air, the flowering chamber gets fresh air and keeps cool, and the utility room is able to vent heat from the ballasts; all from one fan.

    Shallow Water Culture - not your ordinary bucket

    I find hydro to be easier to deal with then soil. It is true that it reacts quickly to bad mistakes, but it equally responds to kindness. Also, soil is messy, and I don’t want to deal with buying soil for my grows. Let me explain the way I came about this hydro setup.

    Of course I owe all of my new knowledge of growing to Overgrow, and one of the great things about this site was 10K’s contribution of the cheapo-areo-cloner. I built one and thought it was great, but wondered what would happen if you let the clones stay in and gave them more light and nutrients. The result? Bonsai mothers hydro style! They thrived, and I was able to control the roots by giving them haircuts once every 6 to 8 weeks. The only problem was that the “reservoir” size was too small for full growth and flowering. So, I basically bought a bigger version of the areo-cloner reservoir and used it for the entire harvest.

    One of the properties of the aero-cloner I like is its lack of any growing medium or cups. I hate rockwool, grow rocks, and cups! The aero-cloner simply rests the roots from the stem directly into the water. Support is supplied via the air hose it is hanging in. It cannot get any simpler or cleaner then this. For the larger version to take the plants all the way through to harvest, I figured the air hose support wasn’t going to work. What would happen when the trunk got too thick?

    Supporting the impending buds

    In this SWC design, support for the plant is provided with 3 different mechanisms. First, when the clones are first taken, they are supported by a strip of foam rubber. 1.5 inch holes are cut into the top of the reservoir for each plant and the foam rubber fits snuggly into each hole, clasping the clone and blocking light from entering the res. While the clone is small, the foam rubber “plug” is enough support. As the trunk gets thicker, the foam rubber will give way and squeeze as needed.

    The main reservoir is made out of a 7 gal. Rubbermaid tub. The screen is made out of 1 inch PVC piping, and is attached directly to the top for the tub. Figure 5 shows how the PVC pipes actually go through the cover. This helps to provide support to cover for weight. The weight of the screen is actually resting on the PVC legs on the bottom of the res, not on the cover.

    As the clones grow roots and fill the reservoir, the root net provides support for the root weight. As the roots get bigger, the bulk of them will sit on top of the net and grow through. When lifting the cover with the plants off of the reservoir, the net will help hold the weight of the plant roots. Finally, as the plants grow towards the screen, the branches are trained and tied down with twist ties to the screen. This further provides support for the plant. Once the plant has started to fill the screen, the foam rubber is simply blocking the light and no longer provides any support.

    All in all, this SWC design only uses 6 inches of height for the reservoir, thus the usage of the term shallow.

    Putting the bloom reservoir together

    I glued all of the PVC pipes into the elbows except for 8 joints. This allows the screen to be removed from the top, and to break down even further for storage when needed. Figure 6 shows the screen removed from the top, which helps greatly when taking in the harvest. By cutting the trunks and removing the screen from the top, the buds are quickly separated from the roots and ready to be stripped for drying. The cross bar PVC pipes directly under the cover and the T-fittings are glued to the cover using at hot glue gun.

    The top corners of the screen are made with 90 degree elbows. The crossbars are simply glued to the sides of the elbow.

    The reservoir water is supplied with air via aquarium air pumps and bubble wands or air stones. I am currently using bubbler wands as I find them more reliable and easier to deal with the heavier air stones. The bubbler wands should be replaced every other harvest for maximum air supply to the roots.

    Sand the bottom of the tub where the bubble wand ends are located and glue them down to the bottom of the tub.

    Drill holes towards the top of the tub for the airlines to go into the tub and to the bubble wand. Remember that your water levels must stay below these holes, so make them as close to the top as you can. Keep the hood on the tub while drilling to make sure the cover will still fit over the tub with the airlines in the holes.

    I taped the cover and tub with 3 layers of duct tape. Notice that I left a gap along the top of the tub. I did this so that I can see the water level and bubbles to verify all is well. The water moves through this system too fast for algae to be a problem. After a complete grow, I never once saw any signs of algae.

    Shallow Water Culture parts list
    * 2 - 7 Gal Rubbermaid tubs. These can easily be had at any K-Mart, Wal-Mart, etc. One is used for the grow, the other is used as a holder while changing water.
    * 2 XYZ Dual outlet air pump. Use one for the grow, the other on reserve if the other dies. You don’t want to have an air pump failure with no backup.
    * 3 feet of air hose. Connects the air pump to the bubble wands.
    * 2 – 12 inch bubble wands
    * 1 role duct tape
    * 10 feet of 1 inch PVC pipe
    * 4 – 1 inch PVC T-Fittings
    * 8 – 45 degree PVC elbows
    * 4 - 90 degree 1 inch PVC elbows
    * 2 inch chicken wire fence
    * 1 block of foam rubber (like a sponge)

    Woodworking 101: Building the Cabinet

    Before attempting to build the cabinet, make sure you have the space and the tools to do the job. There is some real work involved with the creation of this cabinet. I am not a master carpenter and this project took me about 2 weeks to complete on a part time basis. I am not going to outline the step by step process of how to build a cabinet like this. If you need that kind of carpentry knowledge, go to Home Depot and pickup a book on how to build cabinets.

    I used ½ inch B/C plywood and ¾ inch hardwood to build the cabinet. I didn’t intend for the cabinet to look good on the outside, but rather to sit in something that looked good. I am currently storing the cabinet in a cardboard TV box, but it could easily be put in a wall (best place if you ask me), or have it sit on a large shelf. I believe that the cabinet “facing” should be unique to the grower to help ensure stealth. Some of the possible facings this cabinet could have:

    * Cardboard box. Put the cabinet in a TV box and then put the TV box in a room full of other TV boxes, computer boxes, etc. Looks like one of many anonymous boxes.
    * Books. Put the cabinet on a large shelf. Cut the ends of books and glue them to the front of the cabinet. Surround the cabinet with real books.
    * In the wall. If you happen to be using unfinished living space like a basement or attic, consider finishing off the room and building the cabinet into the wall with a picture face (like those movies with the safe in the wall).
    * One of NIMBY’s hollowed out dressers. I know NIMBY didn’t invent it, but he is the current Overgrow stealth dresser master.

    Use the ¾ inch hardwood to frame the inside of the box. This provides structural strength and makes it easier to make the cabinet chambers air tight. Use silicon sealant around the seams of the box to further make the cabinet air tight.

    Both the mother room and the flowering room have sliding shelves at the very bottom to allow the plants to slide out and be easily accessed. The 100 lbs kitchen drawer slides work well. With the reservoir full of water, and the plants in full bloom, they still don’t weight too much for the shelves to slide out completely. Also, the box weighs enough to not tip over with the shelves extended out.

    Cabinet Construction parts list
    Rather then trying to cut all of your plywood during construction, have the hardware store you bought the plywood cut the pieces for you:

    1/2 inch B/C plywood:

    * 2 - 35.5" x 21" for top and bottom
    * 3 - 31" x 20.5" for left, middle, and right sides
    * 1 – 35.5” x 32” for back
    * 1 – 9” x 12.5” for utility room cover
    * 1 – 9” x 18” for mother room door
    * 1 – 25” x 31” for flowering room door

    ¾ inch B/C plywood:

    * 1 – for flowering room sliding drawer
    * 1 – for mother room sliding drawer

    For air circulation, I used 1” pvc for air into the mother chamber and 2” pvc to connect the mother room to the flowering room and the flowering room to the utility room.

    * 1” pvc parts:
    * 3 – 90 degree elbow
    * 2 feet 1” pvc

    2” pvc parts:

    * 4 – 90 degree elbo
    * 3 feet 2” pvc

    Miscellaneous parts:

    * 3 – Sets of 1” hinges
    * 2 – 100 lbs capacity drawer slides
    * 3 – Door locks
    * 2 – Cans of silicon sealant

    When I started constructing the cabinet, I began from the bottom up. While fastening the hard wood, use plenty of wood glue and wood screws. The hard wood strips also serve to reinforce air containment to the box as it helps to seal the joints between the plywood. This picture shows various points of interest of the cabinet construction. Remember the old adage, measure twice - cut once.

    Cabinet Lighting System
    This cabinet uses two different sets of lights. The mother room is powered by 4 15 watt fluorescent bulbs while the flowering chamber is powered by a 150 watt HPS. The choice of fluorescent bulbs for the mothers was fairly straightforward. The 150 watt HPS was a more difficult choice.

    I was hoping to achieve the 1-gram per watt measurement with this box so a 150-watt would meet my demands. I could have gone with a 250 watt HPS and probably gotten a slightly larger yield but I think the grams per watt ratio wouldn’t have been as good. Later, I will show an example yield from this box with a 150-watt HPS and I think you will be impressed with the results. Besides, a 150-watt bulb generates less heat and uses less electricity. The heat issue is important as ganja does well at 70 degrees Fahrenheit, which can be done in this box with a 150-watt bulb.

    Both the fluorescent and HPS ballasts are kept in the utility room. This keeps the mother chamber and flowering chamber cooler. Between the two sets of lights, the box uses 210-watts of electricity when both light systems are going. Having the mother room’s fluorescent lights using a remote ballast helps keep the mother room at external temperatures.

    With the Dayton 150 CFM blower, the flower chamber was able to lower the temps by about 16 degrees from what the box would be without the blower. With external temps running around 72 degrees, the flowering chamber averages 72 to 74 degrees just below the lamp.

    Building the 150 HPS grow light

    I went with a 150 watt HPS security light bought easily at any home improvement type store (such as Home Depot, Lowes, Home Base, etc). I got mine for $79 at Home Depot.

    Turning the security light into a remote ballast horticulture light is very easy. I bought a 2-dollar metal meatloaf pan and put the ballast and starter in there and bolted everything down. I used a 5-dollar extension cord for the wiring. I wired a female plug to the wiring that the bulb socket plugs into. The hood and socket are wired to a normal male extension cord allowing the ballast and hood to be separated as needed. This picture shows the hood and ballast after final construction.

    Building the fluorescent grow light

    I found it easiest to just buy 2 cheap 2-foot/2-bulb fluorescent shop lights and dismantle them rather then trying to buy the ballast and other pieces separately. The ballasts in these lights can handle a range of bulbs, not just the 2-foot ones. I bought 4 18-inch/15-watt fluorescent bulbs which work fine. This adds up to 60-watts of fluorescent light rather than 80-watts with the 20-watt bulbs. Each bulb produces about 850 lumens, for a total of 3400 lumens. This is plenty of light for the mothers.

    Grounding is very important for fluorescent lights to work properly. If you don’t wire the ballast and bulb sockets correctly, the lights wont turn on when power is applied. It is important to make sure grounding makes it all the way to the sockets, not just to the ballast. Normally, the entire metal housing serves as ground for both the ballast and the sockets. Separating them means you must wire the ground from the ballast to the sockets. This is accomplished by bolting a piece of sheet metal to the top of the mother chamber and having the bolts go through the sockets from the bulbs to the utility room. Ground the bolts from within the utility room and the lights will turn on instantly every time.

    Cabinet Airflow Setup Details
    Using PVC for the air-ducts produces the smoothest path possible for air-flow through cabinet. This is an important factor because there is considerable drag put on the exhaust fan due to the plants, light hood, and the fact that the air is moving through three separate chambers. Ultimately, there should be a small amount of air-drag because we want any small, unintended, holes in the cabinet to have air sucking in through them rather than blowing out through them. Remember, air management needs to consider smell, as well as cabinet temps and fresh air for the plants.

    Step 1: Setting up the initial air-inlets

    The mother chamber is a long rectangle, which provides an interesting challenge to keeping a fresh supply of air to the mothers. If the air inlet isn’t placed properly the mother room would require a small fan or there would be small dead-air pockets in the foliage of the mothers. Rather then having one larger air hole to the mother room on the side of the cabinet, I created 3 1-inch holes in a horizontal line across the outside of the mother room.

    Each hole is fitted with a 90-degree elbow and 4 inches of PVC as shown in this picture. Be sure to position the PVC so that the air coming in through each is flowing through proper places in the room. Locating them near a mother is best and ensures that the mother is getting access to constant fresh air.

    Step 2:Setting up air-flow to the flowering chamber
    Air flows from the mother chamber to the flowering chamber, which has to deal with the fact that light will be on in the mother area when the flowering room is in complete darkness. Light should not leak into the flowering room or the crop with be threatened. This can be dealt with by placing 4 90-degree elbows in the vent between the mother and flowering chambers. Given the need for so many elbows in such small quarters, the air inlet to the flowering room can be optimally positioned to provide the best air flow possible to the screen of buds. Given the desire to have air flow from the bottom of the room, through the light and out the top, the best place for the air-intake is directly under the middle of the screen. This causes there to be a air vent “arm” jetting out of the back wall and between the water reservoir and the screen - as well as between the two plants.

    Painting the PVC black doesn’t seem to be a necessity. My first harvest was done with bare PVC. It didn’t seem to affect the harvested yield. In operation, light can be observed coming from the flowering chamber through the walls of the PVC when the 150-watt HPS is running. However, the light from the bank of 18-inch fluorescents isn’t powerful enough to penetrate the PVC pipe. You might opt to paint the PVC with flat black paint anyway, just to quell any paranoia you might have about light leaking into the flowering room.

    I used a product called “liquid nails” to fasten the pipe to the walls of the flowering chamber. This works better than trying to strap and screw the pipe to the walls, which might affect the air integrity of the room.

    Step 3: Setting up the flowering chamber air exhaust
    Air leaving the flowering chamber needs to flow through the air-cooled hood first (or it wouldn’t be an air-cooled hood, now would it ;-) ). The air cooled hood should have a grid of holes on the opposite side of the hood from the vent to the utility room. I routed 2-inch PVC from the utility room around to the other side of the flowering chamber. This was due to the fact that the wall between the utility room and the flowering chamber is fairly well packed with the fastened power strip and ballast wiring. There just isn’t enough room for the air vent setup on that side.

    About 10 inches of flex duct is needed to connect the hood so that it can be raised as needed during the grow. I should say that my first grow was done without this. During operation, even without the flex duct, the sucking power of the air exhaust was capable of pulling heat from the hood fairly well. Hooking up the flex duct causes air temps to be a few degrees lower. I kept external room temperatures at 70 degrees, so not having the flex duct was ok. If the room temperatures were kept at 75 then the flex duct would be an absolute essential.

    Air-flow setup conclusion
    With the squirrel cage fan installed in the utility room and the doors closed, air should flow nicely from the mother room, through the flowering room and light hood, and into the utility room. It should be obvious that the air-flow system will not operate correctly while the doors to the various rooms are open. With the door to the utility room open, little to no air is moving through the mother and flowering chambers. With the door to the flowering room open, little to no air is moving through the mother room. Having the mother room door open does not affect air flow much, but if kept open no fresh air will get to the back of the mother room.

    Utility room setup

    To provide power to the cabinet, I took a heavy-duty extension cord, cut off its female end, and wired it to a 2-gang metal box mounted to the side of the utility room. Make sure the extension cord is made from at least 14 gauge wire and that it is properly fastened to the box and plugs.

    I placed the ballast for the HPS below that, and the ballasts for the mother room fluorescents in front, but behind the fan. The flowering room powering strip can be plugged in through a hole cut out to the flowering room (which should be filled with something like silicon).


    Once the box is running, make sure the box is both air-tight and light-tight. You should see no light leaking from anywhere around the box. This can be a challenge around the doors, but a little weather stripping will do the job. Weather stripping is applied around the door opening to help create a good seal when the doors are closed. Count on needing to change the stripping, as it wears from use.

    First Harvest Report

    Left: My first grow with this box was done with 2 Silver Pearl clones, shown just after being inserted into the hydro unit.

    Middle: 2 weeks later and the clones have taken over three-quarters of the screen.

    Right: 56 days of flowering and the two clones are ready for harvest. The screen is fairly well completely packed in with buds, but I would say there is room for more. The pictures of the harvest really don’t do the plants justice in terms of size. It is quite impressive to see the plants at this point. Also, some would say they could have used another week of flushing. Its true, I think they could have stayed another 5 days or so and should have had the flush started about 5 days earlier too. I wanted this grow to produce a more heady high rather then the couch lock high. Harvesting on the earlier side is said to produce less couch lock.

    Cured & Dried

    After 3 weeks of curing, the total dried weight of the buds came in at 110 grams or just 2 grams shy of 4 ozs. That’s a QP of quality bud sticks! This next picture shows the dried harvest with a standard bic lighter as a reference. About 3 oz came from the longer buds, and the rest of the weight was in loose buds. The high of the Silver Pearl is very strong. That amount of bud is more than enough to keep me and my partner happy until the next harvest.

    After looking at the first grow, I am happy with the choice of a 150-watt HPS. I think the 250-watt would have produced too much heat, and it probably wouldn’t have produced a good gram per watt result like the 150-watt did.

    This grow also showed me how important clone selection is. I started with only 6 cuttings from the mother and took the best two. However, those two clones were not identical in development. One clone was about 15 to 25 percent more developed than the other. This difference became more apparent as they were grown out. At the end of the harvest, the smaller clone didn’t produce as much as the hardier one. I now believe the more cuttings you take, the better. I would probably try to have 12 to 16 cuttings to select the best, most equal, clones for flowering.


    After a successful harvest from the box, I am happy that everything worked out well. When growing in such confined areas, a significant amount of imagination and ingenuity has to be applied to get a successful system running. As well as this box produced, there are several areas for improvement.

    The biggest drawback I have with this box is the watering schedule the mothers need. Doing bonsai mothers in small soil grows means they need watering almost daily or every other day. This can be a real hassle when going on vacation. These mothers are supposed to last for years, so sooner or later watering will become an issue.

    I have done some good experimentation with hydro bonsai mothers and was able to maintain them quite well in an aero-cloner style device. Bonsai size was maintained through regular (every 4 to 6 weeks) root trimming. The hydro mothers seemed to be able to go 7 to 10 days without having to water in a fairly small reservoir. I am planning on replacing the soil mothers with hydro mothers in this box and seeing how they last over the long hall. This would ultimately be an easier system to deal with. I recently cut back the roots on my soil mothers and found the mess a bit unruly. With hydro mothers, this box would have almost no waste materials other than clippings from the plants.
    Last edited by Gantz; 04-06-2007, 09:30.
    Incepatori De unde incep??? Cum fac rost de seminte??? Cum germinez semintele???
    2017 Auto Skunks En Ro2018 Urbangrow En Ro Julian's Massive Outdoor PDF

    Very nice thread, thank you.


      sweet.. been a long time since i read this thanks only thing is the mesuerments are not right cant rember but i think the side are 1/2 to big but other than that this box works great
      NGB Mirco box
      Run Linux off a live cd
      150 watt club

      Jethro Bodean School of komputer teknalowgee class of 1998

      Linux Operating System-Ubuntu-6.10 Heres to you Mirco Sux

      We Wont Forget POMH


        thanks Gantz

        this is the article from OG that inspired me to grow
        i modeled my cab form the info in this great article
        thanks again


          awesome thread!

          thank you for posting it!

          lets see if we can 'sticky' it...

          how would you say...K+?
          Sleepy Test Chemmy Jones

          Sleepy Tests Jolly Bud from Mountain High Seeds

          Killer Chem Freebie grow

          Sleepy Tests OJD...>>>
          Gangsta Haze


            very cool. I remember readin that...

            very informative.


              Great thread ! How about keeping the bonsi moms in a mini water culture? Put them in a gallon or quart sized paint can. Great setup !
              The information contained in these posts are acts of fiction and is intended for personal use only and may
              not be reproduced or distributed in any way without the express written consent of Pure MoFo Productions


                Glad to see New Ganja Boys tutorial is safe here.
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                {150w HPS All-in-One Micro Cab} ~Mazar Kush~ {10 Clone Ebb & Flow SOG Diary} (06/17/09)(ACTIVE)
                Stealth Dresser-250w HPS + 40w CFL ~ICE & Chrystal~ DWC LST (04/04/07)(ABORTED)
                400w HPS/MH ~AK48~ DWC ScrOG (04/09/06)(First Grow)(HARVESTED)
                ▲►▼◄▲►▼◄▲►▼◄▲►▼◄▲►▼◄▲►▼◄▲►▼◄▲► ▼◄▲►▼◄

                OG refugee

                OverGrow GROW FAQ
                don't be pissed quit playin! hindsight is always 20/20..........change "if only" to "next time" and you're set homie! - USER NAME


                  Amazing thread my friend, those bonsi's look sweet and your yield is amazing, a big WELL DONE from the Rhino


                    Thay is simply one of the best tutorials I have ever read. I remember it well from OG. I am learning to save all the best threads for my personal archive now, and this one certainly has a place. Its awesome you saved that. Do you have any more classic threads saved from og?
                    end transmission...



                    "We are not criminals, we grow our own shit and
                    don't want to support gangsters and terrorists.
                    We are freedom fighters and nature lovers and
                    our hobby does not hurt one single person."


                      name them. or pm me and i'll se what i can do about it...
                      Incepatori De unde incep??? Cum fac rost de seminte??? Cum germinez semintele???
                      2017 Auto Skunks En Ro2018 Urbangrow En Ro Julian's Massive Outdoor PDF
                      2018 SEEDSMAN OUTDOOR AUTOS SWT SDH


                        glad to see this thread become a sticky but if any ones needs some help with the box let me know i have a working copy of it.
                        NGB Mirco box
                        Run Linux off a live cd
                        150 watt club
                        GROW ROOM LOG BY VBSPARKY

                        Jethro Bodean School of komputer teknalowgee class of 1998

                        Linux Operating System-Ubuntu-6.10 Heres to you Mirco Sux

                        We Wont Forget POMH


                          Very nice thread Gantz!

                          Its a model sticky, simply textbook quality.

                          The simplicity and efficiency of this setup and grow is outstanding.

                          Keep up the micro growin.
                          keep it righteous. 420.


                            god i will never be able to set this up, im so mad

                            me no good at building things, and i have no experience with electronics


                              i always thought this was one of the best written tutorials i ahve ever read, there are lots of things i would do differently about the cabinet itself, but i know i would never have the patience to write a tutorial that is that easy to read and understand
                              When the flame retardent books came out they had to burn the readers...