Team:MIT/Manifold

From 2014.igem.org

(Difference between revisions)
(Created page with "{{MIT-header}} <html><body> </body></html>")
Line 1: Line 1:
{{MIT-header}}
{{MIT-header}}
<html><body>
<html><body>
 +
Midipreps require a vacuum manifold and minipreps may use it if you so choose.  It uses vacuum to draw fluid through a spin column.  Our labs manifold was in poor shape, the hose was attached with a quarter inch mass of parafilm and the opposite end from the hose leaked.  A new 24 tube vacuum manifold from QIAGEN costs $270, the following kit cost 15.21(even with a lot of leftovers) and holds 36 tubes.
 +
Proof
 +
Works like a charm.  If the video doesn't work, it should be attached.  This sped up minis quite a bit, we use it a lot now.
 +
 +
Tools:
 +
something to cut PVC pipe, I used a hacksaw and the wood saw on my multitool.
 +
Something to tighten the brass fitting, I used a crescent wrench
 +
optional: Hot glue gun or teflon tape to seal brass fitting, probably not needed
 +
 +
Parts:
 +
3/4" PVC pipe, the size of manifold you want determines amount.  I used a 10 foot segment and probably have 4 or so feet left over.  I had to cut this in half to fit it on the subway, if you have to use a train, make sure you are the type that always carries a saw.
 +
3X 90 degree elbows, same size as pipe
 +
3X Tees, same size as pipe
 +
brass barb to male thread adapter, sized for vacuum hose (I used 3/8 tube to 1/2" thread since its all I could find)
 +
PVC female thread to pipe slip, should fit into a tee socket and the brass fitting.
 +
PVC cement
 +
PVC primer (if you think you need it, the cement I have is rated to 180 PSI, and even at full vacuum, this is less than 15 PSI, I woldn't be surprised if hammering the joints together with a rubber mallet was a good enough seal)
 +
 +
note:  You will have enough primer and cement to make 400 of these.  You could probably get away with 1/2" pipe.
 +
 +
I bought some extras, you probably wont need any.
 +
Layout
 +
 +
I ended up making a mistake and turning the brass hose fitting 90 degrees, I think the bellow configuration is probably better for our particular setup.
 +
 +
[MIT iGEM 2014 > Open source QIAGEN vacuum manifold > IMG_20140814_181223_315.jpg]
 +
 +
Assembly
 +
 +
I measured the depth of the fittings at 3/4".  I doubled this and added 1/4" to get the small pieces for connecting the elbows and tees together.  The saw eats up some amount of the material when you cut, so I like to measure-cut-measure-cut... to make sure the pieces are as long as I want them  Try to get the cut nice and straight.  If your cut isn't perfect, measure from the part that sticks out the most, that is the part that will bottom out when you put this together, all the imperfections at the pipe ends will be inside the fittings, only max length discrepancies will be visible.  Remember to clean up the dust this makes and get all the mess off the ends of the pipe.  It helps a lot to have the pipe secured when you cut it.  You may want to try pressing these together, don't do it.  The fittings are tapered and require a mallet to get in all the way, and are nearly impossible to get back out once together.  (don't worry about when you cement them together, they go right in with the cement).
 +
 +
[MIT iGEM 2014 > Open source QIAGEN vacuum manifold > IMG_20140814_183348_857.jpg]
 +
 +
I then cut the long segments, 20 inches left 1 inch extra for the way I drilled 36 holes.
 +
 +
[MIT iGEM 2014 > Open source QIAGEN vacuum manifold > IMG_20140814_184501_908.jpg]
 +
 +
Next comes gluing.  This must be done in a very well ventilated area, I'd suggest going outside.  I didn't use primer, you may want to.  Follow the instructions on the cement for actual technique.  Remember to keep the positions of pieces correct when putting this together, and don't get them rotated wrong.  I'd suggest putting the short pipes into the corner fittings, then the corners on the outer long pipes, then the tees on the inner long pipe, then then add the outside long pipe assemblies to the middle (this requires doing 2 joints at once, so be quick), and finally add the bushing reducer.
 +
 +
[MIT iGEM 2014 > Open source QIAGEN vacuum manifold > IMG_20140814_201031_318.jpg]
 +
 +
The brass fitting screws into the plastic threaded bushing.  Pipe threads are tapered, they should get tighter as you screw them in.  If the fitting doesn't get tight, it probably doesn't seal.  Mine got harder to turn when the hex part you grab with the wrench ran into the plastic, do not mistake this for it getting tight.
 +
 +
[MIT iGEM 2014 > Open source QIAGEN vacuum manifold > IMG_20140814_202049_289.jpg]
 +
 +
You should use teflon tape to wrap the threads to make it fit tight, but I just used hot glue to seal around the fitting, this should work for a vacuum system.
 +
 +
[MIT iGEM 2014 > Open source QIAGEN vacuum manifold > IMG_20140814_204055_790.jpg]
 +
 +
Drilling the holes is the hard part. I considered lathing a piece with the correct taper and a flat on the top, then heating the pipe to make it moldable with a heat gun and pressing it into an undersized pilot hole.  This is more likely to work, especially if you use a drill press and clamp the pipe to make sure its really straight.  I just drilled the holes with a 5/32's drill and tilted the drill and spun it around (at about a 30 degree angle).  Try to keep the holes round instead of  oblong, it will make them seal better.  Use a piece of scrap pipe to practice and test with a spin column.  Also test with a spin column regularly as you go.  Remember that you do not have a magical drill that can redrill a hole smaller, so when in doubt, drill a hole small.  Also, the spin columns wear out when you put them into and take them out of holes, so a spin column you use a lot will fit tightly in a hole that's too small for a new spin column.
 +
 +
[MIT iGEM 2014 > Open source QIAGEN vacuum manifold > IMG_20140814_211519_317.jpg]
 +
I leave how to plug the extra holes as an exercise to the readers.  I'd suggest tape(electrical feels like it would work the best to me), you could probably find non porous plugs as well.
 +
 +
Setup difference between this and the Qiagen manifold:
 +
 +
This drains fluid into the vacuum tube, the Qiagen manifold stores fluid in the manifold and you can drain it out a capped hole on one end (the cap that leaks on ours).  This means that you must have the manifold hooked up to a waste flask that is designated for QIAGEN waste (remember that mini and midiprep waste makes chlorine gas when combined with bleach).  This also uses a 3/8" inner diameter hose, I think the Qiagen manifold uses something like 1/4" ID, you can probably stretch sufficiently stretchy hose.
</body></html>
</body></html>

Revision as of 19:21, 11 October 2014

 


Image Map

Midipreps require a vacuum manifold and minipreps may use it if you so choose. It uses vacuum to draw fluid through a spin column. Our labs manifold was in poor shape, the hose was attached with a quarter inch mass of parafilm and the opposite end from the hose leaked. A new 24 tube vacuum manifold from QIAGEN costs $270, the following kit cost 15.21(even with a lot of leftovers) and holds 36 tubes. Proof Works like a charm. If the video doesn't work, it should be attached. This sped up minis quite a bit, we use it a lot now. Tools: something to cut PVC pipe, I used a hacksaw and the wood saw on my multitool. Something to tighten the brass fitting, I used a crescent wrench optional: Hot glue gun or teflon tape to seal brass fitting, probably not needed Parts: 3/4" PVC pipe, the size of manifold you want determines amount. I used a 10 foot segment and probably have 4 or so feet left over. I had to cut this in half to fit it on the subway, if you have to use a train, make sure you are the type that always carries a saw. 3X 90 degree elbows, same size as pipe 3X Tees, same size as pipe brass barb to male thread adapter, sized for vacuum hose (I used 3/8 tube to 1/2" thread since its all I could find) PVC female thread to pipe slip, should fit into a tee socket and the brass fitting. PVC cement PVC primer (if you think you need it, the cement I have is rated to 180 PSI, and even at full vacuum, this is less than 15 PSI, I woldn't be surprised if hammering the joints together with a rubber mallet was a good enough seal) note: You will have enough primer and cement to make 400 of these. You could probably get away with 1/2" pipe. I bought some extras, you probably wont need any. Layout I ended up making a mistake and turning the brass hose fitting 90 degrees, I think the bellow configuration is probably better for our particular setup. [MIT iGEM 2014 > Open source QIAGEN vacuum manifold > IMG_20140814_181223_315.jpg] Assembly I measured the depth of the fittings at 3/4". I doubled this and added 1/4" to get the small pieces for connecting the elbows and tees together. The saw eats up some amount of the material when you cut, so I like to measure-cut-measure-cut... to make sure the pieces are as long as I want them Try to get the cut nice and straight. If your cut isn't perfect, measure from the part that sticks out the most, that is the part that will bottom out when you put this together, all the imperfections at the pipe ends will be inside the fittings, only max length discrepancies will be visible. Remember to clean up the dust this makes and get all the mess off the ends of the pipe. It helps a lot to have the pipe secured when you cut it. You may want to try pressing these together, don't do it. The fittings are tapered and require a mallet to get in all the way, and are nearly impossible to get back out once together. (don't worry about when you cement them together, they go right in with the cement). [MIT iGEM 2014 > Open source QIAGEN vacuum manifold > IMG_20140814_183348_857.jpg] I then cut the long segments, 20 inches left 1 inch extra for the way I drilled 36 holes. [MIT iGEM 2014 > Open source QIAGEN vacuum manifold > IMG_20140814_184501_908.jpg] Next comes gluing. This must be done in a very well ventilated area, I'd suggest going outside. I didn't use primer, you may want to. Follow the instructions on the cement for actual technique. Remember to keep the positions of pieces correct when putting this together, and don't get them rotated wrong. I'd suggest putting the short pipes into the corner fittings, then the corners on the outer long pipes, then the tees on the inner long pipe, then then add the outside long pipe assemblies to the middle (this requires doing 2 joints at once, so be quick), and finally add the bushing reducer. [MIT iGEM 2014 > Open source QIAGEN vacuum manifold > IMG_20140814_201031_318.jpg] The brass fitting screws into the plastic threaded bushing. Pipe threads are tapered, they should get tighter as you screw them in. If the fitting doesn't get tight, it probably doesn't seal. Mine got harder to turn when the hex part you grab with the wrench ran into the plastic, do not mistake this for it getting tight. [MIT iGEM 2014 > Open source QIAGEN vacuum manifold > IMG_20140814_202049_289.jpg] You should use teflon tape to wrap the threads to make it fit tight, but I just used hot glue to seal around the fitting, this should work for a vacuum system. [MIT iGEM 2014 > Open source QIAGEN vacuum manifold > IMG_20140814_204055_790.jpg] Drilling the holes is the hard part. I considered lathing a piece with the correct taper and a flat on the top, then heating the pipe to make it moldable with a heat gun and pressing it into an undersized pilot hole. This is more likely to work, especially if you use a drill press and clamp the pipe to make sure its really straight. I just drilled the holes with a 5/32's drill and tilted the drill and spun it around (at about a 30 degree angle). Try to keep the holes round instead of oblong, it will make them seal better. Use a piece of scrap pipe to practice and test with a spin column. Also test with a spin column regularly as you go. Remember that you do not have a magical drill that can redrill a hole smaller, so when in doubt, drill a hole small. Also, the spin columns wear out when you put them into and take them out of holes, so a spin column you use a lot will fit tightly in a hole that's too small for a new spin column. [MIT iGEM 2014 > Open source QIAGEN vacuum manifold > IMG_20140814_211519_317.jpg] I leave how to plug the extra holes as an exercise to the readers. I'd suggest tape(electrical feels like it would work the best to me), you could probably find non porous plugs as well. Setup difference between this and the Qiagen manifold: This drains fluid into the vacuum tube, the Qiagen manifold stores fluid in the manifold and you can drain it out a capped hole on one end (the cap that leaks on ours). This means that you must have the manifold hooked up to a waste flask that is designated for QIAGEN waste (remember that mini and midiprep waste makes chlorine gas when combined with bleach). This also uses a 3/8" inner diameter hose, I think the Qiagen manifold uses something like 1/4" ID, you can probably stretch sufficiently stretchy hose.