maybe pointless ..........but well appreciated!

This might be pointless.......but this guy is good. OOOPPPSSS!

Rudders, Planes & Towed array pot

In between I started with the rudders and dive planes. I have made them out of rectangular pieces of oak (what renovating a house is good for). Glued some copies of the drawing on top and started sanding and grinding till I had the wanted shape. The Same I did with the housing of the towed array. Then applied some putty, filler and consequently some sanding & grinding.
After casting I will cut-out the actual surfaces of the rudders and planes. I will make the surfaces as large as possible especially the ones of the rudders in order to get a good turning rate of the sub.



When I took the planes, rudders and pod and presented them to the hull they seemed out of scale. I remembered that I drew them myself taking pictures as a reference as the shapes of the parts on the Greg Sharpe drawing differed from the pictures. Now they look to big. I shortened (halve an inch) and narrowed them down (1/4 inch) to match the scale.

As the silicone is quite expensive I did not want to waste it in oversize boxes so I tailor-made some boxes out of styrene. The dimensions are slightly larger than the dimensions of the part to cast. The top of the lower part of the box is also the dividing line of the part. It makes it easier to remove the modeling clay excess when you press the part in it. The boxes are provided with two holes for respectively the vent and pouring channel. The lid slides over the lower part.



For the rudder and dive planes this will be an intermediate casting. I have made both out of oak and I felt not comfortable to saw the control surface out of the masters, I was afraid the trailing edges would brake (they are quite thin). So I first make a cast out of the masters and then saw the control faces out of the cast (if I screwed up I only had to cast a new one). Afterwards I will make another cast of the finished pieces. The water intake scoop and the towed area pod will be cast directly into a finished product.

A drill press was missing on my machinery list, and this was an item I needed for manufacturing the rudders and diveplanes. I did not need a big machine but I wanted one with high precision. After streaming the WWW I found one for my budget I wanted to spent with a max clearance of 0.02mm on the spindle.

The masters of the rudders end dive planes were still were I left them…sitting in the modeling clay. For the making of the sprue channels I modified a syringe so I got the desired diameter for the channels. Filled the syringe with molding clay an out came the channel. I cut the cylindrical formed clay in half longitudinally and pressed them in place on the mold. The mold were closed and the seams were sealed with modeling clay. The poor funnels I made out of paper, put in place and sealed with molding clay.



The silicone was degassed in my DYI vacuum chamber (works Great!) and poured into the molds. After curing molds were opened up and master and moulding clay was removed. The only thing I needed to do before pouring the other half is making new sprue channels in modeling clay and put them in place together with the masters……and apply release agent. Closed and sealed everything and poured the other halve. The mold worked out fine.



Next step was to pour the resin in the molds, again I made the pour funnels out of paper. After the molds were filled I placed the in my pressure chamber @ 3bar, and let them cure overnight. I was very pleased with the result. The only thing I noticed is that the diving plane was slightly bent but the master was straight. I thought I applied to much force when I pressed the master in the modeling clay as the rudder is long and thin it is fragile. Later I discovered that the rudder didn’t fit into the mold anymore. So the mold was OK the deformation happened when I removed the dive plane from the mold. It seems that the resin was not completely hardened. So a casted another one, left it for three days in the presser chamber and came out perfectly.



Next step was to cut the control faces out. Everything was marked in pencil. On the real sub all the rudders and diving planes are provided with trim surfaces these are supported by pintle bearings. I want to integrate these bearing in the model. So these were also drawn.

First I had to drill the rudderstock holes (drill press time). As the rudders and dive planes are double curved it is hard to clamp them in a machine vice without a sort of jig. As I had a lazy day I din’t want to make a jig, so I tried……….modeling clay. This works great, just put an piece of modeling clay on both sided and clamp it in the machine vice, the modeling clay squeezes itself in place wen pressure is applied. 2mm holes were drilled.



The surfaces were cut out with a scroll saw. Before I made the cut I had to level the planes in both directions in order to get a nice vertical cut. This was done with modeling clay. A recess for the pintel bearing was also cut in the control surface. All cut surface were sanded. A radius was sanded on the leading edge of the control surface. The pintle bearings (3x5x5mm) were made out of a 3mm styrene sheet glued in place and provided with a 2mm hole.



The gaps between the control surface and the actual plane were filed up with putty but not before I thickened up the leading edge of the control surfaces by masking tape (4 layers approx. 0,5mm) and applied some release agent so the putty will not bond with the tape. After curing all were sanded in shape resulting in a nice small 0,5mm gap. The upper and lower gap between the control surface and plane needed also attention. Putty was applied on top and bottom and after curing sanded in shape resulting in a nice small gap. (Idea stolen from his Eminence)




Bushings will support the rudderstock, I made them out of a 3mm brass rod, the all received a 2mm hole.
· 4pc for the pintle bearings (rudderstock runs through it) Ø3x3mm
· 4pc for the upper bearing (protrusion of the hull) Ø3x10mm
· 3pc for the lower bearing Ø3x3mm
These bushings will be placed in position in the molds prior to the casting process so they will be imbedded in the parts after casting.



Next step was to lineup the rudders and planes to the hull and adapt the roots to the hull for a perfect fit. A release agent was applied on the hull iwo the planes location; putty was used to make the curved transition between the hull and planes.



P&S ongoing



I managed to spray and sand the parts several times and their ready for molding.

Initially I didn’t wanted to make use of the Fwd planes, but along the way I have decided to use them for depth control. So I had to fabricate them, they will be fixed not retractable. As above mentioned I first chapped my rudders and planes an afterwards, when I drilled the holes for the rudderstock. It was not so evident to get the hole nicely in the centerline.

So I decided to drill the hole of the rudderstock first and then shape the Fwd plane.

I started with two pieces of 3mm of acrylate sheet, cut at the right dimensions and clued together. Then I draw the longitudinal section a a piece of paper, inclusive the position of the hole for the rudderstock, and glued it on the workpiece.



The workpiece was clamped into the machine vice an de 2mm hole was drilled, as the shape was rectangular and flat it was a piece of cake to drill the hole in the centerline. Next the piece was cut to the longitudinal outlines.



Then I drew the cross-sections of the plane on paper and clued them to the workpiece, and grinded/sanded into shape.



Ready to go

Great looking stuff here, Bart.

Yes ... I tell everyone else not to make pointless, gushing posts. But, I'm special!

M

Intake Scoop & SOKS

The water intake scoop I have drawn up myself from pictures found on the web and in the book of Wayne Frey. They have been made out of two pieces of acrylate and grinded/sanded into shape.
The scoop I initially made was oversized so I narrowed everything down. The inlet was opened up with a handheld grinder.



I will take care of the markings in the P&S (paint and sand) process

Next up were the SOKS (Systema Obnaruzheniya Kil'vaternogo Sleda)....yep did my homework pa.......sensors, these I have crafted without any drawings just by means of pictures and some guested dimensions. See pictures below.



Those were fabricated in the early days of the project, still have to do the cover on the left one and change the order of the sensors (top and bottom), see pic below.



As was preparing for molding, some other part needed fabrication. The hatch of the communication buoy is fitted with cable protectors.



The difficult part was the symmetry between PS and SB protection.
I started tag-gluing to pieces of 3mm acrylate sheet. Then drew the longitudinal outline on it and grinded it into shape.



Next was the cross section this was also grinded in shape, togeter with my fingernails…..this stuff is small.



The parts were separated resulting in 2 symmetrical protections



The Fwd escape hatch was also fabricated, I had a picture as an example.



The dome was made out of 3mm acrylate, the diameter is 13mm.



Groves will be taken care off during the P&S process.
I will cast all the above stuff in an later stadia of the project.

Yeah ... no rest for the weary. Like you and the other thoughtful modelers who post, when we see someone tip-toeing down the path we know all too well, and see a land-mine they may not be aware of, we work quickly to give them a heads up.

Right now, your compressor/vacuum machine will do the things you want. I'm telling you that soon you will be presented with a casting job that will demand at least a slight vacuum assist to fill the tool cavities -- and that process has to be quick! Quicker than the CFM capability of that high pressure/vacuum, low CFM compressor you have. Thus, the need to 'store' your vacuum for quick evacuation of a resin casting tool.

I issue this 'warning' only because you are a quickly rising star in this game: your work is of a high standard, and you exhibit all the characteristics of an excellent model builder. You are fearless. Vacuum assisted casting is in your immediate future. Don't fight it. You are doomed.

Pick up a cheapie volume tank and three-way valve.

There ... that will be 20-buck. I'll be here all week.

M

And you sir.......you give me headaches LOL.
Every time I sit back and relax, enjoying my life, no worries at all…… you're making me nuts with new stuff (at least for me it is new).

So resin outside the vacuum chamber, tool inside and the resin is sucked into the tool by the differential pressure?

grtz,
Bart

Silencer and cyclone

Hear some of you say “50% of the building time” Yeah right…….I will prove it with my dust collection system.

Here again some caution notes:
Please note that building an silencer yourself is at your own risk, I do not recommend this to do it yourself. A vacuum cleaner is a heat source and placed in an confined space is a potential fire hazard. I made calculations to get the optimized airflow, if you get it wrong everything will heatup and start a fire.I safeguard the air temperature at the silencer outlet, if thing overheat everything shuts down.

And as we speak of fire hazards I have a smoke detector and extinguisher in my basement/workshop, just think about the value of all bits and pieces we have......it's worth the money.

Remember the dust problem when I made my masters. Didn’t want to go through that again, (took me a lot of flowers to make up for that one with my beloved wife) so I bought myself a small compact bagless vacuum cleaner that I can connect to all the machinery. Again I could not use it in the evening that thing kept everybody awake in the late hours. So I developed the “thing”…… some of you might have noticed it before.



The “thing” my hull is hanging on is the silencer for the vacuum cleaner. Awkward chape?
The only available space left (except the ceiling) in my basement was a triangle underneath the stairs, so I improvised, adapted and overcame.

It is a box with a labyrinth inside were my vacuum cleaner is placed in. At the end of the labyrinth an opening is provided to let the air of the vacuum cleaner out (it has to be big enough so there is no pressure or temperature builtup. The labyrinth is supported by tree treated rods. All faces are tiled with Acoustic Panels. Pictures will explain.



And it does work!

.

That was it?...... NO IT WASN’T…..bagless is great……but opening the box every hour because the filter of the vacuum cleaner is clogged IS VERY ENNOYING.
I dit a WWW search for a decent primary filter……seems cyclone filters are used often in the woodworker business. Could it be DIY’ed?

Yes, I stumbled upon the site of William Pentz, it is a commercial site but if you look heard enough you can find plans……I give you the shortcut: http://billpentz.com/woodworking/cyc...clone_plan.cfm. There is even a calculation sheet provided with an drawing…..can one ask for more.

It is straight forward….I made mine out of styrene sheet…..the only thing I have adapted was that I worked with flanges and threated rods to connect all parts together. The hardest part is the making of the cone more specific the clueing.

You can make the cone as long as you wish……the longer the better separation you get.
I dimentioned mine in such way that everything fits under the staircase, behind the silencer.

How does it work…..dirty air is sucked in to the cyclone by the vacuum cleaner……The mix of air and dirt particles are forced into a spin by an helix in the cyclone chamber. This causes the heavier particles to go to the wall of the drop cone where they will eventually drop death into the collector bucket. Clean air is sucked out in the middle were the dirt partials can’t come due to the centripetal force caused by the spinning.



It works great I only have to empty the bucket once in a while, it catches 99% of the dust even the smallest particles and the Vacuum cleaner stays clean for a looooong time. In practice I clean it when I empty the collector bucket of the cyclone (two times last year).

But I also guard the air temperature at the silencer outlet, this gives me an indication if things get out of hand inside or not (overheating) better safe than sorrow.

grtz,
Bart

Any time Bart, it will be a plesure !!!

Very, very nice work, Bart!

You might want to couple the compressor suction to a volume tank (one of those cheap road-side air-tanks used to inflate tires, available from Harbor Freight) through a T-valve.

When you start using vacuum to get all the resin into a complicated tools cavities (and believe me, the rate you're going, you WILL!) you don't have time for the low volume compressor to evacuate the air from your pot -- you want that vacuum ... NOW! or the resin will cure before you can de-air it. Hence, the use of a pre evacuated volume tank.

Like these.

You, sir, are a Craftsman -- you put as much care with your tools as you do your work.

It's official now, I hate you.

M

Air compressor / Casting aides

I started this project only heaving a small lathe. As my surname isn't Rockefeller I have to come up with DIY stuff to controle the budget......AND THAT TAKES A LOT OF MY BUILDING TIME Grrrrr (at least 50%, make them so they will last forever).......BUT I LOVE DESIGNING THESE THINGS.

As my workshop is in the basement of the house an regular compressor was not an option due to the noise it would create keeping the children awake. A fridge compressor is quite silent and can be used as an air compressor. It can also be used to create a vacuum what solves the issue of the vacuum chamber (they are capable to pressures up to 30bar/440psi......so treat them as you treat live ammunition).

As air pressure is quite dangerous and I wanted everything to be safe and sound I went to several specialized companies for advice and parts needed. As a pressure vessel I opted for an old 5kg CO2 fire extinguisher in aluminum, work pressure is 50bar which will be more than sufficient, the extinguisher was resent pressure tested (hydro tested). I got it for free from a service company. The fridge compressor itself was also a gift from an AC service company (new in the box). It took me a few weeks to find these items, but it was worth wile as all was donated to me free from charge. Next I purchased all the other stuff, pressure switch with relieve valve, non-return valve, pressure reducer, pressure sensor, temperature sensor, safety valve, various couplings,...., in a specialized store, they advised me what parts to use (working pressure, design pressure, safety systems, etc...).



I made an box out of shuttering plywood to contain the pressure vessel, on top I placed the compressor and all the regulating stuff, everything was connected together. The test was perfect the unit is makes no noise just the noise you hear on a fridge. I set the unit to stop at 5 bar and re-starts at 4 bar. To give a personal touch I milled some sub class names in the shuttering plywood on one side. On the other side I milled the names of the companies in the shuttering plywood, who helped me out supplying the extinguisher and fridge compressor for free. That is the least I could do ( sent a picture of it to them).







The vacuum tank was made out of thick PVC the lid was made of Plexiglas so I could Cleary see the what is going on when degassing. The seal is an O-ring. The dimensions of the groove were calculated as per Andrew Lawrence directions I found on another forum. Here is the link to the youtube video https://www.youtube.com/watch?v=hWcryehE7EU#t=342.

The vacuum tank is combined with my compressor meaning that I can deviate the suction of the compressor to the tank and create a vacuum that is sufficient to degassing the silicone mold casting resin.





The pressure pot for casting I purchased at the www it’s a regular paint pressure tank of 2,25 Gallon/8.5 liter which I modified a little bit.



Mission accomplished

LOL

There be Dragon's here!

M

LOL.......now I understand......detonator words such as CNC, RAPID PROTOTYPING, 3D PRINTING, ARTIST, etc........ can trigger explosions………so it is advisable not to use them on the forum.

Ok I will stay offline now……..until his Eminence is finished……..probable it will take some years.

Grtz,
Bart

Thks Yannis.....I will be knocking on your door for sure when I start with the my Delta VI..... I learn by watching your skills sir.

grtz,
Bart

Thks for the compiments.

I'm very honored but I’m not doing this to go on a commercial tour.
As previous stated I do it because I enjoy it I want to share my experiences with others.
I will not allow it to become another stress building, nerve wracking thing with deadlines to meet (I have a full time job that takes care of that).

Furthermore this is my first scratch built project and it is not flawless. I consider this as a learning model so to speak and I’m learning here all the time. Best forum I have come across.

I'm always here to help out if more info is needed.

grtz
Bart