Feature Article: How To Add A Camcorder To Your Rocket Also in this issue: More Fun With Video Cameras Cover Photo: LOC Precision’s Onyx rocket kit. Get your’s today at: www.ApogeeRockets.com/LOC_Onyx.asp Apogee Components, Inc. — Your Source For Rocket Supplies That Will Take You To The “Peak-of-Flight” 3355 Fillmore Ridge Heights Colorado Springs, Colorado 80907-9024 USA www.ApogeeRockets.com e-mail: [email protected] ISSUE 254 FEBRUARY 9, 2010 How To Add A Camcorder To Your High Power Rocket By Mike Momenee Have you ever thought about launching a tiny camcorder atop your G motor and higher-powered, 2.6” diameter and larger rockets? Want to use a video camera that can capture your entire flight, from ignition to landing? Just not sure where to begin? I’m sure that there are countless ways to accomplish this; I’d like to share how I’ve been doing it since 1971! Ok, as a little background, I caught the rocketry bug in the late ‘60’s, when I was in junior high school. I pursued model rocketry throughout high school, where I participated in science fairs and wrote research papers for regional and national competition (“The Krushnic Effect in Model Rocketry”, “Determining the Efficiency of Ducted Propulsion Systems in Model Rocketry”- yikes!). About 1970, I tried an Estes product which took a black & white still photo at the rocket’s apogee. It was good, but I wanted more. My best friend in high school, Kirk Packo (now a famous physician- Google him) was quite good with cameras, and I was the rocketeer. We purchased a Kodak 8mm movie camera from a pawn shop, and using some parts and motors from a Centuri kit that his brother had lost interest in, I built Cinema 1. That rocket is lost to history (I gave it away when I went to college), but it was virtually identical to Cinema 2 (above), which I built in 1977. That big black thing Photo 1: The Cinema 1 rocket sticking out from the with an 8mm movie camera in it. payload bay was the Kodak movie camera, with a front surface mirror mounted at 45 degrees so that the view was down the rocket body, and attached with masking tape! Aerodynamically sleek- no. But fun- yes! You can check out the video from this 1977 flight on YouTube, as well as all my other onboard rocket videos from the present. Search for jmomenee, and you’ll find them. Fast forward to 2009. After a 32 year hiatus from rockAbout this Newsletter Step 1- Choose a small camcorder There are a lot of fine small camcorders out there, but I chose the Aiptek HD-1 camcorder, which I purchased for about $50 used on Ebay. Amazon is selling new ones for $79.99. Its tiny dimensions are 2.8 x 1.2 x 4 inches and it weighs only 4.8 ounces. It’s a no-frills camcorder, but it has the ability to shoot video at 60 frames per second! Because of the speed at which your rocket travels, I highly recommend that you choose a camcorder that has this feature. When you watch your video frame by frame, you may thank me for this recommendation. A pointer about this camcorder- I read some complaints from the nonrocket community that the camcorder would turn off for no apparent reason. I discovered a little “fixit” secret- if you cut a small sliver of credit card-like plastic the size of the camcorder battery thickness and width, and place it between the base of the battery and the battery area in the camcorder, the battery cannot loose Photos 2 & 3: AIPTEK HD-1 camcorder. Bottom shows viewfinder open and rotated back against the body. Continued on page 3 Newsletter Staff You can subscribe to receive this e-zine FREE at the Apogee Components web site (www.ApogeeRockets.com), or by sending an e-mail to: [email protected] with “SUBSCRIBE” as the subject line of the message. Page 2 etry, I decided that it would be my perfect retirement hobby. Thanks to a great article by James Yawn which I found on the web, I discovered that today’s camcorders are small, lightweight and are being launched on rockets. So I dived in with both feet. ISSUE 254 Writer: Tim Van Milligan Layout / Cover Artist: Tim Van Milligan Proofreader: Michelle Mason February 9, 2010 Continued from page 2 Add A Camcorder To Your Rocket camera opening, measure down 3” from the top of the camcorder bay body tube. Draw a line around the circumference of the tube using a piece of paper wrapped around the tube as a guide. connection with the camera’s battery contacts (see Photo 4the little white sliver of plastic sticking up is the “wedge” I cut to assure the battery contact). In a half dozen flights, I have never had a loss of power. {Editor’s Note: I also use Photo 4: Put a peice of the AIPTEK HD-1 camcorder. plastic behind the battery to make sure the contacts On my first two flights, the SD Memory card popped out touch during the harsh of its socket during the jolt of acceleration of the rocket. landing and I lost all the video. I now just remove the memory card and use the internal memory of the camera when flying it in a rocket. It allows plenty of time for a flight.} Step 2- Make a camcorder bay for your rocket The first rocket I built in 2009 was Aerotech’s HV Arcas kit (www.ApogeeRockets.com/Aerotech_arcas.asp). I altered it quite simply. While the Arcas has everything you need, here is what you will need for most any rocket you may want to add a camcorder into: 1) A 10” to 12” piece of body tube of the same diameter as your rocket. 2) A “connection” between the base of the camcorder tube and the rocket’s body tube, if you don’t have one already. It can be made from a piece of coupler and a coupler bulkhead glued into it, with a screw eye screwed into the coupler bulkhead. Or you could use an avionics bay, which is quite similar to what I’ve already described. If you use the Aiptek HD-1 and use a 2.6” diameter tube, here are the cut dimensions I used. For the front of Then use the front of an opened dresser drawer to draw a straight line down the length of the tube, starting at the circumference line you just drew. Measure down 2.75” and make a mark. Draw another circumference line at that mark. You now have two circumference lines 2.75” apart. Photo 5: Cut an opening on each side of the tube to hold the camera. Measure 1.2” on a piece of masking tape, and place the tape with the left edge of the 1.2” mark on the straight line down the length Photo 6: The camera inof the tube, just below the first circumference line you serted into the cut-outs. made. Make a mark on that circumference line where the right edge of the 1.2” mark is. Draw a second straight line along the right side, using the dresser drawer as before, and you have your cutout area for the front of the camera. For the back of the camcorder opening, use these Continued on page 4 For Great Articles for This Newsletter Are you a writer looking for some serious pocket change? We’re paying up to $350 for good how-to articles for this newsletter. If you’re interested, see our submission guidelines on the Apogee web site. www.ApogeeRockets.com/Newsletter_Guidelines.asp ISSUE 254 February 9, 2010 www.ApogeeRockets.com We’re Paying Cash Page 3 Continued from page 3 Add A Camcorder To Your Rocket dimensions and the same steps, after locating the exact opposite side of the tube: 3.2” down from the top of the camcorder body tube, 2.3” tall and 1.1” wide. What you’ll end up with will look like Photo 5, unpainted, of course. You may need to notch the top a bit as shown in Photo 5 to accommodate the buttons on top of the camcorder. When cutting in general, use a sharp blade, and make several passes with the knife to cut all the way through. For a 3” or larger diameter tube, you only need to cut the hole for the front of the camcorder. In a 3” tube, the back of the camcorder will perfectly touch the opposite inside wall of the camcorder tube. I like to use small screws to secure the camcorder tube to both the nose cone and the coupler. That way, you can reconfigure your rocket back to its original construction and it prevents the nose cone from pulling off the tube by accident during the launch. To hold the camcorder securely in the camcorder tube, I simply wrap a piece of blue painters masking tape all the way around the exposed camcorder and body tube, then wrap a piece of electrical tape over top of the blue masking tape. It hasn’t budged a fraction of an inch using H motors so far. By the way, there is no “ON” button on this camcorder; you need to open the viewfinder to turn on the camera, fold the viewfinder into the open position back into the camcorder body (as shown in Photo 2), and insert it in the body tube. Hit the exposed “RECORD” button, and you’re recording! Step 3- Do you want to see the parachute on the way down or the ground? If the answer is to see the parachute on the way down, you are done. Attach your shock cord and parachute to the screw eye at the base of the camcorder tube and you’re ready to fly. But if you are like me and want to see the ground on the descent portion of the flight, here is how I accomplish it: 1) I first drill a hole through the point of the noseconeI’m going to ultimately feed a piece of Kevlar shock cord through it. It helps to first cut off the first 1/4” or so off the nosecone point to give a flat surface to drill into. 2) Measure out a piece of Kevlar® shock cord. The 1500# cord, P/N 30327, from Apogee Components www. Continued on page 5 • Reusable Rocket Motors Save Money • Holds Aerotech’s Reload Propellant • Sizes: 24mm To 98mm Diameter • Power Range: E Through N • Cases For Any Project • Rouse-Tech Quality • Affordable! www.ApogeeRockets.com/Rouse-Tech_Monster_Motors.asp Page 4 ISSUE 254 February 9, 2010 www.ApogeeRockets.com High-Power Reload Casings Continued from page 4 Add A Camcorder To Your Rocket the tube. ApogeeRockets.com/shock_cord.asp) works perfectly. The cord should be around 24” to 36” long, depending on the dimensions of your camcorder tube and nosecone. 3) Tie it, and CA glue the knot, then epoxy it to the opposite sides of the tube (see Photo 7), making sure not to glue it to the coupler at the bottom, and leaving enough room at the top for the shoulder of the nosecone to fit into 4) I use a quick link at the top of the cord glued to the inside of the camcorder tube, and run a 6 to 9 foot section of Kevlar cord through the nosecone hole at the tip and tie it to the quick link, CA gluing the knot. 5) Cut a groove in the coupler to accept the thickness of the Kevlar cord, and attach the Kevlar cord to your parachute. Assembled, it should look something like the Photo 8. The light colored cord(s) in Photo 8, running from the nosecone and ending just above the “CINEMA 3.5” name are the Kevlar cords. I’ll tell you why this rocket has two cords in a future article! Photo 8: The Kevlar With this shock cord configu- shock cord comes out ration, the chute will be above the of the nose tip, and runs down the side of rocket and the camcorder will have a view of the ground on the the rocket. way down. I use a barrel swivel at Photo 7: Shock cord attached inside the tube so the camera will hang vertically. Continued on page 6 Continued on page 10 • Designed to ignite the top motor in two-stage rockets. • Provides an easy way to stage composite propellant motors • Fires off igniters after a preprogrammed amount of time following liftoff • G-switch senses liftoff and insures against a false launchdetection • Small, lightweight design is great for skinny rockets • Easy-to-use, and will fire off any igniter, including clusters! Battery, battery connector, mounting board and igniter are not incuded. www.ApogeeRockets.com/Staging_Timer.asp ISSUE 254 February 9, 2010 www.ApogeeRockets.com Staging Electronics Page 5 Continued from page 5 Add A Camcorder To Your Rocket the end of the parachute lines, so that rocket and camcorder are free to turn independently of the parachute. Step 4- Creating your videos and screen capture jpegs The Aiptek camcorder comes with a video creation software CD called Total Media Extreme, which you can use to edit/add to the video. From there, you can save it in several common formats, including .wmv and.mov. On the Mac computer, the videos downloaded from the camera are easily opened in Apple’s QuickTime® software. I also use the freeware VCL Media Player (www.videolan.org) because it has a variable-speed playback function, and also a “SNAPSHOT” function which allow you to make a screen capture of any frame from your video you want. Photos 9 through 11 are some jpegs made with that software tool. Lastly, you may ask why I didn’t streamline the camcorder by adding a cowling. The short answer is that I wasn’t so concerned with altitude. And so far, every flight of four different 2.6” or 3” diameter rockets demonstrated that each flew straight and true, even with that little camcorder Photo 10: A nice horizon shot from an arcing rocket. Photo 9: A booster stage at the instant of staging. Continued on page 7 Model Rocket Design and Construction By Timothy S. Van Milligan New 3rd Edition Now Shipping! This new 328 page guidebook for serious rocket designers contains the most up-to-date information on creating unique and exciting models that really work. With 566 illustrations and 175 photos, it is the ultimate resource if you want to make rockets that will push the edge of the performance envelope. Because of the number of pictures, it is also a great gift to give to beginners to start them on their rocketry future. For more information, and to order this hefty book, visit the Apogee web site at: www.ApogeeRockets.com/design_book.asp Apogee Components 3355 Fillmore Ridge Heights Colorado Springs, Colorado 80907 USA telephone: 719-535-9335 website: www.ApogeeRockets.com Page 6 ISSUE 254 February 9, 2010 Continued from page 6 Add A Camcorder To Your Rocket paper nut. His paper, “Determining the Efficiency of Ducted Propulsion Systems in Model Rocketry”, won one of ten national scholarships in a 1971 national contest, complete with a trip to Washington, DC and a group picture on the Capitol steps. Mike graduated from Notre Dame in 1975 with a science degree, and had a successful healthcarerelated sales/sales management career, from which he retired in 2008. Mike and his wife Jackie, live in sunny Valrico (Tampa) Florida, and I fly at the monthly TTRA launches in Plant City. Photo 11: A nice aerial view of the launch site. poking its head out of one or both sides of the rocket. I even flew my Level 1 certification flight with a camcorder in it. And my Level 2 rocket, CINEMA 6, sits ready for its February certification attempt, its camcorder bay waiting for the Aiptek. Finally, I hope I may have piqued your interest about flying a camcorder. For me, seeing the view from the rocket is even more enjoyable than the watching from the ground. My time has probably passed for applying to the astronaut training program, so my camcorder videos are as close as I’ll come to flying in a rocket! About the Author: Mike Momenee began flying model rockets during the late 1960’s. He says he was a science fair and research Mike Momenee in 1971 on the Capital steps. Inset: Mike shown in 2009 flying one of his Cinema rockets. • It’s Your Passion On Desktop Display • Choose From 45 Different Rockets • Peanut Scale To Giant Scale • Easy to Very Challenging • Affordable! www.ApogeeRockets.com/Scale_Rocket_Kits.asp ISSUE 254 February 9, 2010 www.ApogeeRockets.com Want A Scale Model? Page 7 More Fun With Video Rockets By Tim Van Milligan As I mentioned in Mike’s article, I also have used the AIPTEK HD-1 camcorder in a rocket (see Newsletter 234 at: www.ApogeeRockets.com/education/downloads/Newsletter234.pdf). What fascinates me is the amount of information you can glean from the images you get back. In the photos on this page, I’ve pointed out some of the neat things you can see. In the top-right photo, we tried a drag-race with two rockets. The Lexxjet (www.ApogeeRockets.com/LexxJet. asp) took off first and veered off, but the camera rocket had a big motor in it and quickly rose and got into position to catch the other rocket. Too bad that the rocket stayed in the shadow of the camera rocket’s smoke plume. To see the actual HD video of this flight where you can step through it frame by frame, visit: www.ApogeeRockets.com/Education/ Downloads/Video_Launch.mov. The file size is about 9MB. Note that this is the launch site for NARAM-52 happening in July 2010 — have you made plans to attend? of the rocket’s altitude. This was a project done by students here in Colorado (read more about it at: www.cosrocs. org/htmlpages/sli.html) Preventing Spin? I’ve noticed the high rate that rockets spin as they ascend. I wish I had a good solution to this problem. I have some ideas, but I haven’t tried them in the real world yet. Do you have any suggestions? If you do, please write in and let me know what you do to get better video images. The same goes for when the rocket is descending by parachute. That should be the best time in the flight to get stable images if you can eliminate the swaying and twisting of the rocket. I think there is an art to getting good images back, and it takes some experimenting to learn the tricks. If you want a good horizon shot, like shown on page 6, I’ve found that it is easier to get if you angle the launch rod so the rocket arcs over better. You can get the horizon shot on a straightup launch, but it happens so quickly that the image can get distorted (a fish-eye effect). The angled launch is better. You can also use the video to get an accurate reading Join The NAR The National Association of Rocketry (NAR) is conducting a special promotion for brand-new members during its first-ever membership campaign. New members will get three free rocketry products, with a total value of over $30. This is in addition to the regular membership benefits: 1. 6 issues of the 48-page color Sport Rocketry magazine 2. A 60-page how-to book on all aspects of rocketry, the NAR Member Guidebook 3. $1 million rocket flight liability insurance 4. Get your high-power certification On the membership application, be sure to say that Apogee Components sent you. www.NAR.org Page 8 ISSUE 254 February 9, 2010
© Copyright 2024