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These are the user uploaded subtitles that are being translated: 1 00:00:16,344 --> 00:00:19,344 --captions by vitac-- Www.Vitac.Com 2 00:00:19,344 --> 00:00:22,344 Captions paid for by Discovery communications 3 00:00:22,344 --> 00:00:25,586 Narrator: today on "How it's made"... 4 00:00:53,517 --> 00:00:56,655 Traditional wood slat baskets Are containers 5 00:00:56,655 --> 00:00:59,862 Used to carry and gather food During a harvest. 6 00:00:59,862 --> 00:01:03,724 They're also used in retail Settings to display produce, 7 00:01:03,724 --> 00:01:10,379 Providing the consumer with a Farm-fresh marketing aesthetic. 8 00:01:10,379 --> 00:01:14,896 Since the 1800, farmers Have used wood slat baskets 9 00:01:14,896 --> 00:01:16,896 To hold and transport food. 10 00:01:16,896 --> 00:01:20,655 Today, they still come in handy At harvest time. 11 00:01:20,655 --> 00:01:24,793 Wood slat baskets are made out Of american sweet gum trees. 12 00:01:24,793 --> 00:01:28,448 First, the freshly cut logs Are sprayed with water 13 00:01:28,448 --> 00:01:30,689 So they don't dry out and decay. 14 00:01:30,689 --> 00:01:34,931 One at a time, spiked rollers Grab the logs and turn them, 15 00:01:34,931 --> 00:01:38,103 As knives Shave off all the bark. 16 00:01:38,103 --> 00:01:41,103 The de-barked log Rolls down a conveyor 17 00:01:41,103 --> 00:01:44,137 To be cut To the specified length. 18 00:01:44,137 --> 00:01:47,758 The wood spins on a lathe As a blade cuts into the wood, 19 00:01:47,758 --> 00:01:50,137 Producing long, thin sheets. 20 00:01:51,793 --> 00:01:57,137 Technicians pull the sheets Forward and stack them. 21 00:01:57,137 --> 00:01:59,862 The sheets move through rollers. 22 00:01:59,862 --> 00:02:04,137 The rollers feed the stack To a long guillotine-type blade 23 00:02:04,137 --> 00:02:06,724 Which chops them into slats. 24 00:02:06,724 --> 00:02:09,586 Once all of the slats Have been cut, 25 00:02:09,586 --> 00:02:12,379 The slats are stacked And checked for quality. 26 00:02:14,206 --> 00:02:15,862 Technicians use these patterns 27 00:02:15,862 --> 00:02:19,137 To configure the wood slats And form a web. 28 00:02:25,068 --> 00:02:28,827 The technician distributes The slats in a specific order, 29 00:02:28,827 --> 00:02:32,758 Which will add strength when The web is formed into a basket. 30 00:02:32,758 --> 00:02:35,517 He uses a staple gun To place staples 31 00:02:35,517 --> 00:02:40,620 Into the center of the web To hold it together. 32 00:02:40,620 --> 00:02:42,344 At another station, 33 00:02:42,344 --> 00:02:45,827 Workers evaluate and grade Narrower strips of wood 34 00:02:45,827 --> 00:02:51,172 That will be formed into bands To hold the baskets together. 35 00:02:51,172 --> 00:02:53,655 Then, using a basket machine, 36 00:02:53,655 --> 00:02:58,655 Technicians form the web Into a basket. 37 00:02:58,655 --> 00:03:01,655 The machine wraps bands Around the basket 38 00:03:01,655 --> 00:03:04,758 And staples them To reinforce the shape. 39 00:03:04,758 --> 00:03:07,448 In seconds, The basket takes shape. 40 00:03:07,448 --> 00:03:11,517 Once it's complete, the baskets Are removed from the machine 41 00:03:11,517 --> 00:03:13,586 And placed on a conveyor belt. 42 00:03:13,586 --> 00:03:16,793 At another station, Technicians build a basket 43 00:03:16,793 --> 00:03:19,103 With a base made of solid wood. 44 00:03:19,103 --> 00:03:22,896 This base will provide the Basket with additional strength. 45 00:03:22,896 --> 00:03:26,172 Workers arrange slats To build the basket. 46 00:03:26,172 --> 00:03:30,517 Automated staplers secure the Slats to the solid-wood base. 47 00:03:30,517 --> 00:03:34,379 Bands are attached To hold the basket together. 48 00:03:34,379 --> 00:03:38,068 A technician places the rim Of the basket into a machine 49 00:03:38,068 --> 00:03:40,862 That drives thick wire Into the basket. 50 00:03:40,862 --> 00:03:44,103 The machine's formers bend The wire into a handle 51 00:03:44,103 --> 00:03:45,517 And cut the ends. 52 00:03:45,517 --> 00:03:48,068 The technician turns The basket over 53 00:03:48,068 --> 00:03:51,000 For a matching handle On the opposite side. 54 00:03:51,000 --> 00:03:54,758 The baskets now take a slow trip Through a dryer. 55 00:03:54,758 --> 00:03:58,827 This step removes the majority Of the moisture in the wood. 56 00:03:58,827 --> 00:04:01,448 Once complete, The produce baskets 57 00:04:01,448 --> 00:04:03,241 Slide down a steel slope. 58 00:04:03,241 --> 00:04:05,655 A technician Evaluates their quality 59 00:04:05,655 --> 00:04:07,413 And stacks them accordingly. 60 00:04:07,413 --> 00:04:09,827 Next, the lids are constructed. 61 00:04:09,827 --> 00:04:13,137 Technicians place wood slats In the slots of a conveyor. 62 00:04:13,137 --> 00:04:17,448 This positions them to be formed Into squares, known as mats. 63 00:04:17,448 --> 00:04:20,000 The conveyor takes them forward, 64 00:04:20,000 --> 00:04:22,413 And a device creates staples From wire, 65 00:04:22,413 --> 00:04:24,034 Punching them into the mats 66 00:04:24,034 --> 00:04:27,689 To secure the arrangement. 67 00:04:27,689 --> 00:04:31,793 Meanwhile, a worker prepares The lids' hoops. 68 00:04:31,793 --> 00:04:34,172 First, he steams Gum wood strips, 69 00:04:34,172 --> 00:04:35,655 Which makes the wood pliable. 70 00:04:35,655 --> 00:04:37,758 Then he tucks One end of the wood 71 00:04:37,758 --> 00:04:39,793 Into the revolving wheel Of the machine, 72 00:04:39,793 --> 00:04:41,655 Which shapes the wood Into a hoop. 73 00:04:41,655 --> 00:04:47,379 The ends are then secured With staples. 74 00:04:47,379 --> 00:04:53,517 An assembler fits the hoop Around a circular platform... 75 00:04:53,517 --> 00:04:55,931 And places the mat on top. 76 00:04:55,931 --> 00:04:57,724 The platform rotates 77 00:04:57,724 --> 00:05:01,517 As a stapler attaches the hoop To the slats. 78 00:05:01,517 --> 00:05:04,862 The mat must now be trimmed Flush to the hoop 79 00:05:04,862 --> 00:05:09,724 So that it will fit more neatly On the rim of the basket. 80 00:05:09,724 --> 00:05:13,758 To do so, another assembler Places the corners of the mat 81 00:05:13,758 --> 00:05:18,896 Under a semi-circular blade, Chopping off the excess wood. 82 00:05:20,620 --> 00:05:25,724 The wood slat lid is now ready To be put on the basket. 83 00:05:25,724 --> 00:05:28,206 A device bends wire into a loop 84 00:05:28,206 --> 00:05:32,413 That will be used to fasten The lid to the basket. 85 00:05:32,413 --> 00:05:37,413 This factory can make up to 6,000 wood slat baskets a day. 86 00:05:37,413 --> 00:05:41,241 That's a lot of empty baskets To fill. 87 00:05:51,000 --> 00:05:53,448 Narrator: For thousands of years, 88 00:05:53,448 --> 00:05:55,931 We've used bells to make noise. 89 00:05:55,931 --> 00:05:57,862 The concept behind Them is simple. 90 00:05:57,862 --> 00:06:00,448 A clapper or hammer Strikes the bell wall 91 00:06:00,448 --> 00:06:03,448 Creating vibrations That disturb the air. 92 00:06:03,448 --> 00:06:05,862 The disturbance causes The ringing sound. 93 00:06:05,862 --> 00:06:10,931 It's not high tech, But it can be high-pitched. 94 00:06:12,206 --> 00:06:15,310 Every bell has A distinctive ring. 95 00:06:15,310 --> 00:06:17,206 From the festive Jingle of sleigh bells, 96 00:06:17,206 --> 00:06:19,275 To the clang of the boxing bell 97 00:06:19,275 --> 00:06:22,137 That marks The beginning of a fight. 98 00:06:22,137 --> 00:06:24,448 Even the cow bell has a sound 99 00:06:24,448 --> 00:06:27,137 That's not quite like any other. 100 00:06:27,137 --> 00:06:29,413 The bell's shape And the material 101 00:06:29,413 --> 00:06:32,655 It's made from affect The ring's pitch. 102 00:06:32,655 --> 00:06:34,482 To make a cow bell, an assembler 103 00:06:34,482 --> 00:06:38,310 Uses two flared steel components To form a cone. 104 00:06:38,310 --> 00:06:43,482 He inserts a handle between The two parts at the top... 105 00:06:43,482 --> 00:06:46,103 And welds the seams Of the bell shell 106 00:06:46,103 --> 00:06:51,137 To hold the two parts together. 107 00:06:51,137 --> 00:06:55,172 Then he welds the handle To the cow bell body. 108 00:06:55,172 --> 00:06:57,758 The handle contains a small loop 109 00:06:57,758 --> 00:07:02,448 That extends inside the bell Body to hold the clapper. 110 00:07:02,448 --> 00:07:05,275 This strip of steel Is about to be transformed 111 00:07:05,275 --> 00:07:08,137 Into sleigh bells. 112 00:07:08,137 --> 00:07:10,896 An upper die forces The steel strip 113 00:07:10,896 --> 00:07:13,655 Into dies on a rotating platter. 114 00:07:13,655 --> 00:07:16,034 The dies form The metal into a shape 115 00:07:16,034 --> 00:07:19,344 That resembles an open flower. 116 00:07:19,344 --> 00:07:23,241 Ball bearings Funnel into a shoot. 117 00:07:23,241 --> 00:07:26,137 The ball bearings land In the open flowers 118 00:07:26,137 --> 00:07:29,344 On the platter. 119 00:07:29,344 --> 00:07:32,379 The upper die closes The petals of the flower 120 00:07:32,379 --> 00:07:34,586 Creating a round sleigh bell. 121 00:07:34,586 --> 00:07:37,034 The rattle of The interior ball bearing 122 00:07:37,034 --> 00:07:39,172 Will create the sound. 123 00:07:39,172 --> 00:07:43,000 A device pops The bell out of the die 124 00:07:43,000 --> 00:07:47,172 And the sleigh bells Fall into a bin. 125 00:07:47,172 --> 00:07:50,275 Once the sleigh bells Are plated with nickel, 126 00:07:50,275 --> 00:07:54,206 They are ready for rattling. 127 00:07:54,206 --> 00:07:58,620 At another station, a boxing Bell begins to takes shape. 128 00:07:58,620 --> 00:08:01,862 An assembler transfers the bell To a punch 129 00:08:01,862 --> 00:08:03,758 That cuts a hole in the center. 130 00:08:03,758 --> 00:08:05,931 The punch forces it on to a form 131 00:08:05,931 --> 00:08:08,965 That contours The area around the hole. 132 00:08:08,965 --> 00:08:13,655 Oil keeps the metal Lubricated as it's forming. 133 00:08:13,655 --> 00:08:16,448 The gongs tumble Around in a machine 134 00:08:16,448 --> 00:08:23,551 With vibrating ceramic stones, Detergent, and water. 135 00:08:23,551 --> 00:08:27,517 The stones scrub off The oil and rub off rough edges. 136 00:08:27,517 --> 00:08:29,310 After about 10 minutes, 137 00:08:29,310 --> 00:08:32,413 The gongs emerge smooth And clean. 138 00:08:32,413 --> 00:08:35,206 They land in the tub Of ground corn cobs. 139 00:08:35,206 --> 00:08:38,206 The corn absorbs residual water 140 00:08:38,206 --> 00:08:41,517 As it pulsates in this Vibratory machine. 141 00:08:41,517 --> 00:08:46,103 A technician places The gongs in an oven. 142 00:08:46,103 --> 00:08:49,206 This heat treatment Rearranges the crystalline 143 00:08:49,206 --> 00:08:53,034 Structures of the steel And hardens it. 144 00:08:53,034 --> 00:08:55,137 Making the steel more resilient 145 00:08:55,137 --> 00:08:59,034 Will also make the gong sound More resonant when struck. 146 00:09:03,827 --> 00:09:06,310 The gongs are sprayed With a powder coating. 147 00:09:06,310 --> 00:09:08,586 When baked on, The powder particles 148 00:09:08,586 --> 00:09:10,758 Will form a protective Skin on the metal 149 00:09:10,758 --> 00:09:14,517 And provide the gongs With a uniform finish. 150 00:09:16,551 --> 00:09:19,689 A powder coat is sprayed On the bell's baseplate, 151 00:09:19,689 --> 00:09:24,275 And an adhesive-backed company Logo is applied to the back. 152 00:09:24,275 --> 00:09:26,586 Posts have been Installed on the front 153 00:09:26,586 --> 00:09:28,586 For assembling the other parts. 154 00:09:28,586 --> 00:09:31,586 A brass lever for Operating the bell hammer 155 00:09:31,586 --> 00:09:35,275 And the mechanism that will Swing it, called a dog. 156 00:09:35,275 --> 00:09:39,310 The assembler rivets The dog to the lever 157 00:09:39,310 --> 00:09:43,275 And hooks one end of A spring to the mechanism. 158 00:09:43,275 --> 00:09:46,068 He fastens another Spring to the hammer 159 00:09:46,068 --> 00:09:49,000 And then hooks The end to the baseplate. 160 00:09:49,000 --> 00:09:54,172 He installs the hammer On one of the posts. 161 00:09:54,172 --> 00:09:58,862 Using a push nut, he secures The hammer to the post. 162 00:10:02,172 --> 00:10:05,379 He hooks the lever Spring on the baseplate 163 00:10:05,379 --> 00:10:10,275 And slides the lever onto A post just under the hammer. 164 00:10:10,275 --> 00:10:15,310 Another push nut locks The lever in place. 165 00:10:15,310 --> 00:10:18,758 The assembler pulls the lever, Examining the movement, 166 00:10:18,758 --> 00:10:21,413 Adjusting accordingly. 167 00:10:25,965 --> 00:10:27,724 He now adds the gong, 168 00:10:27,724 --> 00:10:30,517 Aligning the center hole To the threaded post 169 00:10:30,517 --> 00:10:35,413 In the middle of the backplate. 170 00:10:35,413 --> 00:10:39,241 He screws on a fastener To hold the gong in place. 171 00:10:39,241 --> 00:10:41,965 He pulls the lever to Confirm that the hammer 172 00:10:41,965 --> 00:10:44,655 Hits the gong and makes a noise. 173 00:10:47,413 --> 00:10:51,655 Finally this boxing bell is Now ready for the ring. 174 00:11:03,379 --> 00:11:06,068 Narrator: At the turn of the 20th century, 175 00:11:06,068 --> 00:11:10,034 Gigantic gyroscopes were used To stabilize ships. 176 00:11:10,034 --> 00:11:11,965 Even though they were effective, 177 00:11:11,965 --> 00:11:14,689 The devices were large And heavy. 178 00:11:14,689 --> 00:11:17,793 Today, gyroscopes Are smaller, lighter, 179 00:11:17,793 --> 00:11:23,275 And are highly effective Stabilizers. 180 00:11:23,275 --> 00:11:26,517 The boat on the left has A gyroscopic stabilizer 181 00:11:26,517 --> 00:11:30,275 That counteracts wave action. 182 00:11:30,275 --> 00:11:35,000 Different boats require Different sized gyroscopes. 183 00:11:35,000 --> 00:11:38,206 This complex device Includes a flywheel 184 00:11:38,206 --> 00:11:44,862 And a hydraulic brake Which controls its movement. 185 00:11:44,862 --> 00:11:46,793 A large hammer Forge has pounded 186 00:11:46,793 --> 00:11:49,758 The flywheels into this shape. 187 00:11:49,758 --> 00:11:52,931 The process begins On a cnc lathe 188 00:11:52,931 --> 00:11:56,068 That shapes this aircraft Quality alloyed steel 189 00:11:56,068 --> 00:11:59,172 To perimeters with Very small tolerances -- 190 00:11:59,172 --> 00:12:03,965 Roughly one third The diameter of a hair strand. 191 00:12:03,965 --> 00:12:06,517 The shafts, Or bearing journals, 192 00:12:06,517 --> 00:12:09,344 Are put into a machine Which form the axis 193 00:12:09,344 --> 00:12:12,551 On which the flywheel will spin. 194 00:12:15,551 --> 00:12:18,137 A diamond wheel Grinds the journal 195 00:12:18,137 --> 00:12:22,172 To the specified size and shape. 196 00:12:22,172 --> 00:12:23,896 Once complete, 197 00:12:23,896 --> 00:12:25,896 The flywheel is balanced. 198 00:12:25,896 --> 00:12:28,310 A state of the art Balancing machine 199 00:12:28,310 --> 00:12:33,689 I.D.S exactly which Spots need adjustment. 200 00:12:33,689 --> 00:12:36,862 Highly trained technicians Carefully grind off 201 00:12:36,862 --> 00:12:40,655 Small quantities of steel In the identified spots 202 00:12:40,655 --> 00:12:45,758 Before putting the object Through more tests. 203 00:12:45,758 --> 00:12:49,448 With tolerances of just A fraction of an ounce, 204 00:12:49,448 --> 00:12:51,413 Even a tiny particle of dust 205 00:12:51,413 --> 00:12:53,965 Can throw off The flywheel's balance. 206 00:12:55,862 --> 00:12:59,482 A probe locates This aluminum cast hemisphere 207 00:12:59,482 --> 00:13:04,758 So that a machine Can begin processing it. 208 00:13:04,758 --> 00:13:07,137 The hemisphere Will form one half 209 00:13:07,137 --> 00:13:10,310 Of the enclosure that Will house the flywheel. 210 00:13:10,310 --> 00:13:13,517 It must be precision Machined so that 211 00:13:13,517 --> 00:13:16,310 It can form a perfect Airtight seal. 212 00:13:16,310 --> 00:13:19,724 Made of aluminum to Decrease overall weight, 213 00:13:19,724 --> 00:13:22,275 The airtight enclosure Is one of the crucial 214 00:13:22,275 --> 00:13:24,448 Elements of this gyroscope. 215 00:13:24,448 --> 00:13:26,517 Once it's completely sealed, 216 00:13:26,517 --> 00:13:31,137 All the air will be vacuumed out And helium will be pumped in. 217 00:13:31,137 --> 00:13:34,172 Because helium is so Much lighter than air, 218 00:13:34,172 --> 00:13:36,724 The flywheel will be Able to spin much faster 219 00:13:36,724 --> 00:13:42,724 Due to radically Diminished friction. 220 00:13:42,724 --> 00:13:46,413 Machining with horizontal And vertical cnc tools 221 00:13:46,413 --> 00:13:49,551 And a vertical grinder Brings the bearing housing 222 00:13:49,551 --> 00:13:52,689 Within reach of The required parameters. 223 00:13:56,896 --> 00:13:59,862 A technician attaches The vacuum valves 224 00:13:59,862 --> 00:14:06,034 Which will allow air to be Removed from the enclosure. 225 00:14:06,034 --> 00:14:09,000 Then he installs Some of the sensors 226 00:14:09,000 --> 00:14:12,931 That carefully monitor The gyroscope's status. 227 00:14:12,931 --> 00:14:15,448 He applies a specified torque 228 00:14:15,448 --> 00:14:19,724 To tighten The component in place. 229 00:14:19,724 --> 00:14:22,344 A generous amount of grease Is applied 230 00:14:22,344 --> 00:14:24,931 To the large o-ring That fits perfectly 231 00:14:24,931 --> 00:14:29,689 Into a groove in The lip of one hemisphere. 232 00:14:29,689 --> 00:14:32,379 The o-ring will ensure A vacuum tight seal 233 00:14:32,379 --> 00:14:36,551 When the two hemispheres of The enclosure come together. 234 00:14:40,068 --> 00:14:43,758 These heavy duty eye bolts Form an attachment point 235 00:14:43,758 --> 00:14:46,655 For lifting, which helps Move the gyroscope 236 00:14:46,655 --> 00:14:50,482 In and out of position. 237 00:14:50,482 --> 00:14:53,068 Once everything Has been put together, 238 00:14:53,068 --> 00:14:58,931 The technician connects The flywheel to the enclosure. 239 00:14:58,931 --> 00:15:01,758 He begins bolting An inner and outer set 240 00:15:01,758 --> 00:15:06,206 Of retainer rings in place. 241 00:15:06,206 --> 00:15:12,103 These rings will support The flywheel assembly. 242 00:15:12,103 --> 00:15:15,034 Faster spinning In its vacuum containment 243 00:15:15,034 --> 00:15:16,827 Will allow the gyroscope 244 00:15:16,827 --> 00:15:19,103 To achieve the same Stabilizing effect 245 00:15:19,103 --> 00:15:21,758 As a much larger, Heavier flywheel 246 00:15:21,758 --> 00:15:24,517 Spinning at a slower speed. 247 00:15:30,275 --> 00:15:32,896 The technician joins The sub-assembly 248 00:15:32,896 --> 00:15:35,000 To the second hemisphere, 249 00:15:35,000 --> 00:15:39,586 Carefully lifting And lowering it into place 250 00:15:39,586 --> 00:15:45,206 Before bolting The enclosure securely together. 251 00:15:45,206 --> 00:15:48,655 But the gyroscope stabilizer Isn't done yet. 252 00:15:48,655 --> 00:15:50,241 It still needs to be mounted 253 00:15:50,241 --> 00:15:52,724 To a specialized Foundation assembly. 254 00:16:01,482 --> 00:16:04,206 Narrator: Early attempts to use gyroscopes 255 00:16:04,206 --> 00:16:05,758 For stabilizing boats 256 00:16:05,758 --> 00:16:08,103 Weren't successful Because the gyroscopes 257 00:16:08,103 --> 00:16:10,137 Were too big and heavy. 258 00:16:10,137 --> 00:16:13,310 But thanks to some state of The art technical innovations, 259 00:16:13,310 --> 00:16:16,034 A new breed of lighter, Smaller gyroscopes 260 00:16:16,034 --> 00:16:18,379 Can easily keep A boat deck steady, 261 00:16:18,379 --> 00:16:22,689 Even in rough weather. 262 00:16:22,689 --> 00:16:25,620 A technician uses A specialized device 263 00:16:25,620 --> 00:16:27,379 To measure three Important factors 264 00:16:27,379 --> 00:16:29,620 Of the flywheel's performance. 265 00:16:29,620 --> 00:16:33,724 Concentricity, Eccentricity, and clearance. 266 00:16:33,724 --> 00:16:35,758 This means He's checking to see 267 00:16:35,758 --> 00:16:37,586 If the component is Spinning smoothly 268 00:16:37,586 --> 00:16:41,310 And consistently Without any wobbling. 269 00:16:41,310 --> 00:16:45,931 He spins the flywheel Slowly on its axis, 270 00:16:45,931 --> 00:16:51,551 Evaluating the meter Accordingly. 271 00:16:51,551 --> 00:16:54,206 The gimbal shaft Will allow the sphere 272 00:16:54,206 --> 00:16:58,517 To tilt back and forth, Stabilizing the boat. 273 00:16:58,517 --> 00:17:01,724 A technician installs A set of steel dowel pins 274 00:17:01,724 --> 00:17:05,551 That will hold the brake Cylinders in place. 275 00:17:11,586 --> 00:17:15,103 He uses a press to install The spherical bearing 276 00:17:15,103 --> 00:17:16,896 And urethane that will permit 277 00:17:16,896 --> 00:17:22,379 The sphere to shift its axial Rotation and absorb vibration. 278 00:17:24,655 --> 00:17:27,310 With the bearing And protector in place, 279 00:17:27,310 --> 00:17:29,137 He mounts the gimbal shaft 280 00:17:29,137 --> 00:17:32,413 Securely to The gyroscope enclosure. 281 00:17:32,413 --> 00:17:35,344 A total of 10 heavy duty bolts 282 00:17:35,344 --> 00:17:41,586 Are tightened to The specified torque value. 283 00:17:41,586 --> 00:17:44,310 Next, the technician Installs the cover 284 00:17:44,310 --> 00:17:47,448 And bolts it in place, Sealing the enclosure 285 00:17:47,448 --> 00:17:50,586 And fully rounding Out its exterior. 286 00:17:53,724 --> 00:17:57,103 Once the valve is installed, He checks for leaks 287 00:17:57,103 --> 00:18:00,172 By spraying helium Outside of the enclosure. 288 00:18:04,896 --> 00:18:07,931 This meter will register The presence of helium 289 00:18:07,931 --> 00:18:11,896 If the lightweight gas Sneaks in through any cracks. 290 00:18:13,724 --> 00:18:16,137 This magnetically mounted sensor 291 00:18:16,137 --> 00:18:18,206 Will allow The technician to conduct 292 00:18:18,206 --> 00:18:22,655 Final trim balance, ensuring A vibration-free operation. 293 00:18:22,655 --> 00:18:25,655 It's vital to keep Vibration to a minimum 294 00:18:25,655 --> 00:18:28,000 To make sure That the gyroscope provides 295 00:18:28,000 --> 00:18:32,000 A smooth, stable boat ride. 296 00:18:32,000 --> 00:18:35,034 Now it's time to attach The cooling components. 297 00:18:35,034 --> 00:18:39,310 When the flywheel Spins at 9,000 rpms, 298 00:18:39,310 --> 00:18:40,586 It generates heat. 299 00:18:40,586 --> 00:18:45,241 Sea water mixed with glycol Is used to keep it cool. 300 00:18:48,034 --> 00:18:50,620 The enclosure will Sit in a framework 301 00:18:50,620 --> 00:18:52,379 Known as the foundation, 302 00:18:52,379 --> 00:18:55,827 Which is made of cast aluminum. 303 00:18:55,827 --> 00:18:57,689 Once the gimbal shafts 304 00:18:57,689 --> 00:18:59,793 Are set within Their lower housings, 305 00:18:59,793 --> 00:19:01,172 Which are situated 306 00:19:01,172 --> 00:19:03,310 On either side of The foundation, 307 00:19:03,310 --> 00:19:05,931 A technician installs The upper housings 308 00:19:05,931 --> 00:19:08,586 And bolts them Securely in place. 309 00:19:12,655 --> 00:19:15,448 This aluminum section Of the foundation 310 00:19:15,448 --> 00:19:17,862 Will support The hydraulic brake arm, 311 00:19:17,862 --> 00:19:21,413 A key component of The gyroscope's function. 312 00:19:22,931 --> 00:19:25,689 The brake support piece Also doubles 313 00:19:25,689 --> 00:19:28,482 As a support structure For the heat exchanger, 314 00:19:28,482 --> 00:19:31,000 Which is an important Element of the gyroscope's 315 00:19:31,000 --> 00:19:32,482 Cooling system. 316 00:19:35,758 --> 00:19:39,103 The technician installs The brake arm cylinder. 317 00:19:39,103 --> 00:19:41,896 This helps the gyro Perform in all weather 318 00:19:41,896 --> 00:19:45,586 And at all speeds. 319 00:19:45,586 --> 00:19:49,172 He installs the hydraulic Lines for the brake system. 320 00:19:49,172 --> 00:19:52,172 They manage the flow Of hydraulic fluid 321 00:19:52,172 --> 00:19:56,482 To and from the cylinders. 322 00:19:56,482 --> 00:19:59,310 The solenoids that make Up the major elements 323 00:19:59,310 --> 00:20:02,172 Of this assembly dictate Braking pressure 324 00:20:02,172 --> 00:20:06,517 To the hydraulic cylinder. 325 00:20:06,517 --> 00:20:09,551 The drive box Controls the brake, 326 00:20:09,551 --> 00:20:12,413 The start up, And speed of the flywheel 327 00:20:12,413 --> 00:20:15,275 And the angle sensors, Which detect the roll rate 328 00:20:15,275 --> 00:20:17,586 And angle of the boat. 329 00:20:20,448 --> 00:20:22,862 The drive box receives data 330 00:20:22,862 --> 00:20:26,896 From the rest of the gyroscope. 331 00:20:26,896 --> 00:20:29,862 This wiring harness Serves as the conduit 332 00:20:29,862 --> 00:20:33,448 Of information to and from The components of the unit. 333 00:20:38,482 --> 00:20:41,931 Once assembled, the technician Installs the remaining 334 00:20:41,931 --> 00:20:46,724 Support arm on the other Side of the gyroscope. 335 00:20:46,724 --> 00:20:48,896 Before the assembled gyroscope 336 00:20:48,896 --> 00:20:50,793 Gets its aluminum cover piece, 337 00:20:50,793 --> 00:20:54,103 It must undergo a thorough Factory assessment test. 338 00:20:54,103 --> 00:20:57,275 The test ensures that it's Fully functioning 339 00:20:57,275 --> 00:21:00,310 And meets all design parameters. 340 00:21:00,310 --> 00:21:04,241 There is no question that Gyroscopic stabilizers 341 00:21:04,241 --> 00:21:07,000 Help maintain level heads On deck. 27303