Would you like to inspect the original subtitles? These are the user uploaded subtitles that are being translated: 1 00:00:01,758 --> 00:00:04,655 --captions by vitac-- Www.Vitac.Com 2 00:00:04,758 --> 00:00:07,724 Captions paid for by Discovery communications, llc 3 00:00:21,931 --> 00:00:23,655 >> narrator: today on 4 00:00:23,655 --> 00:00:25,896 "How it's made" -- automotive 5 00:00:25,896 --> 00:00:30,862 Fuel pumps... 6 00:00:30,862 --> 00:00:36,862 Cricket bats... 7 00:00:36,862 --> 00:00:42,965 Change machines... 8 00:00:42,965 --> 00:00:45,172 Change machines... And ductile-iron pipe. 9 00:00:45,172 --> 00:00:53,034 And ductile-iron pipe. 10 00:00:53,034 --> 00:00:54,965 When you start your car, it 11 00:00:54,965 --> 00:00:57,103 Activates a pump that's usually 12 00:00:57,103 --> 00:00:59,068 Located inside the gas tank. 13 00:00:59,068 --> 00:01:00,896 This electrical system pushes 14 00:01:00,896 --> 00:01:02,758 The gas out of the tank and into 15 00:01:02,758 --> 00:01:04,551 Injectors, which aerate the gas 16 00:01:04,551 --> 00:01:06,206 And deliver it to the engine 17 00:01:06,206 --> 00:01:07,000 Cylinders. 18 00:01:07,000 --> 00:01:08,620 Without a pump to get the fuel 19 00:01:08,620 --> 00:01:10,344 Flowing, your car would be going 20 00:01:10,344 --> 00:01:17,724 Nowhere fast. 21 00:01:17,724 --> 00:01:19,482 You might think that submerging 22 00:01:19,482 --> 00:01:21,103 An electric pump in gasoline 23 00:01:21,103 --> 00:01:22,689 Would be a risky thing, but 24 00:01:22,689 --> 00:01:24,379 Liquid fuel can't explode, so 25 00:01:24,379 --> 00:01:26,137 It's actually a very safe place 26 00:01:26,137 --> 00:01:30,758 To be. 27 00:01:30,758 --> 00:01:32,241 Production begins with the 28 00:01:32,241 --> 00:01:33,344 Pumping mechanism. 29 00:01:33,344 --> 00:01:35,000 A gear and several rollers are 30 00:01:35,000 --> 00:01:36,620 Sandwiched between two metal 31 00:01:36,620 --> 00:01:37,655 Plates. 32 00:01:37,655 --> 00:01:39,586 The rollers will rotate to pull 33 00:01:39,586 --> 00:01:41,172 Fuel into the pump before 34 00:01:41,172 --> 00:01:45,137 Pushing it out of the tank. 35 00:01:45,137 --> 00:01:47,172 Each roller assembly is tested 36 00:01:47,172 --> 00:01:51,758 By spinning it from the bottom. 37 00:01:51,758 --> 00:01:53,965 A robot then pops it out and 38 00:01:53,965 --> 00:01:59,793 Moves it to the next station. 39 00:01:59,793 --> 00:02:01,517 Here the electric motor is 40 00:02:01,517 --> 00:02:03,413 Attached to the roller pumping 41 00:02:03,413 --> 00:02:04,206 Mechanism. 42 00:02:04,206 --> 00:02:06,103 Then it gets a magnetic sleeve 43 00:02:06,103 --> 00:02:10,344 And a plastic cap. 44 00:02:10,344 --> 00:02:11,655 All the parts that make up the 45 00:02:11,655 --> 00:02:13,000 Pumping mechanism have now been 46 00:02:13,000 --> 00:02:15,724 Assembled. 47 00:02:15,724 --> 00:02:17,965 Next comes an end cap with a 48 00:02:17,965 --> 00:02:21,689 Filter made of metal mesh. 49 00:02:21,689 --> 00:02:23,172 A metal sleeve slides over the 50 00:02:23,172 --> 00:02:24,724 Pump unit, and the whole thing 51 00:02:24,724 --> 00:02:32,137 Is press-fit together. 52 00:02:32,137 --> 00:02:35,344 Inside this chamber, large 53 00:02:35,344 --> 00:02:38,965 Magnets generate a very strong 54 00:02:38,965 --> 00:02:40,689 Force field. 55 00:02:40,689 --> 00:02:42,517 This causes the metal sleeve to 56 00:02:42,517 --> 00:02:44,413 Collapse, crimping at one end so 57 00:02:44,413 --> 00:02:45,896 That it holds everything 58 00:02:45,896 --> 00:02:53,586 Together. 59 00:02:53,586 --> 00:02:55,517 Next, retainer rings go into 60 00:02:55,517 --> 00:03:01,965 Slots in the fuel-pump cap. 61 00:03:01,965 --> 00:03:03,724 A metal bracket goes over the 62 00:03:03,724 --> 00:03:05,241 Pump. 63 00:03:05,241 --> 00:03:06,896 It steadies the assembly and 64 00:03:06,896 --> 00:03:08,551 Serves as a guide as workers 65 00:03:08,551 --> 00:03:10,241 Install the brushes and coils 66 00:03:10,241 --> 00:03:12,068 Which will supply electricity to 67 00:03:12,068 --> 00:03:16,000 The fuel-pump motor. 68 00:03:16,000 --> 00:03:17,793 A brass terminal slides onto the 69 00:03:17,793 --> 00:03:19,275 End of each coil and brush 70 00:03:19,275 --> 00:03:20,793 Assembly to facilitate the 71 00:03:20,793 --> 00:03:24,448 Electrical connection. 72 00:03:24,448 --> 00:03:26,275 Then the terminals are attached 73 00:03:26,275 --> 00:03:32,275 To the assembly. 74 00:03:32,275 --> 00:03:34,379 When the job is done, a robot 75 00:03:34,379 --> 00:03:38,000 Removes the bracket. 76 00:03:38,000 --> 00:03:39,965 They built this fuel pump from 77 00:03:39,965 --> 00:03:41,758 The inside out, and now the 78 00:03:41,758 --> 00:03:48,137 Actual workings are complete. 79 00:03:48,137 --> 00:03:49,896 Inspectors hook each pump up to 80 00:03:49,896 --> 00:03:51,448 A power source and run fluid 81 00:03:51,448 --> 00:03:53,206 Through them to test the pumping 82 00:03:53,206 --> 00:03:53,793 Action. 83 00:03:53,793 --> 00:03:55,862 Then they check for proper flow 84 00:03:55,862 --> 00:03:59,448 And pressure. 85 00:03:59,448 --> 00:04:01,379 If the pump passes inspection, a 86 00:04:01,379 --> 00:04:03,275 Robot sends it down the assembly 87 00:04:03,275 --> 00:04:04,517 Line... 88 00:04:04,517 --> 00:04:06,034 Where a tubing system is being 89 00:04:06,034 --> 00:04:07,620 Assembled to carry the gasoline 90 00:04:07,620 --> 00:04:11,517 To the engine. 91 00:04:11,517 --> 00:04:12,862 The joints are sealed with a 92 00:04:12,862 --> 00:04:19,379 Brazing paste. 93 00:04:19,379 --> 00:04:21,241 Then it's into a gas oven, where 94 00:04:21,241 --> 00:04:23,000 The paste hardens and fuses to 95 00:04:23,000 --> 00:04:29,413 The tubing. 96 00:04:29,413 --> 00:04:31,103 Workers remove the tubing from 97 00:04:31,103 --> 00:04:32,620 The oven and brush off any 98 00:04:32,620 --> 00:04:34,103 Unwanted bits of metal and 99 00:04:34,103 --> 00:04:36,137 Unwanted bits of metal and Hardened paste. 100 00:04:36,137 --> 00:04:44,482 Hardened paste. 101 00:04:44,482 --> 00:04:45,827 The ends of the apparatus are 102 00:04:45,827 --> 00:04:46,965 Capped to keep them from 103 00:04:46,965 --> 00:04:48,172 Collecting dirt and debris 104 00:04:48,172 --> 00:04:54,172 During shipping. 105 00:04:54,172 --> 00:04:55,862 Rubber tubing is attached to the 106 00:04:55,862 --> 00:04:57,275 Pump and secured with metal 107 00:04:57,275 --> 00:05:01,413 Clamps. 108 00:05:01,413 --> 00:05:02,827 Then the rubber tubing is 109 00:05:02,827 --> 00:05:04,310 Clamped to the metal tubing 110 00:05:04,310 --> 00:05:11,241 System. 111 00:05:11,241 --> 00:05:12,896 Workers wire the fuel pump, then 112 00:05:12,896 --> 00:05:14,413 Hook up a connector which will 113 00:05:14,413 --> 00:05:19,103 Attach to the engine's wiring. 114 00:05:19,103 --> 00:05:21,172 This is the sending unit. 115 00:05:21,172 --> 00:05:22,586 It's a float with a metal arm 116 00:05:22,586 --> 00:05:24,068 That's attached to an electronic 117 00:05:24,068 --> 00:05:25,310 Sensor. 118 00:05:25,310 --> 00:05:26,793 The sensor sends information 119 00:05:26,793 --> 00:05:28,310 About fuel levels to the fuel 120 00:05:28,310 --> 00:05:31,689 Gauge on the dashboard. 121 00:05:31,689 --> 00:05:33,862 A computerized system checks the 122 00:05:33,862 --> 00:05:35,931 Sending unit's accuracy as the 123 00:05:35,931 --> 00:05:42,551 Sensor is moved up and down. 124 00:05:42,551 --> 00:05:44,517 Once everything checks out, it's 125 00:05:44,517 --> 00:05:46,310 Time to fill the tank and hit 126 00:05:46,310 --> 00:05:51,413 The road. 127 00:05:51,413 --> 00:05:52,896 Up next -- cricket, anyone? 128 00:05:52,896 --> 00:05:54,551 We'll go behind the scenes at a 129 00:05:54,551 --> 00:05:56,551 We'll go behind the scenes at a Bat factory. 130 00:05:56,551 --> 00:05:59,965 Bat factory. 131 00:05:59,965 --> 00:06:01,620 >> narrator: references to the 132 00:06:01,620 --> 00:06:03,310 Game of cricket date back to the 133 00:06:03,310 --> 00:06:03,827 1300s. 134 00:06:03,827 --> 00:06:05,862 Historians believe it started as 135 00:06:05,862 --> 00:06:07,103 A children's game. 136 00:06:07,103 --> 00:06:09,172 In the 1600s, working men took 137 00:06:09,172 --> 00:06:11,344 Up the pastime, and before long, 138 00:06:11,344 --> 00:06:13,206 It caught on with the upper 139 00:06:13,206 --> 00:06:14,000 Classes. 140 00:06:14,000 --> 00:06:16,000 By the 18th century, cricket was 141 00:06:16,000 --> 00:06:17,689 One of england's favorite 142 00:06:17,689 --> 00:06:20,862 Organized sports. 143 00:06:20,862 --> 00:06:22,448 Cricket bats are made of a 144 00:06:22,448 --> 00:06:24,068 Particular species of white 145 00:06:24,068 --> 00:06:24,689 Willow. 146 00:06:24,689 --> 00:06:26,793 It has stringy wood fibers that 147 00:06:26,793 --> 00:06:28,034 Are usually long. 148 00:06:28,034 --> 00:06:30,103 These give the wood elasticity, 149 00:06:30,103 --> 00:06:32,000 The key to its performance. 150 00:06:32,000 --> 00:06:33,793 Bat makers use as much sapwood 151 00:06:33,793 --> 00:06:35,724 As possible because it's moister 152 00:06:35,724 --> 00:06:37,310 And more flexible than the 153 00:06:37,310 --> 00:06:41,758 Heartwood at the tree's core. 154 00:06:41,758 --> 00:06:43,241 Production begins with willow 155 00:06:43,241 --> 00:06:45,758 Pieces about 2 1/2 feet long. 156 00:06:45,758 --> 00:06:47,344 The first machine trims them 157 00:06:47,344 --> 00:06:49,172 Down roughly to size. 158 00:06:49,172 --> 00:06:51,137 A few sprays of water limber up 159 00:06:51,137 --> 00:06:52,241 The wood fibers. 160 00:06:52,241 --> 00:06:54,103 Then each piece goes through a 161 00:06:54,103 --> 00:06:56,000 Pressing machine three to four 162 00:06:56,000 --> 00:06:57,137 Times. 163 00:06:57,137 --> 00:06:59,000 A curved roller applies up to 164 00:06:59,000 --> 00:07:01,068 Three tons of pressure, rounding 165 00:07:01,068 --> 00:07:03,000 The bat's face and compressing 166 00:07:03,000 --> 00:07:05,241 The wood by almost half an inch. 167 00:07:05,241 --> 00:07:06,793 This pressing is essential to 168 00:07:06,793 --> 00:07:08,137 The bat's performance and 169 00:07:08,137 --> 00:07:13,689 Durability. 170 00:07:13,689 --> 00:07:15,551 The bat maker draws a "V" on the 171 00:07:15,551 --> 00:07:17,034 End where the handle will 172 00:07:17,034 --> 00:07:17,655 Attach. 173 00:07:17,655 --> 00:07:19,620 Then he removes the bulk of wood 174 00:07:19,620 --> 00:07:22,275 Behind the "V" on a table saw. 175 00:07:22,275 --> 00:07:23,827 This minimizes the amount of 176 00:07:23,827 --> 00:07:25,379 Work he'll have to do by hand 177 00:07:25,379 --> 00:07:34,000 Later. 178 00:07:34,000 --> 00:07:36,379 Now he cuts out the "V." 179 00:07:36,379 --> 00:07:38,310 This creates a joint in which to 180 00:07:38,310 --> 00:07:40,827 Insert the handle. 181 00:07:40,827 --> 00:07:42,586 The handle is made of cane, 182 00:07:42,586 --> 00:07:44,620 Dried vine stems, glued together 183 00:07:44,620 --> 00:07:46,448 In sections, and coated with 184 00:07:46,448 --> 00:07:48,137 Rubber. 185 00:07:48,137 --> 00:07:50,103 The grip end has been shaped on 186 00:07:50,103 --> 00:07:51,551 A lathe. 187 00:07:51,551 --> 00:07:53,310 The other end will attach to the 188 00:07:53,310 --> 00:07:55,379 Blade. 189 00:07:55,379 --> 00:07:56,655 The bat maker cuts the 190 00:07:56,655 --> 00:07:58,206 Block-shape tip into a wedge 191 00:07:58,206 --> 00:07:59,931 That will fit into the "V" cut, 192 00:07:59,931 --> 00:08:01,310 Then glues the two pieces 193 00:08:01,310 --> 00:08:03,344 Then glues the two pieces Together. 194 00:08:03,344 --> 00:08:12,482 Together. 195 00:08:12,482 --> 00:08:14,448 A few taps with a hammer ensures 196 00:08:14,448 --> 00:08:16,862 A tight fit. 197 00:08:16,862 --> 00:08:18,724 He spreads the excess glue all 198 00:08:18,724 --> 00:08:21,586 Over the joint to seal it. 199 00:08:21,586 --> 00:08:23,482 Now he shapes the bat's profile 200 00:08:23,482 --> 00:08:25,413 Using a classic woodworking tool 201 00:08:25,413 --> 00:08:27,068 Called a drawknife. 202 00:08:27,068 --> 00:08:29,000 This takes only a few minutes 203 00:08:29,000 --> 00:08:31,068 But requires years of experience 204 00:08:31,068 --> 00:08:33,827 And an expert eye. 205 00:08:33,827 --> 00:08:35,586 Then he completes the shaping 206 00:08:35,586 --> 00:08:37,413 With another pressing to curve 207 00:08:37,413 --> 00:08:39,241 The bottom third of the bat. 208 00:08:39,241 --> 00:08:40,862 International cricket rules 209 00:08:40,862 --> 00:08:42,724 Regulate the length and width of 210 00:08:42,724 --> 00:08:44,551 Bats, but there's no restriction 211 00:08:44,551 --> 00:08:46,310 On curve. 212 00:08:46,310 --> 00:08:47,724 Getting it right is tricky, 213 00:08:47,724 --> 00:08:48,241 Though. 214 00:08:48,241 --> 00:08:49,896 Too much curve, and he'll limit 215 00:08:49,896 --> 00:08:51,310 The blade's flexibility and 216 00:08:51,310 --> 00:08:54,689 Performance. 217 00:08:54,689 --> 00:08:56,655 The bat maker finishes off the 218 00:08:56,655 --> 00:09:04,275 Shape using specialized tools. 219 00:09:04,275 --> 00:09:06,931 Then he uses a metal hand plane 220 00:09:06,931 --> 00:09:10,034 To flatten the blade's edges. 221 00:09:10,034 --> 00:09:11,724 He ensures the bat has good 222 00:09:11,724 --> 00:09:13,379 Spring by hitting it with a 223 00:09:13,379 --> 00:09:14,620 Dense wooden mallet. 224 00:09:14,620 --> 00:09:16,551 He also analyzes the sound of 225 00:09:16,551 --> 00:09:17,310 The strike. 226 00:09:17,310 --> 00:09:19,275 The softer the sound, the softer 227 00:09:19,275 --> 00:09:21,241 The wood, and the better the bat 228 00:09:21,241 --> 00:09:24,172 Will play. 229 00:09:24,172 --> 00:09:25,862 He smooths the bat against an 230 00:09:25,862 --> 00:09:27,413 Air-filled drum sander that 231 00:09:27,413 --> 00:09:29,103 Molds to the bat so it doesn't 232 00:09:29,103 --> 00:09:30,931 Wear away the shape he worked so 233 00:09:30,931 --> 00:09:34,620 Hard to achieve. 234 00:09:34,620 --> 00:09:36,241 Then a worker smooths out the 235 00:09:36,241 --> 00:09:38,000 Rest of the surface with a belt 236 00:09:38,000 --> 00:09:39,758 Sander designed specifically for 237 00:09:39,758 --> 00:09:40,896 Cricket bats. 238 00:09:40,896 --> 00:09:43,103 The entire bat is sanded twice, 239 00:09:43,103 --> 00:09:45,206 First with a coarse abrasive, 240 00:09:45,206 --> 00:09:47,827 Then with a fine one. 241 00:09:47,827 --> 00:09:49,620 Next, the bat is mounted on a 242 00:09:49,620 --> 00:09:51,275 Binding machine, where its 243 00:09:51,275 --> 00:09:53,793 Handle gets a coat of glue. 244 00:09:53,793 --> 00:09:55,310 A wrapping of twine binds 245 00:09:55,310 --> 00:09:57,034 Together the sections of cane 246 00:09:57,034 --> 00:09:59,241 Together the sections of cane That make up the handle. 247 00:09:59,241 --> 00:10:06,620 That make up the handle. 248 00:10:06,620 --> 00:10:08,310 Extra glue prevents the twine 249 00:10:08,310 --> 00:10:12,448 From unraveling. 250 00:10:12,448 --> 00:10:14,206 Next, they polish the blade 251 00:10:14,206 --> 00:10:16,344 Next, they polish the blade Using a cotton wheel. 252 00:10:16,344 --> 00:10:27,965 Using a cotton wheel. 253 00:10:27,965 --> 00:10:30,000 Once the wood is shiny enough, 254 00:10:30,000 --> 00:10:33,931 Brand-name decals go on. 255 00:10:33,931 --> 00:10:35,827 Finally, a rubber grip goes over 256 00:10:35,827 --> 00:10:37,413 The binding to prevent the 257 00:10:37,413 --> 00:10:39,724 Player's hands from slipping. 258 00:10:39,724 --> 00:10:41,344 The bat's two main components 259 00:10:41,344 --> 00:10:42,896 Complement each other when 260 00:10:42,896 --> 00:10:44,000 Striking the ball. 261 00:10:44,000 --> 00:10:45,896 The willow-wood blade flexes 262 00:10:45,896 --> 00:10:47,827 Enough to deliver a good hit, 263 00:10:47,827 --> 00:10:49,724 And the cane handle absorbs that 264 00:10:49,724 --> 00:10:51,551 Energy, protecting the player's 265 00:10:51,551 --> 00:10:58,586 Hands. 266 00:10:58,586 --> 00:11:00,689 When you return -- making the 267 00:11:00,689 --> 00:11:03,034 When you return -- making the Machines that make our change. 268 00:11:03,034 --> 00:11:07,206 Machines that make our change. 269 00:11:07,206 --> 00:11:08,827 >> narrator: change machines 270 00:11:08,827 --> 00:11:10,517 Were invented in the mid-1950s 271 00:11:10,517 --> 00:11:11,655 In response to the 272 00:11:11,655 --> 00:11:13,034 Vending-machine boom. 273 00:11:13,034 --> 00:11:15,000 They began as simple mechanical 274 00:11:15,000 --> 00:11:16,793 Coin changers, converting a 275 00:11:16,793 --> 00:11:18,758 Quarter into nickels and dimes. 276 00:11:18,758 --> 00:11:20,758 Today's modern machines can even 277 00:11:20,758 --> 00:11:22,896 Convert $20 bills. 278 00:11:22,896 --> 00:11:29,034 Times sure have changed. 279 00:11:29,034 --> 00:11:30,689 It's like magic. 280 00:11:30,689 --> 00:11:33,000 In goes the bill, and presto, 281 00:11:33,000 --> 00:11:35,103 Out comes the exact change. 282 00:11:35,103 --> 00:11:37,034 But behind the scenes, there's 283 00:11:37,034 --> 00:11:38,689 No slight of hand -- just 284 00:11:38,689 --> 00:11:40,275 Innovative design and some 285 00:11:40,275 --> 00:11:41,965 Pretty high-tech equipment. 286 00:11:41,965 --> 00:11:43,379 Production begins with the 287 00:11:43,379 --> 00:11:44,413 Machine's cabinet. 288 00:11:44,413 --> 00:11:46,310 A computer-guided laser cuts the 289 00:11:46,310 --> 00:11:48,068 Cabinet parts from a sheet of 290 00:11:48,068 --> 00:11:56,965 Steel measuring 1 by 1/2 yards. 291 00:11:56,965 --> 00:11:58,758 Workers shake the parts free and 292 00:11:58,758 --> 00:12:00,413 Push out the openings in the 293 00:12:00,413 --> 00:12:01,931 Panel that will become the 294 00:12:01,931 --> 00:12:05,068 Cabinet's front door. 295 00:12:05,068 --> 00:12:06,655 The parts are then shaped in a 296 00:12:06,655 --> 00:12:08,241 Machine called the press break. 297 00:12:08,241 --> 00:12:12,000 This is one of the door panels. 298 00:12:12,000 --> 00:12:13,689 The machine forces it against 299 00:12:13,689 --> 00:12:16,172 A die, bending the edge. 300 00:12:16,172 --> 00:12:18,103 These bent edges will strengthen 301 00:12:18,103 --> 00:12:20,000 The door and help it fit snugly 302 00:12:20,000 --> 00:12:25,275 Into the frame. 303 00:12:25,275 --> 00:12:26,896 The laser cutter also makes a 304 00:12:26,896 --> 00:12:28,344 Series of holes in another 305 00:12:28,344 --> 00:12:29,206 Cabinet part. 306 00:12:29,206 --> 00:12:31,448 Then workers press threaded 307 00:12:31,448 --> 00:12:34,000 Studs into the holes. 308 00:12:34,000 --> 00:12:35,896 A vibrating feeder automatically 309 00:12:35,896 --> 00:12:37,586 Dispenses the studs into the 310 00:12:37,586 --> 00:12:41,551 Insertion machine. 311 00:12:41,551 --> 00:12:43,448 Now they bend the sheet, again 312 00:12:43,448 --> 00:12:45,275 Using a press break, and make 313 00:12:45,275 --> 00:12:47,241 The three-sided panel that will 314 00:12:47,241 --> 00:12:49,034 Become the cabinet sides and 315 00:12:49,034 --> 00:12:54,000 Back. 316 00:12:54,000 --> 00:12:55,862 They attach the top and bottom 317 00:12:55,862 --> 00:13:00,620 Panels. 318 00:13:00,620 --> 00:13:02,241 Then they position the cabinet 319 00:13:02,241 --> 00:13:03,655 On a computerized welding 320 00:13:03,655 --> 00:13:08,655 Station and rotate the table. 321 00:13:08,655 --> 00:13:10,448 A robot makes precision welds 322 00:13:10,448 --> 00:13:12,241 Behind a steel partition that 323 00:13:12,241 --> 00:13:14,034 Shields workers from heat and 324 00:13:14,034 --> 00:13:18,758 Harmful rays. 325 00:13:18,758 --> 00:13:20,586 Now they assemble the change 326 00:13:20,586 --> 00:13:22,241 Machine's coin dispenser. 327 00:13:22,241 --> 00:13:23,965 It has two counter-rotating 328 00:13:23,965 --> 00:13:25,965 Discs fitted to the diameter and 329 00:13:25,965 --> 00:13:27,689 Thickness of a coin. 330 00:13:27,689 --> 00:13:29,413 They work together to seize and 331 00:13:29,413 --> 00:13:31,103 Align the coins, then drop them 332 00:13:31,103 --> 00:13:33,344 Into the coin chute. 333 00:13:33,344 --> 00:13:34,896 Workers set in these metal 334 00:13:34,896 --> 00:13:36,758 Discs, along with a plastic gear 335 00:13:36,758 --> 00:13:40,724 Mechanism that rotates them. 336 00:13:40,724 --> 00:13:43,034 Then they secure the parts on a 337 00:13:43,034 --> 00:13:45,068 Fixture... 338 00:13:45,068 --> 00:13:46,724 And drill holes into the gear 339 00:13:46,724 --> 00:13:48,827 And drill holes into the gear Mechanism. 340 00:13:48,827 --> 00:13:56,551 Mechanism. 341 00:13:56,551 --> 00:13:58,241 Roll pins are inserted to hold 342 00:13:58,241 --> 00:14:00,827 The parts together. 343 00:14:00,827 --> 00:14:03,206 Then workers make sure the coin 344 00:14:03,206 --> 00:14:07,068 Discs spin freely. 345 00:14:07,068 --> 00:14:09,000 The next task is to assemble the 346 00:14:09,000 --> 00:14:12,620 Coin-dispenser discs and gears. 347 00:14:12,620 --> 00:14:14,931 This is precision work. 348 00:14:14,931 --> 00:14:16,931 First, they set the parts in a 349 00:14:16,931 --> 00:14:21,655 Metal casing. 350 00:14:21,655 --> 00:14:23,241 Plastic rings go around the 351 00:14:23,241 --> 00:14:25,000 Discs to guide and support the 352 00:14:25,000 --> 00:14:32,241 Gears. 353 00:14:32,241 --> 00:14:33,827 Then they attach the gear-train 354 00:14:33,827 --> 00:14:35,000 Motor which powers the 355 00:14:35,000 --> 00:14:37,206 Motor which powers the Change-dispensing discs. 356 00:14:37,206 --> 00:14:46,965 Change-dispensing discs. 357 00:14:46,965 --> 00:14:48,517 A plastic guide on the casing 358 00:14:48,517 --> 00:14:49,827 Helps the coins drop in 359 00:14:49,827 --> 00:14:53,655 Properly. 360 00:14:53,655 --> 00:14:55,379 Next comes the coin chute that 361 00:14:55,379 --> 00:14:57,000 Guides the change out of the 362 00:14:57,000 --> 00:14:58,862 Dispenser and into the machine's 363 00:14:58,862 --> 00:15:03,655 Coin cup. 364 00:15:03,655 --> 00:15:06,000 The dispenser holds up to $800, 365 00:15:06,000 --> 00:15:08,000 Which can weigh a hefty 45 366 00:15:08,000 --> 00:15:10,103 Pounds, so it needs a strong 367 00:15:10,103 --> 00:15:11,068 Handle. 368 00:15:11,068 --> 00:15:12,827 It's locked into place with this 369 00:15:12,827 --> 00:15:21,000 Tool, called a ring fastener. 370 00:15:21,000 --> 00:15:22,655 Now it's time to put the whole 371 00:15:22,655 --> 00:15:24,206 Machine together. 372 00:15:24,206 --> 00:15:26,103 First, an electric power supply 373 00:15:26,103 --> 00:15:28,034 Is installed on the inside back 374 00:15:28,034 --> 00:15:29,413 Wall. 375 00:15:29,413 --> 00:15:34,275 Next comes the bill validator. 376 00:15:34,275 --> 00:15:39,172 And the coin cup. 377 00:15:39,172 --> 00:15:40,862 Then the coin dispenser and 378 00:15:40,862 --> 00:15:42,620 Electronic control board, the 379 00:15:42,620 --> 00:15:44,241 Brains of the machine that 380 00:15:44,241 --> 00:15:46,206 Calculates the change. 381 00:15:46,206 --> 00:15:48,413 Finally, on go the instruction 382 00:15:48,413 --> 00:15:49,172 Decals. 383 00:15:49,172 --> 00:15:51,862 So, how do bills transform into 384 00:15:51,862 --> 00:15:52,689 Coins? 385 00:15:52,689 --> 00:15:54,586 Let's open the door and see. 386 00:15:54,586 --> 00:15:56,689 First, the bill acceptor scans 387 00:15:56,689 --> 00:15:58,827 The bill's paper and ink, then 388 00:15:58,827 --> 00:16:00,310 Stacks it in a box. 389 00:16:00,310 --> 00:16:02,310 The processor calculates the 390 00:16:02,310 --> 00:16:04,310 Transaction, then cha-ching, 391 00:16:04,310 --> 00:16:06,586 Exact change. 392 00:16:06,586 --> 00:16:08,034 Coming up -- turning iron and 393 00:16:08,034 --> 00:16:09,586 Steel into the pipes that keep 394 00:16:09,586 --> 00:16:11,586 Steel into the pipes that keep Our cities running. 395 00:16:11,586 --> 00:16:15,103 Our cities running. 396 00:16:15,103 --> 00:16:16,724 >> narrator: chances are you use 397 00:16:16,724 --> 00:16:18,241 Ductile-iron pipe every day and 398 00:16:18,241 --> 00:16:19,275 Don't even know it. 399 00:16:19,275 --> 00:16:20,827 The underground pipes that 400 00:16:20,827 --> 00:16:22,413 Transport a city's drinking 401 00:16:22,413 --> 00:16:24,000 Water are cast from ductile 402 00:16:24,000 --> 00:16:24,517 Iron. 403 00:16:24,517 --> 00:16:26,241 So are the sewer pipes that take 404 00:16:26,241 --> 00:16:27,448 Away household waist. 405 00:16:27,448 --> 00:16:29,310 Ductile iron is more flexible 406 00:16:29,310 --> 00:16:30,896 Than ordinary gray iron. 407 00:16:30,896 --> 00:16:32,620 Under pressure, it will bend 408 00:16:32,620 --> 00:16:37,586 Before it breaks. 409 00:16:37,586 --> 00:16:39,689 Ductile-iron pipes are made of 410 00:16:39,689 --> 00:16:41,758 90% recycled metal and have a 411 00:16:41,758 --> 00:16:46,448 Life-span of hundreds of years. 412 00:16:46,448 --> 00:16:48,206 Production begins in the pipe 413 00:16:48,206 --> 00:16:50,034 Factory's scrapyard. 414 00:16:50,034 --> 00:16:51,758 These old cars are on their way 415 00:16:51,758 --> 00:16:53,517 To a shredder that chews them up 416 00:16:53,517 --> 00:16:55,620 Into little bits. 417 00:16:55,620 --> 00:16:57,448 The factory sorts the bits by 418 00:16:57,448 --> 00:16:58,172 Material. 419 00:16:58,172 --> 00:17:00,413 It discards the plastic, sells 420 00:17:00,413 --> 00:17:02,448 The aluminum and copper, but 421 00:17:02,448 --> 00:17:04,275 Keeps the steel and iron. 422 00:17:04,275 --> 00:17:05,965 The factory also gets scrap 423 00:17:05,965 --> 00:17:07,862 Steel from demolished buildings 424 00:17:07,862 --> 00:17:10,034 And other sources. 425 00:17:10,034 --> 00:17:11,793 The shredded metal is analyzed 426 00:17:11,793 --> 00:17:13,586 By its chemical composition and 427 00:17:13,586 --> 00:17:17,724 Sorted accordingly. 428 00:17:17,724 --> 00:17:19,103 A crane operator uses an 429 00:17:19,103 --> 00:17:20,655 Industrial magnet to gather 430 00:17:20,655 --> 00:17:22,241 Precise amounts of steel and 431 00:17:22,241 --> 00:17:28,241 Iron. 432 00:17:28,241 --> 00:17:30,344 The shredded metals then go into 433 00:17:30,344 --> 00:17:32,413 A blast furnace fueled by coke, 434 00:17:32,413 --> 00:17:33,551 A form of coal. 435 00:17:33,551 --> 00:17:36,068 At 2,500 degrees fahrenheit, the 436 00:17:36,068 --> 00:17:38,413 Iron and steel liquefy, while 437 00:17:38,413 --> 00:17:41,620 Impurities are carried away. 438 00:17:41,620 --> 00:17:43,482 Workers then add magnesium. 439 00:17:43,482 --> 00:17:45,206 This turns the metal from 440 00:17:45,206 --> 00:17:46,827 Ordinary gray iron into 441 00:17:46,827 --> 00:17:48,931 Stronger, more flexible ductile 442 00:17:48,931 --> 00:17:52,655 Iron. 443 00:17:52,655 --> 00:17:54,448 The molten iron travels down a 444 00:17:54,448 --> 00:17:56,206 Trough into a casting machine. 445 00:17:56,206 --> 00:17:57,965 It enters a spinning mold, where 446 00:17:57,965 --> 00:17:59,551 Centrifugal force spreads the 447 00:17:59,551 --> 00:18:01,758 Centrifugal force spreads the Iron against the mold walls. 448 00:18:01,758 --> 00:18:09,068 Iron against the mold walls. 449 00:18:09,068 --> 00:18:10,793 A cooling system chills the 450 00:18:10,793 --> 00:18:12,655 Walls, and the iron solidifies 451 00:18:12,655 --> 00:18:14,724 Within seconds. 452 00:18:14,724 --> 00:18:16,896 Then an extractor pulls out a 453 00:18:16,896 --> 00:18:19,241 20-foot-long cast-iron pipe, the 454 00:18:19,241 --> 00:18:22,103 Standard industry length. 455 00:18:22,103 --> 00:18:23,965 Before each casting, workers 456 00:18:23,965 --> 00:18:25,862 Insert a round form, called a 457 00:18:25,862 --> 00:18:27,827 Core, into one end of the pipe 458 00:18:27,827 --> 00:18:29,206 Mold. 459 00:18:29,206 --> 00:18:30,827 The molten iron fills the void 460 00:18:30,827 --> 00:18:32,241 Between the core and mold, 461 00:18:32,241 --> 00:18:33,517 Forming a flared edge, 462 00:18:33,517 --> 00:18:34,551 Called a bell. 463 00:18:34,551 --> 00:18:36,586 The core also seals off that end 464 00:18:36,586 --> 00:18:38,517 Of the mold, preventing molten 465 00:18:38,517 --> 00:18:40,275 Iron from flying out during 466 00:18:40,275 --> 00:18:40,965 Casting. 467 00:18:40,965 --> 00:18:42,724 When it's time to connect the 468 00:18:42,724 --> 00:18:44,517 Pipes, installers will fit the 469 00:18:44,517 --> 00:18:46,034 Bell of one pipe over the 470 00:18:46,034 --> 00:18:47,551 Straight end of another. 471 00:18:47,551 --> 00:18:49,551 A rubber gasket seals the link 472 00:18:49,551 --> 00:18:52,413 Together. 473 00:18:52,413 --> 00:18:54,000 The casting machine can make 474 00:18:54,000 --> 00:18:55,689 Pipes of different diameters by 475 00:18:55,689 --> 00:18:57,310 Changing the size of the mold 476 00:18:57,310 --> 00:19:05,620 Inside. 477 00:19:05,620 --> 00:19:07,241 After the pipe is extracted, 478 00:19:07,241 --> 00:19:09,034 Inspectors weigh it and measure 479 00:19:09,034 --> 00:19:10,758 The wall thickness to be sure 480 00:19:10,758 --> 00:19:13,103 Everything meets specifications. 481 00:19:13,103 --> 00:19:15,137 Then, on the bell end, they 482 00:19:15,137 --> 00:19:16,482 Remove the core. 483 00:19:16,482 --> 00:19:18,103 Since it's made of sand and 484 00:19:18,103 --> 00:19:19,620 Plastic resin, it simply 485 00:19:19,620 --> 00:19:21,724 Plastic resin, it simply Disintegrates. 486 00:19:21,724 --> 00:19:34,482 Disintegrates. 487 00:19:34,482 --> 00:19:36,241 This factory makes pipes in 488 00:19:36,241 --> 00:19:37,758 Several diameters, but 489 00:19:37,758 --> 00:19:39,758 Regardless of size, the casting 490 00:19:39,758 --> 00:19:41,689 Process is always the same. 491 00:19:41,689 --> 00:19:43,241 It just takes less time with 492 00:19:43,241 --> 00:19:44,758 Smaller pipes because they 493 00:19:44,758 --> 00:19:50,827 Harden faster. 494 00:19:50,827 --> 00:19:52,689 A freshly cast pipe is around 495 00:19:52,689 --> 00:19:54,689 1,500 degrees fahrenheit, but it 496 00:19:54,689 --> 00:19:56,655 Cools quickly after leaving the 497 00:19:56,655 --> 00:19:57,896 Mold. 498 00:19:57,896 --> 00:19:59,551 Such rapid cooling makes the 499 00:19:59,551 --> 00:20:01,310 Iron brittle, so the pipe goes 500 00:20:01,310 --> 00:20:02,862 Directly into a gas-fired 501 00:20:02,862 --> 00:20:04,620 Annealing furnace that reheats 502 00:20:04,620 --> 00:20:07,000 It to 1,700 degrees fahrenheit. 503 00:20:07,000 --> 00:20:08,586 This alters the internal 504 00:20:08,586 --> 00:20:10,620 Structure of the iron, making it 505 00:20:10,620 --> 00:20:12,862 Strong and flexible. 506 00:20:12,862 --> 00:20:14,310 The pipe then runs through a 507 00:20:14,310 --> 00:20:15,965 Cooling chamber that showers it 508 00:20:15,965 --> 00:20:19,551 In cold water. 509 00:20:19,551 --> 00:20:21,000 To prevent the iron from 510 00:20:21,000 --> 00:20:22,586 Corroding, the inside gets 511 00:20:22,586 --> 00:20:24,448 Sprayed with cement, building up 512 00:20:24,448 --> 00:20:26,137 A lining an eighth of an inch 513 00:20:26,137 --> 00:20:28,655 A lining an eighth of an inch Thick. 514 00:20:28,655 --> 00:20:36,396 Thick. 515 00:20:36,396 --> 00:20:38,379 Then the pipe is spun for a few 516 00:20:38,379 --> 00:20:40,034 Seconds to smooth out the 517 00:20:40,034 --> 00:20:41,000 Cement. 518 00:20:41,000 --> 00:20:43,000 The entire pipe is painted 519 00:20:43,000 --> 00:20:44,793 Inside and out. 520 00:20:44,793 --> 00:20:46,551 This seals the surface, enabling 521 00:20:46,551 --> 00:20:48,034 The cement to cure over the 522 00:20:48,034 --> 00:20:49,655 Next 24 hours. 523 00:20:49,655 --> 00:20:51,689 It also provides some extra rust 524 00:20:51,689 --> 00:20:53,448 Protection. 525 00:20:53,448 --> 00:20:55,344 Finally, a robot paints a stripe 526 00:20:55,344 --> 00:20:57,206 Around the straight end of each 527 00:20:57,206 --> 00:20:58,172 Pipe. 528 00:20:58,172 --> 00:20:59,931 This is a depth guideline so 529 00:20:59,931 --> 00:21:01,689 Installation crews know when 530 00:21:01,689 --> 00:21:03,448 They've inserted the straight 531 00:21:03,448 --> 00:21:05,379 End of one pipe as far as it can 532 00:21:05,379 --> 00:21:13,827 Go into the bell end of another. 533 00:21:13,827 --> 00:21:15,448 If you have any comments about 534 00:21:15,448 --> 00:21:17,000 The show, or if you'd like to 535 00:21:17,000 --> 00:21:18,758 Suggest topics for future shows, 536 00:21:18,758 --> 00:21:20,827 Suggest topics for future 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