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These are the user uploaded subtitles that are being translated: 1 00:00:01,793 --> 00:00:04,793 --captions by vitac-- Www.Vitac.Com 2 00:00:04,793 --> 00:00:07,793 Captions paid for by Discovery communications 3 00:00:22,413 --> 00:00:25,034 Narrator: Today on "How it's made"... 4 00:00:53,758 --> 00:00:58,689 Early fishing lines were made Of vines and braided horsehair. 5 00:00:58,689 --> 00:01:01,689 But today, fishermen Rely on braided synthetics 6 00:01:01,689 --> 00:01:04,344 To reel in their catch. 7 00:01:04,344 --> 00:01:06,724 With a higher tensile strength Than steel, 8 00:01:06,724 --> 00:01:10,827 These lines are unlikely to snap When they hook the big one. 9 00:01:14,413 --> 00:01:16,793 This fishing line may be thin, 10 00:01:16,793 --> 00:01:20,517 But that doesn't mean It's not strong. 11 00:01:20,517 --> 00:01:22,620 It's made of a synthetic called 12 00:01:22,620 --> 00:01:26,551 Ultra-high-molecular-weight Polyethylene. 13 00:01:26,551 --> 00:01:30,034 This same synthetic is used In milk jugs, water pipes, 14 00:01:30,034 --> 00:01:32,758 And even bulletproof vests. 15 00:01:34,068 --> 00:01:36,068 To make these fishing lines, 16 00:01:36,068 --> 00:01:40,620 Numerous microfibers are braided Into a single, tight cord. 17 00:01:40,620 --> 00:01:45,103 An employee starts by threading Fibers through needles. 18 00:01:45,103 --> 00:01:49,724 She pulls the needles Through spring-loaded devices. 19 00:01:49,724 --> 00:01:51,655 The devices keep the fibers 20 00:01:51,655 --> 00:01:55,413 At an even tension as they Unwind onto small bobbins. 21 00:02:01,137 --> 00:02:04,689 These bobbins are designed To fit in the braiding machines. 22 00:02:09,620 --> 00:02:12,034 The machines are called Maypole braiders 23 00:02:12,034 --> 00:02:16,000 Because the spools spin Like dancers around a maypole. 24 00:02:19,344 --> 00:02:20,689 As they spin, 25 00:02:20,689 --> 00:02:23,413 They weave the strands Into a tight braid. 26 00:02:25,551 --> 00:02:28,275 There are 4,500 Braiding machines in operation 27 00:02:28,275 --> 00:02:30,034 At this factory. 28 00:02:34,482 --> 00:02:37,068 Producing a tight braid Is slow work. 29 00:02:39,551 --> 00:02:41,137 It takes about 10 days 30 00:02:41,137 --> 00:02:44,517 To braid a 7,500-foot section Of fishing line. 31 00:02:52,448 --> 00:02:54,137 Big spools overhead 32 00:02:54,137 --> 00:02:57,724 Slowly revolve to take up The braided polyethylene line. 33 00:03:03,448 --> 00:03:04,724 At the same time, 34 00:03:04,724 --> 00:03:09,137 A worker fills a metal tank With hot water... 35 00:03:09,137 --> 00:03:11,172 And adds yellow dye to it. 36 00:03:13,482 --> 00:03:15,000 A pump at the bottom of the tank 37 00:03:15,000 --> 00:03:18,275 Keeps the water moving To evenly distribute the dye. 38 00:03:21,206 --> 00:03:24,517 He stirs it a bit while He inspects the mixing job. 39 00:03:28,000 --> 00:03:29,896 They heat and pressurize the dye 40 00:03:29,896 --> 00:03:32,172 In a tank Filled with fishing line. 41 00:03:32,172 --> 00:03:36,241 The dye penetrates all of the Strands for an even dye job. 42 00:03:39,068 --> 00:03:42,931 These fishing lines Go through a different process. 43 00:03:42,931 --> 00:03:45,620 They unwind Through metal eyelets 44 00:03:45,620 --> 00:03:48,586 Into a tray Of yellow silicone resin. 45 00:03:48,586 --> 00:03:53,965 This proprietary resin makes The line abrasion-resistant. 46 00:03:53,965 --> 00:03:57,034 It will be less likely to break If dragged across a surface 47 00:03:57,034 --> 00:04:00,103 Like a rock. 48 00:04:00,103 --> 00:04:02,551 Next, the line Travels through an oven 49 00:04:02,551 --> 00:04:05,241 To cure the resin. 50 00:04:05,241 --> 00:04:07,655 It travels over a series Of tensioning rollers 51 00:04:07,655 --> 00:04:09,206 As it exits. 52 00:04:12,137 --> 00:04:14,551 Then, the line Goes through an abrasive eyelet, 53 00:04:14,551 --> 00:04:17,000 Which removes External contaminants. 54 00:04:19,413 --> 00:04:22,000 Finally, it's rolled up By a spool. 55 00:04:24,517 --> 00:04:28,034 Now it's over to a test station. 56 00:04:28,034 --> 00:04:30,172 A technician clamps a piece Of fishing line 57 00:04:30,172 --> 00:04:31,862 In a testing apparatus. 58 00:04:31,862 --> 00:04:36,103 It pulls the fishing line From both ends until it breaks. 59 00:04:37,827 --> 00:04:40,758 A gauge measures The line's breaking point. 60 00:04:43,689 --> 00:04:46,586 It snaps at 118 pounds Of pressure, 61 00:04:46,586 --> 00:04:48,586 Exceeding requirements. 62 00:04:56,206 --> 00:04:59,862 With the test piece Of fishing line approved, 63 00:04:59,862 --> 00:05:01,137 An automated system 64 00:05:01,137 --> 00:05:04,689 Now transfers the line To retail-sized spools. 65 00:05:07,172 --> 00:05:11,034 It loads about 450 feet Of line onto each one. 66 00:05:16,172 --> 00:05:18,965 A worker applies a label With product details 67 00:05:18,965 --> 00:05:21,896 And packages it In a cardboard box. 68 00:05:24,275 --> 00:05:27,310 It takes about 17 days To braid, color, 69 00:05:27,310 --> 00:05:31,137 And process a single spool Of synthetic fishing line. 70 00:05:35,103 --> 00:05:36,827 Strong but very thin, 71 00:05:36,827 --> 00:05:39,862 It can be cast And reeled in with ease. 72 00:05:43,206 --> 00:05:47,586 If the fish take the bait, they May not be able to get away. 73 00:05:59,655 --> 00:06:02,689 Narrator: the applications For industrial-grade mixers 74 00:06:02,689 --> 00:06:04,310 Are limitless. 75 00:06:04,310 --> 00:06:06,344 From construction and recycling 76 00:06:06,344 --> 00:06:09,068 To food processing And medical supplies, 77 00:06:09,068 --> 00:06:11,310 Mixers chop, crush, and blend 78 00:06:11,310 --> 00:06:14,517 Any combination Of dry and wet materials 79 00:06:14,517 --> 00:06:17,827 Into a variety Of products or compounds. 80 00:06:20,655 --> 00:06:23,310 This mixer consists of a bin Called a u-trough 81 00:06:23,310 --> 00:06:25,482 And an agitator. 82 00:06:25,482 --> 00:06:27,482 It's controlled By an interface module 83 00:06:27,482 --> 00:06:31,103 With simple start And stop buttons. 84 00:06:31,103 --> 00:06:34,310 The agitator shaft Is the main component. 85 00:06:34,310 --> 00:06:36,275 Its arms and paddles turn At a speed 86 00:06:36,275 --> 00:06:38,620 Of 10 to 50 rotations Per minute. 87 00:06:40,482 --> 00:06:42,724 A discharge valve Underneath the u-trough 88 00:06:42,724 --> 00:06:45,241 Controls the unloading Of the mixture. 89 00:06:48,034 --> 00:06:53,344 First, a hydraulic 40-ton press Roll-forms a carbon steel sheet. 90 00:06:55,172 --> 00:06:57,482 The sheet rolls back and forth Under the press 91 00:06:57,482 --> 00:06:59,344 Until it takes a "U" shape. 92 00:07:03,517 --> 00:07:06,482 An overhead crane brings The sheet over to the end plate 93 00:07:06,482 --> 00:07:08,206 For welding. 94 00:07:11,758 --> 00:07:14,689 A worker spot-welds the sheet To the end plate. 95 00:07:16,724 --> 00:07:19,413 Then, he makes a continuous weld On the end plate 96 00:07:19,413 --> 00:07:22,206 Along the inside And outside of the sheet. 97 00:07:24,551 --> 00:07:27,482 A high-definition plasma Cutter burns paddle shapes 98 00:07:27,482 --> 00:07:30,551 Into a stainless-steel plate. 99 00:07:30,551 --> 00:07:32,172 The extreme heat of the plasma 100 00:07:32,172 --> 00:07:34,862 Cuts right through the steel, 101 00:07:34,862 --> 00:07:38,517 Making very precise lines And angles. 102 00:07:38,517 --> 00:07:42,310 Then, the paddles Go to a forming press. 103 00:07:42,310 --> 00:07:46,275 The 150-ton press Pushes the plate down on a die. 104 00:07:48,206 --> 00:07:49,931 Steel is a formable metal, 105 00:07:49,931 --> 00:07:54,103 So it can bend Without cracking or breaking. 106 00:07:54,103 --> 00:07:56,103 A slight curvature In the paddles 107 00:07:56,103 --> 00:07:58,620 Will maximize the lifting And scooping effect 108 00:07:58,620 --> 00:08:00,241 Of the agitator. 109 00:08:02,000 --> 00:08:05,172 A machinist turns the agitator Main shaft. 110 00:08:05,172 --> 00:08:07,689 It takes a very hard And resistant material 111 00:08:07,689 --> 00:08:10,758 To machine Such a massive steel shaft. 112 00:08:10,758 --> 00:08:14,206 This tungsten carbide insert Can resist high temperatures 113 00:08:14,206 --> 00:08:17,724 And maintain A sharp cutting edge. 114 00:08:17,724 --> 00:08:21,172 The machinist Measures the diameter. 115 00:08:21,172 --> 00:08:23,275 He cuts a groove into the end Of the shaft 116 00:08:23,275 --> 00:08:26,758 Using a stagger-tooth Side-mill cutter. 117 00:08:26,758 --> 00:08:28,655 This groove, called a keyseat, 118 00:08:28,655 --> 00:08:30,793 Is designed To lock the agitator 119 00:08:30,793 --> 00:08:33,137 To the mixer's drive gearbox. 120 00:08:35,482 --> 00:08:38,586 Machining of the agitator Requires extreme precision. 121 00:08:38,586 --> 00:08:42,310 The shaft must fit Into the drive gearbox 122 00:08:42,310 --> 00:08:44,586 And match its drive key slot. 123 00:08:46,827 --> 00:08:50,137 A worker assembles arms And paddles to an agitator shaft 124 00:08:50,137 --> 00:08:52,137 Mounted inside a u-trough. 125 00:08:56,034 --> 00:08:58,482 He bolts the arms Onto the shaft. 126 00:09:03,517 --> 00:09:06,000 He tightens the nuts With a pneumatic torque driver 127 00:09:06,000 --> 00:09:08,448 And assembles paddles To the arms. 128 00:09:10,241 --> 00:09:13,965 Both the paddles And arms are angled. 129 00:09:13,965 --> 00:09:17,241 Machine slots in the paddles Allow clearance adjustment. 130 00:09:22,413 --> 00:09:25,482 Next, a worker rotates The assembled shaft and arms 131 00:09:25,482 --> 00:09:26,793 To check the clearance 132 00:09:26,793 --> 00:09:29,517 Between the paddles And u-trough walls. 133 00:09:32,965 --> 00:09:36,379 A welder creates a solid Stainless-steel agitator shaft 134 00:09:36,379 --> 00:09:38,103 For a larger mixer. 135 00:09:40,551 --> 00:09:43,103 He welds the base of the arms To the shaft 136 00:09:43,103 --> 00:09:46,137 And grinds down The welding profile 137 00:09:46,137 --> 00:09:48,275 To obtain a uniform shape. 138 00:09:48,275 --> 00:09:51,310 Welded agitators are often used In food processing 139 00:09:51,310 --> 00:09:54,896 Because they Make cleaning easier. 140 00:09:54,896 --> 00:09:58,413 Now, workers attach an electric Motor to the mixer. 141 00:09:58,413 --> 00:10:01,793 They mount the drive assembly On the agitator shaft. 142 00:10:01,793 --> 00:10:06,000 A taper bushing centers The drive gearbox on the shaft. 143 00:10:06,000 --> 00:10:09,068 Fasteners secure the bushing In place, 144 00:10:09,068 --> 00:10:12,310 Locking the agitator Shaft into the drive. 145 00:10:12,310 --> 00:10:15,241 A worker installs a safety grate On top of the mixer 146 00:10:15,241 --> 00:10:17,068 And closes the covers. 147 00:10:20,448 --> 00:10:23,379 Then, he installs Air-pressure regulators. 148 00:10:23,379 --> 00:10:27,275 These supply air To the main shaft seals. 149 00:10:27,275 --> 00:10:31,344 Air purge seals prevent Product loss or contamination. 150 00:10:35,103 --> 00:10:37,172 Air lines connect The pressure regulators 151 00:10:37,172 --> 00:10:40,068 To both ends Of the main shaft agitator. 152 00:10:42,344 --> 00:10:45,275 The mixer fits on a support Frame for easy access 153 00:10:45,275 --> 00:10:47,172 To the discharge valve. 154 00:10:49,344 --> 00:10:51,655 It's equipped With clamps, safety latches, 155 00:10:51,655 --> 00:10:52,931 And a control panel, 156 00:10:52,931 --> 00:10:57,551 Which includes An emergency stop button. 157 00:11:07,586 --> 00:11:10,413 Narrator: baking soda Is a white crystalline powder. 158 00:11:10,413 --> 00:11:11,793 When added to dough, 159 00:11:11,793 --> 00:11:15,206 It reacts with the acidic Ingredients to form bubbles, 160 00:11:15,206 --> 00:11:19,206 Giving cakes and cookies A light and fluffy structure. 161 00:11:19,206 --> 00:11:21,448 It's also used In livestock feed, 162 00:11:21,448 --> 00:11:24,241 Fire extinguishers, And detergents. 163 00:11:29,482 --> 00:11:32,689 Baking soda is also known As sodium bicarbonate. 164 00:11:32,689 --> 00:11:35,241 It can be produced Through a chemical process, 165 00:11:35,241 --> 00:11:37,689 Or it can be mined From the ground. 166 00:11:40,517 --> 00:11:44,103 Large mineral deposits Exist in northwest colorado, 167 00:11:44,103 --> 00:11:48,965 Left behind as lakes evaporated Millions of years ago. 168 00:11:48,965 --> 00:11:51,758 Mine operators Dissolve the sodium bicarbonate 169 00:11:51,758 --> 00:11:54,482 Underground using hot brine. 170 00:11:54,482 --> 00:11:56,862 The brine is a mix Of the minerals and water 171 00:11:56,862 --> 00:11:59,172 Left over from prior processing. 172 00:12:00,896 --> 00:12:03,206 They pipe The higher-concentration brine 173 00:12:03,206 --> 00:12:06,310 To a processing facility About a mile away. 174 00:12:08,586 --> 00:12:11,344 The brine collects In a holding tank outside 175 00:12:11,344 --> 00:12:14,482 And flows through pipes Into the facility as needed. 176 00:12:18,655 --> 00:12:21,482 Inside, a technician Tests the liquid 177 00:12:21,482 --> 00:12:25,379 And confirms that the level of Sodium bicarbonate is adequate. 178 00:12:29,275 --> 00:12:33,137 Then, the brine Flows through several tanks, 179 00:12:33,137 --> 00:12:35,896 Where heat exchangers Gradually cool it. 180 00:12:38,034 --> 00:12:40,689 This causes The sodium-bicarbonate brine 181 00:12:40,689 --> 00:12:44,862 To crystallize, making The granules larger and heavier. 182 00:12:46,655 --> 00:12:49,551 The crystals sink To the bottom of the last tank. 183 00:12:49,551 --> 00:12:53,655 This forms a mixture Of brine and crystals. 184 00:12:53,655 --> 00:12:57,103 They pump this mixture into A device called a hydroclone. 185 00:12:58,379 --> 00:13:01,896 The hydroclone spins out The brine through the center. 186 00:13:01,896 --> 00:13:03,862 The crystals gravitate To the sides 187 00:13:03,862 --> 00:13:07,000 And sink to the bottom. 188 00:13:07,000 --> 00:13:10,482 This creates A sodium-bicarbonate slurry. 189 00:13:10,482 --> 00:13:13,000 It has a meringue-like Consistency. 190 00:13:15,517 --> 00:13:19,241 The slurry is about 40% sodium Bicarbonate at this point. 191 00:13:22,620 --> 00:13:24,517 A lot of water has been removed, 192 00:13:24,517 --> 00:13:26,551 But there's still Work to be done. 193 00:13:29,103 --> 00:13:31,137 As the dewatering continues, 194 00:13:31,137 --> 00:13:33,413 The system recaptures Spent liquid 195 00:13:33,413 --> 00:13:36,827 And pipes it back into the mine To dissolve more minerals. 196 00:13:38,379 --> 00:13:42,379 The slurry goes for another Spin, this time in a centrifuge. 197 00:13:44,034 --> 00:13:45,827 It wrings out more water, 198 00:13:45,827 --> 00:13:49,310 Transforming the slurry Into something called wet cake. 199 00:13:51,413 --> 00:13:54,931 Wet cake is 95% sodium bicarbonate. 200 00:14:01,206 --> 00:14:03,620 Next, the wet cake travels To a mixer 201 00:14:03,620 --> 00:14:06,965 That blends dry sodium Bicarbonate powder into it. 202 00:14:08,965 --> 00:14:12,862 The dry powder brings The moisture content down to 3%. 203 00:14:17,448 --> 00:14:20,586 Next, the wet cake makes a quick Trip through this dryer 204 00:14:20,586 --> 00:14:22,448 To remove The remaining moisture, 205 00:14:22,448 --> 00:14:24,482 Leaving pure baking soda. 206 00:14:27,758 --> 00:14:29,068 The baking soda now 207 00:14:29,068 --> 00:14:32,241 Shakes through three tiers Of vibrating screens. 208 00:14:34,000 --> 00:14:36,103 The crystals are sorted by size, 209 00:14:36,103 --> 00:14:38,551 Producing Several different grades. 210 00:14:41,103 --> 00:14:44,655 From brine to powder, It's been quite a journey. 211 00:14:48,862 --> 00:14:50,103 It's time to determine 212 00:14:50,103 --> 00:14:53,344 How this naturally mined Baking soda measures up. 213 00:14:56,379 --> 00:14:59,758 A technician dissolves some Of the baking soda in water. 214 00:14:59,758 --> 00:15:03,689 He adds an acid to neutralize The sodium bicarbonate. 215 00:15:03,689 --> 00:15:06,344 This allows him To measure its purity. 216 00:15:10,137 --> 00:15:12,827 He also places the different Grades of baking soda 217 00:15:12,827 --> 00:15:16,034 In a screening device. 218 00:15:16,034 --> 00:15:19,482 It vibrates to shake the Granules through perforations, 219 00:15:19,482 --> 00:15:23,379 Verifying that the crystals have Been correctly graded by size. 220 00:15:28,413 --> 00:15:29,965 With the lab's approval, 221 00:15:29,965 --> 00:15:33,206 This baking soda Is ready for the marketplace. 222 00:15:34,241 --> 00:15:36,379 A robotic arm picks up the bag 223 00:15:36,379 --> 00:15:40,172 And transfers it to a fill Station with a scale below. 224 00:15:42,275 --> 00:15:43,551 The scale signals 225 00:15:43,551 --> 00:15:46,758 When there's 55 pounds Of baking soda in a bag, 226 00:15:46,758 --> 00:15:50,724 Prompting the fill nozzle To shut off. 227 00:15:50,724 --> 00:15:55,275 These 55-pound bags will be sold To commercial bakeries 228 00:15:55,275 --> 00:15:59,344 And companies that use large Amounts of baking soda daily. 229 00:16:00,413 --> 00:16:03,862 It will no doubt Rise to the occasion. 230 00:16:13,827 --> 00:16:16,655 Narrator: when an 18-wheeler Has an accident 231 00:16:16,655 --> 00:16:20,310 Or construction equipment Breaks down, 232 00:16:20,310 --> 00:16:25,517 You need to call in the big guns To haul it away for repair. 233 00:16:25,517 --> 00:16:28,413 Large tow trucks are equipped With specialized tools 234 00:16:28,413 --> 00:16:31,655 To recover And transport massive vehicles. 235 00:16:35,241 --> 00:16:37,482 This tow truck Can haul a vehicle 236 00:16:37,482 --> 00:16:39,103 As large as a semitruck. 237 00:16:39,103 --> 00:16:42,793 The towing apparatus Is called the underlift. 238 00:16:42,793 --> 00:16:45,379 This is one of four outriggers. 239 00:16:45,379 --> 00:16:47,517 These legs stabilize The tow truck 240 00:16:47,517 --> 00:16:51,068 When the using The recovery boom. 241 00:16:51,068 --> 00:16:55,172 This extendible boom is equipped With dual-wire ropes and hooks 242 00:16:55,172 --> 00:16:58,068 To retrieve a vehicle That's gone off the road. 243 00:17:00,275 --> 00:17:03,344 These hydraulically powered Towing and recovery machines 244 00:17:03,344 --> 00:17:07,206 Are made up of 2,500 parts Cut from steel sheets. 245 00:17:07,206 --> 00:17:09,689 The parts are cut By one of two types 246 00:17:09,689 --> 00:17:11,689 Of computer-guided machines -- 247 00:17:11,689 --> 00:17:13,586 A high-pressure water-jet Cutter, 248 00:17:13,586 --> 00:17:14,931 As we're seeing here, 249 00:17:14,931 --> 00:17:16,689 Or a laser cutter. 250 00:17:19,137 --> 00:17:24,793 Workers position the parts In an assembly fixture... 251 00:17:24,793 --> 00:17:27,206 Then tack-weld them together. 252 00:17:31,655 --> 00:17:35,344 Tack welding is an initial Welding in select spots, 253 00:17:35,344 --> 00:17:37,172 Just to hold the parts Together 254 00:17:37,172 --> 00:17:39,620 Until a robot Does the final welding. 255 00:17:53,896 --> 00:17:57,413 Next, workers Sandblast the welded component. 256 00:17:59,896 --> 00:18:02,517 This preps the surface For painting. 257 00:18:04,551 --> 00:18:09,793 They apply one coat Of epoxy primer... 258 00:18:09,793 --> 00:18:13,137 Then one coat of polyurethane Automotive paint. 259 00:18:13,137 --> 00:18:15,655 The paint dries In about two hours 260 00:18:15,655 --> 00:18:18,758 And fully cures In about two days. 261 00:18:18,758 --> 00:18:22,448 Workers hook up all of the Hydraulically powered components 262 00:18:22,448 --> 00:18:25,413 To this testing machine. 263 00:18:25,413 --> 00:18:28,689 If everything Functions properly, 264 00:18:28,689 --> 00:18:31,655 Workers connect permanent Hydraulic lines. 265 00:18:33,758 --> 00:18:35,586 To assemble the recovery boom, 266 00:18:35,586 --> 00:18:40,310 They install hydraulic cylinders That will move it up and down, 267 00:18:40,310 --> 00:18:45,103 A winch that winds and unwinds The thick wire ropes, 268 00:18:45,103 --> 00:18:46,655 And an enormous ring gear 269 00:18:46,655 --> 00:18:50,413 That enables the boom To rotate 360 degrees. 270 00:18:54,862 --> 00:18:57,931 Then, They attach the extendible boom. 271 00:19:04,482 --> 00:19:07,517 It's secured With massive steel pins. 272 00:19:14,241 --> 00:19:17,137 Workers also attach he underlift At the back 273 00:19:17,137 --> 00:19:21,551 And the four stabilizing Outriggers underneath. 274 00:19:21,551 --> 00:19:24,310 This completes the towing And recovery unit. 275 00:19:24,310 --> 00:19:27,172 Now they attach it To a prebuilt truck. 276 00:19:27,172 --> 00:19:30,517 Steel mounting plates Are bolted to the truck's frame. 277 00:19:30,517 --> 00:19:34,310 The towing-and-recovery unit Is then welded to those plates. 278 00:19:37,482 --> 00:19:39,482 Workers bolt aluminum tool Cabinets 279 00:19:39,482 --> 00:19:41,689 To the side Of the truck's frame. 280 00:19:51,448 --> 00:19:54,344 Inside the cabinet, They make the wiring connections 281 00:19:54,344 --> 00:19:57,724 For the emergency lights And other electrical components. 282 00:20:05,275 --> 00:20:07,758 They install the electronic Control panel 283 00:20:07,758 --> 00:20:10,310 That the driver uses To operate everything. 284 00:20:10,310 --> 00:20:12,655 The control panel monitors Oil temperature, 285 00:20:12,655 --> 00:20:16,793 Hydraulic pressure, And other important indicators. 286 00:20:16,793 --> 00:20:19,068 They also install a set Of control handles 287 00:20:19,068 --> 00:20:23,103 To give the driver The option of manual operation. 288 00:20:28,724 --> 00:20:30,965 Once everything is hooked up, 289 00:20:30,965 --> 00:20:33,724 They perform a quality Control inspection. 290 00:20:44,896 --> 00:20:47,000 This factory Makes several models, 291 00:20:47,000 --> 00:20:49,379 Ranging from a light-duty Tow truck... 292 00:20:53,172 --> 00:20:56,758 ...To one like this, designed To haul the heaviest trucks 293 00:20:56,758 --> 00:20:58,275 And machinery. 294 00:21:19,344 --> 00:21:21,724 If you have any comments About the show, 295 00:21:21,724 --> 00:21:24,310 Or if you'd like to suggest Topics for future shows, 296 00:21:24,310 --> 00:21:29,482 Drop us a line at Sciencechannel.Com/howitsmade. 23902