China OEM HD469-2403016 4110001187053 Plant Gear for CZPT Lgmg Mt86 Mt86h Mt95 Mt96L Tonly 875 875b 883 885 supplier

Product Description

Product Description

HD
411 Pass-axle box cap 1 93 81.90685.0303 Flange nut 2 94 HD Passive column gear 1 95 06.32499.0571 Row-steep roller bearing 2 96 06.32499. Row-steep roller bearing 2 99 HD Active taper gear 1 1 Active taper gear 1 101 HD Active taper gear 1 102 HD Roller bearing 1 103 HD Stop ring 1 104 Q1811645TF2 Hex bolt 8 105 HD Bearing block 1 106 HD Adjusting washer as needed 107 Q5211228 Pin 2 108 DZ90149326 Differential case (right) 1 113 HD469-24571 Differential case (right) 1 114 HD Axle shaft gear washer 2 115 HD Axle shaft gear 1 116 HD Axle shaft gear 1 117 Q180571 Hex bolt 2 118 DZ911232571 Locking piece 2 119 DZ90149326 spherical surface Washer 4 122 HD Plant gear 4 123 HD Plant gear 4 124 Q522571 Pin 4 125 HD469-24 0571 1 Cross axle 1 126 HD Cross axle 2 127 DZ90149326 Passive taper gear 1 129 HD Passive taper gear 1 130 HD Passive taper gear 1 131 HD Differential case (left) 1 132 HD469-25571 Differential case (left) 1 133 DZ90149326 Flange 1 135 HD Adjusting nut 1 136 DZ9112320920 Axle seal ring 1 137 DZ95149326 Axle shaft gear 1 145 HD469-251 Adjusting shim 1 147 HD469-251 Cross axle 1 149 HD469-251 Differential case of axle 1 151 HD Active column gear 1 152 HD bush 1 153 HD Sliding engage cowl 1 154 HD Stop shim 1 155 HD Perforation shaft(input) 1 156 HD Locking piece 1 157 Q180571TF2 Hex bolt 1 158 Q218B571 bolt 3 159 81.25503.5714 Gearbox switch 1 160 19 Cylinder cover 1 162 HD Gasket 1 163 HD bush 1 164 HD Plunger 1 165 HD O-ring 1 166 HD Washer as needed 167 HD Washer as needed 168 HD Selector fork 1 169 HD Spring 1 170 81.90685.571 Flange nut 1 171 81.39115.0426 Flange 1 172 81.39135.2019 Dirt guard 1 173 DZ9112320920 Axle seal ring 1 174 DZ9112325715 Grease packing seat 1 175 06.32499.0571 Row-steep roller bearing 1 176 06.32499. Bearing block 1 179 HD O-ring 1 180 81.9 0571 .5710 Adjusting washer 1 181 HD469-24571 Active taper gear 1 183 HD Active taper gear 1 184 HD Active taper gear 1 185 HD Roller bearing 1 186 HD Stop ring 1 187 HD Adjusting washer as needed 188 HD Adjusting washer as needed 189 HD Adjusting washer as needed 190 HD Adjusting washer as needed 191 HD Adjusting washer as needed 192 HD Adjusting washer as needed 193 DZ90149326 Axle shaft gear washer 2 202 HD Axle shaft gear 2 203 HD Axle shaft gear 2 204 Q180571 Hex bolt 2 205 DZ911232571 Locking piece 2 206 Q151C20110TF2 bolt 4 207 DZ90149326 spherical surface Washer 4 210 HD Plant gear 4 211 HD Plant gear 4 212 HD Cross axle 2 213 HD469-24 0571 1 Cross axle 1 214 DZ90149326 Active taper gear 1 216 HD Active taper gear 1 217 HD Active taper gear 1 218 HD Differential case (right) 1 219 HD469-24571 Differential case (right) 1 220 DZ90149336002 Middle axle housing assembly 1 221 81.90801.5711 Anti-loose piece 1 222 Q41408 washer 1 223 Q150B571TF2 Hex bolt 1 224 199000330006 Vent assembly 1 225 Q5211228 Pin 2 226 81.90301.0571 Plug 1 227 Q1211655TF2 Stud 10 228 DZ905710000 Locking nut 12 229 DZ90149336003 Rear axle housing assembly 1 230 199000330006 Vent assembly 1 231 DZ905710000 Locking nut 12 232 Q1211645TF2 Stud 6 233 Q5211228 Pin 2 234 Q12116455TF2 Stud 6 235 81.90301.0571 Plug 1 236 DZ9112346116 Plug 4 237 190003098026 Packing ring 4 238 Q184A1018TF2 Hex bolt 20 239 DZ9112342013 End cap 2 240 Q2541030 Bolt 12 241 DZ90149346571 Brake drum 2 242 DZ90149346008 Hex bolt 2 243 DZ90149346005 Hub redactor case 2 244 DZ9112342041 Stopping washer 20 245 DZ9112342571 Stopping washer 4 246 Q43155 Circlip for shaft 2 247 DZ90149346045 Stopping washer 2 248 DZ90149346013 Central gear 2 249 DZ90149346012 Planet gear 10 250 Q43365 Wire circlip for shaft 2 251 DZ90149346011 Planet gear axle 10 252 DZ90149346009 Quill roller bearing assembly 10 253 164 ´ 4DIN472 Circlip for hole 2 254 DZ9112342030 Adjuster washer as needed 255 DZ9112342031 Adjuster washer as needed 256 DZ9112342032 Adjuster washer as needed 257 DZ9112342033 Adjuster washer as needed 258 DZ9112342034 Adjuster washer as needed 259 DZ90149346019 Inside gear ring 2 260 DZ90149346018 Gear ring bearer 2 261 DZ9112342091 Circlip for hole 2 262 32226 Row-steep roller bearing 2 263 DZ9112342061 O style packing ring 4 264 DZ9112342055 Wheel nut 24 265 DZ90149346571 Wheel hub 2 266 DZ9112342071 Wheel bolt 24 267 DZ9112342062 Circlip for shaft 2 268 32224 Row-steep roller bearing 2 269 DZ90149346571 Hub Packing ring 2 270 DZ9112342052 Oil baffle disc 2 271 DZ90149346026 Space ring 2 272 DZ9112440508 Washer 2 273 DZ911244571 O style packing ring 2 274 DZ90001500004 Hex bolt 36 275 DZ90149346571 Brake assembly 2 276 DZ90149346004 Bolt 2 277 DZ90149346016 Locking nut 2 278 DZ90149346015 Stopping ring 2 279 DZ90149346014 Locking nut 2 280 DZ90149346571 Axle shaft 2 281 DZ90149346033   Brake cam shaft(right 1 282 DZ90149346034 Brake cam shaft(right) 1 283 DZ90149346035 Brake cam shaft(right 1 284 DZ90149346036 Brake cam shaft(right 1 285 Q43142 Circlip for shaft 2 286 Q150B08205 Hex bolt 8 287 Q40308 Spring washer 8 288 DZ90149346063 Outside bearer 2 289 DZ9112340093 Packing ring 4 290 SXQ70006 Grease nipple 2 291 DZ9112340095 Ball bearing 2 292 DZ9014934606 Inside bearer 2 293 Q151B1645TF2 Hex bolt 8 294 DZ90149346037   Chamber bearer (right) 1 295 DZ90149346038 Chamber bearer (right) 1 296 DZ90149346039 Chamber bearer (right) 1 297 DZ90149346040 Chamber bearer (right) 1 298 DZ90149346040 Chamber bearer (right) 1 299 DZ90149346042  Adjuster washer Adjuster washer as needed 300 DZ90149346043 Adjuster washer Adjuster washer as needed 301 DZ90149346044 Adjuster washer as needed 302 DZ90149346041 Gap adjuster arm assembly 2 303 188000340571 Washer 2 304 10800032571 Adjuster washer Adjuster washer Adjuster washer as needed 305 10800032571 Adjuster washer as needed 306 108000320030 Adjuster washer as neede 307 108000320046 Adjuster washer as neede 308 Circlip for axle 2 309 Pin 2 310 Washer 2 311 DZ911436 0571 Brake chamber 2 312 190003903661 Pin 2 313 DZ9112440521 Choke plug 2 314 Q150B1016 Hex bolt 6 315 Q4571 Spring washer 6 316 DZ90149346030 Dirt guard 1 317 DZ911244 0571 Bush 1 318 Taper thread grease nipple 1 319 DZ9112440524 Return spring 1 320 DZ9112440525 Return spring pin 2 321 DZ9112440526 Support spring 2 322 DZ911244 0571 Holddown wheel 2 323 DZ90149346031 Brake shoe 2 324 DZ9112440529 Clinch 80 325 DZ90149346032 Brake camshaft 4 326 DZ911244571 Down return spring 2 327 DZ911244571 Pin axle 1 328 DZ911244571 Bullet axle 1 329 DZ90149346571 Brake camshaft 1

FAQ

 

  • 1. How long have you been in this business?
    We have 17 years of industry experience. Mine truck parts only!
     

  • 2.Do you have enough products?
    10000 kinds of varieties. ONE STOP SHOPPING of mining Truck Parts.
     

  • 3.Can you be trusted?
    Our long-term good cooperation with 100+ customers around the world is the best proof.
     

  • 4.Can there be an account period?
    O/A 90 DAYS
     

  • 5.Are you a factory or a trading company?
    trading company. we have 2000+Factory perfect supply chain. Strictly check quality and control risk for you.
     

  • 6.How long will the delivery?
    Within a week.

  • 7.Is there a discount for new customers?
    New customers get up to 10% off their first order.

 

After-sales Service: on-Line Service
Condition: New
Axle Number: 3
Application: Truck
Certification: DIN, ISO
Material: Steel
Samples:
US$ 50/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

epicyclic gear

How do epicyclic gears contribute to gear reduction and speed increase?

Epicyclic gears, also known as planetary gears, play a significant role in achieving gear reduction and speed increase in various mechanical systems. Here’s a detailed explanation:

1. Gear Reduction:

Epicyclic gears can achieve gear reduction by utilizing their unique gear arrangement. The gear reduction is achieved by fixing or holding certain components of the gear system, such as the ring gear or the planet carrier, while the input and output shafts rotate. This causes the sun gear to drive the planet gears, resulting in a reduction of output speed and an increase in torque. The gear ratio formula for gear reduction in an epicyclic gear system is R = (1 + S) / (1 + R), where R is the number of teeth on the ring gear and S is the number of teeth on the sun gear.

2. Speed Increase:

Epicyclic gears can also be used to achieve speed increase when certain components of the gear system are held fixed or driven while the output shaft rotates. In this configuration, the input torque is divided among multiple planet gears, which rotate around the sun gear and drive the output shaft. This results in an increase in output speed and a decrease in torque. The gear ratio formula for speed increase in an epicyclic gear system is R = (1 + R) / (1 + S), where R is the number of teeth on the ring gear and S is the number of teeth on the sun gear.

3. Multiple Stages:

Epicyclic gears can achieve higher gear reduction or speed increase by incorporating multiple stages within a single gear system. Each stage consists of a set of gears, including a sun gear, planet gears, and a ring gear. The output of one stage becomes the input for the next stage, allowing for a cumulative effect on the gear ratio. By stacking multiple stages, the overall gear reduction or speed increase can be multiplied, providing a wide range of gear ratios to suit different application requirements.

4. Customizable Gear Ratios:

Epicyclic gears offer flexibility in achieving customizable gear ratios. By varying the number of teeth on the gears or using different combinations of gears, specific gear ratios can be obtained to meet the needs of the application. This customization capability allows for optimized speed control, gear reduction, and torque multiplication, making epicyclic gears versatile in a wide range of mechanical systems.

5. Compact Design:

Epicyclic gears contribute to gear reduction and speed increase while maintaining a compact design. The concentric arrangement of gears and the ability to achieve multiple gear stages within a single gear system result in a smaller overall footprint compared to other gear arrangements. This compact design is particularly useful in space-constrained applications where achieving high gear reduction or speed increase is essential.

In summary, epicyclic gears contribute to gear reduction and speed increase through their unique gear arrangement, multiple stages, customizable gear ratios, and compact design. These features make them widely used in various mechanical systems, such as automotive transmissions, industrial machinery, and robotics, where efficient power transmission and speed control are crucial.

epicyclic gear

How do epicyclic gears offer compact solutions in space-constrained applications?

Epicyclic gears, also known as planetary gears, provide compact solutions in space-constrained applications. Here’s a detailed explanation:

1. Concentric Design:

Epicyclic gears have a concentric design where multiple gears are arranged around a central sun gear. This concentric arrangement allows for the transmission of torque and motion within a compact space. The gears share a common center, resulting in a smaller overall footprint compared to other gear systems.

2. Multiple Gear Stages:

Epicyclic gears can achieve multiple gear stages within a single gear system. By stacking planet gears and incorporating additional ring gears, the gear reduction or speed increase can be multiplied, all within a compact assembly. This eliminates the need for multiple separate gear systems, saving space and simplifying the mechanical layout.

3. High Gear Reduction:

Epicyclic gears offer high gear reduction capabilities. The arrangement of multiple planet gears allows for a high reduction ratio within a single stage of gears. This high gear reduction enables compact power transmission systems and is particularly useful in applications where space is limited, such as small robots or micro-actuators.

4. Inline Input and Output:

Epicyclic gears have an inline input and output configuration, where the input and output shafts are aligned on the same axis. This inline arrangement contributes to a more compact design, as it eliminates the need for additional space to redirect the motion or torque between non-aligned shafts.

5. Integration with Other Components:

Epicyclic gears can be easily integrated with other mechanical components, such as motors or actuators, within a compact space. The modular design of epicyclic gears allows for seamless integration, enabling the creation of more compact and efficient power transmission systems.

6. Customizable Gear Ratios:

Epicyclic gears offer flexibility in achieving customizable gear ratios. By varying the number of teeth on the gears or using different combinations of gears, specific gear ratios can be obtained to meet the requirements of the application. This customization capability allows for optimized space utilization and efficient power transmission.

7. Reduction of External Support Components:

Epicyclic gears can reduce the need for additional support components, such as idler gears or external shafts, which are often required in other gear systems. By incorporating multiple gears within a single assembly, epicyclic gears can achieve the desired motion and torque transfer without relying on external supporting structures, resulting in a more compact overall system.

In summary, epicyclic gears offer compact solutions in space-constrained applications through their concentric design, multiple gear stages, high gear reduction capabilities, inline input and output configuration, integration with other components, customizable gear ratios, and reduction of external support components. These features make epicyclic gears a preferred choice for achieving compact and efficient power transmission in various applications where space is limited.

“`epicyclic gear

How do epicyclic gears contribute to power transmission in machinery?

Epicyclic gears, also known as planetary gears, play a crucial role in power transmission within machinery. Here’s a detailed explanation of their contribution:

1. Gear Reduction:

Epicyclic gears allow for significant gear reduction, which is the process of reducing the rotational speed of the output shaft compared to the input shaft. By configuring the gear engagement and gear ratios, epicyclic gears can achieve high reduction ratios, enabling machinery to operate at lower speeds while maintaining high torque output.

2. Torque Multiplication:

Epicyclic gears also provide torque multiplication, which is the process of increasing the torque output compared to the torque applied at the input. By utilizing the gear ratios and gear arrangement, epicyclic gears can effectively multiply the torque, allowing machinery to generate higher rotational force for heavy-duty applications.

3. Compactness:

Epicyclic gears offer a compact design, making them ideal for applications where space is limited. The arrangement of the sun gear, planet gears, and annular gear allows for a high gear reduction or multiplication within a small footprint. This compactness is particularly advantageous in industries such as automotive, aerospace, and robotics, where efficient power transmission is required in confined spaces.

4. Versatile Gear Ratios:

Epicyclic gears provide a wide range of gear ratios, which allows machinery to adapt to different operational requirements. By selecting the appropriate combination of gear engagement and gear ratios, the speed and torque characteristics of the machinery can be tailored to specific applications. This versatility in gear ratios enhances the flexibility and performance of machinery across various industries.

5. Precise Control:

Epicyclic gears enable precise control over power transmission within machinery. The combination of rotational and orbital motion in planetary gear sets allows for smooth and precise adjustments of speed and torque. This level of control is crucial in applications that require accurate positioning, speed regulation, and responsive power transfer.

6. Multiple Functions:

Epicyclic gears offer various functions beyond power transmission. They can be utilized for directional changes, torque splitting, braking, and speed synchronization. These additional functions enhance the versatility and efficiency of machinery, allowing for complex operations and improved overall performance.

Overall, epicyclic gears contribute to power transmission in machinery by providing gear reduction, torque multiplication, compactness, versatile gear ratios, precise control, and multiple functions. Their unique design and capabilities make them a valuable component in a wide range of industries and applications.

China OEM HD469-2403016 4110001187053 Plant Gear for CZPT Lgmg Mt86 Mt86h Mt95 Mt96L Tonly 875 875b 883 885 supplier China OEM HD469-2403016 4110001187053 Plant Gear for CZPT Lgmg Mt86 Mt86h Mt95 Mt96L Tonly 875 875b 883 885 supplier
editor by CX 2023-09-12