Описание продукта
Product Specifications:
| Модель | BX92RS |
| Chipper Capacity | 250mm/10” |
| Chipper Housing Opening | 10”x15” |
| No.of Knives | 4 |
| Rotor Size | 36” |
| Feeding System Feed | Hydraulic Feed |
| Hopper Folded | 66”Lx68”Wx90”H |
| Hopper Opening | 25”x25” |
| Mounting System | 3 Point Hitch |
| Discharge Hood Rotation | 360˚ |
| Discharge Hood Height | 90” |
| Structure Weight | 625kg |
| Tractor HP | 70-120hp |
Product Description:
The BX92RS Hydraulic PTO Wood Chipper has a 9″ chipper capacity and a 10.5″ x 14″ chipper housing opening and is fitted with a 125kg heavyweight Rotor. This model Wood Chipper has a direct hydraulic feed from the tractor hydraulic rear connection plugs.
Direct PTO drive that operates as a fix drive system and without the use of gears and belt drives and this model is fitted standard with easily replaceable blades by removing 3 removable bolt for simple and easy access to the top half of housing and the hopper can also be fully opened with 2 removable bolts.
This model Wood Chipper has a full hydraulic feed system that allows for fast, medium or slow flow rate settings and with its 3 feed setting options from feed direction of forward, reverse and neutral settings.
The Hydraulic model allows for consistent chipping as the Hydraulic System has double support arms from both sides of the internal hopper with drive force from its hydraulic motor and with a Dual Barrel System that enables dragging motion for consistent cutting.
The Hydraulic Feed Chipper model is a simple and low maintenance chipper and able to handle the hardest and knotted wood.
Our advantages:
A whole complete set of production equipment lead to short lead time and better prices of machine.
Guarantee 1 year warranty of all our products.
Produce machines according to any requirements from our customers.
New machines will be developed every year.
Every model of our machine will be tested before the delivery to the port.
If you want to visit our factory, our boss will give you a best reception.
Beautiful gifts will be provided for all of our customers before every year’s Christmas.
Work shop and office:
Welding:
Blade shaft:
Laser equipment:
Office:
Rest place:
Assembly:
Finished machines:
CNC:
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| Послепродажное обслуживание: | Within One Hour |
|---|---|
| Гарантия: | One Year |
| Цвет: | Customsized |
| Logo: | OEM |
| Feeding System: | Hydraulic Feed |
| Rotor Size: | 36′′ |
| Настройка: |
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| Индивидуальный запрос |
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How do PTO drive shafts ensure efficient power transfer while maintaining safety?
PTO (Power Take-Off) drive shafts are designed to ensure efficient power transfer while prioritizing safety. These drive shafts incorporate various mechanisms and features to achieve both objectives. Here’s a detailed explanation of how PTO drive shafts ensure efficient power transfer while maintaining safety:
1. Robust Construction:
PTO drive shafts are typically constructed using high-quality materials such as steel or composite materials that offer strength and durability. The robust construction allows them to withstand the torque and power demands of the application, ensuring efficient power transfer without excessive flexing or deformation that could result in energy loss or premature failure.
2. Precise Alignment:
Efficient power transfer requires precise alignment between the PTO drive shaft, the primary power source (e.g., engine, transmission), and the implement or equipment being driven. Misalignment can lead to power loss, increased wear, and potential safety hazards. PTO drive shafts are designed with adjustable lengths or flexible couplings to accommodate variations in equipment size and ensure proper alignment, maximizing power transmission efficiency.
3. Connection Safety Features:
PTO drive shafts incorporate safety features to prevent accidents and minimize the risk of injury. One common safety feature is the use of shear pins or torque limiters. These components are designed to break or slip under excessive torque, protecting the drive shaft and connected equipment from damage. By sacrificing the shear pin, the PTO drive shaft disengages in case of overload, ensuring the safety of operators and preventing costly repairs.
4. Overload Protection:
Overload protection mechanisms are crucial for maintaining safety and preventing damage to the PTO drive shaft and associated equipment. Clutch systems or slip clutches can be employed to disengage the drive shaft when excessive torque or speed is encountered. These mechanisms allow the drive shaft to slip or disengage momentarily, preventing damage and reducing the risk of injury to operators or bystanders.
5. Shielding and Guarding:
PTO drive shafts are often equipped with shielding and guarding to prevent contact with moving parts. These protective covers ensure that operators and bystanders are shielded from rotating shafts, universal joints, and other potentially hazardous components. Proper shielding and guarding reduce the risk of entanglement, entrapment, or accidental contact, enhancing overall safety.
6. Compliance with Safety Standards:
PTO drive shafts are designed and manufactured to comply with relevant safety standards and regulations. These standards, such as ISO 500-1, specify requirements for power transmission components, including PTO drive shafts. Compliance with these standards ensures that the drive shafts meet necessary safety criteria and undergo rigorous testing to ensure their reliability and performance.
7. Regular Maintenance and Inspection:
Maintaining the safety and efficiency of PTO drive shafts requires regular maintenance and inspection. Operators should follow recommended maintenance schedules, including lubrication, inspection of components, and replacement of worn or damaged parts. Regular inspections help identify potential safety issues, such as worn bearings, damaged shielding, or compromised safety features, allowing for timely repairs or replacements.
8. Operator Training and Awareness:
Efficient power transfer and safety also depend on operator training and awareness. Operators should receive proper training on the safe operation and maintenance of PTO drive shafts. This includes understanding safety procedures, recognizing potential hazards, and being aware of the risks associated with improper use or maintenance. Promoting a culture of safety and providing ongoing training helps ensure that PTO drive shafts are used correctly and that potential risks are minimized.
By incorporating robust construction, precise alignment, connection safety features, overload protection, shielding and guarding, compliance with safety standards, regular maintenance and inspection, and operator training and awareness, PTO drive shafts can achieve efficient power transfer while maintaining a high level of safety. These measures help prevent accidents, protect equipment and operators, and ensure reliable and effective power transmission in various applications.
Как валы отбора мощности справляются с изменениями нагрузки и крутящего момента во время работы?
Валы отбора мощности (ВОМ) предназначены для работы с изменениями нагрузки и крутящего момента во время эксплуатации, обеспечивая гибкое и эффективное решение для передачи мощности. Они включают в себя несколько механизмов и функций, позволяющих им адаптироваться к изменениям нагрузки и крутящего момента. Вот как валы ВОМ справляются с изменениями нагрузки и крутящего момента:
1. Гибкие муфты:
В приводных валах ВОМ обычно используются гибкие муфты, такие как карданные шарниры или шарниры равных угловых скоростей, на обоих концах. Эти муфты позволяют компенсировать угловые смещения и изменения нагрузки и крутящего момента. Они могут компенсировать изменения ориентации и положения приводимого в движение оборудования относительно источника энергии, снижая нагрузку на приводной вал и его компоненты.
2. Подпружиненные фрикционные диски:
В некоторых приводных валах ВОМ используются подпружиненные фрикционные диски, обычно называемые ограничителями крутящего момента или муфтами защиты от перегрузки. Эти устройства обеспечивают механическую защиту приводного вала и подключенного оборудования от чрезмерного крутящего момента. Когда крутящий момент превышает заданный порог, фрикционные диски проскальзывают, эффективно отключая приводной вал от источника питания. Это защищает приводной вал от повреждений и позволяет системе справляться с внезапными увеличениями или скачками крутящего момента.
3. Сцепления скольжения:
Муфты скольжения — это ещё один механизм, используемый в приводных валах ВОМ для компенсации колебаний крутящего момента. Муфты скольжения обеспечивают контролируемое проскальзывание между входным и выходным валами при превышении определённого уровня крутящего момента. Они позволяют ограничить передачу крутящего момента и защитить приводной вал от перегрузки. Муфты скольжения могут быть регулируемыми, что позволяет настраивать желаемый уровень крутящего момента в зависимости от конкретного применения.
4. Гидротрансформаторы:
В некоторых областях применения приводные валы ВОМ могут быть оснащены гидротрансформаторами. Гидротрансформаторы — это устройства с гидравлической муфтой, использующие гидравлические принципы для передачи крутящего момента. Они обеспечивают плавное и постепенное нарастание крутящего момента, что помогает справляться с изменениями нагрузки и крутящего момента. Гидротрансформаторы также могут обеспечивать дополнительные преимущества, такие как гашение вибраций и снижение ударных нагрузок.
5. Несущая способность:
Валы отбора мощности проектируются с достаточной несущей способностью для работы при изменении нагрузки во время эксплуатации. Выбор материала, диаметр и толщина стенки вала оптимизированы на основе предполагаемых нагрузок и требований к крутящему моменту. Это позволяет валу эффективно передавать мощность без чрезмерного прогиба или деформации, обеспечивая надежную и эффективную работу в различных условиях нагрузки.
6. Регулярное техническое обслуживание:
Надлежащее техническое обслуживание имеет важное значение для надежной работы приводных валов ВОМ. Регулярный осмотр, смазка и регулировка компонентов приводного вала помогают обеспечить оптимальную производительность и долговечность. Поддерживая приводной вал в хорошем состоянии, можно сохранить его способность выдерживать изменения нагрузки и крутящего момента, снижая риск отказов или неожиданных простоев.
Важно отметить, что, хотя приводные валы ВОМ рассчитаны на работу с изменяющимися нагрузками и крутящим моментом, существуют ограничения по их грузоподъемности. Превышение рекомендуемых пределов нагрузки или крутящего момента может привести к преждевременному износу, повреждению приводного вала и подключенного оборудования, а также поставить под угрозу безопасность. Крайне важно работать в пределах указанных параметров и ознакомиться с рекомендациями производителя для конкретной модели приводного вала ВОМ.
Благодаря использованию гибких муфт, ограничителей крутящего момента, муфт скольжения, гидротрансформаторов и обеспечению достаточной несущей способности, приводные валы ВОМ могут эффективно справляться с изменениями нагрузки и крутящего момента во время работы. Эти особенности способствуют универсальности, эффективности и надежности систем приводных валов ВОМ в широком диапазоне применений.
How do PTO drive shafts contribute to transferring power from tractors to implements?
PTO (Power Take-Off) drive shafts play a crucial role in transferring power from tractors to implements in agricultural and industrial applications. They provide a mechanical connection that enables the efficient and reliable transfer of rotational power from the tractor’s engine to various implements. Here’s a detailed explanation of how PTO drive shafts contribute to transferring power:
1. Power Source:
A tractor serves as the primary power source in agricultural operations. The engine of the tractor generates rotational power, which needs to be transmitted to the attached implements to perform specific tasks. The power generated by the engine is harnessed and transferred through the PTO drive shaft.
2. PTO Output Shaft:
Tractors are equipped with a PTO output shaft, typically located at the rear of the tractor. The PTO output shaft is specifically designed to transfer power to external devices, such as implements or machinery. The PTO drive shaft connects directly to this output shaft to receive power.
3. PTO Drive Shaft Configuration:
The PTO drive shaft consists of a rotating shaft with splines at both ends. These splines provide a secure and robust connection to the PTO output shaft of the tractor and the input shaft of the implement. The drive shaft is designed to transmit rotational power while accommodating the varying distance and alignment between the tractor and the implement.
4. Attachments and Implement Input Shaft:
The other end of the PTO drive shaft connects to the input shaft of the implement. The implement may have a specific attachment point or a PTO driveline connection designed to receive the drive shaft. The implement’s input shaft is precisely aligned with the drive shaft to ensure efficient power transfer.
5. Mechanical Power Transfer:
Once the PTO drive shaft is properly connected to both the tractor’s PTO output shaft and the implement’s input shaft, it serves as a mechanical link between the two. As the tractor’s engine runs, the rotational power generated by the engine is transferred through the PTO output shaft and into the drive shaft.
6. Rotational Power Delivery:
The PTO drive shaft rotates at the same speed as the tractor’s engine, effectively delivering the rotational power to the implement. The implement utilizes this power to drive its specific machinery or perform various tasks, such as cutting, tilling, mowing, or pumping.
7. Power Transmission Efficiency:
PTO drive shafts are designed to maximize power transmission efficiency. They are typically constructed using high-strength materials and precision engineering to minimize energy losses and ensure a reliable transfer of power. Proper maintenance, including lubrication and periodic inspections, is essential to maintain optimal power transmission efficiency.
8. Safety Considerations:
PTO drive shafts can pose safety risks if not used correctly. It is important to follow safety guidelines and ensure that the drive shaft is properly guarded to prevent contact with rotating components. Operators should also exercise caution during attachment and detachment procedures to avoid accidents or injuries.
In summary, PTO drive shafts serve as the vital link between tractors and implements, facilitating the transfer of rotational power. They provide a mechanical connection that efficiently transmits power from the tractor’s engine to the implement, enabling a wide range of agricultural and industrial tasks to be performed effectively and efficiently.
editor by CX 2024-02-11
