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IGC-T Series Travel Drive OEM/ODM

Home / Products / Travel Drive / IGC-T Series Travel Drive

IGC-T Series Travel Drive Manufacturers

INI Hydraulic Co., Ltd.

  • 27+

    Years Industry Experience

  • 150000+

    Factory Area

  • 450+

    Skillful Employees

  • 18+

    Advanced Production Line

INI Hydraulic Co., Ltd. has specialized in designing and manufacturing hydraulic winches, hydraulic motors and planetary gearboxes for more than twenty years. We are one of the professional China IGC-T Series Travel Drive Manufacturers and IGC-T Series Travel Drive Factory . Customizing to optimize customers’ ingenious equipment designs is our way to stay alive robustly in the market. Over 26 years, driven by the commitment of always innovating to satisfy customers’ needs, we have developed a wide range of product lines based on our self-developed technologies. The wide spectrum of products, each correlating intimately, contains hydraulic and electric winches, planetary gearboxes, slewing drives, transmission drives, hydraulic motors, pumps and hydraulic systems.

The reliability of our products has been proven strongly in diverse applications, including not limiting industrial machinery, construction machinery, ship & deck machinery, off-shore equipment, mining and metallurgical machinery.

Besides, our product quality has been approved by multiple worldwide renowned certificate bodies. The certifications, that our products have obtained, include EC-Type Examination Certificate, BV MODE, DNV GL Certificate, EC Attestation of Conformity, Certificate of Type Approval for Marine Product and Lloyd’s Register Quality Assurance. So far, besides China, our domestic market, we have widely exported our products to the United States, Germany, the Netherlands, Australia, Russia, Turkey, Singapore, Japan, South Korea, Malaysia, Vietnam, India and Iran. Our logistics and after-sales services cover the whole world promptly and reliably for our customers’ deep interests.

HONOR & CERTIFICATE

Our products have obtained, include EC-Type Examination Certificate, BV, MODE, DNV, GL Certificate, EC Attestation of Conformity, Certificate of Type Approval for Marine Product and Lloyd’s Register Quality Assurance.

  • UDEM Certificate
  • UDEM Certificate
  • UDEM Certificate
  • Health & Safety Management Certificate
  • EC Type Certificate
  • BV Product certificate
  • CCS Certificate
  • CCS Certificate
  • CCS Certificate
  • CCS Certificate
  • CCS Certificate
  • CCS Certificate
  • CCS Certificate
  • CE Certificate
  • CE Certificate
  • CE Certificate
  • DNV Certificate
  • DNV Certificate
  • DNV Certificate
  • LR Certificate
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Industry knowledge
1.How is the steering control of Travel Drive implemented?
The steering control of Travel Drive is a key mechanism to ensure that crawler machinery can turn flexibly and accurately when performing various tasks. This can be achieved in various ways, depending on the design of the machine and the drive technology used. Implementations of this critical function include, but are not limited to, differential steering, brake steering, hydraulic steering, electronic control systems and multi-wheel steering systems.
A common form of steering control is differential steering. By adjusting the rotation speed of the crawlers on both sides, the mechanical equipment achieves steering. When one side of the track slows down and the other side maintains its original speed, the mechanical equipment can begin to turn. This method is suitable for situations where you need to rotate in place or make small adjustments. It is a basic and effective control method.
Brake steering achieves steering by braking the track on one side while keeping the track on the other side moving. This method relies on precise control of the track system and can come in handy when larger angles of steering are required. Its advantages lie in its reliability and relative simplicity of operation.
In hydraulically driven Travel Drive, hydraulic steering is a common implementation method. By adjusting the fluid pressure and flow in the hydraulic system, the output of the hydraulic motor can be controlled to achieve the steering of mechanical equipment. This method has the advantages of fast response speed and high control accuracy, and is suitable for scenarios that require high control performance.
Another common implementation is a multi-wheel steering system. This enables more complex steering by adjusting the movement of the wheels or drive units in different positions. Multi-wheel steering systems generally provide greater maneuverability and flexibility and are able to cope with more complex work environments and navigation needs.
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