The DCY series hydraulic transporter is a hydraulic-powered platform vehicle known for its robust load-bearing capacity. Designed for transporting heavy and oversized machinery components or other materials, this hydraulic platform vehicle excels in handling large tonnages with remarkable efficiency. One of its key features is the significant vertical travel range, making it particularly suitable for the movement of sizable and weighty industrial components.
| DCY50 Parameter | |
| Parameter | Value |
| Rated Load Capacity | 50t |
| Vehicle Weight | 17t |
| Gross Weight | 67t |
| Axles/Suspension | 2/2 |
| Empty Travel Speed | 0~12 km/h |
| Full Load, Flat Travel Speed | 0~6 km/h |
| Full Load, Climbing Speed | 0~2 km/h |
| Full Load Climbing Capability | Longitudinal: ±6% |
| Lateral: ±2% | |
| Platform Lowest Position | 1450mm |
| Platform Lifting Stroke | 600mm |
| Platform Size (Length x Width) | 8m x 4m |
| DCY100 Parameter | |
| Parameter | Value |
| Rated Load Capacity | 100t |
| Vehicle Weight | 28t |
| Gross Weight | 128t |
| Axles/Suspension | 4/8 |
| Empty Travel Speed | 0~12 km/h |
| Full Load, Flat Travel Speed | 0~5 km/h |
| Full Load, Climbing Speed | 0~1.5 km/h |
| Full Load Climbing Capability | Longitudinal: ±6% |
| Lateral: ±2% | |
| Platform Lowest Position | 1450mm |
| Platform Lifting Stroke | 600mm |
| Platform Size (Length x Width) | 11.5m x 5.1m |
| DCY200 Parameter | |
| Parameter | Value |
| Rated Load Capacity | 200t |
| Vehicle Weight | 46t |
| Gross Weight | 246t |
| Axles/Suspension | 4/8 |
| Empty Travel Speed | 0~12 km/h |
| Full Load, Flat Travel Speed | 0~5 km/h |
| Full Load, Climbing Speed | 0~1.5 km/h |
| Full Load Climbing Capability | Longitudinal: ±6% |
| Lateral: ±2% | |
| Platform Lowest Position | 1600mm |
| Platform Lifting Stroke | 700mm |
| Platform Size (Length x Width) | 14.8m x 5.5m |
| DCY320 Parameter | |
| Parameter | Value |
| Rated Load Capacity | 320t |
| Vehicle Weight | 67t |
| Gross Weight | 387t |
| Axles/Suspension | 6/12 |
| Empty Travel Speed | 0~12 km/h |
| Full Load, Flat Travel Speed | 0~5 km/h |
| Full Load, Climbing Speed | 0~1.5 km/h |
| Full Load Climbing Capability | Longitudinal: ±6% |
| Lateral: ±2% | |
| Platform Lowest Position | 1600mm |
| Platform Lifting Stroke | 700mm |
| Platform Size (Length x Width) | 18m x 6m |
| DCY1000 Parameter | |
| Parameter | Value |
| Rated Load Capacity | 1000t |
| Vehicle Weight | 182t |
| Gross Weight | 1182t |
| Axles/Suspension | 8/32 |
| Empty Travel Speed | 0~10 km/h |
| Full Load, Flat Travel Speed | 0~5 km/h |
| Full Load, Climbing Speed | 0~1.5 km/h |
| Full Load Climbing Capability | Longitudinal: ±6% |
| Lateral: ±2% | |
| Platform Lowest Position | 1600mm |
| Platform Lifting Stroke | 700mm |
| Platform Size (Length x Width) | 23m x 10.5m |
Aicrane is an experienced heavy lifting equipment manufacturer. We provide not only hydraulic transporter, but also many other lifting machine. They can be combined as a solution for construction purpose. Here are two combined solution for prefabricated bridge construction.
Hydraulic transporter can lift prefabricated bridge segments from the precast yard to the construction site. It can combine the straddle carrier which is a kind of gantry crane as a bridge construction solution.
The straddle carrier crane, specifically tailored for cross-line construction, plays a pivotal role in the seamless installation of prefabricated bridge segments to build bridges. The application of straddle carrier crane extends from adeptly lifting and positioning segments onto the carrier from hydraulic transporter, ensuring a secure and controlled transfer, to transporting these segments to their designated installation points with optimal precision.
Notably, the carrier’s standout feature lies in its ability to align and securely connect the segments once in position, guaranteeing their seamless integration into the overarching bridge structure.
The segment assembly bridge erecting machine is a kind of lifting equipment, serving a primary function of lifting beam segments from hydraulic transporter and transporting them to the erection position, where they are precisely placed onto precast bridge piers.
Employing the prefabricated segment assembly construction method involves dividing the beam into multiple segments, prefabricating these segments in a factory, and transporting them to the bridge site for assembly. The segment assembly bridge erecting machine plays a crucial role in this process, as it efficiently lifts and transports these prefabricated segments, placing them onto the pre-prepared bridge piers. The prefabricated segment assembly construction method involves the use of prestressed forces to assemble the segments into the overall bridge structure.
The hydraulic platform transporter finds extensive applications across a wide range of industries due to its robust design, versatile movements, and substantial load-bearing capabilities. Some of the prominent applications include:
Hydraulic transporters play a crucial role in the shipbuilding industry for transporting large ship components, sections, and modules within shipyards. Their ability to handle substantial loads and navigate tight spaces is invaluable in the construction of vessels.
In the locomotive manufacturing sector, hydraulic platform transporters are utilized for the transportation of heavy locomotive parts and assemblies. Their precise movements and high load capacity make them well-suited for handling large components in railway manufacturing facilities.
Hydraulic transporters are essential in the wind power industry for moving oversized wind turbine components, such as blades, nacelles, and tower sections. Their adaptability to varied terrains and precise positioning capabilities are advantageous in wind farm construction and maintenance.
Within hydropower plants, hydraulic platform transporters are employed for the transportation of hydroelectric components, including turbines, generators, and other heavy machinery. Their ability to navigate challenging environments is crucial in the construction and maintenance of hydropower facilities.
Hydraulic transporters play a vital role in the nuclear power sector, where the transportation of massive and sensitive nuclear components is a critical task. Their controlled movements and load-bearing capacity contribute to the safe handling of equipment in nuclear power plants.
The chemical machinery industry utilizes hydraulic transporters for the movement of large and heavy equipment used in chemical processing plants. Their precision in positioning and stability is essential for handling specialized machinery in chemical manufacturing.
Within the broader engineering machinery sector, hydraulic transporters are employed for the transportation of heavy construction equipment, such as excavators, bulldozers, and cranes. Their adaptability to construction sites and efficient load handling make them indispensable in infrastructure projects.
Hydraulic transporters are utilized in bridge construction projects for transporting and placing large bridge components, segments, and materials. Their ability to navigate through construction sites and position loads accurately contributes to the efficiency of bridge construction processes.
The hydraulic platform transporter’s applications extend to various other industries involved in the movement of large and super-sized components. Its unique advantages, including precise control and substantial load capacity, make it an irreplaceable solution for handling heavy loads in industrial settings.
The movements of a hydraulic transporter are characterized by their versatility and precision, allowing the vehicle to handle complex transportation tasks. Here are the key movements associated with a hydraulic platform transporter:
These various movements collectively contribute to the hydraulic platform transporter’s exceptional adaptability and agility in handling different transportation scenarios. The ability to execute precise and controlled movements enhances the efficiency and safety of the vehicle, making it well-suited for transporting heavy and oversized loads in diverse industrial applications.
The hydraulic transporter’s functionality is supported by several key components, each playing a crucial role in its operation:
Together, these components form a cohesive and powerful system, enabling the hydraulic transporter to excel in the transportation of heavy and oversized industrial components with precision and efficiency.
Aicrane, as a leading heavy lifting equipment manufacturer, boasts several distinct advantages that set us apart in the industry:
In summary, Aicrane’s advantages as a heavy lifting equipment manufacturer lie in our extensive experience, diverse product range, customization capabilities, integration of cutting-edge technology, commitment to quality, global presence, and a customer-centric approach. These factors collectively position Aicrane as a reliable and innovative solution provider in the heavy lifting industry.