This 30-ton steel coil transfer cart was custom-manufactured for an automotive plant in Jilin, addressing the challenges of steel coil handling, lifting and safety. It also serves as our competitive 30-tonne hydraulic lifting transfer cart for the Turkish market, resolving the issue of transporting chemicals both within and outside workshops. This lift-type omnidirectional 线圈传送车 is a specialised transport solution designed for steel coil handling, equally suitable for applications in steel mills, metal processing plants, warehousing, and logistics operations.
- 型号 RWP
- 负载能力 30 Tons
- 尺寸 3933 × 2200 × 650 mm
- Lifting Stroke: Hydraulic lifting, 150 mm
- 电源: Maintenance-free battery (electric drive)
- Turning Method: Hydraulic steering / Omnidirectional steering wheel
- 速度 0–20 m/min (stepless speed regulation)
- 定制: 可定制生产,包括附加组件等。
Working Principle of Steel Coil Transfer Cart
The 30-ton steel coil transporter is a common omnidirectional transfer trolley. It features flexible self-operation, energy efficiency, environmental friendliness, convenient transportation, and strong customizable functionality, making it highly popular and widely adopted.
电源: 免维护铅酸电池
运行模式: 无线遥控或有线操作
运动轨迹: 前进、后退、左转、右转、不停转弯和适度爬坡能力
工作原理:
The operating principle of this equipment involves the integrated collaboration of power, control, execution, and safety protection systems. Its core function lies in precisely controlling mechanical movements through commands to achieve flexible material handling and accurate lifting of heavy objects:
电源
Principle: A high-capacity battery pack supplies power to the entire system (drive motors, hydraulic pump station, controllers, sensors). Upon power-up, the main control system automatically performs a self-check to diagnose the status of motors, sensors, hydraulic units, and communication links. After passing the self-check, the system enters standby mode.
2. Command
Principle: The remote controller transmits operational commands (e.g., forward, reverse, lift) to the transporter’s controller. Upon receiving commands, the vehicle decodes them through system modules, converting signal instructions into actionable control signals sent to various mechanical components.
3. Onboard Main Controller
- Principle: The onboard main controller serves as the device’s “brain.” Upon receiving commands, it performs high-speed computational analysis:
- For movement commands: The controller decomposes direction and speed commands into specific drive signals and steering signals.
- For lifting commands: The controller issues start/stop and pressure control signals to the hydraulic system control unit.
4. Coordinated Execution
The system synchronously or sequentially drives two major actuators based on the command type:
- A. Omnidirectional Movement Execution:
- The controller sends calculated angle and speed commands to the servo motors of each steering wheel.
- Each wheel independently and precisely adjusts its angle according to commands, coordinating with the drive wheels’ rotational speed to synthesize the required motion trajectory (straight, diagonal, lateral movement, or on-the-spot rotation).
- Progressive acceleration control activates, enabling smooth vehicle starts and preventing coil sway caused by abrupt acceleration.
- B. Hydraulic Lifting Execution:
- Upon receiving an “Ascend” command, the controller activates the electric hydraulic pump station.
- The motor drives the hydraulic pump to generate high-pressure fluid. This fluid flows through hydraulic lines, extending the piston rod of the lifting cylinder. This action raises the load-bearing saddle, lifting the steel coil.
- Displacement sensors integrated into the cylinder monitor the lifting height in real time, feeding back to the controller for precise positioning.
- Upon receiving a “lower” command, the controller opens the hydraulic valve. Under the coil’s own weight, oil slowly returns to the cylinder, enabling smooth descent.
5. Stopping and Holding
Principle:
- Movement Stop: The controller immediately cuts power to the drive motor and applies electromagnetic brakes, enabling the vehicle to stop smoothly.
- Lifting Hold: The hydraulic system’s pilot-operated check valve automatically closes, trapping fluid within the cylinder. This securely holds the lifting platform and load at any intermediate position, preventing slippage due to leakage and ensuring safety.
The 30-Ton steel coil transfer cart employs a closed-loop principle of “Command Input → Intelligent Control → Electro-Mechanical-Hydraulic Coordination” to convert robust battery power into precise mechanical actions, thereby safely and efficiently completing heavy steel coil handling tasks.
Steel Coil Transfer Cart Steering Mode
30-Ton Steel Coil Transfer Cart Safety Operating Procedures
Important Notice: Operators must be professionally trained and thoroughly familiar with these procedures. Please ensure you read the equipment manual before operating the equipment.:
Step 1
- Environmental Verification: Inspect the transfer cart’s travel path. Clear all ground obstructions, oil spills, and standing water. Ensure sufficient passage width and no overhead obstructions.
- Equipment Self-Check:
- 电源: Verify sufficient battery charge.
- Vehicle Structure: Inspect the chassis and saddle for visible deformation or damage.
- Hydraulic System: Check hydraulic fluid level and inspect lines for leaks.
- 安全装置: Test emergency stop button, warning lights, and collision sensors for proper function.
- 车轮 Inspect wheels for integrity and ensure no foreign objects are lodged.
- Load: Verify the weight and diameter of the coil to be transported are within the equipment’s rated capacity. Ensure the coil is securely hoisted or positioned.
Step 2:
- Start Vehicle: Turn on the main power switch to initiate system self-check. After passing the self-test, activate the control panel. Select either manual operation or wireless remote control mode, then position yourself in a safe location to prepare for operation.
- Approach the coil: Using the directional buttons on the remote control, initiate slow movement. Steer the vehicle steadily to precisely position the V-shaped saddle directly beneath the coil.
- Confirm positioning: Visually verify that the coil is fully centered over the saddle’s load-bearing point.
Step 3:
- Lifting: Select the “Ascend” function on the remote control to activate the hydraulic system. Smoothly and slowly lift the coil off its original support base (approximately 10-20mm is sufficient). Observe whether the equipment remains stable and free of abnormal noises.
- Safe Transportation:
- Select an appropriate forward direction (straight, diagonal, or standard turn) and start at low speed.
- On wide passages, speed may be moderately increased but must not exceed the rated speed (20m/min).
- When approaching intersections or obstacles, decelerate in advance and sound the horn/flash lights to warn.
- Maintain steady operation, avoiding sudden acceleration, sharp turns, and abrupt braking.
Step 4:
- Target Position: Transport the coil to the target location, utilizing the omnidirectional movement function for precise alignment.
- Lowering and Unloading: After alignment, operate the remote control’s “Lower” function to slowly and steadily place the coil onto the designated support base. Once the coil is securely positioned, continue maneuvering the vehicle to fully disengage the saddle from the coil.
- Vehicle Withdrawal: Drive the vehicle out of the work area and park it in the designated safe zone.
- Operation Completion: Turn off the vehicle’s main power switch and complete the equipment usage log. If charging is required, connect the charger.
Safety Precautions:
- Strictly prohibit overloading! The maximum load capacity is 30 tons.
- Strictly prohibit carrying passengers! The vehicle is intended solely for cargo transport.
- Strictly prohibit moving the vehicle while the lifting platform is not fully lowered.
- Operators must keep their hands and feet clear of moving components such as the lifting mechanism and wheels.
- In case of abnormal conditions, immediately press the emergency stop button.
视频展示
Custom Steel Coil Transfer Cart
规格
| Technical Parameters Table Of RWP Trackless Electric Transfer Cart | |||||||||||
| 额定负载能力(t) | 5 | 10 | 15 | 20 | 30 | 40 | 50 | 60 | 80 | 100 | |
| 工作台尺寸(毫米) | 长度 | 2400 | 2700 | 2700 | 3000 | 3500 | 4000 | 4500 | 5000 | 6000 | 6000 |
| 宽度 | 1500 | 1800 | 1800 | 2000 | 2200 | 2000 | 2200 | 2500 | 3000 | 3000 | |
| 高度 | 470 | 550 | 600 | 700 | 700 | 800 | 900 | 1000 | 1000 | 1000 | |
| 离地间隙(毫米) | ≥50 | ≥100 | |||||||||
| 转弯半径(毫米) | 2200 | 2500 | 2500 | 2800 | 3300 | 6000 | 6800 | 7500 | 9000 | 9000 | |
| 转向模式 | 差速转向 | 液压转向 | |||||||||
| 操作方法 | Remote Control & Hand-Operated Pendant | ||||||||||
| 移动方式 | 前进、后退、在不停车的情况下转弯以及 360° 旋转 | 不停车驾驶时向前、向后、转弯 | |||||||||
| 运行速度(米/分) | 25 | 20 | |||||||||
| 电机类型 | Low-voltage alternating current (AC) motor / brushless direct current (DC) motor | ||||||||||
| 制动模式 | 电磁制动器 | ||||||||||
| 保护措施 | 声光报警灯+ 紧急停止按钮+ 激光避障传感器(选配)+ 防碰撞接触边缘(选配) | ||||||||||
| 车轮数量 | 4 | 6 | 8 | ||||||||
| 驱动轮直径(毫米) | Ф360 | Ф400 | Ф400 | Ф450 | Ф500 | Ф500 | Ф600 | Ф550 | Ф550 | ||
| 车轮材料 | Steel Core + Polyurethane | ||||||||||
| 电池容量(kW-h) | 5.5 | 8.5 | 10.5 | 14 | 18.5 | 18.5 | 30 | 37.8 | 45.3 | ||
| 电池类型 | 铅酸电池 | 锂电池 | |||||||||
| 电池续航时间 | 5h(Customized As Needed) | 4h(Customized As Needed) | |||||||||
| 电池充电时间 | ≤7h | ≤5h | |||||||||
| 电池充电器 | AC220V/AC380V | ||||||||||
| 地面类型 | Cement Floor、Steel Plate Ground 、Epoxy Floor, Asphalt Floor | ||||||||||
| 满负荷攀爬能力 | 5% | 3% | |||||||||
| 工作环境 | Temperature: -10°c~40°c; Humidity: 20%~80%, No Condensation (Customized for high-temperature and explosion-proof environments) | ||||||||||
| 车身颜色 | 定制 | ||||||||||
| 其他职能 | Battery Power Display, Over Voltage, Under Voltage, Over Current Protection etc | ||||||||||
| 备注 1) 可根据用户要求定制其他台面尺寸和承载能力。 2) 在液压转向方面,可根据场地空间限制选择双液压转向系统,以减小转弯半径。 3) 电池类型和工作时间(电池续航时间)可根据客户需求定制。 4)产品会不断改进和升级,表中规格如有变更,恕不另行通知。 | |||||||||||
特点
重型运输
Capable of transporting 30-ton steel coils per unit, meeting the heavy-duty handling requirements of cold-rolling production lines and steel processing enterprises.
Hydraulic lift
Loading and unloading of steel coils with height adjustment to prevent damage caused by ground friction.
Agile movement
Hydraulic steering + omnidirectional steering enables 360-degree rotation on the spot and lateral movement, reducing requirements for working space.
Energy saving
Maintenance-free battery operation eliminates the need for frequent charging or replacement, resulting in low maintenance costs.
安全保护
Progressive acceleration, safety sensors, collision avoidance systems, and warning light strips provide quadruple protection to safeguard personnel and equipment.
Customised production
Standard components can be flexibly configured to suit enterprise scenarios, or professionally customised to address your specific requirements.
应用
As a core product within heavy-duty material handling equipment, the 30 Ton steel coil transfer cart not only possesses fundamental capabilities such as substantial load capacity, hydraulic lifting, and agile steering, but can also be custom-designed to meet the specific requirements of diverse industries. It demonstrates outstanding performance not only in the steel coil and chemical sectors but also finds varied applications across other industries:
航空航天工业: For the precise handling of fuselage sections, wings, tail assemblies, and engines within the aerospace industry. 钢卷传送车 may be equipped with laser obstacle avoidance systems and shock-absorbing platforms to ensure the safe transport of oversized aerospace structural components.
冶金和钢铁工业: In steel mills and rolling mills, steel coils and billets weigh tens of tonnes. The 30-ton steel coil transfer cart, equipped with a hydraulic lifting saddle and reinforced coil support brackets, enables rapid loading and unloading of steel coils and billets, thereby reducing surface scratches and minimizing the occurrence of safety incidents.
电力和能源部门: When transporting turbine rotors, transformers, and cable reels, the 30-tonne steel coil transfer cart can be customised with fixed components and clamping platforms to minimise equipment movement and damage during conveyance.
新能源产业: In lithium battery and photovoltaic panel manufacturing, precision equipment and raw materials are sensitive to impact. The 30t steel coil transfer cart can be customized with dust-proof enclosures and anti-static wheels, ensuring safe transportation of fragile and flammable components while reducing fire hazards.
造船业: Handling ship sections, steel plates, and propellers within the dockyard space. Equipped with omnidirectional wheels, the 30-tonne coil transport vehicle enables the safe movement of oversized hull components within confined spaces.
Rail Transit Industry: When handling train wheelsets, bogies, and track components, this steel coil transfer cart can be upgraded with an automatic track alignment device and hydraulic clamping system, enabling precise positioning and efficient assembly within railway workshops.
案例展示
Steel Coil Transfer Cart Manufacturer
河南卓越智能科技有限公司成立于2019年,位于河南省新乡市红旗区小店镇新昌北线22号。是一家集研发、设计、制造、销售、售后服务为一体的专业搬运设备公司。公司专业生产各种类型和吨位的搬运设备及其配件,并提供各种非标和特种搬运设备的专业研发、设计和制造。 电动搬运车, 轨道转运车, 全方位移动运输车电池转移车 重型运输车, AGV 搬运机器人和 工业拖车.
公司产品符合 JB/T6127-2010 机械行业标准,通过了 ISO 三体系认证(质量、环境、职业健康)和 CE 认证。先后获得 19 项国家产品专利。
为什么选择我们?
- 特定行业的专业知识 - 我们为发电、造船、建筑和航空航天领域提供变压器、风力涡轮机组件、预制模块等定制解决方案。
- Fully Customized - 从负载能力(1-500 多吨)到驱动系统(电动、混合动力或柴油),都能满足您的确切要求。
- 先进控制系统 - 选项包括手动遥控、半自动路径规划或全自动导航(AGV 集成)。
- 质量与耐用性 - 坚固的钢架、大扭矩转向模块,并通过了 CE 和 ISO 认证。
- 全面项目支持 - 从初步咨询到售后服务,我们的工程师将提供终身技术援助。
相关文章
定制的智能物料装卸解决方案
为确保定制的转运车完全满足您的需求,请提供以下详细信息:
- 负载能力:_____ 吨(1~500 吨)
- 工作台尺寸:_____ × _____ mm/m(如 1500×3000)
- 电源选项:
- 铅酸电池 ☐ 锂离子电池 ☐ 其他:_____
- ☐ 电缆:_____V/_____A
- ☐ 标准 380 伏/50 赫兹/3 相
- 货物详情:
- 类型:_____ (如钢卷、机械)
- 特殊需求:_____ (例如防滑、防腐蚀)
- 可选功能
- ☐ 紧急制动 ☐ 防碰撞传感器
- ☐ 导轨 ☐ 提升装置 ☐ 遥控装置