Jiangsu Zhonghai Bridge Equipment Co.,LTD
| Payment Terms | L/C,D/P,T/T |
| Supply Ability | 60000ton/year |
| Delivery Time | 8-10 work days |
| Packaging Details | Naked |
| Structure | Steel Structure |
| Material | Steel |
| OEM | Specialized |
| Standard | ASTM,GB,BS,BV |
| Weight | Lightweight |
| Type | Modular |
| Width | Standard width is 3.7m |
| Usage | Emergency |
| Brand Name | Zhonghai Bailey Bridge |
| Model Number | CB200/CB321 |
| Certification | IS09001, CE |
| Place of Origin | China |
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Product Specification
| Payment Terms | L/C,D/P,T/T | Supply Ability | 60000ton/year |
| Delivery Time | 8-10 work days | Packaging Details | Naked |
| Structure | Steel Structure | Material | Steel |
| OEM | Specialized | Standard | ASTM,GB,BS,BV |
| Weight | Lightweight | Type | Modular |
| Width | Standard width is 3.7m | Usage | Emergency |
| Brand Name | Zhonghai Bailey Bridge | Model Number | CB200/CB321 |
| Certification | IS09001, CE | Place of Origin | China |
| High Light | vehicle steel frame bridge ,vehicle steel bailey bridge ,lightweight steel frame bridge | ||
Vehicle Steel Frame Bridge/vehicle Steel Bridge
Welding robots ensure high-quality welds in diverse conditions through a combination of advanced techniques and technologies:
1. **Advanced Sensing Technologies**
Welding robots are equipped with sophisticated sensors that can detect and measure various parameters such as temperature, pressure, speed, and position. These sensors enable the robots to adapt to different welding conditions and materials, ensuring consistent and high-quality welds. For example, vision sensors can detect the thickness and shape of steel plates, the position and orientation of parts, and the consistency of welds.
2. **Real-Time Monitoring and Adjustment**
Robots use real-time monitoring systems to detect defects and inconsistencies during the welding process. For instance, a vision sensor-based algorithm can adaptively extract seam features and adjust the welding parameters in real-time. This allows for immediate corrective action, reducing the likelihood of defects and improving overall weld quality.
3. **Adaptive Control Systems**
Robots can adjust their welding parameters based on the material and welding conditions. For example, they can change the welding speed, current, voltage, and shielding gas to optimize the welding process for different materials. This adaptability is crucial for handling diverse materials and ensuring high-quality welds.
4. **Defect Prediction and Correction**
Advanced software tools and algorithms enable robots to predict potential defects and adjust their welding parameters accordingly. For example, the Exponentially Weighted Moving Average (EWMA) control panel can diagnose and identify faults, keeping an eye on deviations from the extracted seam profile. This proactive approach helps in preventing defects and maintaining high weld quality.
5. **Customized Solutions for Different Industries**
Welding robots can be customized to meet the specific needs of different industries. For example, in shipbuilding and automotive manufacturing, robots are designed to handle complex geometries and stringent quality standards. Customized robot designs, specialized parameters, and quality control measures ensure that the welding process meets industry-specific requirements.
6. **Integration of Vision Systems**
Vision systems play a crucial role in robotic welding by providing real-time information about the welding process. These systems can detect and analyze the shape, size, and material of the object being welded. By integrating vision systems with robotic welding machines, manufacturers can achieve high precision and accuracy in their welding operations.
7. **Humanoid Robots for Complex Tasks**
In recent years, humanoid robots have gained attention for their potential to handle complex welding tasks in confined spaces and on non-standard components. These robots leverage advanced technologies such as hand-eye calibration, pose estimation, 3D reconstruction, and path planning to perform high-quality welding in challenging conditions.
By leveraging these advanced techniques and technologies, welding robots can ensure high-quality welds even in diverse and challenging conditions.
Specifications:
| CB321(100) Truss Press Limited Table | |||||||||
| No. | Lnternal Force | Structure Form | |||||||
| Not Reinforced Model | Reinforced Model | ||||||||
| SS | DS | TS | DDR | SSR | DSR | TSR | DDR | ||
| 321(100) | Standard Truss Moment(kN.m) | 788.2 | 1576.4 | 2246.4 | 3265.4 | 1687.5 | 3375 | 4809.4 | 6750 |
| 321(100) | Standard Truss Shear (kN) | 245.2 | 490.5 | 698.9 | 490.5 | 245.2 | 490.5 | 698.9 | 490.5 |
| 321 (100) Table of geometric characteristics of truss bridge(Half bridge) | |||||||||
| Type No. | Geometric Characteristics | Structure Form | |||||||
| Not Reinforced Model | Reinforced Model | ||||||||
| SS | DS | TS | DDR | SSR | DSR | TSR | DDR | ||
| 321(100) | Section properties(cm3) | 3578.5 | 7157.1 | 10735.6 | 14817.9 | 7699.1 | 15398.3 | 23097.4 | 30641.7 |
| 321(100) | Moment of inertia(cm4) | 250497.2 | 500994.4 | 751491.6 | 2148588.8 | 577434.4 | 1154868.8 | 1732303.2 | 4596255.2 |
| CB200 Truss Press Limited Table | |||||||||
| NO. | Internal Force | Structure Form | |||||||
| Not Reinforced Model | Reinforced Model | ||||||||
| SS | DS | TS | QS | SSR | DSR | TSR | QSR | ||
| 200 | Standard Truss Moment(kN.m) | 1034.3 | 2027.2 | 2978.8 | 3930.3 | 2165.4 | 4244.2 | 6236.4 | 8228.6 |
| 200 | Standard Truss Shear (kN) | 222.1 | 435.3 | 639.6 | 843.9 | 222.1 | 435.3 | 639.6 | 843.9 |
| 201 | High Bending Truss Moment(kN.m) | 1593.2 | 3122.8 | 4585.5 | 6054.3 | 3335.8 | 6538.2 | 9607.1 | 12676.1 |
| 202 | High Bending Truss Shear(kN) | 348 | 696 | 1044 | 1392 | 348 | 696 | 1044 | 1392 |
| 203 | Shear Force of Super High Shear Truss(kN) | 509.8 | 999.2 | 1468.2 | 1937.2 | 509.8 | 999.2 | 1468.2 | 1937.2 |
| CB200 Table of Geometric Characteristics of Truss Bridge(Half Bridge) | ||||
| Structure | Geometric Characteristics | |||
| Geometric Characteristics | Chord Area(cm2) | Section Properties(cm3) | Moment of Inertia(cm4) | |
| ss | SS | 25.48 | 5437 | 580174 |
| SSR | 50.96 | 10875 | 1160348 | |
| DS | DS | 50.96 | 10875 | 1160348 |
| DSR1 | 76.44 | 16312 | 1740522 | |
| DSR2 | 101.92 | 21750 | 2320696 | |
| TS | TS | 76.44 | 16312 | 1740522 |
| TSR2 | 127.4 | 27185 | 2900870 | |
| TSR3 | 152.88 | 32625 | 3481044 | |
| QS | QS | 101.92 | 21750 | 2320696 |
| QSR3 | 178.36 | 38059 | 4061218 | |
| QSR4 | 203.84 | 43500 | 4641392 | |
Advantage
Possessing the features of simple structure,
convenient transport, speedy erection
easy disassembling,
heavy loading capacity,
great stability and long fatigue life
being capable of an alternative span, loading capacity
Company Details
Business Type:
Manufacturer
Year Established:
2014
Total Annual:
20753202.90-27670940.00
Employee Number:
100~150
Ecer Certification:
Verified Supplier
Introduction to Jiangsu Zhonghai Bridge Equipment Co., Ltd. Jiangsu Zhonghai Bridge Equipment Co., Ltd., established in 2010, is a high-tech enterprise specializing in the research, development, manufacturing, and sales of bridge equipment. With a registered capital of 55 million yuan, the company ... Introduction to Jiangsu Zhonghai Bridge Equipment Co., Ltd. Jiangsu Zhonghai Bridge Equipment Co., Ltd., established in 2010, is a high-tech enterprise specializing in the research, development, manufacturing, and sales of bridge equipment. With a registered capital of 55 million yuan, the company ...
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