Jiangsu Zhonghai Bridge Equipment Co., Ltd.

Bridge Engineering Solutions

Home / Products

Bridge Engineering Contractor Supplier

  • Galvanized Steel Approach Bridge

    Galvanized Steel Approach Bridge

    Galvanized Steel Approach Bridge
    The Steel Approach Bridge in Mozambique, utilizing galvanized anti-corrosion technology, combines aesthetic appeal with excellent rust and weather resistance, making it highly suitable for the region'...
    View More View More
  • Large Span Galvanized Steel Approach Bridge

    Large Span Galvanized Steel Approach Bridge

    Large Span Galvanized Steel Approach Bridge
    The Steel Approach Bridge utilizes advanced galvanized anti-corrosion technology, offering exceptional rust and weather resistance. This ensures its long-term adaptability to various complex outdoor e...
    View More View More
  • Blue Painted Construction Platforms for Bridges

    Blue Painted Construction Platforms for Bridges

    Blue Painted Construction Platforms for Bridges
    The Blue Painted Bridge Construction Platform in Pingdingshan, Henan, has a wide range of applications. It can be used for water-based bridge pile foundations and pier construction, providing a stable...
    View More View More
  • Large Span Construction Platforms for Bridges

    Large Span Construction Platforms for Bridges

    Large Span Construction Platforms for Bridges
    The Bridge Construction Platform is a flexible temporary support structure, widely used in the construction of high bridge piers in mountainous areas. It provides a temporary platform for equipment st...
    View More View More
  • Galvanized Construction Platforms for Bridges

    Galvanized Construction Platforms for Bridges

    Galvanized Construction Platforms for Bridges
    The Zhoushan Gong Railway Bridge, as a comprehensive transportation hub, strictly conforms to load design standards such as HS-15, HS-20, HS-25, HL-93, and Track - 50, ensuring safe passage for all ty...
    View More View More
  • Large Span Heavy Load Construction Platforms for Bridges

    Large Span Heavy Load Construction Platforms for Bridges

    Large Span Heavy Load Construction Platforms for Bridges
    The Bridge Construction Platform has a wide range of applications, capable of meeting various complex construction needs. It is not only suitable for underwater bridge pile foundation and pier constru...
    View More View More
  • Dual-Lane Three-Row Single-Layer Reinforced Galvanized Pedestrian Bridge Bailey Bridge

    Dual-Lane Three-Row Single-Layer Reinforced Galvanized Pedestrian Bridge Bailey Bridge

    Dual-Lane Three-Row Single-Layer Reinforced Galvanized Pedestrian Bridge Bailey Bridge
    The 21-meter CB100 Three-Lane Single-Layer Reinforced Galvanized Pedestrian Bridge, designed for Chaxian County in Xinjiang, is a customized modular steel bridge product tailored to local conditions. ...
    View More View More
  • 24-Meter Long, Blue Painted Anti-Corrosion, Single-Row Single-Layer Reinforced Pedestrian Bailey Bridge

    24-Meter Long, Blue Painted Anti-Corrosion, Single-Row Single-Layer Reinforced Pedestrian Bailey Bridge

    24-Meter Long, Blue Painted Anti-Corrosion, Single-Row Single-Layer Reinforced Pedestrian Bailey Bridge
    This 24-meter Single-Row Single-Layer Reinforced Pedestrian Bailey Bridge is a customized modular steel bridge product designed specifically for short-span pedestrian traffic scenarios, such as scenic...
    View More View More
  • 159-Meter Painted Pedestrian Bridge/Pipeline Bridge

    159-Meter Painted Pedestrian Bridge/Pipeline Bridge

    159-Meter Painted Pedestrian Bridge/Pipeline Bridge
    The painted Bailey Bridge in Xinjiang Nilike, designed and customized by our company to meet local specific needs, is a modular steel bridge product. The Bailey plates and all associated components ar...
    View More View More
  • CB100 Bailey Bridge/Pipeline Bridge

    CB100 Bailey Bridge/Pipeline Bridge

    CB100 Bailey Bridge/Pipeline Bridge
    The Bailey-type Pipe Bridge is a modular steel bridge designed to meet the span requirements for engineering pipelines, relying on the classic Bailey truss structure. It is specifically built for the ...
    View More View More
  • CB100 Modular Pipe Bridge

    CB100 Modular Pipe Bridge

    CB100 Modular Pipe Bridge
    Compared to traditional pipeline installation methods, the Pipe Bridge offers significant advantages throughout the entire lifecycle, from construction to long-term operation. In terms of span capabil...
    View More View More
  • Large Span Galvanized Truss Bridge

    Large Span Galvanized Truss Bridge

    Large Span Galvanized Truss Bridge
    The Galvanized Truss Bridge uses a high-strength steel truss design, offering exceptional support performance under various load requirements, suitable for HS-15, HS-20, HS-25, HL-93, and Track - 50 l...
    View More View More

A TRUSTED MANUFACTURER OF MODULAR STEEL BRIDGES

ABOUT US

Company Profile title

Strong production capability, strict quality control, and proven engineering experience.
Jiangsu Zhonghai Bridge Equipment Co., Ltd.

Jiangsu Zhonghai Bridge Equipment Co., Ltd. ZHONGHAI BRIDGES

Jiangsu Zhonghai Bridge Equipment Co., Ltd. is a professional manufacturer specializing in Bailey bridges, modular steel bridges, and bridge construction equipment. Located in Jiangsu Province, our facility benefits from convenient regional logistics, ensuring fast and reliable global delivery.

As China OEM bailey bridge construction supplier and quick assembly bailey bridge system factory, Zhonghai Bridge Equipment Co., Ltd. with an annual production capacity exceeding 60,000 tons, advanced automatic welding robots, and a full set of NDT welding inspections, we operate under a rigid quality management system certified by ISO9001. All exported steel materials comply with SGS, ASTM, and EN standards, ensuring consistency and durability in demanding engineering environments.
Certificate Of Honour
  • Certificate of Quality Management System Certification
  • Certificate of Occupational Health and Safety Management System Certification
  • Certificate of Environment Management System Certification
  • Of Confomity of the Factory Production Control Certificate
  • Patent Certificate
  • Patent Certificate
  • Utility Model Patent Certificate
  • Utility Model Patent Certificate
  • Utility Model Patent Certificate
  • Utility Model Patent Certificate
  • Utility Model Patent Certificate
  • Utility Model Patent Certificate
Latest News
  • What Is a Steel Warehouse Structure and Why It Dominates Modern Storage Construction A steel warehouse structure is a building system built around a primary frame of hot-rolled or cold-formed steel members, typically arranged as rigid frames, trusses, or portal frames, and finished with metal or composite cladding panels. The ...

    READ MORE +
  • Metal Beams for Building Construction: Direct Answer and Core Specifications Metal beams, primarily hot-rolled I-beams, H-beams (wide-flange sections), and welded box beams, remain the standard load-bearing element for multi-story buildings, industrial sheds, and modular steel bridge spans because they deliver a strength-to-w...

    READ MORE +
  • A modern skyscraper stands on a steel structure for one simple reason: steel delivers the highest strength-to-weight ratio of any mainstream building material, which lets engineers push floors higher while keeping the frame lighter than an equivalent reinforced concrete system. In a typical 200 to 300 meter landmark tower, a s...

    READ MORE +
Message Feedback
Industry knowledge

Modern infrastructure projects, military logistics operations, and disaster response efforts all rely on one category of bridge equipment that can be transported, assembled, and put into service faster than almost any conventional structure: the modular panel bridge, more commonly known by its original name, the Bailey bridge. Bailey bridge design is built around interchangeable steel panels that bolt together on site, which is why bailey bridge construction can move from delivery to a load-bearing crossing in days rather than months. Understanding how bailey bridge parts and bailey bridge components work together, how a complete bailey bridge system is engineered for different spans and loads, and where a modular bailey bridge solution makes the most sense operationally is essential knowledge for engineers, procurement teams, and site managers alike.

Engineering Logic Behind Bailey Bridge Design and Load Capacity

Operating out of Zhenjiang, Jiangsu Province — one of China's most important industrial and transportation hubs — our teams approach every bailey bridge design decision as a balance between span length, load class, and site accessibility. A Bailey structure is built from repeating truss panels, and the way those panels are stacked and paired directly determines how much weight the finished crossing can carry. Single-panel configurations suit shorter spans and lighter loads, while double or triple panel arrangements, reinforced with additional chords, extend both the safe span and the carrying capacity. This modularity is the defining engineering advantage of the format: the same base panel can be reconfigured into dozens of load-and-span combinations without redesigning the structure from scratch.

The chart below illustrates the general relationship between panel configuration and relative load capacity, a pattern that guides how engineers select a configuration for a given crossing.

Relative Load Capacity by Panel Configuration Illustrative comparison, general engineering pattern Single-Single Low Double-Single Moderate Triple-Single Increased Double-Double High Triple-Double Very High Triple-Triple Maximum

In practice, this means a piece of bridge equipment is never a single fixed product — it is a design system that gets tailored to the crossing, and that flexibility is exactly what makes modular panel bridges useful across so many different project types.

Core Bailey Bridge Parts and How They Fit Together

A complete bailey bridge parts inventory is smaller than most people expect, which is part of the design's appeal — a limited set of standardized bailey bridge components can be combined in many ways. With deep roots in the bridge equipment industry, Zhonghai integrates engineering design, precision manufacturing, quality governance, and on-site support capabilities into every set of components we produce, so that panels, connecting pins, and load-bearing elements from the same batch fit together consistently on site without rework.

Common Bailey bridge components and their function on site
Component Function
Panel Main truss unit; repeated to build span length and stacked to add load capacity
Chord Reinforcement bolted along panel edges to increase strength for heavier configurations
Transom Cross-beam that transfers deck load from the roadway into the panel trusses
Rocker and bearing Support units at each end that transfer the full assembled load onto the abutment
Launching nose Lightweight lead section used to push the bridge across a gap during assembly
Chess and stringers Deck planking and support beams that form the actual driving or walking surface
Pins and bolts Connecting hardware joining panels and chords into a single rigid structure

Because each part is standardized, replacement or expansion of an existing structure rarely requires a custom order — a spare panel or transom from the same specification family will integrate directly into the existing assembly.

Construction Sequencing and On-Site Assembly

Most bailey bridge construction projects follow a similar sequence: abutment preparation, panel assembly on rollers behind the gap, incremental launching using a lightweight nose section, and finally decking and guardrail installation once the structure reaches the far bank. Because panels are bolted rather than welded, most of the work can be done by a trained crew with basic lifting equipment rather than heavy specialized machinery, which is a major reason modular panel bridges remain the standard choice for rapid-deployment crossings.

Typical Assembly Duration by Span Length Days 9m 18m 27m 36m 45m 2 4 6 9 12 Illustrative crew-day estimate; actual duration depends on site access and crew size

Site conditions still matter more than the chart alone suggests — soft ground, restricted access for launch rollers, or the need for temporary piers can all extend the schedule. This is one reason on-site support capability, not just component supply, is part of how bridge equipment is delivered to transportation, water conservancy, military logistics, disaster relief, and international development clients.

Where Bailey Bridge Systems Fit Across Different Sectors

Not every crossing needs the same bailey bridge system, and the reasons a project team chooses a modular bailey bridge solution differ by sector. A permanent transportation upgrade prioritizes long-term load rating; a disaster relief deployment prioritizes speed of assembly above almost everything else; a military logistics operation prioritizes transportability and rapid reconfiguration.

Suitability by Application Sector Transportation Water Conservancy Disaster Relief Military Logistics Int'l Development

As a manufacturer recognized for industrial-scale manufacturing capacity, technical expertise, and consistent international delivery performance, Zhonghai supplies bridge equipment configured for exactly this range of sectors — transportation, water conservancy, military logistics, disaster relief, and international development — rather than a single standardized product built for only one use case.

Frequently Asked Questions

How long does a modular panel bridge typically stay in service?

Modular panel bridges are frequently used as long-term crossings rather than purely temporary fixes, provided components are inspected and maintained. Many installations remain in productive use for decades because individual panels or hardware can be replaced without rebuilding the whole span.

Can an existing bridge be widened or upgraded later?

Yes. Because the panel configuration is modular, an existing single-panel structure can often be reinforced to a double or triple configuration by adding chords and panels, rather than dismantling and replacing the entire crossing.

What determines how many panels a crossing needs?

Three factors drive the panel count: span length, expected load class, and available launch space. Longer spans need more panels lengthwise, heavier loads need more panels stacked or doubled, and tighter sites may require a shorter launching nose and more careful sequencing.

How are components transported to remote sites?

Panels and hardware are sized to be handled by small teams or standard lifting equipment, which is why this format is favored for locations without cranes or paved access — a key requirement in disaster relief and military logistics contexts.

Is specialized labor required for assembly?

A trained crew can assemble a modular panel bridge without heavy civil works expertise, though supervision from an experienced team reduces assembly time and helps confirm the correct configuration was used for the intended load class.