Infraestrutura / Monitoramento de Ponte

O que nós fazemos

Os sistemas de coletores de dados da Campbell Scientific são usados em projetos de monitoramento estrutural e sísmico variando desde análises simples de fádigas de vigas até estudos de mecânicas estruturais e o monitoramento contínuo de estruturas grandes e complexas. Nossos sistemas oferecem monitoramento remoto, autônomo e portátil para viadutos, estradas, prédios, muros de contenção e pontes. Eles são compátiveis com uma grande variedade de sensores e periféricos para atender sua necessidade específica. Aprender mais

Veja alguns exemplos impressionantes que nosso equipamento pode fazer nesta área

Personalizar um Sistema

A maioria dos sistemas que nós vendemos são personalizados. Nos diga o que você precisa e nós o ajudaremos a configurar um sistema que atenda suas necessidades.

Mais Detalhes sobre os Nossos Monitoramento de Ponte Sistemas

Bridges Monitored By Our Dataloggers

  • James Joyce Bridge—Dublin, Ireland
  • Bronx Whitestone Bridge—New York, NY
  • Brooklyn Bridge—New York, NY
  • Verrazano Narrows Bridge—New York, NY
  • Williamsburg Bridge—New York, NY
  • Throgs Neck Bridge—New York, NY
  • Medway Bridge—Kent, UK
  • Menai Bridge—North Wales
  • Confederation Bridge—Prince Edward Island, Canada
  • I-83 Ramp—Harrisburg, PA
  • Birmingham Bridge—Pittsburgh, PA
  • Sawmill Run Bridge—Pittsburgh, PA
  • Neville Island Bridge—Pittsburgh, PA
  • SR 33 Bridge—Easton, PA
  • Girard Point Bridge—Philadelphia, PA
  • Church Street Bridge—Melbourne, Australia
  • David Trumpy Bridge—Queensland, Australia
  • 15 Mile Creek Bridge—The Dalles, OR
  • I-5 Mckenzie Bridge—Eugene, OR
  • Willamette River Bridge—Willamette, OR
  • I-64 over Kanawha River—Charleston, WV
  • AMTRAK Susquehanna River Bridge—Perryville, MD

Bridge Monitoring and Control

The versatility of our systems allows them to be customized for each application. We offer a range of dataloggers, from the most basic system with just a few channels to expandable systems that measure hundreds of channels. Scan rates can be programmed from a few hours to 100,000 times per second, depending on the datalogger model. Measurement types, recording intervals, and processing algorithms, are also programmable. Dataloggers not only provide advanced measurement capabilities, but can also control external devices.

Onboard processing instruction sets contain programmed algorithms that process measurements and output results in the desired units of measure. For example, data can be displayed as rainflow or level crossing histograms. These rainflow and level crossing algorithms allow processing for extended periods of time, not just a limited number of cycles. The instruction sets also allow for triggered output with pretrigger data capture capability. Triggers can be based on sensor output, time, and/or user control. For example, if an overpass is being monitored, data collection can be triggered by a sensor detecting the approach of a car, an earthquake, pre-programmed times, or by pushing a button.

The control functions of our dataloggers combined with their programmability allow them to sound alarms, actuate electrical devices, or shut down equipment based on time or measured conditions. Systems can also call out to phones, pagers, radios, and other devices to report site conditions. Voice-synthesized modems are available, so the system can actually call and tell you what is happening.

Sensors used in Bridge Monitoring

Because our dataloggers are compatible with nearly every commercially available sensor, you can use the sensors that best meet your application. Typical sensors used for structural and seismic monitoring by our systems include:

  • Carlson strain meters
  • vibrating wire strain gauges
  • foil strain gauges (set up in quarter, half, or full bridge strain configurations)
  • inclinometers
  • crack and joint sensors
  • tilt sensors
  • piezoresistive accelerometers
  • piezoelectric accelerometers
  • capacitive accelerometers
  • borehole accelerometers
  • servo force balance accelerometers

Because our dataloggers have many channel types and programmable inputs, all these sensor types can be measured by one datalogger. Channel types include analog (single-ended and differential), pulse counters, switched excitation, continuous analog output, digital I/O, and anti-aliasing filter. Using switched or continuous excitation channels, our dataloggers provide excitation for ratiometric bridge measurements.

Our configurable datalogger models, the CR9000X and CR9000XC, allow you to customize a system with the channel types that best fit your application. The number and type of channels on most of our dataloggers are expandable using multiplexers and other measurement peripherals. Our dataloggers have input resolutions to 0.16 microvolts, allowing strain measurements with a resolution of a single micro-strain.

Communications

The availability of multiple communications options for retrieving, storing, and displaying data also allows systems to be customized to meet exact needs. On-site communication options include direct connection to a PC or laptop, PC cards, storage modules, and datalogger keyboard/display. Telecommunication options include short-haul, telephone (including voice-synthesized and cellular), radio frequency, multidrop, and satellite.

Software

Our Windows-based software simplifies datalogger programming, data retrieval, and report generation. The datalogger program can be modified at any time to accommodate different sensor configurations or new data processing requirements.

Example Application: Monitoring an Overpass

Campbell Scientific's monitoring systems are used for a variety of structural and seismic applications. Monitoring possibilities on an overpass include:

Overview of overpass monitoring

Estudos de Caso

Oregon: Interstate 5 Bridge
The Oregon Department of Transportation (ODOT), as part of its statewide structural health monitoring (SHM)......Leia mais
Oregon: Kamal's Bridge Structural Response
Kamal’s Bridge in Tualatin, a steel box-girder bridge with four spans, was included as part......Leia mais
Oregon: Fremont Bridge Monitoring
The Bridge Engineering Section of the Oregon Department of Transportation (ODOT) developed a structural health......Leia mais
Utah: Post-Tensioned, GFRP, Precast Bridge Deck
The Utah Department of Transportation is investigating the effect on the life span of bridges......Leia mais
Pennsylvania: Field Testing the Shippingport Bridge
The Shippingport Bridge spans the Ohio River in Beaver County, Pennsylvania. Constructed in 1961, the......Leia mais
Minnesota: Bridge Disaster Recovery
On August 1, 2007, the I-35W St. Anthony Falls Bridge over the Mississippi River in......Leia mais
Louisiana: Monitoring Bridge Expansion
The four main spans of the Huey P. Long Bridge extend nearly 2,400 ft over......Leia mais
Illinois: Safeguarding Highways
The Illinois Department of Transportation ran tests on twelve interstate highway bridges in Illinois along......Leia mais

Perguntas Frequentes Relacionadas

Number of FAQs related to Monitoramento de Ponte: 1

  1. Most Campbell Scientific systems are built from individual components. This provides maximum flexibility for our customers, but it does not lend itself to pricing a "typical" system. Contact Campbell Scientific for assistance in pricing a system to meet the unique needs of the application.

Integradores Relacionados

The following is a list of companies that have developed expertise in our products and provide consulting, installation, and other services for monitoramento de ponte applications.


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