Truck scale
A truck scale (US), weighbridge (non-US) or railroad scale is a large set of scales, usually mounted permanently on a concrete foundation, that is used to weigh entire rail or road vehicles and their contents. By weighing the vehicle both empty and when loaded, the load carried by the vehicle can be calculated.
The key component that uses a weighbridge in order to make the weigh measurement is load cells.
Weight certification in the United States
Commercial scales have to be National Type Evaluation Program (NTEP) approved or certified. The certification is issued by the National Conference on Weights and Measures (NCWM), in accordance to the National Institute of Standards and Technology (NIST), "Handbook 44" specifications and tolerances,[1] through Conformity Assessment and the Verified Conformity Assessment Program (VCAP)[2]
Legal for trade
Handbook 44: General Code paragraph G-A.1.; and the NIST Handbook 130 (Uniform Weights and Measures Law; Section 1.13.) define Commercial Weighing and Measuring Equipment as follows;
weights and measures and weighing and measuring devices commercially used or employed in establishing the size, quantity, extent, area, or measurement of quantities, things, produce, or articles for distribution or consumption, purchased, offered, or submitted for sale, hire, or award, or in computing any basic charge or payment for services rendered on the basis of weight or measure.
NTEP approved scales are generally considered those scales which are intended by the manufacturer for use in commercial applications where products are sold by weight. NTEP Approved is also known as Legal for Trade or complies with Handbook 44. NTEP scales are commonly used for applications ranging from weighing coldcuts at the deli, to fruit at the roadside farm stand, shipping centers for determining shipping cost to weighing gold and silver and more.[3]
Rail weighbridge
A rail weighbridge[4] is used to weigh rollingstock including railroad cars, railroad cars, goods wagons and locomotives, empty or loaded. When loaded, the net weight of the cargo is the gross weight less the tare weight when known. It is also used to weigh trams.
There are different types, but all of them have electronic sensors built into the track that measure the weight. All designs have in common that there must be a sufficient approach and departure distance in front of and behind the respective scale. All of them can measure independently of the direction of travel and whether the train is being pushed or pulled.
In principle, a distinction is made between three different types of construction:[5]
1. Dynamic track weighbridge
The dynamic weighbridge consists of one or more weighbridges that can be connected together. The construction of the weighbridge is similar to the static track scales with load cells and weighing platform. The rails are applied to the weighing platform and are designed with rail bevelling. Rail switches are integrated into the rails to detect the position of the wagons on the scale. Together with the weighing terminal and the software, the weight of the individual wagons or the bogies is determined dynamically during the passage at up to 10 km/h.
Advantages:
- Weighing accuracy class up to 0.2 for individual wagon weights in accordance with calibration regulations and OIML-R 106,
- Due to the modular design, liquids can also be dynamically weighed in a verifiable manner,
- Suitable as a static reference scale for calibration, thus saving costs with every recalibration,
- A weighbridge is very robust and durable due to its construction like a static track scale.
Disadvantages:
- No determination of wheel load and axle loads, however, the design can be expanded to include integrated axle load and wheel load measurement with force sensors in the track.
2. Dynamic track scales with strain gauges in the track
For dynamic track scales with force sensors, several force sensors are drilled and pressed into the track. When a train passes over the scales at up to 30 km/h, the rail is deformed by the mass of the vehicle (deformation). The change in material stress deforms the sensor, in which strain gauges are mounted as in a classic load cell. Thus, the weight of the individual wheelset or bogie can be calculated from the specific deformation behaviour of the rail.
Advantages:
- Can be used as a wheel load scale and axle load scale,
- Higher measuring speeds possible than with the other two designs,
- Comparatively inexpensive due to the use of only a small amount of hardware and little track construction work.
Disadvantages:
- Not calibratable,
- Accuracy depends on passing speed,
- Can only be used for solids.
3. Dynamic track scales based on weighing sleepers
A dynamic track weigher based on weighing sleepers is, like the strain gauge in rail weigher, a gapless construction without rail cuts. In simple terms, several sleepers are removed from the track and replaced by weighing sleepers. Load cells are installed in these sleepers. Compared to the weighbridge, the gapless (and thus force-coupled) design means that the weighbridge cannot be statically adjusted, but can only operate purely dynamically. This requires a very stable substructure without a jump in stiffness. The difference to the scale with strain gauge in the rail is that calibratable sensors can be used for this variant and the scale is therefore calibratable.
Advantages:
- Weighing accuracy class up to 0.2 for individual wagon weights in accordance with calibration regulations and OIML-R 106,
- Like the scales with strain gauges in the rail, the hardware volume is low,
- Modular design also enables legal-for-trade dynamic weighing of liquids.
Disadvantages:
- Static reference scale required for dynamic calibration, which increases the costs for recalibration,
- Costly substructure/track construction work required (to ensure long-term stability, a resin-based ballast bonding is usually used for the weighing track. A procedure that creates an almost fixed track).
Types
- Electronic (deep pit type)
- Electronic (pit less type)
- Digital (deep pit type)
- Digital (shallow pit)
- Digital (pit less type)
- Rail Weighbridge
- Movable Weighbridge
- Mechanical weighbridge
- Mechanical (digital type)
- Electro-mechanical
- Portable weighbridge
- Axle scales
- Portable ramp end scales
- In -Motion weighbridge
Design concept
Truck scales can be surface mounted with a ramp leading up a short distance and the weighing equipment underneath or they can be pit mounted with the weighing equipment and platform in a pit so that the weighing surface is level with the road. They are typically built from steel or concrete and by nature are extremely robust.
In earlier versions the bridge is installed over a rectangular pit that contains levers that ultimately connect to a balance mechanism. The most complex portion of this type is the arrangement of levers underneath the weighbridge since the response of the scale must be independent of the distribution of the load.[6] Modern devices use multiple load cells that connect to an electronic equipment to totalize the sensor inputs. In either type of semi-permanent scale the weight readings are typically recorded in a nearby hut or office.
Many weighbridges are now linked to a PC which runs truck scale software capable of printing tickets and providing reporting features.
Uses
Truck scales can be used for two main purposes:
- Selling or charging by weight over the bridge (Trade Approved)
- Check weighing both axle weights and gross vehicle weights. This helps to stop axle overloading and possible heavy fines.
They are used in industries that manufacture or move bulk items, such as in mines or quarries, garbage dumps / recycling centers, bulk liquid and powder movement, household goods, and electrical equipment. Since the weight of the vehicle carrying the goods is known (and can be ascertained quickly if it is not known by the simple expedient of weighing the empty vehicle) they are a quick and easy way to measure the flow of bulk goods in and out of different locations.
A single axle truck scale or axle weighing system can be used to check individual axle weights and gross vehicle weights to determine whether the vehicle is safe to travel on the public highway without being stopped and fined by the authorities for being overloaded. Similar to the full size truck scale these systems can be pit mounted with the weighing surface flush to the level of the roadway or surface mounted.
For many uses (such as at police over the road truck weigh stations or temporary road intercepts) weighbridges have been largely supplanted by simple and thin electronic weigh cells, over which a vehicle is slowly driven. A computer records the output of the cell and accumulates the total vehicle weight. By weighing the force of each axle it can be assured that the vehicle is within statutory limits, which typically will impose a total vehicle weight, a maximum weight within an axle span limit and an individual axle limit. The former two limits ensure the safety of bridges while the latter protects the road surface.
Portable versions
Portable truck scales can also be found in use around the world. A portable truck scale will have lower frame work that can be placed on non-typical surfaces such as dirt. These scales retain the same level of accuracy as a pit-type scale, with accuracy of up to + or - 1%. The first portable truck scale record in the US was units operated by the Weight Patrol of the Los Angeles Motor Patrol in 1929. Four such weighing units were used with one under each of the trucks wheels. Each unit could record up to 15,000 pounds (6,800 kg).[7]
Technological advancement
Digital Load cells : Digital load cells have replaced traditional analog ones due to their superior accuracy, faster response times, and better resistance to environmental factors. These load cells offer real-time weight data with reduced signal interference.
Weighbridge Software Integration : Weighbridge software has been developed to streamline data collection, analysis, and reporting. This software simplifies integration with other business systems, improving compliance tracking, inventory management, and billing.
Remote Monitoring & Connectivity : Weighbridges now feature remote monitoring capabilities, allowing users to access weight data and system status in real-time from a distance. This feature enhances efficiency by providing preventive maintenance and troubleshooting capabilities.
In- Motion weighing : In-motion weighbridge systems have revolutionized truck weighing by allowing vehicles to be weighed while moving slowly over the scale. This eliminates the need for stopping for weighing, improving traffic flow and saving time.
RFID Technology : RFID technology is being integrated into weighbridge systems to automate the identification of vehicles and goods. This improves data accuracy, speeds up the weighing process, and reduces errors.
Imaging : Advanced camera systems capture images of vehicles and their loads during the weighing process. This visual evidence can be useful in dispute resolution, record-keeping, and verification.
Data Analytics & Reporting : Weighbridge technology now includes powerful data analytics tools that help organizations draw insights from weight data. These insights can aid in making informed operational decisions, identifying patterns, and optimizing load distribution
Mobile Apps & Cloud Integration : Mobile applications allow users to interact with weighbridge systems remotely and access reports, alerts, and real-time weight data. Integration with the cloud ensures secure data storage and cross-platform accessibility.
Sustainable : Weighbridge designs now incorporate solar-powered systems and energy-saving components to minimize their environmental impact.
Enhanced Durability & Construction : Weighbridge construction materials have advanced to withstand heavy usage, harsh weather conditions, and corrosive environments, resulting in longer lifespans and reduced maintenance requirements.
See also
References
- ^ Handbook 44- Retrieved 2020-04-05
- ^ Conformity-assessment- Retrieved 2011-09-17
- ^ Shane, Gary. "Legal for trade scales - NTEP approved balances". ntep.balances.com. Retrieved 2018-03-15.
- ^ Rail weighbridges
- ^ Ehmke, Dr-Ing Fabian (2022-05-24). "Dynamische Gleiswaagen: Bauarten und ihre Vor- und Nachteile". Essmann Wägetechnik (in German). Retrieved 2022-10-07.
- ^ Popular Science. Bonnier Corporation. June 1960.
- ^ "Portable Scales Detect Overweight Trucks." Popular Science Monthly, November 1929, p. 62, bottom of page.