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Advantages of Lithium Battery Rail Wrench: Environmental Friendly: Lithium battery rail wrenches are powered by rechargeable batteries, which eliminates the need for fossil fuels and reduces emissions. This makes them more environmentally friendly compared to internal combustion rail wrenches. Quieter Operation: Lithium battery rail wrenches produce significantly less noise compared to internal combustion rail wrenches. This makes them suitable for use in noise-sensitive areas, such as residential neighborhoods or urban environments. Lower Maintenance: Lithium battery rail wrenches have fewer moving parts compared to internal combustion rail wrenches, which reduces the maintenance requirements. There is no need for oil changes, spark plug replacements, or other regular maintenance tasks associated with internal combustion engines. Lightweight and Portable: Lithium battery rail wrenches are typically lighter and more compact than their internal combustion counterparts. This makes them easier to handle and transport, providing increased maneuverability and convenience. Instant Torque: Lithium battery rail wrenches provide instant torque as soon as they are powered on, allowing for quick and efficient tightening or loosening of rail fasteners. There is no need to wait for the engine to warm up or reach optimal operating conditions. Disadvantages of Lithium Battery Rail Wrench: Limited Battery Life: Lithium battery rail wrenches have a finite battery life, which means they can only operate for a certain duration before needing to be recharged. This can be a limitation in situations where extended use is required without access to charging infrastructure. Lower Power Output: While lithium battery rail wrenches have improved over the years, they still generally have lower power output compared to internal combustion rail wrenches. This can make them less suitable for heavy-duty applications or when dealing with stubborn rail fasteners. Advantages of Internal Combustion Rail Wrench: High Power Output: Internal combustion rail wrenches are known for their high torque and power output, making them suitable for heavy-duty applications. They can easily handle stubborn or corroded rail fasteners. Long Operating Time: Internal combustion rail wrenches can operate continuously as long as there is fuel available. This makes them ideal for situations where extended use is required without the need for frequent refueling or recharging. Established Infrastructure: Internal combustion rail wrenches benefit from the existing fueling infrastructure, as gasoline or diesel fuel is readily available in many locations. This ensures easy accessibility and convenience. Disadvantages of Internal Combustion Rail Wrench: Emissions and Noise: Internal combustion rail wrenches generate exhaust emissions and produce significant noise during operation. This can be a disadvantage in environmentally sensitive areas or when working in noise-restricted locations. Higher Maintenance: Internal combustion rail wrenches have more complex mechanisms and require regular maintenance, including oil changes, spark plug replacements, and other engine-related tasks. This increases the overall maintenance cost and effort. Heavier and Bulkier: Internal combustion rail wrenches are generally heavier and bulkier compared to lithium battery rail wrenches. This can make them more challenging to handle and transport, limiting maneuverability in tight spaces or difficult terrain. Start-Up Time: Internal combustion rail wrenches require a warm-up period before reaching optimal operating conditions. This can result in a delay when starting work, especially in colder climates. Ultimately, the choice between a lithium battery rail wrench and an internal combustion rail wrench depends on the specific requirements of the job, considering factors such as power needs, duration of use, environmental considerations, and available infrastructure.
Read Full ArticleThe Railway Concrete Sleeper Bolt Drilling Machine plays a crucial role in railway maintenance work, offering several important benefits. Here are some key points highlighting its significance: Precision and accuracy: Railway tracks require secure fastening to ensure stability and safety. The bolt drilling machine provides exceptional precision and accuracy when drilling bolt holes in concrete sleepers. This ensures that the bolts fit perfectly, preventing any potential issues or hazards caused by loose or misaligned tracks. Time and labor savings: Manual drilling of bolt holes in concrete sleepers is a labor-intensive and time-consuming process. The bolt drilling machine significantly reduces the time and effort required for this task. It automates the drilling process, enabling faster completion of railway maintenance projects and reducing labor costs. Consistency and quality: Maintaining consistent quality across all bolt holes is essential for the overall integrity of the railway tracks. The machine ensures uniform drilling depth and diameter, eliminating variations that can compromise the structural stability of the tracks. This consistent and high-quality fastening enhances the overall reliability and longevity of the railway system. Increased productivity: The efficiency of the bolt drilling machine allows railway maintenance crews to accomplish more work in less time. With its high drilling speed and capacity, the machine can handle a large volume of drilling tasks, contributing to increased productivity and project throughput. Versatility and adaptability: Railway networks often have different sleeper sizes and designs. The bolt drilling machine is designed to be versatile and adaptable, capable of accommodating various sleeper specifications. This flexibility makes it suitable for a wide range of railway maintenance projects, regardless of the specific track configuration. Enhanced safety: Railway maintenance work involves potential hazards, and the bolt drilling machine incorporates safety features to protect operators. These may include safety guards, emergency stop buttons, and ergonomic designs to minimize operator fatigue and reduce the risk of accidents during operation. Longevity and durability: Railway infrastructure requires long-lasting solutions. The bolt drilling machine is constructed with robust materials and engineered to withstand the demanding conditions of railway maintenance work. Its durability ensures reliable performance over an extended period, reducing maintenance and replacement costs.
Read Full ArticleWhen the train whizzes past Yellow figure flashing across the line of sight left to the railway workers The only impression of thousands of travelers They are the creator of high-quality lines Quantitative safety with millimeter precision Escort for the smooth operation of trains. For several decades Rail Maintenance and Repair Mode for Workers Technology, Machine Tools, etc. They are all quietly upgrading. Track bed, basic maintenance tools existing line Key words: #Ballasted track#, #Pickax#, #Pickaxe#, #Fork#, #tamping machine# Most of the existing railways have ballasted ballast beds, which are mainly composed of crushed stones. The stability of the ballast bed is poor and diseases are prone to occur. Therefore, operations such as screen cleaning, pillow replacement, tamping, and ballast repair accounted for a large proportion. For these jobs with a strong "metal smell", the tools used give the impression of "bulky". The legendary "old three pieces" are the "guy Shier" for the old road supporters to live and work, and it is the road supporters who use their sweat to ensure the safety of the railway operation. Tribute to the passers-by. Wuhan Linkage Track Equipment Co., Ltd. is determined to contribute to the safe operation of the world's railways. Our company provides a new generation of railway maintenance equipment. It can improve the working efficiency and make the workers work more easier. More details Please call 008615015909102。
Read Full ArticleThe geometric size and structure of the track are important criteria for detecting whether the track is in good condition. The gauge, level, direction, height and other basic elements of the existing line track are mainly measured with gauge ruler and string rope, and T-shaped crutches, crowbars, hydraulic track lifters, etc. are used for renovation work, and the required tools are complicated. A lot of renovation work. Mechanical track gauge Digital track gauge Track turner Hydraulic track lifting machine Hydraulic Rail Adjuster
Read Full ArticleHow to measuring rail wear value by the sliding rail wear gauge ? First, determine the position of the vertical ruler, align the zero line of the vertical ruler horizontally with the one-third line of the main ruler, and tighten the fastening screws. Second, reset the data of the vertical ruler and the data of the side grinding ruler, push the vertical grinding ruler to align the two zero lines, press the reset key of the digital display meter, and slide the side grinding ruler to make the two zero lines Line alignment, press the data clear key, at this time the positioning and data clearing are completed, start the measurement. Third, pull the side grinding ruler and the vertical grinding measuring ruler to the farthest end, and attach the positioning block to the non-working part of the rail to be tested. At the side rail jaw, after the adsorption is completed, push the side grinding ruler and the vertical ruler so that the front ends of the two measuring rulers touch the rail, and read the data of the two digital display meters, which is the vertical wear and side wear values of the rail here. The sliding rail wear ruler can not only measure the wear of the rail, but also measure the drop value of the tip rail and the side wear value of the wing rail. More detail contact 008615015909102 or email inquiry@linkagetrack.com
Read Full ArticleLithium battery rail drilling machine and Electric drilling machine all have their advantages and disadvantages. When choosing between a Li-battery rail drilling machine and an electric rail drilling machine, consider the following factors to make an informed decision: Mobility Requirements: If you need the flexibility to work in remote locations or areas without easy access to power outlets, a Li-battery rail drilling machine may be more suitable. On the other hand, if you primarily work in areas with reliable electricity supply or have access to generators, an electric rail drilling machine might be a better choice. Workload and Power Output: Assess the intensity and scale of your drilling tasks. If you frequently engage in heavy-duty drilling that requires high power output, an electric rail drilling machine, with its typically higher power capacity, may be more appropriate. Li-battery machines are better suited for lighter to moderate drilling tasks. Runtime and Charging: Consider the duration of your drilling operations and the runtime offered by the Li-battery rail drilling machine. If your work can be completed within the battery's runtime and you have convenient charging options, such as spare batteries or access to power outlets, a Li-battery machine can be suitable. However, if you need continuous and uninterrupted operation for long periods, an electric rail drilling machine with its constant power supply would be more advantageous. Noise and Vibration Considerations: Evaluate the noise and vibration restrictions of your work environment. If you need to work in noise-sensitive areas or prioritize reduced vibrations for operator comfort, a Li-battery rail drilling machine may be preferable, as they tend to produce lower levels of noise and vibration compared to electric models. Budget and Long-Term Costs: Compare the initial cost, maintenance, and operational costs of both types of machines. Li-battery rail drilling machines may have higher upfront costs due to the inclusion of battery technology, but they can potentially save on fuel or electricity expenses in the long run. Electric rail drilling machines may have lower initial costs but can incur higher electricity costs over time. Environmental Considerations: If environmental impact is a significant concern, Li-battery rail drilling machines are generally more eco-friendly due to their emission-free operation. Electric rail drilling machines indirectly contribute to emissions depending on the energy source used for electricity generation. Ultimately, the choice between a Li-battery rail drilling machine and an electric rail drilling machine depends on your specific needs, the nature of your work, and the constraints of your work environment. Carefully assess these factors to determine the most suitable option for your requirements. Li-battery Rail Drilling machine Electric Rail Drilling Machine More detail please contact Mob./whatsapp/wechat: 008615015909102 or Email: inquiry@linkagetrack.com
Read Full ArticleRegular ballast bed tamping work often involves manual labor for several reasons: Flexibility and Adaptability: Manual work allows the tamping crew to assess the condition of the ballast bed and make real-time adjustments based on their expertise. They can identify specific areas that require additional or less compaction and adjust the intensity and direction of the tamper accordingly. Manual work enables the crew to adapt to varying conditions, such as changes in the ballast quality or track geometry. Precision and Control: Manual tamping provides a higher level of precision and control compared to automated or mechanical methods. Experienced workers can apply the right amount of force and distribute it evenly, ensuring proper compaction of the ballast bed. They can also detect any irregularities, such as soft spots or voids, and address them promptly. Safety Considerations: Manual tamping allows workers to visually inspect the ballast bed and identify any potential safety hazards, such as loose fastenings, damaged sleepers, or track misalignments. These issues can be addressed immediately, reducing the risk of accidents or derailments. Manual work also enables workers to maintain a safe distance from moving trains and machinery, ensuring their safety during the tamping process. Cost Considerations: Manual tamping is often more cost-effective, especially for smaller maintenance projects or locations with limited access for machinery. Automated or mechanical methods may require significant investment in specialized equipment, which may not be economically feasible for every project. Manual tamping can be performed with basic hand tools and a smaller crew, reducing equipment costs and operational expenses. While manual tamping work has its advantages, it is worth noting that the railway industry is constantly evolving, and there are automated and semi-automated solutions available for ballast tamping. These technologies aim to enhance efficiency, accuracy, and productivity while reducing physical labor. However, the decision to adopt such methods depends on various factors, including the project scale, budget, and specific requirements of the railway network. More Rail tamping solutions please contact 008615015909102 email: inquiry@linkagetrack.com
Read Full ArticleRail measuring equipment plays a crucial role in ensuring the safety, efficiency, and reliability of railway systems. These tools are specifically designed to measure and assess various aspects of railway tracks, including their geometry, alignment, and condition. Here are some key reasons why rail measuring equipment is important: Safety: The safety of railway operations is of paramount importance. Rail measuring equipment helps identify and rectify track irregularities such as uneven gauge, track misalignment, and deviations from the desired track geometry. By detecting and correcting these issues promptly, rail measuring equipment contributes to maintaining safe operating conditions for trains, reducing the risk of derailments and accidents. Track maintenance: Regular maintenance of railway tracks is essential to ensure smooth and reliable train operations. Rail measuring equipment provides accurate data on the condition of tracks, including parameters like rail wear, corrugation, and defects. This information helps railway maintenance teams identify areas that require repair or replacement, allowing them to proactively address potential issues before they escalate and disrupt train services. Infrastructure optimization: Rail measuring equipment enables detailed measurements and assessments of track geometry, such as track gauge, alignment, and curvature. This data is crucial for optimizing the railway infrastructure, improving track layouts, reducing wear and tear on rails and wheels, and maximizing operational efficiency. By identifying areas for optimization, rail measuring equipment helps minimize maintenance costs, reduce energy consumption, and enhance overall system performance. Compliance with standards: Railway tracks must comply with specific standards and regulations to ensure operational safety and compatibility with rolling stock. Rail measuring equipment helps verify whether tracks meet the required standards, allowing railway authorities to identify non-compliant sections and take corrective actions. This ensures that the infrastructure remains in line with industry regulations and guidelines. Data-driven decision-making: Rail measuring equipment generates precise and detailed data about track conditions, which can be analyzed to make informed decisions. By collecting and analyzing this data, railway operators can develop predictive maintenance strategies, optimize inspection schedules, and allocate resources effectively. Data-driven decision-making helps enhance the overall efficiency and reliability of railway systems. Wuhan Linkage Track Equipment manufacture are reliable railway measuring solutions supplier, more detail contact Mob./Whatsapp/Wechat: 008615015909102 or email inquiry@linkagetrack.com
Read Full Article1) Safety: Rail wear gauges help ensure the safety of train operations. By measuring the wear of the railhead, maintenance personnel can identify areas where the rail may have worn beyond acceptable limits. Excessive rail wear can lead to reduced track stability, increased risk of derailments, and compromised train operations. Regular use of rail wear gauges allows maintenance teams to identify worn sections promptly and take appropriate action to maintain safe track conditions. 2) Maintenance Planning: Rail wear gauges play a crucial role in maintenance planning. By accurately measuring the wear of the railhead, maintenance teams can determine the remaining lifespan of the rail before replacement or major repairs are necessary. This information enables them to schedule maintenance activities proactively, minimizing disruptions to train services and optimizing maintenance resources. 3) Cost Efficiency: Rail wear gauges contribute to cost-effective rail maintenance. By monitoring rail wear regularly, maintenance teams can identify sections that require corrective actions, such as grinding or milling, to restore the desired rail profile. Targeted maintenance based on wear measurements allows for efficient utilization of resources, reducing unnecessary maintenance interventions and optimizing the rail's service life. 4) Track Performance: Rail wear gauges provide valuable insights into the performance of the track. By analyzing wear patterns across the rail network, maintenance teams can identify areas of accelerated wear, which may be indicative of underlying issues such as misalignment, excessive loading, or substandard maintenance practices. This information helps in identifying root causes and implementing corrective measures to improve track performance and longevity. 5) Regulatory Compliance: Rail wear gauges are essential for compliance with regulatory standards and requirements. Rail networks are subject to specific wear limits and profiles mandated by regulatory bodies. By using rail wear gauges, maintenance teams can ensure that the railhead wear remains within acceptable limits, complying with the prescribed standards and minimizing the risk of non-compliance penalties. Joanie Mob./Whatsapp:008615015909102 Email: inquiry@linkagetrack.com
Read Full ArticleAs a unique means of transportation, the biggest difference between trains and other land vehicles is probably the part in contact with the ground. Cars mainly use rubber, a material with high friction and elasticity, to make tires, but trains cannot be made with wheels. They also need the cooperation of rails to operate normally. But we can see that the wheels of the train press forward on the thin rails, but there are very few derailment accidents. Why is this? The wheel of a train looks like a cylinder on the outside with a slightly larger "disc" on the inside. Many people think that the disc on the inside is what fixes the wheels and rails. In fact, this is not the case at all. After all, if part of the disc contacts the rails for a long time, the friction will inevitably increase significantly and affect the speed of the train. Therefore, the existence of this disk can be said to be an "insurance", which can only play its role in critical moments. The key is that the "cylinder" on the outside is actually a cone, or a truncated cone to be precise. A simple cylinder will obviously not be able to keep moving in parallel on a smooth rail surface, but if there is an inclined surface, it will be different. Even when turning, the balance of the tires on both sides can be maintained. So on the surface it seems that the connection between the train and the rails is not close, but in fact the train stays on the rails in a very stable manner. Furthermore, the weight of the train itself has reached a certain level, so it will not be unstable because it is too light, and of course it will not be unable to speed up because it is too heavy. Therefore, the train track may seem to have a simple structure, but in fact it contains many mechanical principles to ensure that the train does not derail. "Learning" on the Rails In addition to the train itself, the rails of the train are obviously also an extremely important part of transportation. Without suitable rails, the train will be unable to move. We know that in addition to the two basic rails, sleepers and ballast are also indispensable parts of railway tracks. The sleeper has many functions. It plays the role of connecting two rails, dispersing the huge pressure of the train pressing on the rails and transmitting it to the roadbed below. Because the sleepers will deform to a certain extent when the train passes by, the material of the sleepers needs to be both soft and tough. As for the role of ballast, it is mainly to buffer the pressure received by the sleepers and increase the life of the track. In addition, the drainage function provided by the gravel is also very important, which can allow rainwater to be discharged in time without greatly reducing the friction between the wheels and the track, thus increasing the safety of train driving and ensuring that it can operate under various climatic conditions,safety.
Read Full ArticleAs the production automation continues to improve, the application of Rail drilling machines is rapidly expanding, the variety and specifications of products continue to increase, performance and quality are constantly improving, and the market sales output value is also growing steadily. So which problem do you meet when using rail drilling machines? How should it be solved? 1.Breakage of the tap of the drilling machine: Solution: When the tap of the drilling machine breaks, the diameter of the threaded bottom hole must be correctly selected; the inclination of the sharpening edge or the selected spiral groove tap should be used, and the depth of the drilled bottom hole must meet the specified standards; Appropriately reduce the cutting speed and select according to the standard; correct the tap and the bottom hole when tapping to ensure that their coaxiality meets the requirements, and select a floating tapping chuck; increase the tap rake angle and shorten the cutting cone length; ensure that the workpiece hardness meets the requirements , choose a safety chuck; if the tap is worn, it should be replaced in time. 2. Tap chipping; solution: tap chipping reduces the rake angle of the tap appropriately; increases the length of the cutting cone appropriately; reduces the hardness and replace the tap in time. If the tap wears too fast, reduce the cutting speed appropriately; reduce the tap rake angle and lengthen the length of the cutting cone; choose a cutting fluid with good lubricity; perform appropriate heat treatment on the workpiece; and sharpen the tap correctly. 3. The pitch diameter of the thread is too large; Solution: The pitch diameter of the thread is too large. Choose a tap pitch diameter with a reasonable accuracy level; select the appropriate cutting fluid and appropriately reduce the cutting speed; correct the coaxiality of the tap and the thread bottom hole when tapping. Use a floating chuck; appropriately reduce the rake angle and cutting cone relief angle; remove the burrs produced by sharpening taps, and appropriately increase the cutting cone length. 4. The thread pitch diameter is too small; Solution: If the thread pitch diameter is too small, choose a tap pitch diameter suitable for the accuracy level; appropriately increase the tap rake angle and cutting taper angle; replace the tap that is too worn; the automatic tapping machine should be lubricated Good cutting fluid. 5. The thread surface roughness value is too large; solution: the thread surface roughness value is too large, appropriately increase the tap rake angle and reduce the cutting taper angle; perform heat treatment, appropriately increase the hardness of the workpiece, and ensure that the tap rake surface has a lower surface Choose a cutting fluid with good lubrication for the roughness value; reduce the cutting speed appropriately; replace worn taps for the automatic tapping machine. #Rail #drilling #machine #equipment #problem #solve
Read Full ArticleDo you know the causes and effects of fat edges on rails? ◆Causes 1. The track is too rigid, and irregularities on the track cause huge power to the wheels; 2. There is a large difference in vehicle speed through the curve, resulting in eccentric load on the inner and outer rails, or due to improper super-elevation settings; 3. Sliding of wheels; 4. The steel is of poor quality. ◆Inspection method 1. Visually inspect and use a ruler or depth gauge to measure, 2. Use a profilometer to measure. ◆Development results 1. After the fat edge is generated, if it is not repaired in time, it will affect the train operation. 2. Affects track status inspection, including manual static inspection and track inspection vehicle dynamic inspection for track gauge measurement. 3. The fat edge of the rail end of the ordinary joint will affect the rail seam setting effect and cause blind seams; the fat edge of the insulating joint will cause the insulated rail end to be extruded and cracked. Severe fat edge will cause the insulating joint to be connected and the insulation will fail, resulting in Red light band. 4. The sharp edge produced by the point rail will cause the point rail and the basic rail to not be in close contact, causing the switch to fail. When the train passes, the extrusion causes the fat edge between the point rail and the basic rail, which may cause pieces of the point rail to fall off. ◆Repair method 1. When the fat edge is larger than 0.3mm, it needs to be repaired. The fat edge of the rail can be processed by grinding (or milling). 2. For fat edges caused by superelevation setting of the curve, the curve parameters should be optimized while grinding rails. It is advisable to adjust the superelevation settings before grinding the rails. 3. Rails that exceed the service limit should be replaced. ◆Preventive Action 1. Select high-strength grade rails that match the operating conditions to avoid or reduce the wheel-rail contact pressure stress exceeding the rail yield strength value, which can reduce the occurrence of fat edges. 2. Set the curve super height reasonably to prevent the lower rail from bearing excessive wheel-rail contact compressive stress load. 3. Improve the smoothness of the joint position, improve the elastic foundation under the joint rail, and reduce the impact load when the wheel passes the joint. 4. Periodically polish the rails and joints, repair the rail profile in a timely manner, and optimize and improve the wheel-rail contact relationship. 5. To prevent the fat edge of point rail, the top surface of point rail and the basic rail can be chamfered before the point rail is put on the road. When replacing the tip rail, try to replace the basic rail simultaneously; if it cannot be replaced simultaneously, it is necessary to measure and adjust the reduction value of the tip rail after replacement to avoid premature stress on the tip rail. Joanie Mob./whatsapp:008615015909102 Email:inquiry@linkagetrack.com
Read Full ArticleDo you know the reasons for side grinding, falling pieces and breakage of point rails and the improvement methods? The reason: ①The switch position is incorrectly laid; ② The basic rail moves laterally and three seams appear (there are seams between the basic rail and the sliding table) There is a gap between the lower jaw of the basic rail head and the upper part of the rail bottom and the contact part with the rail support, and there is a gap between the tail of the rail support and the shoulder of the slide plate); ③The basic rail functions to fatten the edge; ④The bending size of the basic rail is incorrect; ⑤The hanging board and sleepers in the switch part failed; ⑥The top iron of the pointed rail is out of joint; ⑦The sliding bed plate boss is worn; ⑧The large connector is poorly connected. Possible remedial measures: ① Use a high-precision theodolite to measure the direction of the entire fork area and the 100 m before and after the line, and adjust the entire fork area and the 100 m before and after the line based on the measurement results. ② Replace failed sleepers in a timely manner, especially the switch part, tip rail tip and tip rail heel end sleepers, and strengthen the level of the above parts and the adjustment of the hanging board to keep them at the same level. ③Tighten the rail support bolts, anchor bolts and threaded spikes. ④ Eliminate three seams and make the wooden sleepers, sliding bed boards, rail supports and basic rails tightly connected. ⑤ Install reinforcing pads on the outside of the two basic rails. ⑥At the tip of the point rail, in the middle of the point rail, and after the point rail of the two straight basic rails, install Install one insulated gauge rod with lengths of 1800 mm, 1400 mm and 1200 mm to stabilize the switch part frame. ⑦ Timely grind the active side fat edge of the basic rail and the non-active side fat edge of the tip rail. ⑧The separation of the top iron from the seam is closely related to the crawling of the tip rail. When the top iron is not in close contact, it will cause uneven stress on the tip rail, false gauge and hard bending of the tip rail. While correcting the crawling of the tip rail, pad the top iron so that the static gap between it and the basic rail is no more than 2 mm. ⑨ The wear of the sliding bed plate will cause the switch to be blocked, the switch to have no indication, the hanging plate and the tip rail to be loose, and the operation to be difficult. A large number of sliding bed plates are worn at the duplex switch site, and the entire sliding bed plate should be replaced during maintenance and repair operations. The 1#, 2#, 3#, and 4# sliding bed plates in front of the switch rail must be cut into oblique sliding bed plates on site to meet the electrical insulation requirements before they can be installed.
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2 years ago
Rail cant devices, also known as cantometers or cant measurement devices, are essential tools used in railway testing and maintenance. Here are some reasons why they are important:
Safety: Rail cant devices help ensure the safety of railway operations. Cant, which refers to the difference in height between the outer rail and the inner rail in a curve, is necessary to counteract the centrifugal forces acting on the trains. By measuring and adjusting the cant, rail cant devices help maintain the appropriate balance and stability of the trains, reducing the risk of derailment and enhancing passenger and crew safety.
Optimal Performance: Proper canting of railway tracks is crucial for achieving optimal performance and efficiency. The use of rail cant devices allows for accurate measurement and adjustment of the cant to ensure smooth and reliable train operations. By maintaining the correct cant, the devices help minimize wear and tear on the tracks and rolling stock, leading to improved operational efficiency and reduced maintenance costs.
Compliance with Standards: Railways need to adhere to specific standards and regulations regarding track geometry and cant. Rail cant devices enable railway authorities to measure and verify the cant against the prescribed standards. This ensures that the tracks meet the required specifications, promoting uniformity and consistency across the railway network.
Preventing Uneven Wear: Continuous train movements can cause uneven wear on railway tracks, especially in curves. By regularly measuring the cant with rail cant devices, maintenance personnel can identify any deviations or abnormalities in the track geometry. Prompt detection of uneven wear allows for timely corrective measures, such as adjusting the cant or undertaking track maintenance, preventing further damage and maintaining the track's integrity.
Long-Term Track Health: Monitoring and managing the cant of railway tracks using rail cant devices contribute to the long-term health and sustainability of the infrastructure. By maintaining the proper cant, the devices help distribute the load evenly on the rails, sleepers, and ballast, reducing stress and prolonging the lifespan of the track components. This proactive approach to track maintenance enhances the overall reliability and durability of the railway network.
Below is the photo for rail cant device.
More detail please contact inquiry@linkagetrack.com or whatsapp: 008615015909102
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