Common problems and common solutions of burr removal in welded pipe of used ERW tube mills
- Sort:Information
- Auth:
- Source:
- Release time:2023-02-12 11:30
- Pvs:
【概要描述】When the used ERW tube mills is used to manufacture welded pipes, internal burrs will occur. Once the internal burrs are not removed in time, the manufacturing quality of the welded pipes will be affected. Therefore, we must clearly understand the formation and removal of burrs in the welded pipe of the used ERW tube mills.
Common problems and common solutions of burr removal in welded pipe of used ERW tube mills
【概要描述】When the used ERW tube mills is used to manufacture welded pipes, internal burrs will occur. Once the internal burrs are not removed in time, the manufacturing quality of the welded pipes will be affected. Therefore, we must clearly understand the formation and removal of burrs in the welded pipe of the used ERW tube mills.
- Sort:Information
- Auth:
- Source:
- Release time:2023-02-12 11:30
- Pvs:
When the used ERW tube mills is used to manufacture welded pipes, internal burrs will occur. Once the internal burrs are not removed in time, the manufacturing quality of the welded pipes will be affected. Therefore, we must clearly understand the formation and removal of burrs in the welded pipe of the used ERW tube mills.
The internal burr removal of the used ERW tube mills is a necessary process for the production of high-quality, high-value-added straight seam resistance welded pipes. Welded pipes for oil, natural gas, chemical, coal water slurry, and precision high-strength structures (such as oil cylinders and cylinder pipes) ), plastic-lined steel-plastic composite pipes are required to remove internal burrs, but the removal process of internal burrs is a complicated process. Many factors in the actual production process will affect the quality of internal burr removal. In order to obtain an ERW welded pipe with high internal burr removal quality, it is necessary to analyze the common problems in the internal burr removal process and propose solutions to the main problems. So as to ensure the accuracy of internal burr removal and the stability during the removal process.
Common problems in the process of internal burr removal are mainly scraping, excessive or small scraping, and unclean removal. No matter what kind of problem occurs, it will affect the quality of the weld. Under normal circumstances, scraping deviation or small scraping will result in unclean removal of internal burrs. Excessive scraping will cause the wall thickness of the weld to be thinned. In severe cases, it will affect the pressure-bearing capacity of the welded pipe.
Internal burr scraping and its common solutions:
The internal burr scraping deviation is mainly manifested as a continuous deviation to one side or intermittent deviation on both sides, as shown in the figure below. In the actual production process, the phenomenon of internal burr scraping is more common, and the internal burr scraping has a great influence on the quality of welded pipes. Therefore, this situation should be avoided as much as possible in the actual production process.
The deviation of the internal burr scraping to one side is mainly caused by the deviation of the center position of the mandrel from the weld. The main reason for this problem is generally that the position of the mandrel connecting plate in Figure 1 is not suitable. The position of the mandrel can be adjusted by the adjusting bolts of the connecting plate until the scraping phenomenon disappears; in addition, due to the work of the mandrel The ambient temperature is relatively high. If the core rod cannot be cooled well, it is prone to deformation, and the deformation of the core rod is also likely to cause deviation. If this is the case, the core rod needs to be straightened and the core rod cooling system needs to be adjusted. Processing until it meets the production requirements.
There are many reasons for the intermittent deviation of internal burr scraping on both sides. One situation is that the mandrel support wheel cannot make good contact with the tube wall, causing only the cutter head to contact the tube wall in front of the mandrel connecting plate, which makes the mandrel easily drive the cutter head to swing, which causes discontinuity on both sides during internal burr scraping. In this case, the height of the cutter head is too much higher than the support wheel, which can be solved by adjusting the relative height of the cutter head and the support wheel. Another common situation is that the locking nut of the mandrel connecting plate becomes loose, causing When the inner burr is scraped, there will be intermittent deviations on both sides. At this time, the lock nut needs to be re-locked, and the scraping phenomenon will disappear.
The amount of internal burr scraping is too large or too small and the common solutions:
Excessive or small internal burr scraping (as shown in the figure below) will affect the quality of the welded pipe, so try to avoid this phenomenon.
The relative height of the inner burr scraper head and the inner wall of the welded pipe has a certain range. When the relative height of the cutter and the inner wall of the welded pipe is too small, it will easily cause the scraping amount to be too large. On the contrary, the scraping amount of the inner burr is too small or cannot be scraped. At this time, adjust The relative height of the cutter and the inner wall of the welded pipe can solve this problem. In the actual production process, it is mainly to add or reduce the spacer under the scraper to realize the adjustment of the height of the cutter head. The ovality of the welded pipe will also cause the internal burr scraping amount to be too large or too small. At this time, adjust the height of the upper squeeze roller to eliminate this phenomenon.
Internal burr removal is not clean and its common solutions:
In the actual production process, when the internal burr removal does not have deviation and the amount of scraping is not appropriate, sometimes some residual metal melt will appear after the internal burr removal, and this phenomenon is often continuous. It is similar to that the amount of internal burr scraped is too small (as shown in the figure below), but the reasons for their formation are completely different. Since the existence of residual internal burrs has a relatively large impact on the quality of welded pipes, it must be paid attention to. Through the observation of the actual production process, it is found that the main reason for the unclean removal of the inner burr is that the blade of the inner burr is beaten. Since there are gaps on the blade after the cutter head is hit, the burrs at the gap cannot be scraped off well and remain. The shape and size of the residual burr mainly depends on the size of the blade gap, so it also provides a method for the production staff to judge whether the inner burr blade is intact, and this problem can be solved by replacing the blade.
In the process of removing burrs in welded pipes of used ERW tube mills, the main problems are scratching, too large or too small scraping, and unclean removal of internal burrs. The existence of each problem will affect the quality of the welded pipe. The production will cause a certain impact. No matter the cause of these problems is one or more, as long as the specific analysis can be carried out according to the specific problem, and then the corresponding solution measures can be taken, the internal burr removal result that meets the requirements will be obtained.
More News

Time of issue : 2025-05-17
Introduction
In the production process of used welding tube machines, the leveling machine (also called straightener or flattening machine) serves as a critical component that significantly impacts final product quality. This article examines in detail the functions, working principles, and importance of leveling machines in used welding tube machines, providing valuable insights for operators and purchasers of second-hand equipment.
1. Primary Functions of Leveling Machines
(1) Material Flattening
Eliminates coil set (longitudinal curvature) from steel strips
Removes crossbow (transverse curvature) in the material
Corrects edge wave and center buckle defects
(2) Surface Preparation
Removes minor surface imperfections
Creates optimal surface condition for welding
Reduces mill scale and oxidation layers
(3) Tension Control
Provides consistent material tension before forming
Prevents material slippage during processing
Maintains uniform speed through the production line
2. Working Principle
(1) Mechanical Structure
In used welding tube machines, typical levelers consist of:
5-9 precision-ground work rolls
Heavy-duty frame construction
Adjustable roll gap mechanisms
Drive motor and gear reduction system
(2) Operational Process
Coiled strip enters the leveler
Multiple bending cycles through alternating rolls
3- Progressive flattening through each roll station
Precisely straightened material exits to forming section
3. Importance in Tube Production
(1) Weld Quality Improvement
Ensures perfect edge alignment for welding
Eliminates gaps that cause weak welds
Reduces weld flash and spatter
(2) Dimensional Accuracy
Maintains consistent strip width
Prevents tube ovality issues
Ensures uniform wall thickness
(3) Equipment Protection
Reduces forming roll wear
Prevents excessive load on welder
Extends overall machine life
4. Key Components in Used Machines
When evaluating levelers in used welding tube machines, inspect:
(1) Roll Condition
Surface finish and diameter uniformity
Bearing condition and lubrication
Roll alignment and parallelism
(2) Adjustment Mechanisms
Roll gap adjustment functionality
Pressure application systems
Quick-change features for different materials
(3) Drive Systems
Motor power and condition
Gearbox operation and noise levels
Speed synchronization with main line
5. Maintenance Considerations
For levelers in used welding tube machines:
(1) Regular Maintenance
Daily roll cleaning
Weekly bearing lubrication
Monthly alignment checks
(2) Common Issues
Roll surface scoring
Bearing failures
Hydraulic system leaks
Drive chain/belt wear
(3) Upgrade Options
Adding roll polishing systems
Installing automatic gauge control
Upgrading to servo-driven adjustment
6. Material Compatibility
Levelers in used welding tube machines handle:
(1) Material Types
Cold rolled steel
Hot rolled steel
Galvanized steel
Stainless steel (with proper roll finish)
(2) Thickness Range
Typically 0.5mm to 6.0mm
Special heavy-duty models up to 12mm
(3) Width Capacity
Standard models: 150mm to 600mm
Wide models: up to 1500mm
7. Process Integration
(1) Positioning in Production Line
After uncoiler and before forming section
Often combined with edge trimming
Sometimes integrated with cleaning systems
(2) Synchronization Requirements
Speed matching with main line
Tension coordination with accumulator
Feed rate optimization
8. Cost-Benefit Analysis
For used welding tube machines:
(1) Value Contribution
Improves product quality by 30-40%
Reduces scrap rate by 15-25%
Increases production speed potential
(2) Operational Costs
Energy consumption 5-15kW typical
Spare parts availability
Labor requirements
(3) Return on Investment
Payback period typically 6-18 months
Quality improvements justify cost
Essential for precision tube production
Conclusion
The leveling machine in used welding tube machines plays a fundamental role in ensuring product quality, process stability, and equipment longevity. When purchasing or operating second-hand equipment, special attention should be paid to the condition and capabilities of the leveling system. Proper maintenance and potential upgrades of this component can significantly enhance the performance and value of used welding tube machines, making it a critical focus area for tube producers looking to optimize their operations.
For more information, please pay attention to the website of Jinyujie Mechanical and Electrical Used Pipe Mill Supplier:www.usedpipemill.com
JinYuJie-Used Pipe Mills Supplier(Please click the link→) :second-hand pipe mill
Introduction
In the production process of used welding tube machines, the leveling machine (also called straightener or flattening machine) serves as a critical component that significantly impacts final product quality. This article examines in detail the functions, working principles, and importance of leveling machines in used welding tube machines, providing valuable insights for operators and purchasers of second-hand equipment.
1. Primary Functions of Leveling Machines
(1) Material Flattening
Eliminates coil set (longitudinal curvature) from steel strips
Removes crossbow (transverse curvature) in the material
Corrects edge wave and center buckle defects
(2) Surface Preparation
Removes minor surface imperfections
Creates optimal surface condition for welding
Reduces mill scale and oxidation layers
(3) Tension Control
Provides consistent material tension before forming
Prevents material slippage during processing
Maintains uniform speed through the production line
2. Working Principle
(1) Mechanical Structure
In used welding tube machines, typical levelers consist of:
5-9 precision-ground work rolls
Heavy-duty frame construction
Adjustable roll gap mechanisms
Drive motor and gear reduction system
(2) Operational Process
Coiled strip enters the leveler
Multiple bending cycles through alternating rolls
3- Progressive flattening through each roll station
Precisely straightened material exits to forming section
3. Importance in Tube Production
(1) Weld Quality Improvement
Ensures perfect edge alignment for welding
Eliminates gaps that cause weak welds
Reduces weld flash and spatter
(2) Dimensional Accuracy
Maintains consistent strip width
Prevents tube ovality issues
Ensures uniform wall thickness
(3) Equipment Protection
Reduces forming roll wear
Prevents excessive load on welder
Extends overall machine life
4. Key Components in Used Machines
When evaluating levelers in used welding tube machines, inspect:
(1) Roll Condition
Surface finish and diameter uniformity
Bearing condition and lubrication
Roll alignment and parallelism
(2) Adjustment Mechanisms
Roll gap adjustment functionality
Pressure application systems
Quick-change features for different materials
(3) Drive Systems
Motor power and condition
Gearbox operation and noise levels
Speed synchronization with main line
5. Maintenance Considerations
For levelers in used welding tube machines:
(1) Regular Maintenance
Daily roll cleaning
Weekly bearing lubrication
Monthly alignment checks
(2) Common Issues
Roll surface scoring
Bearing failures
Hydraulic system leaks
Drive chain/belt wear
(3) Upgrade Options
Adding roll polishing systems
Installing automatic gauge control
Upgrading to servo-driven adjustment
6. Material Compatibility
Levelers in used welding tube machines handle:
(1) Material Types
Cold rolled steel
Hot rolled steel
Galvanized steel
Stainless steel (with proper roll finish)
(2) Thickness Range
Typically 0.5mm to 6.0mm
Special heavy-duty models up to 12mm
(3) Width Capacity
Standard models: 150mm to 600mm
Wide models: up to 1500mm
7. Process Integration
(1) Positioning in Production Line
After uncoiler and before forming section
Often combined with edge trimming
Sometimes integrated with cleaning systems
(2) Synchronization Requirements
Speed matching with main line
Tension coordination with accumulator
Feed rate optimization
8. Cost-Benefit Analysis
For used welding tube machines:
(1) Value Contribution
Improves product quality by 30-40%
Reduces scrap rate by 15-25%
Increases production speed potential
(2) Operational Costs
Energy consumption 5-15kW typical
Spare parts availability
Labor requirements
(3) Return on Investment
Payback period typically 6-18 months
Quality improvements justify cost
Essential for precision tube production
Conclusion
The leveling machine in used welding tube machines plays a fundamental role in ensuring product quality, process stability, and equipment longevity. When purchasing or operating second-hand equipment, special attention should be paid to the condition and capabilities of the leveling system. Proper maintenance and potential upgrades of this component can significantly enhance the performance and value of used welding tube machines, making it a critical focus area for tube producers looking to optimize their operations.
For more information, please pay attention to the website of Jinyujie Mechanical and Electrical Used Pipe Mill Supplier:www.usedpipemill.com
JinYuJie-Used Pipe Mills Supplier(Please click the link→) :second-hand pipe mill

Time of issue : 2025-05-16
Introduction
In used welding tube machines, loopers (accumulators) play a critical role in maintaining continuous production by compensating for speed variations between uncoiling and forming processes. Understanding the differences between vertical and horizontal loopers is essential when evaluating or operating used welding tube machines. This article provides a detailed comparison of these two systems, focusing on their structural differences, operational characteristics, and suitability for various production environments.
1. Structural Design Differences
(1) Vertical Loopers
Vertical loopers in used welding tube machines feature:
Upward/Downward Material Path: Strip material moves vertically through the accumulator
Tower-Type Construction: Requires significant vertical space (typically 6-12 meters height)
Guided Roller System: Multiple rollers guide the strip through the vertical loop
Counterweight or Hydraulic Balancing: Maintains consistent tension
(2) Horizontal Loopers
Horizontal loopers in used welding tube machines are characterized by:
Side-to-Side Material Flow: Strip travels horizontally in a looped path
Compact Footprint: Requires more floor space but less height (typically 2-4 meters)
Carriage-Type Design: Moving carriage with rollers creates the accumulation loop
Motorized or Pneumatic Control: Adjusts loop position automatically
2. Operational Performance Comparison
(1) Space Requirements
Vertical Loopers: Ideal for facilities with high ceilings but limited floor space
Horizontal Loopers: Better suited for low-ceiling workshops with available floor area
(2) Material Handling
Vertical Loopers:
Better for thin, delicate materials prone to scratching
Reduced risk of material twisting
Gravity assists in maintaining tension
Horizontal Loopers:
Easier to thread during setup
Better for heavier gauge materials
Simpler visual monitoring of loop position
(3) Speed and Capacity
Vertical Loopers:
Typically allow higher line speeds (up to 120 m/min)
Larger accumulation capacity (longer loops possible)
Horizontal Loopers:
Generally limited to 60-80 m/min
Smaller maximum loop size due to space constraints
3. Maintenance Considerations for Used Equipment
When evaluating used welding tube machines, consider these maintenance factors:
(1) Vertical Looper Maintenance
More complex roller replacement (high elevation work)
Frequent inspection of counterweight cables/chains
Potential for material buildup in vertical guides
Requires specialized lifts for servicing
(2) Horizontal Looper Maintenance
Easier access to all components
More wear on carriage tracks and wheels
Simpler lubrication points
Reduced safety risks during maintenance
4. Application Suitability
(1) Best Uses for Vertical Loopers
High-speed production lines
Thin gauge materials (0.5-2.0 mm)
Facilities with height availability
Precision tube manufacturing
(2) Best Uses for Horizontal Loopers
Heavy gauge material processing
Low-to-medium speed operations
Space-constrained facilities
Entry-level or mid-range used welding tube machines
5. Cost Implications for Used Machines
(1) Vertical Looper Systems
Higher initial cost in used welding tube machines
Potentially greater maintenance expenses
May require facility modifications (height)
Longer service life if properly maintained
(2) Horizontal Looper Systems
More affordable in used welding tube machines
Lower installation costs
Easier to relocate
Generally simpler to repair
6. Conversion and Retrofitting Options
Many used welding tube machines can be modified:
(1) Vertical to Horizontal Conversions
Possible but requires significant structural changes
May need new control systems
Worth considering for space-constrained buyers
(2) Horizontal to Vertical Upgrades
Rarely practical
Usually requires complete looper replacement
Seldom cost-effective for used equipment
7. Purchasing Considerations
When selecting a used welding tube machine:
(1) Choose Vertical Loopers When:
Producing high volumes of thin-walled tubes
Operating in a tall facility
Needing maximum production speed
Processing delicate surface materials
(2) Choose Horizontal Loopers When:
Working with limited ceiling height
Handling thicker materials
Operating at moderate speeds
Seeking easier maintenance access
Conclusion
The choice between vertical and horizontal loopers in used welding tube machines depends on production requirements, facility constraints, and material characteristics. Vertical systems offer speed and capacity advantages for certain applications, while horizontal models provide space efficiency and easier maintenance. When evaluating used welding tube machines, carefully consider which looper type best matches your operational needs and facility conditions to ensure optimal performance and cost-effectiveness.
For more information, please pay attention to the website of Jinyujie Mecha
Introduction
In used welding tube machines, loopers (accumulators) play a critical role in maintaining continuous production by compensating for speed variations between uncoiling and forming processes. Understanding the differences between vertical and horizontal loopers is essential when evaluating or operating used welding tube machines. This article provides a detailed comparison of these two systems, focusing on their structural differences, operational characteristics, and suitability for various production environments.
1. Structural Design Differences
(1) Vertical Loopers
Vertical loopers in used welding tube machines feature:
Upward/Downward Material Path: Strip material moves vertically through the accumulator
Tower-Type Construction: Requires significant vertical space (typically 6-12 meters height)
Guided Roller System: Multiple rollers guide the strip through the vertical loop
Counterweight or Hydraulic Balancing: Maintains consistent tension
(2) Horizontal Loopers
Horizontal loopers in used welding tube machines are characterized by:
Side-to-Side Material Flow: Strip travels horizontally in a looped path
Compact Footprint: Requires more floor space but less height (typically 2-4 meters)
Carriage-Type Design: Moving carriage with rollers creates the accumulation loop
Motorized or Pneumatic Control: Adjusts loop position automatically
2. Operational Performance Comparison
(1) Space Requirements
Vertical Loopers: Ideal for facilities with high ceilings but limited floor space
Horizontal Loopers: Better suited for low-ceiling workshops with available floor area
(2) Material Handling
Vertical Loopers:
Better for thin, delicate materials prone to scratching
Reduced risk of material twisting
Gravity assists in maintaining tension
Horizontal Loopers:
Easier to thread during setup
Better for heavier gauge materials
Simpler visual monitoring of loop position
(3) Speed and Capacity
Vertical Loopers:
Typically allow higher line speeds (up to 120 m/min)
Larger accumulation capacity (longer loops possible)
Horizontal Loopers:
Generally limited to 60-80 m/min
Smaller maximum loop size due to space constraints
3. Maintenance Considerations for Used Equipment
When evaluating used welding tube machines, consider these maintenance factors:
(1) Vertical Looper Maintenance
More complex roller replacement (high elevation work)
Frequent inspection of counterweight cables/chains
Potential for material buildup in vertical guides
Requires specialized lifts for servicing
(2) Horizontal Looper Maintenance
Easier access to all components
More wear on carriage tracks and wheels
Simpler lubrication points
Reduced safety risks during maintenance
4. Application Suitability
(1) Best Uses for Vertical Loopers
High-speed production lines
Thin gauge materials (0.5-2.0 mm)
Facilities with height availability
Precision tube manufacturing
(2) Best Uses for Horizontal Loopers
Heavy gauge material processing
Low-to-medium speed operations
Space-constrained facilities
Entry-level or mid-range used welding tube machines
5. Cost Implications for Used Machines
(1) Vertical Looper Systems
Higher initial cost in used welding tube machines
Potentially greater maintenance expenses
May require facility modifications (height)
Longer service life if properly maintained
(2) Horizontal Looper Systems
More affordable in used welding tube machines
Lower installation costs
Easier to relocate
Generally simpler to repair
6. Conversion and Retrofitting Options
Many used welding tube machines can be modified:
(1) Vertical to Horizontal Conversions
Possible but requires significant structural changes
May need new control systems
Worth considering for space-constrained buyers
(2) Horizontal to Vertical Upgrades
Rarely practical
Usually requires complete looper replacement
Seldom cost-effective for used equipment
7. Purchasing Considerations
When selecting a used welding tube machine:
(1) Choose Vertical Loopers When:
Producing high volumes of thin-walled tubes
Operating in a tall facility
Needing maximum production speed
Processing delicate surface materials
(2) Choose Horizontal Loopers When:
Working with limited ceiling height
Handling thicker materials
Operating at moderate speeds
Seeking easier maintenance access
Conclusion
The choice between vertical and horizontal loopers in used welding tube machines depends on production requirements, facility constraints, and material characteristics. Vertical systems offer speed and capacity advantages for certain applications, while horizontal models provide space efficiency and easier maintenance. When evaluating used welding tube machines, carefully consider which looper type best matches your operational needs and facility conditions to ensure optimal performance and cost-effectiveness.
For more information, please pay attention to the website of Jinyujie Mecha

Time of issue : 2025-05-15
Purchasing a used welding tube machine can be a cost-effective solution for manufacturers, but thorough evaluation is crucial to ensure reliability and performance. This guide provides a comprehensive approach to assessing the condition of used welding tube machines, helping buyers make informed decisions.
1. Visual Inspection
The first step in evaluating a used welding tube machine is a detailed visual examination:
(1) Structural Integrity
Check for cracks, dents, or deformations in the machine frame
Inspect welding seams for signs of repair or fatigue
Examine guide rails and rollers for excessive wear
(2) Surface Condition
Look for rust or corrosion, especially in critical components
Check paint condition as an indicator of maintenance history
Inspect hydraulic systems for leaks or oil stains
(3) Electrical Components
Examine wiring insulation for damage or brittleness
Check control panels for burn marks or loose connections
Verify condition of switches and emergency stop buttons
2. Mechanical Assessment
A thorough mechanical evaluation helps determine the operational condition:
(1) Drive System
Test motor performance under load
Check gearboxes for unusual noises or vibrations
Inspect chain/belt drives for wear and proper tension
(2) Rolling System
Measure roller diameters for wear patterns
Check bearing conditions and lubrication
Verify alignment of forming stands
(3) Welding Head
Examine electrode condition and alignment
Check pressure mechanisms for consistency
Inspect cooling systems for proper function
3. Functional Testing
Operational tests provide the most accurate assessment:
(1) Production Trial
Run sample material through the complete process
Measure weld quality and consistency
Check dimensional accuracy of produced tubes
(2) Speed and Performance
Test machine at various production speeds
Monitor for vibrations or unusual noises
Check acceleration and deceleration smoothness
(3) Control Systems
Verify PLC/HMI functionality
Test all programmable settings
Check safety interlocks and alarms
4. Documentation Review
Proper documentation provides valuable insights:
(1) Maintenance Records
Review service history and frequency
Check for major repairs or component replacements
Verify lubrication schedules
(2) Production History
Examine total operating hours
Check typical production loads
Review any downtime records
(3) Technical Specifications
Compare current condition to original specs
Verify any modifications made
Check for available spare parts
5. Specialized Inspection Methods
Advanced evaluation techniques provide deeper insights:
(1) Non-Destructive Testing (NDT)
Ultrasonic testing for internal cracks
Magnetic particle inspection for surface defects
Dye penetrant examination of critical welds
(2) Vibration Analysis
Detect bearing and gear wear patterns
Identify imbalance issues
Predict potential failures
(3) Thermal Imaging
Locate electrical hot spots
Identify friction points
Check cooling system efficiency
6. Key Evaluation Criteria
When assessing a used welding tube machine, focus on these critical factors:
(1) Wear Indicators
Roller groove depth
Guide shoe thickness
Drive chain stretch
(2) Performance Metrics
Weld speed consistency
Energy consumption
Product dimensional tolerance
(3) Economic Considerations
Estimated remaining service life
Availability of spare parts
Potential upgrade costs
7. Professional Inspection Services
For comprehensive evaluation:
(1) Third-Party Inspectors
Independent assessment
Specialized testing equipment
Detailed reporting
(2) Manufacturer Evaluation
OEM technical support
Genuine part verification
Factory reconditioning options
(3) Certification Programs
Verified machine condition
Performance guarantees
Warranty options
Conclusion
Evaluating a used welding tube machine requires systematic inspection across multiple parameters. By combining visual checks, mechanical assessment, functional testing, and documentation review, buyers can accurately determine the machine's condition and value. Investing time in thorough evaluation helps avoid costly surprises and ensures the used welding tube machine will meet production requirements effectively.
For high-value purchases, professional inspection services provide additional assurance and help negotiate fair pricing based on actual machine condition.
For more information, please pay attention to the website of Jinyujie Mechanical and Electrical Used Pipe Mill Supplier:www.usedpipemill.com
JinYuJie-Used Pipe Mills Supplier(Please click the link→) :second-hand pipe mill
Purchasing a used welding tube machine can be a cost-effective solution for manufacturers, but thorough evaluation is crucial to ensure reliability and performance. This guide provides a comprehensive approach to assessing the condition of used welding tube machines, helping buyers make informed decisions.
1. Visual Inspection
The first step in evaluating a used welding tube machine is a detailed visual examination:
(1) Structural Integrity
Check for cracks, dents, or deformations in the machine frame
Inspect welding seams for signs of repair or fatigue
Examine guide rails and rollers for excessive wear
(2) Surface Condition
Look for rust or corrosion, especially in critical components
Check paint condition as an indicator of maintenance history
Inspect hydraulic systems for leaks or oil stains
(3) Electrical Components
Examine wiring insulation for damage or brittleness
Check control panels for burn marks or loose connections
Verify condition of switches and emergency stop buttons
2. Mechanical Assessment
A thorough mechanical evaluation helps determine the operational condition:
(1) Drive System
Test motor performance under load
Check gearboxes for unusual noises or vibrations
Inspect chain/belt drives for wear and proper tension
(2) Rolling System
Measure roller diameters for wear patterns
Check bearing conditions and lubrication
Verify alignment of forming stands
(3) Welding Head
Examine electrode condition and alignment
Check pressure mechanisms for consistency
Inspect cooling systems for proper function
3. Functional Testing
Operational tests provide the most accurate assessment:
(1) Production Trial
Run sample material through the complete process
Measure weld quality and consistency
Check dimensional accuracy of produced tubes
(2) Speed and Performance
Test machine at various production speeds
Monitor for vibrations or unusual noises
Check acceleration and deceleration smoothness
(3) Control Systems
Verify PLC/HMI functionality
Test all programmable settings
Check safety interlocks and alarms
4. Documentation Review
Proper documentation provides valuable insights:
(1) Maintenance Records
Review service history and frequency
Check for major repairs or component replacements
Verify lubrication schedules
(2) Production History
Examine total operating hours
Check typical production loads
Review any downtime records
(3) Technical Specifications
Compare current condition to original specs
Verify any modifications made
Check for available spare parts
5. Specialized Inspection Methods
Advanced evaluation techniques provide deeper insights:
(1) Non-Destructive Testing (NDT)
Ultrasonic testing for internal cracks
Magnetic particle inspection for surface defects
Dye penetrant examination of critical welds
(2) Vibration Analysis
Detect bearing and gear wear patterns
Identify imbalance issues
Predict potential failures
(3) Thermal Imaging
Locate electrical hot spots
Identify friction points
Check cooling system efficiency
6. Key Evaluation Criteria
When assessing a used welding tube machine, focus on these critical factors:
(1) Wear Indicators
Roller groove depth
Guide shoe thickness
Drive chain stretch
(2) Performance Metrics
Weld speed consistency
Energy consumption
Product dimensional tolerance
(3) Economic Considerations
Estimated remaining service life
Availability of spare parts
Potential upgrade costs
7. Professional Inspection Services
For comprehensive evaluation:
(1) Third-Party Inspectors
Independent assessment
Specialized testing equipment
Detailed reporting
(2) Manufacturer Evaluation
OEM technical support
Genuine part verification
Factory reconditioning options
(3) Certification Programs
Verified machine condition
Performance guarantees
Warranty options
Conclusion
Evaluating a used welding tube machine requires systematic inspection across multiple parameters. By combining visual checks, mechanical assessment, functional testing, and documentation review, buyers can accurately determine the machine's condition and value. Investing time in thorough evaluation helps avoid costly surprises and ensures the used welding tube machine will meet production requirements effectively.
For high-value purchases, professional inspection services provide additional assurance and help negotiate fair pricing based on actual machine condition.
For more information, please pay attention to the website of Jinyujie Mechanical and Electrical Used Pipe Mill Supplier:www.usedpipemill.com
JinYuJie-Used Pipe Mills Supplier(Please click the link→) :second-hand pipe mill

Time of issue : 2025-05-14
The global market for used welding tube machines has shown significant growth in recent years, driven by cost efficiency, industrial demand, and the increasing adoption of refurbished manufacturing equipment. This analysis explores the current market trends, key drivers, challenges, and future prospects for used welding tube machines, providing insights for manufacturers, traders, and investors.
1. Market Overview
The used welding tube machine market is a vital segment of the metal fabrication industry, catering to small and medium-sized enterprises (SMEs) seeking affordable production solutions. These machines are widely used in construction, automotive, oil & gas, and manufacturing sectors for producing pipes and tubes of various specifications.
Key Market Trends:
Rising Demand for Cost-Effective Solutions: With new welding tube machines requiring substantial capital investment, many manufacturers opt for used welding tube machines to reduce costs while maintaining production efficiency.
Increased Refurbishment and Resale: Companies specializing in refurbishing industrial machinery have expanded, offering upgraded used welding tube machines with improved performance and extended lifespans4.
Growth in Emerging Markets: Developing economies in Asia, Africa, and Latin America are increasingly sourcing used welding tube machines due to lower budgets and growing industrialization.
2. Market Drivers
Several factors contribute to the growing demand for used welding tube machines:
(1) Economic Advantages
Lower Initial Investment: A new high-frequency welding tube machine can cost between 100,000and100,000and500,000, whereas a used welding tube machine with similar capabilities may be available for 30-60% less4.
Reduced Depreciation Losses: Unlike new equipment, used welding tube machines have already undergone significant depreciation, making them financially viable for startups and small workshops.
(2) Sustainability and Circular Economy
Many industries are adopting sustainable practices by reusing machinery instead of purchasing new equipment, reducing electronic waste and carbon footprints.
Refurbished used welding tube machines often include modernized components, making them nearly as efficient as new models.
(3) Flexibility in Production
Used welding tube machines are available in various models (HF welding, TIG welding, ERW tube mills), allowing businesses to select machines tailored to their production needs3.
Some suppliers offer customization options, retrofitting older machines with automation features to enhance productivity.
3. Market Challenges
Despite the advantages, the used welding tube machine market faces several obstacles:
(1) Quality and Reliability Concerns
Older machines may have hidden defects, requiring additional maintenance costs.
Buyers must carefully inspect used welding tube machines for wear and tear, especially in critical components like rollers, welding heads, and electrical systems.
(2) Limited Availability of Spare Parts
Some older models may no longer have readily available replacement parts, forcing buyers to rely on aftermarket solutions or machine modifications.
(3) Competition from New Technologies
Advances in automation and Industry 4.0 are pushing manufacturers toward smart welding solutions, making some used welding tube machines less attractive for high-precision applications.
4. Regional Market Insights
(1) Asia-Pacific (China, India, Southeast Asia)
The largest market for used welding tube machines, driven by rapid industrialization and infrastructure development.
China remains a major supplier, with many manufacturers upgrading to newer models and selling older machines domestically and internationally.
(2) North America & Europe
Mature markets with steady demand for refurbished industrial equipment.
Strict environmental regulations encourage the reuse of machinery, supporting the used welding tube machine market.
(3) Africa & Latin America
Growing demand due to expanding construction and oil & gas sectors.
Limited access to new machinery makes used welding tube machines a preferred choice.
5. Future Outlook
The used welding tube machine market is expected to grow steadily, supported by:
Increasing adoption of automation upgrades (retrofitting older machines with IoT and CNC controls).
Expansion of metal fabrication industries in emerging economies.
Rising focus on sustainability, promoting the reuse of industrial equipment.
However, buyers must remain cautious, ensuring proper inspection and maintenance of used welding tube machines to maximize their operational lifespan.
Conclusion
The used welding tube machine market offers a cost-effective and sustainable alternative for manufacturers worldwide. While challenges such as maintenance and part availability persist, the economic benefits and flexibility of these machines make them a viable option for businesses looking to optimize production c
The global market for used welding tube machines has shown significant growth in recent years, driven by cost efficiency, industrial demand, and the increasing adoption of refurbished manufacturing equipment. This analysis explores the current market trends, key drivers, challenges, and future prospects for used welding tube machines, providing insights for manufacturers, traders, and investors.
1. Market Overview
The used welding tube machine market is a vital segment of the metal fabrication industry, catering to small and medium-sized enterprises (SMEs) seeking affordable production solutions. These machines are widely used in construction, automotive, oil & gas, and manufacturing sectors for producing pipes and tubes of various specifications.
Key Market Trends:
Rising Demand for Cost-Effective Solutions: With new welding tube machines requiring substantial capital investment, many manufacturers opt for used welding tube machines to reduce costs while maintaining production efficiency.
Increased Refurbishment and Resale: Companies specializing in refurbishing industrial machinery have expanded, offering upgraded used welding tube machines with improved performance and extended lifespans4.
Growth in Emerging Markets: Developing economies in Asia, Africa, and Latin America are increasingly sourcing used welding tube machines due to lower budgets and growing industrialization.
2. Market Drivers
Several factors contribute to the growing demand for used welding tube machines:
(1) Economic Advantages
Lower Initial Investment: A new high-frequency welding tube machine can cost between 100,000and100,000and500,000, whereas a used welding tube machine with similar capabilities may be available for 30-60% less4.
Reduced Depreciation Losses: Unlike new equipment, used welding tube machines have already undergone significant depreciation, making them financially viable for startups and small workshops.
(2) Sustainability and Circular Economy
Many industries are adopting sustainable practices by reusing machinery instead of purchasing new equipment, reducing electronic waste and carbon footprints.
Refurbished used welding tube machines often include modernized components, making them nearly as efficient as new models.
(3) Flexibility in Production
Used welding tube machines are available in various models (HF welding, TIG welding, ERW tube mills), allowing businesses to select machines tailored to their production needs3.
Some suppliers offer customization options, retrofitting older machines with automation features to enhance productivity.
3. Market Challenges
Despite the advantages, the used welding tube machine market faces several obstacles:
(1) Quality and Reliability Concerns
Older machines may have hidden defects, requiring additional maintenance costs.
Buyers must carefully inspect used welding tube machines for wear and tear, especially in critical components like rollers, welding heads, and electrical systems.
(2) Limited Availability of Spare Parts
Some older models may no longer have readily available replacement parts, forcing buyers to rely on aftermarket solutions or machine modifications.
(3) Competition from New Technologies
Advances in automation and Industry 4.0 are pushing manufacturers toward smart welding solutions, making some used welding tube machines less attractive for high-precision applications.
4. Regional Market Insights
(1) Asia-Pacific (China, India, Southeast Asia)
The largest market for used welding tube machines, driven by rapid industrialization and infrastructure development.
China remains a major supplier, with many manufacturers upgrading to newer models and selling older machines domestically and internationally.
(2) North America & Europe
Mature markets with steady demand for refurbished industrial equipment.
Strict environmental regulations encourage the reuse of machinery, supporting the used welding tube machine market.
(3) Africa & Latin America
Growing demand due to expanding construction and oil & gas sectors.
Limited access to new machinery makes used welding tube machines a preferred choice.
5. Future Outlook
The used welding tube machine market is expected to grow steadily, supported by:
Increasing adoption of automation upgrades (retrofitting older machines with IoT and CNC controls).
Expansion of metal fabrication industries in emerging economies.
Rising focus on sustainability, promoting the reuse of industrial equipment.
However, buyers must remain cautious, ensuring proper inspection and maintenance of used welding tube machines to maximize their operational lifespan.
Conclusion
The used welding tube machine market offers a cost-effective and sustainable alternative for manufacturers worldwide. While challenges such as maintenance and part availability persist, the economic benefits and flexibility of these machines make them a viable option for businesses looking to optimize production c
Wechat: 13392281699
Email: zty@usedpipemill.com
Company address:No. A99, East Lecong Avenue, Lecong Town, Foshan City, Guangdong Province
Recommendation
Online Inquiry
LINK
Contact Us
Tel (wechat): 13336487288
Wechat:+86 13336487288
WhatsApp:+86 13336487288
Email: zty@usedpipemill.com
Address: No. A99, Lecong Avenue East, Lecong Town, Foshan City, Guangdong Province
