Automatic Aluminium Spacer Bar Bending Machine
Automatic Aluminium Spacer Bar Bending Machine
2026-02-03
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Automatic Aluminium Spacer Bar Bending Machine: Technology, Application and Industrial Development
1. Introduction
In the modern architectural glass deep processing industry, insulating glass has become the core component of energy-saving buildings due to its excellent thermal insulation, sound insulation and anti-fogging performance. The aluminium spacer bar, as the key structural part of insulating glass, plays a vital role in maintaining the cavity thickness of insulating glass, sealing the molecular sieve desiccant and ensuring the structural stability of the glass unit. The traditional manual or semi-automatic bending process of aluminium spacer bars has the problems of low bending precision, poor consistency, low production efficiency, high labor intensity and difficulty in adapting to the production of complex-shaped spacer bars, which has become a bottleneck restricting the high-quality and large-scale development of the insulating glass industry.
Against this background, the Automatic Aluminium Spacer Bar Bending Machine, as an intelligent electromechanical integration equipment integrating mechanical transmission, servo control, numerical control system and sensing detection technology, has gradually replaced the traditional bending process and become the core equipment in the insulating glass production line. This paper systematically expounds the definition, structural composition, working principle, technical parameters, application scenarios, core advantages, market development status and future trends of the Automatic Aluminium Spacer Bar Bending Machine, aiming to provide a comprehensive reference for architectural glass processing enterprises, equipment R&D institutions and industry practitioners, and clarify the important value of this equipment in promoting the upgrading of the insulating glass industry.
2. Definition and Classification of Automatic Aluminium Spacer Bar Bending Machine
2.1 Core Definition
The Automatic Aluminium Spacer Bar Bending Machine is a special numerical control equipment specially designed for bending and forming aluminium spacer bars (including ordinary aluminium spacer bars, warm edge aluminium composite spacer bars, stainless steel spacer bars, etc.) used in insulating glass. It can automatically complete the processes of spacer bar feeding, length measurement, corner bending, angle forming, cutting and discharging according to the preset program and size parameters, without manual intervention in the whole process. Adopting high-precision servo drive and PLC numerical control system, it can realize the bending of aluminium spacer bars of different specifications, sizes and shapes (rectangle, square, special-shaped polygon, arc, etc.), with high bending precision, good forming consistency and high production efficiency, which is an indispensable key equipment in the automatic production line of insulating glass.
2.2 Main Classification
According to different structural forms, functional configurations and application scenarios, the Automatic Aluminium Spacer Bar Bending Machine can be divided into the following categories:
2.2.1 Classified by Bending Form
- Right Angle Bending Machine: Mainly used for bending aluminium spacer bars into right-angle rectangular or square shapes, which is the most common type in the insulating glass industry. It is equipped with a fixed-angle bending mechanism, with high bending speed and high precision, suitable for the production of conventional rectangular insulating glass.
- Multi-Angle Bending Machine: Adopting a servo-controlled rotating bending head, it can realize the bending of any angle (0°-180°), and can process special-shaped aluminium spacer bars such as trapezoid, rhombus and polygon, meeting the production needs of special-shaped insulating glass for high-end buildings.
- Arc Bending Machine: Equipped with an arc forming mechanism, it can bend aluminium spacer bars into arc, circular or elliptical shapes, which is specially used for the production of curved insulating glass, such as curved glass for shopping malls, hotels and landmark buildings.
- Composite Bending Machine: Integrating right-angle, multi-angle and arc bending functions, it is a multi-functional integrated equipment that can realize the one-stop processing of various shapes of aluminium spacer bars, with strong flexibility and high adaptability.
2.2.2 Classified by Automation Degree
- Fully Automatic Bending Machine: Realizes unmanned operation in the whole process, including automatic feeding, automatic length measurement, automatic bending, automatic cutting, automatic discharging and automatic stacking. It is equipped with a touch human-machine interface and can store multiple processing programs, suitable for large-scale and standardized production of insulating glass enterprises.
- Semi-Automatic Bending Machine: Needs manual assistance in partial links such as manual feeding and manual placement of spacer bars, while the core bending and forming links are automatically controlled. It has a small footprint and low cost, suitable for small and medium-sized insulating glass enterprises with small-batch and multi-variety production.
2.2.3 Classified by Processing Specification
- Small-Size Bending Machine: Suitable for processing aluminium spacer bars with a width of 5.5-12mm and a minimum bending size of 100mm×100mm, mainly used for the production of small-sized insulating glass such as household doors and windows.
- Large-Size Bending Machine: Suitable for processing aluminium spacer bars with a width of 12-27mm and a maximum bending size of 2500mm×3000mm, mainly used for the production of large-sized insulating glass for curtain walls, industrial buildings and public buildings.
- Ultra-Wide Bending Machine: Specially designed for processing ultra-wide aluminium spacer bars (27-45mm), which is used for the production of high-performance insulating glass with large cavity thickness and high energy-saving requirements.
3. Structural Composition and Working Principle
3.1 Core Structural Composition
The Automatic Aluminium Spacer Bar Bending Machine is a complex system integrating multiple functional modules, and its structural design directly determines the equipment's bending precision, stability and production efficiency. The main structural modules are as follows:
3.1.1 Numerical Control System Module
As the "control core" of the equipment, it mainly includes PLC controller (Siemens, Omron and other international brands are commonly used), touch human-machine interface (HMI), motion control card and servo driver. The PLC system is responsible for receiving the size parameters input by the operator, calculating the bending path and angle, and issuing execution instructions to each drive mechanism; the touch screen provides a human-computer interaction platform, which can set processing parameters, store processing programs, monitor the operating status of the equipment in real time, and query fault information. The servo driver realizes the precise control of the bending head, feeding mechanism and cutting mechanism, ensuring the positioning accuracy of each action.
3.1.2 Feeding and Conveying Module
Including feeding rack, conveying roller, clamping mechanism and length measuring sensor. The feeding rack is used to store the coiled or straight aluminium spacer bars, and the conveying roller (driven by servo motor) transports the spacer bars to the bending station at a constant speed; the clamping mechanism fixes the spacer bars during the bending process to prevent displacement; the length measuring sensor (laser or encoder type) measures the length of the spacer bars in real time, with a measurement accuracy of ±0.1mm, ensuring the consistency of the processing length.
3.1.3 Bending and Forming Module
This is the core module of the equipment, including bending head, bending die, servo rotating mechanism and angle encoder. The bending head is driven by a high-power servo motor, and the bending die is made of high-strength alloy steel with wear-resistant and anti-deformation treatment, which can be quickly replaced according to the width of the spacer bar; the servo rotating mechanism realizes the precise rotation of the bending head, and the angle encoder feeds back the bending angle in real time, with an angle control accuracy of ±0.1°, ensuring the accuracy of the bending angle. For arc bending machines, this module is also equipped with an arc forming wheel set, which can adjust the arc radius steplessly.
3.1.4 Cutting and Discharging Module
Including pneumatic cutting knife, cutting die and discharging conveyor belt. After the bending and forming of the aluminium spacer bar is completed, the pneumatic cutting knife cuts the spacer bar according to the set length, with a cutting edge flat and no burrs; the discharging conveyor belt transports the formed spacer bar to the designated area, and some high-end models are equipped with an automatic stacking mechanism to realize automatic sorting and stacking of finished products.
3.1.5 Frame and Protective Module
The frame is made of high-strength cast iron or thick-walled steel plate, with good rigidity and shock resistance, which can avoid deformation during high-speed bending and ensure the stability of the equipment; the protective module includes safety grating, emergency stop button, protective cover and safety door, which meets the industrial safety standards, prevents operators from contacting the moving parts, and ensures the safety of operation.
3.2 Working Principle
The Automatic Aluminium Spacer Bar Bending Machine takes the PLC numerical control system as the core, and realizes the coordinated operation of each module through servo drive and sensing detection technology, and completes the whole process of aluminium spacer bar bending and forming according to the preset program. The specific working process is as follows:
First, the operator inputs the processing parameters (spacer bar width, bending size, bending angle, quantity, etc.) through the touch screen, and the system automatically generates the processing program. Then, the feeding mechanism transports the aluminium spacer bar from the feeding rack to the bending station, and the length measuring sensor measures the length of the spacer bar in real time and feeds back the data to the PLC system. When the spacer bar reaches the set length, the clamping mechanism fixes the spacer bar, and the servo motor drives the bending head to rotate to the set angle, and the bending die presses the spacer bar to complete the corner bending. For multi-angle or arc bending, the system controls the bending head to rotate continuously according to the pre-calculated path to realize the forming of complex shapes. After all bending processes are completed, the cutting mechanism cuts the spacer bar, and the discharging conveyor belt transports the finished product to the stacking area. The whole process is automatically controlled by the system, and the equipment can continuously process multiple spacer bars in a cycle, with high production efficiency and high forming precision.
In addition, the equipment is equipped with a fault self-diagnosis system, which can monitor the operating status of each module in real time. When faults such as motor abnormality, sensor failure and material jamming occur, the system will immediately stop operation, send an alarm signal, and display the fault cause and solution on the touch screen to facilitate maintenance.
4. Core Technical Parameters and Performance Indicators
The technical parameters of the Automatic Aluminium Spacer Bar Bending Machine are the key basis for measuring its performance and selecting models. Different types of equipment have different parameter standards, and the common core technical parameters and performance indicators are as follows:
4.1 Basic Processing Parameters
- Applicable Spacer Bar Width: 5.5-45mm (conventional models are 5.5-27mm, ultra-wide models are 27-45mm)
- Applicable Spacer Bar Thickness: 0.3-1.2mm
- Processing Size Range: Minimum 100mm×100mm, Maximum 2500mm×3000mm (customizable for larger sizes)
- Bending Angle Range: 0°-180° (stepless adjustment for multi-angle models, fixed 90° for right-angle models)
- Arc Radius Range: 50mm-2000mm (for arc bending machines)
- Processing Speed: 5-15 pieces per minute (depending on the size and shape of the spacer bar)
- Power Supply: AC 380V, 50Hz, Power 3-7.5KW
- Air Pressure Requirement: ≥0.6MPa, Air Consumption 0.3-0.5m³/min
4.2 Precision and Stability Indicators
- Length Measurement Accuracy: ±0.1mm
- Bending Angle Accuracy: ±0.1°
- Diagonal Accuracy of Formed Spacer Bar: ±0.2mm
- Repeat Positioning Accuracy: ±0.05mm
- Continuous Operation Time: ≥24 hours
- Fault Rate: ≤0.3%
- Service Life of Core Components: ≥8 years (servo motor, PLC, bending die)
4.3 Intelligent and Humanized Parameters
- Program Storage Capacity: 100-500 groups of processing programs
- Changeover Time: Tool-free quick changeover of bending die, ≤5 minutes
- Data Interaction: Supports connection with MES system, real-time upload of processing data
- Fault Self-Diagnosis: Can identify more than 60 kinds of common faults, real-time display of fault information
- Noise Level: ≤70dB (meeting industrial noise standards)
5. Application Scenarios and Industry Requirements
The Automatic Aluminium Spacer Bar Bending Machine is mainly used in the architectural glass deep processing industry, and its application scenarios cover various fields of insulating glass production, with different industry requirements for equipment performance.
5.1 Residential Building Doors and Windows Insulating Glass Production
This is the most mainstream application scenario, mainly producing rectangular insulating glass for residential doors and windows, with small and medium sizes (300mm×300mm-1500mm×2000mm). The industry requires the equipment to have high bending speed, good forming consistency and low cost, and the right-angle bending machine is the preferred model. At the same time, the equipment needs to adapt to the processing of aluminium spacer bars with a width of 5.5-12mm, and the formed spacer bar has no deformation, no cracks and tight corners, ensuring the sealing performance of insulating glass.
5.2 Commercial Building Curtain Wall Insulating Glass Production
Commercial building curtain walls require large-sized and high-performance insulating glass, with sizes up to 2500mm×3000mm and spacer bar widths of 12-27mm. The industry requires the equipment to have high rigidity, large processing range and high bending precision, and the large-size bending machine is the core equipment. In addition, the equipment needs to realize the processing of special-shaped spacer bars (trapezoid, polygon) to meet the design needs of complex curtain wall shapes, and the formed spacer bar has good structural stability to ensure the safety of curtain wall glass.
5.3 High-End Special-Shaped Insulating Glass Production
High-end buildings such as landmark buildings, shopping malls and hotels often use special-shaped insulating glass (arc, circular, elliptical, irregular polygon), which requires the equipment to have multi-angle and arc bending functions. The multi-angle and arc composite bending machine is the key equipment, which can realize the stepless adjustment of bending angle and arc radius, with high forming precision and good consistency, meeting the personalized design needs of high-end buildings.
5.4 Warm Edge Spacer Bar Processing
With the development of energy-saving buildings, warm edge aluminium composite spacer bars (low thermal conductivity, better energy-saving effect) are gradually replacing ordinary aluminium spacer bars. The processing of warm edge spacer bars requires the equipment to have a soft bending function, avoiding the cracking of the composite layer during bending. Therefore, the bending machine needs to be equipped with a special bending die and a buffer mechanism, with low bending pressure and high forming precision, to ensure the integrity of the warm edge spacer bar structure.
6. Core Advantages of Automatic Aluminium Spacer Bar Bending Machine
Compared with the traditional manual and semi-automatic bending process, the Automatic Aluminium Spacer Bar Bending Machine has obvious advantages in precision, efficiency, cost, quality and intelligence, which is the core driving force for its popularization in the insulating glass industry.
6.1 Ultra-High Bending Precision and Forming Consistency
Adopting high-precision servo drive and angle encoder control, the bending angle accuracy reaches ±0.1° and the length measurement accuracy reaches ±0.1mm, which completely solves the problems of angle deviation, length inconsistency and diagonal error in manual bending. The formed aluminium spacer bar has uniform size, tight corners, no deformation and no cracks, which effectively improves the assembly precision of insulating glass and ensures the sealing and structural stability of the glass unit.
6.2 Significant Improvement of Production Efficiency
The fully automatic operation mode eliminates the link of manual intervention, and the processing speed is 5-10 times higher than that of manual bending. A single fully automatic bending machine can process 5-15 pieces of spacer bars per minute, and can run continuously for 24 hours, which greatly improves the production capacity of insulating glass enterprises. At the same time, the quick changeover function of the bending die reduces the downtime caused by specification replacement, and further improves the overall production efficiency.
6.3 Great Reduction of Production Cost
On the one hand, it reduces labor costs: a fully automatic bending machine can replace 6-10 manual operators, and only one person is needed for daily operation and maintenance, which greatly saves labor expenditure; on the other hand, it reduces material waste: the high-precision processing reduces the scrap rate of aluminium spacer bars to less than 0.5%, which is far lower than the 5%-10% scrap rate of manual bending, saving a lot of raw material costs; in addition, the low fault rate and long service life of the equipment reduce maintenance costs and downtime losses.
6.4 Strong Flexibility and Adaptability
The equipment can store hundreds of processing programs, and realize quick switching of different sizes, widths and shapes of aluminium spacer bars by adjusting parameters on the touch screen, with tool-free changeover and strong adaptability to multi-variety and small-batch production. At the same time, it can be customized according to customer needs, such as adding double bending stations, ultra-large size processing mechanism, warm edge spacer bar special bending die, etc., to meet the personalized processing needs of different enterprises.
6.5 Intelligent Management and Quality Traceability
The PLC numerical control system realizes real-time monitoring of processing data, automatic recording of processing quantity, qualified rate, fault information and other data, which is convenient for enterprises to carry out production management and quality traceability. The equipment supports connection with the MES system of the factory, realizing the digital management of the whole production process, and meeting the requirements of modern intelligent manufacturing for data transparency and traceability.
6.6 Improvement of Working Environment and Labor Safety
The fully enclosed operation and safety protection devices reduce the noise and potential safety hazards in the processing process, and avoid industrial accidents caused by manual operation of bending tools. At the same time, it liberates workers from heavy and repetitive manual labor, reduces labor intensity and improves the working environment of the production line.
7. Market Development Status and Trends
7.1 Global Market Status
Driven by the global energy-saving building policy and the rapid development of the architectural glass industry, the demand for Automatic Aluminium Spacer Bar Bending Machines has maintained a steady growth trend in recent years. The Asia-Pacific region, represented by China, has become the largest market due to its large-scale construction of real estate, infrastructure and energy-saving buildings, and the rapid development of the insulating glass processing industry; Europe and the United States, as developed regions, focus on high-end intelligent and multi-functional bending machines, with high requirements for equipment precision, stability and environmental protection; emerging markets in the Middle East, Latin America and Africa are in the stage of urbanization construction, and the demand for cost-effective automatic bending machines is growing rapidly.
At present, the global market competition pattern is divided into three echelons: the first echelon is European brands such as LiSEC (Austria) and Bystronic (Switzerland), which occupy the high-end market with advanced technology, high stability and complete after-sales service, mainly serving large insulating glass processing enterprises; the second echelon is Chinese brands such as LIJIANG Glass, North Glass and CYGLASS, which have rapidly risen with cost performance, fast delivery and customized services, and have a high market share in the middle and low-end markets and emerging markets, and some high-end models have gradually entered the European and American markets; the third echelon is small and medium-sized brands in South Korea, Japan and other countries, which focus on regional markets and have limited competitiveness.
7.2 Core Market Trends
7.2.1 Intelligent and Digital Upgrading
With the development of industrial Internet and artificial intelligence, the Automatic Aluminium Spacer Bar Bending Machine is developing towards higher intelligence: integrating AI algorithms to realize adaptive adjustment of bending parameters (automatically optimizing bending speed and pressure according to the material and thickness of the spacer bar); adding digital twin technology to simulate the bending process and predict deformation in advance; realizing remote monitoring, fault diagnosis and program upgrade through cloud platforms, and meeting the needs of intelligent factory management.
7.2.2 Multi-Functional and Integrated Development
The single-function bending machine can no longer meet the diversified production needs of enterprises, and the multi-functional integrated bending machine integrating right-angle, multi-angle and arc bending has become the development trend. At the same time, the equipment is developing towards integration with the insulating glass production line, realizing seamless connection with desiccant filling machine, butyl rubber coating machine, glass pressing machine and other equipment, forming a fully automatic intelligent production line of insulating glass, and improving the overall automation level of the factory.
7.2.3 High Precision and High Efficiency
Downstream enterprises have higher and higher requirements for the processing precision and production efficiency of aluminium spacer bars, and the equipment is developing towards higher precision (bending angle accuracy up to ±0.05°) and higher speed (processing speed exceeding 20 pieces per minute); at the same time, the lightweight and compact design reduces the floor space of the equipment, and improves the space utilization rate of the production line.
7.2.4 Green and Energy-Saving Development
In response to the global call for energy conservation and emission reduction, the equipment is optimized in terms of energy consumption: adopting high-efficiency servo motors and energy-saving pneumatic components to reduce power and air consumption; using recyclable and environmentally friendly materials for the frame and bending die; designing a waste recycling system to collect aluminium scraps generated during cutting, realizing material recycling and reducing environmental pollution.
7.2.5 Customization and Personalization
The personalized design needs of modern buildings are becoming more and more prominent, and the demand for special-shaped aluminium spacer bars is increasing year by year. The customized bending machine (such as ultra-large size, ultra-small arc, special-shaped polygon processing) has become a new growth point of the market, and equipment manufacturers are shifting from standardized production to customized solutions to meet the diversified processing needs of different customers.
8. Challenges and Future Development Prospects
8.1 Existing Challenges
Although the Automatic Aluminium Spacer Bar Bending Machine has achieved rapid development, it still faces some challenges in the process of industrial popularization: first, the technical level of some domestic small and medium-sized brands is uneven, and the core components such as high-precision servo motors and numerical control systems still rely on imports, resulting in high production costs and weak competitiveness in the high-end market; second, the after-sales service system of some enterprises is not perfect, and the response speed to equipment faults and maintenance needs is slow, affecting the user experience; third, the adaptability to new materials such as ultra-thin warm edge spacer bars and stainless steel spacer bars needs to be further improved, and the bending precision and forming quality of new materials need to be optimized; fourth, the digital transformation of small and medium-sized insulating glass enterprises is slow, and the acceptance and application capacity of high-end intelligent bending machines are insufficient.
8.2 Future Development Prospects
In the future, with the continuous advancement of global energy-saving building policies, the upgrading of the architectural glass industry and the breakthrough of core technologies, the Automatic Aluminium Spacer Bar Bending Machine will show broader development prospects:
In terms of technology, the localization of core components will be accelerated, and domestic brands will break through the technical monopoly of foreign brands in high-precision servo systems, intelligent numerical control and other fields, reducing production costs and improving product competitiveness; the integration of new technologies such as 5G, machine vision and big data will further improve the intelligence level of the equipment, realizing unmanned production and full-process digital management.
In terms of application, the application fields will continue to expand, and the demand for special-shaped insulating glass in new energy vehicles, aerospace, medical equipment and other emerging fields will drive the development of the equipment in the direction of ultra-high precision, ultra-small size and special material adaptation; at the same time, the warm edge spacer bar, as the development direction of energy-saving spacer bars, will promote the upgrading of bending machine technology, and the special bending equipment for warm edge spacer bars will become the mainstream of the market.
In terms of market, the global market demand will maintain a compound annual growth rate of more than 5%, and Chinese brands will further expand the international market with technological advantages and cost performance, and the global competition pattern will be more balanced; the industry will accelerate the elimination of backward production capacity, and enterprises with core technologies, complete after-sales service and strong R&D capabilities will occupy a dominant position, promoting the healthy and standardized development of the industry.
9. Conclusion
The Automatic Aluminium Spacer Bar Bending Machine, as the core equipment of the modern insulating glass production line, has realized the transformation of aluminium spacer bar processing from manual and semi-automatic to fully automatic and intelligent, which is of great significance for improving the processing precision, production efficiency and product quality of insulating glass. It integrates mechanical transmission, servo control, numerical control system and sensing detection technology, with ultra-high bending precision, high production efficiency, low production cost and strong flexibility, and has become an indispensable key equipment in the architectural glass deep processing industry.
At present, the industry is in a period of rapid development of intelligent and digital upgrading, and is facing both opportunities such as the expansion of downstream market demand and the breakthrough of core technologies, as well as challenges such as technical bottlenecks and market competition. In the future, equipment manufacturers need to increase R&D investment, break through the technical barriers of core components, improve the level of intelligence and customization, and improve the after-sales service system; insulating glass processing enterprises need to accelerate the pace of automation transformation, and select appropriate bending equipment according to their own production needs to improve the overall competitiveness of the enterprise.
With the continuous progress of technology and the continuous upgrading of industrial demand, the Automatic Aluminium Spacer Bar Bending Machine will play a more important role in the global architectural glass industry, and promote the high-quality development of the energy-saving building industry with more intelligent, efficient and stable performance.
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