海豊-自転車タイヤのインテリジェント鋳造機のトータルソリューション
顧客背景
Jiangxi Songji Sports Technology Co., Ltd. is a leading domestic bicycle tire manufacturer specializing in the R&D, production, and sales of bicycle tires. The company mainly adopts centrifugal molding technology to produce a full range of bicycle tires, including products for bicycles, wheelchairs, and electric assist bicycles, serving dozens of well-known bicycle brands and complete vehicle manufacturers at home and abroad.
With an annual production capacity of 7.5 million bicycle tires and 4 traditional centrifugal tire production lines, the company has gained high brand awareness and a stable market share in the domestic and international bicycle tire markets through high-quality products. With the rapid development of the electric assist bicycle industry, the customer urgently needs to upgrade the casting equipment in existing production lines to solve problems such as insufficient collaboration between traditional casting machines and centrifuges, and poor casting precision, thereby meeting the higher requirements for molding precision, structural stability, and production efficiency of high-end electric assist bicycle tires.
プロジェクト概要
The global bicycle industry is developing rapidly towards lightweight and high-performance. Bicycle tires are core components ensuring riding safety, and the precision and efficiency of production processes directly affect an enterprise’s market competitiveness. Centrifugal molding is the mainstream production process for tires of high-end bicycles and electric assist bicycles. As a key equipment in the centrifugal molding process, the casting machine is responsible for precise rubber casting and collaborative matching with centrifugal rhythm. Its performance directly determines tire wall thickness uniformity, compactness, and final product quality.
Currently, casting machines in traditional bicycle centrifugal molding production lines face numerous issues: insufficient casting precision, poor coordination with centrifuges, low automation levels, and lack of effective data management and control. These problems hinder the improvement of overall production efficiency and product quality, failing to meet the strict quality requirements for tires of high-end bicycles and electric assist bicycles.
Addressing these key pain points, Haifeng focuses on the intelligent upgrading of casting machines, developing a total solution for intelligent casting machines integrating precise casting control, casting-centrifuge collaboration, automation upgrading, and closed-loop data management. This solution helps customers transform from traditional semi-automatic casting to fully automated, data-driven casting, while optimizing the entire centrifugal molding process, achieving comprehensive improvements in production efficiency and product quality.
コア顧客のペインポイント
01
Unstable Casting Precision and Insufficient Collaboration
Semi-automatic casting machines in traditional production lines rely on manual control of casting volume and speed, which easily leads to uneven rubber distribution, unsynchronized casting, and excessive proportional deviations. This further results in uneven tire wall thickness, significant differences in compactness, and low yield rates, seriously affecting product competitiveness and enterprise profits.
02
Low Automation Level and Limited Production Efficiency
Existing casting machines require manual operations such as casting, manual parameter adjustment, and start-stop control. Each production line needs to be equipped with 8-10 operators (including casting-related links), resulting in high labor costs. For dual-density tires, the casting volume difference between inner and outer tires is large. Manual operations are slow and labor-intensive, failing to keep up with the high-speed rotation rhythm of centrifuges, leading to longer overall molding cycles and increased cleaning times. The hourly output of a single device is only 450 units, making it difficult to meet the needs of large-scale production. In addition, when switching between tires of different brands, the swing position of the casting machine must be repeatedly adjusted manually, greatly reducing production line utilization.
03
Weak Quality Control and Lack of Data Traceability
During production, key process parameters of the casting machine such as rubber casting volume, casting speed, and casting pressure are not collected in real time, nor can they be managed and controlled in conjunction with parameters such as centrifuge speed and molding temperature. When parameters fluctuate, timely early warning and adjustment cannot be made. Moreover, there is a lack of a complete product data traceability system. Once quality problems such as substandard tire compactness and uneven wall thickness occur, it is difficult to accurately determine whether the problem lies in the casting link or the centrifugal link, resulting in low efficiency of quality rectification.
04
High Energy Consumption Costs and Heavy Operational Burden
Traditional casting machines often suffer from blockages and frequent failures. At the same time, key wearing parts such as casting pumps and nozzles wear quickly due to unstable parameter control, resulting in short maintenance cycles and high annual maintenance costs, which undoubtedly increases the operational burden on enterprises.
海峰のソリューション
01
Precision Casting and Centrifugal Collaborative Control
Customized intelligent casting machines for centrifugal molding processes are equipped with a servo closed-loop control system, integrating high-precision flow metering pumps, pressure sensors and speed linkage modules to accurately control the casting volume (accuracy ±1g), casting speed (adjustment accuracy ±0.1mm/s) and casting pressure. A proprietary linkage algorithm is independently developed to realize dynamic linkage between the casting machine and centrifuge, which can adjust casting parameters in real time according to the centrifuge speed to ensure uniform material distribution and consistent tire wall thickness. A variety of standardized collaborative parameters for different tire models are pre-stored in the equipment and can be configured with one click, ensuring consistent molding precision of multi-batch products and reducing the scrap rate from the source of the process.
02
Full-Process Automation Integration
A full-process automation system adapted to large-scale and multi-variety production needs is built. Diaphragm pump automatic feeding is combined with precise alignment of the casting machine to the casting nozzle, which can replace more than 90% of manual casting and repetitive operations, directly reducing 2-3 operators per production line and significantly cutting labor costs. An intelligent rapid model change module is equipped to deeply cooperate with the centrifuge’s mold change system, automatically storing key production parameters of tire bodies of different specifications. One-click switching and automatic calibration are available during model change without repeated manual debugging, greatly shortening the model change time. With the intelligent casting machine as the core, the entire processes of automatic feeding, casting and centrifugal molding are seamlessly connected without additional manual intervention. The hourly output of a single device can reach 500-550 units, with a production capacity increase of more than 10% compared with traditional equipment.
03
Full-Lifecycle Data Closed-Loop Management and Control
A full-process data management and control system is built based on the industrial internet intelligent management and control platform. With the casting machine as the core data collection node and a multi-dimensional sensor network, more than 10 key process parameters of the casting machine and centrifuge are collected in real time at a frequency of 5ms/time, supporting real-time parameter monitoring and visual display. When parameters in any link fluctuate, the system will automatically issue an early warning and link relevant equipment to complete closed-loop adjustment, giving priority to optimizing the casting machine parameters to avoid quality problems from the source. The entire production process fully records core data such as casting parameters and equipment operating status. In case of quality problems, the root cause in the casting or centrifugal link can be accurately located within minutes, greatly improving the efficiency of quality rectification.
04
Energy Conservation, Consumption Reduction and Intelligent Operation & Maintenance Optimization
The structure of core components such as casting pumps and nozzles of the casting machine is optimized to significantly extend the service life of wearing parts. Combined with standardized on-site equipment maintenance, the overall service life of the equipment can be further improved. Based on the intelligent management and control platform, the operating parameters of the casting machine and the linkage data of the centrifuge are in-depth analyzed to early warn potential equipment failures, effectively avoiding production losses caused by sudden equipment shutdowns. At the same time, the overall failure rate and operating energy consumption of the equipment are reduced to achieve energy conservation and consumption reduction in the production process, helping enterprises cut comprehensive operational costs.
プロジェクト実施の主な成果
Haifeng Automation completed the upgrading of 4 intelligent tire casting machines and the transformation of the entire production line for the customer, providing one-stop services including equipment installation and commissioning, casting-centrifugation process collaboration optimization, and personnel training. Significant results have been achieved after project implementation, with core benefits as follows:
製品品質の質的飛躍
インテリジェント鋳造機の精密制御と遠心工程との共同最適化により、完成タイヤの合格率は99.5%に達した。製品の品質は国内外の一流自転車ブランドのサプライヤー資格審査に合格し、高級自転車タイヤの販売量は前年比25%増加した。.
生産効率の大幅な改善
1台の装置の1時間当たりの生産量は450台から500~550台に増加し、4つの生産ラインの年間生産能力は約50万台増加した。生産ライン当たりのオペレーター数は8~10人から5~7人に削減でき、4つの生産ラインで年間約100万元の人件費を節約できる。.
運用コストの大幅削減
鋳造機の回路を最適化した後、総エネルギー消費量は大幅に減少した。鋳造機及び関連設備のメンテナンス周期が2倍に延び、年間メンテナンス費用が50%削減された。自動鋳造後、清掃回数が大幅に削減された。各生産ラインは1日当たり約190回の洗浄を削減でき、洗浄剤の使用量を大幅に削減し、操業コストをさらに下げることができる。.
インテリジェントな管理と制御レベルの包括的なアップグレード
鋳造機を核とした自転車タイヤ生産の全工程自動化・データ化管理制御を実現。品質問題の発見時間が数時間から3分に短縮され、生産管理効率が85%向上。予知保全により、突発的な設備停止率は95%減少し、生産ラインの安定性は大幅に改善され、企業が大規模かつハイエンドレベルで自転車用タイヤを生産するための強固な基礎を築いた。.
