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| Type | GYDL-S Series Real-Time Monitoring | ||||
| Model |
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| Power supply | 380V50Hz | 380V50Hz | 380V50Hz | 380V50Hz | 380V50Hz |
| Cooling water circuits | 6 | 12 | 24 | 36 | 48 |
| Pump power | 1.5kW | 3kW | 3kW | 5.5kW | 5.5kW |
| Cooling water discharge pressure | 0.6-1.2MPa | 0.6-1.2MPa | 0.6-1.2MPa | 0.6-1.2MPa | 0.6-1.2MPa |
| Water source (clean tap water/pure water) | 0.2-0.3MPa | 0.2-0.3MPa | 0.2-0.3MPa | 0.2-0.3MPa | 0.2-0.3MPa |
| Machine dimensions (L×W×H) | 600×450×1300mm | 820×750×1400mm | 820×750×1400mm | 820×750×1400mm | 820×750×1400mm |
| Distributor dimensions (L×W×H) | 430×170×350mm | 560×190×390mm | 560×190×390mm | 560×190×390mm | 560×190×390mm |
| Type | GYDL-H Series Real-Time Monitoring (consistent temperature control + cooling water circulating) |
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| Model |
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| Power supply | 380V 50Hz | 380V 50Hz | 380V 50Hz | 380V 50Hz | 380V 50Hz |
| Cooling water circuits | 6 | 12 | 24 | 36 | 48 |
| Pump power | 1.5kW | 3kW | 3kW | 5.5kW | 5.5kW |
| Cooling water discharge pressure | 0.6-1.2MPa | 0.6-1.2MPa | 0.6-1.2MPa | 0.6-1.2MPa | 0.6-1.2MPa |
| Water source (clean tap water/pure water) | 0.2-0.3MPa | 0.2-0.3MPa | 0.2-0.3MPa | 0.2-0.3MPa | 0.2-0.3MPa |
| Machine dimensions (L×W×H) | 700×450×1300mm | 1100×800×1450mm | 1100×800×1450mm | 1100×800×1450mm | 1100×800×1450mm |
| Distributor dimensions (L×W×H) | 430×170×350mm | 560×190×390mm | 560×190×390mm | 560×190×390mm | 560×190×390mm |
High-pressure jet cooling for rapid temperature reduction, precise local cooling control, and shorter production cycles.
Independent control of water and air supply circuits to meet cooling needs of different mold areas; real-time flow monitoring in hot spot zones.
Built-in independent circulation and compressor cooling, constant temperature water tank, reducing dependence on external systems.
Optimized solidification sequence through temperature control to reduce shrinkage porosity; precise temperature adjustment reduces scuffing and sticking, improving surface quality.
High-precision air pressure detection (delay ﹤1ms), AI algorithm with multi-signal fusion, zero false alarm rate, ensuring safety.
Applicable to aluminum, magnesium, and zinc alloy die casting, especially solving high-risk issues such as magnesium explosion when exposed to water.
Prevents downtime and mass scrap, reduces repair time from 2 days to 1 hour, significantly improving production efficiency.
The die casting spot cooling machine is equipment developed for localized mold temperature control, mainly used for cyclic cooling of specific mold areas during casting, especially for high-pressure spot cooling of ultra-thin core pins. Its working principle is to use a high-pressure pump to deliver water at a specified temperature and flow through preset channels into the high-temperature mold at the right time, altering the original temperature gradient of the mold and changing the solidification sequence. This enables uniform overall cooling of the mold, effectively eliminating defects such as casting shrinkage or premature cracking caused by local overheating.
Shrinkage porosity
Core breakage
We provide complete mold temperature control solutions to help you achieve stable quality, shorter cycles and reduced costs. Let’s find the right system for your needs.
Check the temperature sensor, then verify heating and cooling systems, and review control settings. Compare normal operation data with current readings to locate anomalies.
Optimize channel design, position heating/cooling pipes strategically, and use effective heat-transfer media. For large molds, apply zoned temperature control for independent regulation.
Standard warranty is 12 months from acceptance. It covers non-human faults with free repairs, replacement of faulty parts, and technical support.
A response system is in place with performance tracking. If service is unsatisfactory, customers may escalate complaints to customer support, which ensures follow-up by assigned personnel.
