High-temperature water chiller
隐藏域元素占位
Keywords
- Product Description
- Specifications
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- Commodity name: High-temperature water chiller
◆ Oil-blowing and oil-return function (optional) ◆ Oil-return temperature display (optional) ◆ Automatic air-venting upon power-up ◆ Heating-power switching function ◆ Instant cooling and shutdown function (optional) ◆ RS485 communication interface for automated management (optional) ◆ Hot-oil BY-PASS pressure-relief circuit ◆ Multi-point temperature-control units available as custom orders ◆ Oil-pump horsepower and heating power customizable ◆ Electrical components from SIEMENS, Weidmuller, LS, JUMO, ABB, and WEST (optional) ◆ Temperature control range: inlet water temperature +45°C to 180°C ◆ Control method: imported microcomputer control or (optional) PLC control ◆ Comprehensive safety protection with fault indication; maintenance and servicing require no specialized personnel
◆ Blow-Back Oil Recovery Function (Optional)
◆ Oil return temperature display (optional)
◆ Automatic air venting upon power-up
◆ Heating Power Switching Function
◆Instant Cooling Shutdown Function (Optional)
◆ RS485 communication function for automated management (optional)
◆Hot Oil BY-PASS Pressure-Relief Circuit
◆ Multi-point temperature control units are available for custom order.
◆ Oil pump horsepower and heating power can be customized.
◆Electrical components from SIEMENS, Weidmuller, LS, JUMO, ABB, and WEST (optional).
◆ Temperature control range: Inlet water temperature +45℃ to -180℃
◆Control Method: Employs an imported microcomputer or (optional) PLC control.
◆ Comprehensive safety protection, fault display, and no need for professional personnel for repair and maintenance.Project Unit KT-600 KT-900 KT-1200 KT-1800 KT-2400 KT-3600 Temperature control range degrees Celsius Inlet water temperature: +45℃ to -180℃ Temperature control accuracy degrees Celsius PID ±1℃ Power supply AC 3-phase 380 V 50 Hz (3-phase + Earth); AC 3-phase 440 V 60 Hz; AC 3-phase 460 V 60 Hz Heat transfer medium Heat transfer oil Cooling method Indirect cooling Heating capacity Keyword 6 9 12 9+9 12+12 18+18 Pump horsepower hp 0.5 1 1 2 2 3 Pump flow L/min 42 56 56 110(200) 110(200) 140(300) Pump pressure kg/cm² 1.5 2 2 3(2) 3(2) 4(2) Maximum Power Consumption Keyword 6.5 10 13 20 26 39 Alarm Function Phase loss / Oil shortage / Overload / Oil overflow / Abnormal heating alarm Cooling water piping inch 1/2 1/2 1/2 1/2 1/2 1/2 Circulating Oil Piping inch 3/8 × 2 3/8 × 4 3/8 × 4 3/8 × 4 3/8 × 6 3/8 × 8 Overall Reference Dimensions mm 840×320×660 840×320×660 840×320×660 940×340×860 940×340×860 940×340×860 The above specifications are subject to change without prior notice; custom designs and modifications can be provided for special requirements.
Product Details
◆ Blow-Back Oil Recovery Function (Optional)
◆ Oil return temperature display (optional)
◆ Automatic air venting upon power-up
◆ Heating Power Switching Function
◆Instant Cooling Shutdown Function (Optional)
◆ RS485 communication function for automated management (optional)
◆Hot Oil BY-PASS Pressure-Relief Circuit
◆ Multi-point temperature control units are available for custom order.
◆ Oil pump horsepower and heating power can be customized.
◆Electrical components from SIEMENS, Weidmuller, LS, JUMO, ABB, and WEST (optional).
◆ Temperature control range: Inlet water temperature +45℃ to -180℃
◆Control Method: Employs an imported microcomputer or (optional) PLC control.
◆ Comprehensive safety protection, fault display, and no need for professional personnel for repair and maintenance.
| Project | Unit | KT-600 | KT-900 | KT-1200 | KT-1800 | KT-2400 | KT-3600 |
| Temperature control range | degrees Celsius | Inlet water temperature: +45℃ to -180℃ | |||||
| Temperature control accuracy | degrees Celsius | PID ±1℃ | |||||
| Power supply | AC 3-phase 380 V 50 Hz (3-phase + Earth); AC 3-phase 440 V 60 Hz; AC 3-phase 460 V 60 Hz | ||||||
| Heat transfer medium | Heat transfer oil | ||||||
| Cooling method | Indirect cooling | ||||||
| Heating capacity | Keyword | 6 | 9 | 12 | 9+9 | 12+12 | 18+18 |
| Pump horsepower | hp | 0.5 | 1 | 1 | 2 | 2 | 3 |
| Pump flow | L/min | 42 | 56 | 56 | 110(200) | 110(200) | 140(300) |
| Pump pressure | kg/cm² | 1.5 | 2 | 2 | 3(2) | 3(2) | 4(2) |
| Maximum Power Consumption | Keyword | 6.5 | 10 | 13 | 20 | 26 | 39 |
| Alarm Function | Phase loss / Oil shortage / Overload / Oil overflow / Abnormal heating alarm | ||||||
| Cooling water piping | inch | 1/2 | 1/2 | 1/2 | 1/2 | 1/2 | 1/2 |
| Circulating Oil Piping | inch | 3/8 × 2 | 3/8 × 4 | 3/8 × 4 | 3/8 × 4 | 3/8 × 6 | 3/8 × 8 |
| Overall Reference Dimensions | mm | 840×320×660 | 840×320×660 | 840×320×660 | 940×340×860 | 940×340×860 | 940×340×860 |
| The above specifications are subject to change without prior notice; custom designs and modifications can be provided for special requirements. | |||||||
- Strong safety performance: Provide multiple anti-theft designs to ensure the safety of home and property.
- High durability: Made of high-quality materials, corrosion-resistant and wear-resistant, with a long service life.
- Appearance diversity: Rich design styles, perfect match with various decorations.
- Easy operation: Intelligent design, no key required, simple and efficient to use.
- Multifunctionality: With alarm prompts and networking functions, it meets the needs of multiple scenarios.
- Easy installation: Compatible with a variety of door types, quick installation, and strong adaptability.
Certificate
FAQ
Q
What are the common reasons for the mold temperature controller alarming and shutting down?
A
Common reasons include high-temperature protection, low liquid level alarm, overload protection, heating element failure, or pump malfunction.
Q
Why is the cooling performance of the chiller poor?
A
Possible causes include insufficient refrigerant, blocked condenser, compressor failure, or pipeline leakage. Inspections and repairs are needed.
Q
What is the working principle of a mold temperature controller (MTC)?
A
The MTC heats or cools the medium (such as water or thermal oil) to a set temperature and then circulates it through the mold or equipment via a pump to achieve precise temperature control.
Q
Why is the mold temperature controller heating up slowly?
A
Possible reasons include insufficient heating power, pump failure, pipeline blockage, or insufficient medium. These should be checked and resolved step by step.
Q
What is the difference between a mold temperature controller and a chiller?
A
The MTC is used for heating and maintaining the temperature of equipment or molds, while the chiller is mainly used for quickly cooling equipment or molds to lower the temperature.
FOCUS ON TEMPERATURE CONTROL TECHNOLOGY
Contact
Fax: 86-750-3609612
Add: No. 38, Yecheng Industrial Zone, Kautou Star Village, Jianghai District, Jiangmen, Guangdong, China
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