Overview
HSIN9900 automatic thermocouple thermal resistance group control calibration system is an automatic control and testing system composed of a computer, printer, high-precision digital multimeter, multi-channel scanning controller, thermocouple verification furnace, constant temperature bath, etc. This device is used for the automatic verification of various industrial thermocouples and thermal resistors. It can control 1 to 4 verification furnaces and 1 to 2 constant temperature baths respectively. The verification device is designed with fully automated software and hardware operation. Except for bundling, loading into the furnace (bath), wiring, and parameter setting, all other tasks (such as line checking, temperature control, verification, data saving, etc.) are automatically completed by the system. This greatly improves work efficiency and is very suitable for large and medium-sized enterprises with a large demand for thermocouple verification.
Feature
- Measurement accuracy:①Six and a half digit high-precision digital meter, accuracy 0.003%, resolution 0.1μV, 0.1mΩ
② Seven and a half digit meter, accuracy 0.002%, resolution 0.01μV, 0.01mΩ
- Multi-channel scanning control device: Imported ultra-low potential gold contact electronic measurement relay is selected, with parasitic potential ≤ 0.4μV
- HSIN9000-2 type 24 channels: 11 channels of thermocouples, 13 channels of thermal resistors
- HSIN9000-2A type 48 channels: 22 channels of thermocouples, 26 channels of thermal resistors
- HSIN9000-2B type 70 channels: 44 channels of thermocouples, 26 channels of thermal resistors
- Intelligent temperature control system: Imported high-precision temperature controller is adopted, with a large LCD display, quasi-five-digit display, and dual-row data display. The temperature control instrument has self-tuning function, which can automatically tune through the self-tuning program, allowing customers to easily tune the PID parameters of the calibration points of each calibration furnace. Once tuned, the parameters remain valid for a long time without significant environmental changes.
- Calibration types: Thermocouples: S, R, B, K, N, E, J, T
- Thermal resistors: Pt1000, Pt100, Pt10, Cu100, Cu50, BA1, BA2, G; Two-wire, three-wire, and four-wire systems can all be calibrated.
- Expansion thermometers: Glass liquid thermometers, bimetallic thermometers, pressure thermometers
- The multi-channel scanning device is 48/70 channels and can be dynamically expanded as needed.
- Industrialized structure with strong anti-interference ability.
- Excellent switch performance, with a large-area gold-plated substrate, parasitic thermoelectric potential ≤ 0.4μV.
- Small and consistent contact resistance of the switch.
- Special low-potential terminal blocks.
- Compatibility with thermocouple and thermal resistor connections. The four-wire resistance measurement method completely eliminates the resistance of external connecting wires.
- The industry’s first integrated temperature control system, automatically adjusting the power of the calibration furnace, ensuring long-term stability of the calibration furnace.
- The temperature control system comes with an actuator. It uses a high-power solid-state relay (SSR) with photoelectric isolation function to control the thermocouple calibration furnace (or constant temperature oil bath, water bath), ensuring high reliability in operation.
- The temperature control system has PID automatic control and adjustment parameters, providing necessary basic conditions for precise temperature control.
- The temperature control system has complete power supply circuit protection measures. It is highly reliable and safe, with automatic high-temperature alarm and self-handling functions.
- Achieves true simultaneous calibration of thermal resistors and thermocouples, significantly improving work efficiency.
- High degree of automation, capable of automatically completing all tasks during the calibration process, including data processing, data storage, statistics, and printing of calibration certificates.
- Can perform automatic calibration through a computer or choose manual operation of each independent intelligent device for semi-automatic calibration.
- Can perform temperature field testing on calibration furnaces, oil baths, and water baths.
- Can be expanded to group control, simultaneously controlling multiple calibration furnaces and oil baths, water baths.
- The system software is programmed in .NET on the Windows platform, with a fully Chinese operation interface, convenient and fast.
System
| No. | Model | Technical Specification | Quantity |
| 1 | HSIN9000-1 System cabinet | / | 1 |
| 2 | HSIN9000-2 Multi channel scanning device (including temperature controller) | 48/70 channels / parasitic potential ≤ 0.4 μV | 1 |
| 3 | HSIN9000-3 Thermocouple terminal block | For test line and tested connection | 1 |
| 4 | HSIN9000-4 Thermal resistance terminal block | For test line and tested connection | 1 |
| 5 | HSIN9000-5 Data acquisition and data processing | Data acquisition and data processing | 1 |
| 6 | K2010/DMM6500 Digital multimeter |
K2010: seven and a half/DMM6500: six and a half | 1 |
| 8 | HSIN9004 Thermocouple calibration furnace (with temperature controller) |
Furnace length:600mm,Temperature range : (300~1200)℃/ Furnace length: 300mm,Temperature range: (300~1200)℃ |
1 |
| 9 | HSIN9001 Standard thermostatic oil bath | Temperature range: (90~300)℃ | 1 |
| 10 | HSIN9002 Standard thermostatic water bath | Temperature range: (-10~105)℃ | 1 |
| 11 | Standard thermocouple S type | Second class / First class | 2 |
| 12 | Standard platinum resistance(PT25) | Second class / First class | 2 |
| 13 | Computer, printer | Lenovo Desktop computer, HP Printer | 1 |
| 14 | HSIN9005 Zero thermostat bath | It is necessary for low-cost metal galvanic | 1 |
| 15 | Heat block for high temperature furnace | High temperature verification is used with verification furnace (long furnace) | 1 |
| 16 | DFTP-1 Water three-phase point bottle | Check the RTP value of second-class standard platinum resistance | 1 |
| 17 | HSIN9000-7 Water three-phase point freezing storage device |
Frozen storage water three-phase point bottle | 1 |
| 18 | Temperature accessories | Compensation wire, multi-channel serial port card, 1 cold end compensation resistor, test line, power line, serial port line, etc | 1 |
Note: The above configuration is recommended, and the specific configuration can be adjusted according to the actual situation.
Regulation
| No. | Name of Regulation(Specification) |
| 01 | <JJF1098-2003 Calibration specification for automatic measurement systems of thermocouples and thermal resistors> |
| 02 | <JJG75-2022 Standard platinum rhodium 10-platinum thermocouple verification regulation> |
| 03 | <JJG668-1997 Verification regulation of platinum rhodium 10-platinum 13-platinum short type thermocouples for industrial use> |
| 04 | <JJG160-2007standard platinum resistance thermometer> |
| 05 | <JJF1184-2024 Technical specification for temperature field test of thermocouple verification furnace> |
| 06 | <JJF1030-2023 Thermostatic bath technical performance test specification for temperature calibration> |
| 07 | <JJG141-2013 Verification regulation of precious metal thermocouples for industrial use> |
| 08 | <JJG229-2010 Verification regulation of industrial platinum and copper thermal resistance> |
| 09 | <JJF1637-2017 Clean metal thermocouple calibration specification> |
| 10 | <JJG978-2017 Verification Code for high precision glass mercury thermometers for petroleum use> |
| 11 | <JJG130-2011 Verification rules for glass liquid thermometers for work purposes> |
| 12 | <JJF1909-2021 Calibration specification for pressure thermometers> |
| 13 | <JJF1908-2021 Bimetallic thermometer calibration specification> |
| 14 | <JJG368-2000 Verification regulation of copper-copper-nickel thermocouples for work purposes> |
| 15 | <JJF1183-2025 Calibration specification for temperature transmitters> |
| 16 | <JJF1262-2010 Armouring thermocouple calibration specification> |
| 17 | <JJF1176-2024 (0 ~ 2300)℃ tungsten-rhenium thermocouple calibration specification> |
