Capacity 1000L Pharmaceutical Glass Washer With Double Doors
Two-axis spray arm rotation and rack design that provides parallel water feed to each layer, ensuring consistency.
Two water connection points
Operator interaction is streamlined through the touch screen and emergency stop.
Accuracy in cleaning is achieved through controlled chemical addition and the performance-matched operation of a European circulating pump and flow meter.
PLC and touch screen interface
A substantial capacity for programs, all of which can be custom-labeled.
Component self-checking
Password protected control panel
Power-off memory
Emergency stop and leak monitoring.
The lift door mechanism is designed to prevent accidents with its automatic stop function.
A secure door interlock is active during the wash cycle.
The electrical design employs separate, lockable enclosures for different power systems.
A broad alarm function alerts users to issues ranging from overheating to supply shortages.
Hierarchical user permissions.
A massive volume of process and alarm history locally.
Data can be output via USB in PDF or through a connected printer.
Cleaning records capture all relevant details, and the system’s automatic recording of every action and setting change creates a flawless audit trail for compliance.
| Model | HG-1000D |
| Exterior Dimension(W*D*H,mm) | 2000*1190*2250 |
| Capacity(L) | 1000 |
| Control System | PLC/S-i-e-m-e-n-s or equivalent |
| Display | 12" touch screen |
| Door Structure | Double doors |
| Door Opening Method | Electric |
| Circulating pump flowA(L/min) | 1000 |
| Circulating pump flowB(L/min) | 1000 |
| Tank Internal Temperature(C) | Rt-93 |
| Water Heater Power(kW) | 18 |
| Drying temperature(C) | Rt-120 |
| Dry Power(kW) | 11.25 |
| Voltage(V/Hz) | 380/50 |
The sophistication of the modern lab washer rests on several key technologies. Microprocessor controls have replaced mechanical timers, enabling complex, multi-stage programming with precise parameter management. Integration with DI/RO water systems is now standard, guaranteeing the purity of final rinses critical to sensitive analyses. A landmark advancement is the use of HEPA filtration during the drying phase, actively removing airborne particles to prevent recontamination. These technologies work in concert to deliver a level of cleaning efficacy and reproducibility once thought impossible. This technological convergence transforms the washer from a utility appliance into a critical piece of process equipment that directly supports the generation of high-quality, reliable scientific data.
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