46L 100℃ Linear Shaking Water Bath Lab Equipment Recirculating Water Bath
46L 100℃ Linear Shaking Water Bath RWS-12
Premium Corrosion-Resistant Construction Focus
- Superior 316L stainless steel chamber for maximum chemical resistance.
- Durable powder-coated mild steel exterior housing.
- All internal components (lid, platforms, clamps) made from 316L stainless steel.
- Innovative sloped lid design minimizes heat loss and evaporation.
- Convenient side drainage valve for easy cleaning and sterilization.
- Precise P.I.D. controller with clear LCD interface.
- Memory function stores frequently used operational parameters.
- Dual over-temperature protection with automatic heating cut-off.
- Critical dry heating prevention safety feature.
- Power failure recovery system auto-restarts with saved parameters.
- Extensive 999.59-hour programmable timer.
- Flexible platform configurations with optional accessories.
| Control | P.I.D. |
| Display | LCD (Real-time display of set and working parameters) |
| Convection Mode | Forced Convection |
| Shaking Mode | Linear(Reciprocating) |
| Drive | Single-shaft drive |
| Speed Range(rpm) | 20-200 |
| Speed Accuracy | ±1rpm |
| Orbit | Φ25mm |
| *Max. Capacity(flask) | 24x250ml,15x500ml,or,8x1000ml |
| Flask Platform Size(mm) | 590x390x10(Standard) |
| Spring Platform Size(mm) | 590x390x70(Optional) |
| Timing Range | 0-999.59 hr |
| Environment Temp. | 15℃-35℃ |
| Temp. Resolution | ±0.1 |
| Temp. Control Range | RT~100℃ |
| Temp. Control Accuracy | ±0.1℃(constant temperature status) |
| Temp. Uniformity | ±0.2℃ |
| Platform Qty. | 1 |
| N.W./G.W. (Kg) | 68/120 |
| Chamber Dimensions(DxWxH,mm) | 700x455x260 |
| Capacity(L) | 82 |
| Overall Dimensions(DxWxH,mm) | 945x495x408 |
| Packing Size(LxW,H,cm) | 99x63x50 |
| Power(W) | 2200 |
| Power Supply | AC 200-240V/50-60Hz. Optional: AC110V/60Hz |
The laboratory water bath has evolved from simple heated pans to sophisticated digital instruments. Early versions were essentially metal containers over Bunsen burners, offering poor control. The incorporation of thermostats in the mid-20th century revolutionized reproducibility.
The later addition of circulation pumps, shaking platforms, and microprocessor-based PID controllers transformed it into a high-precision tool. This evolution mirrors the broader trend in laboratory science towards greater automation, precision, and reliability, enabling the sensitive techniques that define modern molecular biology and analytical chemistry.
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