Benchtop Linear Shaker DBS-603
Main Features
- Sophisticated P.I.D. controller with enhanced temperature stability
- Backlit LCD display enables clear viewing in various lighting
conditions
- Durable ABS/SUS304 construction ensures long-term reliability
- Advanced single-shaft 5-dimensions orbital technology
- Comprehensive 8-segment adjustable programming for complex
protocols
- Extended timing capability up to 999.59 hours for long-term
experiments
- Automatic power-off recovery and parameter memory systems
- Independent overspeed monitoring with acoustic and visual alarms
- Automatic speed memory for optimized acceleration profiles
- Complete electrical protection without disrupting other equipment
- Gentle soft start prevents reagent splashing and damage
- Dual protection against motor overheating and temperature failures
Technical Data
| Control | P.I.D. |
|---|
| Display | LCD |
|---|
| Program Control | 8-segment programming (user programmable) |
|---|
| Safety Protection | Automatic stop and start, timing, time display, power-off recovery,
parameter memory |
|---|
| Convection Mode | Natural Convection |
|---|
| Shaking Mode | Linear |
|---|
| Drive | Single-shaft Drive |
|---|
| Speed Range(rpm) | 30-300 |
|---|
| Speed Accuracy | ±1rpm |
|---|
| Orbit | Φ25mm |
|---|
| Timing Range | 0-999.59 hr/Continuous |
|---|
| Standard Configuration | 1000mlx12, 500mlx15, 250mlx20, or roller |
|---|
| Platform Size(mm) | 500x400mm |
|---|
| Platform Qty. | 1 PC |
|---|
| Net Weight | 40Kg |
|---|
| Overall Dimensions | 550x480x280(DxWxH,mm) |
|---|
| Packing Size | 60x53x38(LxWxH,cm) |
|---|
| Power | 60W |
|---|
| Power Supply | AC 200-240V/50-60Hz. Optional: AC110V/60Hz |
|---|
| Construction | ABS engineering plastic |
|---|
Introduction about laboratory shaker
A laboratory shaker is a fundamental instrument for sample
agitation, available in both benchtop and floor-standing designs.
Its purpose is to mix, aerate, or suspend the contents of
laboratory vessels through controlled mechanical movement. This
movement, often orbital, ensures the creation of homogeneous
solutions and uniform environmental conditions for samples, which
is vital for obtaining credible data in applications from cell
culture to analytical chemistry.
The principle of operation is based on imparting reproducible
motion. This automates a critical step that is prone to
inconsistency when performed manually. Common configurations
include open-air orbital shakers, enclosed incubator shakers for
temperature control, and large-capacity floor shakers for
high-throughput needs. Digital control systems now offer
high-precision management of operational parameters, allowing users
to set exact speeds and times, thereby enhancing protocol
standardization.
Shakers are employed in a variety of essential lab tasks. They are
used for culturing suspension-adapted insect cells for viral
production. They facilitate liquid-liquid extractions in organic
synthesis. In clinical diagnostics, they ensure thorough mixing of
samples and reagents in automated analyzer racks. Notable design
attributes include a low-vibration drive system for quiet
operation, a platform material compatible with disinfectants, and
safety certifications for use in potentially explosive atmospheres
(ATEX) where required.
