Anti-vibration Balance Bench
Professional anti-vibration balance bench with 50–80mm natural black granite countertop, all-steel cabinet construction, and three-level shock absorption (18–32 Hz) for stable analytical weighing. Available in single (900×600×800 mm) and double (1...
| vibration_frequency_elimination | 18-32 Hz |
| shock_absorption_system | Three-level shock absorber |
| adjustment_pad_angle | 85 degree shock-absorbing rubber adjustment pad |
| socket_type | Multi-Function Socket Splash |
| socket_rating | 10-A multifunctional, splash-proof |
| countertop_type | Granite Countertop |
The Anti-vibration Balance Bench provides a stable, isolated platform for precision analytical instruments in laboratory environments. Constructed with an all-steel cabinet body featuring 2.0 mm cold-rolled steel plates with epoxy powder coating, the bench delivers exceptional structural rigidity and chemical resistance. The natural black granite countertop—50–80 mm thick—is mounted on adjustable anti-vibration pads to mechanically isolate sensitive instruments from floor-transmitted vibrations and environmental disturbances.
Available in single (900×600×800 mm) or double (1200×600×800 mm) configurations, the modular design allows for disassembly and reassembly with compact packaging for simplified installation in constrained laboratory spaces. The granite surface achieves a flatness tolerance of ≤0.05 mm per 1000 mm and supports a rated load of ≥200 kg. Each unit features adjustable leveling feet and anti-vibration rubber pads for fine-tuning stability on uneven floors. An integrated 10 A multifunctional splash-proof socket provides instrument power at the work surface.
How It Works
The anti-vibration bench operates through mechanical isolation principles to decouple sensitive instruments from environmental vibrations. The three-level shock absorption system combines passive damping elements to attenuate frequencies in the 18-32 Hz range, which encompasses typical building vibrations from HVAC systems, foot traffic, and nearby equipment. The granite countertop provides thermal stability and high mass-to-surface ratio for additional vibration dampening.
Acoustic decoupling between the granite surface and steel frame prevents direct transmission of structural vibrations to the weighing area. The 85-degree shock-absorbing rubber adjustment pads at each support point provide mechanical isolation from floor-transmitted vibrations while allowing for leveling adjustments. Anti-vibration adjustment screws enable fine-tuning of the isolation system to optimize performance for specific instrument requirements and laboratory conditions.
Features & Benefits
Model
- Single table
- Double table
vibration_frequency_elimination
- 18-32 Hz
shock_absorption_system
- Three-level shock absorber
adjustment_pad_angle
- 85 degree shock-absorbing rubber adjustment pad
socket_type
- Multi-Function Socket Splash
socket_rating
- 10-A multifunctional, splash-proof
countertop_type
- Granite Countertop
frame_construction
- All-steel cabinet structure
isolation_features
- Acoustically decoupled from main frame
anti_vibration_adjustment
- Anti-vibration adjustment screw
Material
- Galvanized steel plate
- Granite
- Solid core physical and chemical board
- Steel
Color
- Black
Power/Voltage
- 10-A
Research Domain
- Analytical Chemistry
- Clinical Diagnostics
- Environmental Monitoring
- Food Science
- Materials Science
- Pharmaceutical QC
Weight
- 440.92 lbs
Dimensions
- L: 35.43 in
- W: 31.5 in
- H: 23.62 in
Comparison Guide
| Feature | This Product | Typical Alternative | Advantage |
|---|---|---|---|
| Vibration Isolation Frequency Range | 18-32 Hz elimination with three-level shock absorption | Basic models often provide single-stage isolation with limited frequency coverage | Covers the critical frequency range of building HVAC and foot traffic vibrations that most affect analytical weighing. |
| Countertop Material | Granite with acoustic decoupling from frame | Steel or composite surfaces with direct frame attachment | Granite provides superior thermal stability and additional mass dampening for improved measurement precision. |
| Frame Construction | 1.0mm beryllium zinc cold-rolled steel with epoxy coating | Standard steel construction with basic paint finish | Enhanced corrosion resistance and chemical compatibility for laboratory environments with acid vapors. |
| Adjustment System | 85-degree rubber pads with anti-vibration adjustment screws | Basic leveling feet with limited isolation properties | Enables precise leveling while maintaining mechanical isolation from floor vibrations. |
| Electrical Integration | 10A multifunctional splash-proof socket | No integrated power or basic outlets without laboratory protection | Provides instrument power while protecting against chemical spills common in analytical laboratories. |
| Installation Flexibility | Complete modular disassembly capability | Fixed assembly requiring wide access for installation | Enables installation in constrained laboratory spaces with narrow corridors or limited elevator access. |
This anti-vibration balance bench combines three-level mechanical shock absorption with granite surface thermal stability and chemical-resistant steel construction. The integrated electrical service and modular design address practical installation and operational requirements specific to analytical laboratory environments.
Practical Tips
Position the bench away from high-traffic areas and HVAC vents to minimize external vibration sources.
Why: Reduces environmental disturbances that can affect weighing precision even with isolation systems.
Allow 30 minutes thermal equilibration after installing instruments on the granite surface before performing calibrations.
Why: Granite thermal mass requires time to stabilize, which affects analytical balance zero stability.
Check adjustment pad condition and re-level the bench quarterly or after any laboratory renovations.
Why: Building settling and floor changes can affect isolation performance over time.
Verify electrical grounding of the integrated socket before connecting analytical instruments.
Why: Proper grounding prevents electrostatic interference that can affect sensitive weighing measurements.
If balance readings show excessive drift, verify all anti-vibration adjustment screws are properly tightened.
Why: Loose isolation hardware can create mechanical instability that manifests as measurement drift.
Document bench leveling settings and adjustment pad positions for reproducible isolation performance.
Why: Enables consistent measurement conditions when relocating or servicing the bench setup.
Clean granite surface with laboratory-appropriate cleaners to maintain chemical resistance properties.
Why: Chemical residues can affect surface properties and potentially contaminate subsequent weighing operations.
Inspect steel frame coating annually for chemical damage and address any corrosion promptly.
Why: Early intervention prevents structural degradation that could compromise isolation performance.
Setup Guide
What’s in the Box
- Steel frame components (typical)
- Granite countertop (typical)
- Three-level shock absorption hardware (typical)
- 85-degree rubber adjustment pads (typical)
- Anti-vibration adjustment screws (typical)
- 10A splash-proof electrical socket (typical)
- Assembly hardware and fasteners (typical)
- Installation manual (typical)
Warranty
ConductScience provides standard one-year manufacturer warranty covering materials and workmanship defects, with technical support for installation and operational guidance.
Compliance
What is the effective frequency range for vibration isolation?
The three-level shock absorption system eliminates vibrations in the 18-32 Hz frequency range, which covers typical building HVAC systems, foot traffic, and nearby laboratory equipment vibrations.
How is the granite countertop isolated from the steel frame?
The granite countertop is acoustically decoupled from the main steel frame structure to prevent direct transmission of structural vibrations to the weighing surface.
Can the bench be adjusted for different laboratory floor conditions?
Yes, the bench includes 85-degree shock-absorbing rubber adjustment pads and anti-vibration adjustment screws for leveling and optimization of isolation performance based on specific installation conditions.
What electrical power is available on the work surface?
The bench includes one integrated 10A multifunctional splash-proof socket designed to power analytical instruments while protecting against laboratory liquid spills.
How does the modular design facilitate installation?
The bench can be completely disassembled for compact packaging, allowing installation in constrained laboratory spaces without requiring wide corridors or stairwell access for large assembled units.
What maintenance is required for the shock absorption system?
Consult product datasheet for specific maintenance requirements. Generally, periodically check adjustment pad condition and verify leveling as laboratory conditions change over time.
Can the bench accommodate different analytical balance sizes?
The bench is available in single or double table configurations to accommodate various instrument footprints and laboratory space requirements.
How does this compare to active vibration isolation systems?
This passive mechanical isolation system requires no power or maintenance of active components, while providing effective dampening in the 18-32 Hz range most relevant to laboratory environments.
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