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Thermo Scientific MaxQ 8000 Incubator Shaker Dual Stack
Temp. Range
Ambient +10ºC to 60ºC
Speed Range
25 to 400 RPM
- Dual stacked orbital shaker designed for sensitive cultures and "hard shake" applications
- Heavy-duty eccentric drive mechanism for speeds from 25 to 400 RPM with minimal vibration
- Triple counterbalanced design for stable operation with full or unbalanced loads
- Large slide-out platform provides a stable mounting surface and smooth motion
- Horizontal HEPA filter airflow reduces cross-contamination risks in the chamber
- Microprocessor control with icon-based programming and a two-line message center for monitoring
- Audible/visual alarms for over/under temperature tracking for sample protection
- Controlled acceleration minimizes splashing and flask closure wetting
- RS-232 port for data connectivity and monitoring
The Thermo Scientific MaxQ 8000 Incubator Shaker Dual Stack is a dual stacked orbital shaker that provides an ideal solution for both sensitive cultures and traditional "hard shake" applications in incubated environments from Ambient +10°C to 60°C. This incubator shaker features a heavy-duty, eccentric drive mechanism that allows for extended speed ranges from 25 to 400 RPM with minimal vibration, even when shakers are stacked three high. A triple counterbalanced mechanism provides optimum handling of full or unbalanced loads, regardless of flask placement. A slide-out platform is included and features a large mounting surface area and is secured to ensure smooth and stable motion. The MaxQ 8000 also features a horizontal HEPA filter airflow design that ensures that interior air remains clean and reduces the threat of cross-contamination for improved culturing conditions.
The Thermo Scientific MaxQ 8000 Incubator Shaker Dual Stack utilizes a microprocessor control/monitoring system which allows for intuitive icon-based programming and operation. A two-line, 40 character message/information center provides continuous updates of setpoint, actual time, speed, and temperature. Audible/visual over and under temperature tracking alarms ensure product protection. The microprocessor tracks total accumulated time on motor and drive systems, and the memory saves all settings during power outages, restoring operation and settings when power is returned. Controlled acceleration significantly reduces wetting of flask closure and splashing. An RS-232 port is also standard on the MaxQ 8000. Specially designed for facilities seeking high capacity shakers but lacking the space to accommodate larger floor models, these units may be stacked up to three units high for three times the capacity of a single unit in nearly the same footprint. Please Note: Picture depicts refrigerated model however this product is NOT REFRIGERATED.
The Thermo Scientific MaxQ 8000 Incubator Shaker Dual Stack includes:
- > 30" x 18" Platform
- > New HEPA Filter
- > Stacking Kit
- > NIST Calibration and Preventative Maintenance Report
- > Power Cord
- > Operator's Manual
- > Full 180 Day Parts and Labor Warranty
Thermo Scientific MaxQ 8000 Incubator Shaker Dual Stack Specifications
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Speed Range
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25 to 400 RPM
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Speed Control Accuracy
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± 1 RPM
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Temperature Range
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Ambient +10ºC to 60ºC
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Temperature Uniformity
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± 0.3ºC
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Timer
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1 minute to 199 hours and 59 minutes, or continuous
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Orbit Size
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2.5 cm (1 in.)
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Platform Size
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30 x 18 in. (76 x 46 cm)
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Chamber Dimensions (W x H x D)
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33.4 x 11.8 x 23.8 in. (84.8 x 30 x 60.5 cm)
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Overall Dimensions (W x H x D)
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93 x 25 x 33.3 in. (236.2 x 63.5 x 84.6 cm)
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Weight
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1,090 lb. (494.4 kg.)
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Electrical Requirements
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120V, 60Hz, 6.4A, 1Ph
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- Examine the chamber glass for cracks or chips, replacing it as needed to maintain structural integrity.
- Inspect door seals for signs of wear or damage, replacing them to ensure a tight seal.
- Check the display for brightness and clarity, replacing any dim or dead pixels to maintain optimal visibility.
- Test all buttons to confirm full functionality and consistent responsiveness.
- Replace all platform assembly bearings to ensure smooth and reliable motion.
- Inspect the drive belt for wear, replacing it if torn or cracked to maintain performance.
- Examine all wiring for frays, tears, or breakages, addressing any issues for electrical safety.
- Verify each PCB test point, replacing any malfunctioning components to ensure system reliability.
- Check drive belt tension to confirm correct alignment and function.
- Confirm the compressor’s operation, cleaning condenser filter and fins for efficient cooling.
- Calibrate internal temperature accuracy using an NIST-traceable temperature probe.
- Measure and calibrate platform RPMs with an NIST-traceable tachometer to ensure precision.
- Conduct a final cosmetic inspection to verify all surfaces meet appearance standards.
Technician Inspection and Recertification Checklist
The Following Checklist Is to Be Performed on All Incoming and Outgoing Equipment
| Task |
Completed? |
Remarks? |
| Examine chamber glass for cracks or chips, replace as needed | Completed | |
| Inspect door seals for wear, replace to ensure tight seal | Completed | |
| Check display brightness, replace dim or dead pixels | Completed | |
| Test all buttons for full functionality and responsiveness | Completed | |
| Replace platform assembly bearings for reliable motion | Completed | |
| Inspect drive belt for wear, replace if torn or cracked | Completed | |
| Examine wiring for frays or breakages, repair as needed | Completed | |
| Verify PCB test points, replace faulty components | Completed | |
| Check drive belt tension for proper alignment | Completed | |
| Confirm compressor functionality, clean filter and fins | Completed | |
| Calibrate internal temperature with NIST probe | Completed | |
| Calibrate platform RPM with NIST-traceable tachometer | Completed | |
| Conduct cosmetic inspection for appearance standards | Completed | |
To View More of Our Recertification Protocol Click Here
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