Wrist Action® Platform Shaker with Variable Speed, 8-Place
The Wrist Action® Platform Shaker Model 95 is an essential tool designed for precise mixing and agitation in laboratory settings. With a variable speed range of 0 to 450 oscillations per minute, this shaker mimics the natural back-and-forth motion of the human wrist, ensuring thorough mixing of samples.
The innovative adjustable lever allows you to control the intensity of agitation, ranging from a gentle swirl to aggressive mixing. By simply adjusting the angle of movement from 1 degree to 15 degrees, you can enhance the movement distance of the vessels, providing versatile operational capabilities tailored to your specific needs. Note that while the oscillation speed remains constant, the amplitude of movement responds dynamically to your adjustments.
Built-In Timer: Equipped with a built-in timer, the platform shaker offers options for continuous operation or preset timing from 0 minutes to 60 minutes, allowing for greater flexibility in experimental setups.
Key Features:
- Adjustable timer for continuous or timed shaking operations.
- On/Off (I/O) rocker switch serves as an essential overload protection device.
- Lever arm to control agitation amplitude precisely.
- Molded rubber locking tool to prevent lever arm movement during operation.
- Complete operational manual available digitally for easy reference.
Package Includes:
- Top Platform (as per your specifications)
- Platform Clamps (according to your selection)
- Access to the Operating Manual via QR code
- Molded stopper to function as a lever arm brake
- Power cord for easy connection
Specifications:
| SKU |
Max Capacity |
Timer Range |
Hertz |
| B7955019-EACH |
10 lb |
1 - 60 min or Continuous |
60 Hz |
Additional Information:
| SKU |
Material |
Dimensions |
Certification |
Color |
| B7955019-EACH |
Steel/Aluminum |
17.5 in x 17.5 in x 12 in |
Complies with UL/CSA standards |
Blue and White |
Caution: Exercise care when adjusting controls, especially with loads approaching or exceeding 8 lbs, as elevated speeds and adjustable arc angles may yield significant shaking action.
