The Tumbling Shakers Polymax are suitable for the Modular Incubator 1000 and are recommended for applications which require variable temperatures. With 3-dimensional tilting movement, suitable for Petri dishes, culture bottles, Erlenmeyer flasks and all standard vessels.
An overtemperature sensor preventatively shuts off the unit in a dangerous heat-up situation, particularly valuable for you in case of continuous operation
Designed with a low center of gravity which prevents gliding at high speed, even on a damp surface
Set and continuously adjust the variable speed on the analog control knob, suitable for all standard vessels
An analog process timer allows for unattended operation.
Specifications
Type of movement:
tumbling
Tumbling angle:
5°
Timer:
1 ... 120 min
Power consumption:
115 W
Permissible ambient temperature:
5 ... 31 °C
Permissible relative moisture:
80 %
Power supply:
100 ... 240 V, 50/60 Hz
Suitable for a medium sample throughput.
Specifications
Speed range:
2 ... 50 rpm
Max. Load:
5 kg
Platform dimensions (W x D):
290 x 258 mm
Overall dimensions (W x D x H):
320 x 375 x 195 mm
Weight:
8 kg
Protection class acc. to DIN EN 60529:
IP 40
Permissible
shaking quantity /
maximum load:
5 kg
Min.
speed:
2 rpm
Max.
speed:
50 rpm
Type
Inclination angle °
PK
Cat. No.
Polymax 1040
5
1
9.839 857
Polymax 1040
10
1
9.839 859
Tumbling Shakers Polymax 1040
The Tumbling Shakers Polymax are suitable for the Modular Incubator 1000 and are recommended for applications which require variable temperatures. With 3-dimensional tilting movement, suitable for Petri dishes, culture bottles, Erlenmeyer flasks and all standard vessels.
An overtemperature sensor preventatively shuts off the unit in a dangerous heat-up situation, particularly valuable for you in case of continuous operation
Designed with a low center of gravity which prevents gliding at high speed, even on a damp surface
Set and continuously adjust the variable speed on the analog control knob, suitable for all standard vessels
An analog process timer allows for unattended operation.