CORNING 6780-4 Instrukcja obsługi - Strona 3

Przeglądaj online lub pobierz pdf Instrukcja obsługi dla Sprzęt laboratoryjny CORNING 6780-4. CORNING 6780-4 13 stron. Digital microplate and orbital shakers

CORNING 6780-4 Instrukcja obsługi

CORNING
LSE
DIGITAL MICROPLATE AND ORBITAL SHAKERS

1.0. GENERAL DESCRIPTION

1.1. DEFINITION

Corning LSE Digital Microplate and Orbital Shakers are intended for shaking microplates, tubes,
bottles, flasks, dishes and other laboratory vessels. The shakers are driven by asynchronous motors,
which enable silent operation and constant shaking speed independent of the load or power supply
fluctuations.

1.2. PRINCIPLES OF OPERATION

Each shaker device consists of two main components:
- Motor with eccentric mechanism
- Control electronics
The motor drives the shaker's eccentric mechanics and generates shaking effect.
The electronics control the motor RPM, TIME and keyboard functions.

2.0. TECHNICAL FEATURES

2.1. CONSTRUCTION

The shaker housing is made from a high-grade cold rolled steel plate and painted with a highly
resistant polyurethane lacquer.
2.2. GENERAL SPECIFICATIONS: OPERATION RANGE: 4º C TO 65º C, 85% RH
MODEL 6780-4, 6781-4 and 6782-4
POWER SUPPLY
MOTOR POWER
FUSE
RPM REGULATION
SHAKER ORBIT
TIMER
LOAD
DIMENSIONS W x L x H
WEIGHT
MODEL 6780-NP, 6781-NP and 6782-NP
POWER SUPPLY
MOTOR POWER
FUSE
RPM REGULATION
SHAKER ORBIT
TIMER
LOAD
DIMENSIONS W x L x H
WEIGHT
230V  10% - 50Hz, 115V  10% - 50Hz/60Hz
15W
2 x 0.25A, 230V
2 x 1 A, 115V
DIGITAL, load independent, from 100 to 1200
(1400 - 115V version) RPM in 10 RPM steps
3 mm
30 sec – 99 minutes 50 seconds in 10 second steps, under 10
minutes in 1 second steps, timer HOLD function
max. 0.3 kg
170 mm x 275 mm x 130 mm
4.3 kg
230V  10% - 50Hz, 115V  10% - 50Hz/60Hz
15W
2 x 0.25A 230V
2 x 1 A 115V
DIGITAL, load independent, from 50 to 600 RPM in 10 RPM
steps
19 mm
30 sec - 99minutes 50 seconds in 10 second steps, under 10
min. in 1 second steps, timer HOLD function
max. 4 kg
255 mm x 312 mm x 130 mm
7.1 kg
3
USER'S MANUAL