Detail Heating Orbital Shaker
Shaker
Product Applications:
● HT-X330GB new generation circumferential shaker adopts DC brushless motor and microcomputer control technology,
unique knob operation mode is simple and easy to use. By changing different trays, it is able to mix and incubate all kinds of commonly used flasks, petri dishes and beakers. It is suitable for biotechnology, microbiology and medical analysis, coloring or decolorization of colloids and combinatorial chemistry, etc. The heating series integrates oscillation and heating functions to meet the needs of both heating and at the same time completely open experimental samples, gyratory or reciprocal oscillation, mixing and cultivation of samples.
Main features:
● Large screen LCD display of timing time, speed and temperature values with easy-to-understand operating interface;
● Locked operation mode to prevent misoperation;
● DC brushless motor drive, low noise, accurate speed, long service life and maintenance-free;
● A variety of trays, shakers and clamps are available for a wide range of needs;
● Easy accessory replacement, greatly improving working efficiency;
● Soft start, uniform acceleration, effectively avoiding sample splash;
● Optional RS232 interface, which can be connected to computer through RS232 interface, and can realize the setting of instrument
parameters and real-time display of working curve from computer side;
● The highest temperature of heating series can reach over 75℃, which makes up the blank of domestic oscillator that cannot operate at high temperature.
Product Parameters:
Model
HT-X330GB
Item No
1024019001
Shaking mode
Orbital
Heating power
35/185
Amplitude
8MM
Max load
7.5KG
Motor type
DC Brushless motor
Input power
35W
Output power
25W
Speed range
60~400rpm(optional to500)
Speed display
LCD
Timer function
yes
Timer set range
0~99h59min
Power Supply
100~240V,50/60HZ
NW
7KG
Allowable ambient temperature/humidity
5~40℃,80%
Dimension(L*W*H)mm
330*370*130
Shell class
IP21
Data
RS232 optional
Temperature set
RT+5~75℃
Temperature resolution
0.1℃
