Overview
The HONGKE ZHP-250 (Full Temperature) thermostatic shaking incubator is a 250L laboratory device widely used in biochemical research fields with high requirements for temperature and Oscillation Frequency. It adopts microcomputer control, integrates thermostatic foster and oscillation functions, and is suitable for a variety of experimental scenarios such as bacterial foster, fermentation, hybridization, etc.
Features
1. Microcomputer Temperature and Frequency Controller with Timing Function.
2. The four corners of the inner tank of the box are semi-circular arcs, made of stainless steel, which is easy to clean.
3. High and low temperature protection temperatures can be set at will.
4. Independent Shaker Control system.
5. The acceleration control circuit ensures that the Shaker starts and stops smoothly.
Principle
The device precisely sets and maintains the target temperature and Oscillation Frequency in the box through a microcomputer controller. The independent Shaker Control system drives the tray to oscillate back and forth, and its acceleration control circuit ensures smooth operation. The stainless steel liner and the heating/cooling system work together to provide a uniform and stable foster environment for the sample.
Applications
Bacterial fostering, fermentation, hybridization, biochemical reactions, enzymes and tissue studies
Steps
Connect the 220V 50Hz power supply.
2. Place the sample on the tray and fix it.
3. Set the required temperature (range 5~ 50 ℃), Oscillation Frequency (start~ 300rpm) and timing time (1~ 9999 minutes) through the microcomputer controller.
4. Start the device, and the Shaker will accelerate smoothly to the set Frequency.
5. After the experiment, the device can be stopped or turned off manually according to the setting.
Notice
• Ambient Temperature of the equipment is recommended to be between 10 and 30 degrees Celsius.
• Please ensure that the load does not exceed 5kg before operation.
Please pay attention to the maintenance of stainless steel liner when cleaning.
• High and low temperature protection values can be set according to experimental needs to enhance safety.
Equipment can work continuously, but it is necessary to pay attention to the operating status.
