CO2 laser chiller is an important equipment for cooling CO2 lasers and is widely used in industrial manufacturing, medical cosmetology, scientific research and other fields. This article will introduce the working principle, installation requirements, operation steps, maintenance and troubleshooting of CO2 laser chiller in detail.
Before using the CO2 laser chiller, you must follow the following operation steps:
Before starting the chiller, check that all connections are secure, including the power cord and water pipes.
Ensure that the water level in the chiller is normal to avoid equipment damage caused by lack of water.
Turn on the power switch to start the chiller.
Check the indicator light on the panel to ensure that the equipment is operating normally.
According to the requirements of the laser, adjust the set temperature of the chiller. Generally, the cooling water temperature should be kept between 15°C and 25°C.
Use the temperature adjustment button on the control panel to set the required cooling temperature.
During the operation of the CO2 laser chiller, regularly check parameters such as water temperature, pressure and flow to ensure that the equipment is operating normally.
Pay attention to the noise and vibration of the chiller. If any abnormality occurs, stop the machine for inspection in time.
Connect the cooling water pipe to the water inlet and outlet of the CO2 laser to ensure that the connection is firm to avoid water leakage.
Start the laser, observe the cooling effect of the CO2 laser chiller, and ensure that the laser operates stably.
Regular cleaning: Clean the filter regularly to prevent dust clogging and equipment failure.
Check the water level: Check the water level in the water tank regularly to ensure that the water level is within the normal range.
Check the power supply: Check the power cord and plug regularly for damage to ensure electrical safety.
CO2 laser chiller is an important equipment to ensure the normal operation of CO2 laser. Through correct installation, operation and maintenance, the service life of the equipment can be effectively extended and the efficiency and quality of laser processing can be improved.