Publish Time: 2021-08-06 Origin: Site
SiAN (Fuhua) offers a wide range of valves, including industrial gas valves and medical gas valves. SiAN is committed to fluid control to create a safe and livable environment for mankind. Since 1992, we have been cooperating with domestic and foreign well-known oil and gas companies, gas cylinder companies. SiAN valves are professional safety valves that can make the pressure safety superb! SiAN gas cylinder valves do a great job in safety control! With the SiAN 870 CGA valve for medical use, our customers are able to safely use oxygen for medical purposes. Product features: 1. Brass 870 CGA valve for medical use. 2. SiAN brand oxygen valve from Ningbo Fuhua Valve Factory. 3. Copper alloy CGA 870-2A3 O2 cylinder valve.
This passage is going to talk about the followings of CGA valve for medical uses:
1) What are CGA valve for medical uses?
2) Check Application Requirements
3) Adjustment for proper control - electronic and mechanical interface
Medical device design engineers have found that proportional control technology is ideal where precise performance is required in variable pressure or flow applications. Often considered more complex than on/off solenoid valves, proportional valves offer a reliable, cost-effective and compact solution for fast response and consistent control.
Some typical applications for proportional valves in the medical field include
Anesthesia and ventilator gas mixing
Ventilator patient "delivery" valves
Leak testing - medical components and packaging
Positive end-expiratory pressure (PEEP) control
Oxygen concentrators
Patient Simulators
Shockwave therapy
Surgical instruments and patient monitoring
Clinical diagnostic equipment
When selecting a proportional valve, the medical device design engineer needs to consider both the medium and the variable to be controlled. Gases (air, oxygen, CO2 or other gases) are often the media and proportional valves can control many variables, including force, position, temperature or level. However, in this article, we will focus on the two main variables of pressure and flow.
After the design engineer determines the variables to be controlled, the next step is to determine the other application criteria for the valve, such as
The medium, which will affect the required valve construction or material
Inlet pressure and maximum controlled output pressure
Required flow range
Medium and ambient temperature
Other environmental factors, such as location (hospital, clinical or portable) and any weight or space constraints
Power consumption, especially for portable/mobile applications
Special requirements related to medical devices to comply with FDA or other regulatory agencies
As mentioned earlier, a proportional control valve will adjust its opening in response to a variable current input. However, for this function to work in a system, feedback and control are necessary. The control is used to set the parameter (flow, pressure or other variable) and the feedback is used to measure the progress towards that goal. The set value is then compared to the result using electronics and the command signal is changed to achieve the desired set value.
In the case of proportional pressure control, a typical "system" consists of two valves, a pressure sensor, and an electronic controller. The electronic controller acts as the brain of the unit, allowing the user to provide set values and compare/control the results so that the valves act in a way that quickly achieves the desired results. A transducer is used to provide the controller with the required information. The valve of course forms the working part of the system and alternately increases or decreases the pressure at the target position by allowing the introduction or removal of air (or other gases). Depending on the system dynamics, the valve can be actuated constantly or reach a steady state. Changing demands will keep the system active and the controller can overcome the pressure variations input to the valve.