Medical oxygen making machine

Types of Medical Oxygen Making Machines

A medical oxygen making machine is designed to produce oxygen for therapeutic purposes. Such machines have different types and models, as outlined below:

• PSA Oxygen Generators:

• membrane oxygen generators

  They utilize selective permeable membranes to separate oxygen from other gases in the air. Compressed air is pumped through the membrane, allowing oxygen to pass through while retaining other gases. The generated oxygen flows through the membrane in a high stream. Membrane generators are compact and portable, making them suitable for small-scale oxygen production.

• Cryogenic Oxygen Plants:

  Cryogenic oxygen plants produce oxygen by using low temperatures. They first filter out impurities like nitrogen and carbon dioxide from the air. Then, they freeze the air until it becomes liquid. At these super low temperatures, the oxygen turns into a gas. Huge machines called distillation columns do the final separating of the oxygen gas. Lastly, the oxygen is warmed up and stored in liquid oxygen tanks. These cryogenic plants are really good at making a lot of medical oxygen quickly and efficiently.

Specification and maintenance of medical oxygen making machines

The following specifications help buyers understand how each medical oxygen machine works in terms of capacity.

• Output flow rate

  The output flow rate indicates the machine's speed and volume of oxygen production. Flow rates can range from 5 to 15 liters per minute. A higher flow rate means more patients can get oxygen therapy at the same time.

• Cylinder size

  The oxygen storage container needs to be large enough to hold the produced oxygen. It should also be easy to transport and connect to the patient's breathing device. Cylinder sizes vary according to usage, with some being portable and others for hospital use.

• Purse strings

  The pressure within the storage tank must be kept at a high level to prevent leakage. The oxygen machine must have a durable body that can withstand high pressure. Materials and design should be manufacturing industry standards to ensure safety and prevent damage from pressure changes.

• Control system

  A user-friendly control unit is needed to easily set the desired oxygen levels and monitor important machine data. This includes displaying messages like when the filter needs to be changed or alerting staff if there are any problems with the device.

• Compression mechanism

  The method used to compress air inside the machine will decide how portable it is and how long it lasts before needing repairs. Different devices use various methods, so some may need more frequent maintenance than others.

Maintenance

Regular maintenance is vital so that the medical oxygen-producing machine can work reliably. A scheduled upkeep routine will be necessary to keep the device in ideal condition. Regular checks can find small issues early before they turn into bigger problems. Calibrating settings and inspecting parts will make sure the machine continues producing oxygen efficiently.

The following maintenance tasks should be done on a consistent schedule:

• Visual inspection

  Conduct a thorough visual examination of the machine's exterior. Check for damage, leaks, or anything unusual. Ensure that all connections are secure. Observe the condition of the tubes and valves. Promptly attend to any areas needing repair or servicing.

• Functional testing

  Regularly measure and monitor the performance of the oxygen generator. Test its functions routinely. Record the flow rates and oxygen purity levels. Compare these readings to the expected values. Assess whether the device is operating normally.

• Calibration

  Calibrate the machine as necessary based on the manufacturer's recommendations. Make adjustments to ensure precise oxygen generation and delivery. Carry out checks periodically to confirm the accurate functioning of sensors and other measuring equipment.

• Filter replacement

  Change the filters on a pre-defined service schedule. This ensures any contaminants are effectively removed from the air supply. Observe the suggested timelines for maintenance based on usage hours. Using clean, purified air helps maintain optimal oxygen production.

Scenarios of medical oxygen making machines

The growing prevalence of respiratory disorders is anticipated to give a strong impetus to the market. According to a study published by the American Lung Association in January 2023, around 36 million people are estimated to be living with chronic obstructive pulmonary disease (COPD) in the United States.

Such patients require continuous oxygen therapy which is convenient and readily available. Home healthcare systems are also seeking portable and cost-effective sources of oxygen for patients so that they won't have to rely on oxygen cylinders that run out or must be refilled frequently. Medical oxygen-making machines can be used in telehealth or remote patient monitoring, which is growing in popularity. Devices like this one can enable healthcare professionals to monitor a patient's health from a distance and provide timely interventions, thus improving the overall standard of healthcare.

Despite being the primary focus of the COVID-19 pandemic, the demand for medical-grade oxygen continues to be strong. Machines that produce medical-grade oxygen can be used in ventilation support for patients with complex medical conditions or those who have suffered from long-term effects of COVID that affect the lungs and respiratory system. Hospitals continue to need sources of medical oxygen to provide ventilators for patients who need support to breathe.

Industries that could benefit from these machines include telemedicine platforms, home healthcare providers, nursing homes, hospitals, urgent care centers, and long-term care facilities. All these places need consistent oxygen to support patients with respiratory issues.

As healthcare places become more aware of the negative impact of relying on oxygen cylinders and the endless costs of refilling them, the demand for medical oxygen-making machines is expected to skyrocket. These machines are more economical and stable sources of oxygen supply for healthcare facilities.

How to choose a medical oxygen making machine

Some factors need to be considered when purchasing an oxygen medical machine.Careful consideration of these factors is vital to ensure a good choice is made.

• Flow rate

  The flow rate measures the amount of oxygen produced per minute. Different models exist, with some producing 20 liters per minute and other models producing more. The demand in the market will determine the ideal flow rate. If the buyer intends to use it in a small facility, a machine that produces 20 liters per minute is ideal. For use in a large institution or medical facility that needs a higher flow rate, it is best to use an oxygen-making machine that produces a higher flow rate than the 20-liter-per-minute mark.

• Purity level

  Since buyers are looking to provide patients with medical-grade oxygen, the machine must have a purity level of 93% and higher. Some machines produce oxygen with a purity level of 90%, which is not ideal for medical use.

• Reliability

  The machine must produce oxygen consistently over long periods. It should have the capacity to produce oxygen continuously without breaking down or requiring frequent maintenance.

• Monitoring systems

  When it comes to choosing an oxygen-making machine, it is best to select a model that has monitoring systems in place. These systems have the capacity to monitor the purity levels and flow rates of the machine. Some monitoring systems come equipped with alerts and alarms that notify users of any critical changes. With a monitoring system, users can ensure the machine produces oxygen at the right purity level.

• Brand Reputation

  The reputation of the brand is imperative when choosing an oxygen-making medical machine. It is imperative to do research on the brand to know its reputation and whether it is known for manufacturing machines that offer optimal performance. Checking the user reviews can help one determine if the brand is ideal for use in medical facilities or at home.

• Cost

  Although cost is an important factor in determining the type of oxygen machine one will purchase, it shouldn't be the only factor. A low-cost machine may offer a low oxygen supply rate, low purity, or even frequent breakdowns. This would not be ideal for the patient's health. It is best to invest in a high-quality machine that meets all requirements.

Q&A

Q1: What is the difference between oxygen concentrators and the medical oxygen making machine?

A1: The function of an oxygen concentrator is to extract oxygen from the surrounding air. While both machines deliver medical-grade oxygen, the methods used are different.

Q2: Is it possible to deliver oxygen in a liquid form with an oxygen-making machine?

A2: Medical oxygen is delivered in gas form. Liquid oxygen is produced by cooling oxygen to very low temperatures and is stored in insulated tanks with a high-strength cryogenic material. Then, it is evaporated into gas and used.

Q3: Who maintains oxygen-generating machines in healthcare facilities?

A3: Trained technicians with experience in maintaining and servicing medical oxygen machines typically perform the maintenance and service tasks. The manufacturer or supplier should perform the training and medical oxygen machines should be serviced regularly to ensure they function optimally and produce high-quality oxygen.

Q4: Can these machines be used in home healthcare applications?

A4: Oxygens machines can be used in-home healthcare applications, such as in the case of a patient requiring long-term oxygen therapy. The machine will have to be portable and convenient for use in a home setting. The concentration levels will also have to be suitable for the patient's needs.