The production of a hyperbaric chamber – how machines for oxygen therapy are created?
Hyperbaric chambers, well-known and utilized in global medicine for years, are now gaining renewed attention due to the increasing interest in oxygen therapy. The remarkable and unique capabilities of this technology are being recognized, largely attributed to the chamber’s versatile applications.
Hyperbaric chambers are used not only for the treatment of diseases but also for general prevention. However, it is important to remember that machines for oxygen therapy require special attention to detail in the design and production stages – the use of appropriate devices to manufacture their components is exceptionally important.
A typical hyperbaric chamber usually has a horizontal layout, prioritizing the patient’s comfort while lying inside the device. In recent times, these chambers have expanded in size, enabling even a child to easily sit inside. Manufacturers are increasingly emphasizing that it’s not just a therapeutic space, but also a relaxing one. As a result, the chambers largely resemble the space capsules depicted in movies. One notable design element contributing to this effect is the characteristic window, allowing those inside to alleviate any feelings of claustrophobia.
The production of hyperbaric chambers has to take into account very strict and rigorous guidelines concerning leakage. This applies to both the assembly of individual components forming the compact enclosure and the finer components, where optimal airflow is crucial for their operation.
The process of oxygen administration itself takes place under full control of the computer system. Advanced software continuously and in real-time verifies the current level of specific functions, adjusting optimal amounts according to the user’s needs.
Modern Hyperbaric Chambers and Their Construction
Although the image of the hyperbaric chamber resembling a capsule is prevalent in the public discourse, we can now freely speak about the entire field of hyperbaric medicine. It encompasses a much broader range of services. In this context, the chambers are almost like oxygen hubs with an innovative design. They feature multiple distinct levels.
Through this approach, we can distinguish the internal, sealing chamber- and the external parts. All levels are interconnected through a specialized system of safety valves. It is also necessary to have an advanced set of instruments ensuring fully controlled pressure regulation. A crucial features of these new chambers are the sealing and locking systems and the additional interlocking double-layer windows. In this regard, the use of high-quality high-frequency welders during the production phase proves to be particularly important.
Hyperbaric systems operate thanks to the use of specialized materials tailored to specific operating conditions.
Machines for manufacturing hyperbaric chambers.
What equipment is used to create hyperbaric chambers? The key issue here is the durability of both the base material and the welds and joints created. Hence the importance of high-frequency welding machines in the manufacturing process.
The production of a hyperbaric chamber must, of course, take into account the complexity of its design. Undoubtedly, one of the priority features is the emphasis on tightness and perfect alignment of individual elements. One example that fits into these requirements is the high-frequency welding machine, Simpla. It was designed for the manufacture of small and medium-sized products of varying forms and specifications. By using linear electrodes up to 1200 mm in length, it provides a sufficient range of possibilities through the use of additional components such as multilayer, curved, and impulse electrodes. As a result, the Simpla welding machine ensures efficient joining of PE, PP materials, three-dimensional designs, and shape products.
An important functional feature is the perfect attention to weld control. They need to be strong and durable, yet flexible. This is made possible by the software and electronic systems controlling the PLC unit. Its integration with a touchscreen allows the operator easy and intuitive access to all crucial functionalities of the device.
The use of hyperbaric chambers has gained popularity due to widespread interest in oxygen therapy. It involves breathing oxygen at an increased concentration, which is typically done at a pressure higher than standard atmospheric pressure.
This whole process translates into significantly improved oxygenation and more effective oxygen distribution. Consequently, it allows for a much faster recovery process. In practice, hyperbaric chambers are perceived as a far safer alternative to typical oxygen cylinders. As a result, these devices are purchased not only by medical facilities. Hyperbaric chambers are also chosen by private individuals struggling with heart conditions, asthma, cancer, or post-COVID-19 complications.
