Medical Equipments

Anesthesia machine – AX-900:

• Convenient Flowrate Adjustment: With the 15-inch main screen and the 8-inch flowmeter, the system likely provides intuitive controls for doctors to quickly adjust the flow rate. Whether it's through a touchscreen interface or physical controls, the setup ensures that adjustments are easy to make during anesthesia.

• Accurate Settings: The system’s automatic correction features, including real-time monitoring and flow error correction, ensure that any changes made to the flow rate are implemented accurately. Even if there are external factors like fluid inertia that could cause discrepancies, the AX-900 compensates for those, guaranteeing precise delivery of gases to the patient.

• User-Friendly Interface: The separation of the screens allows doctors to focus on specific tasks—such as monitoring the flow rate and oxygen concentration—without cluttering the main display. This likely reduces the risk of errors when making adjustments.

·  Separate 15-inch main screen and 8-inch electronic flowmeter: This suggests that the AX-900 has a clear, easy-to-use interface for both monitoring and adjusting settings, with a larger display for general control and a smaller screen dedicated to flow measurement.

·  Direct oxygen concentration setting by anesthesia doctors: Anesthesia professionals can manually set the desired oxygen concentration, which is crucial for patient safety and comfort.

·  Automatic adjustment of oxygen and balance gas ratios: Once the oxygen concentration is set, the AX-900 system will automatically regulate the balance of oxygen and other gases to maintain the correct ratio. This reduces the need for manual intervention and ensures precise gas delivery.

·  Real-time correction of oxygen concentration and total flow: This feature indicates that the system continuously monitors and corrects oxygen concentration levels and total gas flow in real-time. This would help to prevent any errors or fluctuations that might arise due to various factors like changes in the system or user input.

·  Correction of flow errors caused by fluid inertia: This is an advanced feature that accounts for potential inaccuracies due to fluid dynamics, ensuring that the gas flow remains accurate even if there are delays or inertia effects in the system.

• Breathing Circuit with By-pass Function: The by-pass function likely allows the system to divert the exhaled gases away from the absorber temporarily, allowing the patient’s breathing to continue uninterrupted while adjustments or maintenance are made. This ensures that the patient is always receiving the necessary oxygen and gas mixture without risk of sudden changes in the breathing circuit.

• Absorber Replacement During Operation: This is a critical feature because absorbers (used to remove CO2 from the exhaled air) need to be replaced periodically. The AX-900 allows the absorber to be replaced without halting the procedure. This means the anesthesia process can continue without significant interruption, ensuring that the patient remains properly ventilated throughout the operation.

• One-Handed Canister Installation: The one-handed installation of the canister adds significant convenience. It’s a practical feature for busy medical professionals who may need to quickly change the absorber or canister in urgent situations, making it faster and easier to maintain the system during procedures. This kind of ergonomic design helps improve workflow efficiency and reduces the chances of errors during installation.

The V8 system seems to have been designed with infection control in mind, particularly in the context of contagious diseases like COVID-19. Here’s a breakdown of the features you're describing:

1. Detachable Screen from Main Unit: This feature allows the screen to be separated from the main unit, providing a way for medical providers to operate the system remotely. This is especially useful in preventing cross-contamination between patients, as the medical team can control settings without having to physically interact with the main unit that’s near the patient. It also reduces the need for direct contact with the equipment, which can help limit the spread of infectious agents.

2. Control Outside the ICU: By allowing the screen to be operated from outside the ICU or patient’s immediate area, healthcare providers can maintain safe distance protocols, particularly important for high-risk environments. The ability to monitor and adjust the settings remotely is key for minimizing exposure and enhancing safety for both patients and medical staff.

3. Preventing Cross-Contamination: This system is a step toward ensuring hygiene and safety during critical procedures, especially in environments where reducing the risk of cross-infection is paramount. Having the main unit stay near the patient, while allowing remote control of the screen, significantly reduces unnecessary contact points, making it a useful solution in the ongoing battle against infectious diseases.

The K22Pro patient monitor with the ability to rotate between landscape and portrait orientations offers significant flexibility and convenience in a clinical setting. Here's why this feature is useful:

1. Flexible Display Orientation: The ability to switch between landscape and portrait modes means the monitor can be adjusted based on the specific needs of the situation. For example:

   • Landscape mode could be ideal for viewing multiple patient parameters at once, providing a wider, horizontal view of the data (such as heart rate, oxygen saturation, ECG readings, etc.).
   • Portrait mode might be useful when displaying more detailed, vertically-oriented information like patient status summaries or trends over time.

2. Enhanced Usability: This rotating feature allows healthcare providers to position the monitor in the most accessible or visible way depending on the room layout or the provider's preference. It ensures that the monitor's display is always optimized for the clinical environment.

3. Space Efficiency: In tight spaces like patient rooms or intensive care units (ICUs), the ability to rotate the monitor helps adjust its fit to the available space. For example, if there's limited wall or table space, the portrait orientation might allow the monitor to fit better in a narrow area, while landscape orientation might be preferred for more expansive workspaces.

4. Customizable for Different Tasks: Depending on the task at hand, a medical professional can switch between orientations to get a clearer view of different types of information, improving both speed and accuracy when monitoring patient data.

The BQ80 Infant Radiant Warmer is designed to provide a controlled, warm environment for newborns, particularly preterm or low-birth-weight infants, in need of temperature regulation. Here's an overview of its key features and functionalities:

1. Temperature Control: The primary function of an infant radiant warmer is to maintain a stable temperature for newborns who cannot regulate their body temperature effectively. The BQ80 likely features advanced temperature regulation mechanisms, ensuring the infant stays warm without overheating.

2. Radiant Heat Source: The warmer uses radiant heat to keep the infant comfortable. The heat is typically delivered through an overhead lamp or infrared heating system, which gently warms the infant’s body without direct contact. This is beneficial for maintaining comfort and reducing the risk of infections, as there is no need for physical contact to generate warmth.

3. Adjustable Parameters: The BQ80 probably allows medical staff to easily adjust settings like temperature and light intensity. This enables caregivers to customize the environment based on the infant's condition or needs.

4. User-Friendly Interface: The warmer is likely designed with an intuitive interface, allowing healthcare professionals to easily monitor and control vital parameters, such as ambient temperature and heat output, as well as keep track of the infant’s condition during their time in the warmer.

5. Safety Features: Given that newborns are particularly sensitive, the BQ80 may include safety alarms to alert staff if the temperature strays outside the optimal range or if there are any other issues with the unit. Some warmers also come with features like skin temperature sensors to monitor the baby’s temperature in real-time.

The user-friendly design of the BQ80 Infant Radiant Warmer is clearly built with both efficiency and ease of use in mind, especially for medical professionals who need to act quickly and accurately in a neonatal care environment. Here's an enhanced breakdown of the features you've mentioned:

Platform Tilting ±12°

1. Quick Tilt via Touch Screen:

   • The bed can be tilted by ±12°, giving the medical team the ability to adjust the baby’s position for optimal care. The ability to make these adjustments through the touch screen simplifies the process, providing quick and easy control during critical moments when precision matters.
   • Easy Operation: The touch screen interface reduces the need for complex mechanical adjustments, making it much easier to tilt the bed to the necessary angle with minimal effort.

2. One-Key Tilt and One-Key Leveling:

   • This feature allows one-touch operation for tilting and leveling the bed. Instead of multiple manual adjustments, caregivers can simply press a button to adjust the bed’s angle, saving valuable time in situations where quick action is needed.
   • This function is incredibly practical in a high-stress environment like neonatal care, ensuring that staff can focus on their patients rather than spending time figuring out complicated adjustments.

Patented Angle Display (Patent No. ZL 2015 2 0912214.6)

1. Built-in Angle Sensor:
   • The angle sensor in the BQ80 is a key feature that provides real-time data about the current angle of the bed. This sensor ensures that the staff can easily monitor the position of the infant and adjust it if necessary. It adds precision to the bed adjustments, which is crucial for positioning the infant in the correct way for treatment.
2. Intuitive Display:
   • The angle display is designed to be intuitive and easy to understand, making it convenient for medical staff to quickly see the angle of the bed without confusion. This ensures that adjustments are made correctly and consistently.
   • Convenient for Nursing Operations: With the visual feedback from the angle display, medical staff can make accurate decisions when caring for the infant, particularly when the baby's position needs to be adjusted for specific treatments (e.g., breathing support, feeding, or monitoring).

Benefits:

• Improved Efficiency: The easy-to-use touch controls and one-key tilt and leveling features reduce the time spent on manual adjustments, allowing caregivers to focus on direct patient care.
• Enhanced Precision: The angle sensor provides clear feedback about the bed's position, ensuring the infant is positioned safely and comfortably at all times.
• Convenience for Caregivers: These features make it easier for medical professionals to provide consistent and efficient care, even in high-pressure situations like neonatal intensive care units (NICUs).