Shanghai Ro-Chain Medical CO.,LTD clearly knows that inspection is a key element of quality control in the manufacturing of defibrillator machine. We verify product quality on-site at different stages of the production process and prior to its dispatch. With the use of inspection checklists, we standardize the quality control process and the quality problems can be delivered to each production department.
Our Ro-Chain brand values play a fundamental role in the way we design, develop, manage and manufacture. As a result, the product, service and expertise we offer to customers worldwide are always brand-led and to a consistently high standard. The reputation simultaneously improves our popularity internationally. So far, we have customers and partners in many countries around the world.
A large-scale factory, along with the latest manufacturing equipment gives us the capacity to fully service OEM/ODM business through Ro-Chain Medical and achieve high-quality on-time deliveries at a low cost. We have the most advanced assembly lines and complete quality inspection systems. Our manufacturing facilities are ISO-9001 and ISO-14001 certified.
X-ray machine is a very common medical devices in hospital, it has different types, do you now what is their core parts ? Here let me share some basic knowledge with you:
The core technical parameters of the X-ray machine has three parts:
First is High voltage generators
1. The maximum output power of the high-voltage generator: 50KW
2. Maximum tube voltage: 150KV
3. High voltage generator inverter frequency: 50KHz
4. Maximum tube current: ≥600mA
5. Maximum mAs: 600-800mAs
Second is X-ray tube holders
1. Column X-line tube bracket
2. Vertical movement range: 1200-1900mm
3. Longitudinal movement range: 1700-2500mm
4. Lateral movement range: ≥220mm
Third is Photographic flat bed
1. Horizontal and longitudinal movement range of bed surface: 850-1000mm
2. Horizontal lateral movement range of bed surface: 220-250mm
3. It can be automatically controlled and fixed
4. With movable filter grid or fixed filter line, gate ratio: ≥10:1, gate density: ≥40 lines/cm
Forth is Chest X-ray camera frame
1. With movable filter grid or fixed filter line,
2. Grid ratio: ≥10:1,
3. Grid density: 40-78 lines/cm
4. Radiation safety protection: in line with international radiation safety protection standards
Ro-Chain Medical has full range of autoclave machine. Among one is Horizontal Pressure Steam Sterilizer (150L-500L). Do you know how to operate it when you get the goods ?
Below are some tips for your reference:
1.Connect the power, turn on the water inlet manual valve, and close the door tightly after loading the objects inside, and then the power indicating lamp will be on, the door lamp and inlet lamp will be on continually.
2. By the inlet lamp is off, just turn off the water inlet manual valve immediately, then clockwise turn the timer knob till the red point to 30,and press the start key, at the same time, the power lamp, door lamp and heating lamp will be on.(132 degrees is advised for the sterilizing).
3. By reaching the rating pressure, the sterilizing lamp will be on, and the timer would start to count down. After counting to the zero, the buzzer would go off to remind the end of the sterilizing. The unit would automatically exhaust the air, and pay attention that don’t open the door till the needle of the pressure gauge point to zero. Open the door a little for about 5~10 cm, and the objects can be fetched in 20~30 mins.( the power could be shut off when the door is open).
Shoimage C arm ,Do you know what is the difference between 5kw and 15kw?
Shoimage brand's FPD C arm, it has two types, one is 5KW, one is 15KW. Do you know their difference ?
5KW is used for general orthopedics, shock wave lithotripsy and 15kw is suitable for digestive tract intervention, urinary system and angiography.
But 5KW can also be dynamic fluoroscopy, especially in Orthopedic surgery, doctors can continuously step on the pedal exposure, and then use the dynamic report results to accurately confirm the position of the bone nail.
Shoimage Medical as the subsidiary company of Ro-Chain Medical, its core focusing business is Digital X-ray machine which includes kinds of digital X-ray machine for human use ,also includes kinds of digital X-ray machine for vet use.
For the vetinary digital x-ray machine, there are portable vet digital x-ray machine , mobile type vet digital x-ray machine , also flat vet digital X-ray machine.
At 6 am China time and 5 pm Colombia time of 2024/11/08 , Shoimage was honored to have participated in the JVetCare veterinary imaging equipment product presentation organized by our exclusive Colombian agent.
The product presentation was attended by more than 20 veterinary hospital and clinic experts, including our CEO Mr. Seven and our General manager Ms. Karen, as well as our Spanish-speaking sales representative Miss Christina.
Miss Christina did an excellent job showcasing our veterinary X-ray product line, from our super portable X-ray machine to our portable X-ray machine to our flat DR X-ray machine.
This product presentation marks a milestone for Shoimage's future development in the veterinary X-ray imaging market in South America!
Welcome to our article discussing the vital role of infant incubator machines in neonatal care. As technology continues to advance, these life-saving devices play a crucial role in providing a controlled environment for premature or ill newborns. Join us as we explore the importance of these innovative machines and the impact they have on improving outcomes for infants in need of specialized care.
Neonatal care has made significant advancements over the years, with one of the most crucial developments being the evolution of infant incubator machines. These life-saving devices play a vital role in providing a controlled environment for premature or ill infants, ensuring they receive the necessary support and care for their delicate health needs.
Infant incubator machines have come a long way since their inception, with continuous innovation and improvement leading to enhanced functionality and performance. These devices are designed to mimic the natural conditions of the mother's womb, creating a warm and safe environment that promotes the infant's growth and development.
One of the most important features of infant incubator machines is their ability to regulate temperature and humidity levels, ensuring that the infant's body remains stable and comfortable. This is crucial for premature infants who are unable to regulate their own body temperature efficiently, making them vulnerable to heat loss or overheating.
In addition to temperature control, modern infant incubator machines also come equipped with advanced monitoring and alarm systems that alert healthcare providers to any changes in the infant's condition. This real-time feedback allows for immediate intervention and adjustments to be made, ensuring the infant's safety and well-being at all times.
Furthermore, the evolution of infant incubator machines has seen the integration of cutting-edge technologies such as phototherapy for treating jaundice, and ventilator support for assisting with respiratory distress. These additional features expand the capabilities of the devices, enabling healthcare providers to provide comprehensive care for a wide range of neonatal conditions.
The importance of infant incubator machines in neonatal care cannot be overstated, as these devices have been instrumental in reducing infant mortality rates and improving outcomes for premature and critically ill infants. By providing a controlled and supportive environment, infant incubator machines give infants the best possible chance to thrive and grow into healthy individuals.
In conclusion, the evolution of infant incubator machines in neonatal care has revolutionized the way we care for our tiniest patients. From basic temperature regulation to advanced technological features, these devices have become indispensable tools in the fight to save and improve the lives of premature and ill infants. With ongoing research and development, we can expect further advancements in infant incubator technology, leading to even better outcomes for the most vulnerable members of our society.
Infant incubator machines play a crucial role in saving lives in neonatal units by providing a controlled environment for premature or ill infants to thrive. These machines are essential in ensuring the proper development and well-being of newborns who require specialized care in the early stages of life.
One of the key functions of infant incubator machines is to regulate temperature, humidity, and oxygen levels for the infant. Premature babies are unable to regulate their own body temperature, making it imperative for them to be placed in an environment where these factors can be closely monitored and adjusted as needed. The incubator provides a warm and stable environment that mimics the conditions of the womb, allowing the infant to continue developing outside of the mother's body.
In addition to temperature regulation, infant incubator machines also provide protection from infection and external stimuli. Premature infants have delicate immune systems that are not fully developed, making them vulnerable to infections and diseases. By creating a sterile environment within the incubator, the risk of infection is significantly reduced, ensuring that the infant can grow and thrive without unnecessary complications.
Furthermore, infant incubator machines can also help with respiratory support for infants who may have difficulty breathing on their own. The machines are equipped with ventilators and other respiratory devices that can provide the necessary support for the infant's lungs, allowing them to breathe more easily and comfortably. This is especially important for premature infants who may have underdeveloped lungs and respiratory systems.
The use of infant incubator machines in neonatal care has shown to significantly improve outcomes for premature and ill infants. Studies have demonstrated that infants placed in incubators have higher survival rates and reduced risk of complications compared to those who are not. The controlled environment provided by the machines allows for closer monitoring of the infant's progress and the ability to intervene quickly if any issues arise.
Overall, infant incubator machines are a vital tool in neonatal care that serves to save lives and ensure the proper development of premature and ill infants. The technology behind these machines continues to advance, with new features and capabilities being constantly developed to further enhance the care and support provided to these vulnerable newborns. As medical professionals continue to rely on infant incubator machines in neonatal units, we can expect to see even greater advancements in the field of neonatal care, ultimately leading to better outcomes for these precious little lives.
The neonatal care unit is a vital component of any hospital, providing specialized care to newborn babies who are premature or have other health complications. One of the most important tools in neonatal care is the infant incubator machine, a device that mimics the conditions of the womb to help premature babies thrive outside of the mother's womb. This article will explore the impact of infant incubator machines on premature babies and the importance of these devices in neonatal care.
Premature babies, also known as preemies, are born before 37 weeks of gestation and often require extra medical attention to help their tiny bodies grow and develop. Infant incubator machines play a crucial role in the care of premature babies by providing a controlled environment that ensures their safety and well-being. These machines regulate temperature, humidity, and oxygen levels to create a womb-like atmosphere that promotes healthy growth and development.
One of the key benefits of infant incubator machines is their ability to regulate temperature, keeping premature babies warm and preventing hypothermia. Premature babies have underdeveloped skin and cannot regulate their body temperature effectively, making them susceptible to heat loss. The incubator machine provides a warm, stable environment that helps premature babies conserve energy and focus on growing.
In addition to temperature regulation, infant incubator machines also control humidity levels to prevent dehydration and respiratory problems in premature babies. Premature infants have delicate skin and are more prone to fluid loss, so maintaining proper humidity levels is essential for their well-being. The incubator machine ensures that premature babies receive the right amount of moisture to keep their skin hydrated and prevent complications.
Furthermore, infant incubator machines deliver a precise amount of oxygen to premature babies to support their respiratory function. Premature infants often have underdeveloped lungs and may require supplemental oxygen to help them breathe. The incubator machine monitors oxygen levels in the baby's blood and adjusts the oxygen supply accordingly, ensuring that the baby receives the right amount of oxygen to support healthy lung function.
Overall, infant incubator machines play a pivotal role in the care of premature babies in the neonatal unit. These devices create a nurturing environment that supports the growth and development of premature infants, helping them overcome the challenges of early birth. By regulating temperature, humidity, and oxygen levels, infant incubator machines provide the essential support that premature babies need to thrive outside of the womb.
In conclusion, infant incubator machines are essential tools in neonatal care, providing a safe and controlled environment for premature babies to grow and develop. These devices play a critical role in supporting the health and well-being of premature infants, helping them overcome the challenges of early birth and thrive in the neonatal unit. The impact of infant incubator machines on premature babies is profound, highlighting the importance of these devices in neonatal care.
Neonatal care is a critical aspect of healthcare that focuses on the health and well-being of newborn infants, specifically those born prematurely or with medical complications. One of the key tools used in neonatal care is the infant incubator machine, which plays a vital role in maintaining the body temperature and humidity levels of these vulnerable infants.
Infant incubator machines are specially designed devices that create a controlled environment for premature or sick infants, mimicking the warmth and humidity of the mother's womb. These machines consist of a clear enclosed chamber that allows medical staff to monitor the infant while providing a safe and regulated space for them to grow and develop.
One of the primary functions of infant incubator machines is to regulate the body temperature of the infant. Premature babies are unable to regulate their own body temperature effectively, making them highly susceptible to hypothermia. By placing the infant in an incubator, healthcare providers can adjust the temperature to ensure that the baby remains warm and comfortable. Maintaining a stable body temperature is essential for the infant's growth and development, as well as for preventing complications such as respiratory distress syndrome.
In addition to temperature control, infant incubator machines also play a crucial role in maintaining the humidity levels of the environment. Premature infants have delicate and underdeveloped skin that is prone to dehydration and skin breakdown. By carefully regulating the humidity inside the incubator, healthcare providers can prevent moisture loss and keep the infant's skin hydrated and healthy. Proper skin care is essential for preventing infections and promoting overall well-being in these fragile infants.
Infant incubator machines also provide a safe and sterile environment for the infant, protecting them from outside pathogens and contaminants. The enclosed chamber helps to reduce the risk of infections and allows healthcare providers to closely monitor the infant's vital signs and health status. This controlled environment is essential for the proper care and treatment of premature or sick infants who are at a higher risk of complications due to their vulnerable immune systems.
Overall, infant incubator machines are indispensable tools in neonatal care that provide a stable and nurturing environment for premature or sick infants. By regulating body temperature and humidity levels, these devices help to promote growth and development while protecting the infant from potential health risks. The use of infant incubator machines has significantly improved outcomes for neonates, reducing the incidence of complications and ensuring better overall health and well-being for these vulnerable infants.
Neonatal care is a crucial aspect of healthcare that focuses on the well-being and development of newborn babies. One of the key technologies that have revolutionized neonatal care is the infant incubator machine. These specialized devices provide a controlled environment for premature and ill newborns, ensuring they receive the necessary warmth, humidity, and protection needed for their health and development. In recent years, advancements in infant incubator machine technology have transformed the way neonatal care is delivered, paving the way for future innovations that promise to further improve outcomes for newborn babies.
Infant incubator machines play a vital role in the care of premature babies, who are born before the completion of a full 37-week gestation period. These babies often have underdeveloped organs and may struggle to regulate their body temperature. Infant incubator machines provide a warm, stable environment that mimics the conditions of the mother's womb, helping these babies to thrive and develop properly. By maintaining a constant temperature and humidity level, infant incubator machines help reduce the risk of hypothermia and other complications associated with premature birth.
In addition to providing a safe and controlled environment for fragile newborns, infant incubator machines also offer a range of features that aid in their care and monitoring. Modern infant incubator machines are equipped with advanced sensors that monitor vital signs such as heart rate, breathing rate, and oxygen levels, allowing healthcare providers to closely monitor the baby's condition and respond quickly to any changes. Some machines also come with integrated ventilators and other life-support systems to provide critical care to newborns in need.
Future innovations in infant incubator machine technology hold great promise for further improving neonatal care. Researchers and engineers are continuously working to develop new features and capabilities that will enhance the effectiveness of these devices and improve outcomes for newborn babies. One area of focus is the integration of artificial intelligence and machine learning algorithms into infant incubator machines, allowing them to analyze data in real-time and provide personalized care based on the baby's unique needs.
Another exciting development in infant incubator machine technology is the use of advanced materials and design concepts to create more portable and user-friendly devices. These innovations will make it easier for healthcare providers to transport and use infant incubator machines in a variety of settings, including ambulances, rural clinics, and even homes. This increased accessibility will help ensure that all newborn babies have access to the care they need, regardless of their location or circumstances.
In conclusion, infant incubator machines play a crucial role in neonatal care, providing a safe and supportive environment for premature and ill newborns. With ongoing advancements in technology and a focus on innovation, the future of infant incubator machine technology looks bright. By continuing to push the boundaries of what is possible, researchers and engineers are poised to revolutionize neonatal care and improve outcomes for newborn babies around the world.
In conclusion, the importance of infant incubator machines in neonatal care cannot be overstated. These devices have revolutionized the way we care for premature and ill newborns, providing a safe and controlled environment for them to thrive. As a company with 10 years of experience in the industry, we understand the critical role that these machines play in saving lives and improving outcomes for vulnerable infants. By continuing to innovate and improve upon these technologies, we can ensure that every newborn has the best possible chance at a healthy and happy life.
Contact: Ms Karen Yon
Tel: 86-18217232862
E-mail: kareny@ro-chainmed.com
WhatsApp: 86-18217232862
Add: Room 207, Building 1, Kangqiao Road 787, Pudong New District, Shanghai, China 201315