1. Technical indicators
1. High frequency and high voltage generator
1.1 Maximum output power: 5kW
1.2 Main inverter frequency: 110kHz
1.3 Continuous perspective
• Tube voltage: 40kV~125kV, continuously adjustable
• Tube current: 0.3mA~8mA, continuously adjustable
1.4 Pulse fluoroscopy
• Tube voltage: 40kV~125kV, continuously adjustable
• Tube current: 0.3mA~30mA, continuously adjustable
• Pulse frequency: 0.5~8 frames/second, continuously adjustable
1.5 C-arm track sliding sequence photography
• Tube voltage: 40kV~112kV, continuously adjustable
• Tube current: 0.3mA~15mA, continuously adjustable
1.6 Photography
• Photography tube voltage: 40kV~125kV
• Maximum tube current for photography: 0.3~80mA, continuously adjustable
• Photography mAs: 0.1mAs~180mAs
2. Tube components
2.1 Tube
• Double focus X-ray tube: 0.6/1.2, fixed anode
• Anode heat capacity: 60kJ (80kHU)
• Anode heat dissipation rate: 600W
2.2 Tube sleeve
• Heat capacity of pipe jacket: 650kJ (867kHU)
• Maximum continuous heat dissipation: 60W
3. Digital imaging system
3.1 Flat panel detector:
• Plate size: 30cm×30cm
• Flat type: amorphous silicon cesium iodide
• Image acquisition matrix: 2K×2K
• Image grayscale: 16Bit
• Pixel size: 154μm
3.2 Workstation monitor: 34-inch color medical LCD monitor
3.3 Body display: 27-inch color medical LCD display *Intellectual property rights, copy, use, or disclosure to third parties is strictly prohibited without formal permission* Page 1/4
3.4 Touch control panel: color medical grade touch screen
4. Image post-processing system
4.1 Image acquisition module: window width and window level adjustment, real-time zoom, real-time rotation at any angle, vertical/horizontal mirroring, positive and negative images
Processing, recursive noise reduction processing, edge enhancement processing, single frame/sequence image storage and echo.
4.2 Image processing module: For the images that have been collected or saved, the images can be processed in this module: annotation, zoom,
Measurement, split-window display, continuous playback, rotation at any angle, vertical/horizontal mirroring, positive and negative images, image saving and other functions.
4.3 Report module: Provide report templates with various contents that can be modified to facilitate users to write reports, and provide report printing function can.
4.4 Film printing module: Medical film typesetting and printing functions complying with the DICOM standard.
4.5 Three-dimensional processing of X-ray images
• Sequence image reconstruction: 3D reconstruction is run after the sequence data is collected, and the reconstructed cross section and crown will be displayed automatically after a few seconds.
Shape plane, sagittal plane and 3D image, on this basis, the window width and level can be adjusted, cross line display/hide, screenshot,
Image processing operations such as zooming and measuring.
• 3D display, MIP and VRT two visualization modes display three-dimensional images, which can be switched freely, and the three-dimensional images are in the visual view
You can move and rotate on your own.
• Save DICOM tomographic sequence images, which can convert 3D reconstructed images into sequence tomographic images in DICOM format, available
For diagnostics and other applications such as 3D printing.
5. Structural performance
5.1 Focus-plate distance: 1000-1100mm
5.2 The sliding angle of the C-shaped arm along the track arc: 190°
5.3 The rotation angle of the C-shaped arm along the horizontal axis: ≥±180°
5.4 Forward and backward movement range: 200mm
5.5 Vertical movement range: 400mm
5.6 Opening distance of C-shaped arm: 800-900mm
5.7 The arc depth of the C-shaped arm: 735mm
5.8 The guide wheel can rotate in any direction, the main wheel is 0-90°
6. Power conditions
6.1 Power supply voltage: 220V/110V
6.2 Power frequency: 50Hz/60Hz
2. Standard configuration
Five-dimensional electric super large isocenter mobile C-arm main frame -- 1 set
High frequency and high voltage X-ray generator and high frequency inverter power supply -- 1 set
30cm×30cm amorphous silicon flat panel detector -- 1 set
Workstation 34-inch color medical LCD monitor -- 1 set
27-inch color medical LCD monitor -- 1 set
12.5 inch color medical grade touch screen -- 1 set
Density wire grid -- 1 set
Electric adjustable beam limiter -- 1 set
Handheld mechanical motion controller -- 1 set
Exposure foot brake -- 1 set
3. Performance characteristics
1. Intraoperative three-dimensional imaging: Intraoperative three-dimensional imaging and CT-like slice images provide more comprehensive surgical diagnosis information, assisting doctors to accurately assess and judge the situation such as fracture reduction and the size and position of internal screws, ensuring the operation height Finished with precision.
2. Intraoperative examination and simplified process: Optimize the surgical process and replace the traditional postoperative CT examination with intraoperative three-dimensional scanning examination, which greatly avoids the occurrence of revision surgery, reduces surgical costs and shortens the length of stay.
3. 190° three-dimensional scanning angle: the electric drive slides along the track, which is stable and convenient, covering a large 190° angle range, providing high-precision, omni-directional three-dimensional images and CT-like slice image information.
4. Isocentric design: During the C-arm 3D scanning process, the subject is always kept at the center of the ray beam, which avoids repositioning during the process, reduces the radiation dose, and saves time. The maximum C-arm opening space of 90cm is suitable for the size requirements of various clinical positions.
5. Fast acquisition without waiting: In the 3D acquisition mode, it only takes 60s to complete the 3D sequence image acquisition, saving the acquisition time under the premise of ensuring the image quality.
6. Image guided surgery, wireless navigation transmission: integrated surgical navigation and surgical robot interface, can wirelessly transmit 3D reconstructed image data to navigation equipment, without additional manual registration steps, realize real-time guided planning of intraoperative images, and assist doctors in precise positioning of surgery Instruments and implants provide the possibility to realize the digital and intelligent expansion of the operating room.
7. Dynamic flat-panel detector: a 30cm x 30cm dynamic flat-panel detector is used to output high-resolution, large-scale two-dimensional and three-dimensional images. The highest 16-bit grayscale and high dynamic range clearly show the position and contour of the implant.
8. High-power pulsed ray source: Using the industry's leading integrated tube and high-frequency pulse generator, adjustable frequency to achieve high-quality image quality at low doses, even obese tissues can also take clear and transparent images.
9. Intelligently set the dose: automatically adjust the dose parameters according to the location, combined with intelligent hardware and closed-loop software algorithms, under the premise of ensuring high-quality images, significantly reducing the intake of doses.
10. Image post-processing technology: powerful image post-processing software automatically adjusts the best image window width and level, significantly reduces screw metal artifacts, reduces image area noise, and further optimizes image quality.
11. Precise positioning, reducing waste: the use of three-way cross infrared positioning function to assist clinical accurate positioning and reduce unnecessary exposure.
12. Wireless foot switch: optional wireless foot switch can avoid the damage of the cable stepping on, and also reduce the cumbersome cables on the floor of the operating room, creating a smooth walking environment in the operating room.
13. Fully electric motion control: Five-dimensional electric motion control, convenient and safe positioning adjustment, reduces the physical exertion of medical staff.
14. Touch panel: The body is equipped with an adjustable touch screen control panel and an intuitive user interface, which can adjust the photographic parameters and perform image processing during the operation to simplify the operation.
15. Low-dose mode: The low-dose mode can significantly reduce the dose intake and reduce unnecessary radiation, which is suitable for various clinical examination needs.
16. Virtual beam limiter: The field of view of the beam limiter can be adjusted in the non-ray state to avoid radiation caused by repeated adjustments under exposure.
17. Pluggable grid design: used in pediatrics and other clinical applications that are sensitive to dose. The grid can be removed and installed by hand, saving shooting time and improving efficiency.
18. With DAP dose display: real-time display of the dose intensity of a single exposure on the image, which is convenient for doctors to grasp the radiation situation and effectively control the dose intake.
4. Clinical scope
--Mainly used in orthopedics, surgery, orthopedics, spine surgery, abdominal surgery, etc., specifically:
--In trauma surgery, such as internal fixation of pelvic fractures, the acetabular articular surface can be reconstructed three-dimensionally during the operation, and the screws can be accurately positioned and implanted, which minimizes the time of screw implantation and fluoroscopy exposure, and reduces intraoperative and postoperative complications Probability of occurrence.
--In spinal surgery, the complex 3D model of the spine is effectively reconstructed, and accurate 2D and 3D images are provided, which improves the accuracy of screw implantation, shortens the operation time, reduces the probability of complications, and reduces the radiation intake.
--In joint surgery, it is mainly used for joint replacement and anatomical reduction of shoulder joints, elbow joints, hip joints, and knee joints. It can accurately place the prosthesis, reduce the radiation time and reduce the radiation dose.
--In orthopedic osteotomy surgery, for example, in the treatment of congenital kyphosis, the surgeon can effectively guide the implantation of posterior screws and the removal of the semi-cone to achieve the corrective effect of osteotomy.
About us
Refine Medical Technology Co., Ltd. was founded in Nanjing, China with the goal to supply medical products with high quality, competitive price and excellent after-sales service.
As the leading professional manufacturer & exporter of medical equipment, Refine Medical own a group of very professional technical and sales staff with the high efficiency, who are able to provide the customers complete range of service. Being approved with CE,ISO, Certificate, etc. We have established efficient worldwide network of marketing. In the past 15 years, we have exported our products to more than 120 countries all over the world.
Refine Medical product range covers X-ray machines, Ultrasound Scanner, ECG, ICU Equipment, Laboratory Equipment, Optoelectronic Equipment, Reagents, Hospital Furniture and other medical equipments & products.
We welcome customers from all over the world visit our website or our company, and we assure you of our best quality products and services with competitive prices.Your cooperation with us will definitely create a win-win situation for both of us.
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