CN-121987398-A - Automatic traction system for head and neck operation

Abstract

The invention relates to the technical field of medical operations, and discloses an automatic traction system for head and neck operations, which comprises an operation table main body, an automatic traction device, a control module, a safety monitoring module, an emergency braking and fault alarming module, an operation interface, a data recording and analyzing module and an intelligent diagnosis auxiliary module, wherein the operation table main body adopts a structure with adjustable height and inclination angle, the automatic traction device comprises a force feedback system, a traction force sensor, a direction sensor and a speed sensor, and the operation table main body, the automatic traction device, the control module, the safety monitoring module, the emergency braking and fault alarming module, the operation interface, the data recording and analyzing module and the intelligent diagnosis auxiliary module are integrated, so that the comprehensive optimization and promotion of the head and neck operation process are realized, the system not only improves the accuracy and safety of operations, but also provides more scientific and efficient operation tools for doctors, and plays an important role in the future medical field.

Inventors

• HUANG JIAJUN
• Ye Mianyun

Assignees

• 湖北省恒玖生物医药科技有限公司

Dates

Publication Date

20260508

Application Date

20241104

Claims (6)

1. 1. The automatic traction system for the head and neck operation is characterized by comprising an operation table main body, an automatic traction device, a control module, a safety monitoring module, an emergency braking and fault alarming module, an operation interface, a data recording and analyzing module and an intelligent diagnosis auxiliary module, wherein the operation table main body adopts a structure with adjustable height and inclination angle, and the automatic traction device comprises a force feedback system, a traction force sensor, a direction sensor and a speed sensor.
2. 2. The head and neck surgery automatic traction system according to claim 1, wherein the control module comprises a central processing unit, a communication interface, a storage unit and a control algorithm.
3. 3. The head and neck surgery automatic traction system according to claim 1, wherein the safety monitoring module comprises a pressure sensor, a heart rate monitor and a blood oxygen saturation monitor.
4. 4. The head and neck surgery automatic traction system according to claim 1, wherein said emergency braking and malfunction alerting module comprises a brake actuator and an audible and visual alerting device.
5. 5. The head and neck surgery automatic traction system according to claim 1, wherein the data recording and analyzing module comprises a data acquisition unit and an intelligent analyzing engine.
6. 6. The head and neck surgery automatic traction system according to claim 1, wherein the intelligent diagnosis assisting module comprises an image recognition technology, a machine learning algorithm and an expert knowledge base.

Description

Automatic traction system for head and neck operation Technical Field The invention relates to the technical field of medical operations, in particular to an automatic traction system for head and neck operations. Background With the continued advancement of medical technology, head and neck surgery has gained increasing importance in the medical field. In head and neck surgery, accurate and stable traction is critical, which is not only related to the success rate of the surgery, but also directly affects the postoperative recovery and quality of life of the patient. However, in the traditional head and neck operation process, the stability of the operation bed and the traction accuracy are often affected by human factors, so that the operation risk is increased, the operation effect is difficult to ensure, and the use in the modern head and neck operation cannot be satisfied. To this end, we propose an automatic traction system for head and neck surgery. Disclosure of Invention The invention mainly solves the technical problems in the prior art and provides an automatic traction system for head and neck surgery. In order to achieve the above purpose, the invention adopts the following technical scheme that the head and neck operation automatic traction system comprises an operation table main body, an automatic traction device, a control module, a safety monitoring module, an emergency braking and fault alarming module, an operation interface, a data recording and analyzing module and an intelligent diagnosis auxiliary module, wherein the operation table main body adopts a structure with adjustable height and inclination angle so as to ensure the optimal position in the operation process, and the automatic traction device comprises a force feedback system, a traction force sensor, a direction sensor and a speed sensor, so that the traction force, the speed and the direction can be automatically adjusted according to the real-time situation in the preoperation planning or the operation, and the accurate positioning and the stable fixing of an operation part are ensured. Preferably, the control module is responsible for receiving instructions from the operation interface and coordinating the operation of each module according to the surgical requirements. Preferably, the control module comprises a central processing unit, a communication interface, a storage unit and a control algorithm. Preferably, the central processing unit is responsible for performing complex computing tasks, processing data from the sensors in real time, and ensuring the accuracy of the surgical procedure. Preferably, the communication interface is responsible for data transmission with other modules, so as to ensure rapid transmission of instructions and instant reception of feedback information. Preferably, the storage unit is used for storing key data in the operation process, including traction parameters and patient physiological index changes, and provides powerful support for postoperative evaluation and improvement. Preferably, the control algorithm can accurately calculate and deliver optimal traction parameters to the automatic traction device, including traction force magnitude, speed and direction changes, so as to adapt to different surgical scenes and individual differences of patients. Preferably, the safety monitoring module comprises a pressure sensor, a heart rate monitor and a blood oxygen saturation monitor, and monitors vital signs of a patient in the operation process and pressure changes of an operation part in real time. Upon monitoring any abnormal data, such as heart rate dip, abnormal blood pressure fluctuations, or excessive surgical site pressure, the system will immediately activate the emergency braking and failure alarm module. Preferably, the emergency braking and fault alarming module comprises a braking actuator and an audible and visual alarm device, when the safety monitoring module detects an abnormal condition, the braking actuator can immediately respond to rapidly cut off a power source of the automatic traction device, and the automatic traction device is rapidly locked through a mechanical structure to prevent the automatic traction device from continuously running, so that further injury to a patient is avoided, and emergency warning is sent to medical staff through the audible and visual alarm device to ensure the safety of the patient. The operation interface is used for medical staff to input operation parameters, check real-time operation states and monitor data. Preferably, the data recording and analyzing module comprises a data collecting unit and an intelligent analyzing engine, all key data in the operation process can be captured in real time, the data are then transmitted to the intelligent analyzing engine for advanced treatment, the intelligent analyzing engine utilizes an advanced algorithm model to quantitatively evaluate the operation process, analyze the operation effect, pr