CN-122000010-A - Intelligent control method for disposable electronic endoscope and medical endoscope system

Abstract

The application relates to an intelligent control method for a disposable electronic endoscope and a medical endoscope system, wherein the method is used for response interaction between the endoscope and a host end, the endoscope comprises a control unit, the intelligent control method comprises the steps of S1, judging whether the endoscope and the host end successfully respond, S2, if the endoscope and the host end successfully respond, reading a unique ID code and a hash value, and S3, judging whether the endoscope is started or not by taking the unique ID code and the hash value as references at the host end. In the intelligent medical field, the disposable electronic endoscope is used as a way for detecting the interior of a human body, the technical development is rapid in recent years, however, the prior art still has the defects that the service time of the conventional disposable electronic endoscope is not easy to control, and the application can realize the effective monitoring of the endoscope from the two aspects of preset time length and power-on times, ensure the standard control of the disposable electronic endoscope and avoid the non-compliance operation of partial medical workers.

Inventors

• HAN BIN

Assignees

• 深圳市奥唯思科技有限公司

Dates

Publication Date

20260508

Application Date

20251225

Claims (10)

1. 1. An intelligent control method for a disposable electronic endoscope is characterized in that the method is used for response interaction between the endoscope and a host computer, the endoscope comprises a control unit, and the intelligent control method comprises the following steps: S1, judging whether the endoscope and a host end successfully respond or not; S2, if the response is successful, reading the unique ID code and the hash value; s3, the host computer uses the unique ID code and the hash value as references to judge whether to start the endoscope.
2. 2. The intelligent control method according to claim 1, characterized in that after the step S3, the intelligent control method comprises: S4, under the condition that the endoscope is started, whether the real-time parameters of the endoscope meet preset requirements or not is monitored.
3. 3. The intelligent control method according to claim 2, wherein the host end is connected to an endoscope through a handle end, the endoscope includes a handle end and a sensor connected to each other, a sensor chip is disposed in the sensor, the sensor chip includes a control unit, and the step S1 includes: S11, the control unit judges whether the handle end is connected with the host end or not, and successful response between the endoscope and the host end is achieved.
4. 4. The intelligent control method according to claim 3, wherein the step S2 includes: S21, if the response with the host end is successful, the host end reads the unique ID code in the sensor and reads the hash value in the sensor.
5. 5. The intelligent control method according to claim 4, wherein a monitoring module is provided in the host, the control unit is connected to the monitoring module, and the step S3 includes: s31, the host computer calculates and obtains a first hash result according to the unique ID code and the encryption algorithm, and compares the first hash result with a hash value in the sensor; S32, if the comparison fails, the state of locking and not drawing is adjusted; S33, if the comparison is successful, starting a monitoring module in the host end.
6. 6. The intelligent control method according to claim 5, wherein the monitoring module is configured to monitor real-time parameters, the real-time parameters include a preset duration and/or a number of times of power-up, the control unit is further connected to a counting unit, and the step S4 includes: S41, the control unit judges whether a primary power-on starting signal is received, and if the primary power-on starting signal is received and exceeds the preset duration monitored in real time by the monitoring module, the control unit judges that the preset upper use limit of the endoscope is reached; s42, the control unit judges whether a primary power-on starting signal is received, and if the primary power-on starting signal is received and the preset duration is not exceeded, the number of times of power-on is accumulated through the counting unit; s43, judging that the preset upper use limit of the endoscope is reached when the accumulated power-on times in the counting unit are more than the preset upper power-on limit value; S44, judging whether the number of times of power-on corresponding to the counting unit is increased once and then accumulating the number of times to a preset upper limit, and keeping the function of the endoscope in a normal state under the condition that the result of accumulating the number of times of power-on through the inside of the counting unit is not more than the preset upper limit; S45, displaying a Lock interface on the host side when the preset upper use limit of the endoscope is reached.
7. 7. The intelligent control method according to claim 6, wherein the counting unit internally counts the number of times of power-up, comprising: S51, after receiving a power-on starting signal for more than one minute, the control unit judges that the endoscope is not in temporary operation and generates an effective power-on record; S52, using the effective power-on record as a trigger signal, and sending a frequency increment instruction to a counting unit; s53, the counting unit receives a frequency increment instruction and responds to the instruction to read the historical power-on frequency stored before from the nonvolatile memory; S54, the counting unit performs an addition operation on the historical power-on times to obtain the real-time power-on times, and further the internal accumulated power-on times are completed.
8. 8. The intelligent control method according to claim 6, wherein the step S43 includes: in the case that the result of accumulating the number of times of power-up by the inside of the counting unit is more than 10 times, it is determined that the preset upper use limit of the endoscope is reached.
9. 9. The intelligent control method according to claim 6, wherein the step S44 includes: After the number of times of power-up corresponding to the counting unit is increased once, whether the number of times of power-up is accumulated to a preset upper limit number of times is judged, and under the condition that the result of accumulating the number of times of power-up through the inside of the counting unit is not more than 10 times, the function of the endoscope is kept in a normal state.
10. 10. A medical endoscope system is characterized by comprising an endoscope and a host end, wherein the endoscope and the host end are in interaction, the host end is connected to the endoscope through a handle end, the endoscope comprises the handle end and a sensor which are connected with each other, a sensing chip is arranged in the sensor and comprises a control unit, and the medical endoscope system is used for realizing the intelligent control method according to any one of claims 1 to 9.

Description

Intelligent control method for disposable electronic endoscope and medical endoscope system Technical Field The invention relates to the field of intelligent medical treatment, in particular to an intelligent control method for a disposable electronic endoscope and a medical endoscope system. Background In the field of intelligent medical treatment, a disposable electronic endoscope is used as a way for detecting the interior of a human body, and the technical development is very rapid in recent years. In the past, most medical endoscopic instruments are imported from japan, but the proportion of overseas imported endoscopic products is gradually decreasing with the rise of domestic endoscopes and the push of domestic endoscopic modules in the years. Taking urinary endoscopic collection as an example, the urinary endoscopic collection is an important subdivision field of domestic disposable electronic endoscope outbreaks, and upstream and downstream enterprises and related research and development teams are required to be continuously innovated so as to realize domestic replacement of imported products. However, the prior art still has the defects that the using time of the existing disposable electronic endoscope is not easy to control. Based on the above, the invention provides an intelligent control method for a disposable electronic endoscope and a medical endoscope system, which can solve the problems. Disclosure of Invention The technical problem solved by the invention is how to design a solution for the disposable electronic endoscope, and the standard management and control of the disposable electronic endoscope can be ensured. In a first aspect, the application provides an intelligent control method for a disposable electronic endoscope, which is used for response interaction between the endoscope and a host end, wherein the endoscope comprises a control unit, the intelligent control method comprises the steps of S1, judging whether the endoscope and the host end respond successfully or not, S2, if the endoscope responds successfully, reading a unique ID code and a hash value, and S3, judging whether the endoscope is started or not by taking the unique ID code and the hash value as references at the host end. The further technical scheme is that after the step S3, the intelligent control method comprises the step S4 of monitoring whether real-time parameters of the endoscope meet preset requirements under the condition of starting the endoscope. The inventor finds that in the overseas part of emerging markets, particularly in developing countries (such as India or southeast Asia), medical institutions are limited by purchasing budget and have imperfect systems, and part of medical workers can reuse the disposable electronic endoscopes which are required to be used once, so that the repeated use is easier to deviate from medical supervision, and the operation standardization is difficult to ensure. Based on the above, the scheme provided by the application is used for the disposable electronic endoscope, the endoscope is effectively monitored from two aspects of preset duration and power-on times, the standard management and control of the disposable electronic endoscope can be ensured, and the non-compliance operation of part of medical workers is avoided. The method comprises the following steps that the host end is connected to the endoscope through the handle end, the endoscope comprises the handle end and a sensor which are connected with each other, a sensing chip is arranged in the sensor and comprises a control unit, and the step S1 comprises the step S11 that the control unit judges whether the handle end is connected to the host end or not, and then successful response between the endoscope and the host end is achieved. The further technical scheme is that the step S2 comprises S21, if the response with the host end is successful, the host end reads the unique ID code in the sensor and reads the hash value in the sensor. The method comprises the further technical scheme that a monitoring module is arranged in a host end, the control unit is connected with the monitoring module, the step S3 comprises the steps of S31, the host end obtains a first hash result according to unique ID codes and encryption algorithm calculation, the first hash result is compared with a hash value in a sensor, S32, if comparison fails, the state of locking and not drawing is adjusted, and S33, if comparison is successful, the monitoring module in the host end is started. The method comprises the following steps of S41, judging whether a power-on starting signal is received once or not, if the power-on starting signal is received once and exceeds the preset duration monitored by the monitoring module in real time, judging whether the preset upper limit of use of the endoscope is reached or not by the control unit, S42, judging whether the power-on starting signal is received once or not, if the power-on starting