CN115957447B - Operation detection system for calibratable light feeding instrument - Google Patents

Abstract

The invention discloses an operation detection system for a calibratable light-feeding instrument, which relates to the technical field of light-feeding instrument operation detection, and solves the technical problems that in the prior art, a light source in the light-feeding instrument cannot be controlled, and complementary colors cannot be timely carried out when the light source is used for controlling, and the light entering eyes of the light-feeding instrument is analyzed and detected to judge whether the light entering eyes in real time are qualified or not, so that a user is ensured not to be influenced when using the light-feeding instrument, the use efficiency of the light-feeding instrument is improved, the use danger of the light-feeding instrument to the user is reduced when the light-feeding instrument is used, and the use quality of the light-feeding instrument is enhanced; the light source in the real-time operation process of the light-feeding instrument is detected and controlled, so that the operation efficiency of the light-feeding instrument is improved, meanwhile, the light wavelength emitted by the light-feeding instrument is ensured to be consistent with the light wavelength of the incident eye through the light source control of the light-feeding instrument, the use quality of the corresponding light-feeding instrument of a user is enhanced, the operation efficiency of the light-feeding instrument is ensured, and the myopia inhibition benefit to the user is further improved.

Description

Operation detection system for calibratable light feeding instrument

Technical Field

The invention relates to the technical field of operation detection of a light feeding instrument, in particular to an operation detection system for a calibratable light feeding instrument.

Background

The light-feeding instrument integrates red light with the wavelength of 630-650 nanometers which is beneficial to human bodies in natural light to replace the natural light, and irradiates retina with safe power and effective time, so that the retina is promoted to produce and secrete more dopamine, and the eye axis is restrained from extending, thereby achieving the purpose of controlling myopia growth. Through the irradiation of the light beam of the light feeding instrument, the choroid at the back pole part of the eye is sufficiently supplied with blood, the blood carrying quantity is increased, the choroid is thickened, the sclera fiber is elastically restored, and the retina secretes dopamine, so that the length of an eye shaft is effectively controlled, the occurrence of myopia is further prevented, and the increment of myopia degree is controlled.

However, in the prior art, the light feeding instrument cannot detect the eye entering process of the eye entering light ray in the operation process, so that the use quality of a user cannot be guaranteed, and meanwhile, the light source in the light feeding instrument cannot be controlled, and the complementary color cannot be timely carried out when the light source is controlled, so that the eye entering wavelength cannot meet the set requirement.

In view of the above technical drawbacks, a solution is now proposed.

Disclosure of Invention

The invention aims to solve the problems, and provides a running detection system for a calibratable light-feeding instrument, which is used for collecting data in the real-time running process of the light-feeding instrument and judging whether the real-time running efficiency of the light-feeding instrument is qualified or not, so that the running efficiency of a user of the light-feeding instrument is monitored, the use quality of the user is improved, the convenience of the light-feeding instrument for the user is ensured, the situation that the user cannot reach the expected effect when using the light-feeding instrument is prevented, and the use risk of the user is increased easily; and detecting and analyzing each operation link of the light feeding instrument, and judging whether each operation link of the light feeding instrument is qualified, so that the operation efficiency of the light feeding instrument is ensured, whether the operation efficiency of the light feeding instrument is affected by the operation link of the light feeding instrument is accurately judged, and the use quality of a user is improved.

The aim of the invention can be achieved by the following technical scheme:

an operation detection system for a calibratable nursing instrument, comprising a server communicatively connected with:

the receiving light detection analysis unit is used for carrying out simulation analysis and detection on the eye-entering light rays of the light-feeding instrument, judging whether the real-time eye-entering light ray simulation operation is qualified or not, marking eyes of a user as a light-receiving main body, carrying out simulation operation on the light-receiving main body, obtaining a receiving light simulation detection analysis coefficient of the light-receiving main body during the simulation operation of the light-feeding instrument through analysis, comparing and generating a light-feeding instrument execution signal and a light-feeding instrument non-execution signal according to the receiving light simulation detection analysis coefficient, and sending the signals to the server;

the circuit control efficiency analysis unit is used for detecting and controlling the light sources in the real-time running process of the light feeding instrument, monitoring the running power of each light source in the running process of the light feeding instrument, stopping the running of the corresponding light source when the real-time running power of the light source exceeds the corresponding light source power threshold value, and otherwise, keeping the corresponding light source to run currently; when the operation of the light source is stopped, supplementing the complementary colors corresponding to the colors of the light rays of the light source with the stopped operation; analyzing the circuit control efficiency, generating a circuit control efficiency unqualified signal and a circuit control efficiency qualified signal through analysis, and sending the signals to a server;

the data acquisition and analysis unit is used for acquiring data in the real-time operation process of the light feeding instrument, judging whether the real-time operation efficiency of the light feeding instrument is qualified or not, generating an operation unqualified signal and an operation qualified signal through analysis, and sending the operation unqualified signal and the operation qualified signal to the server;

the operation link detection analysis unit is used for performing detection analysis on each operation link execution of the light feeding instrument, judging whether each operation link connection of the light feeding instrument is qualified or not, generating an operation link execution abnormal signal and an operation link execution normal signal through analysis, and sending the operation link execution abnormal signal and the operation link execution normal signal to the server.

As a preferred embodiment of the present invention, the operation of the received-light detection analysis unit is as follows:

collecting the difference value between the peripheral light intensity of the light receiving main body and the real-time light source eye-entering light intensity in the simulation operation process of the light feeding instrument; collecting buffer time length of receiving real-time light source light-in rays by a light receiving main body in a simulation operation process of the light feeding instrument, and floating frequency of the real-time light source light-in ray intensity in the simulation operation process;

obtaining a received light simulation detection analysis coefficient of a light receiving main body when the light feeding instrument operates through analysis;

comparing the received light analog detection analysis coefficient of the light receiving main body with an analog detection analysis coefficient threshold value: if the received light analog detection analysis coefficient of the light receiving main body exceeds the analog detection analysis coefficient threshold, judging that the received light analog detection analysis of the light receiving main body is qualified, generating a light feeding instrument execution signal and sending the light feeding instrument execution signal to a server; if the analog detection analysis coefficient of the received light of the light receiving main body does not exceed the analog detection analysis coefficient threshold, judging that the received light detection analysis of the light receiving main body is unqualified, generating a light meter non-execution signal and sending the light meter non-execution signal to a server.

As a preferred embodiment of the present invention, the analysis process of the circuit control efficiency is as follows:

the method comprises the steps of collecting interval time of execution of a complementary color light source when wavelengths are inconsistent in the operation process of a light feeding instrument and error values of the wavelength of emitted light and the required wavelength of light entering an eye after the operation of the complementary color light source, and comparing the interval time of execution of the complementary color light source when the wavelengths are inconsistent in the operation process of the light feeding instrument and the error values of the wavelength of emitted light and the required wavelength of light entering the eye after the operation of the complementary color light source with an interval time threshold and a wavelength error value threshold respectively:

if the interval duration executed by the complementary color light source does not exceed the interval duration threshold when the wavelengths are inconsistent in the operation process of the light feeding instrument, and the error value of the wavelength of the emitted light after the operation of the complementary color light source and the required wavelength of the incoming light does not exceed the wavelength error value threshold, generating a circuit control efficiency qualified signal and sending the circuit control efficiency qualified signal to a server; if the interval time length executed by the complementary color light source exceeds the interval time length threshold when the wavelengths are inconsistent in the running process of the light feeding instrument, or the error value of the wavelength of the emitted light after the operation of the complementary color light source and the required wavelength of the incoming light exceeds the wavelength error value threshold, generating a circuit control efficiency disqualification signal and sending the circuit control efficiency disqualification signal to a server.

As a preferred embodiment of the invention, the data acquisition and analysis unit operates as follows:

the method comprises the steps of collecting the difference floating frequency of the emitted light wavelength and the eye-entering demand wavelength of a light feeding instrument in the real-time operation process and the frequency of the increase of the intraocular pressure of a user when the light feeding instrument is used, and comparing the difference floating frequency with a difference floating frequency threshold and the frequency threshold of the increase of the intraocular pressure respectively:

if the difference floating frequency of the outgoing light wavelength and the eye-entering demand wavelength exceeds the difference floating frequency threshold in the real-time operation process of the light feeding instrument, or the frequency of the intraocular pressure increase exceeds the intraocular pressure increase frequency threshold when the light feeding instrument is used by a user, generating an operation disqualification signal and sending the operation disqualification signal to a server; if the difference floating frequency of the outgoing light wavelength and the eye-entering demand wavelength of the light feeding instrument does not exceed the difference floating frequency threshold in the real-time operation process, and the frequency of the intraocular pressure increase does not exceed the intraocular pressure increase frequency threshold when the light feeding instrument is used by a user, generating an operation qualified signal and sending the operation qualified signal to a server.

As a preferred embodiment of the present invention, the operation procedure of the operation link detection analysis unit is as follows:

collecting the adjacent connection buffer time length and the frequency of operation faults of the adjacent operation links in the same time period in the operation process of the light feeding instrument, and comparing the adjacent connection buffer time length and the frequency of operation faults of the adjacent operation links in the same time period with the connection buffer time length threshold and the simultaneous fault frequency threshold respectively:

if the adjacent connection buffer time length exceeds the connection buffer time length threshold value in the running process of each running link of the light feeding instrument or the frequency of running faults of the adjacent running links in the same time period exceeds the simultaneous fault frequency threshold value, judging that the running links of the light feeding instrument are abnormal, generating a running link execution abnormal signal and sending the running link execution abnormal signal to a server; if the adjacent connection buffer time length does not exceed the connection buffer time length threshold value and the frequency of operation faults of the adjacent operation links in the same time period does not exceed the simultaneous fault frequency threshold value in the operation process of the light feeding instrument, judging that the operation links of the light feeding instrument are normally executed, generating an operation link normal executing signal and sending the operation link normal executing signal to a server.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the incoming light of the light feeding instrument is analyzed and detected, and whether the incoming light is qualified or not is judged in real time, so that a user is ensured not to be influenced when using the light feeding instrument, the use efficiency of the light feeding instrument is improved, the use danger of the light feeding instrument to the user when in use is reduced, and the use quality of the light feeding instrument is enhanced; the light source in the real-time running process of the light-feeding instrument is detected and controlled, so that the running efficiency of the light-feeding instrument is improved, meanwhile, the light wavelength emitted by the light-feeding instrument is ensured to be consistent with the light wavelength of the incident eye through the light source control of the light-feeding instrument, the use quality of the corresponding light-feeding instrument of a user is enhanced, the running efficiency of the light-feeding instrument is ensured, and the myopia inhibition benefit to the user is further improved;

2. according to the invention, the real-time operation process of the light feeding instrument is subjected to data acquisition, and whether the real-time operation efficiency of the light feeding instrument is qualified or not is judged, so that the operation efficiency of a user of the light feeding instrument is monitored, the use quality of the user is improved, the convenience of the light feeding instrument for the user is ensured, the situation that the user cannot reach the expected effect when using the light feeding instrument is prevented, and the use risk of the user is increased easily; and detecting and analyzing each operation link of the light feeding instrument, and judging whether each operation link of the light feeding instrument is qualified, so that the operation efficiency of the light feeding instrument is ensured, whether the operation efficiency of the light feeding instrument is affected by the operation link of the light feeding instrument is accurately judged, and the use quality of a user is improved.

Drawings

The present invention is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.

FIG. 1 is a schematic block diagram of an operation detection system for a calibratable nursing instrument of the present invention.

Detailed Description

In order that those skilled in the art will better understand the present invention, a technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the invention. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

Referring to fig. 1, an operation detection system for a calibratable light feeding instrument includes a server, wherein the server is communicatively connected with a light receiving detection analysis unit, a circuit control efficiency analysis unit, a data acquisition analysis unit and an operation link detection analysis unit, and the server is in bidirectional communication connection with the light receiving detection analysis unit, the circuit control efficiency analysis unit, the data acquisition analysis unit and the operation link detection analysis unit;

the light-feeding instrument is divided into a detection link, a light source link, a circuit link and a software link in the use process, wherein the detection link is an indispensable ring in the light-feeding instrument system and can be used for directly detecting the light intensity of the eye; the light source link consists of light sources with corresponding wavelengths, and two groups of light sources are arranged, and aiming at a single eye, the light sources are not limited to lasers, LEDs and the like; the circuit link is controlled by a circuit control system, so that the intensity and the switch of each light source can be controlled independently, the output power of the light source can be detected, and the light source can be automatically turned off when exceeding a threshold value; the software link can collect the numerical value of the detection part, select to calibrate the light source, set the optical parameters according to the physiological condition of the user, and adjust the parameters independently according to the physiological model;

in the running process of the light-feeding instrument, the server generates a received light detection analysis signal and sends the received light detection analysis signal to the received light detection analysis unit, and after the received light detection analysis unit receives the received light detection analysis signal, the light entering the eyes of the light-feeding instrument is analyzed and detected to judge whether the light entering the eyes in real time is qualified or not, so that a user is ensured not to be influenced when using the light-feeding instrument, the use efficiency of the light-feeding instrument is improved, the use danger of the light-feeding instrument to the user is reduced, and the use quality of the light-feeding instrument is enhanced;

marking eyes of a user as a light receiving main body, carrying out simulation operation on the light receiving main body, collecting a difference value between the peripheral light intensity of the light receiving main body and the real-time light source eye-entering light intensity in the simulation operation process of a light feeding instrument, and marking the difference value between the peripheral light intensity of the light receiving main body and the real-time light source eye-entering light intensity in the simulation operation process of the light feeding instrument as QDC; collecting the buffer time length of the light receiving main body receiving the real-time light source eye light ray in the simulation operation process of the light feeding instrument and the floating frequency of the real-time light source eye light ray intensity in the simulation operation process, and respectively marking the buffer time length of the light receiving main body receiving the real-time light source eye light ray in the simulation operation process of the light feeding instrument and the floating frequency of the real-time light source eye light ray intensity in the simulation operation process as HCS and ZJL;

by the formulaObtaining a received light simulation detection analysis coefficient C of a light receiving main body when the light feeding instrument operates, wherein a1, a2 and a3 are preset proportionality coefficients, a1 is more than a2 and more than a3 and more than 0, beta is an error correction factor, and the value is 0.9856;

comparing the received light analog detection analysis coefficient C of the light receiving main body with an analog detection analysis coefficient threshold value:

if the received light analog detection analysis coefficient C of the light receiving main body exceeds the analog detection analysis coefficient threshold, judging that the received light analog detection analysis of the light receiving main body is qualified, generating a light feeding instrument execution signal and sending the light feeding instrument execution signal to a server; if the received light analog detection analysis coefficient C of the light receiving main body does not exceed the analog detection analysis coefficient threshold, judging that the received light detection analysis of the light receiving main body is unqualified, generating a light feeding instrument non-execution signal and sending the light feeding instrument non-execution signal to a server; after receiving the non-execution signal of the light feeding instrument, the server controls the operation of the light feeding instrument;

the server generates a circuit control efficiency analysis signal and sends the circuit control efficiency analysis signal to the circuit control efficiency analysis unit, and after the circuit control efficiency analysis unit receives the circuit control efficiency analysis signal, the circuit control efficiency analysis unit detects and controls a light source in the real-time operation process of the light feeding instrument, so that the operation efficiency of the light feeding instrument is improved, meanwhile, the light source control of the light feeding instrument ensures that the wavelength of light emitted by the light feeding instrument is consistent with the wavelength of light entering eyes, the use quality of the light feeding instrument corresponding to a user is enhanced, the operation efficiency of the light feeding instrument is ensured, and the myopia inhibition benefit to the user is further improved;

monitoring the operation power of each light source in the operation process of the light feeding instrument, stopping the operation of the corresponding light source when the real-time operation power of the light source exceeds the power threshold value of the corresponding light source, otherwise, keeping the current operation of the corresponding light source; when the operation of the light source is stopped, supplementing the light source with the complementary color corresponding to the light color of the light source with the stopped operation, and operating the light source with the complementary color or increasing the operating power, so as to ensure the consistency of the wavelength of the light emitted by the real-time light feeding instrument and the wavelength of the light entering the eye; in the prior art, the visible spectrum is enclosed into a circular ring and divided into nine areas, which are called color rings, the numbers on the color rings represent the wavelengths of corresponding color lights, the units are nanometers, and the colors in any two opposite-top position sectors on the color rings are mutually called complementary colors; for example, the complementary color of blue (435 to 480 nm) is yellow (580 to 595 nm);

the method comprises the steps of collecting interval time of execution of a complementary color light source when wavelengths are inconsistent in the operation process of a light feeding instrument and error values of the wavelength of emitted light and the required wavelength of light entering an eye after the operation of the complementary color light source, and comparing the interval time of execution of the complementary color light source when the wavelengths are inconsistent in the operation process of the light feeding instrument and the error values of the wavelength of emitted light and the required wavelength of light entering the eye after the operation of the complementary color light source with an interval time threshold and a wavelength error value threshold respectively:

if the interval duration executed by the complementary color light source does not exceed the interval duration threshold when the wavelengths are inconsistent in the operation process of the light feeding instrument, and the error value of the wavelength of the emitted light after the operation of the complementary color light source and the required wavelength of the incoming light does not exceed the wavelength error value threshold, judging that the circuit control efficiency in the operation process of the light feeding instrument is analyzed to be qualified, generating a circuit control efficiency qualified signal and transmitting the circuit control efficiency qualified signal to a server;

if the interval duration executed by the complementary color light source exceeds the interval duration threshold when the wavelengths are inconsistent in the operation process of the light feeding instrument, or if the error value of the wavelength of the emitted light after the operation of the complementary color light source and the required wavelength of the incoming light exceeds the wavelength error value threshold, judging that the circuit control efficiency analysis in the operation process of the light feeding instrument is unqualified, generating a circuit control efficiency unqualified signal and sending the circuit control efficiency unqualified signal to a server; after receiving the unqualified signal of the circuit control efficiency, the server adjusts the circuit control of the corresponding light feeding instrument, ensures the timeliness and the effectiveness of the operation of the complementary color light source, ensures that the efficiency of wavelength adjustment through the light source control is qualified, so that the cost of the light source control is not increased;

the server generates a data acquisition analysis signal and sends the data acquisition analysis signal to the data acquisition analysis unit, the data acquisition analysis unit acquires data in the real-time operation process of the light-feeding instrument after receiving the data acquisition analysis signal, and judges whether the real-time operation efficiency of the light-feeding instrument is qualified or not, so that the operation efficiency of a user of the light-feeding instrument is monitored, the use quality of the user is improved, the convenience of the light-feeding instrument for the user is ensured, the situation that the user cannot reach the expected effect when using the light-feeding instrument is prevented, and the use risk of the user is easily increased;

collecting the difference floating frequency of the light emitting wavelength and the eye entering demand wavelength of the light feeding instrument in the real-time operation process and the frequency of the intraocular pressure increase of a user when the light feeding instrument is used, and comparing the difference floating frequency of the light emitting wavelength and the eye entering demand wavelength of the light feeding instrument in the real-time operation process and the frequency of the intraocular pressure increase of the user when the light feeding instrument is used with a difference floating frequency threshold and an intraocular pressure increase frequency threshold respectively:

if the difference floating frequency of the emitted light wavelength and the eye-entering demand wavelength exceeds the difference floating frequency threshold in the real-time operation process of the light feeding instrument, or the frequency of the intraocular pressure increase exceeds the intraocular pressure increase frequency threshold when the light feeding instrument is used by a user, judging that the current user's light feeding instrument is unqualified in use, generating an unqualified operation signal and sending the unqualified operation signal to a server, and after receiving the unqualified operation signal, carrying out parameter adjustment on the corresponding light feeding instrument, and simultaneously matching the corresponding user with the proper light feeding instrument;

if the difference floating frequency of the emitted light wavelength and the eye-entering demand wavelength of the light feeding instrument does not exceed the difference floating frequency threshold value in the real-time operation process, and the frequency of the intraocular pressure increase does not exceed the intraocular pressure increase frequency threshold value when the light feeding instrument is used by a user, judging that the light feeding instrument of the current user is qualified in use, generating an operation qualified signal and sending the operation qualified signal to a server;

the server generates an operation link detection analysis signal and sends the operation link detection analysis signal to the operation link detection analysis unit, and after the operation link detection analysis unit receives the operation link detection analysis signal, each operation link of the light feeding instrument is executed to carry out detection analysis, and whether each operation link of the light feeding instrument is connected is judged to be qualified or not is judged, so that the operation efficiency of the light feeding instrument is ensured, whether the operation efficiency is influenced or not is accurately judged, and the use quality of a user is improved;

collecting the adjacent connection buffer time length and the frequency of operation faults of the adjacent operation links in the same time period in the operation process of the light feeding instrument, and comparing the adjacent connection buffer time length and the frequency of operation faults of the adjacent operation links in the same time period with the connection buffer time length threshold and the simultaneous fault frequency threshold respectively:

if the adjacent connection buffer time length exceeds the connection buffer time length threshold value in the running process of the light feeding instrument or the frequency of running faults of the adjacent running links in the same time period exceeds the simultaneous fault frequency threshold value, judging that the running links of the light feeding instrument are abnormal, generating a running link execution abnormal signal and sending the running link execution abnormal signal to a server, and executing the corresponding running links of the light feeding instrument to complete a whole after the server receives the running link execution abnormal signal, so that the execution qualification rate of each running link is ensured;

if the adjacent connection buffer time length does not exceed the connection buffer time length threshold value and the frequency of operation faults of the adjacent operation links in the same time period does not exceed the simultaneous fault frequency threshold value in the operation process of the light feeding instrument, judging that the operation links of the light feeding instrument are normally executed, generating an operation link normal executing signal and sending the operation link normal executing signal to a server.

The formulas are all formulas obtained by collecting a large amount of data for software simulation and selecting a formula close to a true value, and coefficients in the formulas are set by a person skilled in the art according to actual conditions;

when the light receiving device is used, the light receiving detection analysis unit is used for carrying out simulation analysis and detection on the eye-entering light of the light feeding instrument, judging whether real-time eye-entering light simulation operation is qualified or not, marking eyes of a user as a light receiving main body, carrying out simulation operation on the light receiving main body, obtaining the light receiving simulation detection analysis coefficient of the light receiving main body during the simulation operation of the light feeding instrument through analysis, comparing and generating a light feeding instrument executing signal and a light feeding instrument non-executing signal according to the light receiving simulation detection analysis coefficient, and sending the light feeding instrument executing signal and the light feeding instrument non-executing signal to a server; detecting and controlling the light sources in the real-time running process of the light feeding instrument through the circuit control efficiency analysis unit, monitoring the running power of each light source in the running process of the light feeding instrument, stopping the running of the corresponding light source when the real-time running power of the light source exceeds the corresponding light source power threshold value, otherwise, keeping the corresponding light source to run currently; when the operation of the light source is stopped, supplementing the complementary colors corresponding to the colors of the light rays of the light source with the stopped operation; analyzing the circuit control efficiency, generating a circuit control efficiency unqualified signal and a circuit control efficiency qualified signal through analysis, and sending the signals to a server; the real-time operation process of the light feeding instrument is subjected to data acquisition through the data acquisition and analysis unit, whether the real-time operation efficiency of the light feeding instrument is qualified or not is judged, an operation disqualification signal and an operation qualification signal are generated through analysis, and the operation disqualification signal and the operation qualification signal are sent to the server; and detecting and analyzing each operation link execution of the light feeding instrument by an operation link detection and analysis unit, judging whether each operation link connection of the light feeding instrument is qualified or not, generating an operation link execution abnormal signal and an operation link execution normal signal by analysis, and sending the signals to a server.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (1)

1. An operation detection system for a calibratable nursing instrument, comprising a server communicatively connected with:

the receiving light detection analysis unit is used for carrying out simulation analysis and detection on the eye-entering light rays of the light-feeding instrument, judging whether the real-time eye-entering light ray simulation operation is qualified or not, marking eyes of a user as a light-receiving main body, carrying out simulation operation on the light-receiving main body, obtaining a receiving light simulation detection analysis coefficient of the light-receiving main body during the simulation operation of the light-feeding instrument through analysis, comparing and generating a light-feeding instrument execution signal and a light-feeding instrument non-execution signal according to the receiving light simulation detection analysis coefficient, and sending the signals to the server;

the circuit control efficiency analysis unit is used for detecting and controlling the light sources in the real-time running process of the light feeding instrument, monitoring the running power of each light source in the running process of the light feeding instrument, stopping the running of the corresponding light source when the real-time running power of the light source exceeds the corresponding light source power threshold value, and otherwise, keeping the corresponding light source to run currently; when the operation of the light source is stopped, supplementing the complementary colors corresponding to the colors of the light rays of the light source with the stopped operation; analyzing the circuit control efficiency, generating a circuit control efficiency unqualified signal and a circuit control efficiency qualified signal through analysis, and sending the signals to a server;

the data acquisition and analysis unit is used for acquiring data in the real-time operation process of the light feeding instrument, judging whether the real-time operation efficiency of the light feeding instrument is qualified or not, generating an operation unqualified signal and an operation qualified signal through analysis, and sending the operation unqualified signal and the operation qualified signal to the server;

the running link detection analysis unit is used for performing detection analysis on each running link of the light feeding instrument, judging whether each running link of the light feeding instrument is qualified or not, generating a running link execution abnormal signal and a running link execution normal signal through analysis, and sending the running link execution abnormal signal and the running link execution normal signal to the server;

the operation process of the received light detection and analysis unit is as follows:

collecting the difference value between the peripheral light intensity of the light receiving main body and the real-time light source eye-entering light intensity in the simulation operation process of the light feeding instrument, and marking the difference value between the peripheral light intensity of the light receiving main body and the real-time light source eye-entering light intensity in the simulation operation process of the light feeding instrument as QDC; collecting the buffer time length of the light receiving main body receiving the real-time light source eye light ray in the simulation operation process of the light feeding instrument and the floating frequency of the real-time light source eye light ray intensity in the simulation operation process, and respectively marking the buffer time length of the light receiving main body receiving the real-time light source eye light ray in the simulation operation process of the light feeding instrument and the floating frequency of the real-time light source eye light ray intensity in the simulation operation process as HCS and ZJL;

by the formulaObtaining a received light simulation detection analysis coefficient C of a light receiving main body when the light feeding instrument operates, wherein a1, a2 and a3 are preset proportionality coefficients, a1 is more than a2 and more than a3 and more than 0, beta is an error correction factor, and the value is 0.9856;

comparing the received light analog detection analysis coefficient C of the light receiving main body with an analog detection analysis coefficient threshold value:

if the received light analog detection analysis coefficient C of the light receiving main body exceeds the analog detection analysis coefficient threshold, judging that the received light analog detection analysis of the light receiving main body is qualified, generating a light feeding instrument execution signal and sending the light feeding instrument execution signal to a server; if the received light analog detection analysis coefficient C of the light receiving main body does not exceed the analog detection analysis coefficient threshold, judging that the received light detection analysis of the light receiving main body is unqualified, generating a light feeding instrument non-execution signal and sending the light feeding instrument non-execution signal to a server;

the analysis process of the circuit control efficiency is as follows:

the method comprises the steps of collecting interval time of execution of a complementary color light source when wavelengths are inconsistent in the operation process of a light feeding instrument and error values of the wavelength of emitted light and the required wavelength of light entering an eye after the operation of the complementary color light source, and comparing the interval time of execution of the complementary color light source when the wavelengths are inconsistent in the operation process of the light feeding instrument and the error values of the wavelength of emitted light and the required wavelength of light entering the eye after the operation of the complementary color light source with an interval time threshold and a wavelength error value threshold respectively:

if the interval duration executed by the complementary color light source does not exceed the interval duration threshold when the wavelengths are inconsistent in the operation process of the light feeding instrument, and the error value of the wavelength of the emitted light after the operation of the complementary color light source and the required wavelength of the incoming light does not exceed the wavelength error value threshold, generating a circuit control efficiency qualified signal and sending the circuit control efficiency qualified signal to a server; if the interval time length executed by the complementary color light source exceeds the interval time length threshold when the wavelengths are inconsistent in the running process of the light feeding instrument, or if the error value of the wavelength of the emitted light after the operation of the complementary color light source and the required wavelength of the incoming light exceeds the wavelength error value threshold, generating a circuit control efficiency disqualification signal and sending the circuit control efficiency disqualification signal to a server;

the operation process of the data acquisition and analysis unit is as follows:

the method comprises the steps of collecting the difference floating frequency of the emitted light wavelength and the eye-entering demand wavelength of a light feeding instrument in the real-time operation process and the frequency of the increase of the intraocular pressure of a user when the light feeding instrument is used, and comparing the difference floating frequency with a difference floating frequency threshold and the frequency threshold of the increase of the intraocular pressure respectively:

if the difference floating frequency of the outgoing light wavelength and the eye-entering demand wavelength exceeds the difference floating frequency threshold in the real-time operation process of the light feeding instrument, or the frequency of the intraocular pressure increase exceeds the intraocular pressure increase frequency threshold when the light feeding instrument is used by a user, generating an operation disqualification signal and sending the operation disqualification signal to a server; if the difference floating frequency of the outgoing light wavelength and the eye-entering demand wavelength of the light feeding instrument does not exceed the difference floating frequency threshold value in the real-time operation process, and the frequency of the intraocular pressure increase does not exceed the intraocular pressure increase frequency threshold value when the light feeding instrument is used by a user, generating an operation qualified signal and sending the operation qualified signal to a server;

the operation process of the operation link detection and analysis unit is as follows:

collecting the adjacent connection buffer time length and the frequency of operation faults of the adjacent operation links in the same time period in the operation process of the light feeding instrument, and comparing the adjacent connection buffer time length and the frequency of operation faults of the adjacent operation links in the same time period with the connection buffer time length threshold and the simultaneous fault frequency threshold respectively:

if the adjacent connection buffer time length exceeds the connection buffer time length threshold value in the running process of each running link of the light feeding instrument or the frequency of running faults of the adjacent running links in the same time period exceeds the simultaneous fault frequency threshold value, judging that the running links of the light feeding instrument are abnormal, generating a running link execution abnormal signal and sending the running link execution abnormal signal to a server; if the adjacent connection buffer time length does not exceed the connection buffer time length threshold value and the frequency of operation faults of the adjacent operation links in the same time period does not exceed the simultaneous fault frequency threshold value in the operation process of the light feeding instrument, judging that the operation links of the light feeding instrument are normally executed, generating an operation link normal executing signal and sending the operation link normal executing signal to a server.