阅读说明：本技术 超声探测仪器缆线安全监测系统及存储介质 (Cable safety monitoring system of ultrasonic detector and storage medium ) 是由 谢新锋 于 2021-09-06 设计创作，主要内容包括：本发明涉及一种超声探测仪器缆线安全监测系统,所述系统包括：超声探测仪器,包括探头、缆线、控制板、显示屏和输入设备；负荷分析机构,与所述控制板连接,用于获取所述控制板的控制芯片当前的运算负荷；内容辨识机构,用于获取接收到的缆线曲线的各个弯曲处分别对应的各个曲率数值,并在所述缆线曲线的各个弯曲处分别对应的各个曲率数值中存在超过预设曲率数值的曲率数值时,发出过于弯曲信号。本发明还涉及一种超声探测仪器缆线安全监测方法。通过本发明,能够采用智能化检测机制对当前运行状态下的超声医疗设备的缆线的弯曲程度进行辨别,并在存在过于弯曲的缆线时及时通知相关人员,从而提升了超声探测仪器的安全性和可靠性。(The invention relates to a cable safety monitoring system of an ultrasonic detection instrument, which comprises: the ultrasonic detection instrument comprises a probe, a cable, a control panel, a display screen and input equipment; the load analysis mechanism is connected with the control panel and is used for acquiring the current operation load of a control chip of the control panel; the content identification mechanism is used for acquiring each curvature value corresponding to each bending part of the received cable curve, and sending an over-bending signal when the curvature value exceeding a preset curvature value exists in each curvature value corresponding to each bending part of the cable curve. The invention also relates to a cable safety monitoring method of the ultrasonic detection instrument. According to the invention, the bending degree of the cable of the ultrasonic medical equipment in the current running state can be distinguished by adopting an intelligent detection mechanism, and related personnel can be timely notified when the cable which is too bent exists, so that the safety and reliability of the ultrasonic detection instrument are improved.)

1. An ultrasonic instrumentation cable safety monitoring system, the system comprising:

the ultrasonic detection instrument comprises a probe, a cable, a control panel, a display screen and input equipment, wherein the probe is arranged at one end of the cable, the other end of the cable is connected with the control panel, and the control panel is also respectively connected with the display screen and the input equipment;

and the information monitoring mechanism is connected with the ultrasonic detection instrument and is used for monitoring whether the ultrasonic detection instrument is in the running state currently or not and sending a first monitoring signal when the ultrasonic detection instrument is confirmed to be in the running state currently.

2. The ultrasonic probe cable safety monitoring system of claim 1, wherein:

and the information monitoring mechanism is also used for sending a second monitoring signal when the ultrasonic detection instrument is confirmed to be in the shutdown state currently.

3. The ultrasonic probe cable safety monitoring system of claim 2, further comprising:

the load analysis mechanism is connected with the control panel and is used for acquiring the current operation load of a control chip of the control panel;

the data capturing device is connected with the information monitoring mechanism and used for executing image capturing action facing the cable when the first monitoring signal is received so as to obtain a corresponding wiring captured image;

the first-level operation device is connected with the data capture device and used for executing affine transformation operation on the received wiring capture image to obtain a corresponding first-level operation image;

the secondary operation device is connected with the primary operation device and used for carrying out edge sharpening operation on the received primary operation image so as to obtain a corresponding secondary operation image;

the three-level operation device is connected with the two-level operation device and used for executing trap filtering operation on the received two-level operation image so as to obtain a corresponding three-level operation image;

a paint color extracting mechanism connected with the three-stage operation device and used for extracting a cable imaging area in the three-stage operation image according to the paint color of the cable;

the field fitting mechanism is connected with the paint color extracting mechanism and used for fitting a cable imaging area in the three-level operation image into a cable curve;

the content identification mechanism is connected with the field fitting mechanism and is used for acquiring each curvature value corresponding to each bending part of the cable curve respectively and sending an over-bending signal when the curvature value exceeding a preset curvature value exists in each curvature value corresponding to each bending part of the cable curve respectively;

the content identification mechanism is further configured to obtain curvature values corresponding to the respective bends of the cable curve, and send a bending reliability signal when no curvature value exceeding the preset curvature value exists in the respective curvature values corresponding to the respective bends of the cable curve;

wherein the data capture device is further configured to stop performing an image capture action facing the cable upon receiving the second monitoring signal;

wherein extracting a cable imaging region in the tertiary operation image according to the painting color of the cable comprises: and taking the pixel points of which the numerical values of the color channels in the three-level operation image are matched with the painting colors of the cables as single pixel points forming the cable imaging area in the three-level operation image.

4. The ultrasonic probe cable safety monitoring system of claim 3, wherein:

the step of taking the pixel point of which the numerical value of the color channel in the tertiary operation image is matched with the painting color of the cable as a single pixel point constituting the cable imaging area in the tertiary operation image comprises the following steps: the color channels are a red-green color channel, a black-white color channel and a yellow-blue color channel in an LAB space.

5. The ultrasonic probe cable safety monitoring system of claim 3, wherein:

the information monitoring mechanism is connected with the load analysis mechanism and is used for monitoring whether the ultrasonic detection instrument is in a running state currently or not based on the received current operation load of the control chip of the control panel;

wherein the information monitoring mechanism is connected with the load analysis mechanism and used for monitoring whether the ultrasonic detection instrument is currently in the running state or not based on the received current operation load of the control chip of the control panel, and the monitoring method comprises the following steps: and when the received current operation load of the control chip of the control panel exceeds or equals to a preset load threshold value, judging that the ultrasonic detection instrument is in a running state currently.

6. A computer program storage medium storing a computer program for performing the steps of a method for cable safety monitoring of an ultrasound probe, the method comprising:

the ultrasonic detection instrument comprises a probe, a cable, a control panel, a display screen and input equipment, wherein the probe is arranged at one end of the cable, the other end of the cable is connected with the control panel, and the control panel is also respectively connected with the display screen and the input equipment;

and the use information monitoring mechanism is connected with the ultrasonic detection instrument and is used for monitoring whether the ultrasonic detection instrument is in the running state currently or not and sending a first monitoring signal when the ultrasonic detection instrument is confirmed to be in the running state currently.

7. The computer program storage medium of claim 6, wherein:

and the information monitoring mechanism is also used for sending a second monitoring signal when the ultrasonic detection instrument is confirmed to be in the shutdown state currently.

8. The computer program storage medium of claim 7, wherein the method further comprises:

the load analysis mechanism is connected with the control panel and is used for acquiring the current operation load of a control chip of the control panel;

a data capturing device connected with the information monitoring mechanism and used for executing image capturing action facing the cable when the first monitoring signal is received so as to obtain a corresponding wiring captured image;

using a primary operation device connected to the data capture device for performing an affine transformation operation on the received wiring captured image to obtain a corresponding primary operation image;

using a secondary operation device, connected with the primary operation device, for performing an edge sharpening operation on the received primary operation image to obtain a corresponding secondary operation image;

using a three-level operation device connected with the two-level operation device and used for executing trap filtering operation on the received two-level operation image to obtain a corresponding three-level operation image;

using a paint color extracting mechanism connected with the three-stage operation device for extracting a cable imaging area in the three-stage operation image according to the paint color of the cable;

a field fitting mechanism is used and connected with the paint color extraction mechanism and used for fitting a cable imaging area in the three-level operation image into a cable curve;

the use content identification mechanism is connected with the field fitting mechanism and is used for acquiring each curvature value corresponding to each bending part of the cable curve respectively and sending an over-bending signal when the curvature value exceeding a preset curvature value exists in each curvature value corresponding to each bending part of the cable curve respectively;

the content identification mechanism is further configured to obtain curvature values corresponding to the respective bends of the cable curve, and send a bending reliability signal when no curvature value exceeding the preset curvature value exists in the respective curvature values corresponding to the respective bends of the cable curve;

wherein the data capture device is further configured to stop performing an image capture action facing the cable upon receiving the second monitoring signal;

wherein extracting a cable imaging region in the tertiary operation image according to the painting color of the cable comprises: and taking the pixel points of which the numerical values of the color channels in the three-level operation image are matched with the painting colors of the cables as single pixel points forming the cable imaging area in the three-level operation image.

9. The computer program storage medium of claim 8, wherein:

the step of taking the pixel point of which the numerical value of the color channel in the tertiary operation image is matched with the painting color of the cable as a single pixel point constituting the cable imaging area in the tertiary operation image comprises the following steps: the color channels are a red-green color channel, a black-white color channel and a yellow-blue color channel in an LAB space.

10. The computer program storage medium of claim 8, wherein:

the information monitoring mechanism is connected with the load analysis mechanism and is used for monitoring whether the ultrasonic detection instrument is in a running state currently or not based on the received current operation load of the control chip of the control panel;

wherein the information monitoring mechanism is connected with the load analysis mechanism and used for monitoring whether the ultrasonic detection instrument is currently in the running state or not based on the received current operation load of the control chip of the control panel, and the monitoring method comprises the following steps: and when the received current operation load of the control chip of the control panel exceeds or equals to a preset load threshold value, judging that the ultrasonic detection instrument is in a running state currently.

Technical Field

The invention relates to the field of ultrasonic medical equipment, in particular to a cable safety monitoring system of an ultrasonic detection instrument and a storage medium.

Background

An ultrasonic instrument is also called as an ultrasonic instrument, is a medical instrument developed according to the ultrasonic principle and is applied to the medical clinical, diagnostic and sanitary fields. The ultrasonic diagnostic apparatus mainly refers to an ultrasonic diagnostic apparatus in a medical image system, and has the characteristics of low price compared with CT and MRI, no wound and real-time acquisition of human tissue images, so the clinical application range is wider and wider, and the increase of the total sales in the world is expected to exceed that of an X-ray diagnostic apparatus. The ultrasonic wave is a sound wave with the frequency higher than 20000Hz, has good directivity and strong penetrating power, is easy to obtain more concentrated sound energy, has long propagation distance in water, and can be used for distance measurement, speed measurement, cleaning, welding, stone breaking, sterilization, disinfection and the like. The method has a plurality of applications in medicine, military, industry and agriculture.

Currently, when medical diagnosis is performed on a part such as the abdomen of a patient using an ultrasonic medical apparatus, a cable connecting a probe of the ultrasonic medical apparatus needs to be folded or bent according to the position and the body part of the patient, however, if the folding or bending width of the cable is too large, an accident that the ultrasonic medical apparatus makes a diagnosis error or even the inside of the ultrasonic medical apparatus is short-circuited is easily caused.

Disclosure of Invention

In order to solve the technical problems in the related field, the invention provides an ultrasonic detection instrument cable safety monitoring system and a storage medium, which can adopt an intelligent detection mechanism to distinguish the bending degree of a cable of ultrasonic medical equipment in a current running state, and inform related personnel in time when the cable is excessively bent so as to avoid safety accidents or diagnosis errors.

For this reason, the present invention needs to have at least the following important points:

(1) when bending positions with overlarge curvatures exist at the bending positions of the cable, the cable is judged to be in a state which is easy to cause operation errors or internal short circuit for an ultrasonic detection instrument comprising a probe, the cable, a control panel, a display screen and input equipment;

(2) a visual resolution mechanism based on paint color is used to identify the cables in the image and the identified cable imaging regions are fitted to obtain a cable curve that can be used for curvature analysis.

According to an aspect of the present invention, there is provided an ultrasonic probe cable safety monitoring system, the system comprising:

the ultrasonic detection instrument comprises a probe, a cable, a control panel, a display screen and input equipment, wherein the probe is arranged at one end of the cable, the other end of the cable is connected with the control panel, and the control panel is also respectively connected with the display screen and the input equipment;

and the information monitoring mechanism is connected with the ultrasonic detection instrument and is used for monitoring whether the ultrasonic detection instrument is in the running state currently or not and sending a first monitoring signal when the ultrasonic detection instrument is confirmed to be in the running state currently.

More specifically, in the ultrasonic probe cable safety monitoring system:

and the information monitoring mechanism is also used for sending a second monitoring signal when the ultrasonic detection instrument is confirmed to be in the shutdown state currently.

More specifically, in the ultrasonic probe cable safety monitoring system, the system further comprises:

the load analysis mechanism is connected with the control panel and is used for acquiring the current operation load of a control chip of the control panel;

the data capturing device is connected with the information monitoring mechanism and used for executing image capturing action facing the cable when the first monitoring signal is received so as to obtain a corresponding wiring captured image;

the first-level operation device is connected with the data capture device and used for executing affine transformation operation on the received wiring capture image to obtain a corresponding first-level operation image;

the secondary operation device is connected with the primary operation device and used for carrying out edge sharpening operation on the received primary operation image so as to obtain a corresponding secondary operation image;

the three-level operation device is connected with the two-level operation device and used for executing trap filtering operation on the received two-level operation image so as to obtain a corresponding three-level operation image;

a paint color extracting mechanism connected with the three-stage operation device and used for extracting a cable imaging area in the three-stage operation image according to the paint color of the cable;

the field fitting mechanism is connected with the paint color extracting mechanism and used for fitting a cable imaging area in the three-level operation image into a cable curve;

the content identification mechanism is connected with the field fitting mechanism and is used for acquiring each curvature value corresponding to each bending part of the cable curve respectively and sending an over-bending signal when the curvature value exceeding a preset curvature value exists in each curvature value corresponding to each bending part of the cable curve respectively;

the content identification mechanism is further configured to obtain curvature values corresponding to the respective bends of the cable curve, and send a bending reliability signal when no curvature value exceeding the preset curvature value exists in the respective curvature values corresponding to the respective bends of the cable curve;

wherein the data capture device is further configured to stop performing an image capture action facing the cable upon receiving the second monitoring signal;

wherein extracting a cable imaging region in the tertiary operation image according to the painting color of the cable comprises: and taking the pixel points of which the numerical values of the color channels in the three-level operation image are matched with the painting colors of the cables as single pixel points forming the cable imaging area in the three-level operation image.

According to another aspect of the present invention, there is also provided a computer program storage medium for storing a computer program for executing the steps of a method for cable safety monitoring of an ultrasonic probe, the method comprising:

the ultrasonic detection instrument comprises a probe, a cable, a control panel, a display screen and input equipment, wherein the probe is arranged at one end of the cable, the other end of the cable is connected with the control panel, and the control panel is also respectively connected with the display screen and the input equipment;

and the use information monitoring mechanism is connected with the ultrasonic detection instrument and is used for monitoring whether the ultrasonic detection instrument is in the running state currently or not and sending a first monitoring signal when the ultrasonic detection instrument is confirmed to be in the running state currently.

More specifically, the computer program storage medium relates to a method, further comprising:

and the information monitoring mechanism is also used for sending a second monitoring signal when the ultrasonic detection instrument is confirmed to be in the shutdown state currently.

More specifically, the computer program storage medium relates to a method, further comprising:

the load analysis mechanism is connected with the control panel and is used for acquiring the current operation load of a control chip of the control panel;

a data capturing device connected with the information monitoring mechanism and used for executing image capturing action facing the cable when the first monitoring signal is received so as to obtain a corresponding wiring captured image;

using a primary operation device connected to the data capture device for performing an affine transformation operation on the received wiring captured image to obtain a corresponding primary operation image;

using a secondary operation device, connected with the primary operation device, for performing an edge sharpening operation on the received primary operation image to obtain a corresponding secondary operation image;

using a three-level operation device connected with the two-level operation device and used for executing trap filtering operation on the received two-level operation image to obtain a corresponding three-level operation image;

using a paint color extracting mechanism connected with the three-stage operation device for extracting a cable imaging area in the three-stage operation image according to the paint color of the cable;

a field fitting mechanism is used and connected with the paint color extraction mechanism and used for fitting a cable imaging area in the three-level operation image into a cable curve;

the use content identification mechanism is connected with the field fitting mechanism and is used for acquiring each curvature value corresponding to each bending part of the cable curve respectively and sending an over-bending signal when the curvature value exceeding a preset curvature value exists in each curvature value corresponding to each bending part of the cable curve respectively;

the content identification mechanism is further configured to obtain curvature values corresponding to the respective bends of the cable curve, and send a bending reliability signal when no curvature value exceeding the preset curvature value exists in the respective curvature values corresponding to the respective bends of the cable curve;

wherein the data capture device is further configured to stop performing an image capture action facing the cable upon receiving the second monitoring signal;

wherein extracting a cable imaging region in the tertiary operation image according to the painting color of the cable comprises: and taking the pixel points of which the numerical values of the color channels in the three-level operation image are matched with the painting colors of the cables as single pixel points forming the cable imaging area in the three-level operation image.

The cable safety monitoring system and the storage medium of the ultrasonic detecting instrument are stable in operation and convenient to operate. The bending degree of the cable of the ultrasonic medical equipment in the current running state can be distinguished by adopting an intelligent detection mechanism, and related personnel are timely informed when the cable which is too bent exists, so that the safety and the reliability of the ultrasonic detection instrument are improved.

Detailed Description

Scientists refer to the number of vibrations per second as the frequency of sound, which is in hertz (Hz). The frequency of sound wave which can be heard by our human ear is 20 Hz-20000 Hz. When the vibration frequency of the sound wave is less than 20Hz or more than 20KHz, the sound wave is not audible. Therefore, we refer to sound waves with frequencies above 20000 hertz as "ultrasound". The ultrasonic frequency generally used for medical diagnosis is 1 mhz to 5 mhz.

The working principle of medical ultrasonography is similar to that of sonar, that is, ultrasonic waves are emitted into the human body, reflected and refracted when they meet an interface in the body, and may be absorbed and attenuated in the tissues of the body. Because the various tissues of the body are not identical in morphology and structure, and therefore reflect and refract ultrasound waves to different degrees, physicians distinguish them by the wave patterns, curves, or images that they reflect. In addition, the combination of anatomical knowledge, normal and pathological changes can diagnose whether the examined organ is diseased.

Currently, when medical diagnosis is performed on a part such as the abdomen of a patient using an ultrasonic medical apparatus, a cable connecting a probe of the ultrasonic medical apparatus needs to be folded or bent according to the position and the body part of the patient, however, if the folding or bending width of the cable is too large, an accident that the ultrasonic medical apparatus makes a diagnosis error or even the inside of the ultrasonic medical apparatus is short-circuited is easily caused.

The present invention will now be described in detail with respect to the disclosed subject matter.

The cable safety monitoring system of the ultrasonic detection instrument according to the embodiment of the invention comprises:

the ultrasonic detection instrument comprises a probe, a cable, a control panel, a display screen and input equipment, wherein the probe is arranged at one end of the cable, the other end of the cable is connected with the control panel, and the control panel is also respectively connected with the display screen and the input equipment;

and the information monitoring mechanism is connected with the ultrasonic detection instrument and is used for monitoring whether the ultrasonic detection instrument is in the running state currently or not and sending a first monitoring signal when the ultrasonic detection instrument is confirmed to be in the running state currently.

Next, the detailed structure of the cable safety monitoring system of the ultrasonic probe according to the present invention will be further described.

In the ultrasonic probe cable safety monitoring system:

and the information monitoring mechanism is also used for sending a second monitoring signal when the ultrasonic detection instrument is confirmed to be in the shutdown state currently.

The cable safety monitoring system of the ultrasonic detection instrument can further comprise:

the load analysis mechanism is connected with the control panel and is used for acquiring the current operation load of a control chip of the control panel;

the data capturing device is connected with the information monitoring mechanism and used for executing image capturing action facing the cable when the first monitoring signal is received so as to obtain a corresponding wiring captured image;

the first-level operation device is connected with the data capture device and used for executing affine transformation operation on the received wiring capture image to obtain a corresponding first-level operation image;

the secondary operation device is connected with the primary operation device and used for carrying out edge sharpening operation on the received primary operation image so as to obtain a corresponding secondary operation image;

the three-level operation device is connected with the two-level operation device and used for executing trap filtering operation on the received two-level operation image so as to obtain a corresponding three-level operation image;

a paint color extracting mechanism connected with the three-stage operation device and used for extracting a cable imaging area in the three-stage operation image according to the paint color of the cable;

the field fitting mechanism is connected with the paint color extracting mechanism and used for fitting a cable imaging area in the three-level operation image into a cable curve;

the content identification mechanism is connected with the field fitting mechanism and is used for acquiring each curvature value corresponding to each bending part of the cable curve respectively and sending an over-bending signal when the curvature value exceeding a preset curvature value exists in each curvature value corresponding to each bending part of the cable curve respectively;

the content identification mechanism is further configured to obtain curvature values corresponding to the respective bends of the cable curve, and send a bending reliability signal when no curvature value exceeding the preset curvature value exists in the respective curvature values corresponding to the respective bends of the cable curve;

wherein the data capture device is further configured to stop performing an image capture action facing the cable upon receiving the second monitoring signal;

wherein extracting a cable imaging region in the tertiary operation image according to the painting color of the cable comprises: and taking the pixel points of which the numerical values of the color channels in the three-level operation image are matched with the painting colors of the cables as single pixel points forming the cable imaging area in the three-level operation image.

In the ultrasonic detection instrument cable safety monitoring system:

the step of taking the pixel point of which the numerical value of the color channel in the tertiary operation image is matched with the painting color of the cable as a single pixel point constituting the cable imaging area in the tertiary operation image comprises the following steps: the color channels are a red-green color channel, a black-white color channel and a yellow-blue color channel in an LAB space.

In the ultrasonic detection instrument cable safety monitoring system:

the information monitoring mechanism is connected with the load analysis mechanism and is used for monitoring whether the ultrasonic detection instrument is in a running state currently or not based on the received current operation load of the control chip of the control panel;

wherein the information monitoring mechanism is connected with the load analysis mechanism and used for monitoring whether the ultrasonic detection instrument is currently in the running state or not based on the received current operation load of the control chip of the control panel, and the monitoring method comprises the following steps: and when the received current operation load of the control chip of the control panel exceeds or equals to a preset load threshold value, judging that the ultrasonic detection instrument is in a running state currently.

A computer program storage medium for storing a computer program for performing the steps of a method for cable safety monitoring of an ultrasonic probe instrument according to an embodiment of the present invention is shown, the method comprising:

the ultrasonic detection instrument comprises a probe, a cable, a control panel, a display screen and input equipment, wherein the probe is arranged at one end of the cable, the other end of the cable is connected with the control panel, and the control panel is also respectively connected with the display screen and the input equipment;

and the use information monitoring mechanism is connected with the ultrasonic detection instrument and is used for monitoring whether the ultrasonic detection instrument is in the running state currently or not and sending a first monitoring signal when the ultrasonic detection instrument is confirmed to be in the running state currently.

Next, the computer program storage medium of the present invention will be further described.

The computer program storage medium having:

and the information monitoring mechanism is also used for sending a second monitoring signal when the ultrasonic detection instrument is confirmed to be in the shutdown state currently.

In the computer program storage medium, the method further includes:

the load analysis mechanism is connected with the control panel and is used for acquiring the current operation load of a control chip of the control panel;

a data capturing device connected with the information monitoring mechanism and used for executing image capturing action facing the cable when the first monitoring signal is received so as to obtain a corresponding wiring captured image;

using a primary operation device connected to the data capture device for performing an affine transformation operation on the received wiring captured image to obtain a corresponding primary operation image;

using a secondary operation device, connected with the primary operation device, for performing an edge sharpening operation on the received primary operation image to obtain a corresponding secondary operation image;

using a three-level operation device connected with the two-level operation device and used for executing trap filtering operation on the received two-level operation image to obtain a corresponding three-level operation image;

using a paint color extracting mechanism connected with the three-stage operation device for extracting a cable imaging area in the three-stage operation image according to the paint color of the cable;

a field fitting mechanism is used and connected with the paint color extraction mechanism and used for fitting a cable imaging area in the three-level operation image into a cable curve;

the use content identification mechanism is connected with the field fitting mechanism and is used for acquiring each curvature value corresponding to each bending part of the cable curve respectively and sending an over-bending signal when the curvature value exceeding a preset curvature value exists in each curvature value corresponding to each bending part of the cable curve respectively;

the content identification mechanism is further configured to obtain curvature values corresponding to the respective bends of the cable curve, and send a bending reliability signal when no curvature value exceeding the preset curvature value exists in the respective curvature values corresponding to the respective bends of the cable curve;

wherein the data capture device is further configured to stop performing an image capture action facing the cable upon receiving the second monitoring signal;

wherein extracting a cable imaging region in the tertiary operation image according to the painting color of the cable comprises: and taking the pixel points of which the numerical values of the color channels in the three-level operation image are matched with the painting colors of the cables as single pixel points forming the cable imaging area in the three-level operation image.

The computer program storage medium having:

the step of taking the pixel point of which the numerical value of the color channel in the tertiary operation image is matched with the painting color of the cable as a single pixel point constituting the cable imaging area in the tertiary operation image comprises the following steps: the color channels are a red-green color channel, a black-white color channel and a yellow-blue color channel in an LAB space.

The computer program storage medium having:

the information monitoring mechanism is connected with the load analysis mechanism and is used for monitoring whether the ultrasonic detection instrument is in a running state currently or not based on the received current operation load of the control chip of the control panel;

wherein the information monitoring mechanism is connected with the load analysis mechanism and used for monitoring whether the ultrasonic detection instrument is currently in the running state or not based on the received current operation load of the control chip of the control panel, and the monitoring method comprises the following steps: and when the received current operation load of the control chip of the control panel exceeds or equals to a preset load threshold value, judging that the ultrasonic detection instrument is in a running state currently.

In addition, in the cable safety monitoring system and the storage medium of the ultrasonic probe, the information monitoring mechanism is connected to the load analyzing mechanism, and is configured to monitor whether the ultrasonic probe is currently in an operating state based on the received current computation load of the control chip of the control board, including: and when the received current operation load of the control chip of the control panel is smaller than the preset load threshold value, judging that the ultrasonic detection instrument is in a shutdown state currently.

Although only exemplary embodiments of this invention have been described in detail above, those skilled in the art will readily appreciate that many modifications are possible in the exemplary embodiments without materially departing from the novel teachings and advantages of this invention. Accordingly, all such modifications are intended to be included within the scope of this invention as defined in the following claims. In the claims, means-plus-function clauses are intended to cover the structures described herein as performing the recited function and not only structural equivalents, but also equivalent structures.