CN117093037A - Vehicle-mounted CT equipment safe operation supervision system based on Internet of things - Google Patents

Abstract

The invention discloses a vehicle-mounted CT equipment safe operation supervision system based on the Internet of things, which comprises a humidity information acquisition module, a temperature information acquisition module, a dust information acquisition module, a sterilization equipment acquisition module, a germ information acquisition module, a data processing module, a master control module and an information sending module; the humidity information acquisition module is used for acquiring humidity information of the vehicle-mounted CT, and the temperature information acquisition module is used for acquiring temperature information of the environment where the vehicle-mounted CT is located; the dust information acquisition module is used for acquiring dust concentration information of the environment where the vehicle-mounted CT is located; the germ information acquisition module is used for acquiring germ concentration information of a preset type of environment where the vehicle-mounted CT is located; the sterilization equipment acquisition module is used for acquiring sterilization equipment information. The invention can more comprehensively carry out the safety operation supervision of the vehicle-mounted CT.

Description

Vehicle-mounted CT equipment safe operation supervision system based on Internet of things

Technical Field

The invention relates to the field of environmental monitoring, in particular to a vehicle-mounted CT equipment safe operation supervision system based on the Internet of things.

Background

Along with the continuous development of the technology of vehicle-mounted CT, the requirements of clinic on CT quantitative and qualitative scanning are also higher and higher. Very high demands are put on the detail display definition of the image. More pathological details are displayed and observed, and early treatment are found on tiny foci. The scanning parameters of the vehicle-mounted CT are complex, so that an AI platform is upgraded, and the scanning imaging is more intelligent and accurate;

the vehicle-mounted CT equipment is a part for checking the vehicle-mounted CT, and needs to ensure certain environmental sanitation, reduce pollution, and monitor and adjust the environmental state in real time through the safe operation monitoring system so as to ensure the safety of the CT equipment.

The existing safety operation monitoring system is single in monitoring type, cannot effectively realize comprehensive vehicle-mounted CT safety monitoring, and brings a certain influence to the use of an environment monitoring system, so that the vehicle-mounted CT equipment safety operation monitoring system based on the Internet of things is provided.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: how to solve the problem that the existing safe operation monitoring system is single in monitoring type, cannot effectively realize comprehensive vehicle-mounted CT safe monitoring and brings a certain influence to the use of an environment monitoring system, and provides the vehicle-mounted CT equipment safe operation monitoring system based on the Internet of things.

The invention solves the technical problems through the following technical scheme that the intelligent control system comprises a humidity information acquisition module, a temperature information acquisition module, a dust information acquisition module, a sterilization equipment acquisition module, a germ information acquisition module, a data processing module, a general control module and an information sending module;

the humidity information acquisition module is used for acquiring humidity information of the vehicle-mounted CT, and the temperature information acquisition module is used for acquiring temperature information of the environment where the vehicle-mounted CT is located;

the dust information acquisition module is used for acquiring dust concentration information of the environment where the vehicle-mounted CT is located;

the germ information acquisition module is used for acquiring germ concentration information of a preset type of environment where the vehicle-mounted CT is located;

the sterilization equipment acquisition module is used for acquiring sterilization equipment information;

the data processing module is used for processing the humidity information to generate humidity control information, processing the temperature information to generate temperature control information, processing the dust concentration information to generate dust concentration control information, processing the germ concentration information to generate germ concentration control information, and processing the sterilization equipment information to generate equipment control information

The master control module is used for transmitting the humidity control information, the temperature control information, the dust concentration control information, the germ concentration control information and the equipment control information to a preset receiving terminal after the humidity control information, the temperature control information, the dust concentration control information, the germ concentration control information and the equipment control information are generated.

The humidity control information comprises humidity reduction information, humidity increase information and humidity warning information;

the specific processing process of the humidity control information is as follows: the collected humidity information is extracted, the humidity information is collected once at preset intervals within preset time length, and x times are continuously collected, wherein x is more than or equal to 5;

marking the humidity information as Q, obtaining humidity average information Qq through a formula (Q1+Q2+Q … … Qx)/x=Qq, and setting a lowest humidity standard value Qq1, a highest standard humidity value Qq2 and a humidity warning value Qq3;

when the humidity average value information Qq is smaller than the minimum humidity standard value Qq1 and exceeds the preset value for a long time, generating humidity increase information, when the humidity average value information Qq is larger than the maximum standard humidity value Qq2 and smaller than the humidity warning value Qq3 and exceeds the preset value for a long time, generating humidity decrease information, and when the humidity average value information Qq is larger than the humidity warning value Qq3, directly generating humidity warning information.

The temperature control information comprises temperature reduction information and temperature increase information, and the specific processing process of the temperature control information is as follows: the method comprises the steps of extracting collected temperature information, marking the collected temperature information as P by using a set maximum temperature warning value A1 and a set minimum temperature warning value A2, generating temperature reduction information when the temperature information P is larger than the maximum temperature warning value A1 and exceeds a preset value, and generating temperature increase information when the temperature information P is smaller than the minimum temperature warning value A2 and exceeds the preset value.

Further, after the temperature reduction information is generated, specific cooling values are collected and sent to a preset receiving terminal, and the specific cooling values are as follows: setting the optimal temperature information of the vehicle-mounted CT, marking the optimal temperature information as Y, and calculating the difference between the temperature information P and the optimal temperature information Y of the vehicle-mounted CT to obtain a specific cooling value;

after the temperature rise information is generated, specific heating values are collected and sent to a preset receiving terminal, and the specific heating values are as follows: and extracting the optimal temperature information Y of the vehicle-mounted CT, and calculating the difference between the optimal temperature information Y of the vehicle-mounted CT and the temperature information P to obtain a specific cooling value.

Further, the specific processing process of the dust concentration control information is as follows: the collected dust concentration information is extracted, a dust concentration regulation value is set, then the time length that the dust concentration information is larger than the dust concentration regulation value is recorded, the evaluation time length is obtained, and when the evaluation time length is larger than a preset value, the dust concentration regulation information is generated.

Further, the specific processing process of the germ concentration control information is as follows: and extracting the collected pathogen concentration information, wherein the pathogen concentration acquisition process is to acquire samples at preset positions in the vehicle-mounted CT as follows, at least m samples are acquired, m is more than or equal to 10, and when the pathogen concentration information in the m samples is more than the preset quantity of preset concentration, pathogen concentration management and control information is generated.

Further, the specific processing process of the sterilization equipment management and control information is as follows: extracting sterilization equipment information acquired for the first time, wherein the sterilization equipment information comprises single sterilization equipment coverage area information and sterilization equipment quantity information, then extracting vehicle-mounted CT inner area information, processing the sterilization equipment information and the vehicle-mounted CT inner area information to acquire control parameter information, and generating sterilization equipment control information when the control parameter information is smaller than a preset value.

Further, the specific processing procedure of the management and control parameter information is as follows: extracting single sterilization equipment coverage area information, sterilization equipment number information and vehicle-mounted CT area information, marking the single sterilization equipment coverage area information as E1, the sterilization equipment number information as E2, marking the vehicle-mounted CT area information as H, and passing through the formulaI.e. the management and control parameter information Eh is obtained.

Compared with the prior art, the invention has the following advantages: this on-vehicle CT equipment safe operation supervisory systems based on thing networking through the humidity regulation and control information that generates, to the monitoring of the humidity state in the on-vehicle CT and carry out intelligent regulation and control, let be in a suitable humidity environment in the on-vehicle CT all the time, avoid because the on-vehicle CT equipment damage that environmental humidity is too high, through the temperature regulation and control information that generates, monitor and carry out intelligent regulation and control to the temperature state in the on-vehicle CT, let be in a suitable temperature environment all the time in the on-vehicle CT, avoid because the on-vehicle CT equipment damage that environmental temperature leads to, the dust management and control information of while generating, fine dust concentration monitoring has been realized, timely dust fall operation is carried out, reduce the germ that carries in the dust and pollute on-vehicle CT equipment, and still set up germ concentration management and control information and equipment management and control information can be better carry out on-vehicle CT's germ state's monitoring management and control, thereby who has made this system realize more comprehensive safety supervision, make this system more worth using widely.

Drawings

Fig. 1 is a system block diagram of the present invention.

Detailed Description

The following describes in detail the examples of the present invention, which are implemented on the premise of the technical solution of the present invention, and detailed embodiments and specific operation procedures are given, but the scope of protection of the present invention is not limited to the following examples.

As shown in fig. 1, this embodiment provides a technical solution: the system comprises a humidity information acquisition module, a temperature information acquisition module, a dust information acquisition module, a sterilization equipment acquisition module, a germ information acquisition module, a data processing module, a master control module and an information sending module;

the humidity information acquisition module is used for acquiring humidity information of the vehicle-mounted CT, and the temperature information acquisition module is used for acquiring temperature information of the environment where the vehicle-mounted CT is located;

the dust information acquisition module is used for acquiring dust concentration information of the environment where the vehicle-mounted CT is located;

the germ information acquisition module is used for acquiring germ concentration information of a preset type of environment where the vehicle-mounted CT is located;

the sterilization equipment acquisition module is used for acquiring sterilization equipment information;

the data processing module is used for processing the humidity information to generate humidity control information, processing the temperature information to generate temperature control information, processing the dust concentration information to generate dust concentration control information, processing the germ concentration information to generate germ concentration control information, and processing the sterilization equipment information to generate equipment control information

The main control module is used for transmitting the humidity control information, the temperature control information, the dust concentration control information, the germ concentration control information and the equipment control information to a preset receiving terminal after the humidity control information, the temperature control information, the dust concentration control information, the germ concentration control information and the equipment control information are generated;

according to the invention, the humidity state in the vehicle-mounted CT is monitored and intelligently regulated through the generated humidity regulation information, so that the vehicle-mounted CT is always in a proper humidity environment, the damage of the vehicle-mounted CT equipment caused by overhigh environmental humidity is avoided, the temperature state in the vehicle-mounted CT is monitored and intelligently regulated through the generated temperature regulation information, the vehicle-mounted CT equipment is always in a proper temperature environment, the damage of the vehicle-mounted CT equipment caused by the environmental temperature is avoided, meanwhile, the generated dust management information is used for realizing fine dust concentration monitoring, timely dust falling operation is realized, the bacteria carried in dust pollute the vehicle-mounted CT equipment is reduced, and the monitoring management and control of the bacteria state of the vehicle-mounted CT can be better carried out due to the arrangement of the bacteria concentration management and control information and the equipment management and control information, so that the system realizes comprehensive safety supervision and supervision, and the system is more worth popularizing.

The humidity control information comprises humidity reduction information, humidity increase information and humidity warning information;

the specific processing process of the humidity control information is as follows: the collected humidity information is extracted, the humidity information is collected once at preset intervals within preset time length, and x times are continuously collected, wherein x is more than or equal to 5;

marking the humidity information as Q, obtaining humidity average information Qq through a formula (Q1+Q2+Q … … Qx)/x=Qq, and setting a lowest humidity standard value Qq1, a highest standard humidity value Qq2 and a humidity warning value Qq3;

generating humidity increasing information when the humidity average value information Qq is smaller than the minimum humidity standard value Qq1 and exceeds a preset value duration, generating humidity decreasing information when the humidity average value information Qq is larger than the maximum standard humidity value Qq2 and smaller than the humidity warning value Qq3 and exceeds a preset value duration, and directly generating humidity warning information when the humidity average value information Qq is larger than the humidity warning value Qq3;

through the process, the accurate comprehensive monitoring and control of the environmental humidity of the vehicle-mounted CT are realized, the stability of the humidity in the vehicle-mounted CT is ensured, and the damage of the vehicle-mounted CT equipment caused by overhigh humidity is avoided.

The temperature control information comprises temperature reduction information and temperature rise information, and the specific processing process of the temperature control information is as follows: extracting the acquired temperature information, marking the acquired temperature information as P by using a set maximum temperature warning value A1 and a set minimum temperature warning value A2, generating temperature reduction information when the temperature information P is larger than the maximum temperature warning value A1 and exceeds a preset value, and generating temperature increase information when the temperature information P is smaller than the minimum temperature warning value A2 and exceeds the preset value; after the temperature reduction information is generated, specific cooling values are acquired and sent to a preset receiving terminal, wherein the specific cooling values are as follows: setting the optimal temperature information of the vehicle-mounted CT, marking the optimal temperature information as Y, and calculating the difference between the temperature information P and the optimal temperature information Y of the vehicle-mounted CT to obtain a specific cooling value;

after the temperature rise information is generated, specific temperature rise values are collected and sent to a preset receiving terminal, and the specific temperature rise values are as follows: extracting optimal temperature information Y of the vehicle-mounted CT, and calculating a difference value between the optimal temperature information Y of the vehicle-mounted CT and the temperature information P, namely obtaining a specific cooling value;

through the process, intelligent vehicle-mounted CT temperature regulation and control is realized, the vehicle-mounted CT can be always in a proper environment, namely, the vehicle-mounted CT can be always in the proper environment, and the service life of the vehicle-mounted CT is prolonged.

The specific processing process of the dust concentration control information is as follows: extracting collected dust concentration information, setting a dust concentration regulation value, recording the time length when the dust concentration information is larger than the dust concentration regulation value, acquiring evaluation time length, and generating dust concentration regulation information when the evaluation time length is larger than a preset value;

the dust concentration is monitored more carefully, so that pollution to vehicle-mounted CT caused by pathogenic bacteria and the like carried in the dust can be avoided.

The specific processing process of the germ concentration control information is as follows: extracting collected pathogen concentration information, wherein the pathogen concentration collection process is to collect samples at preset positions in a vehicle-mounted CT as follows, collect at least m samples, wherein m is more than or equal to 10, and generate pathogen concentration control information when the pathogen concentration information in the m samples is more than preset quantity of preset concentration; the specific processing process of the sterilization equipment management and control information is as follows: extracting sterilization equipment information acquired for the first time, wherein the sterilization equipment information comprises single sterilization equipment coverage area information and sterilization equipment quantity information, then extracting vehicle-mounted CT inner area information, processing the sterilization equipment information and the vehicle-mounted CT inner area information to acquire control parameter information, and generating sterilization equipment control information when the control parameter information is smaller than a preset value;

through the process, the germ content in the vehicle-mounted CT and the sterilization equipment are comprehensively monitored, problems are timely found, adjustment and control are carried out, so that adjustment is better carried out, and sterilization operation is reduced.

The specific processing process of the management and control parameter information is as follows: extracting single sterilization equipment coverage area information, sterilization equipment number information and vehicle-mounted CT area information, marking the single sterilization equipment coverage area information as E1, the sterilization equipment number information as E2, marking the vehicle-mounted CT area information as H, and passing through the formula Namely obtaining the management and control parameter information Eh;

through the process, the control parameter Eh can be more accurately obtained, so that the adjustment control of the sterilization equipment can be more accurately carried out, and the safety of the vehicle-mounted CT equipment is ensured.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present invention, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

While embodiments of the present invention have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the invention, and that variations, modifications, alternatives and variations may be made to the above embodiments by one of ordinary skill in the art within the scope of the invention.

Claims (8)

1. The system is characterized by comprising a humidity information acquisition module, a temperature information acquisition module, a dust information acquisition module, a sterilization equipment acquisition module, a germ information acquisition module, a data processing module, a master control module and an information sending module;

the humidity information acquisition module is used for acquiring humidity information of the vehicle-mounted CT, and the temperature information acquisition module is used for acquiring temperature information of the environment where the vehicle-mounted CT is located;

the dust information acquisition module is used for acquiring dust concentration information of the environment where the vehicle-mounted CT is located;

the germ information acquisition module is used for acquiring germ concentration information of a preset type of environment where the vehicle-mounted CT is located;

the sterilization equipment acquisition module is used for acquiring sterilization equipment information;

the data processing module is used for processing the humidity information to generate humidity control information, processing the temperature information to generate temperature control information, processing the dust concentration information to generate dust concentration control information, processing the germ concentration information to generate germ concentration control information, and processing the sterilization equipment information to generate equipment control information

The master control module is used for transmitting the humidity control information, the temperature control information, the dust concentration control information, the germ concentration control information and the equipment control information to a preset receiving terminal after the humidity control information, the temperature control information, the dust concentration control information, the germ concentration control information and the equipment control information are generated.

2. The internet of things-based vehicle-mounted CT device safe operation monitoring system according to claim 1, wherein: the humidity control information comprises humidity reduction information, humidity increase information and humidity warning information;

the specific processing process of the humidity control information is as follows: the collected humidity information is extracted, the humidity information is collected once at preset intervals within preset time length, and x times are continuously collected, wherein x is more than or equal to 5;

marking the humidity information as Q, obtaining humidity average information Qq through a formula (Q1+Q2+Q … … Qx)/x=Qq, and setting a lowest humidity standard value Qq1, a highest standard humidity value Qq2 and a humidity warning value Qq3;

when the humidity average value information Qq is smaller than the minimum humidity standard value Qq1 and exceeds the preset value for a long time, generating humidity increase information, when the humidity average value information Qq is larger than the maximum standard humidity value Qq2 and smaller than the humidity warning value Qq3 and exceeds the preset value for a long time, generating humidity decrease information, and when the humidity average value information Qq is larger than the humidity warning value Qq3, directly generating humidity warning information.

3. The internet of things-based vehicle-mounted CT device safe operation monitoring system according to claim 1, wherein: the temperature control information comprises temperature reduction information and temperature height information, and the specific processing process of the temperature control information is as follows: the method comprises the steps of extracting collected temperature information, marking the collected temperature information as P by using a set maximum temperature warning value A1 and a set minimum temperature warning value A2, generating temperature reduction information when the temperature information P is larger than the maximum temperature warning value A1 and exceeds a preset value, and generating temperature increase information when the temperature information P is smaller than the minimum temperature warning value A2 and exceeds the preset value.

4. The internet of things-based vehicle-mounted CT apparatus safe operation monitoring system according to claim 3, wherein: after the temperature reduction information is generated, specific cooling values are collected and sent to a preset receiving terminal, and the specific cooling values are as follows: setting the optimal temperature information of the vehicle-mounted CT, marking the optimal temperature information as Y, and calculating the difference between the temperature information P and the optimal temperature information Y of the vehicle-mounted CT to obtain a specific cooling value;

after the temperature rise information is generated, specific heating values are collected and sent to a preset receiving terminal, and the specific heating values are as follows: and extracting the optimal temperature information Y of the vehicle-mounted CT, and calculating the difference between the optimal temperature information Y of the vehicle-mounted CT and the temperature information P to obtain a specific cooling value.

5. The internet of things-based vehicle-mounted CT device safe operation monitoring system according to claim 1, wherein: the specific processing process of the dust concentration control information is as follows: the collected dust concentration information is extracted, a dust concentration regulation value is set, then the time length that the dust concentration information is larger than the dust concentration regulation value is recorded, the evaluation time length is obtained, and when the evaluation time length is larger than a preset value, the dust concentration regulation information is generated.

6. The internet of things-based vehicle-mounted CT device safe operation monitoring system according to claim 1, wherein: the specific processing process of the germ concentration control information is as follows: and extracting the collected pathogen concentration information, wherein the pathogen concentration acquisition process is to acquire samples at preset positions in the vehicle-mounted CT as follows, at least m samples are acquired, m is more than or equal to 10, and when the pathogen concentration information in the m samples is more than the preset quantity of preset concentration, pathogen concentration management and control information is generated.

7. The internet of things-based vehicle-mounted CT device safe operation monitoring system according to claim 1, wherein: the specific processing process of the sterilization equipment management and control information is as follows: extracting sterilization equipment information acquired for the first time, wherein the sterilization equipment information comprises single sterilization equipment coverage area information and sterilization equipment quantity information, then extracting vehicle-mounted CT inner area information, processing the sterilization equipment information and the vehicle-mounted CT inner area information to acquire control parameter information, and generating sterilization equipment control information when the control parameter information is smaller than a preset value.

8. The internet of things-based vehicle-mounted CT device safe operation monitoring system of claim 7, wherein: the specific processing process of the management and control parameter information is as follows: extracting single sterilization equipment coverage area information, sterilization equipment number information and vehicle-mounted CT area information, marking the single sterilization equipment coverage area information as E1, the sterilization equipment number information as E2, marking the vehicle-mounted CT area information as H, and passing through the formulaI.e. the management and control parameter information Eh is obtained.