CN114324191A

CN114324191A - Smell survey system based on intelligent control

Info

Publication number: CN114324191A
Application number: CN202210016275.9A
Authority: CN
Inventors: 陈璟; 谭文波; 蒙志明; 赵子龙; 蒋春生
Original assignee: Liuzhou Vocational and Technical College
Current assignee: Liuzhou Vocational and Technical College
Priority date: 2022-01-07
Filing date: 2022-01-07
Publication date: 2022-04-12

Abstract

The application provides an odor measuring system based on intelligent control, which collects odor through an odor collecting module and measures and analyzes the odor through an odor analyzing module, the gas chromatography of the odor is analyzed by a gas chromatography measuring module, the wavelength of the odor is detected by an odor wavelength detecting module, the odor collecting module is in gas transmission connection with the odor gas micro-negative pressure module, the gas is compressed under negative pressure through the odor gas micro negative pressure module, the optical crystal irradiation is carried out through the odor optical crystal irradiation module after the gas is compressed under negative pressure through the odor gas micro negative pressure module, the odor optical crystal irradiation module is in data connection with the gas phase spectrum analysis module, and after the gas-phase spectrum analysis of the gas-phase spectrum analysis module, comparing data through the odor spectrum database module to obtain a result of odor determination, and displaying the result of odor determination through the odor determination display module.

Description

Smell survey system based on intelligent control

Technical Field

The invention relates to the field of intelligent control odor measurement systems, in particular to an odor measurement system based on intelligent control.

Background

The existing smell measuring device lacks some defects in the using process and needs to be improved, and the defects are that firstly, the existing smell measuring device lacks a smell measuring system based on intelligent control, so that the existing smell measuring device is improved, and the smell measuring system based on intelligent control is provided.

Disclosure of Invention

The invention aims to: in order to solve the problems of the prior art, the invention provides the following technical scheme: an odor measurement system based on intelligent control to improve the above problems is specifically the following: the odor analysis device comprises an odor collection module, an odor analysis module and a control module, wherein the odor collection module is in data connection with the odor analysis module, the odor collection module is used for collecting odor and performing odor measurement and analysis through the odor analysis module, the odor analysis module is in data connection with a gas chromatography measurement module, the gas chromatography measurement module is used for analyzing the gas chromatography of the odor, the odor analysis module is in data connection with an odor wavelength detection module, the odor wavelength detection module is used for detecting the wavelength of the odor, an odor detection diode array unit is arranged on the inner surface of the odor analysis module, the odor analysis module is in data connection with an odor analysis circuit module, the odor analysis circuit module is provided with an odor analysis circuit board, an odor analysis processor, a gas measurement sensor and an odor separation data transmission port, the odor collection module is in gas transmission connection with the odor gas micro negative pressure module, gas negative pressure compression is carried out through the odor gas micro negative pressure module, optical crystal irradiation is carried out through the odor optical crystal irradiation module after the odor gas micro negative pressure module is compressed, the odor optical crystal irradiation module is in data connection with the gas phase spectrum analysis module, spectral analysis is carried out through the gas phase spectrum analysis module, data comparison is carried out through the odor spectrum database module after the gas phase spectrum analysis of the gas phase spectrum analysis module to obtain the result of odor measurement, and the result of the odor measurement is displayed through the odor measurement display module.

As the preferred technical scheme of this application, smell collection module is provided with smell collection unit and smell gas compression unit and smell storage unit, the smell collection unit with smell gas compression unit gas piping connection, smell gas compression unit with smell storage unit pipe connection.

As the preferred technical scheme of this application, gas chromatography survey module is provided with gas chromatography collection unit and gas chromatography identification element and gas chromatography transmission unit, gas chromatography collection unit with gas chromatography identification element data connection, gas chromatography identification element with gas chromatography transmission element data connection.

As a preferable technical scheme of the application, the gas chromatography collecting unit carries out gas chromatography identification on collected odor through the gas chromatography identifying unit, and transmits the gas chromatography to the odor spectrum database module through the gas chromatography transmitting unit.

As a preferred technical solution of the present application, the odor wavelength detection module is provided with a wavelength infrared analysis unit and an odor wavelength analysis detection unit, and the wavelength infrared analysis unit and the odor wavelength analysis detection unit are in data connection with the odor analysis module.

As a preferred technical solution of the present application, the odor optical crystal irradiation module includes a gas light irradiation unit, an optical crystal irradiation collection unit, and an odor optical crystal analysis unit, and the gas light irradiation unit is in data connection with the optical crystal irradiation collection unit, and the odor optical crystal analysis unit is in data connection with the odor analysis module.

As a preferred technical solution of the present application, the gas light irradiation unit transmits light irradiation information to the optical crystal irradiation collection unit for collection, and the odor optical crystal analysis unit performs analysis and transmits analyzed data to the odor analysis module.

As a preferred technical scheme of the application, the odor spectrum database module comprises a food odor spectrum unit, an animal and plant odor spectrum unit and a chemical product odor spectrum unit, wherein the food odor spectrum unit, the animal and plant odor spectrum unit and the chemical product odor spectrum unit are in data connection with the odor analysis module.

As a preferable technical solution of the present application, the food odor spectrum unit, the animal and plant odor spectrum unit, and the chemical product odor spectrum unit are connected with the network cloud storage space data.

As a preferred technical solution of the present application, the odor measurement display module includes an odor type display unit, an odor degree display unit, and an odor spectrogram display unit, and displays the odor by the odor type display unit, displays the odor degree by the odor degree display unit, and displays the spectrum by the odor spectrogram display unit.

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

in the scheme of the application:

1. collecting the odor through the odor collection module and performing odor measurement and analysis through the odor analysis module, wherein the odor analysis module is in data connection with the gas chromatography measurement module, and the gas chromatography measurement module performs gas chromatography analysis on the odor;

2. the odor wavelength detection module is used for detecting the wavelength of odor, the inner surface of the odor analysis module is provided with an odor detection diode array unit, the odor collection module is in gas transmission connection with the odor gas micro negative pressure module, and the odor gas micro negative pressure module is used for compressing the gas under negative pressure;

3. and after the odor gas micro negative pressure module is compressed in a negative pressure mode, the odor optical crystal irradiation module irradiates optical crystals, the odor optical crystal irradiation module is in data connection with the gas phase spectrum analysis module, the gas phase spectrum analysis module performs spectrum analysis, the gas phase spectrum analysis module performs data comparison with the odor spectrum database module after the gas phase spectrum analysis to obtain the result of odor determination, and the odor determination display module displays the result of odor determination.

Description of the drawings:

FIG. 1 is a flow diagram of an intelligent control based scent determination system provided herein;

FIG. 2 is a block diagram of an intelligent control based scent determination system provided herein;

fig. 3 is a circuit diagram of the intelligent control based scent determination system provided by the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments.

Thus, the following detailed description of the embodiments of the invention is not intended to limit the scope of the invention as claimed, but is merely representative of some embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 3, the present embodiment provides an odor measuring system based on intelligent control, which includes an odor collecting module, the odor collecting module is in data connection with an odor analyzing module, the odor collecting module collects odor and analyzes the odor by the odor analyzing module, the odor analyzing module is in data connection with a gas chromatography module, the gas chromatography module analyzes the odor by the gas chromatography module, the odor analyzing module is in data connection with an odor wavelength detecting module, the odor wavelength detecting module detects the wavelength of the odor, an odor detecting diode array unit is disposed on the inner surface of the odor analyzing module, the odor analyzing module is in data connection with an odor analyzing circuit module, the odor analyzing circuit module is provided with an odor analyzing circuit board and an odor analyzing processor, a gas measuring sensor and an odor separating data transmission port, smell collection module and the gaseous transmission connection of the gaseous little negative pressure module of smell, compress gaseous negative pressure through the gaseous little negative pressure module of smell, shine the module through smell light crystal after compressing gaseous little negative pressure module negative pressure and carry out the light crystal and shine through smell light crystal, smell light crystal shines module and gaseous spectral analysis module data connection, carry out spectral analysis through gaseous spectral analysis module, carry out the result that the contrast of data obtained the survey of smell through gaseous spectral analysis module gaseous spectral analysis after through gaseous spectral analysis module gaseous spectral analysis, and carry out through smell survey display module and show the result of survey.

As a preferred embodiment, on the basis of the above mode, the odor collection module is further provided with an odor collection unit, an odor gas compression unit and an odor storage unit, the odor collection unit is connected with the odor gas compression unit through a gas pipeline, and the odor gas compression unit is connected with the odor storage unit through a pipeline.

In a preferred embodiment, in addition to the above-mentioned embodiment, the gas chromatography measurement module is further provided with a gas chromatography collection unit, a gas chromatography identification unit and a gas chromatography transmission unit, wherein the gas chromatography collection unit is in data connection with the gas chromatography identification unit, and the gas chromatography identification unit is in data connection with the gas chromatography transmission unit.

As a preferred embodiment, on the basis of the above manner, further, the gas chromatography collecting unit performs gas chromatography identification on the collected odor through the gas chromatography identification unit, and transmits the gas chromatography to the odor spectrum database module through the gas chromatography transmission unit.

In a preferred embodiment, in addition to the above-mentioned mode, the odor wavelength detection module is further provided with a wavelength infrared analysis unit and an odor wavelength analysis detection unit, and the wavelength infrared analysis unit and the odor wavelength analysis detection unit are in data connection with the odor analysis module.

In a preferred embodiment, in addition to the above-mentioned mode, the odor optical crystal irradiation module further includes a gas light irradiation unit, an optical crystal irradiation collection unit, and an odor optical crystal analysis unit, and the gas light irradiation unit, the optical crystal irradiation collection unit, and the odor optical crystal analysis unit are in data connection with the odor analysis module.

In a preferred embodiment, in addition to the above, the gas light irradiation unit transmits the information of light irradiation to the optical crystal irradiation collection unit for collection, and the odor optical crystal analysis unit performs analysis and transmits the analyzed data to the odor analysis module.

As a preferred embodiment, on the basis of the above manner, further, the odor spectrum database module includes a food odor spectrum unit, an animal and plant odor spectrum unit, and a chemical product odor spectrum unit, and the food odor spectrum unit, the animal and plant odor spectrum unit, and the chemical product odor spectrum unit are in data connection with the odor analysis module.

In a preferred embodiment, on the basis of the above manner, the food odor spectrum unit, the animal and plant odor spectrum unit, and the chemical product odor spectrum unit are further connected with the network cloud storage space data.

In a preferred embodiment, in addition to the above-mentioned aspects, the odor measurement display module further includes an odor type display unit, an odor degree display unit, and an odor spectrogram display unit, and displays the odor by the odor type display unit, the odor degree by the odor degree display unit, and the odor spectrogram display unit displays the odor spectrum.

An odour measurement system based on intelligent control, when in use: the odor collection module is in data connection with the odor analysis module, the odor collection module is used for collecting odor and analyzing the odor through the odor analysis module, the odor analysis module is in data connection with the gas chromatography determination module and analyzing the gas chromatography of the odor through the gas chromatography determination module, the odor analysis module is in data connection with the odor wavelength detection module and detecting the wavelength of the odor through the odor wavelength detection module, the inner surface of the odor analysis module is provided with an odor detection diode array unit, the odor collection module is in gas transmission connection with the odor gas micro negative pressure module and compresses the gas under negative pressure through the odor gas micro negative pressure module, the odor gas micro negative pressure module compresses the gas under negative pressure and irradiates the gas through the odor optical crystal irradiation module, and the odor optical crystal irradiation module is in data connection with the gas spectrum analysis module, the gas chromatography detection device comprises a gas spectrum analysis module, a gas spectrum database module, a smell collection module, a gas pipeline, a smell storage unit, a gas chromatography identification unit, a gas chromatography transmission unit, a gas chromatography identification unit and a gas chromatography transmission unit, wherein the gas spectrum analysis module is used for carrying out spectrum analysis, the gas spectrum analysis module is used for comparing data with the smell spectrum database module after gas spectrum analysis to obtain a result of smell determination, the smell determination display module is used for displaying the result of the smell determination, the smell collection module is provided with a smell collection unit, a gas chromatography compression unit and a smell storage unit, the smell collection unit is connected with the gas pipeline of the smell compression unit, the gas compression unit is connected with the smell storage unit, the gas chromatography detection module is provided with the gas chromatography collection unit, the gas chromatography identification unit and the gas chromatography transmission unit, the gas chromatography collection unit is used for carrying out gas chromatography identification on the collected smell through the gas chromatography identification unit, the gas chromatography is transmitted to a smell spectrum database module through a gas chromatography transmission unit for processing, the smell wavelength detection module is provided with a wavelength infrared analysis unit and a smell wavelength analysis detection unit, the wavelength infrared analysis unit and the smell wavelength analysis detection unit are in data connection with the smell analysis module, the smell optical crystal irradiation module comprises a gas light irradiation unit, an optical crystal irradiation acquisition unit and a smell optical crystal analysis unit, the gas light irradiation unit is in data connection with the optical crystal irradiation acquisition unit and the smell optical crystal analysis unit and the smell analysis module, the gas light irradiation unit transmits the light irradiation information to the optical crystal irradiation acquisition unit for acquisition, and analyzes the information through the smell optical crystal analysis unit, and transmits the analyzed data to the smell analysis module, the smell spectrum data module comprises a food smell spectrum unit, an animal and plant smell spectrum unit and a chemical product smell spectrum unit, food smell spectral unit and animal and plant smell spectral unit and chemical products smell spectral unit and smell analysis module data connection, food smell spectral unit and animal and plant smell spectral unit and chemical products smell spectral unit store up spatial data with the network cloud and be connected, smell survey display module includes smell kind display element and smell degree display element and smell spectrogram display element, carry out the demonstration of smell and show the degree of smell through smell degree display element through smell kind display element, and show the spectrum through smell spectrogram display element.

The above embodiments are only used for illustrating the invention and not for limiting the technical solutions described in the invention, and although the present invention has been described in detail in the present specification with reference to the above embodiments, the present invention is not limited to the above embodiments, and therefore, any modification or equivalent replacement of the present invention is made; all such modifications and variations are intended to be included herein within the scope of this disclosure and the appended claims.

Claims

1. An odor determination system based on intelligent control, which comprises an odor collection module, wherein the odor collection module is in data connection with an odor analysis module, the odor collection module is used for collecting odor and the odor determination module is used for performing odor determination and analysis, the odor analysis module is in data connection with a gas chromatography determination module, the gas chromatography determination module is used for performing gas chromatography analysis on the odor, the odor analysis module is in data connection with an odor wavelength detection module, the odor wavelength detection module is used for detecting the wavelength of the odor, the inner surface of the odor analysis module is provided with an odor detection diode array unit, the odor analysis module is in data connection with an odor analysis circuit module, the odor analysis circuit module is provided with an odor analysis circuit board, an odor analysis processor, a gas determination sensor and an odor separation data transmission port, the odor collection module is in gas transmission connection with the odor gas micro negative pressure module, gas negative pressure compression is carried out through the odor gas micro negative pressure module, optical crystal irradiation is carried out through the odor optical crystal irradiation module after the odor gas micro negative pressure module is compressed, the odor optical crystal irradiation module is in data connection with the gas phase spectrum analysis module, spectral analysis is carried out through the gas phase spectrum analysis module, data comparison is carried out through the odor spectrum database module after the gas phase spectrum analysis of the gas phase spectrum analysis module to obtain the result of odor measurement, and the result of the odor measurement is displayed through the odor measurement display module.

2. The intelligent control based odor detection system as claimed in claim 1, wherein the odor collection module is provided with an odor collection unit and an odor gas compression unit, and an odor storage unit, the odor collection unit is connected with the odor gas compression unit through a gas pipe, and the odor gas compression unit is connected with the odor storage unit through a pipe.

3. The intelligent control-based odor determination system according to claim 1, wherein the gas chromatography determination module is provided with a gas chromatography collection unit and a gas chromatography identification unit, and a gas chromatography transmission unit, the gas chromatography collection unit is in data connection with the gas chromatography identification unit, and the gas chromatography identification unit is in data connection with the gas chromatography transmission unit.

4. The intelligent control-based odor determination system according to claim 3, wherein the gas chromatography collection unit identifies the collected odor through the gas chromatography identification unit and transmits the gas chromatography to the odor spectrum database module through the gas chromatography transmission unit.

5. The intelligent control-based odor determination system of claim 1, wherein the odor wavelength detection module is provided with a wavelength infrared analysis unit and an odor wavelength analysis detection unit, and the wavelength infrared analysis unit and the odor wavelength analysis detection unit are in data connection with the odor analysis module.

6. The system of claim 1, wherein the odor optical crystal irradiation module comprises a gas light irradiation unit, an optical crystal irradiation collection unit and an odor optical crystal analysis unit, and the gas light irradiation unit and the optical crystal irradiation collection unit and the odor optical crystal analysis unit are in data connection with the odor analysis module.

7. The system of claim 6, wherein the gas light irradiation unit transmits the spectral information of the gas irradiated by the light irradiation to the optical crystal irradiation collection unit for collection, and the gas is analyzed by the odor optical crystal analysis unit, and the analyzed data is transmitted to the odor analysis module.

8. The intelligent control-based odor determination system of claim 1 wherein the odor spectrum database module comprises a food odor spectrum unit and an animal and plant odor spectrum unit and a chemical product odor spectrum unit, the food odor spectrum unit and the animal and plant odor spectrum unit and the chemical product odor spectrum unit being in data connection with the odor analysis module.

9. The intelligent control-based odor detection system according to claim 8, wherein the food odor spectrum unit and the animal and plant odor spectrum unit and the chemical product odor spectrum unit are in data connection with a network cloud storage space.

10. The system of claim 1, wherein the odor determination display module comprises an odor type display unit, an odor degree display unit and an odor spectrogram display unit, wherein the odor type display unit displays the odor and the odor degree display unit displays the odor degree, and the odor spectrogram display unit displays the odor spectrum.