CN217277834U - Intelligent water quality safety detection system and detection box - Google Patents

Abstract

The utility model provides an intelligent quality of water safety inspection system, detection case, intelligent quality of water safety inspection system includes power module, display control module, core processing module, spectrum detection module and colloidal gold detection module, and power module is connected with display control module, core processing module and spectrum detection module respectively, and display control module is connected with core processing module, and core processing module is connected with spectrum detection module and colloidal gold detection module respectively. The intelligent water quality safety detection system, the detection box and the detection method provided by the invention adopt an artificial intelligent data acquisition mode, the efficiency of water quality safety detection can be improved, and the data of the spectrum detection result and the colloidal gold detection result are reliable.

Description

Intelligent water quality safety detection system and detection box

Technical Field

The utility model relates to an environmental quality detects technical field, a concretely designs wisdom water quality safety detection system, detection case.

Background

The environmental quality monitoring is an environmental monitoring content, mainly monitors the distribution and concentration of pollutants in the environment to determine the environmental quality condition, and provides necessary basis for environmental quality evaluation and environmental impact evaluation by timing and fixed-point environmental quality monitoring historical data; provides basic data for scientific research on the transfer rule of the pollutants. An important monitoring content in environmental quality monitoring is water quality detection, and the water quality detection content comprises detection of heavy metal ions, organic pollutants and microbial toxicity.

At present, water quality detection methods include a spectrum analysis method, a colloidal gold reagent card detection method and the like, however, the existing spectrum analysis method needs to perform a complex detection process in a special laboratory to obtain data such as the existence, concentration and the like of heavy metal ions in water quality, and cannot obtain a detection result on site, while the colloidal gold reagent card detection method can obtain the concentration of toxic substances in water quality on site, and needs to manually read data and obtain a final judgment result through corresponding calculation.

SUMMERY OF THE UTILITY MODEL

The utility model provides a solve above-mentioned problem, a wisdom water quality safety detection system is provided, detection case and detection method, this detecting system spectrum analysis and colloidal gold detect two kinds of detection methods in an organic whole, can intelligent acquire the testing result of quality of water immediately, need not to send to examine to carry out complicated detection flow in the laboratory, detection efficiency greatly improves, this testing result is unanimous basically with laboratory detection result simultaneously, the testing result is reliable, the conversion flow of having removed colloidal gold from and examining time measuring, this system has portable good advantage simultaneously, the testing data is convenient for derive and upload.

In order to achieve the technical effects, the utility model discloses a following technical scheme realizes:

an intelligent water quality safety detection system comprises a power supply module, a display control module, a core processing module, a spectrum detection module and a colloidal gold detection module, wherein the power supply module is respectively connected with the display control module, the core processing module and the spectrum detection module, the display control module is connected with the core processing module, the core processing module is respectively connected with the spectrum detection module and the colloidal gold detection module,

the power supply module supplies electric energy to the display control module, the core processing module and the spectrum detection module,

the display control module provides an operation interface, stores the detection data of the spectrum detection module and the colloidal gold detection module, sends a detection instruction to the core processing module, receives and displays a detection result fed back by the core processing module, provides an expansion interface and exports the data;

the core processing module receives and analyzes the detection instruction input by the display control module, inputs a detection driving instruction to the spectrum detection module and the colloidal gold detection module, receives and processes the detection results of the spectrum detection module and the colloidal gold detection module, and outputs the processed detection result to the display control module;

the spectrum detection module receives a detection driving instruction of the core processing module, emits light to the accommodated detection sample, receives spectrum data of the detection sample and outputs the spectrum data to the core processing module;

the colloidal gold detection module receives a detection driving instruction of the core processing module, photographs the detection card and transmits the photographed photograph to the core processing module.

Further, power module includes power control circuit, stand-by battery and power display lamp all are connected with power control circuit, and power control circuit provides the electric energy with output standard voltage to display control module, core processing module and spectrum detection module, and power control circuit detects stand-by battery's electric quantity and drives the power display lamp and show.

Furthermore, the display control module comprises a touch control device, a touch control pen and an input device, the touch control pen and the input device are connected with the touch control device in an inserting mode, a touch display screen, a single chip microcomputer, a built-in battery, a communication module, a storage card, a communication protocol interface and an expansion interface are integrated on the touch control device, and the touch display screen, the built-in battery, the communication module, the storage card, the communication protocol and the expansion interface are all connected with the single chip microcomputer.

Further, the core processing module includes the circuit board, the integrated power module that has on the circuit board, handle the chip, the image processing chip, the relay, communication protocol interface and drive module, power module, the image processing chip, the relay, communication protocol interface and drive module all are connected with handling the chip, power module converts the standard voltage of input and supplies power to handling the chip, it passes through communication protocol interface and display control module communication connection to handle the chip, the relay is connected with drive module, drive module is connected with spectrum detection module and colloidal gold detection module respectively.

Further, the spectrum detection module includes light source, cell support, optic fibre and spectrum module, and the light source passes through optic fibre and cell leg joint, and the cell inserts in the cell support, and the cell support passes through optic fibre and is connected with the spectrum module, and the spectrum module passes through the data line and is connected with core processing module.

Further, the colloidal gold detection module comprises a colloidal gold detection reagent card and a camera, the camera is connected with the core processing module through a data line, the reflector is used for reflecting a detection image of the colloidal gold detection reagent card to the camera, and the camera transmits a shot detection image to the core processing module.

The utility model provides a wisdom water quality safety detection case, includes portable case and foretell power module, display control module, core processing module, spectral detection module and colloidal gold detection module, portable case comprises case lid and box, is equipped with colloidal gold detection reagent card storage area and operation area on the case lid, and display control module, power module, core processing module and spectral detection module all are fixed in the box, and one side of box is equipped with draw-in groove and sample cell, but in the colloidal gold detection reagent card vertical insert draw-in groove and through the reflector reflection of 45 degrees places to colloidal gold detection module in, the sample cell is used for placing the testing sample.

An intelligent water quality safety detection method comprises the following steps:

a step of supplying electric energy;

a step of spectrum detection;

and detecting colloidal gold; wherein the content of the first and second substances,

the step of supplying electric energy comprises: the power supply control circuit of the power supply module converts an externally input voltage into a standard voltage, the power supply control circuit charges the standby battery and provides electric energy for the display control module, the core processing module and the spectrum detection module, and after the externally input voltage is disconnected, the standby battery provides electric energy for the display control module, the core processing module and the spectrum detection module;

the step of detecting the spectrum comprises: the display control module outputs a spectrum detection instruction, the core processing module receives and decodes the spectrum detection instruction, the core processing module inputs a spectrum detection driving instruction to the spectrum detection module, a light source of the spectrum detection module emits detection light, the detection light passes through a detection sample in a cuvette, the core processing module receives the detection light passing through the detection sample and processes input original spectrum data to obtain original data X related to concentration, the core processing module transmits the original spectrum data and the original data X to the display control module, the display control module converts the original data X into a concentration value Y by calibrating the obtained k value and b value, and the display control module displays the original spectrum data and the concentration value Y through a touch display screen;

the colloidal gold detection method comprises the following steps: dropping a detection sample onto a colloidal gold detection reagent card, outputting a colloidal gold detection instruction by a display control module, receiving and decoding the colloidal gold detection instruction by a core processing module and driving a camera to shoot, shooting the colloidal gold detection reagent card by the camera, transmitting the shot picture to the core processing module through the camera, extracting a letter curve on the picture and a TC value related to the concentration by an image processing chip of the core processing module, transmitting the letter curve and the TC value to the display control module by the core processing module, converting the X value into a concentration value Y value by the display control module after receiving the letter curve and the TC value and calibrating the obtained k value and b value, and finally displaying the spectral data and the Y value through a touch display screen.

The utility model has the advantages that: this detecting system gathers spectral analysis and colloidal gold and detects two kinds of detection modes in an organic whole, can intelligent instant acquisition water quality's testing result, need not to carry out complicated detection procedure in censorship to the laboratory, detection efficiency greatly improves, this testing result is unanimous basically with laboratory test result simultaneously, the testing result is reliable, the conversion flow of having removed colloidal gold from when detecting, this system has portable good advantage simultaneously, the measured data is convenient for derive and upload.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a block diagram of an intelligent water quality safety detection system;

FIG. 2 is a schematic diagram of a circuit board of the core processing module;

FIG. 3 is a schematic structural diagram of the spectrum detection module;

FIG. 4 is a functional layout structure diagram of the intelligent water quality safety inspection box;

FIG. 5 is a schematic sectional view of the case;

FIG. 6 is a graph showing the absorption peaks of the chelate solution in the examples;

FIG. 7 is a regression graph of absorbance versus concentration for chelate solutions tested in the examples using the present invention;

FIG. 8 is a regression graph of absorbance-concentration of chelate solution measured using a Shanghai apparatus electro-UV-spectrophotometer in the examples;

FIG. 9 is a graph of raw fluorescence data obtained by a colloidal gold detection module in an example.

In the drawings, the components represented by the respective reference numerals are listed below:

1-a power supply module, 2-a display control module, 3-a core processing module, 4-a spectrum detection module, 5-a colloidal gold detection module, 6-a power supply module, 7-a processing chip, 8-an image processing chip, 9-a first relay, 10-a second relay, 11-a first drive, 12-a second drive, 13-a light source, 14-a cuvette support, 15-a cuvette, 16-a spectrum module, 17-a box cover, 18-a box body, 19-a colloidal gold detection reagent card, 20-an operation area, 21-a card insertion area, 22-a sample cell, 23-a tablet computer, 24-a camera, 25-a reflector and 26-a reflector support.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

As shown in figure 1, an intelligent water quality safety detection system comprises a power supply module 1, a display control module 2, a core processing module 3, a spectrum detection module 4 and a colloidal gold detection module 5, wherein the power supply module 1 is respectively connected with the display control module 2, the core processing module 3 and the spectrum detection module 4, the display module control module 2 is connected with the core processing module 3, the core processing module 3 is respectively connected with the spectrum detection module 4 and the colloidal gold detection module 5,

the power supply module 1 supplies electric energy to the display control module, the core processing module and the spectrum detection module,

the display control module 2 is used for providing an operation interface, storing detection data of the spectrum detection module and the colloidal gold detection module, sending a detection instruction to the core processing module, receiving and displaying a detection result fed back by the core processing module, providing an expansion interface and exporting data;

the core processing module 3 receives and analyzes the detection instruction input by the display control module 2, inputs a detection driving instruction to the spectrum detection module and the colloidal gold detection module, receives and processes the detection results of the spectrum detection module and the colloidal gold detection module, and outputs the processed detection result to the display control module;

the spectrum detection module 4 receives a detection driving instruction of the core processing module 3, emits light to the accommodated detection sample, receives spectrum data of the detection sample, and outputs the spectrum data to the core processing module;

the colloidal gold detection module 5 receives a detection driving instruction of the core processing module 3, photographs the detection card, and transmits the photographed photograph to the core processing module 3.

Power module 1 includes power control circuit, stand-by battery and electric quantity display lamp all are connected with power control circuit, and power control circuit provides the electric energy with output standard voltage to display control module 2, core processing module 3 and spectrum detection module 4, and power control circuit detects stand-by battery's electric quantity and drives the electric quantity display lamp and show.

The display control module 2 comprises a touch control device, a touch control pen and an input device, the touch control pen and the input device are connected with the touch control device in an inserting mode, a touch display screen, a single chip microcomputer, a built-in battery, a communication module, a storage card, a communication protocol interface and an expansion interface are integrated on the touch control device, and the touch display screen, the built-in battery, the communication module, the storage card, the communication protocol and the expansion interface are all connected with the single chip microcomputer.

In this embodiment, the display control module 2 may select a tablet computer with a relatively mature technology, the tablet computer is integrated with the camera 24 and the touch display screen, the internal circuit board of the tablet computer is integrated with the single chip microcomputer, the built-in battery, the communication module, the memory card, the communication protocol interface and the expansion interface, the tablet computer may be plugged with the keyboard and the mouse, and is equipped with the touch pen, and the keyboard, the mouse and the touch pen may be used as input equipment to input relevant instructions to the tablet computer.

As shown in fig. 2, the core processing module includes a circuit board, a power module 6 is integrated on the circuit board, a processing chip 7, an image processing chip 8, a relay, a communication protocol interface and a driving module, the power module, the image processing chip, the relay, the communication protocol interface and the driving module are all connected with the processing chip, the relay includes a first relay 9 and a second relay 10, the driving module includes a first driver 11 and a second driver 12, the power module converts an input standard voltage and supplies power to the processing chip, the processing chip 7 is in communication connection with the display control module 2 through the communication protocol interface, the first relay 9 and the second relay 10 are respectively connected with the first driver 11 and the second driver 12, the first driver 11 and the second driver 12 are respectively connected with the spectrum detection module 4 and the colloidal gold detection module 5.

As shown in fig. 3, the spectrum detection module includes a light source 13, a cuvette 15, a cuvette holder 14, an optical fiber and a spectrum module 16, the cuvette 15 is inserted on the cuvette holder, the light source 13 is connected with the cuvette holder 14 through the optical fiber, the cuvette holder 14 is connected with the spectrum module 16 through the optical fiber, and the spectrum module 16 is connected with the core processing module through a data line; the spectrum module 16 consists of a reflective spectroscope and a CCD (charge coupled device), namely a filter, determines the spectrum data of the solution to be detected by frequency calibration and data analysis, judges whether the solution to be detected contains the object to be detected according to the absorption peak of the reference solution in the solution to be detected, and realizes the determination of the concentration of the object to be detected through the absorbance at the absorption peak.

As shown in fig. 4-5, the gold colloid detection module 5 includes a gold colloid detection reagent card 19 and a camera 24, the camera function of the camera 24 can be realized by a tablet computer integrated in the display control module 2 and a reflective mirror fixed to the case in an inclined manner at 45 degrees, the reflective mirror 25 is used for reflecting the detection image of the gold colloid detection reagent card 19 to the camera 24, the camera 24 transmits the shot detection image to the tablet computer, and the tablet computer transmits the image to the core processing module 3 for processing.

This embodiment still provides an intelligent water quality safety detection case, including portable case and foretell power module 1, display control module 2, core processing module 3, spectrum detection module 4 and colloidal gold detection module 5, the portable case comprises case lid 18 and box 18, is equipped with colloidal gold detection reagent card storage area and operation area on the case lid 17, and display control module 2, power module 1, core processing module 3 and spectrum detection module 4 all are fixed in box 18, and one side of box 18 is equipped with draw-in groove 21 and sample cell 22, and colloidal gold detection reagent card 19 can vertically insert in draw-in groove 21 and reflect to colloidal gold detection module 5 through 45 degrees reflector 25 placed in, and sample cell 22 is used for placing the testing sample.

An intelligent water quality safety detection method comprises the following steps:

a step of supplying electric energy;

a step of spectrum detection;

and detecting colloidal gold; wherein, the first and the second end of the pipe are connected with each other,

the step of supplying electric energy comprises: the power supply control circuit of the power supply module 1 converts an externally input voltage into a standard voltage, the power supply control circuit charges a standby battery and provides electric energy for the display control module, the core processing module and the spectrum detection module, and after the externally input voltage is disconnected, the standby battery provides electric energy for the display control module, the core processing module and the spectrum detection module;

the step of detecting the spectrum comprises: the display control module 2 outputs a spectrum detection instruction, the core processing module 3 receives and decodes the spectrum detection instruction, the core processing module 3 inputs a spectrum detection driving instruction to the spectrum detection module, a light source of the spectrum detection module 4 emits detection light, the detection light passes through a detection sample in the cuvette 15, the core processing module 3 receives the detection light passing through the detection sample and processes input original spectrum data to obtain original data X related to concentration, the core processing module 3 transmits the original spectrum data and the original data X to the display control module, the display control module 2 obtains a k value and a b value through calibration, the k value is 0.0765, the b value is 0.0093, the original data X value is converted into a concentration value Y value, and the conversion formula is as follows: y is 0.00765X-0.0093, and the display control module displays the original spectrum data and the concentration value Y through the touch display screen;

the colloidal gold detection method comprises the following steps: dropping a detection sample on a colloidal gold detection reagent card 19, outputting a colloidal gold detection instruction by a display control module 2, receiving and decoding the colloidal gold detection instruction by a core processing module 3, driving a camera 24 to shoot, shooting the colloidal gold detection reagent card by the camera 24, transmitting the shot picture to the core processing module 3 through the camera, extracting a picture credit curve and a TC value related to concentration by an image processing chip 8 of the core processing module, transmitting the credit curve and the TC value to the display control module 2 by the core processing module 3, receiving the credit curve and the TC value by the display control module 2, converting the X value into a concentration value Y value through calibrating the obtained k value and the obtained b value, and finally displaying the spectral data and the Y value through a touch display screen.

Examples

In the embodiment, copper ions are selected as a test target to carry out system verification, test design is carried out by referring to GBT4.4.1-4.4.7, a chelate solution absorption peak and an absorption peak curve are detected, and a linear relation between absorption peak frequency and absorbance and solution concentration is observed.

The method comprises the following steps:

(1) ammonia, 40% of acetaldehyde, 400g/L of a triammonium citrate solution: weighing 40g of ammonium citrate tribasic, dissolving in pure water, and diluting to 100 ml;

(2) 1g of bicyclohexanoneoxalyl dihydrazone is weighed out at 2g/L of bicyclohexanoneoxalyl dihydrazone solution, and 500ml of ethanol (1+1) solution is added into a beaker;

(3) heating to 60-70 ℃, stirring and dissolving;

(4) ammonia-ammonium chloride buffer solution (pH9.0) 27g of ammonium chloride was weighed, dissolved in 500ml of pure water, and ammonia (ρ ═ 0.88g/ml) was added dropwise until pH 9.0;

(5) copper standard stock solution [ ρ (Cu) ═ 1mg/ml ]: weighing 1.000g of pure copper powder, dissolving the pure copper powder in 15ml of nitric acid solution (1+1), and fixing the volume of pure water to 1000 ml;

(6) copper standard used solution [ ρ (Cu) ═ 10 μ g/ml ]: sucking 10ml of copper standard stock solution, and fixing the volume to 1000ml by using pure water;

(7) adding 0, 0.1, 0.5, 1, 2, 4 and 6ml of copper standard use solution into seven 50ml colorimetric tubes respectively, and diluting with pure water to 25 ml;

(8) adding 2ml of triammonium citrate solution into each colorimetric tube, mixing, adjusting the pH to 9.0 by using ammonia water, adding 5ml of buffer solution, uniformly mixing, adding 5ml of dicyclohexyl oxalyl dihydrazone solution and 1ml of acetaldehyde, adding water to the scales, heating in a water bath at 50 ℃ for 10min, taking out and cooling to room temperature; under the condition that the pH value is 9.0, copper ions react with bicyclohexanoneoxaldihydrazone and acetaldehyde to generate a bis-acetaldehyde oxalyldihydrazone chelate;

(9) colorimetric quantification was then performed and the results are shown in figure 6.

(10) At the wavelength of 524nm, the absorbance of the cuvette was measured by pure water reference and compared with a Shanghai apparatus electro-ultraviolet-visible spectrophotometer, and the results were as follows:

TABLE 1 comparison of Absorbance measurements

	Spectrometer	Spectrophotometer			Spectrometer	Spectrophotometer
										10g	0.808	0.753		5g	0.392	0.373
	0.8	0.751			0.387	0.371
											0.809	0.758			0.389	0.375
	0.81	0.758			0.397	0.378
											0.809	0.759			0.39	0.378
	0.808	0.758			0.393	0.374
										Mean value	0.807333	0.756167		Mean value	0.391333	0.374833
Standard deviation of	0.00367	0.003312		Standard deviation of	0.003502	0.002787
										Coefficient of variation	0.45％	0.44％		Coefficient of variation	0.89％	0.74％
	Spectrometer	Spectrophotometer			Spectrometer	Spectrophotometer
										1g	0.063	0.067		0.5g	0.028	0.028
	0.064	0.066			0.03	0.027
											0.063	0.067			0.028	0.026
	0.062	0.066			0.03	0.025
											0.063	0.066			0.033	0.027
	0.064	0.066			0.029	0.027
										Mean value	0.063167	0.066333		Mean value	0.029667	0.026667
Standard deviation of	0.000753	0.000516		Standard deviation of	0.001862	0.001033
										Coefficient of variation	1.19％	0.78％		Coefficient of variation	6.28％	3.87％
											Spectrometer	Spectrophotometer
0.1g	0.007	0.003
											0.002	0.002
	0.0004	0.002
											0.003	0.001
	-0.002	0.001			10	5	1	0.5	0.1
											0.009	0.003		Spectrometer	0.807	0.391	0.063	0.029	0.003
Mean value	0.003233	0.002
										Standard deviation of	0.004109	0.000894			10	5	1	0.5	0.1
Coefficient of variation	127.09％	44.72％		Spectrophotometry	0.756	0.374	0.066	0.026	0.002

As shown in fig. 7 and fig. 8, adopt the utility model discloses a spectral detection module and the absorbance-concentration regression analysis curve that adopts shanghai appearance electro-ultraviolet-visible spectrophotometer to detect coincide basically, show the utility model discloses a spectral detection module and detection method data are reliable.

As shown in FIG. 9, the curve of the fluorescence difference raw data obtained by the colloidal gold detection module is identical to the data directly read by the colloidal gold detection reagent card, which indicates that the data of the colloidal gold detection module of the present invention is reliable.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean 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 invention. In this specification, the schematic representations of the terms used above do not necessarily refer 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.

Claims (7)

1. An intelligent water quality safety detection system is characterized by comprising a power supply module, a display control module, a core processing module, a spectrum detection module and a colloidal gold detection module, wherein the power supply module is respectively connected with the display control module, the core processing module and the spectrum detection module, the display control module is connected with the core processing module, the core processing module is respectively connected with the spectrum detection module and the colloidal gold detection module,

the power supply module supplies electric energy to the display control module, the core processing module and the spectrum detection module,

the display control module provides an operation interface, stores detection data of the spectrum detection module and the colloidal gold detection module, sends a detection instruction to the core processing module, receives and displays a detection result fed back by the core processing module, provides an expansion interface and derives data;

the core processing module receives and analyzes the detection instruction input by the display control module, inputs a detection driving instruction to the spectrum detection module and the colloidal gold detection module, receives and processes the detection results of the spectrum detection module and the colloidal gold detection module, and outputs the processed detection result to the display control module;

the spectrum detection module receives a detection driving instruction of the core processing module, emits light to the accommodated detection sample, receives spectrum data of the detection sample and outputs the spectrum data to the core processing module;

the colloidal gold detection module receives a detection driving instruction of the core processing module, photographs the detection card and transmits the photographed photograph to the core processing module.

2. The system according to claim 1, wherein the power supply module comprises a power control circuit, a backup battery and a power display lamp, the backup battery and the power display lamp are connected to the power control circuit, the power control circuit provides the display control module, the core processing module and the spectrum detection module with power by outputting a standard voltage, and the power control circuit detects the power of the backup battery and drives the power display lamp to display the power.

3. The intelligent water quality safety detection system according to claim 1, wherein the display control module comprises a touch device, a touch pen and an input device, the touch pen and the input device are connected with the touch device in an inserting manner, the touch device is integrated with a touch display screen, a single chip microcomputer, a built-in battery, a communication module, a memory card, a communication protocol interface and an expansion interface, and the touch display screen, the built-in battery, the communication module, the memory card, the communication protocol and the expansion interface are all connected with the single chip microcomputer.

4. The system according to claim 1, wherein the core processing module comprises a circuit board, the circuit board is integrated with a power module, a processing chip, an image processing chip, a relay, a communication protocol interface and a driving module, the power module, the image processing chip, the relay, the communication protocol interface and the driving module are all connected with the processing chip, the power module converts an input standard voltage and supplies power to the processing chip, the processing chip is in communication connection with the display control module through the communication protocol interface, the relay is connected with the driving module, and the driving module is respectively connected with the spectrum detection module and the colloidal gold detection module.

5. The system according to claim 1, wherein the spectrum detection module comprises a light source, a cuvette holder, an optical fiber and a spectrum module, the light source is connected with the cuvette holder through the optical fiber, the cuvette is inserted into the cuvette holder, the cuvette holder is connected with the spectrum module through the optical fiber, and the spectrum module is connected with the core processing module through a data line.

6. The intelligent water quality safety detection system according to claim 1, wherein the colloidal gold detection module comprises a colloidal gold detection reagent card and a camera, the camera is connected with the core processing module through a data line, and the camera transmits the shot detection picture to the core processing module.

7. A detection box consisting of the intelligent water quality safety detection system according to claim 1, wherein the detection box comprises a portable box and the power supply module, the display control module, the core processing module, the spectrum detection module and the colloidal gold detection module, the portable box comprises a box cover and a box body, the box cover is provided with a colloidal gold detection reagent card storage area and an operation area, the display control module, the power supply module, the core processing module and the spectrum detection module are all fixed in the box body, one side of the box body is provided with a clamping groove and a sample cell, the colloidal gold detection reagent card can be vertically inserted into the clamping groove and is reflected to the colloidal gold detection module through a reflector placed at 45 degrees, and the sample cell is used for placing a detection sample.

Images