CN107340259B - Water purifier - Google Patents

Abstract

The invention relates to a water purifier, which comprises a display module capable of displaying the water quality state of raw water entering the water purifier or/and purified water produced after being filtered by a water purifier filtering system, and a water quality detection module connected with the display module and used for detecting the water quality state, and is characterized in that: the water quality detection module at least comprises an organic matter detection sensor for detecting the organic matter content in water, wherein the organic matter detection sensor comprises a light source (1) capable of emitting ultraviolet rays, and a detection component which is matched with the light source (1) and can detect the organic matter content in water, and the detection component comprises a detection tube (2), a detection group ultraviolet receiver (3) and a circuit board (4). Compared with the prior art, the organic matter detection sensor has the advantages of capability of detecting and displaying the organic matter content in water in real time, low cost and small volume, and is suitable for various detection occasions.

Description

Water purifier

Technical Field

The invention relates to a water purifier.

Background

With the improvement of the living standard of people, a water purifier is used for filtering tap water, and then pure water filtered by the water purifier is drunk to become a common healthy drinking water mode in daily life of people. The filter element of the water purifier can generally filter most impurities, metals and organic matters in water. Then, the existing water purifier often cannot intuitively and clearly display the content of organic matters in unfiltered water and filtered water, and the user experience is poor.

At present, the detection of the content of the organic matters mainly depends on a spectrophotometer, and the working principle is as follows: the total content of the organic matters is indirectly represented by the absorbance of the ultraviolet rays with the wavelength of 254 nanometers, after the ultraviolet rays with the wavelength of 254 nanometers penetrate through water, the organic matters in the water absorb part of the ultraviolet rays, and the higher the concentration of the organic matters is, the higher the intensity of the ultraviolet ray absorption is, so the absorbance of the ultraviolet rays corresponds to the content of the organic matters. Different organic matters have different absorption intensities for ultraviolet rays with different wavelengths, and the content of different organic matters in the water can be approximately analyzed by scanning the absorption intensities of the ultraviolet rays with different wavelengths. And the measurement of the total content, namely the comprehensive index of the content of different organic matters, is mainly embodied on ultraviolet rays with 254 nm wavelength.

However, the spectrophotometer itself is an instrument, which is very expensive and very bulky, and above all has a certain obstacle to the use of ordinary people.

Disclosure of Invention

The invention aims to provide a water purifier capable of displaying the organic matter content in water in real time aiming at the prior art.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a water purifier, includes the display module that can show the quality of water state of the inside raw water of entering water purifier or/and the purified water of output after the filtration of water purifier filtration system, and is used for detecting the quality of water state's water detection module with the display module line, its characterized in that: the water quality detection module at least comprises an organic matter detection sensor for detecting the organic matter content in water, wherein the organic matter detection sensor comprises a light source capable of emitting ultraviolet rays and a detection component matched with the light source and capable of detecting the organic matter content in water, the light source is a detection group LED ultraviolet lamp, the detection group LED ultraviolet lamp is connected with a current control circuit, and the current flowing through the detection group LED ultraviolet lamp is controlled by the current control circuit; the detection assembly comprises

The detection tube can be penetrated by ultraviolet rays emitted by the LED ultraviolet lamp of the detection group, and water can pass through the detection tube;

the detection group ultraviolet receiver is used for detecting the intensity of ultraviolet rays emitted from the detection group LED ultraviolet lamp and penetrating through the detection tube;

the output end of the detection group ultraviolet receiver is connected with the input end of the detection group signal amplifying circuit and is used for amplifying the ultraviolet intensity signal detected by the detection group ultraviolet receiver;

the output end of the detection group signal amplifying circuit is connected with the signal processing circuit, the signal processing circuit is also connected with the current control circuit, and the signal processing circuit calculates the content of organic matters in water passing through the detection tube according to the ultraviolet intensity signal amplified by the detection group signal amplifying circuit.

The organic matter detection sensor further comprises a shell, a detection tube accommodating cavity is formed in the shell, and the detection tube is arranged in the detection tube accommodating cavity; the current control circuit and the detection group LED ultraviolet lamp are arranged on one side of the shell, and the detection group ultraviolet receiver, the detection group signal amplifying circuit and the signal processing circuit are arranged on the other opposite side of the shell; the shell is internally provided with a first light-transmitting channel and a second light-transmitting channel which are communicated with the accommodating cavity of the detection tube and are positioned at two opposite sides of the accommodating cavity of the detection tube, and ultraviolet light emitted by the LED ultraviolet lamp of the detection group reaches the ultraviolet receiver of the detection group after passing through the first light-transmitting channel, the detection tube and the second light-transmitting channel.

The organic matter detection sensor also comprises a comparison component, and the comparison component comprises:

the control group LED ultraviolet lamp is connected with the detection group LED ultraviolet lamp in series and then connected with the current control circuit, and the current control circuit controls the current flowing through the detection group LED ultraviolet lamp and the control group LED ultraviolet lamp;

a control tube which can be penetrated by ultraviolet rays emitted by the LED ultraviolet lamp of the control group, wherein the control tube is internally vacuumized or provided with air or purified water;

a control group ultraviolet receiver for detecting the intensity of ultraviolet rays emitted from the control group LED ultraviolet lamp and penetrating the control tube;

the control group signal amplifying circuit is connected with the output end of the control group ultraviolet receiver and the input end of the control group signal amplifying circuit and is used for amplifying the ultraviolet intensity signal detected by the control group ultraviolet receiver;

the output end of the comparison group signal amplifying circuit is also connected with the signal processing circuit, and the signal processing circuit calculates the content of organic matters in water passing through the detection tube according to the ultraviolet intensity signal amplified by the detection group signal amplifying circuit and the ultraviolet intensity signal amplified by the comparison group signal amplifying circuit.

The organic matter detection sensor further comprises a shell, a detection tube accommodating cavity and a contrast tube accommodating cavity are arranged in the shell, and the detection tube is arranged in the detection tube accommodating cavity; the control tube is arranged in the control tube accommodating cavity; the current control circuit, the detection group LED ultraviolet lamp and the comparison group LED ultraviolet lamp are arranged on one side of the shell, and the detection group ultraviolet receiver, the detection group signal amplifying circuit, the comparison group ultraviolet receiver, the comparison group signal amplifying circuit and the signal processing circuit are arranged on the other opposite side of the shell; the shell is internally provided with a first light transmission channel and a second light transmission channel which are communicated with the accommodating cavity of the detection tube and positioned at two opposite sides of the accommodating cavity of the detection tube, and ultraviolet light emitted by the LED ultraviolet lamp of the detection group passes through the first light transmission channel, the detection tube and the second light transmission channel and then reaches the ultraviolet receiver of the detection group; the shell is internally provided with a third light-transmitting channel and a fourth light-transmitting channel which are communicated with the control tube accommodating cavity and are positioned at two opposite sides of the control tube accommodating cavity, and ultraviolet light emitted by the LED ultraviolet lamp of the control group reaches the ultraviolet receiver of the control group after passing through the third light-transmitting channel, the control tube and the fourth light-transmitting channel.

The water quality detection module also comprises a TSD sensor or/and a turbidity sensor or/and a conductivity sensor.

Compared with the prior art, the invention has the advantages that: the water quality detection unit is connected with the display module, and the organic matter detection sensor is arranged in the water quality detection unit, so that the water purifier provided by the invention can detect and display the organic matter content in water in real time.

Drawings

FIG. 1 is a block diagram showing waterway connection of a water purifier according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a first embodiment of an organic matter detection sensor according to an embodiment of the present invention;

FIG. 3 is a schematic perspective view of a first embodiment of an organic matter detection sensor according to the present invention;

FIG. 4 is a perspective sectional view of a first embodiment of an organic matter detection sensor according to the present invention;

FIG. 5 is a schematic diagram of a second embodiment of an organic matter detection sensor according to the present invention;

FIG. 6 is a schematic perspective view of a second embodiment of an organic matter detection sensor according to the present invention;

FIG. 7 is a perspective sectional view of a second embodiment of an organic matter detection sensor according to the present invention;

FIG. 8 is a perspective cross-sectional view of a second embodiment of an organic matter detection sensor according to the present invention;

fig. 9 is a perspective cross-sectional view of a second embodiment of an organic matter detection sensor according to an embodiment of the present invention.

Detailed Description

The invention is described in further detail below with reference to the embodiments of the drawings.

The water purifier shown in fig. 1 comprises a display module 101 capable of displaying the quality of raw water entering the water purifier and purified water produced by the water purifier, a first water quality detection module 102 connected with the display module and used for detecting the quality of raw water, and a second water quality detection module 103 used for detecting the quality of purified water. After entering the water purifier, the water quality of raw water is detected through the first water quality detection module 102, the water is filtered through the filtering system 104 inside the water purifier to obtain purified water, at the moment, the water quality of the purified water is detected through the second water quality detection module 103, and finally the purified water flows out through the purified water tap of the water purifier.

The first water quality detection module 102 and the second water quality detection module 103 have the same structure and comprise an organic matter detection sensor, a TSD sensor, a turbidity sensor and a conductivity sensor for detecting the organic matter content of water quality.

The organic matter detection sensor has various structures, and various schemes of the organic matter detection sensor structure will be described in detail below:

first scheme of organic matter detection sensor:

referring to fig. 2 to 4, the device comprises a light source capable of emitting ultraviolet rays and a detection component matched with the light source and capable of detecting the organic matter content in water; the light source is a detection group LED ultraviolet lamp 1, the detection group LED ultraviolet lamp 1 is connected with a current control circuit 5, and the current control circuit 5 controls the current flowing through the detection group LED ultraviolet lamp; the detection assembly comprises

A detection tube 2 which can be penetrated by ultraviolet rays emitted from the detection group LED ultraviolet lamp 1, and water can pass through the detection tube 2;

a detection group ultraviolet receiver 3 for detecting the intensity of ultraviolet rays emitted from the detection group LED ultraviolet lamp 1 and penetrating the detection tube 2;

the output end of the detection group signal amplifying circuit 4 is connected with the input end of the detection group signal amplifying circuit 4 and is used for amplifying the ultraviolet intensity signal detected by the detection group ultraviolet receiver 3;

the output end of the detection group signal amplifying circuit 4 is connected with the signal processing circuit 6, the signal processing circuit 6 is also connected with the current control circuit 5, and the signal processing circuit 6 calculates the content of organic matters in water passing through the detection tube 2 according to the ultraviolet intensity signal amplified by the detection group signal amplifying circuit 4.

In this embodiment, the organic matter detection sensor further includes a housing 11, a detection tube accommodating cavity is provided in the housing 11, and the detection tube 2 is disposed in the detection tube accommodating cavity; the current control circuit 5 and the detection group LED ultraviolet lamp 1 are arranged on the same circuit board A and are positioned on one side of the shell 11, and the detection group ultraviolet receiver 3, the detection group signal amplifying circuit 4 and the signal processing circuit 6 are arranged on the other circuit board B and are positioned on the other opposite side of the shell 11; the shell 11 is internally provided with a first light-transmitting channel 11a and a second light-transmitting channel 11b which are communicated with the accommodating cavity of the detection tube and are positioned at two opposite sides of the accommodating cavity of the detection tube, and ultraviolet light emitted by the LED ultraviolet lamp 1 of the detection group reaches the ultraviolet receiver 3 of the detection group after passing through the first light-transmitting channel, the detection tube 2 and the second light-transmitting channel.

The water inlet joint 12 and the water outlet joint 13 which are respectively communicated with the two ends of the detection pipe are connected, and sealing rings 14 are arranged at the positions of the water inlet joint and the water outlet joint, which are connected with the two ends of the detection pipe.

The detection method of the organic matter detection sensor comprises the following steps:

step (1), vacuumizing a detection tube 2, or keeping the detection tube 2 full of air, or flushing purified water into the detection tube 2, then starting the detection group LED ultraviolet lamp 1, and outputting a control signal to a current control circuit 5 through a signal processing circuit 6 to enable the current flowing through the detection group LED ultraviolet lamp 1 to change linearly; then the signal processing circuit 6 records the ultraviolet intensity signals amplified by the detection group signal amplifying circuit 4 under different current conditions respectively, averages the ultraviolet intensity values, and then marks the average value as a first ultraviolet intensity reference value;

step (2), preparing N pieces of control water samples with known organic matter content and different content, keeping the detection group LED ultraviolet lamp 1 on, respectively sequentially passing the N pieces of control water samples through the detection tube 2, and outputting a control signal to the current control circuit 5 through the signal processing circuit 6 according to the same mode of the step (1), so that the current flowing through the detection group LED ultraviolet lamp 1 shows linear change; then the signal processing circuit 6 records the ultraviolet intensity signals amplified by the detection group signal amplifying circuit 4 when N comparison water samples under different current conditions flow through the detection tube 2, averages the ultraviolet intensity values under the different current conditions, and marks the average value of the ultraviolet intensity values as a second ultraviolet intensity reference value, a third ultraviolet intensity reference value and a … … (n+1) th ultraviolet intensity reference value, wherein N is a natural number greater than or equal to 3;

step (3), according to the n+1 parts of ultraviolet intensity reference values obtained in the step (1) and the step (2), a comparison table between the organic matter content in a comparison water sample and the ultraviolet intensity values amplified by the detection group signal amplifying circuit 4 under different current conditions is obtained;

step (4), keeping the detection group LED ultraviolet lamp 1 on, enabling water to be detected to flow through the detection tube 2, and outputting a control signal to the current control circuit 5 through the signal processing circuit 6 in the same manner as in the step (1), so that the current flowing through the detection group LED ultraviolet lamp 1 shows linear change; then the signal processing circuit 6 records the ultraviolet intensity signals amplified by the detection group signal amplifying circuit 4 under different current conditions, averages the ultraviolet intensity values, marks the average value as an ultraviolet intensity detection value, and then obtains the organic matter content in the water to be detected at the moment by inquiring the comparison table obtained in the step (3).

Second scheme of organic matter detection sensor:

referring to fig. 5 to 9, compared with the first embodiment, the organic matter detection sensor further includes a control unit including:

the control group LED ultraviolet lamp 10 is connected with the current control circuit 5 after being connected in series with the detection group LED ultraviolet lamp 1, and the current control circuit 5 controls the current flowing through the detection group LED ultraviolet lamp and the control group LED ultraviolet lamp 10;

a control tube 7 which can be penetrated by the ultraviolet rays emitted by the LED ultraviolet lamp 10 of the control group, wherein the inside of the control tube 7 is vacuumized or provided with air or purified water;

a control group ultraviolet receiver 8 for detecting the intensity of ultraviolet rays emitted from the control group LED ultraviolet lamp 10 and penetrating the control tube 7;

a reference group signal amplifying circuit 9, wherein the output end of the reference group ultraviolet receiver 8 is connected with the input end of the reference group signal amplifying circuit 9, and is used for amplifying the ultraviolet intensity signal detected by the reference group ultraviolet receiver 8;

the output end of the comparison group signal amplifying circuit 9 is also connected with the signal processing circuit 6, and the signal processing circuit 6 calculates the content of organic matters in the water passing through the detection tube 2 according to the ultraviolet intensity signal amplified by the detection group signal amplifying circuit 4 and the ultraviolet intensity signal amplified by the comparison group signal amplifying circuit 8.

A contrast tube accommodating cavity is also arranged in the shell 11, and a contrast tube 7 is arranged in the contrast tube accommodating cavity; the current control circuit 5, the detection group LED ultraviolet lamp 1 and the comparison group LED ultraviolet lamp 10 are arranged on the same circuit board and on one side of the shell 11, and the detection group ultraviolet receiver 3, the detection group signal amplifying circuit 4, the comparison group ultraviolet receiver 8, the comparison group signal amplifying circuit 9 and the signal processing circuit 6 are arranged on the other circuit board and on the other opposite side of the shell 11; the shell 11 is also internally provided with a third light-transmitting channel 11c and a fourth light-transmitting channel 11d which are communicated with the accommodating cavity of the comparison tube and positioned on two opposite sides of the accommodating cavity of the comparison tube, and ultraviolet light emitted by the LED ultraviolet lamp 10 of the comparison group reaches the ultraviolet receiver 8 of the comparison group after passing through the third light-transmitting channel 11c, the comparison tube 7 and the fourth light-transmitting channel 11 d.

The detection method of the organic matter detection sensor in the scheme comprises the following steps:

step (1), turning on the detection group LED ultraviolet lamp 1 and the comparison group LED ultraviolet lamp 10, and outputting a control signal to the current control circuit 5 through the signal processing circuit 6 so that the current flowing through the comparison group LED ultraviolet lamp 10 shows linear change; then the signal processing circuit 6 records the ultraviolet intensity signals amplified by the comparison group signal amplifying circuit 9 under different current conditions respectively, averages the ultraviolet intensity values and then marks the average value as a first ultraviolet intensity reference value;

step (2), preparing N pieces of control water samples with known organic matter content and different content, keeping the detection group LED ultraviolet lamp 1 on, respectively sequentially passing the N pieces of control water samples through the detection tube 2, and outputting a control signal to the current control circuit 5 through the signal processing circuit 6 according to the same mode of the step (1), so that the current flowing through the detection group LED ultraviolet lamp 1 shows linear change; then the signal processing circuit 6 records the ultraviolet intensity signals amplified by the detection group signal amplifying circuit 4 when N comparison water samples under different current conditions flow through the detection tube 2, averages the ultraviolet intensity values under the different current conditions, and marks the average value of the ultraviolet intensity values as a second ultraviolet intensity reference value, a third ultraviolet intensity reference value and a … … (n+1) th ultraviolet intensity reference value, wherein N is a natural number greater than or equal to 3;

step (3), according to the N ultraviolet intensity reference values obtained in the step (2), a comparison table between the organic matter content in a comparison water sample and the ultraviolet intensity values amplified by the detection group signal amplifying circuit 4 under different current conditions is obtained;

step (4), keeping the detection group LED ultraviolet lamp 1 and the comparison group LED ultraviolet lamp 10 on, enabling water to be detected to flow through the detection tube 2, and outputting a control signal to the current control circuit 5 through the signal processing circuit 6 in the same manner as in the step (1), so that currents flowing through the detection group LED ultraviolet lamp 1 and the comparison group LED ultraviolet lamp 10 show linear changes; the signal processing circuit 6 records the ultraviolet intensity signals amplified by the comparison group signal amplifying circuit 9 under different current conditions, averages the ultraviolet intensity values, marks the average value of the ultraviolet intensity as a temporary ultraviolet intensity reference value, divides the temporary ultraviolet intensity reference value by a first ultraviolet intensity reference value, and obtains the light source intensity attenuation proportion; meanwhile, the signal processing circuit 6 records the ultraviolet intensity signals amplified by the detection group signal amplifying circuit 4 under different current conditions, averages the ultraviolet intensity values, marks the average value of the ultraviolet intensity as an ultraviolet intensity detection value, multiplies the ultraviolet intensity detection value by a light source intensity attenuation proportion to obtain an ultraviolet intensity searching value, and then adopts the ultraviolet intensity searching value to obtain the organic matter content in the water to be detected at the moment by inquiring the comparison table obtained in the step (3).

Claims (3)

1. The utility model provides a water purifier, includes the display module that can show the quality of water state of the inside raw water of entering water purifier or/and the purified water of output after filtering through water purifier filtration system, and the quality of water testing module that is used for detecting the quality of water state of the inside raw water of entering water purifier or/and the purified water of output after filtering through water purifier filtration system with the display module line, its characterized in that: the water quality detection module at least comprises an organic matter detection sensor for detecting the organic matter content in water, wherein the organic matter detection sensor comprises a light source capable of emitting ultraviolet rays and a detection assembly matched with the light source and capable of detecting the organic matter content in water, the light source is a detection group LED ultraviolet lamp (1), the detection group LED ultraviolet lamp (1) is connected with a current control circuit (5), and the current control circuit (5) controls the current flowing through the detection group LED ultraviolet lamp; the detection assembly comprises

A detection tube (2) capable of being penetrated by ultraviolet rays emitted by the detection group LED ultraviolet lamp (1), and water can pass through the detection tube (2);

a detection group ultraviolet receiver (3) for detecting the intensity of ultraviolet rays emitted from the detection group LED ultraviolet lamp (1) and penetrating the detection tube (2);

the output end of the detection group signal amplifying circuit (4) is connected with the input end of the detection group signal amplifying circuit (4) and is used for amplifying the ultraviolet intensity signal detected by the detection group ultraviolet receiver (3);

the output end of the detection group signal amplifying circuit (4) is connected with the signal processing circuit (6), the signal processing circuit (6) is also connected with the current control circuit (5), and the signal processing circuit (6) calculates the content of organic matters in water passing through the detection tube (2) according to the ultraviolet intensity signal amplified by the detection group signal amplifying circuit (4);

the organic matter detection sensor also comprises a comparison component, and the comparison component comprises:

the control group LED ultraviolet lamp (10), the control group LED ultraviolet lamp (10) is connected with the current control circuit (5) after being connected in series with the detection group LED ultraviolet lamp (1), and the current control circuit (5) controls the current flowing through the detection group LED ultraviolet lamp and the control group LED ultraviolet lamp (10);

a control tube (7) which can be penetrated by ultraviolet rays emitted by the LED ultraviolet lamp (10) of the control group, wherein the interior of the control tube (7) is vacuumized or provided with air or purified water;

a control group ultraviolet receiver (8) for detecting the intensity of ultraviolet rays emitted from the control group LED ultraviolet lamp (10) and penetrating the control tube (7);

the control group signal amplifying circuit (9), the output end of the control group ultraviolet receiver (8) is connected with the input end of the control group signal amplifying circuit (9), and is used for amplifying the ultraviolet intensity signal detected by the control group ultraviolet receiver (8);

the output end of the comparison group signal amplifying circuit (9) is also connected with the signal processing circuit (6), and the signal processing circuit (6) calculates the content of organic matters in water passing through the detection tube (2) according to the ultraviolet intensity signal amplified by the detection group signal amplifying circuit (4) and the ultraviolet intensity signal amplified by the comparison group signal amplifying circuit (9);

the detection method of the organic matter detection sensor comprises the following steps:

step (1), starting the LED ultraviolet lamp (1) of the detection group and the LED ultraviolet lamp (10) of the comparison group, and outputting a control signal to the current control circuit (5) through the signal processing circuit (6) so that the current flowing through the LED ultraviolet lamp (10) of the comparison group shows linear change; then the signal processing circuit (6) records the ultraviolet intensity signals amplified by the comparison group signal amplifying circuit (9) under different current conditions respectively, averages the ultraviolet intensity values, and then marks the average value as a first ultraviolet intensity reference value;

step (2), preparing N control water samples with known organic matter content and different content, keeping the detection group LED ultraviolet lamp (1) on, respectively enabling the N control water samples to sequentially pass through the detection tube (2), outputting control signals to a current control circuit (5) through a signal processing circuit (6) in the same mode according to the step (1), enabling current flowing through the detection group LED ultraviolet lamp (1) to linearly change, respectively recording ultraviolet intensity signals amplified by a detection group signal amplifying circuit (4) when the N control water samples under different current conditions flow through the detection tube (2) through the signal processing circuit (6), respectively averaging the ultraviolet intensity values under the N different current conditions, and recording the ultraviolet intensity average values as a second ultraviolet intensity reference value, a third ultraviolet intensity reference value and a … … N+1th ultraviolet intensity reference value, wherein N is a natural number larger than or equal to 3;

step (3), according to the N ultraviolet intensity reference values obtained in the step (2), a comparison table between the organic matter content in a comparison water sample and the ultraviolet intensity values amplified by the detection group signal amplifying circuit (4) under different current conditions is obtained;

step (4), keeping the detection group LED ultraviolet lamp (1) and the comparison group LED ultraviolet lamp (10) on, enabling water to be detected to flow through the detection tube (2), and outputting a control signal to the current control circuit (5) through the signal processing circuit (6) in the same mode of the step (1), so that currents flowing through the detection group LED ultraviolet lamp (1) and the comparison group LED ultraviolet lamp (10) show linear changes; the signal processing circuit (6) records the ultraviolet intensity signals amplified by the comparison group signal amplifying circuit (9) under different current conditions, then averages the ultraviolet intensity values, marks the average value of the ultraviolet intensity as a temporary ultraviolet intensity reference value, and divides the temporary ultraviolet intensity reference value by a first ultraviolet intensity reference value to obtain the light source intensity attenuation proportion; and meanwhile, the signal processing circuit (6) records the ultraviolet intensity signals amplified by the detection group signal amplifying circuit (4) under different current conditions, averages the ultraviolet intensity values, marks the average value of the ultraviolet intensity as an ultraviolet intensity detection value, divides the ultraviolet intensity detection value by the light source intensity attenuation proportion to obtain an ultraviolet intensity searching value, and then adopts the ultraviolet intensity searching value to obtain the organic matter content in the water to be detected at the moment by inquiring the comparison table obtained in the step (3).

2. The water purifier of claim 1, wherein: the organic matter detection sensor further comprises a shell (11), a detection tube accommodating cavity and a contrast tube accommodating cavity are arranged in the shell (11), and a detection tube (2) is arranged in the detection tube accommodating cavity; the reference tube (7) is arranged in the reference tube accommodating cavity; the current control circuit (5), the detection group LED ultraviolet lamp (1) and the comparison group LED ultraviolet lamp (10) are arranged on one side of the shell (11), and the detection group ultraviolet receiver (3), the detection group signal amplifying circuit (4), the comparison group ultraviolet receiver (8), the comparison group signal amplifying circuit (9) and the signal processing circuit (6) are arranged on the other opposite side of the shell (11); the shell (11) is internally provided with a first light transmission channel and a second light transmission channel which are communicated with the accommodating cavity of the detection tube and positioned at two opposite sides of the accommodating cavity of the detection tube, and ultraviolet light emitted by the LED ultraviolet lamp (1) of the detection group passes through the first light transmission channel, the detection tube (2) and the second light transmission channel and then reaches the ultraviolet receiver (3) of the detection group; the shell (11) is internally provided with a third light-transmitting channel and a fourth light-transmitting channel which are communicated with the control tube accommodating cavity and are positioned on two opposite sides of the control tube accommodating cavity, and ultraviolet light emitted by the LED ultraviolet lamp (10) of the control group reaches the ultraviolet receiver (8) of the control group after passing through the third light-transmitting channel, the control tube (7) and the fourth light-transmitting channel.

3. The water purifier according to claim 1 or 2, wherein: the water quality detection module also comprises a TSD sensor or/and a turbidity sensor or/and a conductivity sensor.