CN211999237U - Surface water organic matter index analysis testing arrangement - Google Patents

Abstract

The utility model is suitable for a water quality testing technical field provides a surface water organic matter index analysis testing arrangement, including the body subassembly that is used for the oxide in the electrolysis and the test subassembly that is used for testing the organic matter change in the body subassembly, the body subassembly includes water pump, first inlet tube, decomposition case and outlet pipe and constitutes, the delivery port of water pump with the decomposition case is linked together through the first inlet tube, the outlet pipe is kept away from the decomposition case and is connected one side of first inlet tube, and with the decomposition case communicates, the rear of decomposition case is provided with the transformer, decomposition incasement portion both sides all are provided with the plate electrode; through setting up the body subassembly for through the water pump with sewage feed in the decomposition case, open after that the transformer makes the transformer transmits high voltage current for the plate electrode makes plate electrode and sewage take place redox reaction, thereby reduces organic matter and other harmful substance in the sewage.

Description

Surface water organic matter index analysis testing arrangement

Technical Field

The utility model belongs to the technical field of water quality testing, especially, relate to a surface water organic matter index analysis testing arrangement.

Background

Surface water (surface water), which is a general name of dynamic water and static water on the surface of land, is also called as land water, and comprises various liquid and solid water bodies, mainly comprises rivers, lakes, marshes, glaciers, ice covers and the like, is one of important sources of domestic water for human beings, and is also a main component of water resources of various countries; the dynamic water amount of the surface water is river runoff and glacier runoff, and the static water amount is expressed by the water storage amount of various water bodies. The worldwide surface water reserves are 24254 billion cubic meters, which only account for 1.75 percent of the global water reserves; however, the surface water body is continuously replenished with atmospheric rainfall, 43.5 billion cubic meters of river runoff and 2.3 billion cubic meters of glacier runoff flow into the ocean every year through flow generation and confluence, account for 94.7 percent of the total amount of the ocean, play a very important role in global water circulation, and the testing of organic matters in the surface water is an essential process.

The existing water source testing device is too complex in operation process, so that an operator is extremely inconvenient to use; on the other hand, after the test of the existing water source testing device is finished, the tested water source is directly treated as waste water and used for a long time, so that certain resource waste is caused.

SUMMERY OF THE UTILITY MODEL

The utility model provides a surface water organic matter index analysis and test device, which aims to solve the problems of the prior device that the operation process is complicated and the operation personnel is inconvenient to use; on the other hand, the existing device directly treats the tested water source as waste water, and causes certain resource waste after long-term use.

The utility model is realized in such a way that the device for analyzing and testing the organic matter index of the surface water comprises a body component for electrolyzing oxides in water and a testing component for testing the change of the organic matter in the body component, the body component comprises a water pump, a first water inlet pipe, a decomposition tank and a water outlet pipe, the first water inlet pipe is positioned between the water pump and the decomposition tank, the water outlet of the water pump is communicated with the decomposition box through the first water inlet pipe, the water outlet pipe is far away from one side of the decomposition box connected with the first water inlet pipe, and is communicated with the decomposition box, a transformer is arranged at the rear part of the decomposition box, electrode plates are arranged at both sides in the decomposition box, and the electrode plate with transformer electric connection, be provided with the operation panel on the lower surface of water pump, just the operation panel with transformer fixed connection.

Preferably, the test component includes first quality of water sensor, second quality of water sensor and singlechip, first quality of water sensor inlays the upper surface of first inlet tube, and with first inlet tube fixed connection, second quality of water sensor inlays one side of outlet pipe, and with outlet pipe fixed connection, the singlechip is located the decomposition case is kept away from one side of water pump, the singlechip with operation panel fixed connection, just first quality of water sensor, second quality of water sensor all with singlechip signal connection, the water pump the transformer the plate electrode with the singlechip all with external power electric connection.

Preferably, the body assembly further comprises a sewage tank and a second water inlet pipe, the sewage tank is located on one side of the water pump away from the decomposition tank, the second water inlet pipe is located between the sewage tank and the water pump, the sewage tank is communicated with the water inlet of the water pump through the second water inlet pipe, and the upper surface of the sewage tank is provided with a water inlet.

Preferably, a water collecting tank is arranged between the single chip microcomputer and the decomposition tank, and the water collecting tank is communicated with the water outlet pipe.

Preferably, a polypropylene filter layer, a filter cotton layer and an activated carbon layer are arranged inside the water collecting tank, the polypropylene filter layer is positioned on the upper surface of the filter cotton layer and is connected with the filter cotton layer in a sewing mode, and the activated carbon layer is positioned on the lower surface of the filter cotton layer and is connected with the filter cotton layer in a sewing mode;

and a water outlet is formed in the outer side wall of the water collecting tank.

Preferably, the test assembly further comprises a water level sensor, the water level sensor penetrates through the upper surface of the water collecting tank and the activated carbon layer and is fixedly connected with the lower surface inside the water collecting tank, and the water level sensor is electrically connected with the single chip microcomputer.

Preferably, the inside of the decomposition tank is filled with a fiber ball packing.

Preferably, the test assembly still includes fixing base and LED display screen, the fixing base is located the upper surface of operation panel, and with operation panel fixed connection, the singlechip passes through the fixing base with operation panel fixed connection, the LED display screen with singlechip parallel arrangement, and with fixing base fixed connection, the LED display screen with singlechip electric connection.

Compared with the prior art, the beneficial effects of the utility model are that: through the arrangement of the body assembly, sewage is fed into the decomposition tank through the water pump, then the transformer is started, so that the transformer transmits high-voltage current to the electrode plate, the electrode plate and the sewage generate an oxidation-reduction reaction, and organic matters and other harmful substances in the sewage are reduced; by arranging the testing assembly, organic matters in the sewage are detected under the action of the two water quality sensors, and whether the water source is easily oxidized is judged; through setting up the water catch bowl for sewage passes through the polypropylene filter layer filter cotton layer with the activated carbon layer degrades, thereby makes the water source ability secondary use, prevents the extravagant problem of resource.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a schematic view of the inner structure of the decomposition box of the present invention;

FIG. 3 is a schematic view of the internal structure of the water collection tank of the present invention;

FIG. 4 is a schematic diagram of the system frame structure of the present invention;

in the figure: 1-body component, 11-water pump, 111-operation table, 12-first water inlet pipe, 13-decomposition tank, 131-fiber ball filler, 14-water outlet pipe, 15-transformer, 16-electrode plate, 17-sewage tank, 18-second water inlet pipe, 19-water collecting tank, 191-polypropylene filter layer, 192-filter cotton layer, 193-active carbon layer, 2-test component, 21-first water quality sensor, 22-second water quality sensor, 23-single chip microcomputer, 24-water level sensor, 25-fixing seat and 26-LED display screen.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1-4, a device for analyzing and testing organic indexes of surface water comprises a body assembly 1 for electrolyzing oxides in water and a testing assembly 2 for testing changes of organic matters in the body assembly 1, wherein the body assembly 1 comprises a water pump 11, a first water inlet pipe 12, a decomposition box 13 and a water outlet pipe 14, the first water inlet pipe 12 is positioned between the water pump 11 and the decomposition box 13, a water outlet of the water pump 11 is communicated with the decomposition box 13 through the first water inlet pipe 12, the water outlet pipe 14 is far away from one side of the decomposition box 13, which is connected with the first water inlet pipe 12, and is communicated with the decomposition box 13, a transformer 15 is arranged behind the decomposition box 13, electrode plates 16 are arranged on two sides inside the decomposition box 13, the electrode plates 16 are electrically connected with the transformer 15, an operation table 111 is arranged on the lower surface of the water pump 11, and the.

In the embodiment, the model of the transformer 15 is SCB10, the models of the first water quality sensor 21 and the second water quality sensor 22 are both S8000, the model of the singlechip 23 is STC15, and the model of the water level sensor 24 is CBM-2700;

by arranging the water pump 11, wherein the water pump 11 consists of a motor and an impeller, after the motor is started, the impeller is driven to rotate at a high speed, so that the external sewage is sent into the decomposition tank 13 under the action of centrifugal force; by arranging the transformer 15, the alternating current transmitted is converted into high-voltage direct current under the action of the transformer 15 and is transmitted to the electrode plate 16; by arranging the electrode plate 16, wherein the electrode plate 16 is composed of a positive electrode stage and a negative electrode stage, the positive electrode stage and the negative electrode stage are respectively positioned at two sides inside the decomposition box 13 and are fixedly connected with the decomposition box 13, after the electrode plate 16 is electrified, harmful substances in sewage and the positive electrode stage and the negative electrode stage respectively generate oxidation reaction and reduction reaction, so that water-insoluble precipitate is generated, and most of the precipitate is composed of colloid, organic matters and inorganic matters;

by arranging the first water quality sensor 21 and the second water quality sensor 22, the first water quality sensor 21 monitors organic matters in sewage when the sewage is not electrolyzed, the second water quality sensor 22 monitors organic matters existing after the sewage is electrolyzed, then data of the two water quality sensors are compared, and if the data detected by the second water quality sensor 22 is smaller than the data detected by the first water quality sensor 21, the sewage is easily oxidized; by arranging the single chip microcomputer 23, signals of the sensor are processed under the action of the single chip microcomputer 23, and the signals are converted into electric signals and transmitted to the LED display screen 26.

In the embodiment, the power is switched on, the water pump 11 is started, the water pump 11 sends the sewage in the sewage tank 17 into the decomposition tank 13 through the first water inlet pipe 12 and the second water inlet pipe 18, then the transformer 15 is started, the transformer 15 converts the alternating current into the high-voltage direct current and transmits the high-voltage direct current to the electrode plate 16, the motor plate 16 and the sewage generate oxidation-reduction reaction to generate insoluble precipitates, the water after electrolysis flows into the water collecting tank 19 through the water outlet pipe 14 to be filtered, at this time, the first water quality sensor 21 transmits the organic matter data in the non-electrolyzed water, the second water quality sensor 22 transmits the organic matter data in the electrolyzed water to the singlechip 23, the singlechip 23 converts the signal and transmits the signal to the LED display screen 26, and the operator can compare the numerical value only through the LED display screen 26, and whether the wastewater can be oxidized is obtained.

Further, the test component 2 includes first water quality sensor 21, second water quality sensor 22 and singlechip 23, first water quality sensor 21 inlays the upper surface at first inlet tube 12, and with first inlet tube 12 fixed connection, second water quality sensor 22 inlays one side at outlet pipe 14, and with outlet pipe 14 fixed connection, singlechip 23 is located the one side that the water pump 11 was kept away from to decomposition case 13, singlechip 23 and operation panel 111 fixed connection, and first water quality sensor 21, second water quality sensor 22 all with singlechip 23 signal connection, water pump 11, transformer 15, electrode plate 16 and singlechip 23 all with external power electric connection.

In the embodiment, by arranging the testing component 2, the first water quality sensor 21 monitors organic matters in the sewage when the sewage is not electrolyzed, the second water quality sensor 22 monitors organic matters existing after the sewage is electrolyzed, then data of the two water quality sensors are compared, if the data detected by the second water quality sensor 22 is smaller than the data detected by the first water quality sensor 21, the sewage is easily oxidized, and if the data detected by the second water quality sensor 22 is equal to or close to the data detected by the first water quality sensor 21, the sewage is not easily oxidized; by arranging the single chip microcomputer 23, signals of the sensor are processed under the action of the single chip microcomputer 23, and the signals are converted into electric signals and transmitted to the LED display screen 26.

Further, the body assembly 1 further comprises a sewage tank 17 and a second water inlet pipe 18, the sewage tank 17 is located on one side of the water pump 11 far away from the decomposition tank 13, the second water inlet pipe 18 is located between the sewage tank 17 and the water pump 11, the sewage tank 17 is communicated with the water inlet of the water pump 11 through the second water inlet pipe 18, and the upper surface of the sewage tank 17 is provided with a water inlet.

In the embodiment, by arranging the sewage tank 17, an operator can pour sewage into the sewage tank 17 through the water inlet, so that the operator can store and use the sewage conveniently; through setting up second inlet tube 18 for under the effect of second inlet tube 18, supply water to the water inlet of water pump 11, thereby when water pump 11 during operation, sewage flows into decomposition tank 13 through first inlet tube 12.

Furthermore, a water collecting tank 19 is arranged between the single chip 23 and the decomposition tank 13, and the water collecting tank 19 is communicated with the water outlet pipe 14.

In this embodiment, by providing the water collecting tank 19, the decomposed water source can be stored through the water collecting tank 19, and the water source is conveniently treated.

Further, a polypropylene filter layer 191, a filter cotton layer 192 and an activated carbon layer 193 are arranged inside the water collecting tank 19, the polypropylene filter layer 191 is located on the upper surface of the filter cotton layer 192 and is connected with the filter cotton layer 192 in a sewing mode, and the activated carbon layer 193 is located on the lower surface of the filter cotton layer 192 and is connected with the filter cotton layer 192 in a sewing mode;

the outer side wall of the water collecting tank 19 is provided with a water outlet.

In the embodiment, by arranging the polypropylene filter layer 191, wherein the polypropylene filter layer 191 is made of polypropylene, the sewage is subjected to primary treatment under the action of the filter layer, and harmful substances in the sewage are adsorbed; by arranging the filtering cotton layer 192, wherein the filtering cotton layer 192 is a filtering layer made of filtering cotton, under the action of the filtering layer, the sewage is subjected to secondary treatment, and particles and impurities in the sewage are adsorbed; by arranging the activated carbon layer 193, wherein the activated carbon layer 193 is a filter layer made of activated carbon, the sewage is treated for the third time under the action of the filter layer, and the sediment in the water is adsorbed.

Further, the testing component 2 further comprises a water level sensor 24, the water level sensor 24 penetrates through the upper surface of the water collecting tank 19 and the activated carbon layer 193, and is fixedly connected with the lower surface inside the water collecting tank 19, and the water level sensor 24 is electrically connected with the single chip microcomputer 23.

In this embodiment, through setting up level sensor 24 for under level sensor 24's effect, monitor the water level in the water catch bowl 19, and give singlechip 23 with the signal transmission of monitoring, make singlechip 23 give LED display screen 26 with the signal transmission in, make operating personnel watch the water level in the water catch bowl 19 through LED display screen 26, thereby make things convenient for operating personnel in time to handle the water after the filtration completion.

Further, the inside of the decomposition tank 13 is filled with a fiber ball packing 131.

In the present embodiment, the fiber ball filler 131 is provided, so that the precipitate after electrolysis is absorbed by the fiber ball filler 131, thereby providing a good environment for the next electrolysis.

Further, the test assembly 2 still includes fixing base 25 and LED display screen 26, and fixing base 25 is located the upper surface of operation panel 111 to with operation panel 111 fixed connection, singlechip 23 pass through fixing base 25 and operation panel 111 fixed connection, LED display screen 26 and singlechip 23 parallel arrangement, and with fixing base 25 fixed connection, LED display screen 26 and singlechip 23 electric connection.

In the embodiment, by arranging the LED display screen 26, the single chip microcomputer 23 converts the signal of the sensor into an electric signal and transmits the electric signal to the LED display screen 26, so that the LED display screen 26 converts the electric signal into data, and an operator can view real-time data through the LED display screen 26; through setting up fixing base 25 for under the effect of fixing base 25, support singlechip 23 and LED display screen 26.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. The utility model provides a surface water organic matter index analysis testing arrangement, includes body subassembly (1) that is used for electrolysis aquatic oxide and test subassembly (2) that are used for testing organic matter change in body subassembly (1), its characterized in that: the body component (1) comprises a water pump (11), a first water inlet pipe (12), a decomposition tank (13) and a water outlet pipe (14), the first water inlet pipe (12) is positioned between the water pump (11) and the decomposition tank (13), and the water outlet of the water pump (11) is communicated with the decomposition box (13) through the first water inlet pipe (12), the water outlet pipe (14) is far away from one side of the decomposition box (13) connected with the first water inlet pipe (12), and is communicated with the decomposition box (13), a transformer (15) is arranged behind the decomposition box (13), electrode plates (16) are arranged on two sides inside the decomposition box (13), and the electrode plate (16) is electrically connected with the transformer (15), an operation table (111) is arranged on the lower surface of the water pump (11), and the operation table (111) is fixedly connected with the transformer (15).

2. The device for analyzing and testing the organic indexes of the surface water as claimed in claim 1, wherein: the testing component (2) comprises a first water quality sensor (21), a second water quality sensor (22) and a singlechip (23), the first water quality sensor (21) is embedded on the upper surface of the first water inlet pipe (12), and is fixedly connected with the first water inlet pipe (12), the second water quality sensor (22) is embedded at one side of the water outlet pipe (14), and is fixedly connected with the water outlet pipe (14), the singlechip (23) is positioned at one side of the decomposition box (13) far away from the water pump (11), the singlechip (23) is fixedly connected with the operating platform (111), the first water quality sensor (21) and the second water quality sensor (22) are in signal connection with the singlechip (23), the water pump (11), the transformer (15), the electrode plate (16) and the single chip microcomputer (23) are electrically connected with an external power supply.

3. The device for analyzing and testing the organic matter indexes of the surface water according to claim 2, wherein: the body component (1) further comprises a sewage tank (17) and a second water inlet pipe (18), the sewage tank (17) is located on one side, away from the decomposition tank (13), of the water pump (11), the second water inlet pipe (18) is located between the sewage tank (17) and the water pump (11), the sewage tank (17) is communicated with the water inlet of the water pump (11) through the second water inlet pipe (18), and a water inlet is formed in the upper surface of the sewage tank (17).

4. The device for analyzing and testing the organic indexes of the surface water as claimed in claim 3, wherein: a water collecting tank (19) is arranged between the single chip microcomputer (23) and the decomposition tank (13), and the water collecting tank (19) is communicated with the water outlet pipe (14).

5. The device for analyzing and testing the organic indexes of the surface water as claimed in claim 4, wherein: a polypropylene filter layer (191), a filter cotton layer (192) and an activated carbon layer (193) are arranged in the water collecting tank (19), the polypropylene filter layer (191) is located on the upper surface of the filter cotton layer (192) and is connected with the filter cotton layer (192) in a sewing mode, and the activated carbon layer (193) is located on the lower surface of the filter cotton layer (192) and is connected with the filter cotton layer (192) in a sewing mode;

and a water outlet is formed in the outer side wall of the water collecting tank (19).

6. The device for analyzing and testing the organic indexes of the surface water as claimed in claim 5, wherein: the testing component (2) further comprises a water level sensor (24), the water level sensor (24) penetrates through the upper surface of the water collecting tank (19) and the activated carbon layer (193) and is fixedly connected with the lower surface inside the water collecting tank (19), and the water level sensor (24) is electrically connected with the single chip microcomputer (23).

7. The device for analyzing and testing the organic indexes of the surface water as claimed in claim 1, wherein: the interior of the decomposition box (13) is filled with fiber ball filler (131).

8. The device for analyzing and testing the organic indexes of the surface water as claimed in claim 6, wherein: test subassembly (2) still include fixing base (25) and LED display screen (26), fixing base (25) are located the upper surface of operation panel (111), and with operation panel (111) fixed connection, singlechip (23) pass through fixing base (25) with operation panel (111) fixed connection, LED display screen (26) with singlechip (23) parallel arrangement, and with fixing base (25) fixed connection, LED display screen (26) with singlechip (23) electric connection.

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