CN116217006A - River water around building water detection equipment - Google Patents

Abstract

The invention discloses water detection equipment for river water around a building, which comprises a bearing plate, a movable frame, a water purifying cylinder, a breeding promotion type covered filtering mechanism and a centrifugal lamination adsorption type impurity eliminating mechanism, wherein the movable frame is symmetrically arranged on two sides of the bearing plate, a plurality of groups of water purifying cylinders are arranged on the upper wall of the bearing plate in a penetrating way, the breeding promotion type covered filtering mechanism is arranged on the side wall of the bearing plate on one side of the water purifying cylinder, and the centrifugal lamination adsorption type impurity eliminating mechanism is arranged in the water purifying cylinder. The invention belongs to the technical field of river water emergency use, and particularly relates to water detection equipment for river water around a building; the invention provides the water detection equipment for the river water around the building, which can control the number of microorganisms, quickly carry out harmless filtration on the river water and reduce heavy metal ion content in the water body by adopting centrifugal power.

Description

River water around building water detection equipment

Technical Field

The invention belongs to the technical field of river pollution control, and particularly relates to water detection equipment for river water around a building.

Background

Due to the development of the current city, although a series of means for treating urban sewage exist, in the development of towns, a large natural water body of the old urban area is severely polluted, and due to the factors of imperfect pipe network construction and the original living habits of local residents, most of sewage generated by living along the street residents is directly discharged into the river, so that the river pollution of the old urban area is serious, and therefore, the detection and purification of the river water quality are needed.

The current river water check out test set adopts handheld sampling instrument to carry out the extraction to the river water mostly and detects, and the pollutant distribution is inhomogeneous in the river water, consequently, is difficult to comprehensive to detect the river water, and can not carry out purification treatment to the river water in the detection.

Disclosure of Invention

Aiming at the defects of the prior art, the scheme provides water detection equipment for river water around a building, aims at solving the problem that all microorganisms in the water are easy to die when harmful gases in the water are removed, creatively combines a cage effect with an exchange reaction, and is applied to the technical field of river pollution treatment, under the action of soft iron diversion, decomposition of organic matters in the water is promoted, through intervention of chelation reaction of resin, harmful matters in the river water are sufficiently removed under centrifugal power, and decomposed matters generated by diversion are strictly controlled through a double-control structure, the effect of filtering the harmful matters in the water by adopting a physical method is realized, the problem that the prior art is difficult to solve (the existence of the organic matters in the water has a protective effect on colloid, so that the stability of the organic matters is improved, but the water filtration increases a certain difficulty, meanwhile toxic small molecular organic matters are difficult to degrade and accumulate in organisms, thereby users), the chemical hazards in the water are not filtered (the water is easy to degrade the organic matters in the river water by adopting a physical method, and the biological method is easy to degrade the water, so that the water quality of the biological hazard is not easy to degrade the water is easy to be purified, and the water quality of the biological hazard is not easy to be purified, and the water quality of the biological hazard is easy to be purified;

the invention provides the water detection equipment for the river water around the building, which can control the number of microorganisms, quickly carry out harmless filtration on the river water and reduce heavy metal ion content in the water body by adopting centrifugal power.

The utility model provides a watercourse water detection equipment around building, including loading board, movable frame, water purification section of thick bamboo, promote to breed type cover formula filtering mechanism and centrifugal laminating absorption type impurity elimination mechanism, movable frame symmetry locates the loading board both sides, water purification section of thick bamboo multiunit runs through and locates the loading board upper wall, promote to breed type cover formula filtering mechanism and locate the loading board lateral wall of water purification section of thick bamboo one side, centrifugal laminating absorption type impurity elimination mechanism locates inside the water purification section of thick bamboo, promote to breed type cover formula filtering mechanism and include water body absorption mechanism, cover decomposition mechanism and reposition of redundant personnel edulcoration mechanism, the loading board lateral wall is located to the water body absorption mechanism, cover decomposition mechanism and locate inside the water body absorption mechanism, reposition of redundant personnel edulcoration mechanism locates the water body absorption mechanism diapire, centrifugal laminating absorption type impurity elimination mechanism includes element degradation mechanism, foam degasification mechanism and bilateral accuse volume mechanism, bilateral element degradation mechanism locates the water purification section of thick bamboo inner wall, and locates the loading board lateral wall that water body one side was kept away from to absorption mechanism to the foam degasification mechanism, accuse volume locates and removes the frame lateral wall.

As a further preferable scheme, the water body suction mechanism comprises a fixing frame, a water inlet cylinder, a water suction pump, a water suction pipe, a pipeline clamp and a magnetizing pipe, wherein the fixing frame is arranged on the side wall of the bearing plate, the water inlet cylinder is arranged at one end of the fixing frame far away from the water purification cylinder, the water suction pump is arranged on the upper wall of the water inlet cylinder, the pipeline clamp is symmetrically arranged at one side of the fixing frame close to the water inlet cylinder, the water suction pipe is arranged between the water suction end of the water suction pump and the pipeline clamp, and the magnetizing pipe is communicated between the water inlet cylinder and the water discharge end of the water suction pump; the covering and decomposing mechanism comprises a rotating motor, a rotating shaft, connecting blocks, soft ferromagnetic rods, magnetic conduction ports and electromagnets, wherein the rotating motor is symmetrically arranged on two sides of the water inlet cylinder, the rotating shaft is symmetrically arranged on the inner walls of the two sides of the water inlet cylinder, the connecting blocks are arranged between the rotating shafts, the rotating shafts are rotationally arranged on the side walls of the connecting blocks, the power ends of the rotating motor penetrate through the water inlet cylinder and are connected with the rotating shafts, the soft ferromagnetic rods are arranged on the outer sides of the rotating shafts in a plurality of groups, the magnetic conduction ports are symmetrically arranged on two sides of the water inlet cylinder, and the electromagnets are arranged on the inner walls of the magnetic conduction ports; the diversion impurity removing mechanism comprises a water outlet pipe, a fixed column, a diversion cylinder and an impurity removing pipe, wherein the fixed column is arranged on the bottom wall of the fixed frame, the diversion cylinder is arranged on one side of the fixed column away from the fixed frame, the water outlet pipe is communicated between the water inlet cylinder and the diversion cylinder, and the impurity removing pipe is communicated on one side of the diversion cylinder away from the water outlet pipe; the water pump pumps the river water in the drinking water source area into the water inlet cylinder through the magnetization pipe, a large amount of toxic organic matters exist in the river water, the toxic small molecular organic matters are difficult to degrade and accumulate in organisms, and have strong three effects (carcinogenesis, teratogenesis and mutation) or chronic toxicity, the harm of the organic matters to the human body is often delayed, a long time is needed from the discovery of the illness, at the moment, the electromagnet is electrified to generate magnetism, the electromagnet magnetizes the soft ferromagnetic rod, a magnetic field is attached to the soft ferromagnetic rod after magnetization, the rotating motor drives the soft ferromagnetic rod to rotate through the rotating shaft to stir water in the water inlet cylinder, organic matters in the water absorb energy when flowing through the magnetic field, the opportunity of chemical reaction is increased from a stable state to an unstable excitation state, the chemical reaction rate is correspondingly increased, so that the magnetic treatment can degrade the organic matters in a short time, meanwhile, the magnetic treatment promotes oxygen to be dissolved in the water, and possibly generates active oxygen in the water, and the COD (chemical oxygen) of the water can be oxidized, and the COD (chemical oxygen demand) of the water body is reduced; the magnetic field strengthens biological effect, promotes propagation and metabolism of microorganisms, improves degradation rate of organic matters, and channel water purified by the magnetic field enters the inside of the diversion cylinder through the water outlet pipe, and channel water in the diversion cylinder enters the inside of the water purification cylinder through the impurity removal pipe for impurity removal treatment.

Preferably, the element degradation mechanism comprises a centrifugal motor, a rotary disc, a filtering and smashing net barrel and ion exchange resin, wherein the rotary disc is symmetrically arranged on the upper wall and the bottom wall of the water purifying barrel, the filtering and smashing net barrel is rotationally arranged between the rotary discs, the centrifugal motor is arranged on the upper wall of the water purifying barrel, the power end of the centrifugal motor sequentially penetrates through the water purifying barrel, the rotary disc and the upper wall of the filtering and smashing net barrel, one end of the impurity removing pipe, far away from the split flow barrel, penetrates through the bottom wall of the water purifying barrel and the rotary disc and is communicated with the bottom wall of the filtering and smashing net barrel, and the filtering and smashing net barrel is rotationally arranged on the outer side of the impurity removing pipe; the foam degassing mechanism comprises a support frame, a water collecting cylinder, a degassing pipe, a collecting pipe, a temperature control pipe, an ultrasonic oscillator and an exhaust valve, wherein the support frame is arranged on one side of the water inlet cylinder away from the fixing frame, the water collecting cylinder is arranged on one end of the support frame away from the water purifying cylinder, the degassing pipe is communicated between the side walls of the top of the water purifying cylinder, the collecting pipe is communicated between the water collecting cylinder and the degassing pipe, the temperature control pipe is symmetrically communicated on two sides of the water collecting cylinder, the ultrasonic oscillator is arranged on the bottom wall of the water purifying cylinder, the power end of the ultrasonic oscillator is penetrated on the inner wall of the water purifying cylinder, and the communication is arranged on the upper wall of the water purifying cylinder; the double-side quantity control mechanism comprises a temperature difference barrel, a heat conduction copper plate, a purifying barrel, a water purifying barrel, a filter screen, a vortex tube, a cold air pipe, a hot air pipe, an air compressor, a compression pipe and a drain pipe, wherein the temperature difference barrel is arranged on the side wall of the movable frame, one end of the temperature control barrel, which is far away from the water collecting barrel, is communicated with the side wall of the temperature difference barrel, the heat conduction copper plate is arranged on the bottom wall of the temperature difference barrel in a penetrating way, the purifying barrel is arranged on one side of the support frame, which is far away from the water purifying barrel, the water purifying barrel is communicated with the side wall of the temperature difference barrel, between the side, which is far away from the temperature control barrel, and the purifying barrel, the filter screen is arranged on the inner wall of the purifying barrel, a plurality of groups of drain pipes are communicated with the side wall of the purifying barrel, the air compressor is arranged on the bottom wall of the support frame, the vortex tube is arranged on the bottom wall of the air compressor, the cold air pipe is communicated with the cold air pipe is arranged on the side wall of the support frame, the hot air pipe is communicated with the vortex tube, the hot air pipe is arranged on the hot air end, the cold air pipe is respectively arranged below the heat conduction copper, the compression pipe is communicated with the compression pipe, and the compression pipe is arranged between the compression pipe and the compression air inlet end of the compression pipe; the impurity removing pipe is internally provided with river water which enters a filtering net drum for impurity removing treatment, a centrifugal motor drives the filtering net drum to rotate through a power end, the filtering net drum throws the river water through meshes, the river water in the filtering net drum is thrown to the surface of ion exchange resin after being filtered by the meshes, the ion exchange resin neutralizes, adsorbs and purifies heavy metal ions in the river water, at the moment, an ultrasonic oscillator is used for oscillating and degassing the river water in the filtering net drum through the power end, a large number of bubbles are generated in the water purifying drum, gas components in solution can enter cavitation bubbles through directional diffusion of a gas-liquid interface, cavitation bubbles enter a human growth stage, when the cavitation bubbles collapse on the surface of the solution, gas can escape from the bubbles, and the escaping gas is discharged through an exhaust valve, so that the concentration of harmful gas in the river water is reduced, the purified drinking water enters the water collecting cylinder through the deaeration pipe, the drinking water in the water collecting cylinder enters the temperature difference cylinder through the temperature control pipe, at the moment, the air compressor conveys the generated compressed gas into the vortex pipe through the compression pipe, the vortex pipe carries out vortex rotation on the compressed gas, hot gas discharged by the vortex pipe is sprayed to the heat conducting copper plate through the hot air pipe to heat the river water in the temperature difference cylinder at one side of the movable frame, thereby eliminating partial microorganisms in the river water, reducing the quantity of microorganisms in the river water, cold air discharged by the vortex pipe is sprayed to the heat conducting copper plate at one end of the bearing plate far away from the hot air pipe through the cold air pipe to cool the river water in the temperature difference cylinder, reducing the propagation speed of microorganisms in the river water, controlling the quantity of microorganisms in the river, the river water after treatment enters the purification cylinder through the water purifying pipe, river water in the purifying cylinder is discharged through a drain pipe after being filtered by the filter screen.

Specifically, the side wall of the movable frame is provided with a central controller, and the model of the central controller is SYC89C52RC-401.

The central controller is electrically connected with the water pump, the rotating motor, the electromagnet and the centrifugal motor respectively.

The beneficial effect that this scheme of adoption above-mentioned structure obtained is as follows:

compared with the prior art, the scheme adopts the soft iron magnetic conduction mechanism, and drives the soft iron to penetrate the river water under the drive of the rotating motor through the prolonged conduction effect of the magnetic force, so that the river water is fully contacted with the soft iron, the increase of the biological concentration is promoted, and a large amount of organic impurities in the river water are conveniently filtered;

secondly, combining a water source with an ion adsorbent in the process of throwing through a set river water throwing mechanism, adsorbing and removing heavy metal ions from soil, and chelating and exchanging active groups such as amino, hydroxyl and the like contained in resin with the heavy metal ions to remove the heavy metal ions in the wastewater, so that the river water is used for reaching the drinking standard;

secondly, by adopting a movable type setting and adopting a two-hazard treatment mode, the river water to be purified after detection is rapidly treated, so that the addition of chemical reagents is avoided, and the problem that the river water is converted into drinking water and cannot be used at the first time is solved;

finally, under the effect of foam degassing filtration, the harmful gas dissolved in the river water is discharged, the concentration of toxic substances in the river water is reduced, meanwhile, under the bidirectional acting force of vortex, on one hand, excessive organisms in the river water are eliminated in a medium conduction heating mode, on the other hand, part of organisms in the river water are transmitted at low temperature in a medium conduction cooling mode, the propagation speed of the organisms is reduced, under the collecting effect of a current collecting mode, the existence quantity of the organisms in the river water is reduced, and the activities of the mixed organisms can be fast realized through the mixing of hot water and cold water, so that the residual organic matters in the river water are degraded.

Drawings

FIG. 1 is a schematic diagram of an explosion structure of the scheme;

FIG. 2 is a schematic diagram of the overall structure of the present solution;

FIG. 3 is a perspective view of the present solution;

FIG. 4 is a front perspective view of the present solution;

FIG. 5 is a schematic view of the internal structure of the present embodiment;

FIG. 6 is a front view of the present solution;

FIG. 7 is a partial cross-sectional view of portion A-A of FIG. 6;

FIG. 8 is a side view of the present solution;

FIG. 9 is an enlarged schematic view of portion A of FIG. 4;

fig. 10 is an enlarged schematic view of a portion B of fig. 5.

Wherein 1, the loading board, 2, the movable rack, 3, the water purifying tube, 4, the promotion breeding type covered filtering mechanism, 5, the water body absorbing mechanism, 6, the fixed rack, 7, the water inlet tube, 8, the water pump, 9, the water pumping tube, 10, the pipe clamp, 11, the magnetizing tube, 12, the covered decomposing mechanism, 13, the rotating motor, 14, the rotating shaft, 15, the connecting block, 16, the soft ferromagnetic rod, 17, the shunt impurity removing mechanism, 18, the water outlet tube, 19, the fixed column, 20, the shunt tube, 21, the impurity removing tube, 22, the centrifugal lamination adsorption type impurity removing mechanism, 23, the element degrading mechanism, 24, the centrifugal motor, 25, the turntable, 26, the smashing net tube, 27, the ion exchange resin, 28, the foam degassing mechanism, 29, the supporting frame, 30, the water collecting tube, 31, the degassing tube, 32, the collecting tube, 33, the temperature controlling tube, 34, the ultrasonic oscillator, 35, the rotating motor, 36, the electromagnet, 37, 38, the quantity controlling mechanism, 39, the tube, 40, the heat conducting tube, 41, the purifying tube, 42, the vortex tube, 45, the vortex tube, the water quality controlling device, the water quality detecting device, the water quality controlling device, the water compressor, the water quality controlling device, the water heater, the water compressor, the water heater, the water compressor and the water heater.

The accompanying drawings are included to provide a further understanding of the present disclosure and are incorporated in and constitute a part of this disclosure, illustrate and do not limit the disclosure.

Detailed Description

The technical solutions in the embodiments of the present solution will be clearly and completely described below with reference to the drawings in the embodiments of the present solution, and it is apparent that the described embodiments are only some embodiments of the present solution, but not all embodiments; all other embodiments, based on the embodiments in this solution, which a person of ordinary skill in the art would obtain without inventive faculty, are within the scope of protection of this solution.

In the description of the present embodiment, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate orientation or positional relationships based on those shown in the drawings, merely to facilitate description of the present embodiment and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be configured and operated in a particular orientation, and thus should not be construed as limiting the present embodiment.

As shown in fig. 1-10, the water detection device for river channel water around a building provided by the scheme comprises a bearing plate 1, a movable frame 2, a water purifying cylinder 3, a promotion breeding type covered filtering mechanism 4 and a centrifugal lamination adsorption type impurity eliminating mechanism 22, wherein the movable frame 2 is symmetrically arranged on two sides of the bearing plate 1, a plurality of groups of water purifying cylinders 3 penetrate through the upper wall of the bearing plate 1, the promotion breeding type covered filtering mechanism 4 is arranged on the side wall of the bearing plate 1 on one side of the water purifying cylinder 3, the centrifugal lamination adsorption type impurity eliminating mechanism 22 is arranged inside the water purifying cylinder 3, the promotion breeding type covered filtering mechanism 4 comprises a water body absorbing mechanism 5, a coverage decomposing mechanism 12 and a diversion impurity removing mechanism 17, the water body absorbing mechanism 5 is arranged on the side wall of the bearing plate 1, the coverage decomposing mechanism 12 is arranged inside the water body absorbing mechanism 5, the diversion impurity removing mechanism 17 is arranged on the bottom wall of the water body absorbing mechanism 5, the centrifugal lamination adsorption type impurity eliminating mechanism 22 comprises an element degradation mechanism 23, a foam mechanism 28 and a quantity control mechanism 38, the promotion element degradation mechanism 23 is arranged on the inner wall of the foam element degradation mechanism 3, the promotion type covered filtering mechanism 28 is arranged on one side of the water purifying cylinder 3, and the water body degassing mechanism is arranged on one side of the water body 2 far away from the side of the bearing plate 3.

The water body suction mechanism 5 comprises a fixing frame 6, a water inlet barrel 7, a water suction pump 8, a water suction pipe 9, a pipeline clamp 10 and a magnetizing pipe 11, wherein the fixing frame 6 is arranged on the side wall of the bearing plate 1, the water inlet barrel 7 is arranged at one end of the fixing frame 6 far away from the water purification barrel 3, the water suction pump 8 is arranged on the upper wall of the water inlet barrel 7, the pipeline clamp 10 is symmetrically arranged at one side of the fixing frame 6 close to the water inlet barrel 7, the water suction pipe 9 is arranged between a water suction end of the water suction pump 8 and the pipeline clamp 10, and the magnetizing pipe 11 is communicated between the water inlet barrel 7 and a water discharge end of the water suction pump 8; the covering and decomposing mechanism 12 comprises a rotating motor 13, a rotating shaft 14, a connecting block 15, soft ferromagnetic rods 16, magnetic conduction ports 35 and electromagnets 36, wherein the rotating motor 13 is symmetrically arranged on two sides of the water inlet barrel 7, the rotating shaft 14 is symmetrically arranged on the inner walls of two sides of the water inlet barrel 7, the connecting block 15 is arranged between the rotating shafts 14, the rotating shafts 14 are rotationally arranged on the side walls of the connecting block 15, the power ends of the rotating motor 13 penetrate through the water inlet barrel 7 and are connected with the rotating shafts 14, the soft ferromagnetic rods 16 are arranged on the outer sides of the rotating shafts 14 in a plurality of groups, the magnetic conduction ports 35 are symmetrically arranged on two sides of the water inlet barrel 7, and the electromagnets 36 are arranged on the inner walls of the magnetic conduction ports 35; the diversion impurity removing mechanism 17 comprises a water outlet pipe 18, a fixed column 19, a diversion cylinder 20 and an impurity removing pipe 21, wherein the fixed column 19 is arranged on the bottom wall of the fixed frame 6, the diversion cylinder 20 is arranged on one side of the fixed column 19 away from the fixed frame 6, the water outlet pipe 18 is communicated between the water inlet cylinder 7 and the diversion cylinder 20, and the impurity removing pipe 21 is communicated on one side of the diversion cylinder 20 away from the water outlet pipe 18; the water pump 8 pumps the river water in the drinking water source area into the water inlet barrel 7 through the magnetization pipe 11, a large amount of toxic organic matters exist in the river water, the toxic small molecular organic matters are difficult to degrade and accumulate in organisms, at the moment, the electromagnet 36 is electrified to generate magnetism, the electromagnet 36 magnetizes the soft ferromagnetic rod 16, a magnetic field is attached to the soft ferromagnetic rod 16 after magnetization, the rotating motor 13 drives the soft ferromagnetic rod 16 to rotate through the rotating shaft 14 to stir water in the water inlet barrel 7, organic matters in the water absorb energy when flowing through the magnetic field, the steady state is close to an unstable excitation state, the probability of chemical reaction is increased, and the chemical reaction rate is correspondingly increased, so that the magnetic treatment can degrade the organic matters in a short time, meanwhile, the magnetic treatment promotes oxygen to dissolve in the water and possibly generates active oxygen in the water, and the organic matters in the water can be oxidized, so that the COD of the water is reduced; the magnetic field strengthens biological effect, promotes propagation and metabolism of microorganisms, improves degradation rate of organic matters, and river water purified by the magnetic field enters the inside of the diversion cylinder 20 through the water outlet pipe 18, and river water in the diversion cylinder 20 enters the inside of the water purification cylinder 3 through the impurity removal pipe 21 for impurity removal treatment.

The element degrading mechanism 23 comprises a centrifugal motor 24, a rotary disc 25, a smashing net barrel 26 and ion exchange resin 27, wherein the rotary disc 25 is symmetrically arranged on the upper wall and the bottom wall of the water purifying barrel 3, the smashing net barrel 26 is rotationally arranged between the rotary discs 25, the centrifugal motor 24 is arranged on the upper wall of the water purifying barrel 3, the power end of the centrifugal motor 24 sequentially penetrates through the water purifying barrel 3, the rotary disc 25 and the upper wall of the smashing net barrel 26, one end, far away from the shunt barrel 20, of the impurity removing pipe 21 penetrates through the bottom wall of the water purifying barrel 3 and the rotary disc 25 to be communicated with the bottom wall of the smashing net barrel 26, and the smashing net barrel 26 is rotationally arranged on the outer side of the impurity removing pipe 21; the foam degassing mechanism 28 comprises a support 29, a water collecting cylinder 30, a degassing pipe 31, a collecting pipe 32, a temperature control pipe 33, an ultrasonic oscillator 34 and an exhaust valve 37, wherein the support 29 is arranged on one side of the water inlet cylinder 7 far away from the fixed frame 6, the water collecting cylinder 30 is arranged on one end of the support 29 far away from the water purifying cylinder 3, the degassing pipe 31 is communicated between the side wall of the top of the water purifying cylinder 3, the collecting pipe 32 is communicated between the water collecting cylinder 30 and the degassing pipe 31, the temperature control pipe 33 is symmetrically communicated on two sides of the water collecting cylinder 30, the ultrasonic oscillator 34 is arranged on the bottom wall of the water purifying cylinder 3, the power end of the ultrasonic oscillator 34 is penetrated through the inner wall of the water purifying cylinder 3, and the 37 is communicated on the upper wall of the water purifying cylinder 3; the double-side quantity control mechanism 38 comprises a temperature difference barrel 39, a heat conducting copper plate 40, a purifying barrel 41, a water purifying tube 42, a filter screen 43, a vortex tube 44, a cold air tube 45, a hot air tube 46, an air compressor 47, a compression tube 48 and a drain pipe 49, wherein the temperature difference barrel 39 is arranged on the side wall of the movable frame 2, one end of the temperature control tube 33, which is far away from the water collecting barrel 30, is communicated with the side wall of the temperature difference barrel 39, the heat conducting copper plate 40 is penetrated and arranged on the bottom wall of the temperature difference barrel 39, the purifying barrel 41 is arranged on one side of the supporting frame 29, which is far away from the water purifying barrel 3, the water purifying tube 42 is communicated between one side of the temperature difference barrel 39, which is far away from the temperature control tube 33, and the purifying barrel 41, the filter screen 43 is arranged on the inner wall of the purifying cylinder 41, the drain pipes 49 are communicated with each other in a plurality of groups and are arranged on the side wall of the purifying cylinder 41, the air compressor 47 is arranged on the bottom wall of the supporting frame 29, the vortex tube 44 is arranged on the bottom wall of the supporting frame 29 on one side of the air compressor 47, the cold air pipe 45 is communicated with the cold air end of the vortex tube 44, the hot air pipe 46 is communicated with the hot air end of the vortex tube 44, the cold air pipe 45 and the hot air pipe 46 are respectively arranged below the heat conducting copper plate 40, and the compression pipe 48 is communicated between the compressed air inlet end of the vortex tube 44 and the compressed air outlet end of the air compressor 47; the impurity removing pipe 21 is internally provided with river water which enters the filtering and smashing net drum 26 for impurity removing treatment, the centrifugal motor 24 drives the filtering and smashing net drum 26 to rotate through a power end, the filtering and smashing net drum 26 throws the river water through meshes, the river water in the filtering and smashing net drum 26 is thrown to the surface of the ion exchange resin 27 after being filtered through the meshes, the ion exchange resin 27 neutralizes, adsorbs and purifies heavy metal ions in the river water, at the moment, the ultrasonic oscillator 34 carries out oscillation degassing on the river water in the filtering and smashing net drum 26 through the power end, a large number of bubbles are generated in the water purifying drum 3, gas components in the solution can enter cavitation bubbles through directional diffusion of a gas-liquid interface, the cavitation bubbles enter a human growth stage, when the cavitation bubbles collapse on the surface of the solution, the gas can escape from the bubbles, the escaping gas is discharged through the exhaust valve 37, and thus the concentration of harmful gases in the river water is reduced, the purified drinking water enters the water collection tube 30 through the air removal tube 31 and the collecting tube 32, the drinking water in the water collection tube 30 enters the temperature difference tube 39 through the temperature control tube 33, at the moment, the air compressor 47 conveys the generated compressed air into the vortex tube 44 through the compression tube 48, the vortex tube 44 carries out vortex rotation on the compressed air, the hot air discharged by the vortex tube 44 is sprayed to the heat conducting copper plate 40 through the hot air tube 46 to heat the river water in the temperature difference tube 39 at one side of the movable frame 2, thereby eliminating partial microorganisms in the river water, reducing the quantity of microorganisms in the river water, the cold air discharged by the vortex tube 44 is sprayed to the heat conducting copper plate 40 at one end of the bearing plate 1 far away from the hot air tube 46 through the cold air tube 45 to cool the river water in the temperature difference tube 39, reducing the propagation speed of microorganisms in the river water, thereby controlling the quantity of microorganisms in the river, the treated river water enters the purifying cylinder 41 through the water purifying pipe 42, and the river water in the purifying cylinder 41 is filtered by the filter screen 43 and then discharged through the water discharging pipe 49.

The side wall of the movable frame 2 is provided with a central controller 50, and the model number of the central controller 50 is SYC89C52RC-401.

The central controller 50 is electrically connected with the water pump 8, the rotary motor 13, the electromagnet 36 and the centrifugal motor 24, respectively.

When the water quality detection device is specifically used, in the first embodiment, the water quality detection device is pushed to the position of the river channel inside the building area, the water suction pipe 9 is placed inside the river channel, the water quality detection sensor 51 enters the river channel along with the water suction pipe 9, when the water suction pipe 9 extracts the river channel water, the water quality detection sensor 51 detects components in the water and feeds the components back to the inside of the central controller 50, and the central controller 50 refers to information detected by the water quality detection sensor 51.

Specifically, the central controller 50 controls the water pump 8 to start, the water pump 8 pumps the river water in the drinking water source area into the water inlet barrel 7 through the magnetization pipe 11, a large amount of toxic organic matters exist in the river water, the harm of the organic matters to human bodies is often lagged, at this time, the central controller 50 controls the electromagnet 36 to start, the electromagnet 36 is electrified to generate magnetism, the electromagnet 36 magnetizes the soft ferromagnetic rod 16, a magnetic field is attached to the soft ferromagnetic rod 16 after magnetization, the central controller 50 controls the rotating motor 13 to start, the rotating motor 13 drives the soft ferromagnetic rod 16 to rotate through the rotating shaft 14 to stir the water in the water inlet barrel 7, the organic matters in the water absorb energy when flowing through the magnetic field, the stable state is close to the unstable excitation state, the opportunity of chemical reaction is increased, the chemical reaction rate is correspondingly increased, the magnetic treatment can degrade the organic matters in a short time, meanwhile, the oxygen is promoted to dissolve in the water by the magnetic treatment, the COD (chemical oxygen demand) is reduced, the biological effect is enhanced, the propagation metabolism of microorganisms is promoted, the degradation rate of the microorganisms is improved, the degradation rate of the organic matters is improved, the water is purified through the shunt flow is improved, the water is purified through the water inlet barrel 20 enters the water outlet pipe 20 through the water outlet pipe 20, and the water purifier 20 through the water outlet pipe 20, the water is purified through the shunt tube 20, the water is purified, and the inside the water is purified through the water outlet pipe 20.

In the second embodiment, the heavy metal ions in the river water are removed, the number of microorganisms in the river water is reduced, and the harmful gas redissolved in the river water is foam removed based on the above embodiment.

Specifically, the river water in the impurity removing pipe 21 enters the filter-smashing net barrel 26 for impurity removing treatment, the centrifugal motor 24 drives the filter-smashing net barrel 26 to rotate through a power end, the filter-smashing net barrel 26 throws the river water through meshes, the river water in the filter-smashing net barrel 26 is thrown to the surface of the ion exchange resin 27 after being filtered through the meshes, the ion exchange resin 27 neutralizes and adsorbs and purifies heavy metal ions in the river water, at the moment, the ultrasonic oscillator 34 carries out oscillation degassing on the river water in the filter-smashing net barrel 26 through the power end, a large number of bubbles are generated in the water purifying barrel 3, gas components in the solution can enter cavitation bubbles through directional diffusion of a gas-liquid interface, the cavitation bubbles enter a growth stage, when the cavitation bubbles collapse on the surface of the solution, the gas can escape from the bubbles, and the escaping gas is discharged through the exhaust valve 37, the concentration of harmful gas in the river water is reduced, purified drinking water enters the water collecting cylinder 30 through the air removal pipe 31 and the collecting pipe 32, the drinking water in the water collecting cylinder 30 enters the temperature difference cylinder 39 through the temperature control pipe 33, at the moment, the air compressor 47 conveys generated compressed gas into the vortex tube 44 through the compression pipe 48, the vortex tube 44 carries out vortex rotation on the compressed gas, hot air discharged by the vortex tube 44 is sprayed into the heat conducting copper plate 40 through the hot air pipe 46 to heat the river water in the temperature difference cylinder 39 at one side of the movable frame 2, thereby eliminating partial microorganisms in the river water, reducing the number of microorganisms in the river water, cold air discharged by the vortex tube 44 is sprayed onto the heat conducting copper plate 40 at one end of the bearing plate 1 far away from the hot air pipe 46 through the cold air pipe 45 to cool the river water in the temperature difference cylinder 39, and reduce the propagation speed of the microorganisms in the river water, thereby controlling the microbial quantity in the river channel, the treated river channel water enters the purifying cylinder 41 through the water purifying pipe 42, and the river channel water in the purifying cylinder 41 is discharged through the water discharging pipe 49 after being filtered by the filter screen 43; repeating the operation when the product is used next time.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present solution have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations may be made to these embodiments without departing from the principles and spirit of the solution, the scope of which is defined in the appended claims and their equivalents.

The present embodiment and the embodiments thereof have been described above with no limitation, and the embodiment shown in the drawings is merely one of the embodiments of the present embodiment, and the actual structure is not limited thereto. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the technical solution.

Claims (10)

1. The utility model provides a water detection equipment for river course water around building, includes loading board (1), removes frame (2) and water purification section of thick bamboo (3), its characterized in that still includes promotion and breeds type cover filtration mechanism (4) and centrifugal laminating absorption formula impurity elimination mechanism (22), it locates loading board (1) both sides to remove frame (2) symmetry, water purification section of thick bamboo (3) multiunit runs through and locates loading board (1) upper wall, promotion breeds type cover filtration mechanism (4) and locates loading board (1) lateral wall in water purification section of thick bamboo (3) one side, centrifugal laminating absorption formula impurity elimination mechanism (22) are located inside water purification section of thick bamboo (3), promotion breeds type cover filtration mechanism (4) include water body suction mechanism (5), cover decomposition mechanism (12) and reposition of redundant personnel edulcoration mechanism (17), water body suction mechanism (5) are located loading board (1) lateral wall, cover decomposition mechanism (12) are located inside suction mechanism (5), reposition of redundant personnel edulcoration mechanism (17) are located suction mechanism (5) diapire (23), foam absorption mechanism (23) are located in water purification section of thick bamboo (23) and are removed impurity element (23) and are located in water degradation element (23), the foam degassing mechanism (28) is arranged on the side wall of the bearing plate (1) on one side, far away from the water body suction mechanism (5), of the water purifying cylinder (3), and the double-side quantity control mechanism (38) is arranged on the side wall of the movable frame (2).

2. The water detection apparatus for river water around a building according to claim 1, wherein: the utility model provides a water suction means (5) includes mount (6), inlet tube (7), suction pump (8), suction pipe (9), pipeline clamp (10) and magnetization pipe (11), loading board (1) lateral wall is located to mount (6), inlet tube (7) locate mount (6) keep away from the one end of water purification section of thick bamboo (3), suction pump (8) locate inlet tube (7) upper wall, one side that mount (6) are close to inlet tube (7) is located to pipeline clamp (10) symmetry, suction pipe (9) are located between suction pump (8) water pumping end and pipeline clamp (10), magnetization pipe (11) intercommunication is located between inlet tube (7) and suction pump (8) water discharging end.

3. The water detection apparatus for river water around a building according to claim 2, wherein: the covering and decomposing mechanism (12) comprises a rotating motor (13), a rotating shaft (14), a connecting block (15), a soft ferromagnetic rod (16), a magnetic conduction opening (35) and electromagnets (36), wherein the rotating motor (13) is symmetrically arranged on two sides of the water inlet cylinder (7), and the rotating shaft (14) is symmetrically arranged on inner walls of two sides of the water inlet cylinder (7).

4. A water detection apparatus for river water around a building according to claim 3, wherein: the magnetic flux guiding device is characterized in that the connecting blocks (15) are arranged between the rotating shafts (14), the rotating shafts (14) are rotationally arranged on the side walls of the connecting blocks (15), the power ends of the rotating motors (13) penetrate through the water inlet cylinders (7) and are connected with the rotating shafts (14), the soft magnetic poles (16) are arranged on the outer sides of the rotating shafts (14) in a multi-group mode, the magnetic flux guiding openings (35) are symmetrically arranged on the two sides of the water inlet cylinders (7), and the electromagnets (36) are arranged on the inner walls of the magnetic flux guiding openings (35).

5. The water detection device for river water around a building according to claim 4, wherein: the shunt impurity removing mechanism (17) comprises a water outlet pipe (18), a fixed column (19), a shunt barrel (20) and an impurity removing pipe (21), wherein the fixed column (19) is arranged on the bottom wall of the fixed frame (6), the shunt barrel (20) is arranged on one side, far away from the fixed frame (6), of the fixed column (19), the water outlet pipe (18) is communicated between the water inlet barrel (7) and the shunt barrel (20), and the impurity removing pipe (21) is communicated on one side, far away from the water outlet pipe (18), of the shunt barrel (20).

6. The water detection apparatus for river water around a building according to claim 5, wherein: the element degradation mechanism (23) comprises a centrifugal motor (24), a rotary table (25), a smashing net drum (26) and ion exchange resin (27), wherein the rotary table (25) is symmetrically arranged on the upper wall and the bottom wall of the water purifying drum (3), the smashing net drum (26) is rotationally arranged between the rotary table (25), the centrifugal motor (24) is arranged on the upper wall of the water purifying drum (3), the power end of the centrifugal motor (24) sequentially penetrates through the water purifying drum (3), the rotary table (25) and the upper wall of the smashing net drum (26), one end, far away from the shunt drum (20), of the impurity removing tube (21) is communicated with the bottom wall of the water purifying drum (3) and the rotary table (25) and is arranged on the bottom wall of the smashing net drum (26), and the impurity removing tube (21) is rotationally arranged on the outer side of the impurity removing tube (21).

7. The water detection apparatus for river water around a building according to claim 6, wherein: foam degasification mechanism (28) include support frame (29), water collection section of thick bamboo (30), degassing tube (31), pressure manifold (32), control by temperature change pipe (33), ultrasonic oscillator (34) and discharge valve (37), support frame (29) are located water inlet tube (7) and are kept away from one side of mount (6), water collection section of thick bamboo (30) are located support frame (29) and are kept away from one end of water purification section of thick bamboo (3).

8. The water detection apparatus for river water around a building according to claim 7, wherein: the degassing pipe (31) is communicated between the top side walls of the water purifying cylinder (3), the collecting pipe (32) is communicated between the water collecting cylinder (30) and the degassing pipe (31), the temperature control pipes (33) are symmetrically communicated on two sides of the water collecting cylinder (30), the ultrasonic oscillator (34) is arranged on the bottom wall of the water purifying cylinder (3), the power end of the ultrasonic oscillator (34) is penetrated on the inner wall of the water purifying cylinder (3), and the communication is arranged on the upper wall of the water purifying cylinder (3).

9. The water detection apparatus for river water around a building according to claim 8, wherein: bilateral accuse volume mechanism (38) are including temperature difference section of thick bamboo (39), heat conduction copper (40), purifying cylinder (41), water purification pipe (42), filter screen (43), vortex tube (44), cold air pipe (45), hot air pipe (46), air compressor (47), compression pipe (48) and drain pipe (49), remove frame (2) lateral wall is located to temperature difference section of thick bamboo (39), temperature difference section of thick bamboo (33) are kept away from the one end intercommunication of water collection section of thick bamboo (30) and are located temperature difference section of thick bamboo (39) lateral wall, heat conduction copper (40) run through and are located temperature difference section of thick bamboo (39) diapire, purifying cylinder (41) are located support frame (29) and are kept away from one side of water purification section of thick bamboo (3), water purification pipe (42) intercommunication is located between one side that temperature difference section of thick bamboo (39) kept away from temperature control pipe (33) and purifying cylinder (41).

10. The water detection apparatus for river water around a building according to claim 9, wherein: the filter screen (43) is arranged on the inner wall of the purifying cylinder (41), a plurality of groups of drain pipes (49) are communicated with each other and are arranged on the side wall of the purifying cylinder (41), the air compressor (47) is arranged on the bottom wall of the supporting frame (29), the vortex tube (44) is arranged on the bottom wall of the supporting frame (29) on one side of the air compressor (47), the cold air tube (45) is communicated with the cold air end of the vortex tube (44), the hot air tube (46) is communicated with the hot air end of the vortex tube (44), the cold air tube (45) and the hot air tube (46) are respectively arranged below the heat conducting copper plate (40), and the compression tube (48) is communicated between the compressed air inlet end of the vortex tube (44) and the compressed air output end of the air compressor (47).

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