CN223087721U - Integrated form is integrative Water purifying device - Google Patents

Abstract

The utility model relates to the technical field of water purification equipment, and provides an integrated integrated water purification device, including a mobile carrier, a first box body is arranged on the mobile carrier, a water quality pretreatment component connected to an external water input pipe is arranged in the first box body, the bottom of the water quality pretreatment component is connected to a coagulation stirring component, a coagulant adding component and an electrolyte adding component are connected to the coagulation stirring component, the bottom of the coagulation stirring component is connected to at least two double sedimentation components, both of the double sedimentation components are connected to a water storage tank, the water storage tank is connected to a filter component, the filter component is connected to a disinfection and sterilization component, the disinfection and sterilization component is connected to a clean water tank, and a water supply component is connected to the clean water tank. The utility model can pretreat, coagulate, precipitate, filter and sterilize raw water to achieve comprehensive purification of raw water. At the same time, the equipment is highly integrated, occupies a small space, can be easily transferred to different areas, and is flexible to use.

Description

Integrated form is integrative Water purifying device

Technical Field

The utility model relates to the technical field of water quality purifying equipment, in particular to an integrated water purifying device.

Background

The integrated water purifier is a series of water purifying devices which collect essence in flocculation, sedimentation, pollution discharge, back flushing, water collection filtration and other processes, can realize full-automatic operation of monomers without personnel operation, and is an important unit for realizing automatic management of water plants.

At present, there are also some integrated water purifying devices, for example, the patent number is CN202322413250.5, the patent name is a chinese utility model patent of integrated water purifier, it includes housing assembly, filtering assembly and coupling assembling, housing assembly inner wall left end fixedly connected with filtering assembly, housing assembly inner wall top right side front and back both ends all fixedly connected with coupling assembling, housing assembly is including the device shell, device shell left end rotation is connected with the door that opens and shuts, device shell inner wall bottom left side fixedly connected with water pump, device shell inner wall bottom right side fixedly connected with outlet pipe runs through, outlet pipe top threaded connection has screw sleeve, device shell front end right side rotation is connected with the bin gate, although the filtration purification to water can be realized to above-mentioned structure, but when using in the field, because quality of water muddy debris is more, above-mentioned device lacks pretreatment subassembly and disinfection subassembly, easily lead to the jam of integrated water purifying equipment, life reduces, and the quality of water after filtering is difficult to satisfy the requirement.

Disclosure of utility model

In order to overcome the defects of the prior art, the utility model provides an integrated water purifying device which can be used for pretreating, coagulating, precipitating, filtering and sterilizing raw water, so that the raw water is comprehensively purified, meanwhile, the equipment is highly integrated, the occupied space is small, the raw water can be conveniently transferred to different areas, and the use is flexible.

In order to solve the technical problems, the technical scheme of the utility model is as follows:

The utility model provides an integrated water purification device, includes the removal carrier, be provided with first box on the removal carrier, be equipped with outside water input pipe on the first box, be equipped with in the first box with the quality of water pretreatment subassembly of outside water input pipe intercommunication, the bottom intercommunication of quality of water pretreatment subassembly is thoughtlessly mixed the stirring subassembly, it has coagulant to add subassembly and electrolyte to add the subassembly to mix still to communicate on the stirring subassembly, mix the bottom intercommunication of stirring subassembly at least two dual sedimentation assemblies, dual sedimentation assemblies all communicates the storage water tank, storage water tank intercommunication filter assembly, filter assembly intercommunication disinfection subassembly, disinfection subassembly intercommunication fresh water tank, the intercommunication has water supply assembly on the fresh water tank, water supply assembly's play water end extends to the outside of first box.

As an improved technical scheme, the water quality pretreatment component comprises a second box body, a first partition plate is arranged in the second box body, the first partition plate divides the second box body into a water inlet cavity and a water storage cavity, the water inlet cavity is communicated with an external water input pipe, an overflow filter screen which is obliquely arranged is further arranged between the first partition plate and the inner wall of the second box body, and a cleaning component is arranged on the second box body and close to the overflow filter screen.

As an improved technical scheme, the cleaning assembly comprises a sundry collecting box, wherein the sundry collecting box is slidably arranged on the second box body through a slideway, a cover plate for cleaning the sundry collecting box is arranged at the top of the first box body, and the sundry collecting box is correspondingly arranged with the overflow filter screen and is communicated with the overflow filter screen through a sundry collecting hole;

The second box body is further provided with a pushing device, a piston rod of the pushing device is provided with a cleaning plate, the cleaning plate is correspondingly arranged with the sundry collecting box, and the bottom of the cleaning plate is in sliding fit with the overflow filter screen.

As an improved technical scheme, a leakage net is arranged on the side wall of the second box body and close to the sundry collecting hole, the leakage net and the sundry collecting box are correspondingly arranged, and the top of the leakage net is connected with the overflow filter net.

As an improved technical scheme, the coagulation stirring assembly comprises a third box body, the third box body is communicated with the water storage cavity, a stirring shaft is rotatably arranged in the third box body, a plurality of stirring blades are arranged on the stirring shaft in a arrayed manner, and one end of the stirring shaft extends to the outer side of the third box body and is connected with a stirring motor;

The coagulant adding assembly comprises a coagulant storage box which is communicated with the third box body through a first metering pump;

the electrolyte adding assembly comprises an electrolyte storage box, and the electrolyte storage box is communicated with the third box body through a second metering pump.

As an improved technical scheme, the dual sedimentation assembly comprises a fourth box body, wherein a second partition plate is arranged in the fourth box body, the second partition plate divides the fourth box body into a first sedimentation cavity and a second sedimentation cavity, an overflow hole is formed in the top of the second partition plate, and the overflow hole is communicated with the first sedimentation cavity and the second sedimentation cavity;

The bottoms of the first sedimentation cavity and the second sedimentation cavity are respectively provided with an arc-shaped bottom plate or a V-shaped plate, the bottoms of the arc-shaped bottom plates or the V-shaped plates are connected with a sludge discharge pipe, a plurality of symmetrically arranged filter sloping plates are respectively arranged in the first sedimentation cavity and the second sedimentation cavity, the filter sloping plates are divided into longitudinal plates and transverse plates, and a filter through hole is formed between the adjacent longitudinal plates and transverse plates;

The input of first subsidence chamber intercommunication the coagulation stirring subassembly, the output of second subsidence chamber intercommunication overflow case, the overflow case install in outside the fourth box, just the overflow case all communicates the storage water tank.

As an improved technical scheme, disinfection subassembly includes the fifth box, the input intercommunication of fifth box filtering element, the output intercommunication of fifth box the clear water tank, ultraviolet lamp is installed at the top of fifth box, pipeline is installed to the bottom of fifth box, install the delivery pump on the pipeline, pipeline keeps away from the one end intercommunication ozone generator or the disinfectant storage tank of fifth box.

After the technical scheme is adopted, the utility model has the beneficial effects that:

Through setting up the removal carrier, be provided with first box on the removal carrier, be equipped with outside water input pipe on the first box, be equipped with the quality of water pretreatment subassembly with outside water input pipe intercommunication in the first box, the bottom intercommunication coagulation stirring subassembly of quality of water pretreatment subassembly, still communicate on the coagulation stirring subassembly and have coagulant addition subassembly and electrolyte addition subassembly, the bottom intercommunication of coagulation stirring subassembly has two at least dual sedimentation subassemblies, dual sedimentation subassembly all communicates the storage tank, the storage tank intercommunication filter unit, the filter unit communicates disinfection subassembly, disinfection subassembly intercommunication fresh water tank, the intercommunication has water supply subassembly on the fresh water tank, water supply subassembly's play water end extends to the outside of first box, through setting up first box, first box sets up on the removal carrier, be convenient for remove integrated water purification device through the removal of removal carrier, realize flowing water supply and disaster area emergency water supply, through setting up quality of water pretreatment subassembly, quality of water pretreatment subassembly intercommunication outside water input pipe, can carry out the preliminary treatment to outside water through coagulation pretreatment subassembly, interception and get rid of great impurity, reduce the harm that follow-up treatment subassembly received, the coagulant, through setting up treatment subassembly, coagulant addition subassembly and electrolyte addition subassembly, can form the colloid particle in the water of the coagulation particle, the particle is more easily formed in the aggregate particle is concentrated in the water, the aqueous particle of the mutual particle of the aqueous particle of the absorption of the coagulation, the aqueous particle of the polymer particle of the addition is more stable, the particle of the coagulation, the particle of the water of the coagulation, can be more water particle of the mutual absorption in the addition is more than the colloid, and the particle of the water of the addition in the water of the coagulation particle of the water in the water of the addition has, furthermore quickening flocculation, quickening the mixed reaction through setting up the stirring subassembly that coagulates, improve treatment effeciency, through setting up two at least dual sedimentation subassemblies, dual sedimentation subassemblies can carry out twice sedimentation to the water after coagulating, make the flocculating constituent subside to the bottom of the pool gradually under the action of gravity, form silt, and the water after sedimentation then overflows to the storage water tank, because carry out twice sedimentation, can greatly reduced the flocculating constituent in the water, improve quality of water, simultaneously, through setting up two at least dual sedimentation subassemblies, when using, can alternate operation, make things convenient for the discharge of bottom silt, can carry out filtration treatment to the water after settling through setting up filter unit, tiny impurity and microorganism in the water, organic matter, chromaticity, stink etc. can kill the microorganism such as bacterium, the virus in the water through setting up disinfection subassembly, ensure the security and the health of water quality of water, make the water quality accord with national relevant standard, through setting up clear water tank and water supply subassembly, can store and carry to the water unit after the processing.

In summary, the utility model provides an integrated water purifying device which can be used for pretreating, coagulating, precipitating, filtering, sterilizing and disinfecting raw water, so that the raw water is comprehensively purified, meanwhile, the device is highly integrated, the occupied space is small, the device can be conveniently transferred to different areas, and the use is flexible.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art. Furthermore, in the drawings, elements or portions thereof are not necessarily drawn to actual scale.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram of a water quality pretreatment module and a cleaning module according to the present utility model;

FIG. 3 is a schematic view showing the structure of a coagulation stirring assembly, a coagulant adding assembly and an electrolyte adding assembly according to the present utility model;

FIG. 4 is a schematic view of a dual sedimentation assembly according to the present utility model;

FIG. 5 is a schematic view of a structure of a filter swash plate according to the present utility model;

FIG. 6 is a schematic view showing the structure of the filter swash plate in another angular direction according to the present utility model;

FIG. 7 is a schematic view of the sterilizing module according to the present utility model;

reference numerals:

1. The movable carrier, 2, a first box body, 3, an external water input pipe, 4, a water quality pretreatment component, 401, a second box body, 402, a first partition board, 403, a water inlet cavity, 404, a water storage cavity, 405, an overflow filter screen, 5, a coagulation stirring component, 501, a third box body, 502, a stirring shaft, 503, stirring blades, 504, a stirring motor, 6, a coagulant adding component, 601, a coagulant storage box, 602, a first metering pump, 7, an electrolyte adding component, 701, an electrolyte storage box, 702, a second metering pump, 8, a dual sedimentation component, 801, a fourth box body, 802, a second partition plate 803, a first sedimentation chamber 804, a second sedimentation chamber 805, overflow holes 806, an arc-shaped bottom plate 807, a sludge discharge pipe 808, a filtering inclined plate 809, a filtering through hole 810, an overflow box 9, a water storage tank 10, a filtering component 11, a disinfection and sterilization component 1101, a fifth box 1102, an ultraviolet lamp 1103, a conveying pipeline 1104, a conveying pump 1105, a disinfectant storage tank 12, a clean water tank 13, a water supply component 14, a cleaning component 1401, a sundry collection box 1402, a cover plate 1403, a pushing device 1404, a cleaning plate 1405 and a leakage net.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear are used in the embodiments of the present utility model) are merely for explaining the relative positional relationship, movement conditions, and the like between the components in a certain specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicators are changed accordingly.

Meanwhile, the meaning of "and/or" and/or "appearing throughout the text is to include three schemes, taking" a and/or B "as an example, including a scheme, or B scheme, or a scheme that a and B satisfy simultaneously.

Furthermore, descriptions such as those referred to as "first," "second," and the like, are provided for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implying an order of magnitude of the indicated technical features in the present disclosure. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

Referring to fig. 1-7, an integrated water purifying device comprises a mobile carrier 1, wherein the mobile carrier 1 can be a vehicle, a first box body 2 is arranged on the mobile carrier 1, the first box body 2 can be fixed on the mobile carrier 1 and can be detached from the mobile carrier 1, an external water input pipe 3 is arranged on the first box body 2, the external water input pipe 3 is used for inputting external water, a water quality pretreatment component 4 communicated with the external water input pipe 3 is arranged in the first box body 2, the bottom of the water quality pretreatment component 4 is communicated with a coagulation stirring component 5, a coagulant adding component 6 and an electrolyte adding component 7 are also communicated on the coagulation stirring component 5, the bottom of the coagulation stirring component 5 is communicated with at least two double sedimentation components 8, the double sedimentation components 8 are all communicated with a water storage tank 9, the water storage tank 9 is communicated with a filtering component 10, the filtering component 10 is communicated with a disinfection and sterilization component 11, the disinfection component 11 is communicated with a water tank 12, the clear water tank 12 is communicated with a water supply component 13, and the water outlet end of the water supply component 13 extends to the outer side of the first box 2;

Specifically, the first box body 2 is arranged on the movable carrier 1, the integrated water purifying device is convenient to move through the movable carrier 1, the mobile water supply and disaster area emergency water supply are realized, the water quality pretreatment component 4 is communicated with the external water input pipe 3, the external water can be pretreated through the water quality pretreatment component 4, larger impurities are intercepted and removed, the damage of the subsequent treatment component is reduced, the coagulant adding component 6 and the electrolyte adding component 7 are arranged, the coagulant adding component 6 can add coagulant into the pretreated water, hydrolysis and polymerization reaction are carried out on the coagulant in the water to form macromolecular colloid, the macromolecular colloid is mutually adsorbed with suspended matters and particles in the water and is aggregated into larger flocculating bodies, the removal and sedimentation of the impurities in the water are facilitated, electrolyte can be added into pretreated water through the electrolyte adding component 7, the added electrolyte can neutralize charges carried by colloid particles, so that the colloid particles are easier to gather into larger particles, flocculation is quickened, the mixing reaction is quickened through the setting of the coagulation stirring component 5, the treatment efficiency is improved, at least two double sedimentation components 8 are arranged, the coagulated water can be sedimentated twice through the double sedimentation components 8, the flocculating constituent gradually settles to the bottom of a tank under the action of gravity to form silt, the sedimentated water overflows into the water storage tank 9, due to the twice sedimentation, the flocculating constituent in the water can be greatly reduced, the water quality is improved, meanwhile, by the setting of the at least two double sedimentation components 8, the flocculating constituent can alternately operate, the discharge of bottom silt is facilitated, the sedimentated water can be filtered through the setting of the filtering component 10, the disinfection and sterilization assembly 11 is arranged to kill microorganisms such as bacteria and viruses in water, ensure the safety and sanitation of the water quality of the discharged water, ensure the water quality of the discharged water to meet the national relevant standards, and store and convey the treated clean water to water units by the clean water tank 12 and the water supply assembly 13.

In addition, as shown in fig. 1, the filtering assembly 10 is a filtering device sold in the market at present, and comprises a plurality of layers of filtering materials and a filtering membrane, fine particles, organic matters, chromaticity, odor and other impurities in water can be effectively removed, in addition, an automatic back flushing system is further arranged on the filtering assembly 10, the regular automatic flushing of the filtering materials is realized through the control of a preset program, the impurities accumulated on the surface of the filtering materials reach a certain degree, when the filtering resistance is increased and the quality of effluent water is reduced, the system can automatically start a back flushing program, at the moment, back flushing water enters the filtering assembly 10 to back flush the filtering materials, the impurities on the surface of the filtering materials are flushed down, and the wastewater is discharged.

As shown in fig. 1-2, the water quality pretreatment component 4 comprises a second box 401, a first partition plate 402 is arranged in the second box 401, the first partition plate 402 is of an L-shaped structure, the first partition plate 402 divides the second box 401 into a water inlet cavity 403 and a water storage cavity 404, the water inlet cavity 403 is communicated with an external water input pipe 3, an overflow filter screen 405 which is obliquely arranged is further arranged between the first partition plate 402 and the inner wall of the second box 401, a cleaning component 14 is arranged on the second box 401 and close to the overflow filter screen 405, external water enters the water inlet cavity 403 through the external water input pipe 3 and gradually overflows to the overflow filter screen 405 through the water inlet cavity 403, the external water is coarsely filtered through the overflow filter screen 405, and larger impurities in a water source can be cleaned through the cleaning component 14, so that the problem of blocking meshes of the overflow filter screen 405 due to long-time use is avoided.

As shown in fig. 1-2, the cleaning assembly 14 includes a sundry collecting box 1401, the sundry collecting box 1401 is slidably mounted on the second box 401 through a slide way, a cover plate 1402 for cleaning the sundry collecting box 1401 is arranged at the top of the first box 2, the sundry collecting box 1401 is correspondingly arranged with the overflow filter screen 405 and is communicated with the overflow filter screen 405 through the sundry collecting hole, sundries filtered out by the overflow filter screen 405 can be collected through the sundry collecting box 1401, and the sundry collecting box 1401 is slidably mounted on the second box 401 through the slide way, so that the sundry collecting box 1401 can be periodically extracted from the slide way to be cleaned by opening the cover plate 1402 on the first box 2;

The second box 401 is further provided with a pushing device 1403, the pushing device 1403 can adopt an air cylinder, a cleaning plate 1404 is arranged on a piston rod of the pushing device 1403, the cleaning plate 1404 is arranged corresponding to the sundry collecting box 1401, the bottom of the cleaning plate 1404 is in sliding fit with the overflow filter screen 405, the cleaning plate 1404 can be driven to slide along the surface of the overflow filter screen 405 through the extension of the piston rod of the pushing device 1403, sundries filtered out of the surface of the overflow filter screen 405 are cleaned, and the sundries are cleaned into the sundry collecting box 1401.

As shown in fig. 1-2, a drain net 1405 is arranged on the side wall of the second box 401 and near the sundry collecting hole, the drain net 1405 is arranged corresponding to the sundry collecting box 1401, the top of the drain net 1405 is connected with an overflow filter screen 405, and water contained in sundries collected in the sundry collecting box 1401 can be conveyed into the water storage cavity 404 by arranging the drain net 1405.

Referring to fig. 1 and 3, the coagulation stirring assembly 5 includes a third tank 501, the third tank 501 is communicated with a water storage cavity 404, so that water primarily treated in the water storage cavity 404 enters the third tank 501, a stirring shaft 502 is rotatably installed in the third tank 501, a plurality of stirring blades 503 are arranged and installed on the stirring shaft 502, one end of the stirring shaft 502 extends to the outer side of the third tank 501 and is connected with a stirring motor 504, the stirring shaft 502 can be driven to rotate by the stirring motor 504, and the stirring blades 503 are driven to sufficiently stir and mix water, coagulant and electrolyte in the third tank 501 in the rotation process of the stirring shaft 502, so that the reaction is accelerated, and the treatment efficiency is improved;

The coagulant adding assembly 6 comprises a coagulant storage tank 601, the coagulant storage tank 601 is communicated with a third tank body 501 through a first metering pump 602, coagulant is stored in the coagulant storage tank 601, polyaluminium chloride, polyacrylamide and the like can be adopted as the coagulant, the coagulant can be added into the third tank body 501 according to the water quality condition regulation through the first metering pump 602, the coagulant undergoes hydrolysis and polymerization reaction in water to form macromolecular colloid, and the macromolecular colloid is mutually adsorbed with suspended matters and particles in water and is aggregated into larger floccules, so that impurities in water can be conveniently removed and settled;

The electrolyte adding assembly 7 comprises an electrolyte storage tank 701, the electrolyte storage tank 701 is communicated with the third tank body 501 through a second metering pump 702, electrolyte is stored in the electrolyte storage tank 701, the electrolyte can be added into the third tank body 501 according to water quality condition adjustment through the second metering pump 702, and the added electrolyte can neutralize charges carried by colloid particles, so that the colloid particles are more easily aggregated into larger particles, and flocculation is accelerated.

As shown in fig. 1 and fig. 4-6, the dual sedimentation assembly 8 comprises a fourth box 801, a second partition board 802 is arranged in the fourth box 801, the second partition board 802 divides the fourth box 801 into a first sedimentation cavity 803 and a second sedimentation cavity 804, an overflow hole 805 is arranged at the top of the second partition board 802, the overflow hole 805 is communicated with the first sedimentation cavity 803 and the second sedimentation cavity 804, and two times of sedimentation can be performed by arranging the first sedimentation cavity 803 and the second sedimentation cavity 804, so that flocculates in water quality are reduced;

The bottoms of the first sedimentation cavity 803 and the second sedimentation cavity 804 are respectively provided with an arc-shaped bottom plate 806 or a V-shaped plate, the bottoms of the arc-shaped bottom plate 806 or the V-shaped plate are connected with a sludge discharge pipe 807, settled sludge is conveniently collected by arranging the arc-shaped bottom plate 806 or the V-shaped plate and discharged by the sludge discharge pipe 807, the first sedimentation cavity 803 and the second sedimentation cavity 804 are respectively provided with a plurality of symmetrically arranged filter sloping plates 808, the filter sloping plates 808 are divided into longitudinal plates and transverse plates, the adjacent longitudinal plates and the transverse plates form a filter through hole 809 together, water is filtered through the filter through hole 809, large-particle floccules are settled, and clear water reaches the top of the filter sloping plates 808 through the filter through hole 809, so that the water is filtered;

The input of first subsidence chamber 803 is linked together and is coagulated and stirred assembly 5, and the output of second subsidence chamber 804 is linked together and overflows case 810, and overflow case 810 installs outside fourth box 801, and overflows case 810 all and links together storage water tank 9, and the clear water after subsidence filtration in first subsidence chamber 803 and second subsidence chamber 804 is carried to storage water tank 9 and is stored.

Referring to fig. 1 and 7, the disinfection and sterilization assembly 11 includes a fifth tank 1101, an input end of the fifth tank 1101 is connected to the filter assembly 10, an output end of the fifth tank 1101 is connected to the clean water tank 12, an ultraviolet lamp 1102 is mounted on the top of the fifth tank 1101, ultraviolet rays emitted by the ultraviolet lamp 1102 sterilize water, a conveying pipeline 1103 is mounted on the bottom of the fifth tank 1101, a conveying pump 1104 is mounted on the conveying pipeline 1103, one end of the conveying pipeline 1103 far away from the fifth tank 1101 is connected to an ozone generator or a disinfectant storage tank 1105, ozone can be produced through the ozone generator, the water can be disinfected and sterilized by conveying the ozone into the water of the second tank 401 through the conveying pipeline 1103, microorganisms such as bacteria and viruses in the water can be killed by conveying the disinfectant stored in the disinfectant storage tank 1105, and the quality of the water can be guaranteed to reach the national standard.

Further, the water supply assembly 13 includes a water supply pipe which is communicated to the outside of the first tank 2, and on which a water supply pump is installed, through which water is supplied to the water using unit.

In addition, many transfer pumps 1104 and various valves are provided in the integrated water purifying device, and the transfer pumps 1104 and the various valves are common to daily life and are well known to those skilled in the art, and are not described in detail herein, and part of the transfer pumps 1104 and the valves are not identified in the drawings.

In addition, the integrated water purifying device is also provided with a monitoring and control system for monitoring the running state of equipment and the water quality of effluent in real time, so that automatic monitoring and remote information management are realized, and the systems generally comprise instrument equipment such as a water quality on-line monitor, a flowmeter, a pressure gauge and the like, and automatic control equipment such as a PLC (programmable logic controller) or a DCS (distributed control system) and the like, and the running state of the equipment can be monitored in real time and automatically regulated through the equipment, so that the equipment can be ensured to run in an optimal state, and the problems can be timely found and solved.

For ease of understanding, the working procedure of this embodiment is given below:

As shown in fig. 1 to 7, firstly, external water is conveyed into a water inlet cavity 403 of a water quality pretreatment assembly 4 through an external water input pipe 3, the external water in the water inlet cavity 403 overflows to an overflow filter screen 405 gradually, the overflow filter screen 405 carries out rough filtration on the external water, large impurities in a water source are intercepted and removed, the filtered water enters a water storage cavity 404, after a period of use, a piston rod of a pushing device 1403 stretches and pushes a cleaning plate 1404 to slide along the surface of the overflow filter screen 405, impurities filtered on the surface of the overflow filter screen 405 are cleaned, the impurities are cleaned into an impurities collecting box 1401, and the impurities collecting box 1401 can be pulled out of a slideway to be cleaned by opening a cover plate 1402 on a first box body 2;

Then, the pretreated water in the water storage cavity 404 is conveyed into the third box body 501 of the coagulation stirring assembly 5, then, the coagulant in the coagulant storage box 601 is conveyed into the third box body 501 through the first metering pump 602, the electrolyte in the electrolyte storage box 701 is conveyed into the third box body 501 through the second metering pump 702, then, the stirring motor 504 operates, and the stirring shaft 502 drives the stirring blade 503 to stir and mix the water in the third box body 501, so that the mixing reaction is accelerated, and the flocculation efficiency is improved;

Then, the water in the third tank 501 is conveyed into a fourth tank 801 of the dual sedimentation assembly 8 through a conveying pump 1104, a first sedimentation cavity 803 and a second sedimentation cavity 804 are arranged in the fourth tank 801, the first sedimentation cavity 803 and the second sedimentation cavity 804 are respectively provided with a filtering inclined plate 808, the water is separated and sedimentated twice through the filtering inclined plate 808, so that flocculating constituent is sedimentated downwards under the action of gravity to form sludge, clear water is finally collected into an overflow tank 810 through the filtering inclined plate 808, when more sludge is deposited, the water is conveyed to another dual sedimentation assembly 8 through the conveying pump 1104 for sedimentation treatment, and then the settled sludge is discharged through a sludge discharge pipe 807;

Then, the water in the overflow tank 810 is conveyed to the water storage tank 9, the water in the water storage tank 9 is conveyed to the filtering component 10, the filtering component 10 is used for filtering the settled water to remove fine impurities, microorganisms, organic matters, chromaticity, odor and the like in the water, the filtered water is conveyed to the fifth tank 1101 of the disinfection and sterilization component 11, the ultraviolet lamp 1102 is arranged at the top of the fifth tank 1101, the conveying pipeline 1103 is arranged at the bottom of the fifth tank 1101, the conveying pipeline 1103 is communicated with the ozone generator or the disinfectant storage tank 1105, and bacteria, viruses and other microorganisms in the water are killed through ultraviolet rays and ozone or disinfectants, so that the water quality of the discharged water is ensured to reach the national standard;

After that, the sterilized and disinfected water is transferred to the clean water tank 12 and transferred to a water unit through the water supply assembly 13, thereby forming an integrated treatment of the water.

In summary, the utility model provides an integrated water purifying device which can be used for pretreating, coagulating, precipitating, filtering, sterilizing and disinfecting raw water, so that the raw water is comprehensively purified, meanwhile, the device is highly integrated, the occupied space is small, the device can be conveniently transferred to different areas, and the use is flexible.

It should be understood that these examples are for the purpose of illustrating the utility model only and are not intended to limit the scope of the utility model. Furthermore, it is to be understood that various changes, modifications and/or variations may be made by those skilled in the art after reading the technical content of the present utility model, and that all such equivalents are intended to fall within the scope of the present utility model as defined in the appended claims.

Claims (7)

1. The integrated water purifying device is characterized by comprising a movable carrier, wherein a first box body is arranged on the movable carrier, an external water input pipe is arranged on the first box body, a water quality pretreatment component communicated with the external water input pipe is arranged in the first box body, the bottom of the water quality pretreatment component is communicated with a coagulation stirring component, a coagulant adding component and an electrolyte adding component are further communicated with the coagulation stirring component, the bottom of the coagulation stirring component is communicated with at least two dual sedimentation components, the dual sedimentation components are communicated with a water storage tank, the water storage tank is communicated with a filtering component, the filtering component is communicated with a disinfection and sterilization component, the disinfection and sterilization component is communicated with a clean water tank, a water supply component is communicated with the clean water tank, and the water outlet end of the water supply component extends to the outer side of the first box body.

2. The integrated water purification device of claim 1, wherein the water quality pretreatment component comprises a second box body, a first partition plate is arranged in the second box body, the first partition plate divides the second box body into a water inlet cavity and a water storage cavity, the water inlet cavity is communicated with the external water input pipe, an overflow filter screen which is obliquely arranged is further arranged between the first partition plate and the inner wall of the second box body, and a cleaning component is arranged on the second box body and close to the overflow filter screen.

3. The integrated water purification device of claim 2, wherein the cleaning assembly comprises a sundry collecting box, the sundry collecting box is slidably mounted on the second box body through a slideway, a cover plate for cleaning the sundry collecting box is arranged at the top of the first box body, and the sundry collecting box is correspondingly arranged with the overflow filter screen and is communicated with the sundry collecting hole;

The second box body is further provided with a pushing device, a piston rod of the pushing device is provided with a cleaning plate, the cleaning plate is correspondingly arranged with the sundry collecting box, and the bottom of the cleaning plate is in sliding fit with the overflow filter screen.

4. The integrated water purification device of claim 3, wherein a drain net is arranged on the side wall of the second box body and close to the sundry collecting hole, the drain net is arranged corresponding to the sundry collecting box, and the top of the drain net is connected with the overflow filter net.

5. The integrated water purification device of claim 2, wherein the coagulation stirring assembly comprises a third box body, the third box body is communicated with the water storage cavity, a stirring shaft is rotatably arranged in the third box body, a plurality of stirring blades are arranged on the stirring shaft in a arrayed manner, and one end of the stirring shaft extends to the outer side of the third box body and is connected with a stirring motor;

The coagulant adding assembly comprises a coagulant storage box which is communicated with the third box body through a first metering pump;

the electrolyte adding assembly comprises an electrolyte storage box, and the electrolyte storage box is communicated with the third box body through a second metering pump.

6. The integrated water purification device of claim 1, wherein the dual sedimentation assembly comprises a fourth box body, a second partition plate is arranged in the fourth box body and divides the fourth box body into a first sedimentation cavity and a second sedimentation cavity, an overflow hole is formed in the top of the second partition plate, and the overflow hole is communicated with the first sedimentation cavity and the second sedimentation cavity;

The bottoms of the first sedimentation cavity and the second sedimentation cavity are respectively provided with an arc-shaped bottom plate or a V-shaped plate, the bottoms of the arc-shaped bottom plates or the V-shaped plates are connected with a sludge discharge pipe, a plurality of symmetrically arranged filter sloping plates are respectively arranged in the first sedimentation cavity and the second sedimentation cavity, the filter sloping plates are divided into longitudinal plates and transverse plates, and a filter through hole is formed between the adjacent longitudinal plates and transverse plates;

The input of first subsidence chamber intercommunication the coagulation stirring subassembly, the output of second subsidence chamber intercommunication overflow case, the overflow case install in outside the fourth box, just the overflow case all communicates the storage water tank.

7. The integrated water purification device of claim 1, wherein the disinfection and sterilization assembly comprises a fifth box body, the input end of the fifth box body is communicated with the filtering assembly, the output end of the fifth box body is communicated with the clean water tank, an ultraviolet lamp is installed at the top of the fifth box body, a conveying pipeline is installed at the bottom of the fifth box body, a conveying pump is installed on the conveying pipeline, and one end, far away from the fifth box body, of the conveying pipeline is communicated with an ozone generator or a disinfectant storage tank.