CN116397729B - Small and medium-sized high-efficiency water supply treatment method - Google Patents
Small and medium-sized high-efficiency water supply treatment method Download PDFInfo
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- CN116397729B CN116397729B CN202310667703.9A CN202310667703A CN116397729B CN 116397729 B CN116397729 B CN 116397729B CN 202310667703 A CN202310667703 A CN 202310667703A CN 116397729 B CN116397729 B CN 116397729B
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- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 title claims abstract description 399
- 238000000034 method Methods 0.000 title claims abstract description 36
- 239000010802 sludge Substances 0.000 claims abstract description 390
- 239000012535 impurity Substances 0.000 claims abstract description 38
- 241000894006 Bacteria Species 0.000 claims abstract description 19
- 239000008399 tap water Substances 0.000 claims abstract description 15
- 235000020679 tap water Nutrition 0.000 claims abstract description 15
- 230000008569 process Effects 0.000 claims abstract description 13
- 238000001914 filtration Methods 0.000 claims abstract description 11
- 238000007667 floating Methods 0.000 claims abstract description 5
- 238000004140 cleaning Methods 0.000 claims description 187
- 239000007921 spray Substances 0.000 claims description 62
- 239000008400 supply water Substances 0.000 claims description 11
- 230000000694 effects Effects 0.000 claims description 9
- 238000007789 sealing Methods 0.000 claims description 8
- 238000002347 injection Methods 0.000 claims description 3
- 239000007924 injection Substances 0.000 claims description 3
- 229910052500 inorganic mineral Inorganic materials 0.000 abstract description 5
- 239000011707 mineral Substances 0.000 abstract description 5
- 239000000463 material Substances 0.000 description 3
- 239000000126 substance Substances 0.000 description 3
- 238000005406 washing Methods 0.000 description 3
- 230000009286 beneficial effect Effects 0.000 description 2
- 230000005484 gravity Effects 0.000 description 2
- 239000004576 sand Substances 0.000 description 2
- 239000000243 solution Substances 0.000 description 2
- 241000195493 Cryptophyta Species 0.000 description 1
- PEDCQBHIVMGVHV-UHFFFAOYSA-N Glycerine Chemical compound OCC(O)CO PEDCQBHIVMGVHV-UHFFFAOYSA-N 0.000 description 1
- 238000010521 absorption reaction Methods 0.000 description 1
- 230000009471 action Effects 0.000 description 1
- XAGFODPZIPBFFR-UHFFFAOYSA-N aluminium Chemical compound [Al] XAGFODPZIPBFFR-UHFFFAOYSA-N 0.000 description 1
- 229910052782 aluminium Inorganic materials 0.000 description 1
- 230000001580 bacterial effect Effects 0.000 description 1
- 230000008901 benefit Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 239000011521 glass Substances 0.000 description 1
- 230000006872 improvement Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 230000000149 penetrating effect Effects 0.000 description 1
- 239000002244 precipitate Substances 0.000 description 1
- 239000010865 sewage Substances 0.000 description 1
- 239000005341 toughened glass Substances 0.000 description 1
Classifications
-
- E—FIXED CONSTRUCTIONS
- E03—WATER SUPPLY; SEWERAGE
- E03B—INSTALLATIONS OR METHODS FOR OBTAINING, COLLECTING, OR DISTRIBUTING WATER
- E03B11/00—Arrangements or adaptations of tanks for water supply
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B08—CLEANING
- B08B—CLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
- B08B9/00—Cleaning hollow articles by methods or apparatus specially adapted thereto
- B08B9/08—Cleaning containers, e.g. tanks
- B08B9/0861—Cleaning crates, boxes or the like
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B08—CLEANING
- B08B—CLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
- B08B9/00—Cleaning hollow articles by methods or apparatus specially adapted thereto
- B08B9/08—Cleaning containers, e.g. tanks
- B08B9/093—Cleaning containers, e.g. tanks by the force of jets or sprays
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Structural Engineering (AREA)
- Health & Medical Sciences (AREA)
- Life Sciences & Earth Sciences (AREA)
- Hydrology & Water Resources (AREA)
- Public Health (AREA)
- Water Supply & Treatment (AREA)
- Treatment Of Sludge (AREA)
- Cleaning In General (AREA)
Abstract
The invention belongs to the technical field of water supply sludge treatment, and discloses a medium-sized and small-sized efficient water supply treatment method, which comprises the following steps of S1: acquiring tap water, and connecting the tap water with a water supply tank, so that a water source of a tap water company firstly enters the water supply tank before entering secondary water supply; s2: acquiring a sludge collecting and treating structure, placing the sludge collecting and treating structure in a water supply tank, and operating a water suction pump; s3: filtering and collecting sludge: when the water suction pump is operated, the sludge treatment collecting barrel is completely immersed in a water source in the water supply tank; the impurity and the sludge during secondary water supply can be effectively reduced through the sludge collecting and treating structure, the sludge collecting and treating structure is always positioned in the water supply tank, bacteria, mineral matters, formed biological films, sludge and the like floating in the water supply tank can be automatically collected, so that the water source in the water supply tank is relatively clean, the whole water source is relatively clean in the water supply process, and the potential safety hazard is reduced.
Description
Technical Field
The invention belongs to the technical field of water supply sludge treatment, and particularly relates to a medium-sized and small-sized efficient water supply treatment method.
Background
Along with the higher floor, tap water is often connected with water rooms in the district first before being connected with each resident, and water is supplied through secondary high efficiency of the district water rooms, so that water pressure of high-rise residents is achieved, and normal water use of high-rise residents in the district is ensured.
The secondary high-efficiency water supply of the community often adopts a plurality of equipment such as a water room, a water tank, a water storage tower, a water tank, a water pump and the like to be matched for use, so that the water pressure of a high-rise water can be between 0.07 and 0.35MPa, and the high-rise water can be normally used.
And the water room and the water tank need to be cleaned regularly. This is because even if water purified by a tap water company contains certain minerals and bacteria which are beneficial to human bodies within a certain equivalent range, the substances can precipitate in a water house and a water tank, and after a long time, black bacteria and minerals can be formed on the inner wall of the water tank, and under the condition, the bacteria can proliferate in a large amount and then die in a large amount, and then proliferate and die again, a biofilm can be formed after a long time, algae can be formed, more bacteria can proliferate, and along with the continuous flowing of tap water, the sludge can float in the water tank and on the inner wall of the water tank, and once the water tank is filled with the substances, and the water source is conveyed to a resident for use and eating, the great potential safety hazard can be brought.
Meanwhile, when rainwater in a certain area is very abundant, rainwater can flow into the water tank for a long time due to special reasons, and fine sand and stones can flow into the water tank, so that the sand and stones are difficult to thoroughly clean, flow into a house of a resident through a pipeline, and damage to water supply equipment is caused in the water supply process.
In summary, the cleaning of the water tank is extremely important, which is also the reason that the secondary water supply needs to be cleaned regularly, but in general, the water tank in the middle and small secondary water supply has smaller volume, and because the water tank is higher, the material inside the water tank and the inner wall of the water tank is difficult to clean thoroughly, even if the staff uses the high-pressure water gun to clean the sludge in the water tank, the substances such as residual bacterial sludge in the water tank after cleaning still exist, and the water for normal households can be influenced due to the fact that the efficiency is slower through manual cleaning of the staff, therefore, the middle and small high-efficiency water supply treatment method is provided.
Disclosure of Invention
The invention aims to provide a small and medium-sized efficient water supply treatment method for solving the problems in the background technology.
In order to achieve the above purpose, the present invention provides the following technical solutions: a medium-sized and small-sized high-efficiency water supply treatment method, which comprises,
s1: acquiring tap water, and connecting the tap water with a water supply tank, so that a water source of a tap water company firstly enters the water supply tank before entering secondary water supply;
s2: acquiring a sludge collecting and treating structure, placing the sludge collecting and treating structure in a water supply tank, and operating a water suction pump;
s3: filtering and collecting sludge: when the water suction pump runs, the sludge treatment collecting barrel is completely immersed in the water source in the water supply water tank, so that the water suction pump can pump the water source in the sludge treatment collecting barrel out through the water suction connecting pipe and output the pumped water source from the water suction output pipe;
s4: after the sludge treatment collecting barrel and the water suction pump continuously run, the water source in the water supply water tank can flow, so that the water source generates certain waves, bacteria, impurities and sludge in the water source can continuously flow in water along with the generation of the waves, and finally the water source in the water supply water tank can be ensured to be cleaner by flowing to and collecting the water source in the sludge treatment collecting barrel through the suction force of the sludge treatment collecting barrel.
Preferably, S5: the method comprises the steps of inputting a water source after sludge collection and filtration into a communicating water pipe, flowing into an output water pipe through a connecting water pipe and a water supply pump, and finally flowing to a plurality of required positions through the output water pipe;
s6: cleaning a water supply tank: when the water supply tank needs to be cleaned, the top of the sludge collection and treatment structure is provided with a sludge cleaning moving structure, the sludge collection and treatment structure moves in an x-axis, a y-axis and a z-axis in the water supply tank through the sludge cleaning moving structure, and when the sludge collection and treatment structure moves, the sludge high-pressure cleaning spray head, the longitudinal first cleaning spray head and the longitudinal second cleaning spray head are operated, so that the effects of cleaning the inner wall and the bottom wall of the water supply tank are achieved, bacteria, impurities and sludge in the water supply tank are effectively cleaned, the automation degree of the whole process is high, and the situation that workers enter the water supply tank for cleaning is reduced;
s7: the specific cleaning process comprises the following steps:
the sludge cleaning moving structure is arranged on the sludge collecting and treating structure, the sludge cleaning moving structure and the sludge collecting and treating structure are arranged in a water supply water tank, a sludge magnetic connection moving disc is attached to the bottom of a transparent top cover of the water tank, then a strong magnet is arranged on the top of the transparent top cover of the water tank and right above the sludge magnetic connection moving disc, so that the strong magnet is magnetically connected with the sludge magnetic connection moving disc, and at the moment, the sludge cleaning moving structure and the sludge collecting and treating structure can be driven to move through the strong magnet on the top of the transparent top cover of the water tank;
connecting the cleaning connecting hose with an external water source of the water supply tank, and operating the cleaning water pump to enable the cleaning water pump to pump out the water source in the cleaning connecting hose and output the water source through the sludge high-pressure cleaning spray head, the longitudinal first cleaning spray head and the longitudinal second cleaning spray head;
after the cleaning water pump runs, the sludge high-pressure cleaning spray head, the longitudinal first cleaning spray head and the longitudinal second cleaning spray head spray out a high-pressure water source, and the sludge collecting and treating structure and the sludge cleaning moving structure are regularly moved in the water supply tank;
after the inner wall of the water supply tank is cleaned, the cleaned bacteria, impurities and sludge flow between the first sludge drainage plate and the second sludge drainage plate through the longitudinal first cleaning spray head and the longitudinal second cleaning spray head, and finally flow out of the water supply tank through the sludge flow inclined plate and the sludge output inclined plate;
s8: after the sludge collecting and processing structure is cleaned, the sludge cleaning moving structure can be taken down from the top of the sludge collecting and processing structure, so that the sludge collecting and processing structure is still positioned in the water supply tank, and can continuously work along with the injection of a water source in the water supply tank, and S1 to S5 can be repeated by itself;
in S3, when the sludge collecting and treating structure is located in the water supply tank, the water source in the water supply tank is higher than the sludge collecting and treating structure, and the sludge collecting and treating structure can be operated normally.
Preferably, the top of the water supply tank is provided with a transparent top cover of the water tank, and the surface of the transparent top cover of the water tank is provided with a top cover opening groove for enabling the sludge collecting and treating structure to enter the water supply tank through the top cover opening groove, so that the water supply tank is flexible to use.
Preferably, a filter screen cylinder is arranged in the sludge treatment collecting barrel and is used for filtering sludge and impurities, so that the sludge and the impurities can be always positioned in the sludge treatment collecting barrel.
Preferably, the sludge cleaning moving structure is connected with the sludge collecting and treating structure through a plurality of connecting bolts.
Preferably, in S7, the sludge collection and treatment structure and the sludge cleaning and moving structure regularly move in the water supply tank:
the method comprises the steps that firstly, rectangular track movement is conducted at a position, close to the top wall, in the water supply tank, of a sludge collecting and treating structure and a sludge cleaning and moving structure, so that the top wall in the water supply tank can be cleaned after the rectangular track movement of the sludge collecting and treating structure and the sludge cleaning and moving structure is completed;
then, the heights of the sludge collecting and treating structure and the sludge cleaning and moving structure are changed through the electric telescopic rod, so that the heights of the sludge collecting and treating structure are reduced, and the sludge collecting and treating structure and the sludge cleaning and moving structure are moved in a rectangular track again at the moment, so that the cleaning area in the water supply tank is increased;
and then repeating the steps to finish the cleaning of the inner wall of the water supply tank, and enabling impurities and sludge on the inner wall of the water supply tank to fall into the second sludge drainage plate, the first sludge drainage plate, the sludge flow inclined plate and the sludge output inclined plate.
Preferably, after the cleaning of the inner wall of the water supply tank is completed, the inner bottom wall of the water supply tank is cleaned;
the first sludge drainage plate and the second sludge drainage plate are obliquely arranged, so that impurities and sludge on the first sludge drainage plate and the second sludge drainage plate easily fall into the sludge flow inclined plate, an inclined arrangement is formed between the longitudinal second cleaning spray nozzle and the sludge treatment collecting barrel, and the longitudinal first cleaning spray nozzle and the sludge treatment collecting barrel are vertically arranged, so that the first sludge drainage plate, the second sludge drainage plate and the sludge flow inclined plate can be matched and cleaned through the longitudinal first cleaning spray nozzle and the longitudinal second cleaning spray nozzle;
finally, impurities and sludge positioned on the first sludge drainage plate, the second sludge drainage plate and the sludge flow inclined plate can be washed and flow into the sludge output inclined plate, and flow out of the water supply tank through the sludge output inclined plate.
Preferably, the water supply tank is provided with a sludge treatment port, the sludge treatment port penetrates through the side wall of the water supply tank, and the sludge treatment port is positioned at the bottom of the sludge output inclined plate.
Preferably, the device further comprises a sludge cleaning pipe, wherein the sludge cleaning pipe is communicated with the sealing connecting piece, when the cleaning water pump is operated, a water source in the cleaning connecting hose can flow into the sealing connecting piece and the sludge cleaning pipe after being pressurized by the cleaning water pump, and finally is output from the high-pressure sludge cleaning spray head, the longitudinal first cleaning spray head and the longitudinal second cleaning spray head.
Compared with the prior art, the invention has the beneficial effects that:
the impurity and the sludge during secondary water supply can be effectively reduced through the sludge collecting and treating structure, the sludge collecting and treating structure is always positioned in the water supply tank, bacteria, mineral matters, formed biological films, sludge and the like floating in the water supply tank can be automatically collected, so that the water source in the water supply tank is relatively clean, the whole water source is relatively clean in the water supply process, and the potential safety hazard is reduced.
The collection is handled the mud structure and is not only had the effect of collecting the filter material, collect simultaneously and handle the mud structure and still possess the cleaning performance, when regularly wasing in the water supply tank, can be with collecting the mud structure and be connected with mud clearance removal structure, and will absorb water the end connection water source of output tube, can pass through and collect and handle the mud structure and carry out the degree of depth washing in to the water supply tank, and because the staff need not enter into in the water supply tank, have comparatively safe, the higher advantage of cleaning efficiency, and collect and handle the mud structure and can carry out the position movement in the water supply tank according to the user demand, so can carry out the omnidirectional effective cleanness with the inner wall of water supply tank.
The diapire of water supply tank is equipped with second mud drainage board, mud flow inclined plate, mud output inclined plate respectively to cooperation is collected and is handled mud structure, mud clearance and is removed the structure, can wash impurity in the water supply tank, water supply tank inner wall material to mud output inclined plate's the lowest position department, and along with flowing out, clearance in the water supply tank, whole process is relatively automatic, laborsaving, and the washing mud effect preferred, makes the time of washing water supply tank reduce, very big improvement the operation sales volume, makes whole water supply become more high-efficient.
The method can continuously collect and clean bacteria, impurities, sludge and the like in the water supply tank under the condition that the water supply tank is in a closed state, and has higher efficiency and higher degree of automation; and when the inner wall of the water supply tank needs to be cleaned, the method can automatically clean the inner wall and the side wall of the water supply tank, has a better cleaning effect, can effectively clean sludge and the like in the water supply tank, and is convenient for medium and small secondary high-efficiency water supply.
Drawings
FIG. 1 is a schematic flow chart of the method of the present invention;
FIG. 2 is a front view of a small and medium sized water supply apparatus of the present invention;
FIG. 3 is a perspective view of a water supply tank of the present invention;
FIG. 4 is an exploded view of the water supply tank of the present invention;
FIG. 5 is a perspective view of a sludge flow inclined plate of the present invention;
FIG. 6 is a perspective view of a sludge collection and treatment structure and a sludge cleaning and moving structure according to the present invention;
FIG. 7 is an exploded view of a sludge collection and treatment structure and a sludge cleaning and moving structure according to the present invention;
FIG. 8 is a perspective view of a longitudinal second cleaning head according to the present invention;
in the figure:
1. a water supply tank; 11. a transparent top cover of the water tank; 12. a top cover opening groove; 13. a sludge flow inclined plate; 14. a first sludge drainage plate; 15. a sludge output inclined plate; 16. a second sludge drainage plate;
2. a communicating water pipe;
3. a water supply pump;
4. connecting a water pipe;
5. an output water pipe;
6. an operation table;
7. collecting and treating a sludge structure; 71. a water suction pump; 72. a water absorption output pipe; 73. a water-absorbing connecting pipe; 74. a sludge treatment collecting barrel; 741. a sludge dish-shaped suction port; 742. a sludge protection top rail; 75. a sludge cleaning pipe; 751. a high-pressure sludge cleaning spray head; 752. a longitudinal first cleaning nozzle; 753. a longitudinal second cleaning spray head; 754. sealing the connecting piece; 76. cleaning a water pump; 77. cleaning the connecting hose;
8. a sludge cleaning moving structure; 81. the sludge is magnetically connected with the movable disc; 82. an electric telescopic rod; 83. connecting with a top seat; 84. arc-shaped connecting columns; 85. a universal ball; 86. a steering base; 87. the connecting seat is clamped; 88. and (5) connecting bolts.
Detailed Description
The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
Referring to fig. 1 to 8, the present invention provides a technical solution: a medium-sized and small-sized high-efficiency water supply treatment method, which comprises,
s1: acquiring tap water, and connecting the tap water with the water supply tank 1, so that a water source of a tap water company firstly enters the water supply tank 1 before entering secondary water supply;
s2: acquiring a sludge collecting and treating structure 7, placing the sludge collecting and treating structure 7 in the water supply tank 1, and operating the water suction pump 71;
s3: filtering and collecting sludge: when the water suction pump 71 is operated, the sludge treatment collecting barrel 74 is completely immersed in the water source in the water supply tank 1, so that the water suction pump 71 can pump the water source in the sludge treatment collecting barrel 74 through the water suction connecting pipe 73 and output the pumped water source from the water suction output pipe 72, and the water suction output pipe 72 and the sludge treatment collecting barrel 74 are both positioned in the water source in the water supply tank 1, thereby having a filtering effect, and bacteria, impurities and sludge floating on the water source can enter the sludge treatment collecting barrel 74 along with the flow of the water source when the sludge treatment collecting barrel 74 pumps the water source in the water supply tank 1;
s4: when the sludge treatment collecting barrel 74 and the water suction pump 71 continuously run, the water source in the water supply tank 1 can flow, so that a certain wave is generated by the water source, bacteria, impurities and sludge in the water source can continuously flow in water along with the generation of the wave, and finally flow into and collect the sludge treatment collecting barrel 74 through the suction force of the sludge treatment collecting barrel 74, and the water source in the water supply tank 1 can be ensured to be cleaner after long-time running;
s5: the water source after sludge collection and filtration is input into the communicating water pipe 2, flows into the output water pipe 5 through the connecting water pipe 4 and the water supply pump 3, and finally flows to a plurality of required positions through the output water pipe 5;
s6: cleaning the water supply tank 1: when the water supply tank 1 needs to be cleaned, a sludge cleaning moving structure 8 is arranged at the top of the sludge collecting and processing structure 7, the sludge collecting and processing structure 7 moves in an x-axis, a y-axis and a z-axis in the water supply tank 1 through the sludge cleaning moving structure 8, and when the sludge collecting and processing structure 7 moves, a sludge high-pressure cleaning spray nozzle 751, a longitudinal first cleaning spray nozzle 752 and a longitudinal second cleaning spray nozzle 753 are operated, so that the effects of cleaning the inner wall of the water supply tank 1 and the bottom wall of the water supply tank 1 are achieved, bacteria, impurities and sludge in the water supply tank 1 are effectively cleaned, the automation degree of the whole process is high, and the condition that workers enter the water supply tank 1 for cleaning is reduced;
s7: the specific cleaning process comprises the following steps:
after the sludge cleaning moving structure 8 is arranged on the sludge collecting and treating structure 7, placing the sludge cleaning moving structure 8 and the sludge collecting and treating structure into the water supply water tank 1, attaching the sludge magnetic connection moving disc 81 to the bottom of the water tank transparent top cover 11, and then placing a powerful magnet on the top of the water tank transparent top cover 11 and right above the sludge magnetic connection moving disc 81 so that the powerful magnet is magnetically connected with the sludge magnetic connection moving disc 81, and at the moment, the sludge cleaning moving structure 8 and the sludge collecting and treating structure 7 can be driven to move through the powerful magnet on the top of the water tank transparent top cover 11;
connecting the cleaning connection hose 77 with an external water source of the water supply tank 1, and operating the cleaning water pump 76 such that the cleaning water pump 76 pumps out the water source in the cleaning connection hose 77 and outputs the water source through the sludge high-pressure cleaning spray head 751, the longitudinal first cleaning spray head 752, and the longitudinal second cleaning spray head 753;
after the cleaning water pump 76 runs, the sludge high-pressure cleaning spray nozzle 751, the longitudinal first cleaning spray nozzle 752 and the longitudinal second cleaning spray nozzle 753 spray high-pressure water sources, and the sludge collecting and treating structure 7 and the sludge cleaning and moving structure 8 are regularly moved in the water supply tank 1;
after the inner wall of the water supply tank 1 is cleaned, bacteria, impurities and sludge after cleaning flow between the first sludge drainage plate 14 and the second sludge drainage plate 16 through the longitudinal first cleaning nozzle 752 and the longitudinal second cleaning nozzle 753, and finally flow out of the water supply tank 1 through the sludge flow inclined plate 13 and the sludge output inclined plate 15;
s8: after the collection treatment sludge structure 7 is cleaned, the sludge cleaning moving structure 8 can be taken down from the top of the collection treatment sludge structure 7, so that the collection treatment sludge structure 7 is still positioned in the water supply tank 1, and the collection treatment sludge structure 7 can continuously work along with the injection of the water source in the water supply tank 1, and the steps S1 to S5 are repeated by themselves.
The sludge collecting and treating structure 7 comprises a sludge treating and collecting barrel 74, the sludge treating and collecting barrel 74 is of a hollow cylinder structure, a sludge protecting top column 742 is arranged at the top of the sludge treating and collecting barrel 74, a sludge dish-shaped suction port 741 is arranged at the middle part of the sludge protecting top column 742 at the top of the sludge treating and collecting barrel 74, impurities and sludge in a water source in the water supply tank 1 can flow into the sludge treating and collecting barrel 74 through the sludge protecting top column 742, and finally the impurities and the sludge are positioned in a filter screen barrel in the sludge treating and collecting barrel 74.
And the water suction pump 71 is connected with the sludge treatment collecting vessel 74 through the water suction connecting pipe 73, one side of the water suction pump 71 is connected with the water suction output pipe 72, the other side of the sludge treatment collecting vessel 74 is connected with the cleaning water pump 76, and one side of the cleaning water pump 76 is connected with the cleaning connecting hose 77. By the design structure, the sludge treatment collecting barrel 74 can be in a stable state, so that the gravity center of the sludge treatment collecting barrel 74 cannot deviate, and the sludge treatment collecting barrel 74 is stable in collecting work in water. The same sludge treatment collecting vessel 74 may generate suction force through the water suction pump 71, and when the water suction pump 71 is operated, the water suction pump 71 may adsorb water source in the sludge treatment collecting vessel 74 through the water suction connection pipe 73 and output the adsorbed water through the water suction output pipe 72. In this process, water, impurities, sludge, etc. located near the sludge treatment collection vessel 74 are adsorbed to the inside of the sludge treatment collection vessel 74.
The impurity and the sludge during secondary water supply can be effectively reduced by the collecting and processing sludge structure 7, the collecting and processing sludge structure 7 is always positioned in the water supply tank 1, bacteria, mineral matters, formed biological films, sludge and the like floating in the water supply tank 1 can be automatically collected, so that the water source in the water supply tank 1 is relatively clean, the whole water source is relatively clean in the water supply process, and the potential safety hazard is reduced.
In this embodiment, as shown in fig. 1, 4 and 5, preferably, in S3, when the collected and treated sludge structure 7 is located in the water supply tank 1, the height of the water source in the water supply tank 1 is greater than the height of the collected and treated sludge structure 7, and then the collected and treated sludge structure 7 can be made to operate normally.
So that the sludge treatment collecting vessel 74 can be normally used in water, and once the water is lower than the sludge treatment collecting vessel 74, the sludge treatment collecting vessel 74 cannot be normally used, and at this time, the suction force generated by the sludge treatment collecting vessel 74 is difficult to adsorb water source, impurities, sludge and the like.
In this embodiment, preferably, as shown in fig. 1, 2, 3 and 4, a water tank transparent top cover 11 is provided at the top of the water supply tank 1, and a top cover open slot 12 is provided on the surface of the water tank transparent top cover 11, so that the sludge collecting and treating structure 7 can enter the water supply tank 1 through the top cover open slot 12, and the use is more flexible.
The transparent top cover 11 of the water tank can be made of toughened glass, plastic and aluminum, so that the transparent top cover 11 of the water tank can not generate magnetic force with the magnet. After the sludge collecting and treating structure 7 and the sludge cleaning and moving structure 8 are installed, the sludge magnetic connection moving disc 81 is connected with the powerful magnet, and the powerful magnet is moved at the top of the transparent top cover 11 of the water tank to drive the sludge cleaning and moving structure 8 and the sludge collecting and treating structure 7 to move together. The principle is similar to that of a magnet glass cleaner, and after the sludge collection and treatment structure 7 and the sludge cleaning and moving structure 8 are moved, a cleaning step of S6 can be performed.
In this embodiment, as shown in fig. 6 and 7, a filter screen cylinder is preferably disposed in the sludge treatment collecting tank 74, and the filter screen cylinder is used for filtering the sludge and the impurities, so that the sludge and the impurities can be always located in the sludge treatment collecting tank 74.
The filter screen cylinder can make impurity, the mud that collects in the sludge treatment collecting vessel 74 clear up more conveniently, after the rubbish in the sludge treatment collecting vessel 74 is piled up, can take out the sludge treatment collecting vessel 74 through top cap open slot 12 to directly take out the filter screen cylinder from the sludge treatment collecting vessel 74, then alone wash the filter screen cylinder can, then put into the sludge treatment collecting vessel 74 with the filter screen cylinder after wasing, can make the sludge treatment collecting vessel 74 normal use. The process is simple and convenient.
In this embodiment, as shown in fig. 6, 7 and 8, the sludge cleaning and moving structure 8 is preferably connected to the sludge collecting and treating structure 7 by a plurality of connecting bolts 88.
The sludge magnetic connection movable disc 81 can be connected with powerful magnet magnetic force, and the bottom of the sludge magnetic connection movable disc 81 is connected with a connection footstock 83 through an electric telescopic rod 82, arc-shaped connection columns 84 are symmetrically arranged around the connection footstock 83, universal balls 85 are arranged at the bottoms of the arc-shaped connection columns 84, the universal balls 85 are connected with a steering base 86, a clamping connection seat 87 is arranged at the bottom of the steering base 86, the clamping connection seat 87 is connected with the sludge treatment collecting barrel 74 through a connection bolt 88, and the sludge cleaning movable structure 8 can be integrally installed at the top of the sludge treatment collecting barrel 74.
The sludge magnetic connection movable disc 81 can move on the water supply tank 1 through the strong magnet on the x axis and the y axis, the sludge magnetic connection movable disc 81 can move on the water supply tank 1 on the x axis and the y axis only by moving the strong magnetic force on the top of the transparent top cover 11 of the water tank, and after the electric telescopic rod 82 operates, the heights of the connection top seat 83 and the arc-shaped connection column 84 can be changed, so that the height of the sludge treatment collecting barrel 74 is changed, that is, the sludge treatment collecting barrel 74 can move on the x axis, the y axis and the z axis in the water supply tank 1, and the inner wall of the water supply tank 1 is automatically cleaned through the sludge high-pressure cleaning spray head 751, the longitudinal first cleaning spray head 752 and the longitudinal second cleaning spray head 753.
In this embodiment, as shown in fig. 2, 3, 4, 5, and S7, the sludge collection and treatment structure 7 and the sludge cleaning and movement structure 8 are preferably regularly moved in the water supply tank 1:
the sludge collecting and treating structure 7 and the sludge cleaning and moving structure 8 firstly move in rectangular tracks at the position close to the top wall in the water supply tank 1, so that the top wall in the water supply tank 1 can be cleaned after the sludge collecting and treating structure 7 and the sludge cleaning and moving structure 8 finish the rectangular tracks;
next, the heights of the sludge collecting and processing structure 7 and the sludge cleaning and moving structure 8 are changed through the electric telescopic rod 82, so that the height of the sludge collecting and processing structure 7 is reduced, and at the moment, the sludge collecting and processing structure 7 and the sludge cleaning and moving structure 8 are moved again in a rectangular track, so that the cleaning area in the water supply tank 1 is increased;
then the step is repeated, so that the cleaning of the inner wall of the water supply tank 1 is completed, and impurities and sludge on the inner wall of the water supply tank 1 fall onto the second sludge drainage plate 16, the first sludge drainage plate 14, the sludge flow inclined plate 13 and the sludge output inclined plate 15.
Because the water supply tank 1 is of a cuboid structure, the collection treatment sludge structure 7 and the sludge cleaning moving structure 8 are used for completing a rectangular track in the water supply tank 1, which is equivalent to the parts of four surfaces of the inner wall of the water supply tank 1, and the four surfaces of the inner wall of the water supply tank 1 can be completely cleaned along with the height adjustment of the collection treatment sludge structure 7 and the sludge cleaning moving structure 8.
In this embodiment, preferably, as shown in fig. 5, after the cleaning of the inner wall of the water supply tank 1 is completed, the inner bottom wall of the water supply tank 1 is cleaned;
the first sludge drainage plate 14 and the second sludge drainage plate 16 are obliquely arranged, so that impurities and sludge on the first sludge drainage plate 14 and the second sludge drainage plate 16 easily fall onto the sludge flow inclined plate 13, an oblique arrangement is formed between the longitudinal second cleaning spray head 753 and the sludge treatment collecting barrel 74, and the longitudinal first cleaning spray head 752 and the sludge treatment collecting barrel 74 are vertically arranged, so that the first sludge drainage plate 14, the second sludge drainage plate 16 and the sludge flow inclined plate 13 can be matched and cleaned through the longitudinal first cleaning spray head 752 and the longitudinal second cleaning spray head 753;
finally, the impurities and sludge located in the first sludge conduction plate 14, the second sludge conduction plate 16 and the sludge flow inclined plate 13 are washed and flow into the sludge output inclined plate 15, and flow out of the water supply tank 1 through the sludge output inclined plate 15.
The longitudinal second cleaning spray head 753 can effectively clean the inclined planes of the first sludge drainage plate 14 and the second sludge drainage plate 16, so that the first sludge drainage plate 14 and the second sludge drainage plate 16 are clean, impurities and sludge on the first sludge drainage plate 14 and the second sludge drainage plate 16 slide onto the sludge flow inclined plate 13 and the sludge output inclined plate 15 together, and the sludge and the impurities continue to flow along with the action of the longitudinal first cleaning spray head 752 and the gravity and finally flow out of the water supply tank 1.
In this embodiment, it is preferable that the water supply tank 1 is provided with a sludge treatment port penetrating through a side wall of the water supply tank 1, and the sludge treatment port is located at a bottom position of the sludge output inclined plate 15.
The sludge treatment port is shielded by the operation table 6, so that the sludge treatment port is omitted in the figure, and is a sewage outlet which can be opened during use, so that sludge can be conveniently treated and discharged, and the sludge treatment port is sealed when the water supply tank 1 is used.
In this embodiment, as shown in fig. 6, 7 and 8, the sludge cleaning pipe 75 is preferably further included, and the sludge cleaning pipe 75 is communicated with the sealing connection member 754, and when the cleaning water pump 76 is operated, the water source in the cleaning connection hose 77 is pressurized by the cleaning water pump 76, flows into the sealing connection member 754 and the sludge cleaning pipe 75, and finally is output from the sludge high-pressure cleaning nozzle 751, the longitudinal first cleaning nozzle 752 and the longitudinal second cleaning nozzle 753.
The cleaning connection hose 77 is connected with the external water source of the water supply tank 1, because when the water supply tank 1 is cleaned, the water source in the water supply tank 1 is required to be completely discharged, and the cleaning water pump 76 pressurizes the water source in the cleaning connection hose 77 and flows into the sealing connection piece 754 and the sludge cleaning pipe 75, so that the pressure of the water source sprayed out of the sludge high-pressure cleaning spray head 751, the longitudinal first cleaning spray head 752 and the longitudinal second cleaning spray head 753 is higher, and the effects of cleaning the inner wall and the bottom wall of the water supply tank 1 can be achieved.
In this embodiment, as shown in fig. 6 and 7, it is preferable that the steering base 86 has a hemispherical structure, the universal ball 85 has a spherical structure, and the diameter of the top opening of the steering base 86 is smaller than that of the universal ball 85, so that the universal ball 85 is located in the steering base 86.
So that a small range of angle changes can be made between the steering base 86 and the gimbal 85, but the steering base 86 is not separated from the gimbal 85.
The foregoing is merely illustrative of the present invention and not restrictive, and other modifications and equivalents thereof may occur to those skilled in the art without departing from the spirit and scope of the present invention.
Claims (8)
1. A medium and small-sized high-efficiency water supply treatment method is characterized in that: comprising the steps of (a) a step of,
s1: acquiring tap water, and connecting the tap water with a water supply tank (1) so that a water source of a tap water company firstly enters the water supply tank (1) before entering secondary water supply;
s2: acquiring a sludge collecting and treating structure (7), placing the sludge collecting and treating structure (7) in a water supply tank (1), and operating a water suction pump (71);
s3: filtering and collecting sludge: when the water suction pump (71) operates, the sludge treatment collecting barrel (74) is completely immersed in the water source in the water supply water tank (1), so that the water suction pump (71) can pump the water source in the sludge treatment collecting barrel (74) out through the water suction connecting pipe (73) and output the pumped water source from the water suction output pipe (72), and the water suction output pipe (72) and the sludge treatment collecting barrel (74) are both positioned in the water source in the water supply water tank (1), thereby having a filtering effect, and bacteria, impurities and sludge floating on the water source can enter the sludge treatment collecting barrel (74) along with the flow of the water source when the sludge treatment collecting barrel (74) pumps towards the water source in the water supply water tank (1);
s4: after the sludge treatment collecting barrel (74) and the water suction pump (71) continuously run, the water source in the water supply water tank (1) can flow, so that a certain wave is generated by the water source, bacteria, impurities and sludge in the water source can continuously flow in the water along with the generation of the wave, and finally flow into and collect in the sludge treatment collecting barrel (74) through the suction force of the sludge treatment collecting barrel (74), and the water source in the water supply water tank (1) can be ensured to be cleaner after long-time running;
s5: the method comprises the steps of inputting the collected sludge and filtered water source into a communicating water pipe (2), enabling the water source to flow into an output water pipe (5) through a connecting water pipe (4) and a water supply pump (3), and finally enabling the water source to flow to a plurality of required positions through the output water pipe (5);
s6: cleaning a water supply tank (1): when the water supply tank (1) needs to be cleaned, a sludge cleaning moving structure (8) is arranged at the top of the sludge collecting and processing structure (7), the sludge collecting and processing structure (7) moves in an x-axis, a y-axis and a z-axis in the water supply tank (1) through the sludge cleaning moving structure (8), and when the sludge collecting and processing structure (7) moves, a sludge high-pressure cleaning spray head (751), a longitudinal first cleaning spray head (752) and a longitudinal second cleaning spray head (753) are operated, so that the effects of cleaning the inner wall of the water supply tank (1) and the bottom wall of the water supply tank (1) are achieved, bacteria, impurities and sludge in the water supply tank (1) are effectively cleaned, the automation degree of the whole process is high, and the situation that workers enter the water supply tank (1) for cleaning is reduced;
s7: the specific cleaning process comprises the following steps:
after the sludge cleaning moving structure (8) is arranged on the sludge collecting and treating structure (7), placing the sludge cleaning moving structure and the sludge collecting and treating structure in the water supply water tank (1), attaching the sludge magnetic connecting moving disc (81) to the bottom of the water tank transparent top cover (11), and then placing a powerful magnet on the top of the water tank transparent top cover (11) and right above the sludge magnetic connecting moving disc (81) so that the powerful magnet is magnetically connected with the sludge magnetic connecting moving disc (81), and at the moment, the sludge cleaning moving structure (8) and the sludge collecting and treating structure (7) can be driven to move through the powerful magnet on the top of the water tank transparent top cover (11);
connecting the cleaning connection hose (77) with an external water source of the water supply tank (1), and operating the cleaning water pump (76) to enable the cleaning water pump (76) to pump out the water source in the cleaning connection hose (77) and output the water source through the sludge high-pressure cleaning spray head (751), the longitudinal first cleaning spray head (752) and the longitudinal second cleaning spray head (753);
after a cleaning water pump (76) runs, a sludge high-pressure cleaning spray head (751), a longitudinal first cleaning spray head (752) and a longitudinal second cleaning spray head (753) spray high-pressure water sources, and a sludge collecting and treating structure (7) and a sludge cleaning and moving structure (8) are regularly moved in a water supply tank (1);
after the inner wall of the water supply tank (1) is cleaned, the cleaned bacteria, impurities and sludge flow between the first sludge drainage plate (14) and the second sludge drainage plate (16) through the longitudinal first cleaning spray head (752) and the longitudinal second cleaning spray head (753), and finally flow out of the water supply tank (1) through the sludge flow inclined plate (13) and the sludge output inclined plate (15);
s8: after the collection treatment sludge structure (7) is cleaned, the sludge cleaning moving structure (8) can be taken down from the top of the collection treatment sludge structure (7), so that the collection treatment sludge structure (7) is still positioned in the water supply tank (1), and the collection treatment sludge structure (7) can continuously work and automatically repeat S1 to S5 along with the injection of a water source in the water supply tank (1);
in S3, when the sludge collecting and treating structure (7) is located in the water supply tank (1), the water source in the water supply tank (1) is higher than the sludge collecting and treating structure (7), and the sludge collecting and treating structure (7) can be operated normally.
2. The medium-and-small-sized efficient water supply treatment method according to claim 1, characterized by comprising the following steps: the top of the water supply tank (1) is provided with a water tank transparent top cover (11), and the surface of the water tank transparent top cover (11) is provided with a top cover open slot (12) for enabling the sludge collecting and treating structure (7) to enter the water supply tank (1) through the top cover open slot (12).
3. The medium-and-small-sized efficient water supply treatment method according to claim 1, characterized by comprising the following steps: a filter screen cylinder is arranged in the sludge treatment collecting barrel (74) and is used for filtering sludge and impurities, so that the sludge and the impurities can be always located in the sludge treatment collecting barrel (74).
4. The medium-and-small-sized efficient water supply treatment method according to claim 1, characterized by comprising the following steps: the sludge cleaning moving structure (8) is connected with the sludge collecting and treating structure (7) through a plurality of connecting bolts (88).
5. The medium-and-small-sized efficient water supply treatment method according to claim 1, characterized by comprising the following steps: s7, a sludge collecting and treating structure (7) and a sludge cleaning and moving structure (8) regularly move in the water supply tank (1):
the method comprises the steps that firstly, a rectangular track movement is carried out at a position, close to the top wall, in a water supply tank (1) in a sludge collecting and treating structure (7) and a sludge cleaning and moving structure (8), so that the inner top wall of the water supply tank (1) can be cleaned after the rectangular track movement of the sludge collecting and treating structure (7) and the sludge cleaning and moving structure (8) is completed;
then, the heights of the sludge collecting and treating structure (7) and the sludge cleaning and moving structure (8) are changed through the electric telescopic rod (82), so that the heights of the sludge collecting and treating structure (7) are reduced, and the sludge collecting and treating structure (7) and the sludge cleaning and moving structure (8) are moved in a rectangular track again at the moment, so that the cleaning area in the water supply tank (1) is increased;
and then the step is repeated, so that the cleaning of the inner wall of the water supply tank (1) is completed, and impurities and sludge on the inner wall of the water supply tank (1) fall onto the second sludge drainage plate (16), the first sludge drainage plate (14), the sludge flow inclined plate (13) and the sludge output inclined plate (15).
6. The medium and small sized high-efficiency water supply treatment method according to claim 5, characterized in that: after the cleaning of the inner wall of the water supply tank (1) is completed, the inner bottom wall of the water supply tank (1) is cleaned;
the first sludge drainage plate (14) and the second sludge drainage plate (16) are obliquely arranged, so that impurities and sludge on the first sludge drainage plate (14) and the second sludge drainage plate (16) are easy to fall onto the sludge flow inclined plate (13), an oblique arrangement is formed between the longitudinal second cleaning spray nozzle (753) and the sludge treatment collecting barrel (74), and the longitudinal first cleaning spray nozzle (752) and the sludge treatment collecting barrel (74) are vertically arranged, so that the first sludge drainage plate (14), the second sludge drainage plate (16) and the sludge flow inclined plate (13) can be matched and cleaned through the longitudinal first cleaning spray nozzle (752) and the longitudinal second cleaning spray nozzle (753);
finally, impurities and sludge positioned on the first sludge drainage plate (14), the second sludge drainage plate (16) and the sludge flow inclined plate (13) can be washed and flow into the sludge output inclined plate (15), and flow out of the water supply tank (1) through the sludge output inclined plate (15).
7. The medium and small sized high-efficiency water supply treatment method according to claim 6, characterized in that: the water supply tank (1) is provided with a sludge treatment opening, the sludge treatment opening penetrates through the side wall of the water supply tank (1), and the sludge treatment opening is positioned at the bottom position of the sludge output inclined plate (15).
8. The medium-and-small-sized efficient water supply treatment method according to claim 1, characterized by comprising the following steps: the device also comprises a sludge cleaning pipe (75), wherein the sludge cleaning pipe (75) is communicated with the sealing connecting piece (754), when the cleaning water pump (76) runs, a water source in the cleaning connecting hose (77) can flow into the sealing connecting piece (754) and the sludge cleaning pipe (75) after being pressurized by the cleaning water pump (76), and finally is output from the sludge high-pressure cleaning spray head (751), the longitudinal first cleaning spray head (752) and the longitudinal second cleaning spray head (753).
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