A purifier for tap water production
By introducing bubble coagulation and stirring structures into the water purification device for tap water production, the problem of insufficient coagulant addition has been solved, achieving more efficient removal of suspended solids and sediments and improving the quality of tap water purification.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JIYANG WATER DEV CO LTD
- Filing Date
- 2025-05-28
- Publication Date
- 2026-06-23
AI Technical Summary
In existing tap water purification devices, insufficient coagulant addition or inadequate time during the coagulation process results in tiny suspended particles failing to aggregate sufficiently, thus affecting subsequent filtration performance.
A purification device for tap water production was designed, comprising a coagulation cylinder, a motor, an agitator, an air pump, and an air outlet. The device uses air bubbles to form a uniformly distributed coagulant. Combined with the design of agitation and spiral blades, the coagulation effect is improved. Suspended solids and sediments are removed through a purification tank and baffle structure.
It improves the uniform distribution and mixing efficiency of coagulants, enhances the purification effect of tap water, and reduces the problem of insufficient purification caused by poor coagulation.
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Figure CN224394665U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of tap water purification technology, specifically to a purification device for tap water production. Background Technology
[0002] Water purification is a process of transforming natural water sources into safe and clean drinking water through a series of technological steps. Water purification involves multiple steps, such as water intake, stirring and coagulation, filtration, and disinfection.
[0003] Stirring and coagulation are important steps in the water purification process. Their purpose is to cause tiny suspended particles in the water to aggregate into larger clumps, providing a more effective prerequisite for subsequent filtration and disinfection, and thus improving the safety and hygiene of the purified water.
[0004] In the actual coagulation process of the above-mentioned tap water purification, it was found that the water flow of tap water purification is continuous and uninterrupted. If the amount of coagulant added is insufficient or the coagulation time is insufficient, the tiny suspended particles may not be able to fully aggregate into large clumps, affecting the subsequent filtration effect.
[0005] In summary, there is a current need for a water purification device for tap water production that facilitates thorough mixing of coagulants. Utility Model Content
[0006] In view of the shortcomings of the prior art, this utility model provides a purification device for tap water production, which solves the problems mentioned in the background art.
[0007] To achieve the above objectives, this utility model provides the following technical solution:
[0008] A purification device for tap water production includes an installation box. The top of the installation box is equipped with a purification mechanism. Inside the purification mechanism are a collection mechanism 1 and a collection mechanism 2 for auxiliary collection of impurities. Inside the installation box is a coagulation mechanism for coagulating tap water. At the end of the coagulation mechanism is an auxiliary mixing mechanism for auxiliary coagulation.
[0009] The coagulation mechanism includes a coagulation cylinder, a second motor, a coagulation rod, a stirring rod, and a water guide pipe. The coagulation cylinder is located inside the installation box. The second motor is located at the end of the coagulation cylinder, and the output end of the second motor is equipped with a coagulation rod. A stirring rod is located on the outside of the coagulation rod, and multiple sets of stirring rods are arranged in a ring. The end of the coagulation cylinder is equipped with a water guide pipe that communicates with the purification mechanism. The auxiliary mixing mechanism includes an air pump, an air collection box, and an air outlet. The air pump is located inside the installation box, and the air outlet end of the air pump is equipped with an air collection box. The air collection box is located at the bottom inside the coagulation cylinder, and the top surface of the air collection box is equipped with an air outlet. Multiple air outlets are evenly distributed on the top surface of the air collection box.
[0010] Furthermore, the installation box is equipped with a partition, an air inlet is opened at the end of the installation box, a mixing cylinder is provided on the top side of the partition, and a water inlet pipe and a feed pipe are provided at one end of the mixing cylinder, with the feed pipe connected to the coagulation cylinder.
[0011] Furthermore, the collection mechanism is equipped with mixing rods inside, and multiple sets of mixing rods are distributed at intervals in both directions.
[0012] Furthermore, the purification mechanism includes a purification box, a water outlet pipe, a baffle plate one, and a baffle plate two. The purification box is located on the top of the installation box. A water outlet pipe is located in the middle of one end of the purification box. A baffle plate one is located on the upper inner side of the purification box, and a baffle plate two is located on the lower inner side of the purification box. Both baffle plate one and baffle plate two are inclined. Multiple baffles are staggered in the middle of the purification box.
[0013] Furthermore, the purification box is provided with a waste discharge pipe at the end opposite to the water outlet pipe. The waste discharge pipes are distributed at the top and bottom of the purification box, and a sewage discharge pipe is provided at the end of the waste discharge pipe. The sewage discharge pipe is connected to the waste discharge pipe.
[0014] Furthermore, the first collection mechanism and the second collection mechanism have the same structure and are arranged opposite to each other.
[0015] Furthermore, the collection mechanism includes a collection hopper, a motor, and a spiral blade. The collection hopper is located inside the purification chamber, and a collection surface is formed in the middle of the collection hopper. The motor is located outside the purification chamber, and a spiral blade is provided at the output end of the motor. The spiral blade is located inside the purification chamber.
[0016] This utility model provides a purification device for tap water production. Compared with the prior art, it has the following advantages:
[0017] Multiple air outlets allow air to be introduced into the coagulation cylinder from multiple locations, forming bubbles. These bubbles help to evenly distribute the coagulant and bring it into contact with particles in the water, thereby improving the coagulation effect of the purification device on tap water and reducing the chances of poor coagulation affecting the purification effect. Attached Figure Description
[0018] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0019] Figure 1 This invention provides a schematic diagram of the structure of a water purification device for tap water production.
[0020] Figure 2 This diagram shows a side view of the overall structure of the present invention.
[0021] Figure 3 A schematic diagram of the coagulation mechanism of this utility model is shown;
[0022] Figure 4 A side view of the overall cross-sectional structure of this utility model is shown;
[0023] Figure 5 A schematic diagram of the internal structure of the purification box of this utility model is shown;
[0024] The diagram shows: 1. Mounting box; 11. Partition plate; 12. Air inlet; 13. Mixing cylinder; 14. Water inlet pipe; 15. Feed pipe; 16. Mixing rod; 17. Liquid guide pipe; 2. Purification mechanism; 21. Purification box; 22. Water outlet pipe; 23. Baffle plate one; 24. Baffle plate two; 25. Baffle plate; 26. Waste discharge pipe; 27. Sewage discharge pipe; 3. Collection mechanism one; 31. Collection hopper; 32. Motor one; 33. Spiral blade; 4. Collection mechanism two; 5. Coagulation mechanism; 51. Coagulation cylinder; 52. Motor two; 53. Coagulation rod; 54. Stirring rod; 55. Water guide pipe; 6. Auxiliary mixing mechanism; 61. Air pump; 62. Air collection box; 63. Air outlet. Detailed Implementation
[0025] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions in the embodiments of this utility model are described clearly and completely. Obviously, the described embodiments are only some embodiments of this utility model, not all embodiments. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of this utility model.
[0026] To address the technical problems in the background section, the following purification device for tap water production is provided:
[0027] Combination Figures 1-5As shown, this utility model provides a purification device for tap water production, including an installation box 1. The top of the installation box 1 is equipped with a purification mechanism 2, which can settle floating objects and sediments in tap water to improve the subsequent tap water treatment effect. The purification mechanism 2 is equipped with a collection mechanism 3 and a collection mechanism 4 for auxiliary impurity collection. The installation box 1 is equipped with a coagulation mechanism 5 for coagulating tap water. The end of the coagulation mechanism 5 is equipped with an auxiliary mixing mechanism 6 for auxiliary coagulation. The coagulation mechanism 5 includes a coagulation cylinder 51, a second motor 52, a coagulation rod 53, a stirring rod 54, and a water guide pipe 55. The coagulation cylinder 51 is located inside the installation box 1. The end of the coagulation cylinder 51 is equipped with the second motor 52, which provides power for the rotation of the coagulation rod 53 and the stirring rod 54. The output end of the second motor 52 is equipped with the coagulation rod 53, and the outside of the coagulation rod 53 is equipped with the stirring rod 54. Multiple sets of stirring rods 54 are arranged in a ring. The 4 setting allows for continuous agitation and mixing of tap water and coagulant during the mixing process. The end of the coagulation cylinder 51 is equipped with a water guide pipe 55 connected to the purification mechanism 2. The auxiliary mixing mechanism 6 includes an air pump 61, an air collection box 62, and an air outlet 63. The air pump 61 is located inside the installation box 1. The air pump 61 can compress air and send it into the air collection box 62. The air collection box 62 is located at the air outlet end of the air pump 61. The air collection box 62 is located at the bottom of the inner side of the coagulation cylinder 51. The top surface of the air collection box 62 is equipped with an air outlet 63. Multiple air outlets 63 are evenly distributed on the top surface of the air collection box 62. Multiple air outlets 63 can send air into the coagulation cylinder 51 from multiple parts to form bubbles. The bubbles entering the coagulation cylinder 51 can make the coagulant evenly distributed and contact the particles in the water, thereby improving the coagulation effect of the purification device when purifying tap water and reducing the situation where the purification effect is affected by poor coagulation effect of tap water.
[0028] In this embodiment, the installation box 1 is provided with a partition 11 inside, and an air inlet 12 is opened at the end of the installation box 1. A mixing cylinder 13 is provided on the top side of the partition 11. One end of the mixing cylinder 13 is provided with a water inlet pipe 14 and a feed pipe 15. The feed pipe 15 is connected to the coagulation cylinder 51 through a liquid guide pipe 17. The water inlet pipe 14 and the feed pipe 15 can simultaneously send tap water and coagulant into the mixing cylinder 13 for premixing, so as to improve the effect of tap water coagulation treatment.
[0029] As an improvement to the above solution, the collection mechanism 13 is equipped with mixing rods 16. Multiple sets of mixing rods 16 are distributed at intervals in both directions. Multiple mixing rods 16 can disperse the coagulant and tap water after they enter the mixing cylinder 13, thereby further improving the mixing efficiency.
[0030] like Figures 1-2 As shown, based on the above implementation plan, this implementation plan further provides the following:
[0031] To ensure that the mixture of tap water and coagulant can remove most of the sediment and suspended solids, enabling it to be portable, this implementation plan presents the following design:
[0032] The purification mechanism 2 includes a purification box 21, a water outlet pipe 22, a first baffle 23, and a second baffle 24. The purification box 21 is located on the top of the installation box 1. The water outlet pipe 22 is located in the middle of one end of the purification box 21. The first baffle 23 is located on the upper inner side of the purification box 21, and the second baffle 24 is located on the lower inner side of the purification box 21. The first baffle 23 and the second baffle 24 are both inclined. The inclined baffle 23 and the second baffle 24 can block the tap water and reduce the discharge of sediment or suspended solids from the water outlet pipe 22. Multiple baffles 25 are staggered in the middle of the purification box 21. When the coagulated tap water enters the purification box 21, the multiple baffles 25 can block the flowing tap water, causing the tap water to disperse and precipitate coagulated sediment and suspended solids in the tap water.
[0033] As an improvement to the above solution, the purification box 21 is provided with a waste discharge pipe 26 at the end opposite to the water outlet pipe 22. The waste discharge pipe 26 is distributed at the top and bottom of the purification box 21. The end of the waste discharge pipe 26 is provided with a sewage discharge pipe 27. The sewage discharge pipe 27 can be connected to the water pumping device to extract the suspended matter and sediment inside the purification box 21, and can also extract the air accumulated inside the purification box 21. The sewage discharge pipe 27 is connected to the waste discharge pipe 26.
[0034] In this embodiment, the first collection mechanism 3 and the second collection mechanism 4 have the same structure and are arranged opposite to each other. The first collection mechanism 3 and the second collection mechanism 4 can push the sediment and suspended matter so that the sediment and suspended matter can be discharged from the device through the discharge pipe 26, which is beneficial to the long-term operation of the water purification device. The first collection mechanism 3 includes a collection hopper 31, a motor 32 and a spiral blade 33. The collection hopper 31 is located inside the purification tank 21 and a collection surface is formed in the middle of the collection hopper 31. The motor 32 is located outside the purification tank 21 and can provide power for the rotation of the spiral blade 33. The output end of the motor 32 is provided with the spiral blade 33, which is located inside the purification tank 21. The spiral blade 33 can push the sediment or suspended matter towards the discharge pipe 26.
[0035] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus. Without further limitations, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or apparatus that includes said element.
[0036] The above embodiments are only used to illustrate the technical solutions of this utility model, and are not intended to limit it. Although this utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some of the technical features. Such modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the spirit and scope of the technical solutions of the embodiments of this utility model.
Claims
1. A purifying device for tap water production, characterized by: The installation box (1) includes a purification mechanism (2) on the top of the installation box (1), a collection mechanism (3) and a collection mechanism (4) for collecting impurities inside the purification mechanism (2), a coagulation mechanism (5) for coagulating tap water inside the installation box (1), and an auxiliary mixing mechanism (6) for coagulating at the end of the coagulation mechanism (5). The coagulation mechanism (5) includes a coagulation cylinder (51), a second motor (52), a coagulation rod (53), a stirring rod (54), and a water guide pipe (55). The coagulation cylinder (51) is located inside the mounting box (1). The second motor (52) is located at the end of the coagulation cylinder (51). The output end of the second motor (52) is equipped with a coagulation rod (53). The outside of the coagulation rod (53) is equipped with a stirring rod (54). Multiple sets of stirring rods (54) are arranged in a ring. The end of the coagulation cylinder (51) is equipped with a water guide pipe (55). The purification mechanism (2) is connected to the water pipe (55). The auxiliary mixing mechanism (6) includes an air pump (61), an air collection box (62), and an air outlet (63). The air pump (61) is located inside the installation box (1). The air outlet of the air pump (61) is provided with an air collection box (62). The air collection box (62) is located at the bottom inside the concrete cylinder (51). The top surface of the air collection box (62) is provided with an air outlet (63). Multiple air outlets (63) are evenly distributed on the top surface of the air collection box (62).
2. The purification device for tap water production according to claim 1, characterized in that: The installation box (1) is equipped with a partition (11) inside, and an air inlet (12) is opened at the end of the installation box (1). A mixing cylinder (13) is provided on the top side of the partition (11). A water inlet pipe (14) and a feed pipe (15) are provided at one end of the mixing cylinder (13). The feed pipe (15) is connected to the coagulation cylinder (51).
3. The purification device for tap water production according to claim 2, characterized in that: The collection mechanism (3) is equipped with a mixing rod (16) inside, and there are multiple sets of mixing rods (16) arranged at intervals in the longitudinal and transverse directions.
4. The purifier for tap water production according to claim 1, characterized in that: The purification mechanism (2) includes a purification box (21), a water outlet pipe (22), a baffle one (23) and a baffle two (24). The purification box (21) is located on the top of the installation box (1). A water outlet pipe (22) is provided in the middle of one end of the purification box (21). A baffle one (23) is provided on the upper inner side of the purification box (21), and a baffle two (24) is provided on the lower inner side of the purification box (21). Both the baffle one (23) and the baffle two (24) are inclined. Multiple baffles (25) are staggered in the middle of the purification box (21).
5. The purifier for tap water production according to claim 4, characterized in that: The purification box (21) is provided with a drain pipe (26) at one end away from the water outlet pipe (22). The drain pipe (26) is distributed at the top and bottom of the purification box (21). The drain pipe (27) is provided at the end of the drain pipe (26). The drain pipe (27) is connected to the drain pipe (26).
6. The purifier for tap water production according to claim 1, characterized in that: The first collection mechanism (3) and the second collection mechanism (4) have the same structure and are arranged opposite to each other.
7. The purifier for tap water production according to claim 6, characterized in that: The collecting mechanism one (3) comprises a collecting hopper (31), a motor one (32) and a spiral blade (33), the collecting hopper (31) is arranged in the inner side of the purification box (21), a collecting surface is formed in the middle of the collecting hopper (31), the motor one (32) is arranged on the outer side of the purification box (21), the output end of the motor one (32) is provided with the spiral blade (33), and the spiral blade (33) is located in the interior of the purification box (21).