A tap water production filtering device

By introducing a cleaning scraper and a tapping slide bar system into the tap water production filtration device, the problems of low filtration efficiency and impurity clogging during the cleaning process are solved, achieving continuous filtration and efficient cleaning of tap water.

CN224462327UActive Publication Date: 2026-07-07TIANJIN YONGQUAN WATER CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
TIANJIN YONGQUAN WATER CO LTD
Filing Date
2025-07-31
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Existing tap water production filtration devices require pausing filtration during cleaning, which affects filtration efficiency, and impurities can easily clog the cleaning ring tank, leading to water resource loss.

Method used

A tap water production filtration device was designed, comprising a filter cylinder, a cleaning scraper, a striking slide bar, and a vibration motor. The cleaning scraper is driven to move laterally by the cleaning drive motor, which, together with the striking slide bar and eccentric wheel, enables continuous removal of impurities. This avoids the filter cylinder from connecting with the waste collection hood during the cleaning process, ensuring continuous filtration.

Benefits of technology

It enables continuous filtration during the cleaning process, avoids water loss, improves filtration efficiency, effectively prevents impurities from clogging, and enhances the cleaning effect.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224462327U_ABST
    Figure CN224462327U_ABST
Patent Text Reader

Abstract

A tap water production filter device, including filter cylinder, upper sealing cover, knocking plate, vibration motor, eccentric wheel, the bottom of the filter cylinder has a lower water outlet pipe, the top of the filter cylinder is connected with the upper sealing cover, the top of the upper sealing cover has an upper water inlet pipe, the inside of the filter cylinder has a filter plate connecting groove, the filter plate connecting groove is adapted to the filter plate, the filter plate connecting groove is connected with the filter plate, the filter plate is inserted into the inside of the filter plate connecting groove, both sides of the filter cylinder have side cleaning tables, both sides of the side cleaning tables are located on the upper part of the filter plate connecting groove, the side cleaning tables are adapted to the cleaning scrapers, the side cleaning tables are connected with the cleaning scrapers, the cleaning scrapers slide in the inside of the side cleaning tables, the cleaning scrapers slide on the surface of the filter plate, the bottom of the side cleaning table has a waste discharge groove, both sides of the cleaning scraper have cleaning ring grooves, one side of the cleaning ring grooves corresponds to the position of the waste discharge groove.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of tap water production, and in particular to a tap water production filtration device. Background Technology

[0002] An existing patent (publication number: CN222468266U) proposes a tap water production filtration device, including a filtration tank. The filtration tank is equipped with an anti-clogging mechanism for the filter screen. The outer wall of the filtration tank is fixedly connected to a first housing, and the outer wall of the slide rod is fixedly connected to a second top plate. However, in this device, "the pusher plate moves impurities closer to the drain pipe, so that the impurities can be discharged from the filtration tank through the drain pipe." After the drain pipe is opened, it is connected to the filtration tank, which requires filtration to be paused during the sewage discharge process, thus affecting the overall filtration efficiency of the device. Summary of the Invention

[0003] This invention addresses the aforementioned shortcomings of existing technologies by providing a tap water production filtration device that ensures the filter cylinder and waste collection hood remain completely separate during the cleaning process, preventing significant water loss and allowing continuous filtration during cleaning, thereby increasing the device's filtration efficiency.

[0004] The objective of this utility model is achieved through the following technical solution:

[0005] A tap water production filtration device includes a filter cylinder, an upper sealing cover, a striking plate, a vibration motor, and an eccentric wheel. The filter cylinder has a lower water outlet pipe at its bottom and the upper sealing cover is connected to the top of the filter cylinder. The upper sealing cover has an upper water inlet pipe at its top. The filter cylinder has a filter plate connecting groove inside, which is adapted to and connected to a filter plate. The filter plate is inserted into the filter plate connecting groove. The filter cylinder has side cleaning platforms on both sides, which are located above the filter plate connecting groove. The side cleaning platforms are adapted to and connected to cleaning scrapers. The cleaning scrapers slide inside the side cleaning platforms and slide on the surface of the filter plates. The bottom of the side cleaning platforms has a waste discharge groove, and the cleaning scrapers have cleaning ring grooves on both sides.

[0006] The cleaning ring groove on one side corresponds to the waste discharge groove, and the cleaning ring groove on the other side corresponds to the filter plate. The bottom of the side cleaning platform is connected to the waste collection cover, and the top of the side cleaning platform has a striking connecting platform. A striking plate is set on the top of the side cleaning platform, and a striking slide rod is set at the bottom of the striking plate. The striking slide rod is adapted to the striking connecting platform and is connected to the striking connecting platform. The striking slide rod slides inside the striking connecting platform. The striking connecting platform and the striking plate are connected by a spring. The bottom of the striking slide rod on the side corresponding to the cleaning scraper is pressed against the upper part of the cleaning scraper.

[0007] The bottom of the other side striking slide bar is pressed tightly inside the side cleaning platform. The middle of the striking plate has a vibration motor mounting platform. The top of the vibration motor mounting platform is connected to the vibration motor. The transmission rod of the vibration motor is fixedly connected to the eccentric wheel. A gear mounting platform is set on the side of the filter cylinder that is perpendicular to the side cleaning platform. The top of the gear mounting platform has a cleaning motor platform. The cleaning drive motor is inserted into the cleaning motor platform.

[0008] Beneficial effects: 1. During the tap water production filtration process of this utility model, when impurities accumulate on the surface of the filter plate, the cleaning drive motor can drive the cleaning scraper to move laterally through the cleaning drive gear, so that the cleaning ring groove can scrape and clean the impurities on the surface of the filter plate. During the overall cleaning process, the inside of the filter cylinder and the inside of the waste collection hood are never connected, avoiding a large loss of tap water. Thus, this device can maintain continuous filtration during the cleaning process, increasing the filtration efficiency of this device.

[0009] 2. In this utility model, after the cleaning ring groove containing impurities aligns with the waste discharge groove, the vibration motor drives the eccentric wheel to rotate, causing the striking slide bar to continuously strike the cleaning scraper. This allows the impurities inside the cleaning ring groove to fall smoothly into the waste collection hood, preventing a large amount of impurities from accumulating inside the cleaning ring groove and causing blockage, thus ensuring the cleaning effect.

[0010] 3. The four sets of striking connecting platforms of this utility model are evenly arranged around the waste discharge groove, so that the impact on the cleaning scraper is more uniform during the process of striking the sliding rod striking the cleaning scraper. This allows impurities to be effectively shaken off at all points inside the cleaning ring groove, further increasing the cleaning effect of this device.

[0011] 4. The cleaning scraper has chamfers on both sides and the bottom of the striking slide bar, so that when the cleaning scraper moves to the striking slide bar, the striking slide bar can be lifted smoothly, avoiding the cleaning scraper from getting stuck due to obstruction of the striking slide bar during its forward movement. Attached Figure Description

[0012] Figure 1 This is a schematic diagram of the structure of a tap water production filtration device according to the present invention.

[0013] Figure 2 This is a structural diagram of the internal structure of a tap water production filtration device according to the present invention.

[0014] Figure 3 This is a top cross-sectional view of a tap water production filtration device according to the present invention.

[0015] Figure 4 This is a front cross-sectional view of a tap water production filtration device according to the present invention.

[0016] Figure 5 This is a schematic diagram of the filter cartridge structure described in this utility model. Detailed Implementation

[0017] The present invention will be further described in detail below with reference to the accompanying drawings and embodiments:

[0018] Example 1:

[0019] A tap water production filtration device includes a filter cylinder 1, an upper sealing cover 3, a striking plate 5, a vibration motor 6, and an eccentric wheel 7. The filter cylinder 1 has a lower outlet pipe 14 at its bottom and the upper sealing cover 3 connected to its top. The upper sealing cover 3 has an upper inlet pipe 22 at its top. The filter cylinder 1 has a filter plate connecting groove 19 inside, which is adapted to a filter plate 16. The filter plate 16 is inserted into the filter plate connecting groove 19. The filter cylinder 1 has side cleaning platforms 2 on both sides, both located above the filter plate connecting groove 19. The side cleaning platforms 2 are adapted to cleaning scrapers 15, which are connected to the side cleaning platforms 2. The cleaning scrapers 15 slide within the side cleaning platforms 2, cleaning the water. Both sides of the plate 15 and the bottom of the striking slide bar 20 are chamfered, so that when the cleaning scraper 15 moves to the striking slide bar 20, the striking slide bar 20 can be smoothly lifted, avoiding the cleaning scraper 15 from being blocked by the striking slide bar 20 during its forward movement and getting stuck. The cleaning scraper 15 slides on the surface of the filter plate 16. The bottom of the side cleaning platform 2 has a waste discharge groove 21, and the cleaning scraper 15 has cleaning ring grooves 18 on both sides. After the cleaning ring groove 18 with impurities is aligned with the waste discharge groove 21, the vibration motor 6 drives the eccentric wheel 7 to rotate, so that the striking slide bar 20 continuously strikes the cleaning scraper 15, so that the impurities inside the cleaning ring groove 18 can fall smoothly into the waste collection cover 9, avoiding the accumulation of a large amount of impurities inside the cleaning ring groove 18 and causing blockage, thus ensuring the cleaning effect.

[0020] Example 2:

[0021] The present invention describes a cleaning annular groove 18 on one side that corresponds to the waste discharge groove 21, and a cleaning annular groove 18 on the other side that corresponds to the filter plate 16. During the tap water production filtration process, when impurities accumulate on the surface of the filter plate 16, the cleaning drive motor 12 can drive the cleaning scraper 15 to move laterally via the cleaning drive gear 13, thereby causing the cleaning annular groove 18 to scrape and clean the impurities on the surface of the filter plate 16. Throughout the cleaning process, the inside of the filter cylinder 1 and the inside of the waste collection hood 9 are never connected, preventing a large loss of tap water. This allows the device to maintain continuous filtration during the cleaning process, increasing the filtration efficiency of the device. The bottom of the side cleaning platform 2 is connected to the waste collection hood 9, and the top of the side cleaning platform 2 has a striking mechanism. The four sets of connecting platforms 4 are evenly arranged around the waste discharge trough 21, so that the impact on the cleaning scraper 15 is more uniform during the process of the striking slide bar 20 striking the cleaning scraper 15. This allows impurities to be effectively shaken off at all points inside the cleaning ring groove 18, further increasing the cleaning effect of the device. The top of the side cleaning platform 2 is provided with a striking plate 5, and the bottom of the striking plate 5 has a striking slide bar 20. The striking slide bar 20 is adapted to the striking connecting platform 4 and is connected to the striking connecting platform 4. The striking slide bar 20 slides inside the striking connecting platform 4. The striking connecting platform 4 and the striking plate 5 are connected by a spring. The bottom of the striking slide bar 20 on the side corresponding to the cleaning scraper 15 is pressed against the upper part of the cleaning scraper 15.

[0022] Example 3:

[0023] The bottom of the other side striking slide bar 20 of this utility model is pressed tightly inside the side cleaning table 2. The middle of the striking plate 5 has a vibration motor mounting platform 8. The top of the vibration motor mounting platform 8 is connected to the vibration motor 6. The transmission rod of the vibration motor 6 is fixedly connected to the eccentric wheel 7. A gear mounting platform 10 is provided on the side of the filter cylinder 1 that is perpendicular to the side cleaning table 2. The top of the gear mounting platform 10 has a cleaning motor platform 11. The cleaning drive motor 12 is inserted into the cleaning motor platform 11.

[0024] Example 4:

[0025] The gear mounting platform 10 of this utility model is provided with a cleaning drive gear 13 inside. The transmission rod of the cleaning drive motor 12 is fixedly connected to the cleaning drive gear 13. The cleaning scraper 15 has a driven rack 17 on the side facing the cleaning drive gear 13, and the driven rack 17 meshes with the cleaning drive gear 13.

[0026] Example 5:

[0027] Installation steps of this utility model: Connect the sealing cover 3 to the top of the filter cylinder 1; fix the bottom of the side cleaning platform 2 of the filter cylinder 1 to the waste collection cover 9; insert the cleaning scraper 15 into the side cleaning platform 2; insert the filter plate 16 into the filter plate connecting groove 19 of the filter cylinder 1; insert the striking slide rod 20 of the striking plate 5 into the striking connecting platform 4 of the filter cylinder 1; connect the striking connecting platform 4 and the striking plate 5 with a spring, so that one side of the striking slide rod 20 is pressed against the upper part of the cleaning scraper 15, and the other side of the striking slide rod 20 is pressed against... Inside the side cleaning platform 2, the top of the vibration motor mounting platform 8 of the striking plate 5 is fixedly connected to the vibration motor 6. The drive shaft of the vibration motor 6 is fixedly connected to the eccentric wheel 7. The cleaning drive motor 12 is inserted into the cleaning motor platform 11 of the filter cartridge 1. The cleaning drive gear 13 is placed inside the gear mounting platform 10 of the filter cartridge 1. The drive shaft of the cleaning drive motor 12 is fixedly connected to the cleaning drive gear 13, so that the driven rack 17 of the cleaning scraper 15 meshes with the cleaning drive gear 13. The installation of this device is complete.

[0028] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the technical principles of the present utility model, and these improvements and modifications should also be considered within the protection scope of the present utility model.

Claims

1. A tap water production filtration device, characterized in that: The filter cylinder (1) includes an upper sealing cover (3), a striking plate (5), a vibration motor (6), and an eccentric wheel (7). The bottom of the filter cylinder (1) has a lower water outlet pipe (14), and the top of the filter cylinder (1) is connected to the upper sealing cover (3). The top of the upper sealing cover (3) has an upper water inlet pipe (22). The filter cylinder (1) has a filter plate connecting groove (19) inside. The filter plate connecting groove (19) is adapted to the filter plate (16). The filter plate connecting groove (19) connects to the filter plate (16), and the filter plate (16) is inserted into the filter plate. Inside the connecting groove (19), there are side cleaning platforms (2) on both sides of the filter cylinder (1). Both side cleaning platforms (2) are located on the upper part of the filter plate connecting groove (19). The side cleaning platforms (2) are adapted to the cleaning scraper (15). The side cleaning platforms (2) are connected to the cleaning scraper (15). The cleaning scraper (15) slides inside the side cleaning platform (2) and slides on the surface of the filter plate (16). The bottom of the side cleaning platform (2) has a waste discharge groove (21). There are cleaning ring grooves (18) on both sides of the cleaning scraper (15).

2. The tap water production filtration device according to claim 1, characterized in that: The cleaning ring groove (18) on one side corresponds to the waste discharge groove (21), and the cleaning ring groove (18) on the other side corresponds to the filter plate (16). The bottom of the side cleaning platform (2) is connected to the waste collection cover (9). The top of the side cleaning platform (2) has a striking connecting platform (4). The top of the side cleaning platform (2) is provided with a striking plate (5). The bottom of the striking plate (5) has a striking slide rod (20). The striking slide rod (20) is adapted to the striking connecting platform (4). The striking slide rod (20) is connected to the striking connecting platform (4). The striking slide rod (20) slides inside the striking connecting platform (4). The striking connecting platform (4) and the striking plate (5) are connected by a spring. The bottom of the striking slide rod (20) on the side corresponding to the cleaning scraper (15) is pressed against the upper part of the cleaning scraper (15).

3. A tap water production filtration device according to claim 2, characterized in that: The bottom of the other side of the tapping slide bar (20) is pressed into the side cleaning table (2). The middle of the tapping plate (5) has a vibration motor mounting platform (8). The top of the vibration motor mounting platform (8) is connected to the vibration motor (6). The transmission rod of the vibration motor (6) is fixedly connected to the eccentric wheel (7). The filter cylinder (1) is provided with a gear mounting platform (10) on the side perpendicular to the side cleaning table (2). The top of the gear mounting platform (10) has a cleaning motor platform (11). The cleaning drive motor (12) is inserted into the cleaning motor platform (11).

4. A tap water production filtration device according to claim 2, characterized in that: The gear mounting platform (10) is equipped with a cleaning drive gear (13). The cleaning drive motor (12) has a transmission rod that is fixedly connected to the cleaning drive gear (13). The cleaning scraper (15) has a driven rack (17) on the side facing the cleaning drive gear (13). The driven rack (17) meshes with the cleaning drive gear (13).