Integrated multi-medium tank water reuse multi-stage purification mechanism
By introducing a tapping mechanism into the integrated multi-media tank to provide vibration and convenient screen replacement, the problems of media clumping and difficult screen disassembly are solved, thereby improving the efficiency of greywater treatment and the convenience of equipment maintenance.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SUZHOU LIOU ENVIRONMENTAL PROTECTION ENG CO LTD
- Filing Date
- 2025-05-16
- Publication Date
- 2026-07-14
AI Technical Summary
The lack of a vibration mechanism in existing integrated multi-media tanks makes the media materials prone to clumping, and the screen is difficult to disassemble, affecting the efficiency of greywater treatment and the difficulty of equipment maintenance.
A striking mechanism was designed to provide vibration force, prevent media from clumping, and a processing component facilitates the replacement of the mesh.
It effectively prevents media from clumping, improves filtration efficiency, simplifies screen replacement, enhances backwashing efficiency, and reduces equipment maintenance difficulty.
Smart Images

Figure CN224485259U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of irrigation device technology, and in particular to an integrated multi-media tank water reuse multi-stage purification mechanism. Background Technology
[0002] The integrated multi-media tank reclaimed water reuse multi-stage purification mechanism is a high-efficiency water treatment equipment designed to improve the quality of reclaimed water through a multi-stage purification process and realize the reuse of water resources. It has the advantages of compact structure, simple operation and significant purification effect.
[0003] Currently, most commercially available integrated multi-media tanks lack a vibration mechanism in practical applications. This deficiency makes the multi-media materials prone to clumping, negatively impacting the efficiency and effectiveness of greywater treatment. Furthermore, the mesh screens used in the pretreatment stage are difficult to disassemble, undoubtedly increasing the difficulty of equipment maintenance and cleaning.
[0004] Therefore, we provide an integrated multi-media tank water reuse multi-stage purification mechanism. Utility Model Content
[0005] The purpose of this invention is to address the aforementioned technical problems by providing an integrated multi-media tank water recycling and multi-stage purification mechanism that can provide vibration force to prevent media materials from clumping, while also facilitating the replacement of screens.
[0006] In view of this, the present invention provides an integrated multi-media tank water reuse multi-stage purification mechanism, including a base, a processing mechanism on the base, a striking mechanism on the processing mechanism, a processing component, a support, the support being disposed on the base, a multi-media tank body being fixed to one end of the support, a first conduit being fixedly installed at the top end of the multi-media tank body, a processing pool being disposed at the top end of the first conduit, a frame being installed on the inner wall of the processing pool, through holes being provided on both sides of the frame, a first electric telescopic rod being disposed at the bottom end of the processing pool, a piston rod end of the first electric telescopic rod penetrating the processing pool and being provided with a connecting rod, a plug-in frame being fixedly installed at the top end of the connecting rod, the plug-in frame sliding on the surfaces of the processing pool and the frame, an installation frame being inserted into the inner wall of the plug-in frame, and a mesh being provided on the inner wall of the installation frame;
[0007] The striking mechanism includes a striking component, which includes a horizontal plate. The horizontal plate is fixedly installed on the side of the multi-medium tank body. A second electric telescopic rod is provided on the horizontal plate. The telescopic rod end of the second electric telescopic rod passes through the bottom end of the horizontal plate and is provided with a circular plate.
[0008] Preferably, the treatment pool is square in shape, with at least two through holes, at least two first electric telescopic rods, and the plug-in frame is square in shape, with at least two plug-in frames.
[0009] Preferably, the first conduit is provided with a valve, the side of the first conduit is provided with a first cleaning tube, one end of the first cleaning tube is connected to the first conduit, and the first cleaning tube is provided with a valve.
[0010] Preferably, a second conduit is fixedly installed at the bottom end of the multi-medium tank body, and a valve is provided on the second conduit.
[0011] Preferably, a second cleaning tube is fixed to the side of the second conduit, the second cleaning tube is connected to the second conduit, and a valve is provided on the second cleaning tube.
[0012] Preferably, the annular plate is provided with a mounting base, and a motor is fixedly mounted on the mounting base.
[0013] Preferably, the motor shaft end is provided with a turntable, and a drive block is fixed on the turntable.
[0014] Preferably, a vertical plate is fixedly installed at the bottom end of the circular plate, a square rod is slidably arranged on the vertical plate, a roller is provided at one end of the square rod, a striking plate is fixedly installed at the other end of the square rod, a spring is installed on the vertical plate, the spring is wound around the square rod, a limit frame is fixedly installed at one end of the spring, and the square rod is fixedly connected to the inner wall of the limit frame.
[0015] Compared with the prior art, this utility model provides an integrated multi-media tank water reuse multi-stage purification mechanism, which has the following beneficial effects:
[0016] 1. This utility model, by providing a processing component, facilitates the alternating replacement of the screen, thereby ensuring that the greywater can continuously undergo purification treatment;
[0017] 2. This utility model, by setting a tapping mechanism, can make the vibration generated by tapping promote a more uniform distribution of the filter medium, effectively prevent water flow short circuit, and thus significantly improve the filtration efficiency. In the backwashing process, this mechanism can enhance the flushing force of the water flow on the medium, help remove the impurities accumulated in the medium, and thus greatly improve the backwashing efficiency.
[0018] The parts of this device not covered herein are the same as or can be implemented using existing technologies. This utility model has a simple structure and is easy to operate. Attached Figure Description
[0019] Figure 1 This is a schematic diagram of the overall structure of an integrated multi-media tank water reuse multi-stage purification mechanism proposed in this utility model;
[0020] Figure 2 This is a front view of the overall structure of an integrated multi-media tank water reuse multi-stage purification mechanism proposed in this utility model;
[0021] Figure 3 This is a schematic diagram of the plug-in frame of an integrated multi-media tank water reuse multi-stage purification mechanism proposed in this utility model.
[0022] Figure 4 This is a schematic diagram of the installation frame of an integrated multi-media tank water reuse multi-stage purification mechanism proposed in this utility model;
[0023] Figure 5 This is an enlarged view of point A of an integrated multi-media tank water reuse multi-stage purification mechanism proposed in this utility model.
[0024] In the diagram: 1. Base; 2. Processing component; 21. Bracket; 22. Processing pool; 23. Multi-media tank body; 24. Mounting frame; 25. Through hole; 26. Frame; 27. Second cleaning pipe; 28. Second conduit; 29. First conduit; 210. First cleaning pipe; 211. First electric telescopic rod; 212. Connecting rod; 213. Plug-in frame; 214. Mesh; 3. Striking mechanism; 31. Circular plate; 32. Mounting seat; 33. Motor; 34. Horizontal plate; 35. Second electric telescopic rod; 36. Striking plate; 37. Limiting frame; 38. Spring; 39. Vertical plate; 310. Square rod; 311. Roller; 312. Turntable; 313. Drive block. Detailed Implementation
[0025] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments.
[0026] In the description of this utility model, it should be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.
[0027] Example 1: An integrated multi-media tank water reuse multi-stage purification mechanism, such as... Figures 1-5As shown, the system includes a base 1, a processing mechanism on the base 1, a striking mechanism on the processing mechanism, a processing component 2, a support 21 on the base 1, a multi-media tank body 23 fixed to one end of the support 21, a first conduit 29 fixedly installed at the top of the multi-media tank body 23, a processing pool 22 at the top of the first conduit 29, a frame 26 installed on the inner wall of the processing pool 22, through holes 25 on both sides of the frame 26, a first electric telescopic rod 211 at the bottom of the processing pool 22, a connecting rod 212 at the piston rod end of the first electric telescopic rod 211 penetrating the processing pool 22, and a plug-in frame 213 fixedly installed at the top of the connecting rod 212, the plug-in frame 213 sliding on the surfaces of the processing pool 22 and the frame 26, and an installation frame 24 inserted into the inner wall of the plug-in frame 213, the inner wall of the installation frame 24 being provided with a mesh 214.
[0028] The striking mechanism includes a striking component 3, which includes a horizontal plate 34. The horizontal plate 34 is fixedly installed on the side of the multi-medium tank body 23. A second electric telescopic rod 35 is provided on the horizontal plate 34. The telescopic rod end of the second electric telescopic rod 35 passes through the bottom end of the horizontal plate 34 and is provided with a circular ring plate 31.
[0029] The treatment pool 22 is square in shape, with no fewer than two through holes 25, no fewer than two first electric telescopic rods 211, and the plug-in frame 213 is square in shape, with no fewer than two plug-in frames 213.
[0030] A valve is provided on the first conduit 29, and a first cleaning pipe 210 is provided on the side of the first conduit 29. One end of the first cleaning pipe 210 is connected to the first conduit 29, and a valve is provided on the first cleaning pipe 210.
[0031] A second conduit 28 is fixedly installed at the bottom of the multi-media tank body 23, and a valve is provided on the second conduit 28.
[0032] A second cleaning pipe 27 is fixed to the side of the second conduit 28. The second cleaning pipe 27 is connected to the second conduit 28 and is equipped with a valve.
[0033] In use, greywater is added into the frame 26. The greywater enters the mounting frame 24 through the through-hole 25 on the inner wall of the frame 26. A mesh screen 214 is installed on the inner wall of the mounting frame 24 to filter the greywater. The filtered greywater then enters the treatment tank 22 and then enters the multi-media tank body 23 through the first conduit 29 for multi-stage filtration. The purified greywater is discharged through the second conduit 28. When the mesh screen 214 on one side needs cleaning, it is activated by the first electric motor. The telescopic rod 211 drives the connecting rod 212 to move upward. When the connecting rod 212 moves upward, it will drive the plug-in frame 213 and the mounting frame 24 to move upward until the mounting frame 24 moves to a suitable height. At this time, the surface of the plug-in frame 213 will block the through hole 25 on one side to prevent the flow of greywater. Then, the mounting frame 24 can be pulled out from the plug-in frame 213 to clean the screen 214 on the inner wall of the mounting frame 24. Through the above settings, the screen 214 can be cleaned alternately to avoid interruption of greywater treatment.
[0034] Furthermore, by providing a first cleaning pipe 210 and a second cleaning pipe 27, the multi-media tank body 23 can be backwashed. The specific operation is as follows: first, close the valves at the first conduit 29 and the second conduit 28, then connect the second cleaning pipe 27 to the water pump, and connect the first cleaning pipe 210 to the wastewater collection pipe. Then, start the water pump, which will draw water into the multi-media tank body 23 and discharge it through the first cleaning pipe 210, thereby achieving the purpose of cleaning the multi-media tank body 23 and facilitating its subsequent use.
[0035] Example 2: An integrated multi-media tank water reuse multi-stage purification mechanism, such as... Figures 1-5 As shown, a mounting base 32 is provided on the annular plate 31, and a motor 33 is fixedly mounted on the mounting base 32.
[0036] The motor 33 has a turntable 312 at the end of its shaft, and a drive block 313 is fixed on the turntable 312.
[0037] A vertical plate 39 is fixedly installed at the bottom of the circular plate 31. A square rod 310 is slidably arranged on the vertical plate 39. A roller 311 is provided at one end of the square rod 310. A striking plate 36 is fixedly installed at the other end of the square rod 310. A spring 38 is installed on the vertical plate 39. The spring 38 is wound around the square rod 310. A limit frame 37 is fixedly installed at one end of the spring 38. The square rod 310 is fixedly connected to the inner wall of the limit frame 37.
[0038] In use, when the multi-media tank body 23 needs to provide vibration force, the motor 33 is started. The motor 33 drives the drive block 313 to move clockwise in a circular motion via the turntable 312. When the drive block 313 contacts the roller 311, it will cause the square rod 310 to slide linearly along the preset through hole between it and the vertical plate 39 until the drive block 313 leaves the roller 311. At this time, under the force of the spring 38, the square rod 310 will drive the striking plate 36 to strike the multi-media tank body 23. The striking position can be easily adjusted by the second electric telescopic rod 35. The mechanism facilitates the tapping of the multi-media tank body 23. With the above-mentioned setting, the filter media inside the multi-media tank body 23 may become compacted or hardened due to the accumulation of impurities after long-term use, which will greatly reduce the filtration efficiency. By applying vibration, the media can be loosened and its filtration capacity can be restored. At the same time, vibration can also promote a more uniform distribution of the filter media, effectively prevent water flow short-circuiting, and thus significantly improve the filtration effect. In the backwashing process, this mechanism can enhance the flushing force of the water flow on the media, help remove the impurities accumulated in the media, and thus greatly improve the backwashing efficiency.
[0039] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and the inventive concept of the present utility model, should be included within the protection scope of the present utility model.
Claims
1. An integrated multi-media tank water reuse multi-stage purification mechanism, comprising a base (1), characterized in that: The base (1) is provided with a processing mechanism, and the processing mechanism is provided with a striking mechanism; The processing mechanism includes a processing component (2), which includes a support (21). The support (21) is mounted on a base (1). One end of the support (21) is fixed to a multi-media tank body (23). A first conduit (29) is fixedly installed at the top of the multi-media tank body (23). A processing pool (22) is provided at the top of the first conduit (29). A frame (26) is installed on the inner wall of the processing pool (22). Through holes (25) are provided on both sides of the frame (26). The bottom end of the treatment pool (22) is provided with a first electric telescopic rod (211). The piston rod end of the first electric telescopic rod (211) passes through the treatment pool (22) and is provided with a connecting rod (212). The top end of the connecting rod (212) is fixedly installed with a plug frame (213). The plug frame (213) slides on the surface of the treatment pool (22) and the frame (26). The inner wall of the plug frame (213) is connected to an installation frame (24). The inner wall of the installation frame (24) is provided with a mesh (214). The striking mechanism includes a striking component (3), which includes a horizontal plate (34). The horizontal plate (34) is fixedly installed on the side of the multi-medium tank body (23). A second electric telescopic rod (35) is provided on the horizontal plate (34). The telescopic rod end of the second electric telescopic rod (35) passes through the bottom end of the horizontal plate (34) and is provided with a ring plate (31).
2. The integrated multi-media tank water reuse multi-stage purification mechanism according to claim 1, characterized in that, The treatment pool (22) is square in shape, and there are at least two through holes (25). There are at least two first electric telescopic rods (211). The plug-in frame (213) is square in shape and there are at least two plug-in frames (213).
3. The integrated multi-media tank water reuse multi-stage purification mechanism according to claim 1, characterized in that, The first conduit (29) is provided with a valve, and the side of the first conduit (29) is provided with a first cleaning tube (210). One end of the first cleaning tube (210) is connected to the first conduit (29), and the first cleaning tube (210) is provided with a valve.
4. The integrated multi-media tank water reuse multi-stage purification mechanism according to claim 1, characterized in that, The bottom end of the multi-media tank body (23) is fixedly installed with a second conduit (28), and a valve is provided on the second conduit (28).
5. The integrated multi-media tank water reuse multi-stage purification mechanism according to claim 4, characterized in that, A second cleaning tube (27) is fixed to the side of the second conduit (28), the second cleaning tube (27) is connected to the second conduit (28), and a valve is provided on the second cleaning tube (27).
6. The integrated multi-media tank water reuse multi-stage purification mechanism according to claim 1, characterized in that, A mounting base (32) is provided on the annular plate (31), and a motor (33) is fixedly mounted on the mounting base (32).
7. The integrated multi-media tank water reuse multi-stage purification mechanism according to claim 6, characterized in that, The motor (33) has a turntable (312) at the shaft end, and a drive block (313) is fixed on the turntable (312).
8. The integrated multi-media tank water reuse multi-stage purification mechanism according to claim 1, characterized in that, A vertical plate (39) is fixedly installed at the bottom end of the circular plate (31). A square rod (310) is slidably arranged on the vertical plate (39). A roller (311) is provided at one end of the square rod (310). A striking plate (36) is fixedly installed at the other end of the square rod (310). A spring (38) is installed on the vertical plate (39). The spring (38) is wound around the square rod (310). A limit frame (37) is fixedly installed at one end of the spring (38). The square rod (310) is fixedly connected to the inner wall of the limit frame (37).