Sewage treatment structure for improving urban ecological environment
By designing a wastewater treatment structure with active and stable components, the problem of decreased filtration efficiency caused by filter plate clogging was solved, enabling seamless replacement and cleaning of filter plates and improving the overall efficiency of wastewater treatment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENZHEN NEW LAND TOOL PLAN & ARCHITECTURAL DESIGN CO LTD
- Filing Date
- 2025-06-25
- Publication Date
- 2026-07-10
AI Technical Summary
The filter plates of existing sewage treatment equipment are prone to clogging, which leads to a decrease in filtration efficiency. Furthermore, replacing the filter plates requires interrupting the treatment process, making it impossible to achieve a seamless connection and affecting the purification efficiency.
A wastewater treatment structure including moving and stabilizing components was designed. Through the cooperation of the locking blocks and slots, seamless replacement and cleaning of the filter plates can be achieved, avoiding interruption of the filtration operation.
It enables rapid replacement and cleaning of filter plates, improves the efficiency of wastewater treatment, and avoids a periodic decline in the system's treatment capacity.
Smart Images

Figure CN224474751U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of sewage treatment structure technology, specifically a sewage treatment structure for improving the urban ecological environment. Background Technology
[0002] In urban wastewater treatment systems, filter plates are the core component of the filtration process, removing suspended solids and impurities from wastewater through physical interception. Existing wastewater treatment equipment typically uses a fixed filter plate structure, with the filter plates installed inside the filter chamber. After long-term operation, the filtration efficiency is prone to decline due to clogging by dirt, deformation of membrane pores, or adhesion of microorganisms, requiring periodic shutdown for replacement or cleaning.
[0003] Replacing filter plates requires interrupting the wastewater treatment process, resulting in a temporary decrease in the system's processing capacity. This is especially true in high-load municipal or industrial wastewater treatment scenarios, where downtime will significantly reduce overall purification efficiency. Existing equipment typically does not have spare filter plate slots or quick-switching modules, making it impossible to achieve seamless connection of filtration units. Utility Model Content
[0004] The purpose of this invention is to provide a wastewater treatment structure for improving the urban ecological environment, so as to solve the problems mentioned in the background art.
[0005] To achieve the above objectives, this utility model provides the following technical solution: a sewage treatment structure for improving the urban ecological environment, including a filter tank, a stabilizing frame snapped onto the top of the filter tank, a filter plate fixed to the bottom of the stabilizing frame, a movable plate slidably connected to the outer surface of the filter tank, an outlet pipe provided on the outer surface of the movable plate, the outlet pipe penetrating the movable plate and being fixedly connected to the movable plate, and movable components and stabilizing components provided on the surfaces of the filter tank and the movable plate;
[0006] The active components include:
[0007] The card slot is used to stabilize the moving board;
[0008] Baffles are used to prevent the moving plate from detaching from the filter tank.
[0009] The card block is used to stabilize and move the plate in conjunction with the card slot.
[0010] Preferably, the slot is formed on the outer surface of the filter tank, a baffle is fixed to the outer surface of the filter tank, a sliding groove is formed on the outer surface of the moving plate, a locking block is slidably connected to the inner wall of the sliding groove, a spring is fixed to the outer surface of the locking block, the end of the spring away from the locking block is fixed to the inner wall of the sliding groove, a connecting rod is fixed to the outer surface of the locking block, the end of the connecting rod away from the locking block passes through the moving plate, and the connecting rod is slidably connected to the moving plate. When the filter plate needs to be replaced or cleaned, the moving plate is pulled to move the liquid outlet pipe above the target filter plate. During the movement, the moving locking block retracts and compresses the spring when it contacts the inner wall of the slot; after aligning with the slot position, the spring releases, pushing the locking block to automatically engage and lock, ensuring that the moving plate is stably in place. When the moving plate touches the limit baffle, it is fixed, and the filter plate can be replaced directly at this time. The entire process does not require interruption of the filtration operation, improving efficiency.
[0011] Preferably, a rotating plate is rotatably connected to the outer surface of the movable plate. The outer surface of the rotating plate has a movable groove, and a short rod is slidably connected to the inner wall of the movable groove. A second spring is fixed to the outer surface of the short rod, with the end of the second spring away from the short rod fixed to the inner wall of the movable groove. A stabilizing groove is formed on the outer surface of the movable plate. Rotating the rotating plate causes it to press against the connecting rod and the locking block, thus fixing the movable plate and the liquid outlet pipe and preventing accidental displacement during operation. After the rotating plate is in position, the spring automatically pushes the short rod into the stabilizing groove, preventing accidental rotation of the rotating plate.
[0012] Preferably, a second pump body is provided on the outer surface of the filter tank, and a corrugated pipe is fixed at the output end of the second pump body. The top of the corrugated pipe is fixed to the bottom of the outlet pipe. A first pump body is installed on the outer surface of the filter tank. When the first and second pump bodies are started, the sewage can be filtered through the filter plate.
[0013] Preferably, the filter plate and the pump body are each provided in two sets for easy alternation.
[0014] Preferably, the end of the card block away from the spring has a triangular cross-section that abuts against the inner wall of the card slot, allowing the card block to move into the slide groove without affecting the normal movement of the moving plate.
[0015] Preferably, the end of the short rod away from the second spring is set in an arc shape, and the short rod abuts against the inner wall of the stabilizing groove, so that the short rod can move into the movable groove without affecting the normal rotation of the rotating plate.
[0016] Compared with the prior art, this utility model provides a sewage treatment structure for improving the urban ecological environment, which has the following beneficial effects:
[0017] 1. This wastewater treatment structure, designed to improve the urban ecological environment, utilizes movable components. When filter plates need replacement or cleaning, pulling the movable plate moves the effluent pipe above the target filter plate. The movable plate is stabilized by locking blocks and slots, preventing it from shifting on its own. Replacement and cleaning can be performed without stopping filtration and purification operations, thus improving efficiency.
[0018] 2. This sewage treatment structure, used to improve the urban ecological environment, uses a stabilizing component to fix the moving plate and the outlet pipe by rotating the rotating plate when the moving plate is moved to the appropriate position, thus preventing accidental displacement during operation. Attached Figure Description
[0019] Figure 1 This is a front view structural diagram of the present invention;
[0020] Figure 2 This is a side view of the structure of this utility model;
[0021] Figure 3 This is a cross-sectional front view of the active component of this utility model;
[0022] Figure 4 This is an exploded view of some of the moving and stabilizing components of this utility model;
[0023] Figure 5 This is a schematic diagram of the exploded structure of some of the stabilizing components of this utility model.
[0024] In the diagram: 1. Filter tank; 2. Stabilizer; 3. Filter plate; 4. Pump body one; 5. Pump body two; 6. Bellows; 7. Moving plate; 10. Discharge pipe; 11. Handrail; 8. Movable component; 80. Slot; 81. Baffle; 82. Slide groove; 83. Locking block; 84. Linkage rod; 85. Spring one; 9. Stabilizer; 90. Rotating plate; 91. Stabilizer; 92. Movable groove; 93. Short rod; 94. Spring two. Detailed Implementation
[0025] like Figures 1-5 As shown, this utility model provides a technical solution: a sewage treatment structure for improving the urban ecological environment, including a filter tank 1, a stabilizing frame 2 is snapped onto the top of the filter tank 1, a filter plate 3 is fixed to the bottom of the stabilizing frame 2, a movable plate 7 is slidably connected to the outer surface of the filter tank 1, an outlet pipe 10 is provided on the outer surface of the movable plate 7, the outlet pipe 10 passes through the movable plate 7 and is fixedly connected to the movable plate 7, and a movable component 8 and a stabilizing component 9 are provided on the surfaces of the filter tank 1 and the movable plate 7; the movable component 8 includes: a slot 80, a baffle 81, a sliding groove 82, a locking block 83, a connecting rod 84, and a spring 85.
[0026] A slot 80 is formed on the outer surface of the filter tank 1. A baffle 81 is fixed on the outer surface of the filter tank 1. A sliding groove 82 is formed on the outer surface of the movable plate 7. A locking block 83 is slidably connected to the inner wall of the sliding groove 82. A spring 85 is fixed on the outer surface of the locking block 83. The end of the spring 85 away from the locking block 83 is fixed to the inner wall of the sliding groove 82. A connecting rod 84 is fixed on the outer surface of the locking block 83. The end of the connecting rod 84 away from the locking block 83 passes through the movable plate 7 and is slidably connected to the movable plate 7. The cross-section of the end of the locking block 83 away from the spring 85 is triangular. When it is necessary to replace or clean the filter plate 3, the movable plate 7 is pulled to move the liquid outlet pipe 10 above a set of filter plates 3. During the movement, the locking block 83 moves synchronously with the moving plate 7. When the locking block 83 contacts the inner wall of the slot 80, it slides into the slide groove 82 and compresses the spring 85. When the locking block 83 is aligned with the slot 80, the spring 85 releases and pushes the locking block 83 into the slot 80, ensuring that the moving plate 7 moves stably without dislodging. When the moving plate 7 touches the baffle 81, it is fixed in position. At this time, the filter plate 3 can be replaced or cleaned. The entire process does not require interruption of the filtration and purification operation, effectively improving work efficiency.
[0027] A rotating plate 90 is rotatably connected to the outer surface of the movable plate 7. A movable groove 92 is formed on the outer surface of the rotating plate 90. A short rod 93 is slidably connected to the inner wall of the movable groove 92. A second spring 94 is fixed to the outer surface of the short rod 93. The end of the second spring 94 away from the short rod 93 is fixed to the inner wall of the movable groove 92. A stabilizing groove 91 is formed on the outer surface of the movable plate 7. The end of the short rod 93 away from the second spring 94 is set in an arc shape. When the rotating plate 90 is rotated, the position of the rotating plate 90 abuts against the surface of the connecting rod 84, which can limit the connecting rod 84 and the locking block 83. At this time, the movable plate 7 cannot continue to move, thus stabilizing the liquid outlet pipe 10. This can prevent accidental contact that could cause the movable plate 7 and the liquid outlet pipe 10 to move during purification work. When the rotating plate 90 rotates, the short rod 93 can enter the stabilizing groove 91 through the second spring 94, which can prevent the rotating plate 90 from rotating on its own.
[0028] Pump body 2 5 is installed on the outer surface of filter tank 1. A corrugated pipe 6 is fixed at the output end of pump body 2 5. The top of the corrugated pipe 6 is fixed at the bottom of the liquid outlet pipe 10. Pump body 1 4 is installed on the outer surface of filter tank 1. Two sets of filter plates 3 and pump body 1 4 are provided. When pump body 1 4 and pump body 2 5 are started, the sewage can be filtered through the filter plate 3.
[0029] When urban sewage needs purification, rotating plate 90 is activated. The arc-shaped surface of short rod 93 then contacts the inner wall of stabilizing groove 91, allowing short rod 93 to enter movable groove 92. Spring 94 is compressed. When short rod 93 is parallel to stabilizing groove 91, spring 94 is released, and short rod 93 enters stabilizing groove 91, stabilizing rotating plate 90. At this point, rotating plate 90 is positioned opposite connecting rod 84, allowing movable plate 7 to be pulled normally, thus changing the outlet position of outlet pipe 10. The liquid pipe 10 is located above a set of filter plates 3. Simultaneously, as the moving plate 7 moves, it drives the locking block 83 to move as well. When the surface of the locking block 83 contacts the inner wall of the slot 80, the locking block 83 moves into the sliding groove 82, compressing the spring 85. When the position of the locking block 83 is parallel to the slot 80, the spring 85 releases, allowing the locking block 83 to enter the slot 80 without affecting the normal movement of the moving plate 7. When the surface of the moving plate 7 contacts the surface of the baffle 81, the moving plate 7 is stabilized, preventing... When the movable plate 7 disengages from the filter tank 1, rotate the rotating plate 90 again until it contacts the surface of the connecting rod 84. This limits the movement of the connecting rod 84 and the locking block 83, preventing the movable plate 7 from moving further and stabilizing the outlet pipe 10. This prevents accidental movement of the movable plate 7 and outlet pipe 10 during purification, which could affect the wastewater discharge position. Connect the inlet of pump body 2 5 to the wastewater pipe and turn on pump body 2 5 and the corresponding pump body 2 5 for outlet pipe 10. Simultaneously, connect the output end of pump body 2 5 to the purified water collection device. Wastewater flows out through outlet pipe 10, is filtered by filter plate 3, and discharged through pump body 1 4. When filter plate 3 needs to be replaced or cleaned, repeat the above operation. Pull the movable plate 7 to change the outlet position of outlet pipe 10 and turn on the corresponding pump body 1 4. Then, pull the stabilizer 2 and filter plate 3 out of the filter tank 1 via the handle 11 for replacement or cleaning without stopping the filtration and purification process, thus improving efficiency.
[0030] The present invention has been described in detail above. However, modifications or improvements can be made to it, which will be obvious to those skilled in the art. Therefore, any modifications or improvements that do not depart from the spirit of the present invention are within the protection scope of the present invention.
Claims
1. A wastewater treatment structure for improving the urban ecological environment, comprising a filter tank (1), characterized in that: A stabilizing frame (2) is snapped onto the top of the filter tank (1), and a filter plate (3) is fixed to the bottom of the stabilizing frame (2). A movable plate (7) is slidably connected to the outer surface of the filter tank (1). An outlet pipe (10) is provided on the outer surface of the movable plate (7). The outlet pipe (10) passes through the movable plate (7) and is fixedly connected to the movable plate (7). Movable components (8) and stabilizing components (9) are provided on the surfaces of the filter tank (1) and the movable plate (7). The active component (8) includes: Card slot (80) is used to stabilize the moving plate (7); Baffle (81) is used to prevent the moving plate (7) from detaching from the filter tank (1); The card block (83) is used to cooperate with the card slot (80) to stabilize the moving plate (7).
2. A sewage treatment structure for improving the urban ecological environment according to claim 1, characterized in that: The slot (80) is formed on the outer surface of the filter tank (1). A baffle (81) is fixed on the outer surface of the filter tank (1). A sliding groove (82) is formed on the outer surface of the moving plate (7). A locking block (83) is slidably connected to the inner wall of the sliding groove (82). A spring (85) is fixed on the outer surface of the locking block (83). The end of the spring (85) away from the locking block (83) is fixed on the inner wall of the sliding groove (82). A connecting rod (84) is fixed on the outer surface of the locking block (83). The end of the connecting rod (84) away from the locking block (83) passes through the moving plate (7), and the connecting rod (84) is slidably connected to the moving plate (7).
3. A sewage treatment structure for improving the urban ecological environment according to claim 2, characterized in that: The outer surface of the movable plate (7) is rotatably connected to a rotating plate (90). The outer surface of the rotating plate (90) is provided with a movable groove (92). The inner wall of the movable groove (92) is slidably connected to a short rod (93). The outer surface of the short rod (93) is fixed with a second spring (94). The end of the second spring (94) away from the short rod (93) is fixed on the inner wall of the movable groove (92). The outer surface of the movable plate (7) is provided with a stabilizing groove (91).
4. A sewage treatment structure for improving the urban ecological environment according to claim 1, characterized in that: The outer surface of the filter tank (1) is provided with a second pump body (5), and the output end of the second pump body (5) is fixed with a bellows (6). The top of the bellows (6) is fixed to the bottom of the liquid outlet pipe (10), and the outer surface of the filter tank (1) is provided with a first pump body (4).
5. A sewage treatment structure for improving the urban ecological environment according to claim 4, characterized in that: The filter plate (3) and the pump body (4) are each provided with two sets.
6. A sewage treatment structure for improving the urban ecological environment according to claim 2, characterized in that: The cross-section of the end of the card block (83) away from the spring (85) is triangular.
7. A wastewater treatment structure for improving the urban ecological environment according to claim 3, characterized in that: The end of the short rod (93) away from the second spring (94) is set in an arc shape.