A sewage filtering impurity collecting device

By using a servo motor to drive the filter plate to flip and impact, combined with a cleaning rod, sponge, and squeezing plate, the problem of difficult-to-clean impurities from the filter screen is solved, achieving automation and efficient impurity removal in wastewater treatment.

CN224388282UActive Publication Date: 2026-06-23GUANGDONG ZHENZHI LAB TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGDONG ZHENZHI LAB TECH CO LTD
Filing Date
2025-06-20
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

In existing wastewater treatment processes, impurities on the filter screens are difficult to clean quickly after prolonged use, requiring frequent disassembly and manual cleaning, which affects treatment efficiency.

Method used

The filter plate is driven by a servo motor to flip and collide with the baffle. Combined with the structure of cleaning rod, sponge, squeezing plate and guide plate, it realizes automatic shaking, cleaning and dehydration of impurities, reduces moisture and improves cleaning efficiency.

Benefits of technology

It enables rapid shaking and cleaning of impurities from the filter screen, reducing manual intervention and improving the automation and efficiency of wastewater treatment.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224388282U_ABST
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Abstract

The utility model belongs to the related technical field of sewage treatment, specifically a kind of impurity collecting device of sewage filtration, including filter box, the water inlet is connected in the top of filter box;Servo motor is fixedly connected on the lateral wall of filter box;The output of servo motor is fixedly connected with round bar;Round bar is set as through and rotationally connected on filter box;The end of round bar is fixedly connected with filter plate;The end of filter plate is fixedly connected with intercepting plate;The inner wall of filter box is fixedly connected with baffle;A pair of pull rope is slidably connected in the inside of baffle;Sliding plate is slidably connected in the middle of filter box;A pair of top rod is fixedly connected in the middle of sliding plate;The fixed relationship of pull rope, sliding plate and filter plate is all fixedly connected;By increasing servo motor, filter plate can be quickly turned over reset, and baffle and top rod can quickly impact filter plate, so that the impurities intercepted on its surface are shaken off, thereby the impurities on the surface of filter plate are shaken off quickly, so as to drop to the bottom of filter box and be collected.
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Description

Technical Field

[0001] This utility model relates to the technical field of wastewater treatment, specifically a wastewater filtration impurity collection device. Background Technology

[0002] Wastewater is polluted wastewater generated from domestic and industrial activities. It contains various pollutants such as suspended solids, organic matter, and heavy metals. It must be treated to meet standards before being discharged to avoid harming the ecological environment and human health.

[0003] Wastewater treatment is the process of purifying wastewater to meet the water quality requirements for discharge into a water body or for reuse. It is widely used in various fields such as construction, agriculture, transportation, energy, petrochemicals, environmental protection, urban landscaping, medical care, and catering, and is increasingly entering the daily lives of ordinary people. Therefore, current wastewater treatment often uses filtration devices for filtration.

[0004] When treating wastewater, filters are usually used first to intercept impurities before subsequent purification. Over a long period of time, impurities will accumulate on the filters, at which point the filters need to be disassembled to clean and collect the impurities.

[0005] Therefore, a wastewater filtration impurity collection device is proposed to address the above problems. Utility Model Content

[0006] In order to overcome the shortcomings of the prior art, at least one technical problem raised in the background art is solved.

[0007] The technical solution adopted by this utility model to solve its technical problem is as follows: A wastewater filtration impurity collection device of this utility model includes a filter box, the top of which is connected to an inlet; a servo motor is fixedly connected to the side wall of the filter box; a round rod is fixedly connected to the output end of the servo motor; the round rod is through-hole and rotatably connected to the filter box; a filter plate is fixedly connected to the end of the round rod; an intercepting plate is fixedly connected to the end of the filter plate; a baffle is fixedly connected to the inner wall of the filter box; a pair of pull ropes are slidably connected inside the baffle; a sliding plate is slidably connected to the middle of the filter box; a pair of top rods are fixedly connected to the middle of the sliding plate; the pull ropes are fixedly connected to the sliding plate and the filter plate; an outlet is connected to the bottom of the filter box; a door is opened on the surface of the filter box; by adding a servo motor, the filter plate can be quickly flipped and reset, and at the same time, the baffle and top rods can quickly impact the filter plate, causing it to shake off the impurities intercepted on the surface, thereby quickly shaking off the impurities on the surface of the filter plate, which then fall to the bottom of the filter box for collection.

[0008] Preferably, a first cylinder is fixedly connected to the top of the filter box; a fixing plate is fixedly connected to the output end of the first cylinder; the fixing plate is located inside the filter box; a plurality of cleaning rods are fixedly connected to the bottom of the fixing plate; the cleaning rods and the filter plate are correspondingly arranged and slidably engaged; by adding cleaning rods, the inner wall of the filter plate pores can be cleaned after the filter plate is flipped, thereby reducing the debris attached to the inner wall.

[0009] Preferably, a sponge is fixed to the surface of the cleaning rod; the sponge and the fixing plate are correspondingly arranged; by adding the sponge, the increased friction of the sponge can push the debris more quickly after the cleaning rod enters the filter plate, thereby increasing the cleaning effect.

[0010] Preferably, a drain tray is fixed to the bottom of the filter box; the drain tray is multi-hole; a water leakage groove starts in the middle of the filter box; the water leakage groove is located below the drain tray; by adding a drain tray, water can be drained from the impurities, thereby reducing the moisture inside the impurities.

[0011] Preferably, a second cylinder is fixedly connected to the side wall of the filter box; a squeezing plate is fixedly connected to the output end of the second cylinder; the squeezing plate is located on the surface of the drain tray; by adding the squeezing plate, impurities can be processed quickly, thereby accelerating the dehydration speed and making them easier to remove and transfer after they are formed into blocks.

[0012] Preferably, a guide plate is fixed to the bottom of the filter box; the guide plate is located below the drain tray and its surface is inclined; by adding a guide plate, the water source can move quickly after flowing out, thereby increasing the guidance and making it faster to be discharged through the outlet.

[0013] The advantages of this utility model are:

[0014] 1. The wastewater filtration impurity collection device of this utility model can quickly flip and reset the filter plate by adding a servo motor. At the same time, the baffle and the top rod can quickly impact the filter plate to shake off the impurities intercepted on the surface. Thus, the impurities on the surface of the filter plate are quickly shaken off and fall to the bottom of the filter box for collection.

[0015] 2. The wastewater filtration impurity collection device of this utility model can clean the inner wall of the filter plate pores after the filter plate is flipped by adding a cleaning rod, thereby reducing the debris attached to the inner wall. Attached Figure Description

[0016] 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.

[0017] Figure 1 This is a schematic diagram of the main body of this utility model;

[0018] Figure 2 This is a schematic diagram of the filter plate in this utility model;

[0019] Figure 3 This is a schematic diagram of the cleaning rod in this utility model;

[0020] Figure 4 This is a schematic diagram of the structure of the fixing plate in this utility model;

[0021] Figure 5 This is a schematic diagram of the structure of the drain tray in this utility model.

[0022] In the diagram: 1. Filter box; 11. Inlet; 12. Servo motor; 13. Round rod; 14. Filter plate; 15. Interception plate; 16. Baffle; 17. Pull rope; 18. Slide plate; 19. Top rod; 101. Outlet; 102. Box door; 2. First cylinder; 21. Fixing plate; 22. Cleaning rod; 3. Sponge; 4. Drain tray; 41. Leakage trough; 5. Second cylinder; 51. Squeezing plate; 6. Guide plate. Detailed Implementation

[0023] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the scope of protection of the present utility model.

[0024] Specific implementation examples are given below.

[0025] like Figures 1 to 5As shown in the embodiment of this utility model, a wastewater filtration impurity collection device includes a filter box 1, with an inlet 11 connected to the top of the filter box 1; a servo motor 12 is fixedly connected to the side wall of the filter box 1; a round rod 13 is fixedly connected to the output end of the servo motor 12; the round rod 13 is through-hole and rotatably connected to the filter box 1; a filter plate 14 is fixedly connected to the end of the round rod 13; an interceptor plate 15 is fixedly connected to the end of the filter plate 14; a baffle 16 is fixedly connected to the inner wall of the filter box 1; a pair of pull ropes 17 are slidably connected inside the baffle 16; a sliding plate 18 is slidably connected to the middle of the filter box 1; a pair of top rods 19 are fixedly connected to the middle of the sliding plate 18; the pull ropes 17 are fixedly connected to the sliding plate 18 and the filter plate 14; an outlet 101 is connected to the bottom of the filter box 1; and a door 102 is opened on the surface of the filter box 1. During operation, wastewater is first introduced into the filter box 1 through the inlet 11. When wastewater enters the filter box 1, it comes into contact with the filter plate 14 and is filtered by it. Impurities are intercepted and remain on the surface of the filter plate 14. After prolonged filtration, the servo motor 12 is activated to rotate the filter plate 14. This rotation pulls the impurities on the filter plate 14 towards the interceptor plate 15. As the filter plate 14 rotates and flips, it impacts the baffle plate 16, causing vibrations that shake off the surface impurities. Simultaneously, the rotation of the filter plate 14 moves the pull rope 17, lifting the slide plate 18. When plate 16 contacts the filter plate 14, push rod 19 will contact the filter plate 14 and push it, thereby impacting the filter plate 14 and causing impurities to fall off. At this time, the impurities will fall to the bottom of the filter box 1 and accumulate. Then the filter plate 14 can be restored. When it is necessary to remove it, the impurities can be removed through the box door 102. By adding servo motor 12, the filter plate 14 can be quickly flipped and reset. At the same time, baffle 16 and push rod 19 can quickly impact the filter plate 14, shaking off the impurities intercepted on the surface. This quickly shakes off the impurities on the surface of the filter plate 14, which then fall to the bottom of the filter box 1 for collection.

[0026] like Figures 1 to 4 As shown, a first cylinder 2 is fixedly connected to the top of the filter box 1; a fixing plate 21 is fixedly connected to the output end of the first cylinder 2; the fixing plate 21 is located inside the filter box 1; a plurality of cleaning rods 22 are fixedly connected to the bottom of the fixing plate 21; the cleaning rods 22 and the filter plate 14 are correspondingly arranged and slidably engaged; during operation, when the filter plate 14 flips onto the baffle 16, the first cylinder 2 is activated to move the fixing plate 21 down, and then the cleaning rods 22 will enter the interior of the filter plate 14. After entering the interior, they will push the debris attached to the filter holes of the filter plate 14, causing it to leave the interior of the filter plate 14, thereby cleaning its interior; by adding cleaning rods 22, the inner wall of the filter holes of the filter plate 14 can be cleaned after the filter plate 14 flips, thereby reducing the debris attached to the inner wall.

[0027] like Figure 4 As shown, a sponge 3 is fixedly attached to the surface of the cleaning rod 22; the sponge 3 and the fixing plate 21 are correspondingly arranged; during operation, after the cleaning rod 22 enters the filter plate 14, the sponge 3 increases the friction with the filter plate 14, thereby increasing the cleaning effect through friction; by adding the sponge 3, the debris can be pushed more quickly through the increased friction of the sponge 3 after the cleaning rod 22 enters the filter plate 14, thereby increasing the cleaning effect.

[0028] like Figures 2 to 5 As shown, a drain tray 4 is fixed to the bottom of the filter box 1; the drain tray 4 is multi-hole; a water leakage groove 41 begins in the middle of the filter box 1; the water leakage groove 41 is located below the drain tray 4; during operation, when impurities reach the bottom of the filter box 1, they will come into contact with the drain tray 4. At this time, the drain tray 4 will lift the impurities, allowing the remaining water inside to drip through the holes on the surface of the drain tray 4, and then move to the outlet 101 through the water leakage groove 41; by adding the drain tray 4, the water inside the impurities can be drained, thereby reducing the moisture inside the impurities.

[0029] like Figures 2 to 5 As shown, a second cylinder 5 is fixedly connected to the side wall of the filter box 1; a squeezing plate 51 is fixedly connected to the output end of the second cylinder 5; the squeezing plate 51 is located on the surface of the draining tray 4; during operation, when impurities are draining on the draining tray 4, the second cylinder 5 can be started. When the second cylinder 5 is started, it will drive the squeezing plate 51 to move. When the squeezing plate 51 moves, it will push the impurities, making them gradually approach the filter box 1. Finally, the impurities are dehydrated by squeezing, and the impurities can also be lumped together, making them easier to remove; by adding the squeezing plate 51, the impurities can be processed quickly, the dehydration speed can be accelerated, and the lumped impurities can be more easily removed and transferred.

[0030] like Figure 5 As shown, a guide plate 6 is fixed to the bottom of the filter box 1; the guide plate 6 is located below the drain tray 4 and its surface is inclined; during operation, when the water source flowing out of the impurities moves to the bottom of the filter box 1, it will contact the guide plate 6. When in contact, it will move towards the drain trough 41 through the inclined surface of the guide plate 6, thereby accelerating the water source to approach the outlet 101; by adding the guide plate 6, the water source can move quickly after flowing out, thereby increasing the guidance and accelerating its discharge through the outlet 101.

[0031] Working principle: Wastewater first enters the filter box 1 through inlet 11. Upon entering the filter box 1, the wastewater comes into contact with filter plate 14 and is filtered by it. Impurities are intercepted and remain on the surface of filter plate 14. After prolonged filtration, servo motor 12 is activated to rotate filter plate 14. This rotation pulls the impurities on filter plate 14 towards the interception plate 15. As filter plate 14 rotates and flips, it impacts the baffle plate 16, causing vibration that shakes off the surface impurities. The rotation of filter plate 14 also... Pulling rope 17 moves slide plate 18 upward. Simultaneously, as filter plate 14 and baffle 16 contact, push rod 19 contacts filter plate 14, pushing it and impacting it, causing impurities to fall. These impurities accumulate at the bottom of filter box 1, after which filter plate 14 can be restored. When it needs to be removed, the impurities can be taken out through door 102. When filter plate 14 flips onto baffle 16, the first cylinder 2 is activated, moving fixing plate 21 downward. Then, cleaning rod 22 enters the interior of filter plate 14. The cleaning rod 22 pushes the debris attached to the filter holes of the filter plate 14 away from the interior of the filter plate 14, thereby cleaning its interior. After the cleaning rod 22 enters the interior of the filter plate 14, the sponge 3 increases the friction with the filter plate 14, thereby increasing the cleaning effect through friction. When the impurities reach the bottom of the filter box 1, they will come into contact with the drain tray 4. At this time, the drain tray 4 will lift the impurities, so that the remaining water inside the drain tray 4 will drip down through the holes on the surface of the drain tray 4, and then move to the outlet 101 through the drain groove 41. When the impurities are in the... When draining water on the drain tray 4, the second cylinder 5 can be started. When the second cylinder 5 is started, it will drive the squeezing plate 51 to move. When the squeezing plate 51 moves, it will push the impurities and make them gradually approach the filter box 1. Finally, the impurities will be dehydrated by squeezing and can also be lumped together, making them easier to remove. When the water source flowing out of the impurities moves to the bottom of the filter box 1, it will contact the guide plate 6. When it contacts, it will move towards the drain trough 41 through the slope of the guide plate 6, thereby speeding up the water source to approach the outlet 101.

[0032] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claimed utility model.

Claims

1. A wastewater filtration impurity collection device, characterized in that: The system includes a filter box (1), the top of which is connected to an inlet (11); a servo motor (12) is fixedly connected to the side wall of the filter box (1); a round rod (13) is fixedly connected to the output end of the servo motor (12); the round rod (13) is through-hole and rotatably connected to the filter box (1); a filter plate (14) is fixedly connected to the end of the round rod (13); an interceptor plate (15) is fixedly connected to the end of the filter plate (14); the filter box (1) A baffle (16) is fixedly connected to the inner wall; a pair of pull ropes (17) are slidably connected inside the baffle (16); a sliding plate (18) is slidably connected to the middle of the filter box (1); a pair of top rods (19) are fixedly connected to the middle of the sliding plate (18); the pull ropes (17), the sliding plate (18), and the filter plate (14) are all fixedly connected; the bottom of the filter box (1) is connected to a water outlet (101); a door (102) is opened on the surface of the filter box (1).

2. The wastewater filtration impurity collection device according to claim 1, characterized in that: The filter box (1) is fixedly connected to the top of the first cylinder (2); the output end of the first cylinder (2) is fixedly connected to the fixing plate (21); the fixing plate (21) is located inside the filter box (1); a plurality of cleaning rods (22) are fixedly connected to the bottom of the fixing plate (21); the cleaning rods (22) and the filter plate (14) are correspondingly arranged and slidably engaged.

3. The impurity collection device for wastewater filtration according to claim 2, characterized in that: The cleaning rod (22) has a sponge (3) fixed to its surface; the sponge (3) and the fixing plate (21) are set accordingly.

4. The impurity collection device for wastewater filtration according to claim 3, characterized in that: The bottom of the filter box (1) is fixed with a drain tray (4); the drain tray (4) is multi-hole; a water leakage groove (41) is formed in the middle of the filter box (1); the water leakage groove (41) is located below the drain tray (4).

5. The impurity collection device for wastewater filtration according to claim 4, characterized in that: The filter box (1) is fixedly connected to a second cylinder (5) on its side wall; the output end of the second cylinder (5) is fixedly connected to a pressing plate (51); the pressing plate (51) is located on the surface of the drain pan (4).

6. The impurity collection device for wastewater filtration according to claim 5, characterized in that: The bottom of the filter box (1) is fixed with a guide plate (6); the guide plate (6) is located below the drain tray (4) and its surface is set at an angle.