An anaerobic ammonia oxidation water treatment device
By introducing an inclined treatment tank and a convenient heating plate disassembly structure into the anaerobic ammonia oxidation water treatment device, the problems of liquid residue and complex disassembly are solved, thereby improving treatment efficiency and water quality stability.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- BEIWEI WATER ENVIRONMENT TECH (SHANGHAI) CO LTD
- Filing Date
- 2025-05-22
- Publication Date
- 2026-06-19
AI Technical Summary
Existing anaerobic ammonia oxidation water treatment devices have difficulty completely draining the liquid during discharge, resulting in residues that affect the stability of the treatment process and may breed microbial contamination. At the same time, the heating plate is cumbersome and complicated to disassemble.
A device comprising a base, a treatment tank, a sliding rod, a connecting rod, a U-shaped plate, and a drive assembly is designed. The device achieves complete drainage by tilting the treatment tank and facilitates the disassembly and cleaning of the heating plate through an electric push rod and a plug-in plate structure.
It achieves complete drainage of liquid in the treatment tank, avoids residue, simplifies the maintenance process of the heating plate, and improves treatment efficiency and water quality standards.
Smart Images

Figure CN224377803U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of anaerobic ammonia oxidation water treatment technology, and in particular relates to an anaerobic ammonia oxidation water treatment device. Background Technology
[0002] Anaerobic ammonia oxidation is a highly efficient biological nitrogen removal technology that utilizes the metabolic activity of anaerobic ammonia oxidizing bacteria to directly convert ammonia nitrogen and nitrite nitrogen into nitrogen gas, thereby removing nitrogen from wastewater.
[0003] For example, Chinese patent CN214936400U discloses an anaerobic ammonia oxidation water treatment device, including a base plate. A treatment tank is fixedly installed on one side of the upper end of the base plate. A servo motor is fixedly installed at the middle of the upper end of the treatment tank. Side covers are rotatably connected to both sides of the servo motor at the upper end of the treatment tank. Filler is injected into the side covers and transported to a movable hollow rod through the side covers. External personnel can directly turn on the circuit switch of the servo motor, which drives the spiral stirring rod to rotate. The spiral stirring rod drives the movable hollow rod to rotate through the meshing action between the rotating gear disk and the transmission gear disk. The through groove of the movable hollow rod is connected to the inside of the rod body. The movable hollow rod is filled with filler. Through the through stirring action of the through groove, the filler can be effectively brought into full contact with the water source inside the treatment tank, so that the water source can achieve a good treatment effect.
[0004] The aforementioned patent has the following problems:
[0005] This patented device has several drawbacks in its use. For example, the treatment tank is placed horizontally, making it difficult to completely drain the liquid after treatment. Residual liquid not only affects the stability of subsequent treatment processes but may also breed microorganisms, leading to secondary pollution, reducing overall treatment efficiency and water quality standards. Furthermore, the disassembly process is cumbersome and complex when the heating plate malfunctions or requires cleaning and maintenance. Therefore, we propose an anaerobic ammonia oxidation water treatment device. Utility Model Content
[0006] The purpose of this invention is to provide an anaerobic ammonia oxidation water treatment device to solve the problems mentioned in the background art.
[0007] In view of this, the present invention provides an anaerobic ammonia oxidation water treatment device, comprising:
[0008] A base, on the top of which a processing bucket is rotatably mounted, and U-shaped plates are fixedly mounted on both sides of the processing bucket. A groove is provided on the top of the base, and a sliding rod is slidably mounted in the groove. Connecting rods are rotatably mounted on both ends of the sliding rod, and one end of the connecting rod is rotatably connected to the corresponding U-shaped plate.
[0009] A drive assembly, located on the base, is used to drive the sliding rod to displacement;
[0010] A through hole is provided at the top of the processing tank. An electric push rod is fixedly installed at the top of the processing tank. The output end of the electric push rod passes through the processing tank and is fixedly installed with a connecting plate. A heating plate is fixedly installed on the connecting plate by several fixing bolts. An insert plate is inserted into the through hole. Two triangular plates are fixedly installed at the bottom of the inner cavity of the processing tank. A drain pipe is fixedly installed on one side of the processing tank.
[0011] A stirring assembly located inside the processing tank and used for stirring.
[0012] In this technical solution, during use, the operator can put the water source and packing material into the treatment tank. Then, the operator can turn on the heating plate and stirring component and start them. The stirring component will stir the packing material and water source in the treatment tank. At this time, the heating plate will heat the liquid in the treatment tank, so that the water source and packing material are fully mixed.
[0013] When the mixing is complete and the material needs to be discharged, the staff can turn and open the valve on the drain pipe. At this time, the liquid in the treatment tank will be discharged to the outside through the drain pipe. At this time, the drive component will drive the sliding rod to slide, and the connecting rod at both ends of the sliding rod will rotate. The connecting rod will drive the U-shaped plate to rotate upward. The two U-shaped plates will drive the treatment tank to rotate on the base, so that the treatment tank is kept in an inclined state, ensuring that the liquid in the treatment tank can be discharged cleanly.
[0014] When the heating plate needs to be disassembled, the worker pulls the insert plate upwards to remove it from the through hole. Then, the worker can power on the insert plate and start it. The output shaft of the insert plate will drive the connecting plate to move upwards, and the connecting plate will drive the heating plate to move upwards until the heating plate is moved out of the through hole. Then, the worker can use a wrench to remove the several fixing bolts used to fix the heating plate, so that the heating plate is no longer fixed to the connecting plate.
[0015] In the above technical solution, the driving component further includes:
[0016] A hydraulic cylinder is fixedly installed on one side of the base. The output end of the hydraulic cylinder extends through one side of the base into a groove and is fixed to a sliding rod. Two guide rods are fixedly installed in the groove, and one end of each guide rod passes through the sliding rod.
[0017] In this technical solution, the operator can activate the hydraulic cylinder, which will retract its output shaft. The hydraulic cylinder will then drive the sliding rod to move closer to the hydraulic cylinder. At this time, the sliding rod will slide on the two guide rods, and the connecting rods at both ends of the sliding rod will rotate. The connecting rods will drive the U-shaped plate to rotate upwards, and the two U-shaped plates will drive the treatment tank to rotate on the base, keeping the treatment tank in an inclined state and ensuring that the liquid in the treatment tank can be completely drained.
[0018] In the above technical solution, the output shaft of the hydraulic cylinder is slidably connected to the base and the groove, and the sliding rod is slidably connected to the guide rod.
[0019] In this technical solution, the output shaft of the hydraulic cylinder is ensured to slide within the base and groove, and the sliding rod is ensured to slide on the two guide rods.
[0020] In the above technical solution, the stirring assembly further includes:
[0021] The motor is fixedly installed on the top of the processing tank. The output end of the motor passes through the top of the processing tank and is fixedly installed with a rotating shaft. Several stirring blades are fixedly installed on the rotating shaft.
[0022] In this technical solution, when the motor is powered on and started, the output shaft of the motor will drive the rotating shaft to rotate, and the rotating shaft will drive several stirring blades to rotate, thereby stirring the packing material and water source in the treatment tank.
[0023] In the above technical solution, the output shaft of the motor is rotatably connected to the processing tank, and the plurality of stirring blades are linearly and equally spaced.
[0024] In this technical solution, the output shaft of the motor is ensured to rotate on the processing tank, and the several stirring blades are ensured to uniformly stir the processing tank.
[0025] In the above technical solution, the heating plate is further located directly below the through hole.
[0026] In this technical solution, it is ensured that the heating plate can be moved out of the through hole.
[0027] In the above technical solution, the output shaft of the electric push rod is slidably connected to the processing barrel, and the two triangular plates are symmetrically arranged.
[0028] In this technical solution, the output shaft of the electric push rod is ensured to slide inside the treatment tank, so that under the action of the two triangular plates, the liquid inside the treatment tank can be collected and discharged into the drain pipe to the outside.
[0029] In the above technical solution, a feed pipe is further fixedly installed on the top of the processing tank.
[0030] In this technical solution, it is ensured that the packing material and water source can be delivered into the treatment tank through the feed pipe.
[0031] The beneficial effects of this utility model are:
[0032] 1. This anaerobic ammonia oxidation water treatment device, through the cooperation of the groove, sliding rod, triangular plate, connecting rod, U-shaped plate and drive assembly, ensures that the treatment tank can be tilted when discharging material, so that the liquid in the treatment tank can be completely discharged and avoid the presence of residual liquid.
[0033] 2. This anaerobic ammonia oxidation water treatment device, through the cooperation of the electric push rod, through hole, fixing bolt and insert plate, ensures that the heating plate can be moved to the outside, so as to facilitate the disassembly, maintenance and cleaning of the heating plate, and the operation is convenient and quick. Attached Figure Description
[0034] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0035] Figure 2 This is a schematic diagram of the internal structure of the processing tank in this utility model;
[0036] Figure 3 This is a schematic diagram of the internal structure of the base in this utility model;
[0037] Figure 4 This is a schematic diagram of the regional structure of the connecting plate in this utility model;
[0038] Figure 5 This is a schematic diagram of the processing tank in this utility model.
[0039] The markings in the diagram are as follows:
[0040] 1. Base; 2. Processing tank; 3. Connecting rod; 4. U-shaped plate; 5. Drain pipe; 6. Feed pipe; 7. Motor; 8. Electric push rod; 9. Insert plate; 10. Triangular plate; 11. Connecting plate; 12. Rotating shaft; 13. Stirring blade; 14. Groove; 15. Hydraulic cylinder; 16. Sliding rod; 17. Guide rod; 18. Fixing bolt; 19. Heating plate; 20. Through hole. Detailed Implementation
[0041] The following is in conjunction with the appendix Figures 1-5 This application will be described in further detail.
[0042] In this application, the terms "upper," "lower," "left," "right," "front," "rear," "top," "bottom," "inner," "outer," "middle," "vertical," and "horizontal," etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. These terms are primarily for the purpose of better describing this application and its embodiments, and are not intended to limit the indicated device, element, or component to having a specific orientation, or to be constructed and operated in a specific orientation.
[0043] Example 1: This example provides an anaerobic ammonia oxidation water treatment device, comprising:
[0044] A base 1 is provided, and a processing bucket 2 is rotatably mounted on the top of the base 1. U-shaped plates 4 are fixedly mounted on both sides of the processing bucket 2. A groove 14 is provided on the top of the base 1. A sliding rod 16 is slidably mounted in the groove 14. A connecting rod 3 is rotatably mounted on both ends of the sliding rod 16. One end of the connecting rod 3 is rotatably connected to the corresponding U-shaped plate 4.
[0045] A drive assembly, located on the base 1, is used to drive the sliding rod 16 to displacement;
[0046] A through hole 20 is provided at the top of the processing tank 2. An electric push rod 8 is fixedly installed at the top of the processing tank 2. The output end of the electric push rod 8 passes through the processing tank 2 and is fixedly installed with a connecting plate 11. A heating plate 19 is fixedly installed on the connecting plate 11 by several fixing bolts 18. An insert plate 9 is inserted into the through hole 20. Two triangular plates 10 are fixedly installed at the bottom of the inner cavity of the processing tank 2. A drain pipe 5 is fixedly installed on one side of the processing tank 2.
[0047] A stirring assembly is located inside the processing tank 2 and is used for stirring.
[0048] In use, the staff can put the water source and the packing material into the treatment tank 2. Then, the staff can turn on the heating plate 19 and the stirring component and start them. The stirring component will stir the packing material and water source in the treatment tank 2. At this time, the heating plate 19 will heat the liquid in the treatment tank 2, so that the water source and the packing material are fully mixed.
[0049] When the mixing is complete and the material needs to be discharged, the operator can turn and open the valve on the drain pipe 5. At this time, the liquid in the treatment tank 2 will be discharged to the outside through the drain pipe 5. At this time, the drive component will drive the sliding rod 16 to slide, and the connecting rod 3 at both ends of the sliding rod 16 will rotate. The connecting rod 3 will drive the U-shaped plate 4 to rotate upward. The two U-shaped plates 4 will drive the treatment tank 2 to rotate on the base 1, so that the treatment tank 2 is kept in an inclined state, ensuring that the liquid in the treatment tank 2 can be discharged cleanly.
[0050] When the heating plate 19 needs to be disassembled, the operator pulls the insert plate 9 upwards, causing it to be pulled out of the through hole 20. Then, the operator can power on and start the insert plate 9. The output shaft of the insert plate 9 will drive the connecting plate 11 to move upwards, and the connecting plate 11 will drive the heating plate 19 to move upwards until the heating plate 19 is moved out of the through hole 20. Then, the operator can use a wrench to remove the several fixing bolts 18 used to fix the heating plate 19, so that the heating plate 19 is no longer fixed to the connecting plate 11.
[0051] Example 2: This example provides an anaerobic ammonia oxidation water treatment device, which, in addition to the technical solutions of the above examples, also has the following technical features, wherein the driving component includes:
[0052] A hydraulic cylinder 15 is fixedly installed on one side of the base 1. The output end of the hydraulic cylinder 15 extends through one side of the base 1 into the groove 14 and is fixed to the sliding rod 16. Two guide rods 17 are fixedly installed in the groove 14, and one end of the guide rod 17 passes through the sliding rod 16.
[0053] The operator can activate the hydraulic cylinder 15, which will retract its output shaft. The hydraulic cylinder 15 will then drive the sliding rod 16 to move closer to the hydraulic cylinder 15. At this time, the sliding rod 16 will slide on the two guide rods 17, and the connecting rods 3 at both ends of the sliding rod 16 will rotate. The connecting rods 3 will drive the U-shaped plate 4 to rotate upward. The two U-shaped plates 4 will drive the processing tank 2 to rotate on the base 1, keeping the processing tank 2 in an inclined state, ensuring that the liquid in the processing tank 2 can be completely drained.
[0054] Example 3: This example provides an anaerobic ammonia oxidation water treatment device. In addition to the technical solutions of the above examples, it also has the following technical features: the output shaft of the hydraulic cylinder 15 is slidably connected to the base 1 and the groove 14, and the sliding rod 16 is slidably connected to the guide rod 17.
[0055] Specifically, it ensures that the output shaft of the hydraulic cylinder 15 can slide within the base 1 and the groove 14, and that the sliding rod 16 can slide on the two guide rods 17.
[0056] Example 4: This example provides an anaerobic ammonia oxidation water treatment device, which, in addition to the technical solutions of the above examples, also has the following technical features: the stirring assembly includes:
[0057] The motor 7 is fixedly installed on the top of the processing tank 2. The output end of the motor 7 passes through the top of the processing tank 2 and is fixedly installed with a rotating shaft 12. Several stirring blades 13 are fixedly installed on the rotating shaft 12.
[0058] When the motor 7 is powered on and started, the output shaft of the motor 7 will drive the rotating shaft 12 to rotate, and the rotating shaft 12 will drive several stirring blades 13 to rotate, thereby stirring the packing and water source in the treatment tank 2.
[0059] Example 5: This example provides an anaerobic ammonia oxidation water treatment device. In addition to the technical solutions of the above examples, it also has the following technical features: the output shaft of the motor 7 is rotatably connected to the treatment tank 2, and a plurality of the stirring blades 13 are linearly and equally spaced.
[0060] In this way, it is ensured that the output shaft of the motor 7 can rotate on the processing tank 2, and that the several stirring blades 13 can uniformly stir the processing tank 2.
[0061] Example 6: This example provides an anaerobic ammonia oxidation water treatment device, which, in addition to the technical solutions of the above examples, also has the following technical features: the heating plate 19 is located directly below the through hole 20.
[0062] This ensures that the heating plate 19 can be displaced to the outside through the through hole 20.
[0063] Example 7: This example provides an anaerobic ammonia oxidation water treatment device. In addition to the technical solutions of the above examples, it also has the following technical features: the output shaft of the electric push rod 8 is slidably connected to the treatment tank 2, and the two triangular plates 10 are symmetrically arranged.
[0064] Specifically, it ensures that the output shaft of the electric push rod 8 can slide inside the processing tank 2, and that under the action of the two triangular plates 10, the liquid in the processing tank 2 can be collected and discharged into the drain pipe 5 and discharged to the outside.
[0065] Example 8: This example provides an anaerobic ammonia oxidation water treatment device, which, in addition to the technical solutions of the above examples, also has the following technical features: a feed pipe 6 is fixedly installed on the top of the treatment tank 2.
[0066] This ensures that packing material and water can be delivered into the treatment tank 2 through the feed pipe 6.
[0067] Working principle: When in use, the operator can put the water source and the packing material into the treatment tank 2 through the feed pipe 6. Then, the operator can turn on the triangular plate 10 and the motor 7 and start them. The output shaft of the motor 7 will drive the rotating shaft 12 to rotate, and the rotating shaft 12 will drive several stirring blades 13 to rotate, thereby stirring the packing material and water source in the treatment tank 2. At this time, the heating plate 19 will heat the liquid in the treatment tank 2, so that the water source and the packing material are fully mixed.
[0068] When the mixing is complete and the material needs to be discharged, the operator can turn and open the valve on the drain pipe 5. At this time, the liquid in the treatment tank 2 will be discharged to the outside through the drain pipe 5. Then, the operator can start the hydraulic cylinder 15. The output shaft of the hydraulic cylinder 15 will retract, and the hydraulic cylinder 15 will drive the sliding rod 16 to move towards the direction close to the hydraulic cylinder 15. At this time, the sliding rod 16 will slide on the two guide rods 17, and the connecting rods 3 at both ends of the sliding rod 16 will rotate. The connecting rods 3 will drive the U-shaped plate 4 to rotate upward. The two U-shaped plates 4 will drive the treatment tank 2 to rotate on the base 1, so that the treatment tank 2 is kept in an inclined state, ensuring that the liquid in the treatment tank 2 can be discharged cleanly.
[0069] When the heating plate 19 needs to be disassembled, the operator pulls the insert plate 9 upwards, causing it to be pulled out of the through hole 20. Then, the operator can power on and start the insert plate 9. The output shaft of the insert plate 9 will drive the connecting plate 11 to move upwards, and the connecting plate 11 will drive the heating plate 19 to move upwards until the heating plate 19 is moved out of the through hole 20. Then, the operator can use a wrench to remove the several fixing bolts 18 used to fix the heating plate 19, so that the heating plate 19 is no longer fixed to the connecting plate 11.
[0070] The embodiments of this application have been described above with reference to the accompanying drawings. Unless otherwise specified, the embodiments and features in the embodiments of this application can be combined with each other. This application is not limited to the specific embodiments described above. The specific embodiments described above are merely illustrative and not restrictive. Those skilled in the art can make many other forms under the guidance of this application without departing from the spirit and scope of the claims, and all of these forms are within the protection scope of this application.
Claims
1. An anaerobic ammonia oxidation water treatment device, characterized in that, include: A base (1) is provided with a processing bucket (2) rotatably mounted on the top of the base (1). U-shaped plates (4) are fixedly mounted on both sides of the processing bucket (2). A groove (14) is provided on the top of the base (1). A sliding rod (16) is slidably mounted in the groove (14). A connecting rod (3) is rotatably mounted on both ends of the sliding rod (16). One end of the connecting rod (3) is rotatably connected to the corresponding U-shaped plate (4). A drive assembly located on the base (1) and used to drive the sliding rod (16) to displacement; A through hole (20) is provided at the top of the processing tank (2). An electric push rod (8) is fixedly installed at the top of the processing tank (2). The output end of the electric push rod (8) passes through the processing tank (2) and is fixedly installed with a connecting plate (11). A heating plate (19) is fixedly installed on the connecting plate (11) by several fixing bolts (18). An insert plate (9) is inserted into the through hole (20). Two triangular plates (10) are fixedly installed at the bottom of the inner cavity of the processing tank (2). A drain pipe (5) is fixedly installed on one side of the processing tank (2). A stirring assembly is located inside the processing tank (2) and is used for stirring.
2. The anaerobic ammonia oxidation water treatment device according to claim 1, characterized in that, The driving component includes: A hydraulic cylinder (15) is fixedly installed on one side of the base (1). The output end of the hydraulic cylinder (15) extends through one side of the base (1) into the groove (14) and is fixed with the sliding rod (16). Two guide rods (17) are fixedly installed in the groove (14). One end of the guide rod (17) passes through the sliding rod (16).
3. The anaerobic ammonia oxidation water treatment device according to claim 2, characterized in that, The output shaft of the hydraulic cylinder (15) is slidably connected to the base (1) and the groove (14), and the sliding rod (16) is slidably connected to the guide rod (17).
4. The anaerobic ammonia oxidation water treatment device according to claim 1, characterized in that, The stirring assembly includes: The motor (7) is fixedly installed on the top of the processing tank (2). The output end of the motor (7) passes through the top of the processing tank (2) and is fixedly installed with a rotating shaft (12). Several stirring blades (13) are fixedly installed on the rotating shaft (12).
5. The anaerobic ammonia oxidation water treatment device according to claim 4, characterized in that, The output shaft of the motor (7) is rotatably connected to the processing tank (2), and several of the stirring blades (13) are linearly and equally spaced.
6. The anaerobic ammonia oxidation water treatment device according to claim 1, characterized in that, The heating plate (19) is located directly below the through hole (20).
7. The anaerobic ammonia oxidation water treatment device according to claim 1, characterized in that, The output shaft of the electric push rod (8) is slidably connected to the processing barrel (2), and the two triangular plates (10) are symmetrically arranged.
8. The anaerobic ammonia oxidation water treatment device according to claim 1, characterized in that, The top of the processing tank (2) is fixedly installed with a feed pipe (6).