Floating lift type floating platform water treatment dosing device
By combining a floating platform with a solar power system, the problem of inaccurate chemical dosing caused by water level changes was solved, achieving precise positioning and wide coverage of the chemicals, reducing energy consumption and operating costs, and improving the uniformity of chemical dosing and the utilization rate of the chemicals.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JILIN WANJIYUAN ENVIRONMENTAL PROTECTION EQUIP CO LTD
- Filing Date
- 2025-08-06
- Publication Date
- 2026-07-03
AI Technical Summary
Existing water treatment dosing devices cannot adapt to changes in water level, resulting in inaccurate dosing depth or exposure of the chemicals, which affects the treatment effect. In addition, traditional devices are highly dependent on electricity and have high costs.
A floating platform-type water treatment dosing device with a lifting mechanism was designed. It is fixed in a designated position in the water by a float and an anchor. Combined with a solar power system, a liquid level sensor and an adjustable nozzle, it can achieve precise positioning and wide coverage of the agent.
It achieves precise positioning and wide coverage of the agent, reduces energy consumption and operating costs, and improves the uniformity of dosing and agent utilization.
Smart Images

Figure CN224443344U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of water treatment technology, and more specifically, to a floating platform-type water treatment dosing device with a lifting mechanism. Background Technology
[0002] In the water treatment process, adding chemicals to the water body is an important means of improving water quality, such as adding flocculants to remove suspended solids and adding disinfectants to kill harmful microorganisms. However, existing water treatment chemical dosing devices have many shortcomings and are difficult to meet the needs of actual applications.
[0003] Most current chemical dosing devices are fixed installations, such as building a fixed platform at a specific location on the shore or in the water for dosing. Such devices cannot adapt to changes in water level. When the water level rises, the dosing port may be submerged, resulting in excessive dosing depth and ineffective diffusion of the chemicals. When the water level drops, the dosing port is exposed, making it difficult to accurately deliver the chemicals to key areas of the water body, thus affecting the treatment effect. Therefore, a floating platform-type water treatment chemical dosing device with a lifting mechanism is proposed. Utility Model Content
[0004] In order to overcome the above-mentioned defects of the prior art, the present invention provides a floating platform-type water treatment dosing device with lifting body to solve the problems mentioned in the background art.
[0005] To achieve the above objectives, this utility model provides the following technical solution: a floating platform-type water treatment dosing device, comprising a floating platform, a float fixedly connected to the bottom of the floating platform to provide stable buoyancy for the entire device, enabling the device to float on the water surface, a protective plate fixedly connected to the top of the floating platform, the protective plate surrounding the edge of the floating platform for protection, a chemical tank, a liquid pump, a control box, a winding mechanism, and a storage battery on the top of the floating platform, one end of the winding rope of the winding mechanism being connected to an anchor, the anchor being easily lowered to the bottom of the water through the cooperation of the winding mechanism and the anchor, using its gripping force to fix the device in a designated position in the water, a solar panel connected to the top of the floating platform through a support rod, the solar panel converting solar energy into electrical energy and storing it in the storage battery, providing power support for the device's liquid pump, control box, electric push rod and other electrical equipment;
[0006] A liquid level sensor is installed at the top of the inner cavity of the reagent tank. The liquid level sensor can monitor the reagent level in the reagent tank in real time, so as to facilitate timely replenishment of reagent and avoid affecting the water treatment work due to insufficient reagent. Multiple support seats are fixedly connected to the top three sides of the protective plate. A spray pipe is installed at the top of the support seat. The liquid pump draws out the reagent in the reagent tank and delivers it to the spray pipe through the pipeline to realize the delivery of reagent. A connecting block and a limiting slide are fixedly connected to the bottom of the spray pipe. A first limiting slider is set in the middle of the limiting slide. The bottom of the first limiting slider is rotatably connected to the support plate.
[0007] An electric push rod is provided at the bottom of the support plate, and a second limiting slider is fixedly connected to one side of the support plate. A stabilizing rod is inserted in the middle of the second limiting slider. A limiting groove is opened on the inner wall of the protective plate at the position corresponding to the second limiting slider. Activating the electric push rod controls the support plate to push upward, which can control the first limiting slider to slide on the limiting slider while controlling the tilt of the nozzle. This facilitates the adjustment of the angle of the sprayed agent from the nozzle. The spray direction of the nozzle can be adjusted according to the actual dosing needs, so that the agent can cover a wider water area and improve the uniformity of dosing.
[0008] Preferably, the battery is electrically connected to the solar panel, and both the battery and the winding mechanism are located directly below the solar panel. The anchor is located at the bottom of the floating platform. The solar panel converts solar energy into electrical energy and stores it in the battery to provide power for the device's liquid pump, control box, electric push rod, and other electrical equipment. The anchor sinks to the bottom of the water and uses its gripping force to fix the device in a designated position in the water.
[0009] Preferably, the liquid pump and control box are located on the side of the chemical tank away from the winding mechanism. The input end of the liquid pump is connected to the bottom of the inner cavity of the chemical tank, and the output end of the liquid pump is connected to the inner cavity of multiple nozzles through a pipe. A flow valve is installed at the output end of the liquid pump. The liquid pump draws the chemical from the chemical tank and delivers it to the nozzles through the pipe, thus realizing the delivery of the chemical. The flow valve at the output end of the liquid pump can adjust the output flow rate of the chemical according to the instructions of the control box, thereby precisely controlling the dosage and meeting the chemical dosage requirements for different water quality treatments.
[0010] Preferably, the connecting block and the support base are rotatably connected, the cross-sectional shape of the limiting slide is set to "T" shape, one end of the limiting slide is provided with a baffle, the first limiting slider is slidably connected to the limiting slide, the baffle prevents the first limiting slider from falling off the limiting slide, and the position and angle of the nozzle in the horizontal direction can be further adjusted by the sliding of the first limiting slider on the limiting slide and the rotation of the support plate, so as to achieve more flexible drug dosing adjustment.
[0011] Preferably, the second limiting slider is disposed in the middle of the limiting groove, and the stabilizing rod is fixed in the middle of the limiting groove. The stability of the support plate movement is improved by the cooperation of the stabilizing rod, the limiting groove and the second limiting slider.
[0012] Preferably, the electric push rod is fixed to one side of the protective plate, and the control box is electrically connected to the liquid level sensor, the storage battery, the liquid pump, and the winding mechanism. When the electric push rod extends or retracts, it can drive the support plate, the first limit slider, and the nozzle to move up and down, thereby adjusting the angle of the nozzle.
[0013] Preferably, the winding mechanism includes a motor housed inside the housing and a winding rope wound around the motor output end. One end of the winding rope passes through the floating platform and the floating body and is fixedly connected to the anchor. The motor drives the winding rope to lower the anchor, which sinks to the bottom of the water and uses its gripping force to fix the device in a designated position in the water. When it is necessary to move the device, the motor reverses to rewind the winding rope and lifts the anchor, allowing the device to float freely and its position to be adjusted according to actual dosing requirements.
[0014] The technical effects and advantages of this utility model are as follows:
[0015] 1. This utility model firstly uses a winding mechanism and a ship's anchor to enable the device to move flexibly and be precisely positioned in the water, adapting to the dosing needs of different areas. The float and protective plate ensure the device floats stably, reducing the impact of external interference on dosing and ensuring accurate dosing position. The liquid pump is activated to transport the liquid inside the dosing tank to the nozzle through the pipeline and spray it out. The spray direction of the nozzle can be adjusted according to the actual dosing needs by activating the electric push rod, so that the dosing can cover a wider water area, improve the uniformity of dosing, improve the utilization rate of the dosing, and reduce the treatment cost.
[0016] 2. This utility model also utilizes solar energy to power the device through a power supply system composed of a solar panel and a storage battery, reducing dependence on traditional electricity, lowering energy consumption and operating costs, meeting energy conservation and environmental protection requirements. Furthermore, the liquid level sensor can monitor the amount of medicine in the medicine tank in real time. When the amount of medicine is lower than the alarm threshold, the liquid level sensor transmits a signal to the control box, and the control box issues an alarm to remind the operator to replenish the medicine.
[0017] In summary, through the interaction of the above-mentioned multiple functions, the device can move flexibly and be precisely positioned in the water area to adapt to the dosing needs of different areas. At the same time, it can enable the agent to cover a wider water area, improve the uniformity of dosing, increase the utilization rate of the agent, and reduce the treatment cost. Attached Figure Description
[0018] Figure 1 This is a schematic diagram of the overall structure of this utility model.
[0019] Figure 2 This is a schematic diagram of the structure of this utility model from another angle.
[0020] Figure 3 This is a schematic diagram of the cross-sectional structure of this utility model.
[0021] Figure 4 This utility model Figure 3 A magnified schematic diagram of the structure at point A in the middle.
[0022] Figure 5 This is a schematic diagram of the connection and disassembly structure of the support plate and nozzle of this utility model.
[0023] The attached diagram is labeled as follows: 1. Floating platform; 2. Floating body; 3. Protective plate; 4. Winding mechanism; 5. Anchor; 6. Storage battery; 7. Solar panel; 8. Chemical tank; 9. Liquid pump; 10. Control box; 11. Liquid level sensor; 12. Support base; 13. Nozzle; 14. Connecting block; 15. Limiting slide bar; 16. First limiting slider; 17. Support plate; 18. Electric push rod; 19. Second limiting slider; 20. Stabilizing rod; 21. Limiting groove. Detailed Implementation
[0024] 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 protection scope of the present utility model.
[0025] As attached Figure 1-5 The floating platform-type water treatment dosing device shown includes a floating platform 1. A float 2 is fixedly connected to the bottom of the floating platform 1, providing stable buoyancy for the entire device and enabling it to float on the water surface. A protective plate 3 is fixedly connected to the top of the floating platform 1, surrounding the edge of the floating platform 1 for protection. The top of the floating platform 1 is equipped with a chemical tank 8, a liquid pump 9, a control box 10, a winding mechanism 4, and a storage battery 6. One end of the winding rope of the winding mechanism 4 is connected to an anchor 5. Through the cooperation of the winding mechanism 4 and the anchor 5, the anchor 5 can be easily lowered to the bottom of the water, using its gripping force to fix the device in a designated position in the water. A solar panel 7 is connected to the top of the floating platform 1 through a support rod. The solar panel 7 converts solar energy into electrical energy and stores it in the storage battery 6, providing power support for the device's liquid pump 9, control box 10, electric push rod 18, and other electrical equipment.
[0026] A liquid level sensor 11 is installed at the top of the inner cavity of the chemical tank 8. The liquid level sensor 11 can monitor the chemical level in the chemical tank 8 in real time, so as to facilitate timely replenishment of the chemical and avoid affecting the water treatment work due to insufficient chemical. Multiple support seats 12 are fixedly connected to the top three sides of the protective plate 3. A spray pipe 13 is installed at the top of the support seat 12. The liquid pump 9 draws out the chemical in the chemical tank 8 and delivers it to the spray pipe 13 through the pipeline to realize the delivery of the chemical. A connecting block 14 and a limiting slide 15 are fixedly connected to the bottom of the spray pipe 13. A first limiting slider 16 is installed in the middle of the limiting slider 15. A support plate 17 is rotatably connected to the bottom of the first limiting slider 16.
[0027] An electric push rod 18 is provided at the bottom of the support plate 17. A second limiting slider 19 is fixedly connected to one side of the support plate 17. A stabilizing rod 20 is inserted in the middle of the second limiting slider 19. A limiting groove 21 is opened on the inner wall of the protective plate 3 at the position corresponding to the second limiting slider 19. When the electric push rod 18 is activated, the support plate 17 is pushed upward. This can control the first limiting slider 16 to slide on the limiting slider 15 while controlling the tilt of the nozzle 13. This makes it easy to adjust the angle of the agent sprayed by the nozzle 13. The spray direction of the nozzle 13 can be adjusted according to the actual dosing needs, so that the agent can cover a wider water area and improve the uniformity of dosing.
[0028] As attached Figure 1-3 As shown, the storage battery 6 is electrically connected to the solar panel 7. Both the storage battery 6 and the winding mechanism 4 are located directly below the solar panel 7. The anchor 5 is located at the bottom of the floating platform 1. The liquid pump 9 and control box 10 are located on the side of the chemical tank 8 away from the winding mechanism 4. The input end of the liquid pump 9 is connected to the bottom of the inner cavity of the chemical tank 8, and the output end of the liquid pump 9 is connected to the inner cavity of multiple nozzles 13 via pipes. A flow valve is installed at the output end of the liquid pump 9. The solar panel 7 converts solar energy into electrical energy and stores it in the storage battery 6, providing power to the device's liquid pump 9, control box 10, electric push rod 18, and other electrical equipment. The anchor 5 sinks to the bottom of the water, using its gripping force to fix the device in a designated position in the water. The liquid pump 9 extracts the chemical from the chemical tank 8 and delivers it to the nozzles 13 via pipes, thus achieving chemical delivery. The flow valve at the output end of the liquid pump 9 can adjust the output flow rate of the chemical according to the instructions of the control box 10, thereby precisely controlling the dosage and meeting the chemical dosage requirements for different water quality treatments.
[0029] As attached Figure 3-5As shown, the connecting block 14 and the support base 12 are rotatably connected. The cross-sectional shape of the limiting slide bar 15 is set as "T". A baffle is provided at one end of the limiting slide bar 15. The first limiting slider 16 is slidably connected to the limiting slide bar 15. The second limiting slider 19 is set in the middle of the limiting slide groove 21. The stabilizing rod 20 is fixed in the middle of the limiting slide groove 21. The electric push rod 18 is fixed on one side of the protective plate 3. The control box 10 is electrically connected to the liquid level sensor 11, the battery 6, the liquid pump 9, and the winding mechanism 4. The winding mechanism 4 includes a motor set inside the box and a winding rope wound on the output end of the motor. One end of the winding rope passes through the floating platform 1 and the floating body 2 and is fixedly connected to the anchor 5. The baffle prevents the first limiting slider 16 from falling off the limiting slide bar 15. By sliding the first limiting slider 16 on the limiting slider 15 and rotating the support plate 17, the position and angle of the nozzle 13 in the horizontal direction can be further adjusted, achieving more flexible dosing adjustment. Through the cooperation of the stabilizing rod 20 and the limiting slide groove 21 with the second limiting slider 19, the stability of the support plate 17 movement is improved. When the electric push rod 18 extends and retracts, it can drive the support plate 17, the first limiting slider 16 and the nozzle 13 to move up and down, thereby adjusting the angle of the nozzle 13. The anchor 5 is lowered by the motor-driven winding rope. The anchor 5 sinks to the bottom of the water and uses its grip to fix the device in a designated position in the water. When it is necessary to move the device, the motor reverses to rewind the winding rope and lift the anchor 5, so that the device can float freely and the position can be adjusted according to the actual dosing requirements.
[0030] The working principle of this utility model is as follows: When in use, after moving the device to the water area where the medicine needs to be added, start the motor of the winding mechanism 4, lower the anchor 5, so that the anchor 5 sinks to the bottom of the water and is fixed. The solar panel 7 converts solar energy into electrical energy and stores it in the battery 6 to provide power support for the device.
[0031] When chemical dosing is required, the liquid pump 9 is started to transport the liquid inside the chemical tank 8 through the pipeline to the spray pipe 13, and the chemical is sprayed into the water according to the set flow rate according to the flow valve adjustment. At the same time, the electric push rod 18 is started to control the spray pipe 13 to rotate through the connecting shaft of the support base 12 and the connecting block 14, adjust the orientation angle of the spray pipe 13, change the spray angle of the spray pipe 13, and achieve precise chemical dosing.
[0032] The liquid level sensor 11 monitors the amount of medicine in the medicine tank 8 in real time. When the amount of medicine is lower than the alarm threshold, the liquid level sensor 11 transmits a signal to the control box 10, and the control box 10 issues an alarm to remind the operator to replenish the medicine.
[0033] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.
Claims
1. A floating platform-type water treatment dosing device with lifting mechanism, comprising a floating platform (1), characterized in that: The bottom of the floating platform (1) is fixedly connected to a float (2), the top of the floating platform (1) is fixedly connected to a protective plate (3), the top of the floating platform (1) is provided with a medicine tank (8), a liquid pump (9), a control box (10), a winding mechanism (4), and a storage battery (6), one end of the winding rope of the winding mechanism (4) is connected to an anchor (5), and the top of the floating platform (1) is connected to a solar panel (7) through a support rod. A liquid level sensor (11) is provided at the top of the inner cavity of the medicine tank (8). Multiple support seats (12) are fixedly connected to the top three sides of the protective plate (3). A nozzle (13) is provided at the top of the support seat (12). A connecting block (14) and a limiting slide (15) are fixedly connected to the bottom of the nozzle (13). A first limiting slider (16) is provided in the middle of the limiting slider (15). A support plate (17) is rotatably connected to the bottom of the first limiting slider (16). An electric push rod (18) is provided at the bottom of the support plate (17). A second limiting slider (19) is fixedly connected to one side of the support plate (17). A stabilizing rod (20) is inserted in the middle of the second limiting slider (19). A limiting groove (21) is opened at the position corresponding to the second limiting slider (19) on the inner side wall of the protective plate (3).
2. The floating platform-type water treatment dosing device according to claim 1, characterized in that: The battery (6) is electrically connected to the solar panel (7). The battery (6) and the winding mechanism (4) are both located directly below the solar panel (7). The anchor (5) is located at the bottom of the floating platform (1).
3. The floating platform-type water treatment dosing device according to claim 1, characterized in that: The liquid pump (9) and control box (10) are located on the side of the agent tank (8) away from the winding mechanism (4). The input end of the liquid pump (9) is connected to the bottom of the inner cavity of the agent tank (8). The output end of the liquid pump (9) is connected to the inner cavity of multiple nozzles (13) through a pipe. The output end of the liquid pump (9) is equipped with a flow valve.
4. The floating platform-type water treatment dosing device according to claim 1, characterized in that: The connecting block (14) and the support base (12) are rotatably connected. The cross-sectional shape of the limiting slide (15) is set to "T". A baffle is provided at one end of the limiting slide (15). The first limiting slider (16) is slidably connected to the limiting slide (15).
5. The floating platform-type water treatment dosing device according to claim 1, characterized in that: The second limiting slider (19) is located in the middle of the limiting groove (21), and the stabilizing rod (20) is fixed in the middle of the limiting groove (21).
6. The floating platform-type water treatment dosing device according to claim 1, characterized in that: The electric push rod (18) is fixed on one side of the protective plate (3), and the control box (10) is electrically connected to the liquid level sensor (11), the storage battery (6), the liquid pump (9), and the winding mechanism (4).
7. The floating platform-type water treatment dosing device according to claim 1, characterized in that: The winding mechanism (4) includes a motor installed inside the housing and a winding rope wound around the output end of the motor. One end of the winding rope passes through the floating platform (1) and the floating body (2) and is fixedly connected to the anchor (5).