A filter for organic substances leaked from circulating cooling water
By installing filters in the circulating cooling water system and using activated carbon to adsorb organic matter, combined with a push-pull mechanism to control the pipe openings, the problems of microbial growth and corrosion caused by organic matter leakage are solved, ensuring system stability and heat exchange efficiency, and preventing cooling water leakage.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- YUEYANG GREEN SHIELD ENVIRONMENTAL PROTECTION TECH CO LTD
- Filing Date
- 2025-06-20
- Publication Date
- 2026-06-05
AI Technical Summary
Organic matter leakage in circulating cooling water systems leads to microbial growth, increased corrosion, and scaling and blockage, affecting system stability and heat exchange efficiency.
A filter is installed in the circulating pipeline. The filter contains multiple filter frames filled with activated carbon. The opening and closing of the pipe opening is controlled by a push-pull mechanism to ensure that no cooling water leakage occurs when the filter is replaced.
It effectively removes organic matter from cooling water, prevents microbial growth and corrosion, maintains system stability and heat exchange efficiency, and avoids cooling water leakage when replacing filters.
Smart Images

Figure CN224325189U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of cooling water filter technology, specifically relating to a filter for leaking organic matter in circulating cooling water. Background Technology
[0002] Cooling water circulation system refers to a water supply system in which cooling water is exchanged for heat, cooled, and then recirculated. It includes two types: open and closed.
[0003] When using circulating pipes to cool components, organic matter leakage may occur (due to radiator damage, oil from the heat exchanger entering the circulating pipe). This can lead to problems such as microbial growth, increased corrosion, and scaling blockage in the circulating pipe, affecting system stability and heat exchange efficiency. Therefore, this application proposes a filter for organic matter leakage in circulating cooling water. Utility Model Content
[0004] The purpose of this invention is to provide a filter for leaking organic matter in circulating cooling water, in order to solve the problems mentioned in the background art, such as the growth of microorganisms, increased corrosion, and scaling and blockage in the circulating pipes, which affect the stability of the system and the heat exchange efficiency.
[0005] To achieve the above objectives, this utility model provides the following technical solution: a filter for leaking organic matter in circulating cooling water, comprising a circulating pipe and a filter, wherein cooling water flows through the circulating pipe;
[0006] The filter is equipped with a filter frame, which is filled with activated carbon for adsorbing organic matter in the cooling water.
[0007] The filter is provided with connecting pipes at both ends, and a connector is sleeved at the circulation pipe. The connector is provided with a tapered part that mates with the connecting pipe.
[0008] The circulation pipe is provided with a pipe opening, and a pipe opening closing ball is provided at the pipe opening. The size of the pipe opening closing ball is larger than the size of the pipe opening. The pipe opening closing ball is connected to an elastic component in the circulation pipe. The elastic component can provide a force to move the pipe opening closing ball to one side of the pipe opening.
[0009] A tube opening and closing push rod is inserted into the connecting tube. The tube opening and closing push rod is connected to a push-pull mechanism. The push-pull mechanism can push or pull the tube opening and closing push rod, and the tube opening and closing push rod is aligned with the tube opening closing ball.
[0010] Preferably, the filter frame is provided in multiple sets, and all sets of filter frames are installed on the inner wall of the filter.
[0011] Preferably, the joint is provided with a plurality of guide rods and guide sleeves, the plurality of guide rods being arranged in a circumferential array around the center line of the circulation pipe, the guide sleeves being installed on the joint, the guide rods being installed on the circulation pipe, and the guide rods and guide sleeves being in sliding engagement.
[0012] Preferably, a spring is fitted onto the guide sleeve, with one end of the spring connected to the guide rod and the other end of the spring connected to the guide sleeve.
[0013] Preferably, the push-pull mechanism includes a mounting sleeve, a diagonal rod, a crossbar, a trapezoidal plate, and a threaded rod, with the diagonal rod being movably connected to the opening and closing push rod of the pipe.
[0014] Preferably, multiple mounting sleeves are provided, with one mounting sleeve installed inside the filter and the remaining mounting sleeves installed inside the connecting pipe. The mounting sleeves are provided with through holes that allow cooling water to pass through.
[0015] Preferably, the inclined rod and the cross rod are movably connected, a sleeve is provided inside the filter, the sleeve cooperates with the cross rod, an inclined groove is provided inside the cross rod, the inclined groove cooperates with the inclined side of the trapezoidal plate, and a threaded rod is rotatably installed on the trapezoidal plate.
[0016] Preferably, the filter is provided with a threaded sleeve, which is connected to the threaded rod by a thread, and the threaded sleeve is installed on the outer wall of the filter.
[0017] Preferably, a replacement frame and a replacement auxiliary plate are provided on the outside of the circulation pipe, and the replacement auxiliary plate is movably connected to the replacement frame.
[0018] Preferably, the replacement auxiliary plate is provided with at least two mounting slots, which cooperate with the connecting pipe.
[0019] Beneficial effects:
[0020] I. This utility model provides a filter for leaking organic matter in circulating cooling water. By installing a filter on the circulating pipeline, and setting multiple filter frames inside the filter to store activated carbon, the organic matter entering the cooling water can be removed, preventing the organic matter from remaining inside the circulating pipeline for a long time.
[0021] II. This utility model provides a filter for leaking organic matter in circulating cooling water. The push-pull mechanism can push the pipe opening and closing push rod to move. The pipe opening and closing push rod squeezes the pipe closing ball, thereby opening the pipe. At this time, the circulating pipeline is in an open state. Conversely, the push-pull mechanism drives the pipe opening and closing push rod away, and the pipe closing ball, driven by the elastic component, blocks the pipe opening, thereby closing the circulating pipeline. Thus, before disassembling the filter, since the pipe opening and closing push rod is inserted into the circulating pipeline, it needs to be pulled out to remove the filter. Therefore, the pipe opening of the circulating pipeline can be closed before removing the filter. After the new filter is installed, the push-pull mechanism needs to be activated to push the pipe opening and closing push rod to move and open the pipe opening. Cooling water leakage in the circulating pipeline will not occur during the filter replacement process. Attached Figure Description
[0022] Figure 1 This is one of the structural schematic diagrams of the filter used in this utility model for leaking organic matter in circulating cooling water;
[0023] Figure 2 This is the second schematic diagram of the structure of the filter used in the circulating cooling water leaking organic matter in this utility model;
[0024] Figure 3 This is one of the internal structural diagrams of the filter used in this utility model for leaking organic matter in circulating cooling water;
[0025] Figure 4 This is the second schematic diagram of the internal structure of the filter used in this utility model for leaking organic matter in circulating cooling water.
[0026] Explanation of reference numerals in the attached figures:
[0027] 1. Circulation pipe; 2. Connector; 3. Guide rod; 4. Guide sleeve; 5. Pipe opening closing ball; 6. Elastic component; 7. Filter; 8. Filter frame; 9. Connecting pipe; 10. Pipe opening and closing push rod; 11. Mounting sleeve; 12. Diagonal bar; 13. Horizontal bar; 14. Trapezoidal plate; 15. Threaded rod; 16. Replacement frame; 17. Replacement auxiliary plate. Detailed Implementation
[0028] The specific embodiments of this utility model are described in detail below, but it should be understood that the protection scope of this utility model is not limited to the specific embodiments.
[0029] like Figures 1-4As shown in the figure, the present invention provides a filter for organic matter leakage in circulating cooling water, including a circulating pipe 1 and a filter 7. Cooling water is introduced into the circulating pipe 1 and flows along the circulating pipe 1. During the flow, the cooling water carries away the heat of external components, thereby achieving the heat dissipation function. If organic matter leaks during the flow of cooling water along the circulating pipe 1, it may lead to problems such as microbial growth, aggravated corrosion, and scaling and blockage in the circulating pipe 1, affecting the system stability and heat exchange efficiency.
[0030] To remove leaked organic matter from the cooling water, a filter 7 is installed at the circulation pipe 1. The filter 7 contains a filter frame 8, which is filled with activated carbon for adsorbing organic matter in the cooling water. For details, please refer to... Figure 3 , Figure 4 There are multiple sets of filter frames 8, and all sets of filter frames 8 are installed on the inner wall of the filter 7.
[0031] The activated carbon in filter 7 has limited adsorption capacity, so it needs to be replaced regularly. When replacing filter 7, circulation pipe 1 needs to be closed. To facilitate circulation pipe 1 and speed up the connection between filter 7 and circulation pipe 1, a connector 2 is provided at circulation pipe 1. It should be noted that connector 2 is provided with several guide rods 3 and guide sleeves 4. The multiple guide rods 3 are arranged in a circumferential array around the center line of circulation pipe 1. The guide sleeves 4 are installed on connector 2, and the guide rods 3 are installed on circulation pipe 1. The guide rods 3 and guide sleeves 4 are slidably engaged. A spring is provided at guide sleeve 4. One end of the spring is connected to the guide rod 3, and the other end of the spring is connected to guide sleeve 4. A tapered part is provided inside connector 2, which engages with connecting pipe 9.
[0032] The connector 2 is slidably engaged with the circulation pipe 1. Under the elastic force of the spring, the connector 2 moves away from the circulation pipe 1. When the two connecting pipes 9 at both ends of the filter 7 are aligned with the circulation pipe 1, the connector 2 engages with the circulation pipe 1. The connecting pipes 9 and the connector 2 can be further fixed with commonly used bolts and nuts to prevent loosening at the connection between the connector 2 and the connecting pipes 9.
[0033] In order to disconnect the circulation pipe 1 when replacing the filter 7, a pipe opening is provided in the circulation pipe 1. A pipe opening closing ball 5 is provided at the pipe opening. The size of the pipe opening closing ball 5 is larger than the size of the pipe opening. The pipe opening closing ball 5 is connected to the elastic component 6 in the circulation pipe 1. The elastic component 6 can provide a force to move the pipe opening closing ball 5 to one side of the pipe opening. In the absence of other external forces, the elastic component 6 can push the pipe opening closing ball 5 to move, thereby blocking the pipe opening. The elastic component 6 can be a common corrosion-resistant spring. The spring is made of corrosion-resistant plastic material, with a length of 2CM and a wire diameter of 1mm.
[0034] It should be noted that the filter 7 is provided with connecting pipes 9 at both ends. The connecting pipes 9 and the filter 7 are connected by bolts and nuts. A pipe opening and closing push rod 10 is inserted into the connecting pipe 9. The pipe opening and closing push rod 10 is connected to a push-pull mechanism. The push-pull mechanism can push or pull the pipe opening and closing push rod 10. The pipe opening and closing push rod 10 is aligned with the pipe opening closing ball 5. It should be noted that the diameter of the pipe opening and closing push rod 10 is smaller than the size of the pipe opening.
[0035] The push-pull mechanism can move the port opening / closing push rod 10, which squeezes the port closing ball 5, thereby opening the port. At this time, the circulation pipe 1 is in the connected state. Conversely, the push-pull mechanism moves the port opening / closing push rod 10 away, and the port closing ball 5, driven by the elastic component 6, blocks the port, thereby closing the circulation pipe 1. Thus, before removing the filter 7, since the port opening / closing push rod 10 is inserted into the circulation pipe 1, it needs to be pulled out to remove the filter 7. Therefore, the port of the circulation pipe 1 can be closed before removing the filter 7. After the new filter 7 is installed, the push-pull mechanism needs to be activated to move the port opening / closing push rod 10 and open the port. There will be no leakage of cooling water in the circulation pipe 1 during the replacement of the filter 7.
[0036] It should be noted that the push-pull mechanism includes a mounting sleeve 11, a diagonal rod 12, a horizontal rod 13, a trapezoidal plate 14, and a threaded rod 15. The diagonal rod 12 is movably connected to the pipe opening and closing push rod 10. Multiple mounting sleeves 11 are provided, with one mounting sleeve 11 installed inside the filter 7 and the remaining mounting sleeves 11 installed inside the connecting pipe 9. The mounting sleeve 11 is provided with a through hole that allows cooling water to pass through.
[0037] Specifically, the diagonal bar 12 is movably connected to the horizontal bar 13. A sleeve is provided inside the filter 7, which cooperates with the horizontal bar 13. An inclined groove is provided inside the horizontal bar 13, which cooperates with the inclined side of the trapezoidal plate 14. A threaded rod 15 is rotatably installed on the trapezoidal plate 14. A threaded sleeve is provided on the filter 7, and the threaded sleeve is connected to the threaded rod 15 by threads. The threaded sleeve is installed on the outer wall of the filter 7.
[0038] Rotating the threaded rod 15 causes the trapezoidal plate 14 to move up and down. As the trapezoidal plate 14 moves downward, it squeezes the crossbar 13, causing the crossbar 13 to gradually insert into the filter 7. The crossbar 13 squeezes the port opening / closing push rod 10 through the inclined rod 12. Guided by the mounting sleeve 11, the port opening / closing push rod 10 can only move up and down. When the port opening / closing push rod 10 moves downward, it can squeeze the port closing ball 5, thereby opening the port. Conversely, rotating the threaded rod 15 and then pulling the crossbar 13 can pull the port opening / closing push rod 10 out of the port.
[0039] To facilitate the replacement of filter 7, a replacement frame 16 and a replacement auxiliary plate 17 are provided on the outside of the circulation pipe 1. The replacement auxiliary plate 17 is movably connected to the replacement frame 16. The replacement auxiliary plate 17 has at least two mounting slots that cooperate with the connecting pipe 9. Two filters 7 can be placed on the replacement auxiliary plate 17. When replacing filter 7, the new filter 7 is connected to the connecting pipe 9 on the replacement auxiliary plate 17. Then, the pipe opening of the circulation pipe 1 is closed, and the connector 2 is disconnected from the connecting pipe 9. Then, the replacement auxiliary plate 17 is pushed to push the new filter 7 and the connecting pipe 9 to the position of the circulation pipe 1. Then, the new connecting pipe 9 is connected to the circulation pipe 1. After the connection, the pipe opening is opened.
[0040] In summary, this utility model embodiment provides a filter for leaking organic matter in circulating cooling water. The push-pull mechanism can move the pipe opening and closing push rod 10, which squeezes the pipe closing ball 5, thereby opening the pipe. At this time, the circulating pipe 1 is in an open state. Conversely, the push-pull mechanism moves the pipe opening and closing push rod 10 away, and the pipe closing ball 5, driven by the elastic component 6, blocks the pipe opening, thereby closing the circulating pipe 1. Thus, before disassembling the filter 7, since the pipe opening and closing push rod 10 is inserted into the circulating pipe 1, it is necessary to pull out the pipe opening and closing push rod 10 to remove the filter 7. Therefore, the pipe opening of the circulating pipe 1 can be closed before removing the filter 7. After the new filter 7 is installed, the push-pull mechanism needs to be activated to move the pipe opening and closing push rod 10 and open the pipe. This prevents cooling water leakage in the circulating pipe 1 during the replacement of the filter 7.
[0041] The above-disclosed embodiments are only a few specific examples of the present utility model. However, the embodiments of the present utility model are not limited thereto. Any changes that can be conceived by those skilled in the art should fall within the protection scope of the present utility model.
Claims
1. A filter for leaking organic matter in circulating cooling water, comprising a circulating pipe (1) and a filter (7), characterized in that, Cooling water is introduced into the circulating pipe (1); The filter (7) is provided with a filter frame (8), and the filter frame (8) is filled with activated carbon for adsorbing organic matter in the cooling water; The filter (7) is provided with connecting pipes (9) at both ends, and a connector (2) is sleeved at the circulation pipe (1). The connector (2) is provided with a tapered part that cooperates with the connecting pipe (9). The circulation pipe (1) is provided with a pipe opening, and a pipe opening closing ball (5) is provided at the pipe opening. The size of the pipe opening closing ball (5) is larger than the size of the pipe opening. The pipe opening closing ball (5) is connected to the elastic component (6) in the circulation pipe (1). The elastic component (6) can give the pipe opening closing ball (5) a force to move to one side of the pipe opening. A pipe opening and closing push rod (10) is inserted into the connecting pipe (9). The pipe opening and closing push rod (10) is connected to a push-pull mechanism. The push-pull mechanism can push or pull the pipe opening and closing push rod (10). The pipe opening and closing push rod (10) is aligned with the pipe opening closing ball (5).
2. A filter for leaking organic matter in circulating cooling water as described in claim 1, characterized in that, The filter frame (8) is provided in multiple sets, and all sets of filter frames (8) are installed on the inner wall of the filter (7).
3. A filter for leaking organic matter in circulating cooling water as described in claim 1, characterized in that, The joint (2) is provided with several guide rods (3) and guide sleeves (4). The multiple guide rods (3) are arranged in a circumferential array around the center line of the circulation pipe (1). The guide sleeves (4) are installed on the joint (2), and the guide rods (3) are installed on the circulation pipe (1). The guide rods (3) and guide sleeves (4) are in sliding fit.
4. A filter for leaking organic matter in circulating cooling water as described in claim 3, characterized in that, A spring is fitted on the guide sleeve (4), with one end of the spring connected to the guide rod (3) and the other end of the spring connected to the guide sleeve (4).
5. A filter for leaking organic matter in circulating cooling water as described in claim 1, characterized in that, The push-pull mechanism includes a mounting sleeve (11), a diagonal rod (12), a horizontal rod (13), a trapezoidal plate (14), and a threaded rod (15). The diagonal rod (12) is movably connected to the opening and closing push rod (10).
6. A filter for leaking organic matter in circulating cooling water as described in claim 5, characterized in that, Multiple mounting sleeves (11) are provided, and one mounting sleeve (11) is installed inside the filter (7), while the remaining mounting sleeves (11) are installed inside the connecting pipe (9). The mounting sleeves (11) are provided with through holes that allow cooling water to pass through.
7. A filter for leaking organic matter in circulating cooling water as described in claim 6, characterized in that, The inclined rod (12) is movably connected to the horizontal rod (13). A sleeve is provided inside the filter (7), which cooperates with the horizontal rod (13). An inclined groove is provided inside the horizontal rod (13), which cooperates with the inclined side in the trapezoidal plate (14). A threaded rod (15) is rotatably installed on the trapezoidal plate (14).
8. A filter for leaking organic matter in circulating cooling water as described in claim 7, characterized in that, The filter (7) is provided with a threaded sleeve, which is connected to the threaded rod (15) by threads. The threaded sleeve is installed on the outer wall of the filter (7).
9. A filter for leaking organic matter in circulating cooling water as described in claim 1, characterized in that, The outer side of the circulation pipe (1) is provided with a replacement frame (16) and a replacement auxiliary plate (17), and the replacement auxiliary plate (17) is movably connected to the replacement frame (16).
10. A filter for leaking organic matter in circulating cooling water as described in claim 9, characterized in that, The replacement auxiliary plate (17) is provided with at least two mounting slots, which cooperate with the connecting pipe (9).