Modular ozone generator set
Through modular design and electric telescopic rod limiting frame structure, flexible combination and automatic control of ozone generators are realized, solving the problems of ozone waste and high energy consumption, and improving the reliability and flexibility of the equipment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JIANGSU KONER OZONE
- Filing Date
- 2025-07-17
- Publication Date
- 2026-06-30
AI Technical Summary
Existing ozone generator designs result in ozone waste and excessive energy consumption, and the entire equipment must be shut down for maintenance when a single fault occurs, making it impossible to flexibly adjust the ozone output.
The ozone generator adopts a modular design, utilizing a multi-stage electric telescopic rod and a limit frame structure to achieve modular assembly and automatic start-stop of the ozone generator body. The air inlet and outlet pipes are controlled by an electronically controlled valve, and the number of ozone generators can be adjusted according to needs.
It ensures that the overall operation is not affected when a single ozone generator fails, reducing downtime for maintenance, reducing energy consumption, and allowing for flexible adjustment of ozone levels to meet different needs.
Smart Images

Figure CN224430202U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of ozone equipment technology, specifically to a modular ozone generator assembly. Background Technology
[0002] With the expansion of ozone's application scope, ozone, as an oxidant and disinfectant, can be widely used in tap water disinfection, sewage purification, and oxidation processes in industries such as chemical, petrochemical, and hydrometallurgy, as well as in oxidation, sterilization, deodorization, purification, and decolorization in industries such as textiles, papermaking, chemical rubber, electroplating, biopharmaceuticals, animal husbandry and aquaculture, and food and beverage.
[0003] Design institutes design ozone generators based on maximum consumption, but customers often don't need that much ozone. This results in excessive ozone production and waste, as well as excessive consumption of oxygen and electricity. Furthermore, if the ozone discharge tube short-circuits, the entire ozone generator needs to be shut down for maintenance.
[0004] To address the aforementioned issues, an improved modular ozone generator assembly is now designed. Utility Model Content
[0005] The purpose of this invention is to provide a modular ozone generator assembly to solve the problems mentioned in the background art.
[0006] To achieve the above objectives, this utility model provides the following technical solution:
[0007] A modular ozone generator assembly includes a base and several ozone generator bodies. Two third limiting frames are vertically mounted on the upper part of the base, and the two third limiting frames are parallel to each other. Connecting blocks are installed on the two opposite side walls of each third limiting frame. A support frame for placing the ozone generator body is installed at the end of each connecting block away from the third limiting frame. Electrically controlled valves are installed on the air inlet pipe, cooling water inlet pipe, and ozone outlet pipe of each ozone generator body. The ozone generator body adopts existing technology; its structure and principle will not be specifically described here. The base is provided with an expansion mechanism for placing a specified number of ozone generator bodies according to actual needs.
[0008] As a further embodiment of this utility model: the expansion mechanism includes two multi-stage electric telescopic rods, which are vertically installed on the upper part of the base. Two third limiting frames are arranged between the two multi-stage electric telescopic rods. A top plate is installed at the output end of each multi-stage electric telescopic rod. A second limiting frame is vertically arranged on the sidewalls of the two third limiting frames that are close to each other. A first limiting frame is vertically arranged on the sidewalls of the two second limiting frames that are close to each other. The upper end of the first limiting frame is installed at the lower end of the top plate. A connecting block is also installed on the two opposite sidewalls of the first and second limiting frames. A support frame for placing the ozone generator body is installed at the end of the connecting block away from the first and second limiting frames. When the multi-stage electric telescopic rods are retracted to the bottom, the support frames on the first, second, and third limiting frames are aligned side by side.
[0009] As a further embodiment of this utility model: Limiting grooves are vertically formed on the inner walls of the first, second, and third limiting frames. A first slider is installed at the lower end of the side wall of the first limiting frame near the second limiting frame, and at the lower end of the side wall of the second limiting frame near the third limiting frame. A second slider, cooperating with the limiting groove, is installed on the side wall of the first slider. The first slider on the first limiting frame is slidably connected to the inner wall of the second limiting frame, and the second slider on the first limiting frame is slidably connected to the limiting groove on the inner wall of the second limiting frame. The first slider on the second limiting frame is slidably connected to the inner wall of the third limiting frame, and the second slider on the second limiting frame is slidably connected to the limiting groove on the inner wall of the third limiting frame.
[0010] As a further improvement of this utility model, a rubber pad is installed on the inner wall of the support frame to facilitate the stable placement of the ozone generator body.
[0011] As a further improvement of this utility model, reinforcing support ribs for improving structural strength are installed on the side walls of the first limiting frame, the second limiting frame, and the third limiting frame.
[0012] As a further improvement of this utility model, the lower end of the base is equipped with a moving roller to facilitate the movement of the device.
[0013] Compared with the prior art, the beneficial effects of this utility model are:
[0014] This invention combines multiple ozone generator bodies together. When a single ozone generator body malfunctions, the malfunctioning ozone generator body can be shut down without affecting the operation of the entire ozone generator group, thus reducing the downtime for maintenance of the ozone generator group.
[0015] The ozone generator set can automatically start or stop a corresponding number of ozone generators according to the ozone demand on site, realizing automated control and reducing energy consumption on site.
[0016] When customers need to add or remove ozone generator bodies in the later stages of use, the number of support frames can be adjusted, making it convenient for users. Attached Figure Description
[0017] Figure 1 This is a schematic diagram of the structure of this utility model.
[0018] Figure 2 This is a schematic diagram of the ozone generator body in this utility model.
[0019] Figure 3 This is a schematic diagram of the structure of the first limiting frame, the second limiting frame, and the third limiting frame in this utility model.
[0020] Figure 4 This is a schematic diagram of the two-layer structure of this utility model.
[0021] The components include: 1. Base; 2. Multi-stage electric telescopic rod; 3. Top plate; 4. First limiting frame; 5. Second limiting frame; 6. Third limiting frame; 7. Bearing frame; 8. Ozone generator body; 81. Cooling water outlet pipe; 82. Air inlet pipe; 83. Cooling water inlet pipe; 84. Ozone outlet pipe; 85. Electrically controlled valve; 9. First slider; 10. Connecting block; 11. Second slider; 12. Limiting groove. Detailed Implementation
[0022] 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.
[0023] Please see Figures 1-4In this embodiment of the utility model, the modular ozone generator assembly includes a base 1 and several ozone generator bodies 8. Two third limiting frames 6 are vertically installed on the upper end of the base 1. The two third limiting frames 6 are parallel to each other. Connecting blocks 10 are installed on the two opposite side walls of the third limiting frames 6. A bearing frame 7 for placing the ozone generator bodies 8 is installed at the end of the connecting block 10 away from the third limiting frames 6. Electrically controlled valves 85 are installed on the air inlet pipe 82, cooling water inlet pipe 83, and ozone outlet pipe 84 of the ozone generator bodies 8. The ozone generator bodies 8 adopt the prior art, and the structure and principle of the ozone generator bodies 8 will not be specifically described here. The base 1 is provided with an expansion mechanism for placing a specified number of ozone generator bodies 8 according to actual needs.
[0024] During use, the air inlet pipe 82, cooling water inlet pipe 83, and ozone outlet pipe 84 are switched on and off by the electronically controlled valve 85, thereby enabling the start and stop of a single ozone generator body 8. This facilitates the allocation of several ozone generator bodies 8 as needed during actual production.
[0025] The expansion mechanism includes two multi-stage electric telescopic rods 2, which are vertically installed on the upper part of the base 1. Two third limiting frames 6 are arranged between the two multi-stage electric telescopic rods 2. A top plate 3 is installed on the output end of the multi-stage electric telescopic rod 2. A second limiting frame 5 is vertically arranged on the side wall of the two third limiting frames 6 that are close to each other. A first limiting frame 4 is vertically arranged on the side wall of the two second limiting frames 5 that are close to each other. The upper end of the first limiting frame 4 is installed on the lower end of the top plate 3. A connecting block 10 is also installed on the two opposite side walls of the first limiting frame 4 and the second limiting frame 5. A support frame 7 for placing the ozone generator body 8 is installed on the end of the connecting block 10 away from the first limiting frame 4 and the second limiting frame 5. When the multi-stage electric telescopic rod 2 is retracted to the bottom, the support frames 7 on the first limiting frame 4, the second limiting frame 5, and the third limiting frame 6 are aligned side by side.
[0026] Limiting grooves 12 are vertically formed on the inner walls of the first limiting frame 4, the second limiting frame 5, and the third limiting frame 6. A first slider 9 is installed on the lower end of the side wall of the first limiting frame 4 near the second limiting frame 5, and on the lower end of the side wall of the second limiting frame 5 near the third limiting frame 6. A second slider 11 that cooperates with the limiting groove 12 is installed on the side wall of the first slider 9. The first slider 9 on the first limiting frame 4 is slidably connected to the inner wall of the second limiting frame 5, and the second slider 11 on the first limiting frame 4 is slidably connected to the limiting groove 12 on the inner wall of the second limiting frame 5. The first slider 9 on the second limiting frame 5 is slidably connected to the inner wall of the third limiting frame 6, and the second slider 11 on the second limiting frame 5 is slidably connected to the limiting groove 12 on the inner wall of the third limiting frame 6.
[0027] When using a single layer, the multi-stage electric telescopic rod 2 does not need to be activated. When using two layers, the multi-stage electric telescopic rod 2 is activated. The output end of the multi-stage electric telescopic rod 2 drives the top plate 3 to move. The top plate 3 drives the first limiting frame 4 to move, lifting the first limiting frame 4 out of the second limiting frame 5. The first limiting frame 4 drives the first slider 9 and the second slider 11 to slide along the inner wall of the second limiting frame 5. When using three layers, the multi-stage electric telescopic rod 2 is activated again. The multi-stage electric telescopic rod 2 drives the second limiting frame 5 to move through the first limiting frame 4, lifting the second limiting frame 5 out of the third limiting frame 6. The second limiting frame 5 drives the first slider 9 and the second slider 11 to slide along the inner wall of the third limiting frame 6.
[0028] Working principle of modular ozone generator sets:
[0029] Depending on actual needs, if only one layer is used, the multi-stage electric telescopic rod 2 does not need to be activated. If two layers are used, the multi-stage electric telescopic rod 2 is activated. The output end of the multi-stage electric telescopic rod 2 drives the top plate 3 to move. The top plate 3 drives the first limiting frame 4 to move, lifting the first limiting frame 4 out of the second limiting frame 5. The first limiting frame 4 drives the first slider 9 and the second slider 11 to slide along the inner wall of the second limiting frame 5. If three layers are used, the multi-stage electric telescopic rod 2 is activated again. The multi-stage electric telescopic rod 2 drives the second limiting frame 5 to move through the first limiting frame 4, lifting the second limiting frame 5 out of the third limiting frame 6. The second limiting frame 5 drives the first slider 9 and the second slider 11 to slide along the inner wall of the third limiting frame 6.
[0030] Then, the ozone generator body 8 is placed on the support frame 7. During use, the air inlet pipe 82, cooling water inlet pipe 83, and ozone outlet pipe 84 are switched on and off by the electric control valve 85, thereby realizing the start and stop of a single ozone generator body 8. This makes it convenient to distribute several ozone generator bodies 8 as needed during actual production.
[0031] It will be apparent to those skilled in the art that this invention is not limited to the details of the exemplary embodiments described above, and that it can be implemented in other specific forms without departing from the spirit or essential characteristics of this invention.
Claims
1. Modular ozone generator set, comprising a base (1) and a plurality of ozone generator bodies (8), the upper end of the base (1) is vertically provided with two third limiting frames (6), the two third limiting frames (6) are parallel to each other, and the two opposite side walls of the third limiting frame (6) are both provided with a connecting block (10), and the end of the connecting block (10) away from the third limiting frame (6) is provided with a bearing frame (7) for placing the ozone generator body (8), characterized in that, The ozone generator body (8) is equipped with an electrically controlled valve (85) on its air inlet pipe (82), cooling water inlet pipe (83), and ozone outlet pipe (84). The base (1) is provided with an expansion mechanism for placing a specified number of ozone generator bodies (8) according to actual needs.
2. The modular ozone generator assembly according to claim 1, characterized in that, The extension mechanism includes two multi-stage electric telescopic rods (2), which are vertically installed on the upper end of the base (1). Two third limiting frames (6) are arranged between the two multi-stage electric telescopic rods (2). A top plate (3) is installed on the output end of each multi-stage electric telescopic rod (2). A second limiting frame (5) is vertically arranged on the sidewalls of the two third limiting frames (6) that are close to each other. A first limiting frame (4) is vertically arranged on the sidewalls of the two second limiting frames (5) that are close to each other. The upper end of the first limiting frame (4) is installed at the lower end of the top plate (3). Connecting blocks (10) are also installed on the two opposite side walls of the first limiting frame (4) and the second limiting frame (5). A bearing frame (7) for placing the ozone generator body (8) is installed at the end of the connecting block (10) away from the first limiting frame (4) and the second limiting frame (5). When the multi-stage electric telescopic rod (2) is retracted to the bottom, the bearing frames (7) on the first limiting frame (4), the second limiting frame (5) and the third limiting frame (6) are aligned side by side.
3. The modular ozone generator assembly according to claim 2, characterized in that, The inner walls of the first limiting frame (4), the second limiting frame (5), and the third limiting frame (6) are all vertically provided with limiting grooves (12). The lower end of the side wall of the first limiting frame (4) near the second limiting frame (5) and the lower end of the side wall of the second limiting frame (5) near the third limiting frame (6) are each equipped with a first slider (9). The side wall of the first slider (9) is equipped with a second slider (11) that works in conjunction with the limiting groove (12). The first slider (9) on the first limiting frame (4) is slidably connected to the inner wall of the second limiting frame (5). The second slider (11) on the first limiting frame (4) is slidably connected to the limiting groove (12) on the inner wall of the second limiting frame (5). The first slider (9) on the second limiting frame (5) is slidably connected to the inner wall of the third limiting frame (6). The second slider (11) on the second limiting frame (5) is slidably connected to the limiting groove (12) on the inner wall of the third limiting frame (6).
4. The modular ozone generator assembly according to claim 2, characterized in that, The inner wall of the support frame (7) is equipped with a rubber pad to facilitate the stable placement of the ozone generator body (8).
5. The modular ozone generator assembly according to claim 2, characterized in that, The side walls of the first limiting frame (4), the second limiting frame (5), and the third limiting frame (6) are all equipped with reinforcing support ribs to improve the structural strength.
6. The modular ozone generator assembly according to claim 1, characterized in that, The lower end of the base (1) is equipped with a movable roller to facilitate the movement of the device.