Special power supply for electrocoagulation

CN224385837UActive Publication Date: 2026-06-19NINGBO BOMEI POWER TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
NINGBO BOMEI POWER TECH CO LTD
Filing Date
2025-06-05
Publication Date
2026-06-19

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Abstract

The utility model relates to the technical field of special power supply of electric flocculation, concretely is special power supply of electric flocculation, special power supply of electric flocculation, including box and setting installation side board at one side of box, and the quick -detachable structure is connected fast between box and installation side board, and the quick -detachable structure includes the fixed base that sets in the four corners of installation side board one side, the sliding insertion rod that is connected with fixed base and the multiple installation sliding slot that is connected with sliding insertion rod, wherein, installation sliding slot is set up in the four corners of box, and the number of installation sliding slot is same with fixed base, and two limit top blocks for sliding insertion rod insertion limit are fixedly arranged in each installation sliding slot inside. The staff can directly push the installation side board and the box and install, in this process, installation sliding slot and sliding insertion rod are connected slidingly, then the structure in the inside of sliding insertion rod is used to limit the sliding of installation sliding slot, so that the installation side board can be installed fast.
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Description

Technical Field

[0001] This utility model relates to a power supply for electrocoagulation and belongs to the technical field of power supplies for electrocoagulation. Background Technology

[0002] During long-term operation, the corrosive gases from the electrolyte in the power supply for electrocoagulation can erode circuit components, leading to increased contact resistance, fluctuations in output current, and affecting the flocculation effect. Dust accumulation can reduce the efficiency of the heat sink, causing the IGBT module to overheat and break down. Aging of electrolytic capacitors can reduce filtering performance, causing the DC output ripple coefficient to exceed the standard and exacerbating electrode polarization losses. Oxidation of relay contacts may cause arc discharge, resulting in distortion of control signals.

[0003] Therefore, regular maintenance of the internal components of the electrocoagulation power supply is necessary to ensure its stable operation. However, the existing power supply box design mostly relies on screws for fixing, making disassembly cumbersome and time-consuming, increasing maintenance difficulty. Frequent disassembly and assembly may also cause screw stripping, thread wear, or even damage to the box's sealing performance.

[0004] Therefore, it is urgent to improve the power supply for electrocoagulation to solve the above-mentioned problems. Utility Model Content

[0005] The purpose of this utility model is to provide a dedicated power supply for electrocoagulation. By aligning the four corners of the mounting side plate and the inner side of the box, the operator can directly push the mounting side plate to the box for installation. During this process, the mounting groove and the sliding rod are slidably connected. Then, the structure inside the sliding rod is used to limit the sliding of the mounting groove, thereby enabling the mounting side plate to be installed quickly.

[0006] To achieve the above objectives, the main technical solution adopted by this utility model includes: a special power supply for electrocoagulation, comprising a housing and a mounting side plate disposed on one side of the housing, wherein the housing and the mounting side plate are quickly connected by a quick-release structure;

[0007] The quick-release structure includes a fixed base fixedly disposed at one of the four corners of the mounting side plate, a sliding rod slidably connected to the fixed base, and a plurality of mounting grooves slidably inserted into the sliding rod.

[0008] The mounting grooves are formed at the four corners of one side of the housing. The number of mounting grooves is the same as that of the fixed base. Each mounting groove is fixedly provided with two limiting top blocks for limiting the insertion of the sliding rod.

[0009] Preferably, one end of the sliding rod is fixedly provided with two connecting slide rods, both ends of the two connecting slide rods are slidably connected to the inner wall of the fixed base, and the sliding rod is slidably connected to the fixed base through the connecting slide rods.

[0010] Preferably, a movable cavity is provided at one end of the outer side of the sliding rod, the movable cavity extends to the outside of opposite sides of the sliding rod, and the sliding rod is tumbledly connected to two first movable balls through the movable cavity.

[0011] Preferably, the movable cavity is further provided with two second movable balls, wherein the two first movable balls are exposed on opposite sides of the sliding rod, and the second movable balls are rolled inside the movable cavity and abut against the first movable balls.

[0012] Preferably, a spring is fixedly provided on one side of the inner wall of the movable cavity, and a pressure plate is fixedly provided on the other end of the spring. One side of the pressure plate abuts against the two second movable balls.

[0013] Preferably, each pair of limiting top blocks is fixedly disposed on opposite sides of the inner wall of the mounting groove, and each limiting top block has a groove on one side.

[0014] Preferably, the mounting side plate is provided with multiple heat dissipation grooves, which are used for ventilation and heat dissipation of the electrical components inside the enclosure.

[0015] This utility model has at least the following beneficial effects:

[0016] 1. By aligning the four corners of the mounting side panel with the inside of the housing, the operator can directly push the mounting side panel into the housing for installation. During this process, the mounting groove and the sliding rod are slidably connected. Then, the structure inside the sliding rod is used to limit the sliding of the mounting groove, thereby enabling the mounting side panel to be installed quickly.

[0017] 2. After the mounting slide and the sliding rod are slidably connected, the two first movable balls can be pushed by the limiting top block, so that the two first movable balls can gradually move towards the second movable ball after being subjected to force. At this time, the mounting slide can continue to move towards the fixed base side. When the groove opened on the limiting top block contacts the first movable ball, the first movable ball can be reset by the spring and the ejection action of the second movable ball, so as to abut against the groove, thereby limiting the sliding of the mounting slide and the sliding rod. Attached Figure Description

[0018] The accompanying drawings, which are included to provide a further understanding of this application and form part of this application, illustrate exemplary embodiments and are used to explain this application, but do not constitute an undue limitation of this application. In the drawings:

[0019] Figure 1 This is a schematic diagram of the overall three-dimensional structure of the electrocoagulation power supply in this embodiment of the present invention;

[0020] Figure 2 This is a schematic diagram showing the disassembly of the mounting side plate and the housing of the electrocoagulation power supply in an embodiment of this utility model.

[0021] Figure 3 This is a schematic diagram of the connection between the housing and the mounting side plate of the electrocoagulation power supply in an embodiment of this utility model.

[0022] Figure 4 This is a schematic diagram showing the connection between the fixed base and the mounting slide of the electrocoagulation power supply in an embodiment of this utility model.

[0023] In the diagram, 1 is the housing; 3 is the mounting side panel; 5 is the heat dissipation groove; 6 is the fixed base; 7 is the sliding rod; 9 is the mounting slide; 10 is the limiting top block; 11 is the first movable ball; 12 is the movable cavity; 13 is the second movable ball; 14 is the pressure plate; 15 is the spring; and 17 is the connecting slide rod. Detailed Implementation

[0024] The following will describe in detail the implementation of this application with reference to the accompanying drawings and embodiments, so that the implementation process of how this application uses technical means to solve technical problems and achieve technical effects can be fully understood and implemented accordingly.

[0025] Examples, such as Figures 1-4 As shown, the dedicated power supply for electrocoagulation includes a housing 1 and a mounting side plate 3 located on one side of the housing 1. The housing 1 and the mounting side plate 3 are quickly connected via a quick-release structure. This quick-release structure allows for rapid disassembly and assembly of the mounting side plate 3 and the housing 1, thereby improving the efficiency of maintenance and upkeep of the housing 1 by the staff.

[0026] The quick-release structure includes fixed bases 6 at the four corners of one side of the mounting side plate 3, sliding rods 7 slidably connected to the fixed bases 6, and multiple mounting grooves 9 slidably inserted into the sliding rods 7. The number of mounting grooves 9 is the same as the number of fixed bases 6. Each mounting groove 9 has two limiting blocks 10 fixedly installed inside for limiting the insertion of the sliding rods 7. By aligning the four corners of the mounting side plate 3 and the inner side of the housing 1, the operator can directly push the mounting side plate 3 into the housing 1 for insertion. During this process, the mounting grooves 9 and the sliding rods 7 are slidably connected. Then, the structure inside the sliding rods 7 limits the sliding of the mounting grooves 9, thus enabling quick installation of the mounting side plate 3.

[0027] Furthermore, a movable cavity 12 is provided at one end of the outer side of the sliding rod 7, extending to the outer sides of opposite sides of the sliding rod 7. Two first movable balls 11 are tumblingly connected to the sliding rod 7 through the movable cavity 12. Two second movable balls 13 are also provided inside the movable cavity 12. The two first movable balls 11 are exposed on opposite sides of the sliding rod 7, while the second movable balls 13 are tumbling inside the movable cavity 12 and abut against the first movable balls 11. A spring 15 is fixedly installed on one side of the inner wall of the movable cavity 12, and a pressure plate 14 is fixedly installed on the other end of the spring 15. One side of the pressure plate 14 abuts against the two second movable balls 13. Each pair of limiting top blocks 10... The mounting slide 9 is fixedly installed on opposite sides of the inner wall of the mounting slide 9, and each limiting top block 10 has a groove on one side. When the mounting slide 9 is slidably connected to the sliding rod 7, the limiting top block 10 can push the two first movable balls 11, so that the two first movable balls 11 can gradually move towards the second movable ball 13 after being subjected to force. At this time, the mounting slide 9 can continue to move towards the fixed base 6. When the groove on the limiting top block 10 contacts the first movable ball 11, the first movable ball 11 can be reset by the pushing action of the spring 15 and the second movable ball 13, so that it can abut against the groove, thereby limiting the sliding of the mounting slide 9 and the sliding rod 7.

[0028] When the first movable ball 11 moves toward the second movable ball 13, it compresses the second movable ball 13. When the second movable ball 13 is compressed, it applies pressure to the spring 15 through the pressure plate 14, causing the spring 15 to store and contract.

[0029] During this process, the sliding rod 7 will slide with the fixed base 6 through the connecting slide rod 17, ensuring that after the installation groove 9 is slidably limited, one side of it can contact one side of the fixed base 6.

[0030] Conversely, when it is necessary to disassemble the mounting side plate 3, the staff pulls the mounting side plate 3 so that the protruding side of the limiting top block 10 presses against the first movable ball 11, and then the limiting top block 10 can separate from the first movable ball 11 so that the mounting side plate 3 can be disassembled from the box body 1.

[0031] It should be noted that the reference Figure 4 The groove extending outward from the movable cavity 12 has a diameter smaller than that of the two first movable balls 11, thereby preventing the first movable balls 11 from falling off the sliding rod 7.

[0032] Furthermore, multiple heat dissipation slots 5 are provided on the mounting side plate 3. The heat dissipation slots 5 are used for ventilation and heat dissipation of the electrical components inside the enclosure 1. The heat dissipation slots 5 can dissipate the heat generated by the electrical components inside the enclosure 1 in a timely manner to avoid excessive heat accumulation.

[0033] In this embodiment, as Figures 1-4As shown, the principle of the dedicated power supply for electrocoagulation provided in this embodiment is as follows:

[0034] After aligning the four corners of the mounting side plate 3 and the inner side of the box 1, the staff can directly push the mounting side plate 3 and the box 1 into place. During this process, the mounting groove 9 and the sliding rod 7 are slidably connected. Then, the structure inside the sliding rod 7 is used to limit the sliding of the mounting groove 9, so that the mounting side plate 3 can be installed quickly.

[0035] After the mounting groove 9 and the sliding rod 7 are slidably connected, the two first movable balls 11 can be pushed by the limiting top block 10, so that the two first movable balls 11 can gradually move towards the second movable ball 13 after being subjected to force. At this time, the mounting groove 9 can continue to move towards the fixed base 6. When the groove opened on the limiting top block 10 contacts the first movable ball 11, the first movable ball 11 can be reset by the pushing action of the spring 15 and the second movable ball 13, so that it can abut against the groove, thereby limiting the sliding of the mounting groove 9 and the sliding rod 7.

[0036] When the first movable ball 11 moves toward the second movable ball 13, it compresses the second movable ball 13. When the second movable ball 13 is compressed, it applies pressure to the spring 15 through the pressure plate 14, causing the spring 15 to store and contract.

[0037] During this process, the sliding rod 7 will slide with the fixed base 6 through the connecting slide rod 17, ensuring that after the installation groove 9 is slidably limited, one side of it can contact one side of the fixed base 6.

[0038] Conversely, when the mounting side plate 3 needs to be disassembled, the staff pulls the mounting side plate 3 so that the protruding side of the limiting top block 10 presses against the first movable ball 11, and then the limiting top block 10 can separate from the first movable ball 11 so that the mounting side plate 3 can be disassembled from the box body 1.

[0039] If certain terms are used in the specification and claims to refer to specific components, those skilled in the art will understand that hardware manufacturers may use different names to refer to the same component. This specification and claims do not distinguish components based on differences in name, but rather on differences in function. The term "comprising" as used throughout the specification and claims is an open-ended term and should be interpreted as "comprising but not limited to." "Approximately" means that within an acceptable margin of error, those skilled in the art can solve the technical problem and substantially achieve the technical effect within a certain margin of error.

[0040] It should be noted that the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a product or system comprising a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a product or system. Without further limitation, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the product or system that includes that element.

[0041] The foregoing description illustrates and describes several preferred embodiments of the present invention. However, as previously stated, it should be understood that the present invention is not limited to the forms disclosed herein and should not be construed as excluding other embodiments. It can be used in various other combinations, modifications, and environments, and can be altered within the scope of the inventive concept described herein through the foregoing teachings or techniques or knowledge in related fields. Any modifications and variations made by those skilled in the art that do not depart from the spirit and scope of the present invention should be within the protection scope of the appended claims.

Claims

1. A power supply special for electrocoagulation, comprising a box body (1) and a mounting side plate (3) arranged on one side of the box body (1), characterized in that: The housing (1) and the mounting side plate (3) are quickly connected by a quick-release structure; The quick-release structure includes a fixed base (6) fixedly disposed at one of the four corners of the mounting side plate (3), a sliding rod (7) slidably connected to the fixed base (6), and a plurality of mounting grooves (9) slidably inserted into the sliding rod (7); The mounting grooves (9) are opened at the four corners of one side of the housing (1). The number of mounting grooves (9) is the same as that of the fixed base (6). Each mounting groove (9) has two limiting top blocks (10) fixedly installed inside for the insertion and limiting of the sliding rod (7).

2. The power supply for electrocoagulation according to claim 1, characterized in that: Two connecting slide rods (17) are fixedly provided at one end of the sliding rod (7). Both ends of the two connecting slide rods (17) are slidably connected to the inner wall of the fixed base (6). The sliding rod (7) is slidably connected to the fixed base (6) through the connecting slide rods (17).

3. The power supply for electrocoagulation according to claim 1, characterized in that: The sliding rod (7) has a movable cavity (12) at one end on the outside. The movable cavity (12) extends to the outside of the opposite sides of the sliding rod (7). The sliding rod (7) is connected to two first movable balls (11) by rolling through the movable cavity (12).

4. The power supply for electrocoagulation according to claim 3, characterized in that: The movable cavity (12) is also provided with two second movable balls (13), wherein the two first movable balls (11) are exposed on opposite sides of the sliding rod (7), and the second movable balls (13) are rolled inside the movable cavity (12) and abut against the first movable balls (11).

5. The power supply for electrocoagulation according to claim 4, characterized in that: A spring (15) is fixedly installed on one side of the inner wall of the movable cavity (12), and a pressure plate (14) is fixedly installed on the other end of the spring (15). One side of the pressure plate (14) abuts against the two second movable balls (13).

6. The power supply for electrocoagulation according to claim 1, characterized in that: Each pair of the limiting top blocks (10) are fixedly disposed on opposite sides of the inner wall of the mounting groove (9), and each of the limiting top blocks (10) has a groove on one side.

7. The power supply for electrocoagulation according to claim 1, characterized in that: The mounting side plate (3) is provided with multiple heat dissipation grooves (5), which are used for ventilation and heat dissipation of the electrical mechanism inside the box (1).