Hydrogen bubble food upgrade generator

By using a quick-release structure with concave and convex surfaces and an electrode holder design, the problem of time-consuming and laborious connection of the hydrogen bubble food upgrade generator housing has been solved, achieving rapid assembly and disassembly and improved equipment stability.

CN224337747UActive Publication Date: 2026-06-09ZHEJIANG MINGSHUO ENERGY SAVING TECH

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHEJIANG MINGSHUO ENERGY SAVING TECH
Filing Date
2025-06-09
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

The existing method of connecting the shell of the hydrogen bubble food upgrade generator is time-consuming and laborious, has a poor disassembly and assembly experience, and is prone to loosening or misalignment due to vibration, affecting the stability of the equipment.

Method used

The shell is quickly disassembled and assembled by hand using a concave-convex quick-release structure. The axial and circumferential locking structure with rotational engagement ensures the shell is fixed, and the stability is enhanced by the electrode holder and grid plate.

Benefits of technology

It enables quick and reliable connection and disassembly of the housing, reduces operation time, improves equipment stability, prevents vibration-induced loosening, and simplifies the maintenance process.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to a hydrogen bubble food upgrade generator, including a first housing and a second housing connected to the first housing, and an electrode group composed of several positive and negative electrode plates disposed in the cavity formed by the first and second housings. The first and second housings have communicating holes for the medium to enter the cavity and contact the electrode group. The first housing is fixedly connected to the second housing via a quick-release structure. At least a portion of the quick-release structure is disposed in the first housing, and the remaining portion is disposed in the second housing. After being rotated to the correct position in a first rotation direction, the at least portion and the remaining portion cooperate with each other, fixing the circumferential and axial dimensions of the first and second housings together. The advantages are: compared to the prior art, this quick-release structure allows for quick manual assembly and disassembly of the first and second housings by rotation, significantly shortening operation time and eliminating the need for tools; simultaneously, after being rotated to the correct position, it reliably locks the axial and circumferential positions between the housings, effectively preventing loosening or misalignment due to vibration during operation, thus improving the stability of the equipment.
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Description

Technical Field

[0001] This application belongs to the field of food health cleaning equipment, and in particular relates to a hydrogen bubble food upgrade generator. Background Technology

[0002] The benefits of hydrogen-containing water include: Antioxidant: Hydrogen water has powerful antioxidant properties, helping to neutralize free radicals in the body, reducing oxidative stress, thus slowing aging and preventing disease. Free radical scavenging: Hydrogen water helps eliminate excess free radicals in the body, reducing cell damage and improving cell vitality and health. Anti-inflammatory: Hydrogen water has anti-inflammatory effects, helping to relieve inflammatory responses and reduce pain and symptoms. Promotes metabolism: Drinking hydrogen water helps promote metabolism, enhances the body's energy metabolism and waste excretion, and helps maintain a healthy internal environment. Protects the brain and nervous system: Hydrogen water has a positive effect on protecting the brain and nervous system, helping to improve cognitive function, improve memory, and prevent neurological diseases.

[0003] In existing technologies, the housing of hydrogen bubble food upgrade generators generally uses threaded connections and ordinary snap-fit ​​connections. Threaded connections require the use of tools (such as screwdrivers) to tighten / loosen multiple screws one by one, which is obviously time-consuming and laborious, greatly reducing the user's disassembly and assembly experience and maintenance efficiency. Although some snap-fit ​​connections can be operated by hand, they often require a large amount of pressing force or precise alignment, and disassembly may be laborious or even damage the snap-fit. Utility Model Content

[0004] The purpose of this invention is to address the aforementioned problems by providing a hydrogen bubble food upgrade generator that can solve the above-mentioned technical issues.

[0005] To achieve the above objectives, the present invention adopts the following technical solution:

[0006] A hydrogen bubble food upgrade generator includes a first housing and a second housing connected to the first housing, and an electrode group consisting of a plurality of positive and negative electrode plates disposed in a cavity formed by the first housing and the second housing. The first housing and the second housing are provided with a through hole for a medium to enter the cavity and contact the electrode group. The first housing is fixedly connected to the second housing by a quick-release structure. At least a portion of the quick-release structure is disposed in the first housing, and the remaining portion of the quick-release structure is disposed in the second housing. After the at least a portion and the remaining portion are rotated to their positions in a first rotation direction, they cooperate with each other to fix the first housing and the second housing circumferentially and axially.

[0007] Furthermore, the concave-convex quick-release structure includes a plurality of circumferentially distributed rotary elastic locking tongues, and also includes an annular guide step. The guide step has a plurality of locking positions equal in number to the rotary elastic locking tongues. Either the rotary elastic locking tongue or the guide step is located in the first housing, and the other is located in the second housing. When the rotary elastic locking tongue enters the guide step and rotates to its position in the first rotation direction, the rotary elastic locking tongue and the locking position cooperate through the concave-convex locking structure to fix the first housing and the second housing circumferentially and axially.

[0008] Furthermore, the concave-convex locking structure includes a locking protrusion and a locking groove, one of which is located on the rotary elastic locking tongue, and the other is located on the locking position.

[0009] Furthermore, the rotary resilient locking tongue includes a guide ramp for guiding the locking position.

[0010] Furthermore, an electrode holder is provided inside the first housing. The electrode holder is provided with a plurality of positive electrode slots and a plurality of negative electrode slots. There is at least one positive electrode slot between two adjacent negative electrode slots. The positive electrode is locked in the corresponding positive electrode slot, and the negative electrode is locked in the corresponding negative electrode slot.

[0011] Furthermore, the electrode holder and the first housing are integrally formed by injection molding.

[0012] Furthermore, a plurality of the positive electrode plates are connected in parallel to the positive electrode conductive plate; a plurality of the negative electrode plates are connected in parallel to the negative electrode conductive plate; the positive electrode conductive plate and the negative electrode conductive plate are connected to the conductive power line.

[0013] Furthermore, the positive conductive sheet and the negative conductive sheet are respectively fixed inside the first housing by a detachable structure.

[0014] Furthermore, the hydrogen bubble food upgrade generator also includes a pump body disposed in the chamber, with the pump body having an inlet and an outlet located within the chamber, and the outlet directing the medium to flow through the gap between the positive and negative electrode plates of the electrode assembly.

[0015] Furthermore, the first housing and the second housing are respectively provided with a grid plate, and the grid plate is provided with a plurality of the communicating holes.

[0016] Compared with existing technologies, the advantages of this application are as follows: Compared with existing technologies, the concave-convex quick-release structure can realize the quick manual disassembly and assembly of the first and second housings by rotation, which significantly shortens the operation time and does not require tools; at the same time, after being rotated into place, it can reliably lock the axial and circumferential positions between the housings, effectively preventing vibration during operation from causing loosening or misalignment, and improving the stability of the equipment. Attached Figure Description

[0017] Figure 1 This is a finished assembly drawing of the main body of the hydrogen bubble food upgrade generator of this utility model.

[0018] Figure 2 for Figure 1 Schematic diagram of the explosion of the casing of the hydrogen bubble food upgrade generator Figure 1 ;

[0019] Figure 3 This is a schematic diagram of the first housing and its main components of the present invention;

[0020] Figure 4 for Figure 1 Schematic diagram of the explosion of the casing of the hydrogen bubble food upgrade generator Figure 2 ;

[0021] Figure 5 for Figure 4 Enlarged detail view of key components in area B;

[0022] Figure 6 for Figure 5 Enlarged detail view of key components in area C;

[0023] Figure 7 This is a schematic diagram of the first housing and its main components of the present invention.

[0024] Figure 8 Schematic diagram of the electrode assembly of this utility model Figure 1 ;

[0025] Figure 9 Schematic diagram of the electrode assembly of this utility model Figure 2 ;

[0026] In the figure, the components are: first housing 1, electrode holder 11, positive electrode slot 111, first slot groove 1111, first slot through groove 1112, negative electrode slot 112, second slot groove 1121, second slot through groove 1122, second housing 2, electrode group 3, positive electrode 31, negative electrode 32, positive conductive electrode 33, negative conductive electrode 34, concave-convex quick-release structure 4, screw-in elastic locking tongue 41, locking protrusion 410, guide slope 411, guide step position 42, locking position 43, locking groove 430, pump body 5, grid plate A, connecting hole a, and conductive power line S. Detailed Implementation

[0027] The present invention will now be described in further detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present invention and not intended to limit it. Furthermore, it should be noted that, for ease of description, the accompanying drawings show only the parts relevant to the present invention, not the entire structure.

[0028] In the description of this utility model, unless otherwise explicitly specified and limited, the terms "connected," "linked," and "fixed" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral part; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal communication of two components or the interaction between two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model based on the specific circumstances.

[0029] In this invention, unless otherwise explicitly specified and limited, "above" or "below" the second feature can include direct contact between the first and second features, or contact between the first and second features through another feature between them. Furthermore, "above," "over," and "on top" of the second feature includes the first feature directly above or diagonally above the second feature, or simply indicates that the first feature is at a higher horizontal level than the second feature. "Below," "below," and "under" the second feature includes the first feature directly below or diagonally below the second feature, or simply indicates that the first feature is at a lower horizontal level than the second feature.

[0030] In the description of this embodiment, the terms "upper," "lower," "right," and "left," etc., refer to the orientation or positional relationship shown in the accompanying drawings. They are used only for ease of description and simplification of operation, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model. In addition, the terms "first" and "second" are only used for distinction in description and have no special meaning.

[0031] Example 1

[0032] like Figures 1-4As shown, the hydrogen bubble food upgrade generator includes a first housing 1 and a second housing 2 connected to the first housing 1, and an electrode group 3 disposed in the cavity formed by the first housing 1 and the second housing 2 and composed of a plurality of positive electrode plates 31 and negative electrode plates 32. The first housing 1 and the second housing 2 are provided with a connecting hole a to allow the medium to enter the cavity and contact the electrode group 3, wherein the medium is water or an aqueous solution. When the electrode group 3 is energized, it electrolyzes the medium to generate hydrogen gas, and the generated hydrogen gas dissolves in the medium to form a hydrogen-rich aqueous solution.

[0033] The first housing 1 is fixedly connected to the second housing 2 by a quick-release structure 4. At least a portion of the quick-release structure 4 is located on the first housing 1, and the remaining portion of the quick-release structure 4 is located on the second housing 2. After the at least portion and the remaining portion are rotated into position in the first rotation direction, they cooperate with each other and fix the first housing 1 and the second housing 2 circumferentially and axially.

[0034] like Figures 4-6 As shown, the concave-convex quick-release structure 4 includes several circumferentially distributed rotary elastic locking tongues 41, and also includes an annular guide step position 42. The guide step position 42 is provided with several locking positions 43 in the same number as the rotary elastic locking tongues 41. Either the rotary elastic locking tongue 41 or the guide step position 42 is provided in the first housing 1, and the other is provided in the second housing 2. In this embodiment, the locking position 43 is provided in the first housing 1, and the rotary elastic locking tongue 41 is provided in the second housing 2. As a multiple option, the rotary elastic locking tongue 41 and the locking position 43 in this embodiment can also be interchanged, or they can be alternately provided in the first housing 1 and the second housing 2 at the same time.

[0035] Specifically, when the rotary elastic locking tongue 41 enters the guide step position 42 and rotates into place in the first rotation direction, the rotary elastic locking tongue 41 and the locking position 43 cooperate through the concave and convex locking structure to fix the first housing 1 and the second housing 2 circumferentially and axially.

[0036] Regarding the aforementioned concave-convex locking structure, the concave-convex locking structure includes a locking protrusion 410 and a locking groove 430. Either the locking protrusion 410 or the locking groove 430 is provided on the rotary elastic locking tongue 41, and the other is provided on the locking position 43. In this embodiment, the locking protrusion 410 is provided on the long side of the rotary elastic locking tongue 41 and is hemispherical or wedge-shaped. The locking groove 430 is provided on the locking position 43 and its shape is complementary to that of the locking protrusion 410.

[0037] The rotary resilient locking tongue 41 includes a guide ramp 411 for guiding the locking position 43. When the first housing 1 and the second housing 2 rotate clockwise or counterclockwise, the locking position 43 contacts the guide ramp 411 of the rotary resilient locking tongue 41, forcing the rotary resilient locking tongue 41 to deform until the locking protrusion 410 slides past the edge of the locking groove 430. After rotating to the correct position, the rotary resilient locking tongue 41 returns to its original shape, and the locking protrusion 410 falls into the locking groove 430, fitting tightly to prevent circumferential displacement.

[0038] Example 2

[0039] The structure and principle of this embodiment are basically the same as those of Embodiment 1. The difference lies in that, for the hydrogen bubble food upgrade generator of Embodiment 1, this embodiment describes other major components of the hydrogen bubble food upgrade generator.

[0040] like Figures 7-9 As shown, an electrode group 3 formed by combining a positive electrode 31 and a negative electrode 32 is provided in the first housing 1. An electrode fixing frame 11 is provided in the first housing 1. The electrode fixing frame 11 is provided with a plurality of positive electrode slots 111 and a plurality of negative electrode slots 112. There is at least one positive electrode slot 111 between two adjacent negative electrode slots 112. The positive electrode 31 is locked in the corresponding positive electrode slot 111, and the negative electrode 32 is locked in the corresponding negative electrode slot 112.

[0041] In this embodiment, the electrode holder 11 is integrally connected to the first housing 1. This simplifies the device components, significantly reduces processing costs, and improves production efficiency. The electrode holder 11 is equipped with positive electrode slots 111 and negative electrode slots 112, allowing the positive and negative electrodes to be securely held in their respective positions, ensuring the stability and reliability of the hydrogen generation device. Simultaneously, the alternating arrangement of positive and negative electrodes effectively increases the electrode surface area, improving gas generation efficiency. The alternating layout of positive and negative electrodes increases the chemical reaction surface area within the electrode assembly, which is beneficial for improving the gas generation rate and stability.

[0042] By positioning the positive and negative electrode plates on the electrode plate fixing bracket 11, it can be ensured that the positive and negative electrode plates can be accurately and firmly fixed in their respective positions, making it less likely for them to loosen or fall off. This makes it easy to disassemble and replace the positive and negative electrode plates, facilitating user maintenance and cleaning of the hydrogen generation device, and reducing the complexity and time cost of maintenance work.

[0043] In this embodiment, the first housing 1 and the electrode holder 11 are injection molded. The first housing 1 and the electrode holder 11 are integrated into one structure, which can reduce the number of components, simplify the structure of the hydrogen bubble food upgrade generator, make the overall structure more compact and simple, reduce the connection between parts and the possibility of loosening or falling off, and improve assembly efficiency.

[0044] likeFigure 2 , Figure 3 and Figure 7 As shown, the positive electrode holder 111 includes a first holder through groove 1112 on one side of the electrode holder 11 and a first holder slot 1111 on the other side of the electrode holder 11. At least a portion of the positive electrode 31 is held in the first holder through groove 1112, and at least a portion of the remaining portion of the positive electrode 31 is held in the first holder slot 1111.

[0045] By designing the first slot 1112 and the first slot 1111, different parts of the positive electrode 31 can be respectively inserted into the two slots to form a double fixation, which effectively prevents the positive electrode 31 from shaking and falling off during operation, and improves the stability and safety of the hydrogen generation device.

[0046] The negative electrode holder 112 includes a second holding groove 1122 provided on one side of the electrode holder 11 and a second holding slot 1121 provided on the other side of the electrode holder 11. At least a portion of the negative electrode 32 is held in the second holding groove 1122, and at least a portion of the remaining portion of the negative electrode 32 is held in the second holding slot 1121.

[0047] By designing the second locking slot 1122 and the second locking groove 1121, different parts of the negative electrode 32 can be respectively locked into the two slots, forming a double fixation, effectively preventing the negative electrode 32 from shaking and falling off during operation, and improving the stability and safety of the hydrogen generation device. Furthermore, the positive electrode conductive sheet 33 and the negative electrode conductive sheet 34 are respectively fixed inside the first housing 1 by a detachable structure.

[0048] Positive electrode 31 is connected in parallel to positive electrode conductive plate 33; negative electrode 32 is connected in parallel to negative electrode conductive plate 34; positive electrode conductive plate 33 and negative electrode conductive plate 34 are connected to conductive power line S.

[0049] The parallel connection of the positive electrode 31 and the negative electrode 32 with the positive and negative conductive plates can ensure the stability and reliability of the circuit and reduce problems such as current interruption or short circuit caused by poor connection.

[0050] The first housing 1 and the second housing 2 are respectively provided with a grid plate A. The grid plate A is provided with several connecting holes a. The grid plate A can effectively strengthen the structure of the first housing 1, enhance its stability and durability, and help protect the internal components from external impacts and vibrations. The grid plate A can effectively isolate the internal components from the external environment, making it convenient for maintenance personnel to clean and maintain the device.

[0051] This equipment has various effects on various fruits, vegetables, meats and other foods; it degrades pesticide residues in fruits and vegetables, degrades hormones, antibiotics and ractopamine in meats, inactivates malachite green in aquatic products, degrades pathogenic bacteria, removes aflatoxin from grains, and inactivates bacteria and pathogenic bacteria and viruses on tableware.

[0052] In addition, in this embodiment, the hydrogen bubble food upgrade generator also includes a pump body 5 disposed in the chamber. The inlet and outlet of the pump body 5 are disposed in the chamber. The outlet is directed to the medium flowing through the gap between the positive electrode 31 and the negative electrode 32 of the electrode group 3. The design of the pump body 5 greatly improves the hydrogen production reaction rate of the hydrogen bubble food upgrade generator, and the pump body 5 can also produce oxygen bubbles.

[0053] The specific embodiments described herein are merely illustrative examples illustrating the spirit of this utility model. Those skilled in the art to which this utility model pertains may make various modifications or additions to the described specific embodiments or use similar methods to substitute them, without departing from the spirit of this utility model or exceeding the scope defined by the appended claims.

Claims

1. A hydrogen bubble food upgrade generator, comprising a first housing (1) and a second housing (2) connected to the first housing (1), and an electrode assembly (3) disposed in a cavity formed by the first housing (1) and the second housing (2) and composed of a plurality of positive electrode plates (31) and negative electrode plates (32), wherein the first housing (1) and the second housing (2) are provided with a connecting hole (a) for a medium to enter the cavity and contact the electrode assembly (3), characterized in that, The first housing (1) is fixedly connected to the second housing (2) by a quick-release structure (4). At least a portion of the quick-release structure (4) is disposed in the first housing (1), and the remaining portion of the quick-release structure (4) is disposed in the second housing (2). After the at least portion and the remaining portion are rotated to their positions in the first rotation direction, they cooperate with each other and fix the first housing (1) and the second housing (2) in the circumferential and axial directions.

2. The hydrogen bubble food upgrade generator according to claim 1, characterized in that, The concave-convex quick-release structure (4) includes a plurality of circumferentially distributed rotary elastic locking tongues (41) and a ring-shaped guide step (42). The guide step (42) is provided with a plurality of locking positions (43) equal in number to the rotary elastic locking tongues (41). Either the rotary elastic locking tongue (41) or the guide step (42) is located in the first housing (1), and the other is located in the second housing (2). When the rotary elastic locking tongue (41) enters the guide step (42) and rotates to the position in the first rotation direction, the rotary elastic locking tongue (41) and the locking position (43) cooperate through the concave-convex locking structure to fix the first housing (1) and the second housing (2) circumferentially and axially.

3. The hydrogen bubble food upgrade generator according to claim 2, characterized in that, The concave-convex locking structure includes a locking protrusion (410) and a locking groove (430), one of which is located on the rotary elastic locking tongue (41), and the other is located on the locking position (43).

4. The hydrogen bubble food upgrade generator according to claim 2, characterized in that, The rotary resilient latch (41) includes an inlet ramp (411) for guiding the locking position (43).

5. The hydrogen bubble food upgrade generator according to claim 1, characterized in that, An electrode holder (11) is provided inside the first housing (1). The electrode holder (11) is provided with a plurality of positive electrode slots (111) and a plurality of negative electrode slots (112). There is at least one positive electrode slot (111) between two adjacent negative electrode slots (112). The positive electrode (31) is locked in the corresponding positive electrode slot (111), and the negative electrode (32) is locked in the corresponding negative electrode slot (112).

6. The hydrogen bubble food upgrade generator according to claim 5, characterized in that, The electrode holder (11) and the first housing (1) are integrally formed by injection molding.

7. The hydrogen bubble food upgrade generator according to claim 1, characterized in that, A plurality of the positive electrode plates (31) are connected in parallel to the positive electrode conductive plate (33); a plurality of the negative electrode plates (32) are connected in parallel to the negative electrode conductive plate (34); the positive electrode conductive plate (33) and the negative electrode conductive plate (34) are connected to the conductive power line (S).

8. The hydrogen bubble food upgrade generator according to claim 7, characterized in that, The positive electrode conductive sheet (33) and the negative electrode conductive sheet (34) are respectively fixed inside the first housing (1) by a detachable structure.

9. The hydrogen bubble food upgrade generator according to claim 1, characterized in that, The hydrogen bubble food upgrade generator also includes a pump body (5) located in the chamber.

10. The hydrogen bubble food upgrade generator according to claim 1, characterized in that, The first housing (1) and the second housing (2) are respectively provided with a grid plate (A), and the grid plate (A) is provided with a plurality of the communicating holes (a).