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Fluid type nanobubble hydrogen-rich water generating device

A nano-bubble and generating device technology, applied in the field of electrolysis of water, can solve the problems that the electrode assembly cannot solve the electrolysis efficiency, the quality and effect of electrolyzed water is not significant, and the coordination degree of the electrode assembly is not enough, so as to improve the yield and quality of crops and improve the electrolysis Efficiency, the effect of increasing depth and breadth

Pending Publication Date: 2018-08-10
李向华
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0004] In addition to using electrode components, existing electrolyzed water devices also use complex structures, occupy a large space, and use materials that are not conducive to human health to achieve high electrolysis efficiency. These products are aimed at production personnel, When assembling personnel and users, there will be many structural installation and performance problems. This technical problem is composed of several interrelated aspects: first, the electrode assembly cannot solve the problem of electrolysis efficiency due to its own functional limitations, and secondly , the degree of coordination between the electrode components is not enough to continuously and stably electrolyze the flowing water. In addition, the existing electrolysis device is more likely to allow metals to enter the water and affect human health
[0005] Those skilled in the art have analyzed the known technical defects of existing electrolyzed water devices and found that because the traditional electrolyzed water generator generates electrolyzed water, water is generally introduced into a fixed area for a unified electrolytic reaction. As the process progresses, the bubbles generated by electrolysis will gradually increase in the process of rising from the bottom to the top of the electrolysis area. Therefore, the generated bubble water actually contains more micron-level bubbles, and the quality and effect of electrolyzed water are not significant.
[0006] It can be seen from the above that there is currently no effective electrolysis device that can produce hydrogen-rich water rich in nano-sized bubbles. In this field, for electrolyzed water devices with different size bubbles, how to ensure the development of a device that realizes hydrogen-rich water with nano-sized bubbles It has always been regarded as an innovation in the field of electrolytic water technology

Method used

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Examples

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Embodiment 1

[0041] Such as Figure 1-4 As shown, the flow-type nano-bubble hydrogen-rich water generating device described in Embodiment 1 of the present invention, the purpose of the technical means implemented is that, because the traditional electrolyzed water device generally adopts a complex structure, a large footprint, Composition materials that are not conducive to human health will cause many problems in structural assembly and performance for the production process and application process of the device, especially for production personnel, assemblers and users respectively. This technical problem is composed of several interrelated Consisting of various aspects, the problems that have arisen one after another, for example, traditional technicians in the field of electrolyzed water often use larger equipment for the sake of electrolysis efficiency. It is easy to cause metals to enter the water and affect human health. More importantly, because the traditional electrolytic water g...

Embodiment 2

[0051] Such as Figure 5 As shown, the flow-type nano-bubble hydrogen-rich water generating device described in Example 2 of the present invention is a modification based on the technical solution implemented in Example 1, and belongs to the same technical solution as that implemented in Example 1. A concept, which solves the technical problem of further strengthening the adaptability between the positive electrode assembly 2 and the negative electrode assembly 3, since the water needs to flow through each flowing electrolyzed water reaction channel 9 after entering the electrolysis unit from the water inlet 6, when using the isolation On the basis of corresponding structures such as item 4, the following settings can also be made:

[0052] The implemented positive electrode assembly 2 is provided with a number of fixing grooves 10 on the inner walls of both ends. At the same time, the height of the spacers 4 implemented in Embodiment 1 is further increased, so that each space...

Embodiment 3

[0056] Such as Figure 6 As shown, the flow-type nano-bubble hydrogen-rich water generating device described in Example 3 of the present invention is a modification based on the technical solution implemented in Example 1, and belongs to the same technical solution as that implemented in Example 1. A concept, the technical problem it solves is to further improve the electrolysis efficiency, since water needs to flow through each flowing electrolysis water reaction channel 9 after entering the electrolysis unit from the water inlet 6, on the basis of adopting corresponding structures such as spacers 4, it can also Make the following settings:

[0057] Further change the shape of the outer surface of the spacer 4 implemented in Embodiment 1, from an arc to a straight line, thereby forming the spacer II 42, because an electrolytic guide groove is formed between each spacer II 42 and the inner wall of the positive electrode assembly 2 91, so it is suitable for different productio...

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Abstract

The invention relates to a fluid type nanobubble hydrogen-rich water generating device. An electrolytic cell is arranged inside a device body; an anode component is nested into a cathode component, sothat an annular fluid type electrolytic water reaction channel is formed between the inner wall surface of the cathode component and the outer wall surface of the anode component; water flowing intoa water inlet of the device passes through an incoming water diversion port, uniformly flows into the annular fluid type electrolytic water reaction channel, is electrolyzed, then passes through an outgoing water diversion port and flows out of a water outlet of the device body. According to the fluid type nanobubble hydrogen-rich water generating device disclosed by the invention, fluid type electrolytic water rich in nano-scale bubbles can be generated and is directly utilized by a human body; the diameter of the bubbles can be between 10nm and 100mu m; the electrolytic rate is high and fluid water is instantly electrolyzed, so that continuous electrolytic work is ensured, and the fluid water can be conveniently used by a user; electrodes are convenient to assemble, fix and mount and short circuit of two electrodes can be effectively prevented.

Description

technical field [0001] The invention relates to the technical field of electrolyzed water, in particular to a flow-type nano-bubble hydrogen-rich water generating device. Background technique [0002] The process in which water is electrolyzed by direct current to generate hydrogen and oxygen is called electrolyzed water, and is also often called bubble water. The current passes through water (H 2 O), hydrogen gas (H 2 ), and at the anode by oxidizing water to form oxygen (O 2 ), the amount of hydrogen generated is about twice that of oxygen, and electrolysis of water is the next generation method of producing hydrogen fuel to replace hydrogen production by steam reforming. [0003] Among the existing various products, the simplest electrolyzed water device usually includes a power supply, two electrodes (cathode and anode) and electrolyte (water). In the case of 100% current efficiency, that is, 100% of electrical energy is converted into chemical energy. The amount of h...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C02F1/461
CPCC02F1/46104C02F1/46109C02F2001/46171
Inventor 李向华
Owner 李向华
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