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Hydrogen rich drinking cup

A drinking cup, hydrogen-rich technology, applied in drinking vessels, water/sewage treatment, water/sewage treatment equipment, etc., can solve problems such as toxic side effects and unfavorable drinking, and achieve the effect of reducing toxic and side effects

Active Publication Date: 2019-03-08
DALIAN SHUANGDI TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The anode reaction not only does not contribute to the generation of hydrogen water, but instead generates toxic by-factors such as ozone in the water that are not conducive to drinking
Especially when the source water contains various pollutants (such as residual chlorine), as an advanced oxidation reaction electrochemical water treatment technology, it will inevitably produce toxic and side effects to varying degrees

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0053] For the hydrogen-rich drinking water cup of this embodiment, see figure 1 , including at least one pair of negative electrodes 22 and positive electrodes 23, an electrolysis power supply 3 and a cup body 1 for supplying power to the negative and positive electrodes, and a water-permeable diaphragm 21 is arranged between the paired negative electrodes 22 and positive electrodes 23.

[0054] The negative electrode 22, the positive electrode 23 and the water-permeable diaphragm 21 are packaged into an integral unit by the insulating frame 25. The integral unit is arranged at the lower part of the cup body 1 and divides the cup body 1 into an upper chamber 13 and a lower chamber 14 for storing water. The cathode electrode 22 is arranged adjacent to the upper chamber 13 and the anode electrode 23 is arranged adjacent to the lower chamber 14 . When in use, the negative electrode 22 is in contact with the stored water in the cup body 1 , and the anode electrode 23 is only in c...

Embodiment 2

[0077] The hydrogen-rich drinking cup of this embodiment is an improvement on the basis of the first embodiment, and the difference from the first embodiment is:

[0078] In this embodiment, the cup body 1 is manually filled with tap water. Still taking the municipal tap water in Dalian, China as an example, the electrolysis power supply 3 adopts an alternating pulse power supply with a forward voltage level greater than a reverse voltage level, and the average voltage is 15V. , the water-permeable diaphragm 21 adopts a microfiltration membrane, and the distance δ between the microfiltration membrane and the anode electrode 23 located outside the membrane is 15 millimeters.

Embodiment 3

[0080] The hydrogen-rich drinking water cup of this embodiment is an improvement on the basis of Embodiment 1. The difference from Embodiment 1 is that in this embodiment, there are several through holes on the positive electrode 23 located outside the water-permeable diaphragm 21, allowing water to pass through. Sexual diaphragm 21 adopts nanofiltration membrane.

[0081] In this embodiment, the municipal tap water in Dalian, China is still taken as an example, and the distance δ between the water-permeable diaphragm 21 and the anode electrode 23 located outside the diaphragm is 0 mm and 10 mm, respectively.

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Abstract

The invention relates to a hydrogen-rich drinking cup and belongs to the technical field of deep treatment of domestic drinking water. The hydrogen-rich drinking cup comprises at least one pair of negative electrode and positive electrode, an electrolysis power supply for supplying power to the negative electrode and positive electrode and a cup body, wherein a permeable diaphragm is arranged between the negative electrode and the positive electrode in one pair; the negative electrode, the positive electrode and the permeable diaphragm are encapsulated into an overall unit by virtue of an insulating frame; the overall unit is arranged at the lower part in the cup body and divides the cup body into upper water storage chambers and lower water storage chambers; the negative electrode is arranged at adjacent upper water storage chambers; and the positive electrode is arranged at adjacent lower water storage chambers. When the hydrogen-rich drinking cup is used, the negative electrode is in contact with the water stored in the cup body, and the positive electrode is only in contact with the permeated water permeating the permeable diaphragm of the cup body. The hydrogen-rich drinking cup can efficiently and safely produce hydrogen-rich water.

Description

technical field [0001] The invention relates to a hydrogen-rich drinking water cup, which belongs to the technical field of advanced treatment of drinking water quality. Background technique [0002] Water pollution is mainly caused by pollutants produced by human activities, including industrial pollution sources, agricultural pollution sources and domestic pollution sources. Increasing water pollution has posed a major threat to human survival and has become a major obstacle to human health, economic and social sustainable development. According to the investigation of the authoritative organization in the world, at least 20 million people in the world die every year due to drinking unsanitary water. Therefore, water pollution is called "the number one killer in the world". At present, the deterioration of the water environment has seriously endangered the continuation of life, especially when natural disasters and man-made disasters suddenly occur. In some extremely poo...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C02F1/461A47G19/22
CPCA47G19/2205C02F1/46104C02F1/46109C02F2201/008C02F2201/46115
Inventor 肖志邦李烨滕茂友
Owner DALIAN SHUANGDI TECH
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