Electrolysis water purifier for adjusting water outlet proportion

A technology of water output ratio and water purifier, which is applied in the direction of water/sewage treatment, water/sewage treatment equipment, water/sewage multi-stage treatment, etc. It can solve waste, inability to obtain high-quality functional water, and unstable water output ratio of electrolytic ionized water and other issues to achieve the effect of reducing water waste

Inactive Publication Date: 2010-10-27
汉纽木股份有限公司 +1
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  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] However, this existing electrolytic water purifier cannot stably obtain drinkable high-quality weakly alkaline water due to the unstable pH value of the discharged three kinds of electrolyzed ionized water.
[0004] Moreover, since the output ratio of electrolyzed ionized water is unstable, users who want to use functional water (acidic water, strong alkaline water) in a

Method used

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  • Electrolysis water purifier for adjusting water outlet proportion
  • Electrolysis water purifier for adjusting water outlet proportion
  • Electrolysis water purifier for adjusting water outlet proportion

Examples

Experimental program
Comparison scheme
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Example Embodiment

[0087]

[0088] Test conditions:

[0089] The total water inflow into the electrolytic cell: 0.8L / min~1.5L / min

[0090] Table 2 Electrolytic characteristics of existing electrolytic water purifiers that are not controlled based on flow

[0091]

[0092] Table 3 The electrolytic characteristics of the electrolytic water purifier of the present invention controlled based on the flow rate

[0093]

[0094] Table 2 and Table 3 measured in Example 1 above are the measured values ​​in the case of no control based on the flow rate and the case of control based on the flow rate, respectively. Referring to Table 2, for existing water purifiers, since there is no flow control, even if the flow of influent water changes, a constant voltage is still connected to the electrolytic cell, so that when the flow is small, the electrolysis is stronger, thus The pH of the discharged water becomes high, and when the flow rate is large, the pH of the discharged water becomes low due to a ...

Example Embodiment

[0102]

[0103] Test conditions:

[0104] The total inflow of water flowing into the electrolytic cell: 1.4L / min, the PH value of the inflow water: 7.6

[0105] Table 3 Electrolytic characteristics based on changes in the amount of electrolyte

[0106]

[0107] The above Table 3 shows the electrolysis based on the change in the amount of electrolyte by measuring the voltage and current applied to the electrolytic tank based on the change in the electrolyte flowing into the electrolytic tank (change in conductive resistance) and measuring the pH characteristics of each discharged water. characteristic. It can be seen here that when the amount of electrolyte is small and the conductive resistance value is large, the voltage applied to the electrolysis part is increased, and conversely, when the amount of electrolyte is large and the conductive resistance value is small, the voltage applied to the electrolytic cell is reduced .

[0108] In addition, it can also be seen th...

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Abstract

The invention is about an electrolysis water purifier for adjusting water outlet proportion capable of stably producing or efficiently using electrolytic ion water. The electrolysis water purifier is provided with an acid water adjusting bolt for adjusting the water outlet amount of primary acid water at the primary acid water discharge port of a first electrolytic tank, an acid water outlet bolt for adjusting the water outlet amount of the secondary acid water discharged after mixed with the primary acid eater discharged through the acid water adjusting bolt at the secondary acid water discharge port of a second electrolytic tank, a strong alkaline water outlet bolt for adjusting the water outlet amount of strong alkaline water at a strong alkaline water discharge port, and a weak alkaline water outlet valve for adjusting the water outlet amount of weak alkaline water at a weak alkaline discharge port, thus the water outlet proportion of the three types of electrolytic ion water can be adjusted. Therefore, in the invention, the electrolysis water purifier of three types of electrolytic ion water can be stably produced with efficient water outlet proportion by adjusting the water outlet proportion of the three types of produced electrolytic ion water, thereby being capable of reducing the problems existing in the prior art to the maximum extent.

Description

technical field [0001] The present invention relates to an electrolytic water purifier capable of providing three kinds of electrolyzed ionized water respectively generated by electrolyzing water twice, and more particularly to an electrolyzed water purifier having the function of regulating the generated The output ratio of the three kinds of electrolyzed ionized water can not only produce drinkable weak alkaline water and functional water (strongly alkaline water, acidic water) for purposes other than drinking, but also effectively use the produced water. Electrolyzed ionized water, which can minimize the waste of water by users who do not use functional water (strong alkaline water, acidic water). Background technique [0002] Existing electrolytic water purifiers generate three types of electrolyzed ionized water by electrolyzing water twice, and this electrolytic water purifier generates three types of ionized water by electrolyzing alkaline water generated in a first e...

Claims

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Application Information

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IPC IPC(8): C02F9/06C02F1/461
CPCC02F1/008C02F1/4618C02F2201/005C02F2201/46115C02F2201/46135C02F2209/06
Inventor 姜松植
Owner 汉纽木股份有限公司
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