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Microbubble generation circulating system

A circulatory system and micro-bubble technology, applied in the field of clothing treatment, can solve the problems of inability to continuously generate micro-bubbles, inconvenient time control, complex structure, etc., and achieve the effect of long-term efficient and stable generation of micro-bubbles, simple structure, and increasing the number of bubbles

Pending Publication Date: 2019-04-23
WUXI LITTLE SWAN ELECTRIC CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, most of the current micro-bubble generating devices have complex structures, some require additional water pumps, some require heating devices and multiple valves, and there are many requirements for the way of entering the water
In addition, existing microbubble generating devices generally have problems such as inability to continuously generate microbubbles, poor effect of generating microbubbles, and inconvenient time control.

Method used

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  • Microbubble generation circulating system

Examples

Experimental program
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Effect test

example 1

[0057] Example 1: If Figure 2-Figure 5 As shown, the dissolved air tank 10 has an inlet 110 and an outlet 120 , the inlet 110 is located above the outlet 120 , and the inlet 110 is connected to the water pump 20 through a water pipe. The water flow stimulating plate 130 is disposed in the gas dissolving tank 10 and corresponding to the inlet 110 . The gas dissolving tank 10 is composed of an upper cover 150 and a cover body 160 , and the inner peripheral wall of the upper cover 150 and the upper part of the outer peripheral wall of the cover body 160 are provided with threads that cooperate with each other. A water inlet pipe 170 is provided on the end surface of the upper cover 150 , and the connecting portion of the water inlet pipe 170 and the cover body 160 is formed as the inlet 110 of the dissolved air tank 10 . The outer peripheral wall of the water inlet pipe 170 is provided with external threads for connecting with other equipment. The water flow excitation plate 1...

example 2

[0058] Example 2: If Image 6As shown, the dissolved air tank 10 has an inlet 110 and an outlet 120 , the inlet 110 is located above the outlet 120 , and the inlet 110 is connected to the water pump 20 through a water pipe. Dissolved gas tank 10 is provided with the water spray pipe 140 that stretches into from inlet 110, and the pipe opening that stretches into dissolved gas tank 10 of water spray pipe 140 forms water spray port 141, and the flow area of ​​water spray port 141 is less than the flow area of ​​entrance 110 . The water spray port 141 sprays water toward the top wall of the gas dissolving tank 10 , and the outlet 120 is arranged on the bottom wall of the gas dissolving tank 10 .

[0059] In the micro-bubble generation circulation system 1 of the present embodiment, since the water at the water intake 70 is driven by the water pump 20 and flows through the dissolved air tank 10 and the cavitation part 50 in turn, the micro-bubble water containing air bubbles is f...

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Abstract

The invention discloses a microbubble generation circulating system. The microbubble generation circulating system is used for continuously adding microbubbles at a water taking position, and comprises a dissolved air tank, a water pump and a cavitation part, wherein the dissolved air tank is used for dissolving air in water current; the dissolved air tank is provided with an inlet and an outlet;the outlet is suitable for being connected with the water taking position; the water pump is used for driving water at the water taking position to flow to the dissolved air tank; the cavitation partis suitable for being connected between the dissolved air tank and the water taking position; the cavitation part is used for making bubbles from gas dissolved in the water through a cavitation effect. The microbubble generation circulating system according to the embodiment of the invention has the advantages of simpler structure and capability of efficiently, circularly and continuously generating the microbubbles.

Description

technical field [0001] The invention relates to the technical field of clothing treatment, in particular to a circulation system for generating microbubbles. Background technique [0002] When the existing washing machine is fed with water, the water is not treated in advance, and the tap water directly entering the washing machine is to add washing powder or detergent to generate air bubbles for washing. In a normal washing environment, the more washing powder or detergent is added, the more times and time of rinsing are required, and the more serious the waste of water and electricity is. In addition, the addition of washing powder and detergent will leave certain residues on the clothes after rinsing. These residual washing powders and detergents are harmful to the human body, so it is necessary to develop a device for treating the water injected into the washing machine. The device can reduce the dosage of washing powder or detergent, but does not affect the user's actu...

Claims

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Application Information

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IPC IPC(8): D06F35/00D06F39/00D06F39/08
CPCD06F35/002D06F39/00D06F39/088
Inventor 邓永建高源王惠忠戴文娟
Owner WUXI LITTLE SWAN ELECTRIC CO LTD
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