CN211535772U - Device for efficiently decontaminating, sterilizing and disinfecting by using microbubbles - Google Patents

Abstract

The utility model relates to a degassing unit field of disinfecting discloses an utilize high-efficient decontamination of microbubble, disinfect, sterile device very much. The device is including the running water inlet pipeline of installation electric valve, its characterized in that: the tap water inlet pipeline is communicated with a primary gas-liquid forced mixer, the primary gas-liquid forced mixer is connected with a secondary gas-liquid forced mixer through a water pump, the outlet of the secondary gas-liquid forced mixer is communicated with a mixing tank, and a microbubble releaser is arranged on the outlet of the mixing tank; the first-stage gas-liquid forced mixer and the second-stage gas-liquid forced mixer are connected in parallel and communicated with the negative oxygen ion generator, and the inlet of the negative oxygen ion generator is communicated with the air pump. The utility model discloses can reach 95% to the spot clearance, bactericidal action reaches 99%, and the incomplete clearance of farming reaches 99%, can replace chemical cleaning products such as washing powder, detergent, meal washing completely, and safety ring protects, and no chemistry remains, is suitable for extensive popularization and application.

Description

Device for efficiently decontaminating, sterilizing and disinfecting by using microbubbles

Technical Field

The utility model relates to a degassing unit field of disinfecting, in particular to utilize high-efficient decontamination of microbubble, disinfect, sterile device.

Background

At present, washing powder, detergent and meal cleaning are necessary articles for people to clean articles for daily use, clothes, fruits and vegetables at present. Because of convenient use and strong detergency, they are popular with consumers.

According to introduction, the annual yield of the washing powder in China currently reaches about 200 ten thousand tons, the consumption is never lower than the figure, and the annual consumption of the detergent exceeds three million tons. The washing powder contains about 15% of inorganic phosphate calculated by average content.

Millions of tons of phosphorus-containing washing products are consumed in China every year, and dozens of thousands of tons of phosphorus-containing inorganic compounds are continuously discharged into surface water. The phosphorus-containing sewage pollutes water areas and water quality seriously.

Washing powder and detergent not only cause various environmental pollutions, but also cause various diseases. Sodium alkyl benzene sulfonate in the washing powder accumulates in human bodies day by day and month, which is easy to cause breast cancer, multiple uterine myoma and infertility of women, and almost more than 60 percent of gynecological diseases are related to the washing powder. Meanwhile, various substances harmful to the human body, such as benzene, lead and the like in the washing powder can enter the human body through clothes, cholesterol in blood is increased due to caution, the speed of synthesizing the cholesterol by the liver is increased, and blood circulation pathological changes such as arteriosclerosis, hypertension, myocardial infarction and the like are accelerated.

In addition, the detergent added with surfactant, whitening agent and builder can irritate skin and affect health once directly contacting or adhering to clothes. For example, builders damage the liver of humans, surfactants destroy the stratum corneum of the skin, making the skin rough, and optical brighteners themselves are toxic substances that are too aggressive into the human body and can be a major health hazard. In addition, excessive synthetic flavors are highly odorous and often cause allergies in some people.

SUMMERY OF THE UTILITY MODEL

The utility model provides a device which has the advantages of clean mechanical action, no chemical residue and side effect and utilizes the micro-bubble to efficiently decontaminate, sterilize and disinfect, in order to make up the defects of the prior art.

The utility model discloses a realize through following technical scheme:

the utility model provides an utilize high-efficient decontamination of microbubble, disinfect, sterile device, includes the running water inlet pipeline of installation electric valve, its characterized in that: the tap water inlet pipeline is communicated with a primary gas-liquid forced mixer, the primary gas-liquid forced mixer is connected with a secondary gas-liquid forced mixer through a water pump, the outlet of the secondary gas-liquid forced mixer is communicated with a mixing tank, and a microbubble releaser is arranged on the outlet of the mixing tank; the first-stage gas-liquid forced mixer and the second-stage gas-liquid forced mixer are connected in parallel and communicated with the negative oxygen ion generator, and the inlet of the negative oxygen ion generator is communicated with the air pump.

The utility model discloses in, electric valve one end and running water inlet pipe connection, the one-level gas-liquid forced mixer is connected to the other end, and negative oxygen ion generator releases negative oxygen ion through the electric power effect with the air that the air pump was sent into, and send negative oxygen ion into one-level gas-liquid forced mixer, make the gaseous back of mixing with the running water is forced to negative oxygen ion, get into the water pump, after second grade gas-liquid forced mixer, make negative oxygen ion gaseous and water force the mixture once more, make the enterprise reach behind the supercritical state continuous microbubble releaser, realize the decontamination of microbubble, disinfect, the disinfection is used.

The utility model discloses a more excellent technical scheme does:

the pressure sensor is arranged on a communication pipeline of the first-stage gas-liquid forced mixer and the water pump, the pressure sensor and the electric valve are respectively communicated with the controller, the pressure sensor is used for detecting the pressure of tap water after gas-liquid forced mixing, and the controller automatically adjusts the electric valve of the tap water inlet pipeline according to the water pressure so as to ensure that the device can eat the tap water pressure of different regions and different floors.

Control valves are respectively arranged on pipelines of the negative oxygen ion generator communicated with the primary gas-liquid forced mixer and the secondary gas-liquid forced mixer; the pressure sensor is used for detecting the pressure of tap water, the air supply quantity of the negative oxygen ion generator to the first-stage gas-liquid forced mixer and the second-stage gas-liquid forced mixer is adjusted, and the pressure controllability of mixed gas-liquid in the pipeline is realized.

Install air cleaner on the air inlet of air pump, carry out prefilter to the air that gets into the air pump, prevent that large granule pollutant from getting into the air pump, cause the problem of the foaming effect not good or pollution pipeline.

The outlets of the micro-bubble releasers are respectively communicated with a washing machine, a dish washing machine and a fruit and vegetable cleaning machine, and are matched with a household cleaning appliance for use to decontaminate, sterilize and disinfect clothes, articles for daily use and fruits, vegetables.

The utility model discloses the microbubble water that contains negative oxygen ion of given birth carries the negative charge through high-speed friction, the microbubble can be attached to clothing again, articles for daily use and melon and fruit vegetables's surface, the microbubble particle diameter of production is 10nm-200 mu m, can permeate the clothing, in the micropore of articles for daily use and melon and fruit vegetables, the blasting that produces through the gradual blasting of bubble can be with attaching to clothing again, the spot on articles for daily use and the melon and fruit vegetables is got rid of, the ionization that produces in the blasting process can produce the oxidation with the negative oxygen ion along with releasing, can be to the clothing, articles for daily use and melon and fruit vegetables disinfect, the disinfection can get rid of the pesticide residue of melon and fruit vegetables.

The utility model discloses can reach 95% to the spot clearance, bactericidal action reaches 99%, and the incomplete clearance of farming reaches 99%, can replace chemical cleaning products such as washing powder, detergent, meal washing completely, and safety ring protects, and no chemistry remains, is suitable for extensive popularization and application.

Drawings

The present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of the present invention.

In the figure, 1 air filter, 2 air pump, 3 negative oxygen ion generator, 4 electric valve, 5 running water inlet pipeline, 6 first grade gas-liquid forced mixer, 7 second grade gas-liquid forced mixer, 8 blending tank, 9 microbubble releaser, 10 pressure sensor, 11 water pump.

Detailed Description

The attached drawing is a concrete embodiment of the utility model. The embodiment comprises a tap water inlet pipeline 5 provided with an electric valve 4, wherein the tap water inlet pipeline 5 is communicated with a primary gas-liquid forced mixer 6, the primary gas-liquid forced mixer 6 is connected with a secondary gas-liquid forced mixer 7 through a water pump 11, the outlet of the secondary gas-liquid forced mixer 7 is communicated with a mixing tank 8, and a microbubble releaser 9 is arranged on the outlet of the mixing tank 8; the first-stage gas-liquid forced mixer 6 and the second-stage gas-liquid forced mixer 7 are communicated with the negative oxygen ion generator 3 in parallel, and the inlet of the negative oxygen ion generator 3 is communicated with the air pump 2.

A pressure sensor 10 is arranged on a communication pipeline of the primary gas-liquid forced mixer 6 and the water pump 11, and the pressure sensor 10 and the electric valve 2 are respectively communicated with a controller; control valves are respectively arranged on pipelines of the negative oxygen ion generator 3 communicated with the first-stage gas-liquid forced mixer 6 and the second-stage gas-liquid forced mixer 7; an air filter 1 is arranged on an air inlet of the air pump 2.

The utility model discloses in, electric valve 4 is connected to running water inlet pipeline 5, electric valve 4 is connected with one-level gas-liquid forced mixer 6, air cleaner 1 passes through air pump 2 suction air, pressurize to 0.35MPa, it mixes with water to connect one-level gas-liquid forced mixer 6 behind the negative oxygen ion generator 3 ionization production negative oxygen ion, the mixed gas-liquid inserts water pump 11 import, and detect the pressure of running water through pressure sensor 10 between water pump 11 and the one-level gas-liquid forced mixer 6, according to water pressure, electric valve 4 on the controller automatically regulated running water inlet pipeline 5, guarantee the running water pressure of the adaptable different areas of device and different floors.

The outlet of the water pump 11 is connected with the secondary gas-liquid forced mixer 7, the negative oxygen ion generator 3 also sends the generated negative oxygen ions into the secondary gas-liquid forced mixer 7, the negative oxygen ions are mixed with water and then are connected with the inlet of the mixing tank 8, the outlet of the mixing tank 8 is connected with the inlet of the micro-bubble releaser 9, and the outlet of the micro-bubble releaser can be matched with a washing machine, a dish washing machine and a fruit and vegetable cleaning machine to remove stains, bacteria and pesticide residues of clothes, living goods and fruits and vegetables.

The utility model has no material consumption and chemical components, adopts 12-24V safe voltage, is safe and environment-friendly, can completely replace chemical cleaning products such as washing powder, detergent, meal cleaning and the like, and is suitable for wide popularization and application.

In order to make the objects, features and advantages of the present invention more comprehensible, the present embodiment combines with the accompanying drawings to describe the present invention in detail. In the description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, and the terminology used is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The present invention can be implemented in many different ways from the one described herein, and for those skilled in the art, several variations and modifications can be made without departing from the spirit of the present invention, which all fall within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (5)

1. The utility model provides an utilize high-efficient decontamination of microbubble, disinfect, sterile device, includes running water inlet pipe (5) of installation electric valve (4), its characterized in that: the tap water inlet pipeline (5) is communicated with a primary gas-liquid forced mixer (6), the primary gas-liquid forced mixer (6) is connected with a secondary gas-liquid forced mixer (7) through a water pump (11), the outlet of the secondary gas-liquid forced mixer (7) is communicated with a mixing tank (8), and a micro-bubble releaser (9) is arranged on the outlet of the mixing tank (8); the first-stage gas-liquid forced mixer (6) and the second-stage gas-liquid forced mixer (7) are connected in parallel and communicated with the negative oxygen ion generator (3), and the inlet of the negative oxygen ion generator (3) is communicated with the air pump (2).

2. The device for efficiently decontaminating, sterilizing, and disinfecting using micro-bubbles according to claim 1, wherein: and a pressure sensor (10) is arranged on a communication pipeline of the primary gas-liquid forced mixer (6) and the water pump (11), and the pressure sensor (10) and the electric valve (4) are respectively communicated with a controller.

3. The device for efficiently decontaminating, sterilizing, and disinfecting using micro-bubbles according to claim 1, wherein: and control valves are respectively arranged on pipelines of the negative oxygen ion generator (3) communicated with the primary gas-liquid forced mixer (6) and the secondary gas-liquid forced mixer (7).

4. The device for efficiently decontaminating, sterilizing, and disinfecting using micro-bubbles according to claim 1, wherein: an air filter (1) is arranged on an air inlet of the air pump (2).

5. The device for efficiently decontaminating, sterilizing, and disinfecting using micro-bubbles according to claim 1, wherein: the outlets of the micro-bubble releaser (9) are respectively communicated with a washing machine, a dish washing machine and a fruit and vegetable washing machine.

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