CN113562898A

CN113562898A - Ultra-fine water molecular group processor and water treatment equipment thereof

Info

Publication number: CN113562898A
Application number: CN202110465380.6A
Authority: CN
Inventors: 魏约翰
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-04-29
Filing date: 2021-04-28
Publication date: 2021-10-29
Anticipated expiration: 2041-04-28
Also published as: TWI730743B; TW202140121A; CN113562898B

Abstract

The invention provides a super-fine water molecular group processor, which comprises a shell, a water inlet flow guide unit, a first fluid impedance unit, a water outlet flow guide unit, a second fluid impedance unit and a fluid thinning unit. The shell is internally provided with an accommodating space extending along an axis, and two ends of the axis are respectively provided with a water inlet part and a water outlet part which are communicated with the accommodating space; the water inlet flow guide unit is arranged in the accommodating space and gradually shrinks from the water inlet part to the water outlet part; the first fluid impedance unit is arranged between the water inlet guide unit and the water inlet part; the water outlet flow guide unit is arranged in the accommodating space and gradually shrinks from the water outlet part to the water inlet part; the second fluid impedance unit is arranged between the water outlet guide unit and the water outlet part; the fluid refining unit is connected between the water inlet guide unit and the water outlet guide unit, and can refine the fluid in the water inlet guide unit and discharge the fluid towards the water outlet guide unit so as to obtain small water molecule groups and achieve the effect of improving the quality of drinking water.

Description

Ultra-fine water molecular group processor and water treatment equipment thereof

Technical Field

The invention relates to a water treatment technology, in particular to an ultra-fine water molecular group processor and water treatment equipment thereof.

Background

Research shows that water is an important resource for living of organisms, and water is formed into water molecule groups by the combination of a plurality of water molecules through hydrogen bonds, wherein the larger the water molecule groups are, the water molecule groups are not easy to be absorbed and utilized by the organisms, when the water molecules are damaged, small water molecule groups can be formed, and the small water molecule groups have high permeability, are easy to be absorbed by biological cells, and further improve the effect of biological health.

Currently, as for a water molecule group detection method, Nuclear Magnetic Resonance (NMR) is used to detect frequency oscillation of water to obtain the size of the water molecule group, wherein higher frequency oscillation (Hz) indicates larger water molecule group and poorer water quality, and lower frequency oscillation indicates smaller water molecule group and better water quality, wherein a water source is lower than 100Hz, which is called small water molecule group.

However, most of the drinking water treatment devices on the market use water filters to provide the function of filtering water quality, and cannot provide the function of refining water source, so that small water molecule groups cannot be obtained to reduce the quality of drinking water, and the drinking water treatment devices are easy to cause doubts about harming human health after long-term drinking.

Disclosure of Invention

To solve the above problems, the present invention provides an ultra-fine water cluster treatment apparatus and water treatment equipment thereof, which can effectively refine water clusters in drinking water and improve drinking water quality to achieve the effect of enhancing absorption by human body.

To achieve the above objects, the present invention provides a super-fine water cluster processor, which includes a housing, an inlet flow-guiding unit, a first fluid impedance unit, an outlet flow-guiding unit, a second fluid impedance unit, and a fluid refining unit. The shell is internally provided with an accommodating space extending along an axis, and two ends of the axis are respectively provided with a water inlet part and a water outlet part which are communicated with the accommodating space; the water inlet flow guide unit is arranged in the accommodating space and is adjacent to the water inlet part, the water inlet flow guide unit is provided with a first flow guide part, a second flow guide part, a water inlet flow channel and a first spiral turbulence rod, the first flow guide part is arranged opposite to the water inlet part, the second flow guide part is connected with the first flow guide part and extends towards the water outlet part in a gradually-reduced mode, the water inlet flow channel penetrates through the first flow guide part and the second flow guide part along the axis and extends from the first flow guide part to the second flow guide part in a stepped gradually-reduced mode, and the first spiral turbulence rod is arranged in the water inlet flow channel along the axis; the first fluid impedance unit is arranged in the accommodating space, is positioned between the water inlet guide unit and the water inlet part and can impedance the fluid to be guided from the water inlet part to the first guide part; the water outlet diversion unit is arranged in the accommodating space and is adjacent to the water outlet part, the water outlet diversion unit is provided with a third diversion part and a fourth diversion part, the third diversion part is arranged opposite to the water outlet part, and the fourth diversion part is connected with the third diversion part and extends towards the water inlet part in a gradually-reduced manner;

the second fluid impedance unit is arranged in the accommodating space, is positioned between the water outlet diversion unit and the water outlet part and can impedance the fluid to be discharged from the third diversion part to the water outlet part; the fluid refining unit is arranged in the accommodating space and connected between the water inlet guide unit and the water outlet guide unit, the fluid refining unit is provided with a first spray hole adjacent to the second guide part and a second spray hole adjacent to the fourth guide part along the axis, the fluid refining unit is also provided with a fluid channel communicated with the first spray hole and the second spray hole, and the fluid in the second guide part refines water molecules through the first spray hole and the second spray hole and is guided to the fourth guide part to be discharged.

In another embodiment of the present invention, the water inlet guiding unit further has a first leakage-stopping ring, the first leakage-stopping ring is sleeved on the first guiding portion and abuts against the inner wall of the housing, and the first fluid impedance unit is received by the first leakage-stopping ring, so that the first spiral spoiler is abutted against between the first fluid impedance unit and the second guiding portion.

In another embodiment of the present invention, the first fluid impedance unit includes three first filter plates disposed at intervals, filter holes of two adjacent first filter plates are distributed in a staggered manner, and a first connecting block is disposed between the two adjacent first filter plates along an axis.

In another embodiment of the present invention, the outlet flow guiding unit has an outlet flow passage passing through the third flow guiding portion and the fourth flow guiding portion along the axis and gradually extending from the third flow guiding portion to the fourth flow guiding portion in a stepwise manner.

In another embodiment of the present invention, the water outlet flow guiding unit further has a second spiral turbulence bar disposed along the axis in the water outlet channel.

In another embodiment of the present invention, the outlet flow guiding unit further has a second leakage-stopping ring, the second leakage-stopping ring is sleeved on the third flow guiding portion and abuts against the inner wall of the housing, and the second fluid impedance unit is received by the second leakage-stopping ring, so that the second spiral spoiler is abutted against between the second fluid impedance unit and the fourth flow guiding portion.

In another embodiment of the present disclosure, the second fluid impedance unit includes three second filter plates disposed at intervals, the filter holes of two adjacent second filter plates are distributed in a staggered manner, and a second connection block is disposed between the two adjacent second filter plates along the axis.

In another embodiment of the present invention, a water treatment apparatus using the above-mentioned ultra-fine water molecule cluster processor includes a pipeline unit and a filter. The pipeline unit is connected with the shell and comprises a water inlet pipeline and a water outlet pipeline, the water inlet pipeline is communicated with an external water source and the water inlet part, one end of the water outlet pipeline is provided with a water outlet control valve, and the other end of the water outlet pipeline is communicated with the water outlet part; the filter is connected with the pipeline unit and arranged between the water outlet pipeline and the water outlet control valve, and the filter is communicated with the ultramicro water molecular group processor through the water outlet pipeline.

Therefore, the water molecule groups of the fluid can be cut and refined for multiple times, the fluid refining unit utilizes the narrow tube effect to enhance the flow velocity of the fluid, the fluid is atomized through the first spray hole and the second spray hole, small water molecule groups are effectively obtained, impurities dissolved in the fluid can be separated out, the permeability and the dissolving power of the water molecule groups are further improved, effective absorption of cell tissues can be promoted, redundant wastes in the body can be rapidly removed, and the effects of improving the drinking water quality and healthy drinking water are achieved.

Drawings

FIG. 1 is a perspective view of a housing according to a first embodiment of the present invention;

FIG. 2 is a perspective exploded view of the housing of the first embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view of a first embodiment of the present invention;

FIG. 4 is a schematic view illustrating a usage status of the first embodiment of the present invention;

FIG. 5 is a schematic block diagram illustrating a second embodiment of the present invention;

FIG. 6 is a test report of actual measurements made by the national academy of academic systems.

Description of the reference numerals

100, a superfine water molecular group processor; 200, water treatment equipment;

10, a shell; 11, an accommodating space;

12, a water inlet part; 13, a water outlet part;

20, a water inlet guide unit; 21, a first flow guide part;

211, a first straight section; 212, a first inclined section;

22, a second flow guide part; 221: a second straight section;

222, a second inclined section; 23, a water inlet flow channel;

24, a first spiral turbulence rod; 25, a first leakage-stopping ring;

30, a first fluid impedance unit; 31, a first filter plate;

311, a filter hole; 32, a first connecting block;

40, a water outlet diversion unit; 41, a third flow guide part;

411 is a third straight section; a third inclined section 412;

42, a fourth diversion part; 421 the fourth straight section;

422, a fourth inclined section; 43, a water outlet flow passage;

44, a second spiral spoiler bar; 45, a second leakage-stopping ring;

50: a second fluid impedance unit; 51, a second filter plate;

511, a filter hole; 52, a second connecting block;

60, a fluid thinning unit; 61, a first spray hole;

62, a second spray hole; 63, a fluid channel;

64, a first stop block; 65, a second stop block;

70, a pipeline unit; 71, a water inlet pipeline;

72, a water outlet pipeline; 73, a water outlet control valve;

80, a filter; 81, a filter cartridge;

l is an axis.

Detailed Description

Referring to fig. 1 to 5, the present invention provides a super-fine water cluster processor 100 and a water treatment apparatus 200 thereof, wherein fig. 1 to 4 show a first embodiment of the present invention; fig. 5 shows a second embodiment of the present invention.

Referring to fig. 1 to 4, a processor 100 for water molecule clusters according to a first embodiment of the present invention includes a housing 10, an inlet flow guide unit 20, a first fluid impedance unit 30, an outlet flow guide unit 40, a second fluid impedance unit 50, and a fluid refining unit 60.

The housing 10 is a long cylindrical container, the housing 10 has an accommodating space 11 extending along an axis L, and two ends of the axis L respectively have a water inlet portion 12 and a water outlet portion 13 communicating with the accommodating space 11.

The inlet flow guiding unit 20 is disposed in the accommodating space 11 of the housing 10 and adjacent to the inlet portion 12, the inlet flow guiding unit 20 has a first flow guiding portion 21 and a second flow guiding portion 22, the first flow guiding portion 21 is disposed opposite to the inlet portion 12, the second flow guiding portion 22 is connected to the first flow guiding portion 21 and extends toward the outlet portion 13 in a tapered manner, in this embodiment, the inlet flow guiding unit 20 is integrally formed, the inlet flow guiding unit 20 has an inlet channel 23 passing through the first flow guiding portion 21 and the second flow guiding portion 22 along the axis L, and extends from the first flow guiding portion 21 to the second flow guiding portion 22 in a stepped tapered manner, as shown in fig. 3 and 4, the first flow guiding portion 21 has a first flat section 211 and a first inclined section 212, the first flat section 211 is disposed toward the inlet portion 12, the first inclined section 212 extends from the first flat section 211 toward the outlet portion 13 in a tapered manner, the second guiding portion 22 has a second straight section 221 and a second inclined section 222, the second straight section 221 is connected to the first inclined section 212, the second inclined section 222 extends from the second straight section 221 toward the water outlet portion 13 in a tapering manner, so that the cross section of the water inlet guiding unit 20 is generally funnel-shaped, and therefore, the water inlet channel 23 is designed in a stepped tapering manner, so that the fluid can be rapidly guided to the second guiding portion 22 from the first guiding portion 21, and the flow of the fluid can be effectively disturbed and destroyed, so that water molecular groups are impacted and collided, and the effect of water molecular group refinement is achieved.

Referring to fig. 2 to 4, in a preferred embodiment, the water inlet flow guiding unit 20 further has a first spiral spoiler bar 24 and a first leakage-stopping ring 25, the first spiral spoiler bar 24 is accommodated in the water inlet flow channel 23 along the axis L to enhance the interference with the flow of the inlet water to increase the collision frequency of water molecules, thereby increasing the water molecule group refining efficiency, and the first leakage-stopping ring 25 is sleeved on the first straight section 211 of the first flow guiding portion 21 and abuts against the inner wall of the housing 10 to serve as a function of preventing the fluid from leaking into the water inlet flow guiding unit 20.

A first fluid impedance unit 30, disposed in the accommodating space 11 of the housing 10 and located between the water inlet guiding unit 20 and the water inlet portion 12, for impedance of the fluid to be guided from the water inlet portion 12 to the first guiding portion 21, in a preferred embodiment, the first fluid impedance unit 30 is connected to the first leakage stop ring 25 of the water inlet guiding unit 20, so that the first spiral spoiler 24 is abutted against a space between the first fluid impedance unit 30 and the second guiding portion 22; referring to fig. 2 to 4, the first fluid impedance unit 30 of the present embodiment includes three first filter plates 31 disposed at intervals, and a first connection block 32 is disposed between two adjacent first filter plates 31 along the axis L, wherein the number of the first filter plates 31 can be adjusted by the first fluid impedance unit 30 according to the requirement, and it should be noted that the filter holes 311 of two adjacent first filter plates 31 are disposed in a staggered manner, so that the fluid can cut and impact water molecule groups many times when passing through the first filter plates 31 and being introduced into the first flow guiding portion 21, thereby providing the effect of primarily micronizing the water molecule groups.

The water outlet diversion unit 40 is disposed in the accommodating space 11 of the housing 10 and adjacent to the water outlet portion 13, the water outlet diversion unit 40 is provided with a third diversion portion 41 and a fourth diversion portion 42, the third diversion portion 41 is disposed opposite to the water outlet portion 13, and the fourth diversion portion 42 is connected to the third diversion portion 41 and extends toward the water inlet portion 12 in a gradually-reduced manner; in the embodiment, the outlet diversion unit 40 is integrally formed, and the outlet diversion unit 40 and the inlet diversion unit 20 have the same structure and are mirror images of each other.

Specifically, the outlet diversion unit 40 has an outlet flow channel 43 passing through the third diversion part 41 and the fourth diversion part 42 along the axis L, and gradually extends from the third diversion part 41 to the fourth diversion part 42 in a stepwise manner, wherein the third flow guiding portion 41 has a third straight section 411 and a third inclined section 412, the third straight section 411 is disposed toward the water outlet portion 13, the third inclined section 412 extends from the third straight section 411 toward the water inlet portion 12 in a tapered manner, the fourth flow guiding portion 42 has a fourth straight section 421 and a fourth inclined section 422, the fourth straight section 421 is connected to the third inclined section 412, the fourth inclined section 422 extends from the fourth straight section 421 toward the water inlet portion 12 in a tapered manner, so that the cross section of the water outlet flow guiding unit 40 is substantially funnel-shaped, therefore, the outlet flow channel 43 is designed to be gradually reduced in a step-type manner, so that the effect of disturbing the water flow again to generate water molecule collision can be provided, and the effect of enhancing the refinement of water molecule groups can be achieved.

Referring to fig. 3 and 4, in a preferred embodiment, the water outlet flow guiding unit 40 has a second spiral spoiler 44 and a second leakage-stopping ring 45, the second spiral spoiler 44 is accommodated in the water outlet flow channel 43 along the axis L to enhance the interference with the flow of the outlet water to increase the collision frequency of water molecules, thereby increasing the water molecule group refining efficiency, and the second leakage-stopping ring 45 is sleeved on the third straight section 411 of the third flow guiding portion 41 and abuts against the inner wall of the housing 10 to serve as a function of preventing the fluid from leaking out of the water outlet flow guiding unit 40.

A second fluid impedance unit 50 disposed in the accommodating space 11 of the housing 10 and located between the water outlet diversion unit 40 and the water outlet portion 13, for impedance of the fluid discharged from the third diversion portion 41 to the water outlet portion 13; in the present embodiment, the second fluid impedance unit 50 and the first fluid impedance unit 30 have the same structure, as shown in fig. 3 and 4, the second fluid impedance unit 50 is connected to the second leakage-stopping ring 45 of the water outlet diversion unit 40, so that the second spiral spoiler 44 is abutted between the second fluid impedance unit 50 and the fourth diversion part 42; referring to fig. 3 and 4, the second fluid impedance unit 50 of the present embodiment includes three second filter plates 51 disposed at intervals, and a second connection block 52 is disposed between two adjacent second filter plates 51 along the axis L, wherein the second fluid impedance unit 50 can adjust the number of the second filter plates 51 as required, and it is worth describing that the filter holes 511 of the two adjacent second filter plates 51 are disposed in a staggered manner, so that when the fluid passes through the second filter plates 51 and is discharged to the water outlet 13, the fluid cuts and impacts water molecule groups for multiple times, and finally, the water molecule group thinning effect is enhanced.

The fluid refining unit 60 is disposed in the accommodating space 11 of the housing 10, and connected between the inlet guide unit 20 and the outlet guide unit 40, the fluid refining unit 60 is provided with a first nozzle 61 adjacent to the second guide portion 22 and a second nozzle 62 adjacent to the fourth guide portion 42 along the axis L, and the fluid refining unit 60 is further provided with a fluid channel 63 communicating the first nozzle 61 and the second nozzle 62, wherein the inner diameter of the fluid channel 63 is larger than the apertures of the first nozzle 61 and the second nozzle 62, so that the fluid in the second guide portion 22 is accelerated by the narrow tube effect through the first nozzle 61 and the second nozzle 62, thereby effectively refining the water molecular group structure and guiding the fluid to the fourth guide portion 42 for discharge.

In a preferred embodiment, a first stop block 64 and a second stop block 65 are disposed at two ends of the fluid thinning unit 60, and the first stop block 64 and the second stop block 65 are respectively fixed in the fluid channel 63, wherein the first stop block 64 penetrates the first nozzle 61, and the second stop block 65 penetrates the second nozzle 62, it should be noted that the first stop block 64 and the second stop block 65 can resist the flow rate of the fluid entering and exiting the fluid channel 63, so as to enhance the atomization of the fluid through the first nozzle 61 and the second nozzle 62, thereby effectively thinning the molecular mass structure, and achieving the effect of obtaining small molecular water masses.

Particularly, referring to fig. 6, the inventor activates an external water source by the ultra-fine water molecule cluster processor 100 of the present invention, and performs a nuclear magnetic resonance spectrometer test by a domestic academic institution, and a test report shows that the half-width and high-frequency of the nuclear magnetic resonance after the external water source is processed is 65.05Hz, so that the present invention can actually refine the water molecule clusters, and further obtain the ultra-fine water molecule clusters to achieve the effect of optimizing the water source quality.

Therefore, the water molecule groups of the fluid can be cut and refined for multiple times, the fluid refining unit 60 utilizes the narrow tube effect to enhance the flow velocity of the fluid, the fluid is atomized through the first spray hole 61 and the second spray hole 62, small water molecule groups are effectively obtained, the permeability and the dissolving power of the water molecule groups are further improved, the effective absorption of cell tissues can be promoted, and redundant wastes in the body can be rapidly removed, so that the effects of improving the drinking water quality and healthy drinking water are achieved.

In addition, referring to fig. 5, a second embodiment of the present invention provides a water treatment apparatus 200 using the aforementioned ultra-fine water molecule cluster treater 100, which includes a pipeline unit 70 and a filter 80.

The pipe unit 70 is connected to the housing 10, the pipe unit 70 includes a water inlet pipe 71 and a water outlet pipe 72, the water inlet pipe 71 is connected to an external water source and the water inlet portion 12, one end of the water outlet pipe 72 is provided with a water outlet control valve 73, and the other end is connected to the water outlet portion 13 of the housing 10.

A filter 80 connected to the pipe unit 70 and disposed between the water outlet pipe 72 and the water outlet control valve 73, wherein the filter 80 is communicated with the ultra-fine water molecular group treater 100 through the water outlet pipe 72, the filter 80 includes a plurality of filter cartridges 81, and the filter cartridges 81 can be selected from various filter materials according to requirements; it should be noted that, in the process of treating the external water source by the ultra-fine water cluster treater 100 of the present invention, impurities dissolved in the fluid can be precipitated, so that the treated water source can smoothly pass through the filter 80, thereby improving the filtering efficiency of the filter 80, reducing the replacement frequency of the filter cartridge 81, and saving the installation of the water pumping motor to smoothly discharge the water source from the water outlet control valve 73, thereby achieving the effects of reducing the equipment cost and providing healthy drinking water.

It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Claims

1. An ultrafine water molecule cluster processor, comprising:

the water inlet part and the water outlet part are communicated with the accommodating space respectively at two ends of the axis; and

the water inlet flow guide unit is arranged in the accommodating space and is adjacent to the water inlet part, the water inlet flow guide unit is provided with a first flow guide part, a second flow guide part, a water inlet flow channel and a first spiral turbulence rod, the first flow guide part is arranged opposite to the water inlet part, the second flow guide part is connected with the first flow guide part and extends towards the water outlet part in a gradually-reduced mode, the water inlet flow channel penetrates through the first flow guide part and the second flow guide part along the axis and extends from the first flow guide part to the second flow guide part in a gradually-reduced mode in a stepped mode, and the first spiral turbulence rod is arranged in the water inlet flow channel along the axis;

the first fluid impedance unit is arranged in the accommodating space, is positioned between the water inlet guide unit and the water inlet part and can impedance fluid to be guided to the first guide part from the water inlet part;

the water outlet diversion unit is arranged in the accommodating space and is adjacent to the water outlet part, the water outlet diversion unit is provided with a third diversion part and a fourth diversion part, the third diversion part is arranged opposite to the water outlet part, and the fourth diversion part is connected with the third diversion part and extends towards the water inlet part in a gradually-reducing manner;

a second fluid impedance unit arranged in the containing space and positioned between the water outlet diversion unit and the water outlet part and capable of impedance fluid to be discharged from the third diversion part to the water outlet part; and

the fluid thinning unit is arranged in the accommodating space and connected between the water inlet guide unit and the water outlet guide unit, the fluid thinning unit is provided with a first spray hole adjacent to the second guide part and a second spray hole adjacent to the fourth guide part along the axis, the fluid thinning unit is also provided with a fluid channel communicated with the first spray hole and the second spray hole, and the fluid of the second guide part thins water molecules through the first spray hole and the second spray hole and is guided to the fourth guide part to be discharged.

2. The apparatus of claim 1, wherein the inlet water diversion unit further comprises a first leakage-stopping ring, the first leakage-stopping ring is sleeved on the first diversion part and abuts against the inner wall of the housing, and the first fluid impedance unit is received by the first leakage-stopping ring, such that the first spiral spoiler bar abuts against between the first fluid impedance unit and the second diversion part.

3. The apparatus of claim 2, wherein the first fluid impedance unit comprises three first filter plates spaced apart from each other, wherein the filter holes of two adjacent first filter plates are staggered with respect to each other, and a first connection block is disposed between the two adjacent first filter plates along the axis.

4. The apparatus of claim 1, wherein the outlet flow guide unit has an outlet flow channel passing through the third flow guide portion and the fourth flow guide portion along the axis and extending from the third flow guide portion to the fourth flow guide portion in a stepwise tapered manner.

5. The device of claim 4, wherein the outlet flow guide unit further comprises a second spiral turbulence bar disposed along the axis in the outlet flow channel.

6. The device of claim 5, wherein the outlet flow-guiding unit further comprises a second leakage-stopping ring, the second leakage-stopping ring is sleeved on the third flow-guiding portion and abuts against the inner wall of the housing, and the second fluid impedance unit is received by the second leakage-stopping ring, such that the second spiral spoiler bar abuts against the space between the second fluid impedance unit and the fourth flow-guiding portion.

7. The apparatus of claim 6, wherein the second fluid impedance unit comprises three second filter plates spaced apart from each other, wherein the filter holes of two adjacent second filter plates are staggered with respect to each other, and a second connection block is disposed between the two adjacent second filter plates along the axis.

8. A water treatment facility using the ultra-fine water molecule cluster treater according to claim 1, comprising:

a pipeline unit connected to the casing, the pipeline unit including a water inlet pipeline and a water outlet pipeline, the water inlet pipeline being connected to an external water source and the water inlet part, one end of the water outlet pipeline being provided with a water outlet control valve, and the other end being connected to the water outlet part; and

and the filter is connected with the pipeline unit and arranged between the water outlet pipeline and the water outlet control valve, and is communicated with the ultramicro water molecular group processor through the water outlet pipeline.