CN115304112A - Physical principle washing water optimizing processor - Google Patents

Abstract

The invention discloses a physical principle washing water optimizing processor which is arranged in a water supply pipeline to process domestic water and comprises a shell, a water inlet pipe and a water outlet, wherein the water inlet pipe and the water outlet are arranged on the shell; the inner space of the outer shell is divided into an inner area and an outer area by the inner shell; the water entering the shell from the water inlet pipe sequentially passes through the two areas and then is discharged from the water outlet, and a turbulent plate for blocking the water flow to form turbulent flow and reducing the flow speed is arranged in any area; and a multi-stage filter element is also arranged in the inner shell. The invention is provided with a connector corresponding to a faucet or a water pipe, reduces the flow rate of water, changes the low-flow-rate macromolecular group water into small-molecular group water, magnetizes the small-molecular group water, increases the activity of the small-molecular group water, kills bacteria and microorganisms in the water, and removes, softens and releases residual chlorine/heavy metals in the water; the minerals in the water are ionized.

Description

Physical principle washing water optimizing processor

Technical Field

The invention belongs to the technical field of domestic water treatment, and particularly relates to a physical principle washing water optimizing processor.

Background

The existing cleaning of tableware, smoke exhaust ventilator, clothes and the like basically depends on chemical preparations such as liquid detergent, warns, washing powder and the like, the chemical preparations are all synthesized by petroleum second-generation products and other chemical components, in the process of using the chemical preparations, the skin contacted with the liquid detergent can be damaged, and the harm of the chemical preparations is explained by rough, desquamation, rash growth, even ulceration and the like of the skin of hands contacted with the liquid detergent all year round; according to research results of Japanese scientists, many toxic substances are found to be absorbed through skin pores and transported through blood to cause damage to human organs, namely transdermal toxicity; in addition, a lot of components in the chemical preparations have peculiar smell, industrial essence is added in manufacturers for covering the peculiar smell, formaldehyde and the like are added as antibacterial materials for preventing the product from deteriorating after the bottle is opened, and users smell the industrial essence and the formaldehyde, so that the harm to a respiratory system and a blood system is caused; data statistics shows that in the current domestic water pollution, domestic sewage discharge pollution accounts for 70%, chemical preparations are used for cleaning tableware, washing chemical products for bathing and the like, chemical components in sewage discharge cannot be completely removed, sewage treatment plants are discharged into rivers after being subjected to certain grade treatment, water with chemical components continuously pollutes the ground surface and underground water sources, and the water with chemical components can be absorbed when animals and plants grow; the pollution source is in continuous circulation, and the ecological environment cannot be stopped when being damaged.

The existing filtering equipment is mainly used for optimizing washing water for tableware, hand washing, face washing, clothes washing, sanitation and the like by a physical principle. Contain the mineral composition function stopping in the equipment, not only be used for the filtration to water, can also realize other effects through partial function filling simultaneously, for example: the energy ceramic is arranged, so that small-volume impurities in water can be adsorbed by the porous characteristic of the surface of the energy ceramic, and a certain physical filtering effect is achieved. Meanwhile, the existing data mentions that certain radiation far infrared rays can be generated, so that the water molecule group structure is vibrated, hydrogen bonds of the water molecule group structure are broken and fractured, molecules are promoted to be recombined, and large water molecule clusters are changed into small water molecule groups only containing a plurality of water molecules; when the water contacts with the water, trace hydroxyl and superoxide can be generated, and when the hydroxyl and superoxide react with organic matters, the bacteria and other microorganisms are killed by attacking cell membranes of the bacteria and destroying proteins of the bacteria, so that the effects of sterilizing and inhibiting bacteria, being hydrophilic and easy to clean, activating water, removing pesticide residues, removing residual chlorine and heavy metals in water and the like are achieved. The optimized small molecular group water molecules have small diameter, large activity, strong dissolution and permeability, and are easy to permeate into gaps between oil and solid substances, and the oil is easily peeled off from the surface of the solid by means of water impact or external force of towel wiping, which is the principle of physically cleaning oil stains; the same applies to the principles of washing laundry, etc.

However, in the equipment added with the filler, if the filler is directly connected to a water supply pipeline, the flow velocity of the entering water flow is large due to the large water pressure, the effective contact time cannot be achieved when the filler passes through the filler, and the water cannot be effectively filtered and treated.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides the washing water optimizing processor based on the physical principle, through the arrangement of the inner layer structure and the outer layer structure, the flow velocity of the inflow water flow can be effectively reduced, and on the premise of ensuring a certain flow, the inflow water flow can be in full contact with the filler arranged in the inflow water flow as much as possible, so that the physical treatment efficiency is improved.

The technical scheme adopted by the invention is as follows:

in a first aspect, the invention provides a physical principle washing water optimizing processor which is arranged in a water supply pipeline to process domestic water and comprises a shell, a water inlet pipe and a water outlet, wherein the water inlet pipe and the water outlet are arranged on the shell;

the inner space of the outer shell is divided into an inner area and an outer area by the inner shell;

the water entering the shell from the water inlet pipe passes through the two areas in sequence and then is discharged from the water outlet, and a turbulence plate for blocking the water flow to form turbulence and reducing the flow speed is arranged in any area;

and a multi-stage filter element is also arranged in the inner shell.

In combination with the first aspect, the present disclosure provides a first embodiment of the first aspect, the multi-stage filter cartridge comprising one or more of a ceramic energy filter cartridge, a ceramic tube filter cartridge, and a magnetic filter cartridge.

With reference to the first aspect, the present invention provides a second embodiment of the first aspect, wherein the outer shell and the inner shell are both cylindrical structures, the water inlet pipe is communicated with the area between the outer shell and the inner shell, and the water outlet is communicated with the area inside the inner shell;

the turbulence plate is provided with a plurality of turbulence plates which are arranged in the area between the outer shell and the inner shell.

In combination with the second embodiment of the first aspect, the present invention provides a third embodiment of the first aspect, wherein the top of the housing has an opening, the opening is communicated with two areas in the housing at the same time, and a cover plate for closing is fitted on the opening.

In combination with the third embodiment of the first aspect, the invention provides a fourth embodiment of the first aspect, wherein the water inlet pipe is arranged at the bottom of the side surface of the outer shell, the turbulent plate is a ring-shaped part arranged on the surface of the outer side wall of the inner shell, the ring-shaped part is provided with an extension part facing the water inflow direction, and the water is blocked by the extension part to enter the root part of the extension part to form turbulent flow.

With reference to the third embodiment of the first aspect, the present invention provides a fifth embodiment of the first aspect, wherein the communication part between the outer shell and the inner shell is at the top of the outer shell, a water diversion plate is arranged in the top area, and water between the outer shell and the inner shell enters the inner area of the inner shell through the water diversion plate.

With reference to the fifth implementation manner of the first aspect, the present invention provides a sixth implementation manner of the first aspect, wherein the water diversion plate is fastened on the edge of the top opening of the inner shell, and is pressed by the cover plate to form an area partition;

the water distribution plate is provided with an outer ring area and an inner ring area, the outer ring area is provided with a plurality of first water permeable holes, and water in the outer area and the outer area of the shell enters the top area between the water distribution plate and the cover plate through the first water permeable holes;

and the inner ring is provided with a plurality of second water permeable holes, and water in the top area enters the inner shell through the second water permeable holes.

In combination with the first aspect or the first to sixth implementation manners of the first aspect, the present invention provides a seventh implementation manner of the first aspect, wherein the processor comprises a surface-mounted, a concealed, and an integrated portable structure.

With reference to the seventh implementation manner of the first aspect, the present invention provides an eighth implementation manner of the first aspect, wherein a universal pipe connector is disposed on each of the water inlet pipe and the water outlet of the integral portable processor.

With reference to the seventh implementation manner of the first aspect, the present invention provides a ninth implementation manner of the first aspect, wherein a window is disposed on the outer shell, and the inner shell is made of a transparent plate material.

The beneficial effects of the invention are as follows:

according to the invention, external water is introduced into the shell for filtering through the multilayer filter element structure, and meanwhile, the water flow speed entering the processor is reduced by optimizing the water flow channel and sequence inside the shell, and a certain turbulent flow position is formed by multiple structure blocking, so that larger particles in part of water are blocked; meanwhile, the over-slow water flow can contact with the energy ceramic material in the space of the inner shell for more time as far as possible, so that a better treatment effect is achieved.

Drawings

FIG. 1 is a side view of an optimizer employing side entry water in an embodiment of the present invention;

FIG. 2 is a front view of an optimizer employing side feed water in an embodiment of the present invention;

FIG. 3 isbase:Sub>A schematic cross-sectional view taken along A-A of FIG. 2 in accordance with the present invention;

FIG. 4 is an isometric view of an optimized processor employing side entry water in an embodiment of the present invention;

FIG. 5 is a first isometric view of the interior of an embodiment of the present invention with the housing sectioned through the optimizer using side entry;

FIG. 6 is a second, isometric view of the interior of an embodiment of the present invention with the housing sectioned through using a side entry optimizer;

FIG. 7 is an exploded view of an optimizer using side feed water in an embodiment of the present invention.

In the figure: 1-water inlet pipe, 2-outer shell, 3-water outlet, 4-water diversion plate, 5-first stage filtration, 6-second stage filtration, 7-third stage filtration, 8-water inlet cavity, 9-turbulent flow plate, 10-inner shell, 11-filler sleeve, 12-bracket and 13-cover plate.

Detailed Description

The invention is further explained below with reference to the drawings and the specific embodiments.

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present application, presented in the accompanying drawings, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. 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 application.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present application, it should be noted that if the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate an orientation or positional relationship based on that shown in the drawings or that the product of the application is used as it is, this is only for convenience of description and simplicity of description, and does not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present application. Furthermore, the appearances of the terms "first," "second," and the like in the description herein are only used for distinguishing between similar elements and are not intended to be construed as indicating or implying relative importance.

Furthermore, the terms "horizontal", "vertical" and the like when used in the description of the present application do not require that the components be absolutely horizontal or overhanging, but may be slightly inclined. For example, "horizontal" merely means that the direction is more horizontal than "vertical" and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

In the description of the present application, it should also be noted that unless otherwise explicitly stated or limited, the terms "disposed," "mounted," "connected," and "connected" should be construed broadly and may include, for example, a fixed connection, a detachable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

Example 1:

the embodiment discloses a physical principle washing water optimizing processor which is arranged in a water supply pipeline to process domestic water. The water supply pipeline in the embodiment is a common household water supply pipeline, and can be directly connected to the water pipe of each household resident to form a concealed processor, so that the comprehensive treatment of the water entering the household can be realized. Or can be directly connected on the exposed water pipe of the corresponding area and connected in a pipe cutting mode to form the open processor, so that the maintenance is convenient.

Since the water pipe of the general household water has a certain water pressure, the processor in the embodiment is provided with a filtering structure and other functional structures, especially a part of functional filler, which need to be fully contacted with the water as much as possible. And the condition of sufficient contact with water is contact time and contact area, and the increase of the contact area can cause the whole equipment to be large in volume and not suitable for common household installation. The solution in this embodiment is to increase the retention time as much as possible while ensuring a certain contact area.

Specifically, the treater in this embodiment includes a housing 2, and a water inlet pipe 1 and a water outlet 3 which are arranged on the housing 2, and water in an external water supply pipeline is introduced into the housing 2 through the water inlet pipe 1 and flows back into the water supply pipeline from the water outlet 3; wherein, the outer shell 2 is internally provided with at least one layer of inner shell 10, and the inner shell 10 divides the space in the outer shell 2 into an inner area and an outer area; water entering the shell 2 from the water inlet pipe 1 passes through the two areas in sequence and then is discharged from the water outlet 3, and a turbulence plate 9 for blocking water flow to form turbulence and reducing flow speed is arranged in any area; a multi-stage filter element is also provided within the inner housing 10.

In some embodiments, the multi-stage filter cartridge includes one or more of a ceramic energy filter cartridge, a ceramic tube filter cartridge, and a magnetic filter cartridge. Wherein, ceramic energy filter core is a ceramic filler material, sets up the reprocessor through different carrier forms in, water can fill its inside when passing through, and ceramic energy filter core can avoid being taken away by rivers on the fixed of carrier this moment, realizes great surface area through the volume as little as possible simultaneously to improve area of contact. The ceramic tube filter element is a tube made of ceramic materials and is provided with a plurality of gaps, and water can contact with the ceramic materials when flowing through the ceramic tube filter element, so that the effects of antibiosis, mineralization and water activation to a certain degree are realized.

Furthermore, the outer shell 2 and the inner shell 10 are both cylindrical structures, the water inlet pipe 1 is communicated with the area between the outer shell 2 and the inner shell 10, and the water outlet 3 is communicated with the area inside the inner shell 10; the turbulence plates 9 are provided in several numbers and are arranged in the area between the outer shell 2 and the inner shell 10. And the top of the housing 2 has an opening which communicates with two areas in the housing 2 at the same time, and a cover plate 13 for closing is fitted over the opening.

The water inlet pipe 1 is arranged at the bottom of the side surface of the outer shell 2, and the turbulent flow plate 9 is a ring-shaped member arranged on the surface of the outer side wall of the inner shell 10, and the ring-shaped member has an extension part facing the water inflow direction, and the water flow is blocked by the extension part from entering the root of the extension part to form turbulent flow.

The communicating part of the outer shell 2 and the inner shell 10 is arranged on the top of the outer shell 2, a water diversion plate 4 is arranged in the top area, and water between the outer shell 2 and the inner shell 10 enters the inner area of the inner shell 10 through the water diversion plate 4.

The water diversion plate 4 is buckled on the edge of the top opening of the inner shell 10, and the water diversion plate 4 is pressed by the cover plate 13 to form an area partition; the water distribution plate 4 is provided with an outer ring area and an inner ring area, a plurality of first water permeable holes are arranged on the outer ring area, and water in the outer area and the inner area of the shell 2 enters the top area between the water distribution plate 4 and the cover plate 13 through the first water permeable holes; and the inner ring is provided with a plurality of second water permeable holes through which water in the top region enters the inner shell 10.

Further, the processor in this embodiment includes a surface mount type, a concealed type, and an integrated portable structure. Fig. 1-7 show a surface-mounted disposer having a construction that communicates with a water supply line by single-sided water intake, while being mounted to a wall, floor, or table by other mounting structures. The concealed structure has at least two cavities, namely a multi-cavity parallel structure, and is generally buried underground, in a wall body or in a ceiling on the top.

Simultaneously, still provide the portable integrative filtration equipment of travel usefulness in this embodiment, this kind of equipment volume is less, for upper and lower business turn over water design, only has a jar body. And the water inlet and outlet 3 is provided with a universal joint which can be directly connected to a water pipe for use.

Regardless of the equipment which is obviously installed or installed, the outer shell 2 is provided with a window, and the inner shell 10 is made of a transparent plate material.

To further illustrate the principles and design features of the device, the present embodiment is optimally defined based on the illustrative processor, as shown in FIGS. 1-7.

As can be seen, the main body of the open-mounted disposer is a barreled structure, which has a cavity therein for holding a filter cartridge.

One side of the shell 2 of the whole barreled is provided with an outwardly extending water inlet pipe 1, the opening of the water inlet pipe 1 is arranged upwards, and the water inlet pipe is provided with an inner hexagonal joint for connecting an external pipeline.

The bottom of the shell 2 is provided with a water outlet 3 which is not shown in the figure, and the water outlet 3 is internally provided with a thread and a waterproof sealing rubber ring for connecting an external pipeline.

Further, as shown in fig. 3, an inner shell 10 is disposed in the cavity inside the outer shell 2, and the cavity is divided into an inner region and an outer region by the inner shell 10, in this embodiment, the outer region and the inner region are used for distinguishing.

The water inlet pipe 1 is communicated with the lower portion of the outer casing 2, and water introduced from the water inlet pipe 1 is introduced into the outer region by the outer wall of the inner casing 10. Since the outer region is an annular space, the incoming water flow is blocked by the outer wall of the inner casing 10 to be rapidly moved to both sides and is moved upward after the water flows moving to both sides meet.

The buffer effect can be achieved to a certain extent through the common outer area, and the flow velocity of the entering water flow is reduced. Meanwhile, four layers of annular turbulence plates 9 are arranged on the outer wall of the inner shell 10. The turbulence plate 9 is a ring-shaped plate that is arranged on the outer wall of the inner shell 10 or on the inner wall of the outer shell 2 and extends towards the flow direction of the influent water flow. It has an extension, which in the sectional view of fig. 3 can be seen, the cross-sectional dimension of the extension of the turbulence plate 9 is decreasing and forms an arc-shaped transition at its end. The extending part is provided with an inner concave surface which faces to the inflow direction of the inlet water and is arranged downwards in the drawing. The water flow passing through the turbulence plate 9 forms turbulence on the inner concave surface, so that the effect of reducing the flow speed is achieved, and meanwhile, part of particles with larger particle sizes in the water can be blocked at the position.

Because the water inlet of the device is single-point water inlet of the pipeline, if the water directly impacts the water inlet pipe to enter the external area, the water flow on one side of the water inlet pipe 1 is larger, and the turbulence phenomenon and the blocked solid particles at the position are more. In order to realize better water distribution condition, a circle of annular water inlet cavity 8 is arranged at the joint of the external area and the water inlet pipe 1, and a triangle-like water distribution block is arranged at the joint of the water inlet pipe 1 and the external area. When intaking impacted the water diversion piece from inlet tube 1 on, can flow to 8 both sides of intake antrum fast and upward movement again after 8 other ends of intake antrum intersect to make the rivers that get into annular outside region can distribute more evenly, and also can reduce certain water velocity through rivers impact each other.

And a cover plate 13 is provided on an opening of the top of the housing 2, and the cover plate 13 is connected to the housing 2 by a screw. And the water diversion plate 4 arranged at the lower part of the cover plate 13 is further optimized in the embodiment. In fig. 3 it can be seen that the water distribution plate 4 is divided into an inner and an outer ring area, the dividing line being referenced to the edge of the inner shell 10. The outer ring area in the outer space is provided with a circle of first water permeable holes, and water flow in the outer area flows upwards and then enters the top area at the lower part of the cover plate 13 through the first water permeable holes. And through the aperture size of the first hole of permeating water of control, can reach certain filter effect.

The inner side surface of the cover plate 13 is provided with a plurality of pressing blocks for pressing the water diversion plate 4, the pressing blocks are solid in the section of fig. 3, but the pressing blocks are blocky, and water flow can enter the inner ring area of the water diversion plate 4 from the clearance between the pressing blocks after passing through the first water permeable holes. And the inner ring area is designed in a multilayer structure, and fig. 3 shows that the middle part of the inner ring area is provided with a hollow area, and two sides of the hollow area are provided with a second water permeable hole and a third water permeable hole. The water flow enters the hollow area through the second water permeable holes, and then enters the inner area of the inner shell 10 through the third water permeable holes after being buffered in the hollow area to a certain degree. And in the actual product that corresponds, because the board 4 that divides water is detachable construction, then the user can install the board 4 that divides water of different porosities according to the demand to dismantle the change or maintain it after using for a certain time, can play better filtration and the buffering and reduce the effect of velocity of flow.

And in the inner space, this embodiment is provided with three filter layers, from last to being first order filtration 5, second level filtration 6 and third level filtration 7 in proper order down.

The first stage 5 is an energy ceramic material, and the energy ceramic used in this embodiment is a small-particle ceramic structure using a non-woven fabric as a base material. Or a cylindrical monolithic filter structure as shown in the figure, using PP cotton as the substrate. The material can be completely permeable to water, but a large contact area is realized by the energy ceramic with a small grain size, so that the material can be in full contact with inlet water, and the effect of activating the water is realized. At the same time, a support 12 is provided on the outside thereof as a nested fastening structure in order to increase the structural stability thereof.

While the second stage 6 is a honeycomb ceramic tube, i.e. a monolithic ceramic material with a special shape. It is divided into two kinds of shape designs of inner circle and outer lane, and its purpose all realizes bigger area of contact through setting up great thinner lamellar body.

The third stage filtering 7 is a magnetic ball which is made of food-grade magnet and is provided with concave-convex lines on the surface to form a larger specific surface area. And a filler sleeve 11 made of non-woven fabric material is arranged outside the third-stage filter 7 for wrapping, a partition plate is arranged at the top opening of the filler sleeve 11, and the partition plate is of a high-molecular net structure and used for binding a plurality of magnetic small balls in the area.

The present invention is not limited to the above alternative embodiments, and other various forms of products can be obtained by anyone in light of the present invention. The above detailed description should not be taken as limiting the scope of the invention, which is defined in the claims, and which the description is intended to be interpreted accordingly.

Claims (10)

1. The utility model provides a physical principle washing water optimization treater, sets up and handles domestic water in the water supply line which characterized in that: the water supply device comprises a shell (2), and a water inlet pipe (2) and a water outlet (3) which are arranged on the shell (2), wherein water in an external water supply pipeline is introduced into the shell (2) through the water inlet pipe (2) and flows back into the water supply pipeline from the water outlet (3);

wherein, the outer shell (2) is internally provided with at least one layer of inner shell (10), and the inner shell (10) divides the inner space of the outer shell (2) into an inner area and an outer area;

water entering the shell (2) from the water inlet pipe (1) passes through the two areas in sequence and then is discharged from the water outlet (3), and a turbulence plate (9) used for blocking water flow to form turbulence and reducing flow speed is arranged in any area;

a multi-stage filter element is also arranged in the inner shell (10).

2. A physical principles wash water optimization processor in accordance with claim 1, wherein: the multi-stage filter element comprises one or more of a ceramic energy filter element, a ceramic tube filter element and a magnetic filter element.

3. The physical principle washing water optimizing processor of claim 1, wherein: the outer shell (2) and the inner shell (10) are both cylindrical structures, the water inlet pipe (2) is communicated with the areas between the outer shell (2) and the inner shell (10), and the water outlet (3) is communicated with the area inside the inner shell (10);

the turbulence plates (9) are arranged in the area between the outer shell (2) and the inner shell (10).

4. A physical principles wash water optimization processor in accordance with claim 3, wherein: the top of the shell (2) is provided with an opening which is communicated with two areas in the shell (2) at the same time, and a cover plate (13) for closing is matched on the opening.

5. A physical principles wash water optimization processor in accordance with claim 4, wherein: the water inlet pipe (1) is arranged at the bottom of the side surface of the outer shell (2), the turbulent flow plate (9) is a ring-shaped piece arranged on the surface of the outer side wall of the inner shell (10), the ring-shaped piece is provided with an extension part facing the water inflow direction, and the water is blocked by the extension part to enter the root part of the extension part to form turbulent flow.

6. The physical principle washing water optimizing processor of claim 4, wherein: the communicating part of the outer shell (2) and the inner shell (10) is arranged at the top of the outer shell (2), a water diversion plate (4) is arranged in the top area, and water between the outer shell (2) and the inner shell (10) enters the inner area of the inner shell (10) through the water diversion plate (4).

7. A physical principles wash water optimization processor in accordance with claim 6, wherein: the water diversion plate (4) is buckled on the edge of the top opening of the inner shell (10), and the water diversion plate (4) is pressed by the cover plate (13) to form an area partition;

the water distribution plate (4) is provided with an outer ring area and an inner ring area, a plurality of first water permeable holes are formed in the outer ring area, and water in the outer area and the inner area of the shell (2) enters the top area between the water distribution plate (4) and the cover plate (13) through the first water permeable holes;

the inner ring is provided with a plurality of second water permeable holes, and water in the top area enters the inner shell (10) through the second water permeable holes.

8. A physical principles wash water optimization processor according to any one of claims 1 to 7, wherein: the processor comprises a surface-mounted type structure, a concealed-mounted type structure and an integrated portable structure.

9. The physical principle washing water optimizing processor of claim 8, wherein: the water inlet pipe (1) and the water outlet (3) of the integrated portable processor are both provided with universal pipe connectors.

10. The physical principle washing water optimizing processor of claim 8, wherein: the outer shell (2) is provided with a window, and the inner shell (10) is made of a transparent plate.

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