CN113739411A - High-efficient dirt quality of water purification and heating system that hinders based on little electrolysis - Google Patents

Abstract

The application discloses a micro-electrolysis-based efficient scale-inhibition water quality purification and heating system, wherein a transmission shaft of a water filtering mechanism in a shell is vertically arranged, and the upper end of the transmission shaft extends out of a box body and is connected with a rotating shaft of a driven belt pulley; the lower end of the transmission shaft is connected with the mounting plate; the side wall of the filtering cylinder body is provided with a filter screen for filtering scale, and the bottom of the filtering cylinder body is connected with a water inlet of the water heater through a water purifying pipe; the scale collecting plate is of an annular structure and is arranged on the inner wall of the box body; the brush hair of the cylinder cleaning brush is abutted against the filter screen, and the upper end of the cylinder cleaning brush is connected with the mounting plate; the brush hair of the plate body brush is abutted against the side wall of the dirt collecting plate, and the plate body brush is connected with the transmission shaft; the output shaft of the filtering motor is connected with the driven belt pulley; the water outlet of the water heater is connected with the water inlet of the water storage tank through a hot water pipe, and the water outlet pipes of the water storage tank and the water heater extend out of the bottom of the shell. The descaling device solves the problem that the descaling efficiency of the water heater is low and the heating effect of the water heater is reduced in the prior art.

Description

High-efficient dirt quality of water purification and heating system that hinders based on little electrolysis

Technical Field

The application belongs to the technical field of water heaters, and particularly relates to a micro-electrolysis-based high-efficiency scale-inhibition water quality purification and heating system.

Background

The use of water heaters in public places such as offices, hotels, restaurants, industrial and mining enterprises, dining halls and even families is already popular, and with the increasing interest in drinking water quality, water introduced into the water heaters needs to be treated in more and more places to meet the requirement of preventing insanitation.

However, the hardness of cold water in a hot water pipe of the water heater is high, and substances such as calcium, magnesium and the like in the cold water are hardened on the inner wall of the hot water pipe to form scale under the heating condition, so that a large amount of scale is accumulated in the hot water pipe in long-term use; along with the increase of the scale, the heat transfer performance of the hot water pipe is reduced, so that the heating effect of the water heater is reduced, and therefore, the scale removal becomes one of the problems to be solved urgently for the water heater; at present, in the aspect of descaling of a water heater, medicament descaling is mostly adopted, the method can only gradually dissolve surface scale, the descaling effect is slow and incomplete, medicament residues are easy to cause, and the method has great harm to human bodies.

Disclosure of Invention

The embodiment of the application solves the problem that the descaling efficiency of a water heater is low to cause the heating effect of the water heater to be reduced in the prior art by providing the micro-electrolysis-based high-efficiency scale-inhibition water quality purification and heating system.

In order to achieve the aim, the embodiment of the invention provides a micro-electrolysis-based high-efficiency scale-inhibition water quality purification and heating system, which comprises a shell, a water heater, a water storage tank, a water filtering mechanism and a controller, wherein the shell is provided with a water inlet and a water outlet;

a filtering cavity, a heating cavity and a storage cavity are sequentially arranged in the shell from top to bottom; the water filtering mechanism and the controller are both arranged in the filtering cavity;

the water filtering mechanism comprises a filtering box body, a filtering cylinder body, a transmission shaft, a cylinder body cleaning brush, a dirt collecting plate, a plate body brush, a mounting plate and a filtering motor, wherein the filtering cylinder body, the transmission shaft, the cylinder body cleaning brush, the dirt collecting plate, the plate body brush, the mounting plate and the filtering motor are arranged in the filtering box body;

a water inlet at the upper end of the filtering box body is connected with a drinking water source through a water inlet pipe;

the transmission shaft is vertically arranged, and the upper end of the transmission shaft extends out of the box body and then is connected with a rotating shaft of the driven belt pulley; the lower end of the transmission shaft is connected to the mounting plate;

the filter cylinder is arranged below the mounting plate, a filter screen for filtering scale is arranged on the side wall of the filter cylinder, and the bottom of the filter cylinder is connected with a water inlet of the water heater through a water purification pipe;

the scale collecting plate is of an annular structure and is arranged on the inner wall of the box body;

the cylinder cleaning brush and the plate body brush are both vertically arranged, the brush hair of the cylinder cleaning brush is abutted against the filter screen, and the upper end of the cylinder cleaning brush is connected to the mounting plate;

the bristles of the plate body brush are abutted against the side wall of the scale collecting plate, and the plate body brush is connected with the transmission shaft through a first connecting rod;

a driving belt pulley is arranged on an output shaft of the filtering motor and is connected with the driven belt pulley through a transmission belt;

the water heater is arranged in the heating cavity, a water outlet of the water heater is connected with a water inlet of the water storage tank through a hot water pipe, and the scale collecting plate, the filtering motor and the water heater are electrically connected with the controller;

the water storage tank is arranged in the storage cavity, and the water storage tank and the water outlet pipe of the water heater extend out of the bottom of the shell.

In a possible implementation manner, the lower ends of the plate body brush and the cylinder cleaning brush are connected through second connecting rods, the number of the first connecting rods and the number of the second connecting rods are more than two, and the first connecting rods and the second connecting rods are both of propeller blade structures.

In one possible implementation mode, the side wall of the water storage tank is provided with heat dissipation holes; the upper end of the water storage tank is provided with a plurality of groups of cooling fans, and rotating shafts of the cooling fans are in transmission connection with a rotating shaft of a cooling motor.

In one possible implementation, the water heater comprises an insulating layer, an inner container, an electric heating pipe and a magnesium rod;

the heat preservation set up in the inner bag with between the heating chamber, electric heating pipe is located the inside of inner bag, electric heating pipe with controller electric connection, magnesium stick tip passes the casing with stretch into behind the lateral wall of inner bag the inside of inner bag, the magnesium stick with the inner bag is sealing connection.

In a possible implementation mode, the bottoms of the inner container, the water storage tank and the filtering box body are all provided with a sewage discharge pipe.

In a possible implementation manner, a cleaning box body is arranged in the filter cavity, a liquid inlet of the cleaning box body extends out of the shell, a cleaning pipe at the bottom of the cleaning box body is divided into three pipelines which are respectively connected to the inner container, the water storage tank and the filter box body, and electromagnetic valves are arranged on the three pipelines.

In one possible implementation manner, temperature sensors are arranged in the inner container and the water storage tank;

the water storage tank and the water outlet pipe of the water heater are respectively provided with a flow electromagnetic valve, and the temperature sensor and the flow electromagnetic valve are electrically connected with the controller.

In a possible implementation manner, a control panel is arranged outside the shell, the control panel comprises a display screen and function keys, and the display screen and the function keys are electrically connected with the controller.

The embodiment of the application also provides a use method of the micro-electrolysis-based high-efficiency scale-inhibition water quality purification and heating system, and the micro-electrolysis-based high-efficiency scale-inhibition water quality purification and heating system comprises the following steps;

injecting drinking water into the filter box body;

starting the scale collecting plate and the filtering motor through the controller;

the scale collecting plate adsorbs metal ions with positive charges to the scale collecting plate and separates out scale;

the filtering motor drives the plate body brush to do circular motion on the scale collecting plate, so that precipitated scale falls to the bottom of the filtering box body, and the filtering motor drives the barrel cleaning brush to do circular motion on the filtering barrel body, so that the scale is far away from the filtering barrel body;

the filtered water enters the water heater, the water heater conveys boiled water into the water storage tank for cooling, the water storage tank outputs the cooled water through the water outlet pipe, and the water heater outputs boiled water through the water outlet pipe.

In a possible implementation manner, the method further comprises the following steps;

when the plate body brush and the cylinder cleaning brush rotate, the first connecting rod and the second connecting rod are driven to rotate, the first connecting rod and the second connecting rod drive water in the filter box body to rotate, the rotating water disperses scale on the scale collecting plate and the filter cylinder body, and the filtered water can pass through the filter cylinder body in an accelerated manner;

when the liner, the water storage tank or the filtering tank body are cleaned, cleaning fluid is injected into the cleaning tank body, then the liner, the water storage tank or the filtering tank body is injected through the cleaning pipe for cleaning, and after cleaning is finished, waste water is discharged through the drain pipe; then clean water is injected into the cleaning box body from a liquid inlet of the cleaning box body, the liner, the water storage tank or the filtering box body are washed, and the corresponding drain pipe is opened during washing.

One or more technical solutions provided in the embodiments of the present invention have at least the following technical effects or advantages:

the embodiment of the invention provides a micro-electrolysis-based high-efficiency scale-inhibition water quality purification and heating system, when the device is used, the brush hair of a rotating plate body brush continuously cleans scale on a scale collecting plate, and the scale is prevented from being agglomerated and attached to the scale collecting plate, so that the normal function of the scale collecting plate is ensured, and the scale can be continuously separated out from the scale collecting plate. The incrustation scale that precipitates blocks up the filter screen of filtering the barrel easily, and consequently, the transmission shaft passes through the mounting panel and drives the rotation of barrel cleaning brush, and the incrustation scale on the filter screen is constantly cleared up to the brush hair of rotatory barrel cleaning brush, avoids the incrustation scale gathering, guarantees that the water after filtering can lead to the filter screen and enter into the water heater. The system can remove water scale in water, and the water scale is not easy to be adsorbed on the scale collecting plate and the filter screen, so that the stable operation of the system can be ensured, and the problem that the normal operation of the system is influenced by the water scale is avoided. The water heater can be used in various occasions, such as office places, hotels, restaurants, industrial and mining enterprises, dining halls and even families, the output water can meet the standard of daily drinking water, and the cooling water, the boiled water and the mixed water thereof can meet various drinking requirements.

Set up the structural strength that the second connecting rod can strengthen plate body brush and barrel cleaning brush when rotatory, avoid the resistance too big and lead to the cracked problem of its junction. The first connecting rod and the second connecting rod are of a propeller blade structure and can drive water in the filter box to rotate through the first connecting rod and the second connecting rod when the transmission shaft rotates, so that scales are not easy to gather on the scale collecting plate and the filter cylinder, and the filtered water can pass through the filter cylinder at an accelerated speed.

After the cleaning box body is filled with cleaning liquid, the inner container, the water storage tank and the filtering box body can be respectively cleaned, and the cleaned sewage can be discharged through the sewage discharge pipe. High-pressure water can be injected into the liquid inlet of the cleaning box body, and the liner, the water storage tank and the filter box body can be further cleaned by the high-pressure water to meet the standard of drinking water.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings used in the description of the embodiments will be briefly introduced below. It is obvious that the drawings in the following description are only some of the embodiments described in the present application, and that other drawings can be derived from these drawings by a person skilled in the art without inventive effort.

Fig. 1 is an external structural schematic diagram of a micro-electrolysis-based efficient scale-inhibition water quality purification and heating system provided by an embodiment of the invention.

Fig. 2 is a schematic diagram of the internal structure of a micro-electrolysis-based high-efficiency scale-inhibition water quality purification and heating system provided by the embodiment of the invention.

Fig. 3 is a schematic structural diagram of a water filtering mechanism according to an embodiment of the present invention.

Reference numerals: 1-a shell; 11-a filter chamber; 12-a heating chamber; 13-a storage chamber; 2-a water heater; 21-an insulating layer; 22-inner container; 23-an electric heating tube; 24-magnesium rod; 3, a water storage tank; 4-a water filtration mechanism; 41-a filter box body; 42-a filter cartridge; 421-a filter screen; 43-a drive shaft; 44-a cylinder cleaning brush; 45-scale collecting plate; 46-a plate body brush; 47-a mounting plate; 48-a filter motor; 5-a controller; 6-water outlet pipe; 7-a first link; 8-a second link; 9-a heat dissipation fan; 10-a sewage draining pipe; 31-cleaning the box body; 32-a cleaning tube; 33-control panel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. 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.

In the description of the embodiments of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the embodiments of the present invention and simplifying the description, but do not indicate or imply that the referred devices or elements must have specific orientations, be configured in specific orientations, and operate, and thus, should not be construed as limiting the present invention. The terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Furthermore, the terms "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. Specific meanings of the above terms in the embodiments of the present invention can be understood by those of ordinary skill in the art according to specific situations.

As shown in fig. 1 to 3, the micro-electrolysis based high-efficiency scale-inhibiting water quality purification and heating system provided by the embodiment of the invention comprises a housing 1, a water heater 2, a water storage tank 3, a water filtering mechanism 4 and a controller 5.

The interior of the shell 1 is provided with a filter cavity 11, a heating cavity 12 and a storage cavity 13 from top to bottom in sequence. The water filtering mechanism 4 and the controller 5 are both arranged in the filtering cavity 11.

The water filtering mechanism 4 comprises a filtering box body 41, a filtering cylinder 42 arranged in the filtering box body 41, a transmission shaft 43, a cylinder cleaning brush 44, a dirt collecting plate 45, a plate body brush 46, a mounting plate 47 and a filtering motor 48.

The water inlet at the upper end of the filtering box body 41 is connected with a drinking water source through a water inlet pipe.

The transmission shaft 43 is vertically arranged, and the upper end of the transmission shaft 43 extends out of the box body and then is connected with the rotating shaft of the driven belt pulley. The lower end of the drive shaft 43 is connected to a mounting plate 47.

The filtering cylinder 42 is arranged below the mounting plate 47, a filter screen 421 for filtering scale is arranged on the side wall of the filtering cylinder 42, and the bottom of the filtering cylinder 42 is connected with the water inlet of the water heater 2 through a purified water pipe.

The dirt collecting plate 45 is of an annular structure, and the dirt collecting plate 45 is installed on the inner wall of the box body.

The cylinder cleaning brush 44 and the plate body brush 46 are both arranged vertically, bristles of the cylinder cleaning brush 44 are abutted to the filter screen 421, and the upper end of the cylinder cleaning brush 44 is connected to the mounting plate 47.

The brush of the plate brush 46 abuts against the side wall of the scale collecting plate 45, and the plate brush 46 is connected with the transmission shaft 43 through the first connecting rod 7.

The output shaft of the filter motor 48 is provided with a driving pulley, and the driving pulley is connected with a driven pulley through a transmission belt.

The water heater 2 is arranged in the heating cavity 12, the water outlet of the water heater 2 is connected with the water inlet of the water storage tank 3 through a hot water pipe, and the scale collecting plate 45, the filtering motor 48, the water heater 2 and the controller 5 are electrically connected.

The water storage tank 3 is arranged in the storage cavity 13, and the water outlet pipes 6 of the water storage tank 3 and the water heater 2 extend out of the bottom of the shell 1.

It should be noted that the scale collecting plate 45 is a straight plate type electrode group of electrochemical scale removal equipment of Taibiya, Beijing Taibiya technologies, Inc., the straight plate type electrode group has negative charges, and metal ions causing scale formation, such as calcium, magnesium, iron and the like with positive charges are adsorbed onto the scale collecting plate 45, and the thick scale can be visually adsorbed and captured. The dirt collecting plate 45 can therefore meet the requirement for removing dirt from drinking water in the present invention.

It is rotatory that filter motor 48 drives the drive pulley, it is rotatory that the drive pulley passes through driving belt and drives driven pulley, driven pulley drives transmission shaft 43 rotatoryly, transmission shaft 43 drives plate body brush 46 rotatoryly through first connecting rod 7, incrustation scale on rotatory plate body brush 46's the brush hair constantly clears up album dirt board 45 avoids the incrustation scale caking, on adhering to collection dirt board 45 to guarantee the normal function of collection dirt board 45, make collection dirt board 45 constantly appear the incrustation scale. The filter screen 421 of filtering barrel 42 is easily blocked by the precipitated scale, therefore, the transmission shaft 43 drives the barrel cleaning brush 44 to rotate through the mounting plate 47, the brush hair of the rotating barrel cleaning brush 44 continuously cleans the scale on the filter screen 421, the scale accumulation is avoided, and the filtered water can enter the water heater 2 through the filter screen 421. The system can remove water scale in water, and the water scale is not easy to be adsorbed on the scale collecting plate 45 and the filter screen 421, so that the stable operation of the system can be ensured, and the problem that the normal operation of the system is influenced by the water scale is avoided.

The inlet pipe of the filtering case 41 is provided with an electromagnetic valve, and when there is no water in the filtering case 41, water can be added into the filtering case 41 by controlling the electromagnetic valve. The water storage tank 3 and the water heater 2 output cooled boiled water or boiled water through corresponding water outlet pipes 6. The water purifying pipe is provided with an electromagnetic valve, the filtered water in the filtering box body 41 is conveyed to the water heater 2 in batches, and the water in the water heater 2 is heated when reaching a certain amount. The heated water is conveyed to the water storage tank 3 through the hot water pipe for cooling, and the cooled water is convenient for people to drink.

In this embodiment, the lower ends of the plate body brush 46 and the cylinder cleaning brush 44 are connected by the second connecting rod 8, the number of the first connecting rod 7 and the second connecting rod 8 is two or more, and the first connecting rod 7 and the second connecting rod 8 are both of a propeller blade structure.

It should be noted that the second link 8 can enhance the structural strength of the plate brush 46 and the barrel cleaning brush 44 during rotation, and avoid the problem of fracture of the joint caused by excessive resistance. First connecting rod 7 and second connecting rod 8 are the propeller blade structure and can be when transmission shaft 43 is rotatory, and it is rotatory to drive the water in the filter box 41 through first connecting rod 7 and second connecting rod 8 to make on album dirt board 45 and the filter cylinder 42 be difficult for gathering the incrustation scale, can make the water after the filtration pass through filter cylinder 42 with higher speed simultaneously.

The lower end of the cylinder cleaning brush 44 is provided with a pulley which is clamped in an annular chute at the bottom of the filter box body 41, when the transmission shaft 43 rotates, the pulley slides in the annular chute, the structural stability of the cylinder cleaning brush can be further improved by the arrangement, and the problem that the lower end of the cylinder cleaning brush 44 is accepted greatly is avoided.

In this embodiment, the sidewall of the water storage tank 3 is provided with heat dissipation holes. The upper end of the water storage tank 3 is provided with a plurality of groups of cooling fans 9, and the rotating shafts of the plurality of groups of cooling fans 9 are in transmission connection with the rotating shaft of the cooling motor.

Note that the heat dissipation motor is electrically connected to the controller 5. The rotating shafts of the multiple groups of cooling fans 9 can be provided with gears, the gears of the two cooling fans 9 can be meshed with each other through the transmission gear, and then the multiple groups of cooling fans 9 can be driven to rotate through one cooling motor. The cooling fan 9 and the cooling holes can accelerate the water cooling in the water storage tank 3, so that people can drink the water conveniently or drink the water after the water is mixed with boiled water to a proper temperature.

In this embodiment, the water heater 2 includes an insulating layer 21, an inner container 22, an electric heating tube 23, and a magnesium rod 24.

The heat preservation layer 21 is arranged between the inner container 22 and the heating cavity 12, the electric heating pipe 23 is located inside the inner container 22, the electric heating pipe 23 is electrically connected with the controller 5, the end part of the magnesium rod 24 penetrates through the side walls of the shell 1 and the inner container 22 and then extends into the inner container 22, and the magnesium rod 24 is in sealing connection with the inner container 22.

The inner container 22 is provided with a safety valve. The insulating layer 21 can prevent the heat of the inner container 22 from dissipating. The metal activity of the magnesium rod 24 is higher than that of iron, and the magnesium rod 24 can chemically react with scale generated after water is heated, so that the scale generated by daily and monthly accumulation is not hard to be formed into a hard block to be wrapped on the electric heating pipe 23. Over time, the magnesium rod 24 will be completely consumed. When the adsorption capacity of the magnesium rod 24 becomes worse and worse, the scale will gradually erode the electric heating tube 23 and the inner container 22 of the water heater, reducing the heating efficiency and even bringing a risk of electric leakage. The magnesium rod 24 of the present invention may be easily replaced after failure.

After the water heater 2 is fully filled with water and powered on, the electric heating pipe 23 in the water heater 2 heats the water in the inner container 22 of the water heater 2, when the water is heated to the set temperature, the circuit is automatically disconnected, the electric heating pipe 23 stops heating, the water in the inner container 22 is added into the water storage tank 3, and the residual water in the whole machine is in a heat preservation state. When the temperature of the water in the inner container 22 is reduced to a certain temperature, the electric heating pipe 23 is electrified again for heating, and the state is circulated, so that the water heater 2 can always use hot water.

In this embodiment, the inner container 22, the water storage tank 3 and the bottom of the filtering tank 41 are all provided with a sewage draining pipe 10.

It should be noted that the drainage pipe 10 can collect the scale or other impurities on the bottom of the inner container 22, the water storage tank 3 and the filtering case 41.

In this embodiment, a cleaning tank 31 is disposed in the filter chamber 11, a liquid inlet of the cleaning tank 31 extends out of the housing 1, a cleaning pipe 32 at the bottom of the cleaning tank 31 is divided into three pipelines respectively connected to the inner container 22, the water storage tank 3 and the filter tank 41, and the three pipelines are provided with electromagnetic valves.

It should be noted that after the cleaning tank 31 is filled with the cleaning liquid, the liner 22, the water storage tank 3 and the filtering tank 41 can be cleaned separately, and the sewage after cleaning can be discharged through the drainage pipe 10. The liquid inlet of the cleaning box body 31 can be filled with high-pressure water, and the liner 22, the water storage tank 3 and the filtering box body 41 can be further cleaned by the high-pressure water to meet the standard of drinking water.

In this embodiment, temperature sensors are provided in both the liner 22 and the water tank 3.

The water outlet pipes 6 of the water storage tank 3 and the water heater 2 are respectively provided with a flow electromagnetic valve, and the temperature sensor and the flow electromagnetic valve are electrically connected with the controller 5.

It should be noted that the temperature sensor is convenient for monitoring the temperature of the water in the inner container 22 and the water storage tank 3. People's accessible inputs the temperature that wants to controller 5, and controller 5 controls the flow solenoid valve, and controller 5 combines the temperature of inner bag 22 and the interior water of storage water tank 3, and the outlet pipe 6 of control storage water tank 3 and water heater 2 flows the water of setting for volume to realize the output of multiple temperature water, satisfy different demands.

In this embodiment, the outside of the casing 1 is provided with a control panel 33, and the control panel 33 includes a display screen and function keys, and the display screen and the function keys are both electrically connected with the controller 5.

It should be noted that the display screen and the function keys facilitate human-computer interaction, and the display screen can display information such as current water volume, water temperature and the like. The display screen can also adopt a touch screen.

As shown in fig. 1 to 3, an embodiment of the present invention further provides a method for using the micro-electrolysis-based efficient scale-inhibiting water quality purification and heating system, which includes the following steps.

Drinking water is filled into the filter case 41. The drinking water is injected in batches, and the next filtration is carried out after the water in the filtering box body 41 is filtered.

The dirt collection plate 45 and the filter motor 48 are activated by the controller 5. The controller 5 is provided with a control program for automatically filtering, heating and cooling water.

The scale collection plate 45 adsorbs metal ions having positive charges to the scale collection plate 45 and precipitates scale.

The filtering motor 48 drives the plate brush 46 to make a circular motion on the scale collecting plate 45, so that the precipitated scale falls to the bottom of the filtering box body 41, and the filtering motor 48 drives the cylinder cleaning brush 44 to make a circular motion on the filtering cylinder 42, so that the scale is far away from the filtering cylinder 42.

The filtered water enters the water heater 2, the water heater 2 conveys the boiled water into the water storage tank 3 for cooling, the water storage tank 3 outputs the cooled water through the water outlet pipe 6, and the water heater 2 outputs the boiled water through the water outlet pipe 6.

The water heater 2 can be used in various occasions, such as office places, hotels, restaurants, industrial and mining enterprises, dining halls and even families, the output water can meet the standard of daily drinking water, and meanwhile, the cooling water, boiled water and mixed water thereof can meet various drinking requirements.

In this embodiment, the method further includes the following steps.

When the plate body brush 46 and the cylinder body cleaning brush 44 rotate, the first connecting rod 7 and the second connecting rod 8 are driven to rotate, the first connecting rod 7 and the second connecting rod 8 drive water in the filtering box body 41 to rotate, the rotating water disperses scale on the scale collecting plate 45 and the filtering cylinder body 42, and the filtered water passes through the filtering cylinder body 42 at an accelerated speed.

The invention can clean the scale and rotate the water at the same time, thereby not only improving the water filtering efficiency, but also avoiding the problem that the scale reduces the working efficiency of the water filtering mechanism 4.

When the liner 22, the water storage tank 3 or the filtering tank 41 are cleaned, cleaning liquid is injected into the cleaning tank 31, then the cleaning liquid is injected into the liner 22, the water storage tank 3 or the filtering tank 41 through the cleaning pipe 32 for cleaning, and after the cleaning is finished, waste water is discharged through the sewage discharge pipe 10. Then, clear water is injected into the cleaning box body 31 from a liquid inlet of the cleaning box body 31 to wash the inner container 22, the water storage tank 3 or the filtering box body 41, and the corresponding drain pipe 10 is opened during washing.

The cleaning mode is convenient and fast, the cleaning effect is good, the problem that the heating effect of the water heater is reduced due to low descaling efficiency of the water heater in the prior art is solved, and the use requirements of people can be met.

In this embodiment, it is apparent to those skilled in the art that the present invention is not limited to the details of the above-described exemplary embodiments, and can be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims (10)

1. A high-efficient dirt quality of water purifies and heating system that hinders based on little electrolysis which characterized in that: comprises a shell (1), a water heater (2), a water storage tank (3), a water filtering mechanism (4) and a controller (5);

a filtering cavity (11), a heating cavity (12) and a storage cavity (13) are sequentially arranged in the shell (1) from top to bottom; the water filtering mechanism (4) and the controller (5) are both arranged in the filtering cavity (11);

the water filtering mechanism (4) comprises a filtering box body (41), and a filtering cylinder body (42), a transmission shaft (43), a cylinder body cleaning brush (44), a dirt collecting plate (45), a plate body brush (46), a mounting plate (47) and a filtering motor (48) which are arranged in the filtering box body (41);

a water inlet at the upper end of the filtering box body (41) is connected with a drinking water source through a water inlet pipe;

the transmission shaft (43) is vertically arranged, and the upper end of the transmission shaft (43) extends out of the box body and then is connected with a rotating shaft of the driven belt pulley; the lower end of the transmission shaft (43) is connected to the mounting plate (47);

the filtering cylinder (42) is arranged below the mounting plate (47), a filter screen (421) for filtering scale is arranged on the side wall of the filtering cylinder (42), and the bottom of the filtering cylinder (42) is connected with a water inlet of the water heater (2) through a water purifying pipe;

the scale collecting plate (45) is of an annular structure, and the scale collecting plate (45) is arranged on the inner wall of the box body;

the cylinder cleaning brush (44) and the plate body brush (46) are both vertically arranged, bristles of the cylinder cleaning brush (44) are abutted to the filter screen (421), and the upper end of the cylinder cleaning brush (44) is connected to the mounting plate (47);

the bristles of the plate body brush (46) are abutted against the side wall of the scale collecting plate (45), and the plate body brush (46) is connected with the transmission shaft (43) through a first connecting rod (7);

a driving belt pulley is arranged on an output shaft of the filtering motor (48), and the driving belt pulley is connected with the driven belt pulley through a transmission belt;

the water heater (2) is arranged in the heating cavity (12), a water outlet of the water heater (2) is connected with a water inlet of the water storage tank (3) through a hot water pipe, and the scale collecting plate (45), the filtering motor (48) and the water heater (2) are electrically connected with the controller (5);

the water storage tank (3) is arranged in the storage cavity (13), and the water storage tank (3) and the water outlet pipe (6) of the water heater (2) extend out of the bottom of the shell (1).

2. The micro-electrolysis based high-efficiency scale-inhibiting water quality purification and heating system as claimed in claim 1, which is characterized in that: the plate body brush (46) and the lower end of the cylinder body cleaning brush (44) are connected through a second connecting rod (8), the number of the first connecting rods (7) and the number of the second connecting rods (8) are more than two, and the first connecting rods (7) and the second connecting rods (8) are both of propeller blade structures.

3. The micro-electrolysis based high-efficiency scale-inhibiting water quality purification and heating system as claimed in claim 1, which is characterized in that: the side wall of the water storage tank (3) is provided with heat dissipation holes; the upper end of the water storage tank (3) is provided with a plurality of groups of cooling fans (9), and rotating shafts of the cooling fans (9) are in transmission connection with a rotating shaft of a cooling motor.

4. The micro-electrolysis based high-efficiency scale-inhibiting water quality purification and heating system as claimed in claim 1, which is characterized in that: the water heater (2) comprises a heat-insulating layer (21), an inner container (22), an electric heating pipe (23) and a magnesium rod (24);

heat preservation (21) set up in inner bag (22) with between heating chamber (12), electric heating pipe (23) are located the inside of inner bag (22), electric heating pipe (23) with controller (5) electric connection, magnesium stick (24) tip passes casing (1) with stretch into behind the lateral wall of inner bag (22) the inside of inner bag (22), magnesium stick (24) with inner bag (22) are sealing connection.

5. The micro-electrolysis based high-efficiency scale-inhibiting water quality purification and heating system as claimed in claim 4, which is characterized in that: the bottoms of the inner container (22), the water storage tank (3) and the filtering tank body (41) are all provided with a sewage discharge pipe (10).

6. The micro-electrolysis based high-efficiency scale-inhibiting water quality purification and heating system as claimed in claim 5, which is characterized in that: the cleaning device is characterized in that a cleaning box body (31) is arranged in the filter cavity (11), a liquid inlet of the cleaning box body (31) extends out of the shell (1), a cleaning pipe (32) at the bottom of the cleaning box body (31) is divided into three pipelines which are respectively connected with the inner container (22), the water storage tank (3) and the filter box body (41), and electromagnetic valves are arranged on the three pipelines.

7. The micro-electrolysis based high-efficiency scale-inhibiting water quality purification and heating system as claimed in claim 5, which is characterized in that: temperature sensors are arranged in the inner container (22) and the water storage tank (3);

the water storage tank (3) and the water outlet pipe (6) of the water heater (2) are respectively provided with a flow electromagnetic valve, and the temperature sensor and the flow electromagnetic valve are electrically connected with the controller (5).

8. The micro-electrolysis based high-efficiency scale-inhibiting water quality purification and heating system as claimed in claim 1, which is characterized in that: the outside of casing (1) is provided with control panel (33), control panel (33) include display screen and function button, the display screen with the function button all with controller (5) electric connection.

9. The use method of the micro-electrolysis based high-efficiency scale-inhibiting water quality purification and heating system is characterized in that the micro-electrolysis based high-efficiency scale-inhibiting water quality purification and heating system is adopted, and comprises the following steps;

-injecting drinking water into the filtering tank (41);

-activating, by means of the controller (5), the dirt collection plate (45) and the filter motor (48);

the scale collecting plate (45) adsorbs metal ions with positive charges onto the scale collecting plate (45) and separates out scale;

the filtering motor (48) drives the plate body brush (46) to do circular motion on the scale collecting plate (45), so that precipitated scale falls to the bottom of the filtering box body (41), and the filtering motor (48) drives the cylinder cleaning brush (44) to do circular motion on the filtering cylinder body (42), so that the scale is far away from the filtering cylinder body (42);

the filtered water enters the water heater (2), the water heater (2) conveys boiled water into the water storage tank (3) for cooling, the water storage tank (3) outputs the cooled water through the water outlet pipe (6), and the water heater (2) outputs boiled water through the water outlet pipe (6).

10. The use method of the micro-electrolysis based high-efficiency scale-inhibiting water quality purification and heating system is characterized by further comprising the following steps;

when the plate body brush (46) and the cylinder body cleaning brush (44) rotate, the first connecting rod (7) and the second connecting rod (8) are driven to rotate, the first connecting rod (7) and the second connecting rod (8) drive water in the filtering box body (41) to rotate, the rotating water disperses scale on the scale collecting plate (45) and the filtering cylinder body (42), and the filtered water is accelerated to pass through the filtering cylinder body (42);

when the liner (22), the water storage tank (3) or the filtering tank body (41) are cleaned, cleaning liquid is injected into the cleaning tank body (31), then the cleaning liquid is injected into the liner (22), the water storage tank (3) or the filtering tank body (41) through the cleaning pipe (32) for cleaning, and after cleaning is finished, waste water is discharged through the drainage pipe (10); then clean water is injected into the cleaning box body (31) from a liquid inlet of the cleaning box body (31) to wash the liner (22), the water storage tank (3) or the filtering box body (41), and the corresponding drain pipe (10) is opened during washing.

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