CN217127086U - Water purifier - Google Patents

Abstract

The application provides a purifier through set up pure water storage tank and wash the flow path on the water route board, guarantees that the purifier can effectively solve the problem that the first cup of water TDS after the long-time standby is higher under the water state. A water purifier, comprising: the water purifier comprises a primary filtering unit, a reverse osmosis filtering unit and a waterway plate, wherein a booster pump is arranged on a water flow path between a water inlet and a purified water outlet; the water route board includes water purification entry, pure water discharge port and pure water storage tank, and pure water storage tank intercommunication pure water entry and pure water discharge port, water purification entry intercommunication booster pump with the water inlet, the purifier have the system water state and wash the state, and under the system water state, the booster pump is opened, and the water after the reverse osmosis filter unit filters enters into the pure water storage tank through the pure water entry, flows from the pure water discharge port at last.

Description

Water purifier

Technical Field

The invention relates to the field of household water purification, in particular to a water purifier.

Background

Along with the increasing concern about drinking water safety of people, the application of water purification unit is also more and more extensive. Water purification unit can effectively ensure drinking water safety to a certain extent through carry out depth filtration, purification treatment to water. The reverse osmosis water purifier is a mainstream water purifying device in the market at present, can filter silt, bacteria, mineral substances, heavy metals and the like in water to prepare pure water, and ensures the safety of drinking water, so that the reverse osmosis water purifier becomes a popular electric appliance product in family life.

TDS, also known as total dissolved solids, a higher value of TDS indicates more dissolved matter is present in the water. Total dissolved solids refers to the total amount of total solutes in the water, including both inorganic and organic content. Generally, the salt content of the solution can be roughly understood by using the conductivity value, and generally, the higher the conductivity, the higher the salt content, and the higher the TDS. Among inorganic substances, there may be inorganic substances in molecular form in addition to components dissolved in ionic form. Since organic matter and inorganic matter in molecular form contained in natural water are not generally considered, the salt content is generally referred to as total dissolved solids.

Can have raw water, waste water and pure water simultaneously in the reverse osmosis filter core, and the TDS's of raw water and waste water concentration will be far above the TDS of pure water, however, reverse osmosis filter core is shutting down and is placing a period of time after, will lead to the ion in raw water and the waste water to diffuse to pure water one side through the RO membrane, when causing the start-up use once more, the TDS value of first cup water exists the problem that is too high and can't drink, influences user experience.

In addition, also have among the prior art and directly set up the water storage tank in the outside of purifier and avoid the direct outflow of the pure water that the reverse osmosis membrane is internal to store up to supply the user to use, but the water storage tank of big volume is under the state of long-time deposit water, breeds the bacterium easily.

SUMMERY OF THE UTILITY MODEL

The application provides a purifier through set up the pure water storage tank on the water route board, guarantees that the purifier can effectively solve the problem that the first cup of water TDS after the long-time standby is higher than normal under the water state.

A water purifier, comprising: a primary filtration unit having a raw water inlet; the reverse osmosis filtration unit is provided with a water inlet and a pure water outlet, and a booster pump is arranged on a water flow path between the reverse osmosis filtration unit and the primary filtration unit; the water route board, the water route board includes water purification entry, pure water discharge port and pure water storage tank, pure water storage tank intercommunication the pure water entry with the pure water discharge port, the water purification entry intercommunication the booster pump with the water inlet under the system water state, the booster pump is opened, the water process after the reverse osmosis filter unit filters the pure water entry enters into in the pure water storage tank, follow at last the pure water discharge port flows.

The water circuit board is provided with a pure water storage tank, and under the water making state, pure water filtered by the reverse osmosis filtering unit firstly enters the pure water storage tank and then flows to a pure water discharge port from the pure water storage tank for users to use. Like this, when the long-time back of shutting down of purifier, when the user used for the first time, the pure water of the high TDS in the reverse osmosis filter unit enters into pure water storage tank and the pure water in the jar and mixes the back and flow for the water of high TDS obtains diluting in the pure water storage tank. Simultaneously, directly set up the pure water storage tank on the water route board, compare with the direct peripheral hardware bulky water storage tank in the past, prevent because the big volumetric water storage tank internal water yield of peripheral hardware is too much, deposit the secondary bacterial growing that water time overlength and lead to, set up little volumetric pure water storage tank on the water route board, can guarantee that the jar internal water is in the running water state as long as possible, even if lead to keeping in some water owing to long-time shut down, also can not breed the bacterium easily. When having solved the problem that the first cup TDS that brings of shutting down for a long time is high, also reduced the whole installation space of whole purifier, prevented that the peripheral hardware water storage tank from breeding the problem of bacterium.

Furthermore, the pure water storage tank comprises a water inlet channel and a water outlet channel, the water inlet channel is connected with the pure water outlet, the water outlet channel is connected with the pure water discharge port, and the water outlet channel is located on the upper portion of the pure water storage tank.

Furthermore, the water inlet channel comprises an extension section extending into the bottom end of the pure water storage tank, and the water outlet end of the extension section is lower than the water inlet end of the water outlet channel.

Furthermore, the waterway board comprises a first waterway board and a second waterway board, the purified water inlet, the purified water discharge port and the purified water storage tank are all located on the first waterway board, the reverse osmosis filtering unit is connected with the first waterway board, and the primary filtering unit is connected with the second waterway board.

Furthermore, the first water path plate and the second water path plate are longitudinally arranged, and the pure water storage tank is arranged at the bottom end of the first water path plate and is positioned above the second water path plate.

Furthermore, the primary filtering unit comprises a purified water outlet, the second water channel plate comprises a purified water channel communicated with the purified water outlet, the purified water channel is communicated with the water inlet end of the booster pump, and the water outlet end of the booster pump is communicated with the purified water inlet.

Further, the primary filtering unit and the reverse osmosis filtering unit are transversely arranged, the reverse osmosis filtering unit is located above the primary filtering unit, and the booster pump is installed between the primary filtering unit and the reverse osmosis filtering unit.

Furthermore, still include support and shell, elementary filter unit, reverse osmosis filter unit and booster pump all install in on the support, form water route subassembly installation cavity and filter core dismouting chamber between support and the shell, water route subassembly installation cavity with filter core dismouting chamber is located relative both ends respectively.

Further, the pure water storage tank includes the TDS detecting element, and the water after reverse osmosis filter unit filters gets into behind the pure water entry, the process follow again behind the TDS detecting element the outflow of pure water discharge port.

Furthermore, the TDS detection unit is arranged at the bottom of the pure water storage tank.

Has the advantages that:

1. the water circuit board is provided with a pure water storage tank, and under the water making state, pure water filtered by the reverse osmosis filtering unit firstly enters the pure water storage tank and then flows to a pure water discharge port from the pure water storage tank for users to use. Like this, when the long-time back of shutting down of purifier, when the user used for the first time, the pure water of the high TDS in the reverse osmosis filter unit enters into pure water storage tank and the pure water in the jar and mixes the back and flow for the water of high TDS obtains diluting in the pure water storage tank. Simultaneously, directly set up the pure water storage tank on the water route board, compare with the direct peripheral hardware bulky water storage tank in the past, prevent because the water yield is too much in the bulky water storage tank of peripheral hardware, deposit the water time overlength, and the secondary bacterial that leads to breeds, set up little bulky pure water storage tank on the water route board, can guarantee that jar internal water is in the running water state as long as possible, even if lead to keeping in partly water owing to long-time shut down, also can not breed the bacterium easily. When having solved the problem that the first cup TDS that brings of shutting down for a long time is high, also reduced the whole installation space of whole purifier, prevented that the peripheral hardware water storage tank from breeding the problem of bacterium.

2. Through making the water route board include the first water route board that links to each other with reverse osmosis filter unit, and the second water route board that links to each other with elementary filter unit, compare in the mode that makes water route board structure as an organic whole, it is nimble not only to divide into first water route board and second water route board with the water route board, can also rationalize the position of each water route interface, reduce the occupation space who sets up partial spare part on the water route board, the structure is compacter, thereby reserve sufficient installation space for pure water storage tank, help realizing the increase of pure water storage tank volume in limited space, increase its pure water storage capacity, and then realize the further reduction of the proportion of first cup of water TDS value after shutting down for a long time.

3. The water outlet channel is located on the upper portion of the pure water storage tank, when water in the pure water storage tank flows out, the water outlet channel on the upper portion must flow out, so that pure water newly entering and pure water fully mixed stored in the pure water storage tank after being originally made can be guaranteed, and then water with a high TDS value is fully diluted by filling water stored in the pure water storage tank, and the water outlet channel is located above and can also be guaranteed, only when the pure water storage tank contains water to the lowest water outlet surface of the water outlet, water can be discharged outwards, the water storage amount in the pure water storage tank can be increased as much as possible, and when water enters the pure water storage tank, the water entering the pure water storage tank extrudes air in the pure water storage tank from bottom to top, after the water is stopped for a long time, the water outlet component connected with the water purifier is stable in water outlet, and splashing is prevented.

4. The detection end through making TDS detecting element is located the inside of pure water storage tank, can carry out concentration detection and control to pure water in the pure water storage tank in real time through TDS detecting element. TDS detecting element sets up in the bottom of pure water storage tank, has avoided the existence in stagnant water district, and TDS detecting element's sense terminal can fully contact the running water of pure water storage intracavity, promotes the accuracy that detects.

Drawings

FIG. 1 is a schematic diagram of a water circuit of a water purifier according to the present application;

FIG. 2 is a schematic view of a water purifier according to a first perspective of the present application;

FIG. 3 is a schematic view of a water purifier according to a second perspective of the present application;

FIG. 4 is a first schematic structural diagram of a first water circuit board of the present application;

FIG. 5 is a schematic diagram of the construction of a reverse osmosis filtration unit and a first circuit board according to the present application;

FIG. 6 is a second schematic structural view of a first water circuit board according to the present application;

FIG. 7 is a cross-sectional view of a first water board of the present application;

FIG. 8 is a cross-sectional view of a first circuit board and TDS detection unit of the present application;

FIG. 9 is a schematic structural view of an end cap of a pure water storage tank of the present application;

FIG. 10 is a schematic view of the housing and waterway assembly mounting chamber of the present application;

FIG. 11 is a schematic view of a housing and cartridge removal cavity of the present application;

1 a primary filtration unit; 2, a reverse osmosis filtering unit; 3, a booster pump; 4, a water circuit board; 41 a first water path plate; 411 a purified water inlet; 412 a pure water inlet; 413 a pure water discharge port; 42 a second water circuit board; 421 a pure water outlet; 422 a waste water stream outlet; 423 a raw water inlet; 424 purified water outflow; 425 a water purification channel; 5, a pure water storage tank; 51, an inlet of a pure water storage tank; 52 water outlet channel; 53 water inlet channel; 531 extension section; 54 a tank body; 541 a fitting lug; 55 an end cap; 551 connecting the lugs; 552 a welding head; 6, a pressure switch; 7 TDS detection unit; 71 a detection end; 8, a water inlet valve; 9 a waste water valve; 70 a housing; 60, a bracket; 80 a waterway component mounting cavity; 90 filter element disassembly chamber.

Detailed Description

In order to more clearly explain the overall concept of the present application, the following detailed description is given by way of example in conjunction with the accompanying drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, however, the present application may be practiced in other ways than those described herein, and therefore the scope of the present application is not limited by the specific embodiments disclosed below.

In addition, in the description of the present application, it is to be understood that the terms "top," "bottom," "inner," "outer," "axial," "radial," "circumferential," and the like refer to orientations or positional relationships illustrated in the drawings, which are used for convenience in describing the present application and to simplify the description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be considered limiting of the present application.

In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and encompass, for example, both fixed and removable connections or integral parts thereof; the connection can be mechanical connection, electrical connection or communication; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as the case may be.

In this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through intervening media. In the description herein, reference to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The application provides a purifier through set up pure water storage tank and wash the flow path on the water route board, guarantees that the purifier can effectively solve the problem that the first cup of water TDS after the long-time standby is higher under the water making state and the state of washing.

As shown in fig. 1-11, a water purifier includes: a primary filter unit 1, the primary filter unit 1 having a raw water inlet and a purified water outlet; the reverse osmosis filter unit 2 is provided with a water inlet, a pure water outlet and a waste water outlet, and a booster pump 3 is arranged on a water flow path between the water inlet 23 and the pure water outlet 12; the water purifying device comprises a water circuit board 4, wherein the water circuit board comprises a pure water inlet 411, a pure water inlet 412, a pure water discharge outlet 413 and a pure water storage tank 5, the pure water storage tank 5 is communicated with the pure water inlet 412 and the pure water discharge outlet 413, the pure water inlet 411 is communicated with a booster pump 3 and the water inlet, the water purifying device has a water preparing state and a flushing state, in the water preparing state, the booster pump is started, water filtered by a reverse osmosis filtering unit enters the pure water storage tank through the pure water inlet, and finally flows out of the pure water discharge outlet; in the flushing state, the booster pump is turned off, and a flushing flow path is formed between the raw water inlet and the waste water outlet.

The water circuit board is provided with a pure water storage tank, and under the water making state, pure water filtered by the reverse osmosis filtering unit firstly enters the pure water storage tank and then flows to a pure water discharge port from the pure water storage tank for users to use. Like this, when the long-time back of shutting down of purifier, when the user used for the first time, the pure water of the high TDS in the reverse osmosis filter unit enters into pure water storage tank and the pure water in the jar and mixes the back and flow for the water of high TDS obtains diluting in the pure water storage tank. Under the flushing state, the booster pump is closed, and under the action of the water pressure of the raw water, the purified water filtered by the primary filtering unit can be directly utilized to flush the reverse osmosis filter element membrane. Through set up the pure water storage tank and wash the flow path on the water route board, guarantee that the purifier can effectively solve the problem that the first cup of water TDS after the long-time standby is higher under system water condition and the state of washing. Simultaneously, directly set up the pure water storage tank on the water route board, compare with the direct peripheral hardware bulky water storage tank in the past, prevent because the big volumetric water storage tank internal water yield of peripheral hardware is too much, deposit the secondary bacterial growing that water time overlength and lead to, set up little volumetric pure water storage tank on the water route board, can guarantee that the jar internal water is in the running water state as long as possible, even if lead to keeping in some water owing to long-time shut down, also can not breed the bacterium easily. When having solved the problem that the first cup TDS that brings of shutting down for a long time is high, also reduced the whole installation space of whole purifier, prevented that the peripheral hardware water storage tank from breeding the problem of bacterium. As shown in fig. 1 and 2, in the water-making state of the water purifier, after raw water is primarily filtered into purified water through the primary filter unit 1, the booster pump 3 sends the purified water into the reverse osmosis filter unit 2 to realize secondary filtration, so as to form purified water, the purified water filtered by the reverse osmosis filter unit 2 enters the purified water storage tank 5 to be stored, the wastewater precipitated by the reverse osmosis filter unit 2 is discharged through the wastewater outlet 42 in the state that the wastewater valve 9 is opened, and when a user takes water, the water in the purified water storage tank 5 flows out through the purified water outlet 421 under the action of pressure. When the water purifier is in a flushing state, a flushing flow path is formed, the water inlet valve 8 and the waste water valve 9 are opened and filled, purified water filtered by the primary filtering unit 1 flows to the reverse osmosis filtering unit 2 and flushes the surface of a reverse osmosis membrane of the reverse osmosis filtering unit, and waste water flows out through the waste water outlet 422 to realize the cleaning of the reverse osmosis filtering unit 2.

It should be noted that the structure of the primary filter unit 1 is not limited in particular, and for example, it may be a filter element formed by one or more of PP (polypropylene) cotton and activated carbon. Meanwhile, the filter element with the PP cotton and the activated carbon can remove substances such as dust, rust, gravel and the like through the PP cotton, and can also remove substances such as chlorine odor, methane, pesticides, fertilizers and the like through the activated carbon.

As shown in fig. 4-9, the pure water storage tank 5 includes a water inlet channel 53 and a water outlet channel 54, the water inlet channel 53 is connected to the pure water outlet, the water outlet channel 54 is connected to the pure water discharge port 52, and the water outlet channel 54 is located at the upper portion of the pure water storage tank 5. The water inlet channel 53 includes an extension section 531 extending into the bottom end of the pure water storage tank 5, and the water outlet end of the extension section 531 is lower than the water inlet end of the water outlet channel 54. The water outlet channel is located on the upper portion of the pure water storage tank, when water in the pure water storage tank flows out, the water outlet channel on the upper portion must flow out, so that pure water newly entering and pure water fully mixed stored in the pure water storage tank after being originally made can be guaranteed, and then water with a high TDS value is fully diluted by filling water stored in the pure water storage tank, and the water outlet channel is located above and can also be guaranteed, only when the pure water storage tank contains water to the lowest water outlet surface of the water outlet, water can be discharged outwards, the water storage amount in the pure water storage tank can be increased as much as possible, and when water enters the pure water storage tank, the water entering the pure water storage tank extrudes air in the pure water storage tank from bottom to top, after the water is stopped for a long time, the water outlet component connected with the water purifier is stable in water outlet, and splashing is prevented. In this embodiment, pure water storage tank 5 includes pure water storage tank entry 51, and inlet channel 53 and exhalant canal 52 are all located the top of pure water storage tank 5 to pure water storage tank entry 51, and such setting is when intaking in to the pure water storage tank, and the water that gets into in the pure water storage tank extrudes the air in the pure water storage tank from bottom to top, guarantees to shut down the back for a long time, prevents the splash.

In this embodiment, a pressure switch 6 for detecting the pressure in the pipeline is disposed on a water flow path between the pure water storage tank 5 and the pure water outlet 421, the water purifier further includes a switch module (not shown) for controlling the on/off of the booster pump 3, and the switch module is connected to the pressure switch 6. The switch module that opens and close through with pressure switch 6 and booster pump 3 links to each other, can make the reaction of controlling booster pump 3 and opening and close when the pressure variation in the pipeline is detected through pressure switch 6, for example, can inject pressure switch and respond and close booster pump 3 in order to open the flushing flow path by the switch module under the pipeline is in high-pressure state, and open the booster pump under the pipeline is in low pressure state to effectively reduce frequently to open and close the waste of the water that the flushing flow path brought is opened and close repeatedly to the in-process of tap (promptly ultrashort time shut down).

The position height that the water outlet end of water purification passageway was located is less than the position height that the delivery port was located, when intaking to pure water storage tank 5, inside water that water was followed through the direct washing of inlet channel to the original department of pure water storage tank goes out water, along with the disturbance of rivers, the new water that gets into of realization that can be further and the original pure water intensive mixing who saves in pure water delivery tank guarantee the further reduction of first cup of water TDS value after shutting down for a long time.

The pure water storage tank includes TDS detecting element, and the water after reverse osmosis filter unit filters gets into behind the pure water entry, the process follow again behind the TDS detecting element the outflow of pure water discharge port. The pure water storage tank include jar body and detachable install in the end cover of the jar body, TDS detecting element set up in on the end cover, be located the bottom of pure water storage tank.

In the present embodiment, as shown in fig. 2 to 9, the pure water storage tank 5 is vertically disposed inside the machine body, and the TDS detecting unit 7 includes a detecting terminal 71, and the detecting terminal 71 is disposed at the bottom end of the pure water storage tank 5. Specifically, a mounting hole for mounting the TDS detection unit 7 may be formed in the lower portion of the pure water storage tank 5, the TDS detection unit 7 may be detachably or non-detachably fixed in the mounting hole, and the detection end 71 may extend into the pure water outlet tank 5 through the mounting hole. Set up between TDS detecting element 7 and the mounting hole and be used for sealed sealing washer. Lower part in stretching into pure water storage tank 5 through the sense terminal 71 that makes TDS detecting element 7 for there is water to exist in the pure water storage tank 5 and can utilize TDS detecting element 7 to detect its concentration, influence when avoiding TDS detecting element 7 unable and water contact and detect the precision.

The pure water storage tank 5 further comprises a tank body 54 and an end cover 55 detachably mounted on the tank body 54, the tank body 54 and the end cover 55 are matched to form a pure water storage cavity, and the TDS detection unit 7 is welded and fixed on the end cover 55. In this embodiment, through making pure water storage tank 5 include jar body 54 and detachably install in the end cover 55 of jar body 54, TDS detecting element 7 welded fastening is on end cover 55 for if TDS detecting element 7 takes place to become invalid, the accessible is whole to be changed end cover 55 in order to realize TDS detecting element 7's change. Moreover, adopt welding process fixed TDS detecting element 7, avoided the use of auxiliary component such as joint, and then avoided the existence in stagnant water district, TDS detecting element 7's sense terminal 71 can fully contact the running water in the pure water storage cavity, promotes the accuracy that detects. Preferably, the TDS detection unit 7 can be fixed by adopting an ultrasonic welding process, the welding speed is high, the welding strength is high, the sealing performance is good, the cost is low, the welding process is stable, workpieces cannot be damaged, all welding parameters can be tracked and monitored through a software system, and once faults are found, the faults can be easily eliminated and maintained. Specifically, as shown in fig. 9, a welding head 552 for ultrasonic welding with the TDS detecting unit 7 is provided on the end cover 55.

It should be noted that the detachable connection manner of the can 54 and the end cap 55 is not limited in particular, and includes, but is not limited to, screwing, fastening connection by screws, etc., snap-fit of a snap and a fastening position, screwing of a screw and a screw groove, etc. Referring to fig. 8 and 9, the present application schematically illustrates the end cap 55 having a plurality of engaging lugs 551 spaced circumferentially therealong, the can 54 having a mating lug 541 coupled to the engaging lug 551, and threaded fasteners passing through the engaging lugs 551 and the mating lug 541 to removably secure the end cap 55 to the can 54.

In this embodiment, the water path plate 4 includes a first water path plate 41 and a second water path plate 42, the purified water inlet 411, the purified water inlet 412, the purified water discharge port 413, and the purified water storage tank 5 are all located on the first water path plate 41, the reverse osmosis filtration unit 2 is connected to the first water path plate 41, and the primary filtration unit 1 is connected to the second water path plate 42. The first water path board 41 and the second water path board 42 are longitudinally arranged, and the pure water storage tank 5 is arranged at the bottom end of the first water path board 41 and above the second water path board 42. The second water path plate 42 includes a water purification channel 425 communicated with the water purification outlet 12, the water purification channel 425 is communicated with the water inlet end of the booster pump 5, and the water outlet end of the booster pump 5 is communicated with the water purification inlet 411.

Through making the water route board include the first water route board that links to each other with reverse osmosis filter unit, and the second water route board that links to each other with elementary filter unit, compare in the mode that makes water route board structure as an organic whole, it is nimble not only to divide into first water route board and second water route board with the water route board, can also rationalize the position of each water route interface, reduce the occupation space who sets up partial spare part on the water route board, the structure is compacter, thereby reserve sufficient installation space for pure water storage tank, help realizing the increase of pure water storage tank volume in limited space, increase its pure water storage capacity, and then realize the further reduction of the proportion of first cup of water TDS value after shutting down for a long time.

In this embodiment, divide into first water route board and second water route board with the water route board, compare in the water route board of a body structure, the flower is not only installed to the mode of components of a whole that can function independently concatenation, can rationalize the position of each water route interface, reduce the occupation space who sets up the spare part on the water route board, the structure is compacter, thereby reserve installation space for pure water storage tank, help realizing the increase of pure water storage tank volume in limited space, amplifier pure water reserves, make have in the pure water storage tank to plough reading Europe's pure water and dilute the water of high TDS value, and then realize the further reduction of the proportion of first cup water TDS value after the purifier shuts down for a long time.

Elementary filtration unit 1 with reverse osmosis filtration unit 2 is all transversely arranged, just reverse osmosis filtration unit 1 is located elementary filtration unit 2's top, booster pump 5 install in elementary filtration unit 1 with between the reverse osmosis filtration unit 2.

Arrange elementary filtration unit 1 and reverse osmosis filtration unit 2 side by side along the horizontal direction and the both all extends along vertical direction, and pure water storage tank transverse arrangement is at elementary filtration unit and reverse osmosis filtration unit's top or bottom for whole purifier is the vertical structure of putting, reduces the installation space of purifier transverse direction.

In this embodiment, as shown in fig. 10 to 11, the filtration apparatus further includes a bracket 60 and a housing 70, the primary filtration unit 1, the reverse osmosis filtration unit 2 and the booster pump 5 are all mounted on the bracket 60, a waterway assembly mounting cavity 80 and a filter element dismounting cavity 90 are formed between the bracket 60 and the housing 70, and the waterway assembly mounting cavity 80 and the filter element dismounting cavity 90 are respectively located at two opposite ends. On elementary filter unit and reverse osmosis filter unit located the support, the both ends of support were equipped with water route subassembly installation cavity and filter core respectively and dismantle the chamber, separated water route part and filter core operation district and set up, rationalized overall arrangement has guaranteed that the filter core dismouting is convenient simultaneously.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments.

The above description is only an example of the present application and is not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.

Claims (10)

1. A water purifier, comprising:

a primary filtration unit having a raw water inlet;

the reverse osmosis filtration unit is provided with a water inlet and a pure water outlet, and a booster pump is arranged on a water flow path between the reverse osmosis filtration unit and the primary filtration unit;

the water route board, the water route board includes water purification entry, pure water discharge port and pure water storage tank, pure water storage tank intercommunication the pure water entry with the pure water discharge port, the water purification entry intercommunication the booster pump with the water inlet under the system water state, the booster pump is opened, the water process after the reverse osmosis filter unit filters the pure water entry enters into in the pure water storage tank, follow at last the pure water discharge port flows.

2. The water purifier of claim 1, wherein the pure water storage tank comprises a water inlet channel and a water outlet channel, the water inlet channel is connected to the pure water outlet, the water outlet channel is connected to the pure water discharge port, and the water outlet channel is located at an upper portion of the pure water storage tank.

3. The water purifier of claim 2, wherein the water inlet channel comprises an extension section extending into the bottom end of the pure water storage tank, and a water outlet end of the extension section is lower than a water inlet end of the water outlet channel.

4. The water purifier of claim 1, wherein the water circuit board comprises a first water circuit board and a second water circuit board, the purified water inlet, the purified water discharge outlet and the purified water storage tank are all located on the first water circuit board, the reverse osmosis filtration unit is connected with the first water circuit board, and the primary filtration unit is connected with the second water circuit board.

5. The water purifier of claim 4, wherein the first water channel plate and the second water channel plate are arranged longitudinally, and the pure water storage tank is arranged at the bottom end of the first water channel plate and above the second water channel plate.

6. The water purifier of claim 4, wherein the primary filter unit comprises a purified water outlet, the second waterway plate comprises a purified water channel in communication with the purified water outlet, the purified water channel is in communication with a water inlet of the booster pump, and a water outlet of the booster pump is in communication with the purified water inlet.

7. The water purifier as recited in any one of claims 1-6, wherein said primary filtration unit and said reverse osmosis filtration unit are arranged laterally, and said reverse osmosis filtration unit is located above said primary filtration unit, and said booster pump is installed between said primary filtration unit and said reverse osmosis filtration unit.

8. The water purifier according to claim 7, further comprising a support and a housing, wherein the primary filtering unit, the reverse osmosis filtering unit and the booster pump are all mounted on the support, a water path assembly mounting cavity and a filter element dismounting cavity are formed between the support and the housing, and the water path assembly mounting cavity and the filter element dismounting cavity are respectively located at two opposite ends.

9. The water purifier of any one of claims 1-6, wherein the storage tank comprises a TDS detection unit, and water filtered by the reverse osmosis filtration unit enters the pure water inlet and passes through the TDS detection unit and then flows out of the pure water discharge port.

10. The water purifier of claim 9, wherein the TDS detection unit is disposed at a bottom of the pure water storage tank.

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