CN210620478U - Water-saving household water treatment system - Google Patents

Abstract

The utility model relates to a water-saving family's water treatment system, include: the system comprises a pretreatment module, a softening module, a direct drinking water module, a waste water collecting module, an automatic control module, a remote control module and a user side; wherein the pretreatment module, the softening module and the direct drinking water module are sequentially connected; the pretreatment module, the softening module and the direct drinking water module are respectively connected with the wastewater collection module; the pretreatment module, the softening module and the direct drinking water module are respectively connected with the automatic control module; the automatic control module, the remote control module and the user side are connected in sequence. By the water supply system, the purposes of all-round water purification and water saving can be achieved.

Description

Water-saving household water treatment system

Technical Field

The utility model belongs to the technical field of the drinking water, concretely relates to water-saving family water treatment system.

Background

The household water treatment system is characterized in that household tap water is treated by the central water treatment unit to remove disinfectant residues and disinfection byproducts, and is softened if necessary to reach the standard of high-quality washing and water purification for household washing; in comparison, the quality of purified water treated by the household water treatment system has higher requirement than that of drinking water, and along with the improvement of life quality, people not only pay attention to the quality of drinking water, but also pay more attention to the quality of water for bathing, washing and washing.

The household water treatment system commonly used at present can generate a large amount of waste water in the water treatment process, and the waste water is not effectively recycled, so that a large amount of waste is caused.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems in the prior art, the utility model provides a water-saving household water treatment system. The to-be-solved technical problem of the utility model is realized through following technical scheme: the embodiment of the utility model provides a water-saving family's water treatment system, include:

the system comprises a pretreatment module, a softening module, a direct drinking water module, a waste water collecting module, an automatic control module, a remote control module and a user side; wherein,

the pretreatment module, the softening module and the direct drinking water module are sequentially connected;

the pretreatment module, the softening module and the direct drinking water module are respectively connected with the wastewater collection module;

the pretreatment module, the softening module and the direct drinking water module are respectively connected with the automatic control module;

the automatic control module, the remote control module and the user side are connected in sequence.

In an embodiment of the present invention, the preprocessing module includes: the device comprises a first water inlet pipe, a pre-filter, a multi-medium filter, a first multi-path control valve, a flushing drain pipe, a pre-filter water outlet pipe and a first water outlet pipe; wherein,

the flushing drain pipe is connected with the wastewater collection module; one end of the first water outlet pipe is connected with the softening module.

Two ends of the pre-filter are respectively connected with one end of the first water inlet pipe and one end of the water outlet pipe of the pre-filter;

the other end of the water outlet pipe of the pre-filter, the flushing water outlet pipe and the other end of the first water outlet pipe are connected with the multi-medium filter through the first multi-way control valve;

the first multi-way control valve is arranged on the multi-medium filter and is connected with the multi-medium filter; the first multi-way control valve is connected with the automatic control module.

In an embodiment of the present invention, the softening module includes: the system comprises a second water inlet pipe, a softened resin tank, a softened salt tank, a second multi-path control valve, a regeneration flushing drain pipe, a second water outlet pipe and a third water outlet pipe; wherein,

one end of the second water inlet pipe is connected with the first water outlet pipe; one end of the second water outlet pipe is connected with the direct drinking water module; the regeneration flushing drain pipe is connected with the wastewater collection module;

the other end of the second water inlet pipe, the softened salt tank, the regeneration flushing drain pipe and the other end of the second water outlet pipe are connected with the softened resin tank through the second multi-way control valve;

the third water outlet pipe is connected with the second water outlet pipe;

the second multi-way control valve is arranged on the softened resin tank and is connected with the softened resin tank; and the second multi-way control valve is connected with the automatic control module.

In an embodiment of the present invention, the direct drinking water module includes: the device comprises a third water inlet pipe, a composite filter element, an activated carbon filter element, a PP cotton filter element, a booster pump, a reverse osmosis membrane group, a rear filter element group, a water storage component, a disinfection component, a fourth water outlet pipe, a check valve and a direct drinking water drain pipe; wherein,

one end of the third water inlet pipe is connected with the second water outlet pipe; one end of the direct drinking water drainage pipe is connected with the reverse osmosis membrane group, and the other end of the direct drinking water drainage pipe is connected with the wastewater collection module;

the other end of the third water inlet pipe, the composite filter element, the activated carbon filter element, the PP cotton filter element, the booster pump, the reverse osmosis membrane group, the rear filter element group, the water storage assembly, the disinfection assembly and the fourth water outlet pipe are connected in sequence;

the check valve is positioned on the direct drinking water drainage pipe and is connected with the direct drinking water drainage pipe;

the booster pump and the disinfection subassembly all with automatic control module connects.

In an embodiment of the present invention, the wastewater collection module includes: a fourth water inlet pipe, a waste water tank, a waste water pressure pump, an overflow pipe and a fifth water outlet pipe; wherein,

one end of the fourth water inlet pipe is respectively connected with the flushing drain pipe, the regeneration flushing drain pipe and the direct drinking water drain pipe;

the waste water tank is respectively connected with the other end of the fourth water inlet pipe, the overflow pipe and the fifth water outlet pipe;

and the wastewater pressurizing pump is positioned on the fifth water outlet pipe and is connected with the fifth water outlet pipe.

In an embodiment of the present invention, the remote control module includes: the system comprises a remote server, a PC (personal computer) end and an administrator end; wherein,

the remote server is respectively connected with the automatic control module and the user side;

the remote server is respectively connected with the PC end and the administrator end.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the household water treatment system of the utility model adopts the fine filtration and the active carbon adsorption technology to purify the tap water, adopts the ion exchange technology and the automatic control technology to soften the tap water and realize the automatic regeneration of the ion exchange resin, adopts the reverse osmosis technology to produce the direct drinking water and recycles the waste water so as to achieve the purpose of water saving;

2. the household water treatment system of the utility model collects the waste water of different modules and uses the waste water as different purposes, thereby achieving the purpose of all-round water saving;

3. the utility model discloses can control water treatment system long-rangely, can make the administrator look over water treatment system's data through the equipment of difference simultaneously, in addition, the user also can be at the convenient understanding of supplementing with money of carrying on the account of user side, account information, water treatment system running state and quality of water condition.

Drawings

Fig. 1 is a schematic block diagram of a water-saving household water treatment system according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a water-saving household water treatment system according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a pretreatment module of a water-saving household water treatment system according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a softening module of a water-saving household water treatment system according to an embodiment of the present invention;

FIG. 5 is a schematic structural view of a direct drinking water module of the water-saving household water treatment system according to the embodiment of the present invention;

fig. 6 is a schematic structural diagram of a wastewater collection module of a water-saving household water treatment system according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a remote control module of a water-saving household water treatment system according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to specific examples, but the present invention is not limited thereto.

Referring to fig. 1 and fig. 2, an embodiment of the present invention provides a water-saving household water treatment system, including: the system comprises a pretreatment module 1, a softening module 2, a direct drinking water module 3, a wastewater collection module 4, an automatic control module 5, a remote control module 6 and a user side 7; wherein,

the pretreatment module 1, the softening module 2 and the direct drinking water module 3 are sequentially connected;

the pretreatment module 1, the softening module 2 and the direct drinking water module 3 are respectively connected with the wastewater collection module 4;

the pretreatment module 1, the softening module 2 and the direct drinking water module 3 are respectively connected with an automatic control module 5;

the automatic control module 5, the remote control module 6 and the user side 7 are connected in sequence.

Further, referring to fig. 3, the preprocessing module 1 includes: the device comprises a first water inlet pipe 10, a pre-filter 11, a multi-medium filter 12, a first multi-way control valve 13, a flushing drain pipe 14, a pre-filter water outlet pipe 15 and a first water outlet pipe 16; wherein,

the flushing drain pipe 14 is connected with the waste water collecting module 4; one end of the first water outlet pipe 16 is connected with the softening module 2.

Two ends of the pre-filter 11 are respectively in threaded connection with one end of the first water inlet pipe 10 and one end of the pre-filter water outlet pipe 15;

the other end of the water outlet pipe 15 of the pre-filter 11, the flushing water outlet pipe 14 and the other end of the first water outlet pipe 16 are connected with the multi-medium filter 12 through a first multi-way control valve 13; the other end of the water outlet pipe of the pre-filter 11, the flushing water outlet pipe 14 and the other end of the first water outlet pipe 16 are in threaded connection with a first multi-way control valve 13;

the first multi-way control valve 13 is arranged on the multi-medium filter 12 and is in threaded connection with the multi-medium filter 12; the first multi-way control valve 13 is electrically connected with the automatic control module 5.

The water coming out of the tap water enters the pre-filter 11 through the first water inlet pipe 10 for primary filtration, the filtered water flows out through the pre-filter water outlet pipe 15 and then enters the multi-media filter 12 through the first multi-way control valve 13 for secondary filtration, and the first multi-way control valve 13 is set to be in a running state through the automatic control module 5 before the tap water after primary filtration enters the multi-media filter 12, so that the multi-media filter 12 is in a normal filtration state; after the tap water is filtered for the second time in the multi-media filter 12, the filtered clean water enters the softening module 2 through the first water outlet pipe 15 for the next treatment; when the filtering times of the multi-media filter 12 are excessive, the automatic control module 5 sets the first multi-way control valve 13 to be in a 'backwashing' state, so that the multi-media filter 12 is in a backwashing state; the impurities in the filter layer are washed out, and the washed sewage flows into the waste water collecting module 4 through the washing and draining pipe 14.

Further, a first central tube and a filtering layer are arranged in the multimedia filter 12; the first central pipe is positioned in the middle of the filter layer and penetrates through the filter layer; when the multi-media filter 12 is in a normal filtering state, water enters the filtering layer from the multi-media filter 12 for filtering, and the filtered water flows into the first water outlet pipe 16 from the central pipe; when the multimedia filter layer is in a backwashing state, water enters from the first center tube of the multimedia filter 12 and then flows out from the filter layer to the flush drain 14.

The pre-filter 11 and the first multi-filter control valve have their own power supplies to supply power to them.

Furthermore, the model of the prefilter 11 is FMP280, the prefilter 11 is a first coarse filtration device for domestic water, and can filter large particulate matters such as silt, rust and worm eggs in tap water; the model of the multi-media filter 12 is Sc05-300, and the specification is phi 300 multiplied by 1600; the multi-media filter 12 can remove impurities such as silt, suspended matters and colloid, and organisms such as algae in the tap water, so that the tap water is purer; further, the first multi-way control valve 13 is a rich-lean FLECK series multi-way control valve for realizing the normal filtering and backwashing process of the multi-medium filter 12.

It should be noted that, the multi-media filter 12 is provided with a multi-way control valve, for convenience of description, the multi-media filter 12 and the multi-way control valve are separately described in the embodiment of the present invention, and the multi-media filter 12 is substantially a multi-media filter tank in the embodiment of the present invention.

Further, referring to fig. 4, the softening module 2 includes: a second water inlet pipe 20, a softened resin tank 21, a softened salt tank 22, a second multi-way control valve 23, a regeneration flushing drain pipe 24, a softened salt tank water outlet pipe 25, a second water outlet pipe 26 and a third water outlet pipe 27; wherein,

one end of the second water inlet pipe 20 is in threaded connection with the first water outlet pipe 16; one end of the second water outlet pipe 26 is connected with the direct drinking water module 3; the regeneration flushing drain pipe 24 is connected with the waste water collecting module 4;

the other end of the second water inlet pipe 20, one end of a softened salt tank water outlet pipe 25, the regeneration flushing water outlet pipe 24 and the other end of the second water outlet pipe 26 are connected with the softened resin tank 21 through a second multi-way control valve 23; the other end of the second water inlet pipe 20, one end of a water outlet pipe 25 of the softened salt tank, the regeneration flushing drain pipe 24 and the other end of the second water inlet pipe 20 are all in threaded connection with a second multi-way control valve 23; the other end of the water outlet pipe 25 of the softened salt tank is in threaded connection with the softened salt tank 22;

the third water outlet pipe 27 is in threaded connection with the second water outlet pipe 26;

the second multi-way control valve 23 is arranged on the softened resin tank 21 and connected with the softened resin tank 21; the second multi-way control valve 23 is connected with the automatic control module 5.

The water treated by the pretreatment module 1 enters the softening resin tank 21 for treatment, so that the content of calcium and magnesium ions in the water is reduced, the second multi-way control valve 23 is set to be in an 'operation' state through the automatic control module 5, so that the softening resin tank 21 is in a normal softening process, and the softened water enters the direct drinking water module 3 through the second water outlet pipe 26 for further treatment; when the softening frequency of the softening resin tank 21 is too many, a lot of dirt can be intercepted on the resin, the ion exchange resin can be completely exposed after the dirt is removed, the regeneration effect can be ensured, the second multi-way control valve 23 is set to a 'backwashing' state through the automatic control module 5, the softening resin tank 21 is in a backwashing state, in addition, when the softening resin tank 21 is in a saturated state, namely the softening resin can not provide the softening function any more, the automatic control module 5 controls the second multi-way control valve 23, the saturated sodium chloride solution in the softening salt box 22 is added into the softening resin tank 21 through the water outlet pipe 25 of the softening salt box, and the regeneration process is carried out; after the regeneration process is completed, since the concentration of the brine in the softened resin tank 21 is too high, the taste and quality of the effluent are affected, and therefore, the slow washing process and the fast washing process are required to be performed respectively, so as to wash away the residual salt in the softened resin.

Further, a softening resin tank 21 is provided therein with a softening resin and a second center pipe; the second central tube is positioned in the middle of the softened resin and penetrates through the softened resin; when the softened resin tank 21 is in a normal filtering state, water enters the softened resin from the softened resin tank 21 for softening, and the softened water flows into the second water outlet pipe 26 from the central pipe; when the softened resin tank 21 is in the backwashing state, water flows into the softened resin from the second central pipe, the sewage in the softened resin is washed, the outflow wastewater flows out to the wastewater collection module 4 through the regeneration washing drain pipe 24, in addition, the slow washing and fast washing processes enter water through the normal filtering path, and the flushing wastewater flows out to the wastewater collection module 4 through the regeneration washing drain pipe 24.

Further, the softened water from the third outlet pipe 27 can be used directly for washing and rinsing.

Further, the softening module 2 further comprises a softened water flow meter 28, and the softened water flow meter 28 is located on the third water outlet pipe 27 and is in threaded connection with the third water outlet pipe 27; the softened water flow meter 28 is electrically connected with the automatic control module 5; when the home water treatment system is installed for the user at no charge and charged by the amount of water used, the amount of water used is recorded by installing the softened water flow meter 28, thereby calculating the charge.

Furthermore, the model of the softening resin tank 21 is PLF-5600, and the softening salt box 22 has a matched specification; the second multi-way control valve 23 is a rich lean FLECK series multi-way control valve for controlling respective water outlet and water inlet of the softened resin tank 21.

Further, please refer to fig. 5, the direct drinking water module 3 includes: a third water inlet pipe 30, a composite filter element 31, an activated carbon filter element 32, a PP cotton filter element 33, a booster pump 301, a reverse osmosis membrane group 34, a post-filter element group 35, a water storage assembly 36, a disinfection assembly 37, a fourth water outlet pipe 38, a check valve 302 and a direct drinking water drain pipe 39; wherein,

one end of the third water inlet pipe 30 is in threaded connection with the second water outlet pipe 26; one end of the direct drinking water drainage pipe 39 is connected with the reverse osmosis membrane group 34, and the other end of the direct drinking water drainage pipe 39 is connected with the wastewater collection module 4;

the other end of the third water inlet pipe 30, the composite filter element 31, the activated carbon filter element 32, the PP cotton filter element 33, the booster pump 301, the reverse osmosis membrane group 34, the rear filter element group 35, the water storage element 36, the disinfection element 37 and the fourth water outlet pipe 38 are connected in sequence, and the other end of the third water inlet pipe 30, the composite filter element 31, the activated carbon filter element 32, the PP cotton filter element 33, the booster pump 301, the reverse osmosis membrane group 34, the rear filter element group 35, the water storage element 36, the disinfection element 37 and the fourth water outlet pipe 38 are connected with each other through threads;

the check valve 302 is positioned on the direct drinking water drain pipe 39 and is in threaded connection with the direct drinking water drain pipe 39;

the booster pump 301 and the sterilization assembly 37 are electrically connected to the automated control module 5.

Softened water from the softening module 2 enters the composite filter element 31 through the third water inlet pipe 30 for primary filtration, and then passes through the active carbon filter element 32 for secondary filtration; then the third filtration is carried out through a PP cotton filter element 33; through booster pump 301 pressurization after having filtered, get into reverse osmosis membrane group 34 and carry out the fourth filtration, filter for the fifth time through rearmounted filter element group 35 again, store the straight drink water after filtering in water storage component 36 again, supply the family daily drinking, and when needing to use straight drink water, the straight drink water that comes out from water storage component 36 can be disinfected through disinfection subassembly 37 again, thereby make people drink complete clean drinking water.

Further, the direct drinking water module 3 further comprises a direct drinking water flow meter 303, wherein the direct drinking water flow meter 303 is positioned on the pipeline between the post-filter element assembly 35 and the water storage assembly 36 and is in threaded connection with the pipeline; the direct drinking water flow meter 303 is electrically connected with the automatic control module 5; when the home water treatment system is installed for a user free of charge and the user is charged by the amount of water used, the amount of water used is recorded by installing the direct drinking water flow meter 303, thereby calculating the charge.

Furthermore, the composite filter element 31 is composed of a shell, food-grade anion exchange resin and food-grade cation exchange resin, can effectively reduce the electrolyte content in water, adjust the pH value of water, reduce the pressure of the reverse osmosis membrane group 34, greatly improve the water purification rate which can reach more than 70 percent at most, and simultaneously can prolong the service life of the reverse osmosis membrane group 34; the specification of the activated carbon filter element 32 is 10 inches, and the activated carbon filter element 32 can effectively remove organic matters, residual chlorine and other radioactive substances in water and can remove residual color and peculiar smell in water; the specification of the PP cotton filter element 33 is 10 inches, and the PP cotton filter element 33 can effectively remove various particle impurities in water; the reverse osmosis membrane group 34 consists of a plurality of reverse osmosis membranes, the reverse osmosis membrane is a 4040 reverse osmosis membrane, and the reverse osmosis membrane can effectively remove residual dissolved salts, colloids, microorganisms, organic matters and the like in water; the post-filter element is a large T33 post-filter element to improve the taste of the final drinking water; the sterilizing assembly 37 is an over-flow UV sterilizer of the type UV-UVC-800.

Further, the waste water filtered by the reverse osmosis membrane module 34 flows into the waste water collecting apparatus through the direct drinking water discharge pipe, and at the same time, in order to prevent the waste water from flowing backwards, a check valve 302 is installed on the direct drinking water discharge pipe 39, and the check valve 302 is in threaded connection with the direct drinking water discharge pipe 39.

Further, referring to fig. 6, the waste water collecting module 4 includes: a fourth water inlet pipe 40, a wastewater tank 41, a wastewater pressurizing pump 42, an overflow pipe 43, and a fifth water outlet pipe 44; wherein,

one end of the fourth water inlet pipe 40 is respectively in threaded connection with the flushing drain pipe 14, the regeneration flushing drain pipe 24 and the direct drinking water drain pipe 39;

the waste water tank 41 is respectively in threaded connection with the other end of the fourth water inlet pipe 40, the overflow pipe 43 and the fifth water outlet pipe 44;

and a waste water pressurizing pump 42 is positioned on the fifth water outlet pipe 44 and is in threaded connection with the fifth water outlet pipe 44.

It should be noted that the flush drain 14, the regeneration flush drain 24 and the direct drinking water drain 39 may be interconnected to form a pipe, through which the waste water is discharged to the waste water tank 41 by being screwed to the fourth inlet pipe 40.

After the wastewater enters the wastewater tank 41, the wastewater is regulated by the wastewater pressure pump 42, and discharged through the fifth water outlet pipe 44, and the discharged wastewater can be used for flushing toilets, mops, watering flowers and plants, washing vehicles and other miscellaneous uses, so that the aim of saving water in all directions is fulfilled, meanwhile, in order to avoid the liquid level in the wastewater tank 41 exceeding the set liquid level, an overflow pipe 43 is arranged in the wastewater tank 41, so that redundant wastewater is discharged from the overflow pipe 43, and the discharged wastewater can also be used for miscellaneous uses.

Further, the waste water tank 41 is of a best-ys001 model; the overflow tube 43 is model number LZP 351; the waste water pressurizing pump 42 is a centrifugal pump with a pressure controller, the centrifugal pump is an ISW80 series centrifugal pump, and the model of the pressure controller is 1AWZB 750A.

Further, the automatic control module 5 mainly comprises a single chip microcomputer, a DTU (data transfer unit) and an Internet of things card, the single chip microcomputer is electrically connected with the Internet of things card through the DTU, and the single chip microcomputer controls the starting and stopping of the whole water treatment system by controlling the pretreatment module 1, the softening module 2 and the direct drinking water module 3; and the received data is sent to the internet of things card, and then the SIM800C communication module in the DTU is used for sending and transmitting signals between the internet of things card and the remote control module 6.

Meanwhile, the automatic control module 5 is provided with a plurality of interfaces which are respectively electrically connected with the devices connected with each other through transmission lines, so that each device is controlled, and data transmitted by each device is received.

Further, referring to fig. 7, the remote control module 6 includes: a remote server 60, a PC side 61, and an administrator side 62; wherein,

the remote server 60 is respectively connected with the automatic control module 5 and the user terminal 7;

the remote server 60 is connected with a PC terminal 61 and an administrator terminal 62 respectively; wherein, the remote server 60 may be an ali cloud server; administrator side 62 may be a mobile phone side equipped with administrator-specific software for receiving data.

The internet of things card in the automatic control module 5 sends all received data to the remote server 60 through the DTU, and data transmission is realized through a TCP/IP protocol.

The remote server 60 stores the data, the connection is established between the remote server 60 and the PC end 61 and the administrator end 62, and the remote server 60 respectively sends the data to the PC end 61 and the administrator end 62, so that an operator of a household water treatment system center can receive each data of the water treatment system in different modes and carry out operation and management; meanwhile, different authorities can be set on the PC terminal 61 and the administrator terminal 62, so that division of labor is clear.

The automatic control module 5, the remote server 60, the PC terminal 61, and the administrator terminal 62 are all wirelessly connected.

Further, the user terminal 7 is wirelessly connected with the remote server 60; the user end 7 can be any PC end 61 or mobile phone end equipped with software for controlling the account information of the user, the user can know the running state, the water quality condition and the like of the water treatment system of the user through the user end 7, the user data is uploaded to the remote server 60 through the user 7, and meanwhile, the user end 7 can also contact a manufacturer to carry out maintenance.

When the household water treatment system is freely installed for users, each user has a corresponding direct drinking water user account in the remote server 60, the automatic control module 5 sends the water consumption information of the user to the remote server 60, the remote server 60 receives and stores direct drinking water data of the user and sends the direct drinking water data to the user side 7, when the user needs to add value to the account, the remote server 60 sends a message to the user side 7, the user adds value to the direct drinking water user account through the user side 7, and meanwhile, the user network side can know the water consumption condition of the user at any time.

Furthermore, the terms "first", "second", "third", "fourth", "fifth" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, features defined as "first", "second", "third", "fourth", "fifth" may explicitly or implicitly include one or more of the features. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

The utility model discloses a water treatment system of this kind of structure can reach following beneficial effect:

1. the household water treatment system of the utility model adopts the fine filtration and the active carbon adsorption technology to purify the tap water, adopts the ion exchange technology and the automatic control technology to soften the tap water and realize the automatic regeneration of the ion exchange resin, adopts the reverse osmosis technology to produce the direct drinking water and recycles the waste water so as to achieve the purpose of water saving;

2. the household water treatment system of the utility model collects the waste water of different modules and uses the waste water as different purposes, thereby achieving the purpose of all-round water saving;

3. the utility model discloses can control water treatment system long-rangely, can make the administrator look over water treatment system's data through the equipment of difference simultaneously, in addition, the user also can be at the convenient understanding of supplementing with money of carrying on the account of user side, account information, water treatment system running state and quality of water condition.

The foregoing is a more detailed description of the present invention, taken in conjunction with the specific preferred embodiments thereof, and it is not intended that the invention be limited to the specific embodiments shown and described. To the utility model belongs to the technical field of ordinary technical personnel, do not deviate from the utility model discloses under the prerequisite of design, can also make a plurality of simple deductions or replacement, all should regard as belonging to the utility model discloses a protection scope.

Claims (6)

1. A water-saving domestic water treatment system, comprising: the system comprises a pretreatment module, a softening module, a direct drinking water module, a waste water collecting module, an automatic control module, a remote control module and a user side; wherein,

the pretreatment module, the softening module and the direct drinking water module are sequentially connected;

the pretreatment module, the softening module and the direct drinking water module are respectively connected with the wastewater collection module;

the pretreatment module, the softening module and the direct drinking water module are respectively connected with the automatic control module;

the automatic control module, the remote control module and the user side are connected in sequence.

2. A water-saving domestic water treatment system according to claim 1, wherein said pre-treatment module comprises: the device comprises a first water inlet pipe, a pre-filter, a multi-medium filter, a first multi-path control valve, a flushing drain pipe, a pre-filter water outlet pipe and a first water outlet pipe; wherein,

the flushing drain pipe is connected with the wastewater collection module; one end of the first water outlet pipe is connected with the softening module;

two ends of the pre-filter are respectively connected with one end of the first water inlet pipe and one end of the water outlet pipe of the pre-filter;

the other end of the water outlet pipe of the pre-filter, the flushing water outlet pipe and the other end of the first water outlet pipe are connected with the multi-medium filter through the first multi-way control valve;

the first multi-way control valve is arranged on the multi-medium filter and is connected with the multi-medium filter; the first multi-way control valve is connected with the automatic control module.

3. A water-saving domestic water treatment system according to claim 2, wherein said softening module comprises: the system comprises a second water inlet pipe, a softened resin tank, a softened salt tank, a second multi-way control valve, a regeneration flushing drain pipe, a softened salt tank water outlet pipe, a second water outlet pipe and a third water outlet pipe; wherein,

one end of the second water inlet pipe is connected with the first water outlet pipe; one end of the second water outlet pipe is connected with the direct drinking water module; the regeneration flushing drain pipe is connected with the wastewater collection module;

the other end of the second water inlet pipe, one end of the softened salt tank water outlet pipe, the regeneration flushing drain pipe and the other end of the second water outlet pipe are connected with the softened resin tank through the second multi-way control valve; the other end of the water outlet pipe of the softened salt box is connected with the softened salt box;

the third water outlet pipe is connected with the second water outlet pipe;

the second multi-way control valve is arranged on the softened resin tank and is connected with the softened resin tank; and the second multi-way control valve is connected with the automatic control module.

4. A water-saving domestic water treatment system according to claim 3, wherein said direct drinking water module comprises: the device comprises a third water inlet pipe, a composite filter element, an activated carbon filter element, a PP cotton filter element, a booster pump, a reverse osmosis membrane group, a rear filter element group, a water storage component, a disinfection component, a fourth water outlet pipe, a check valve and a direct drinking water drain pipe; wherein,

one end of the third water inlet pipe is connected with the second water outlet pipe; one end of the direct drinking water drainage pipe is connected with the reverse osmosis membrane group, and the other end of the direct drinking water drainage pipe is connected with the wastewater collection module;

the other end of the third water inlet pipe, the composite filter element, the activated carbon filter element, the PP cotton filter element, the booster pump, the reverse osmosis membrane group, the rear filter element group, the water storage assembly, the disinfection assembly and the fourth water outlet pipe are connected in sequence;

the check valve is positioned on the direct drinking water drainage pipe and is connected with the direct drinking water drainage pipe;

the booster pump and the disinfection subassembly all with automatic control module connects.

5. A water-saving domestic water treatment system according to claim 4, wherein said waste water collection module comprises: a fourth water inlet pipe, a waste water tank, a waste water pressure pump, an overflow pipe and a fifth water outlet pipe; wherein,

one end of the fourth water inlet pipe is respectively connected with the flushing drain pipe, the regeneration flushing drain pipe and the direct drinking water drain pipe;

the waste water tank is respectively connected with the other end of the fourth water inlet pipe, the overflow pipe and the fifth water outlet pipe;

and the wastewater pressurizing pump is positioned on the fifth water outlet pipe and is connected with the fifth water outlet pipe.

6. A water-saving domestic water treatment system according to claim 5, wherein said remote control module comprises: the system comprises a remote server, a PC (personal computer) end and an administrator end; wherein,

the remote server is respectively connected with the automatic control module and the user side;

the remote server is respectively connected with the PC end and the administrator end.

Images