CN206232439U - Integrated reverse osmosis water treatment system - Google Patents

Abstract

The utility model discloses a kind of integrated reverse osmosis water treatment system, including inlet channel, first-stage reverse osmosis device, second level reverse osmosis apparatus, water production pipeline and concentrated water pipeline；The inlet channel is divided into the first inlet channel and the second inlet channel by first baffle；The first-stage reverse osmosis device water inlet end connects first inlet channel, and the second level reverse osmosis apparatus water inlet end connects second inlet channel；The concentrated water pipeline is divided into the first concentrated water pipeline and the second concentrated water pipeline by second baffle；The first-stage reverse osmosis device water side connects the first concentrated water pipeline, and the second level reverse osmosis apparatus water side connects the second concentrated water pipeline；The first concentrated water pipeline connects second inlet channel；The first-stage reverse osmosis device water side and the second level reverse osmosis apparatus water side are all connected with the water production pipeline.The utility model uses continuous two steps ro filter type, system compact, high efficiency filter.

Description

Integrated reverse osmosis water treatment system

Technical field

The utility model is related to water-treatment technology field, in particular to a kind of integrated reverse osmosis water treatment system.

Background technology

Also known as reverse osmosis, one kind isolates the UF membrane operation of solvent with pressure differential as motive force from solution for counter-infiltration. Feed liquid to film side applies pressure, and when pressure exceedes its osmotic pressure, solvent can make reverse against the direction of naturally osmotic Infiltration.So as to the solvent passed through in the low-pressure side of film, i.e. penetrating fluid；The solution that high-pressure side is concentrated, i.e. concentrate.If Reverse-osmosis treated seawater is used, fresh water is obtained in the low-pressure side of film, bittern is obtained in high-pressure side.Reverse osmosis membrane filtration technology is a kind of Efficiently, low energy and easy-operating liquid separation technology, have high treating effect compared with traditional method for treating water, are capable of achieving sea Water desalination, the advantages of recycling and reclaimed to utility of waste water.Industrial and life contaminated water is processed so as to reclaim Using an important channel for having become global saving water resource.Reverse osmosis membrane efficiently removes salt functional in pure water manufacture Also it is widely used in the industries such as food, medicine, chemical industry.Osmosis filtration technique is due to not undergoing phase transition and does not need soda acid again It is raw, and acid, alkali etc. are not used in reverse osmosis process production process to environment harmful.But, existing desalinization, sewage Processing unit complex structure, pipeline is more, and equipment cost is higher.

Utility model content

In view of this, the utility model is preferably to overcome problem and defect that above-mentioned prior art is present, there is provided A kind of integrated reverse osmosis water treatment system, including inlet channel, first-stage reverse osmosis device, second level reverse osmosis apparatus, water producing pipe Road and concentrated water pipeline；The inlet channel is divided into the first inlet channel and the second inlet channel by first baffle；Described one Level reverse osmosis unit water inlet end connects first inlet channel, and the second level reverse osmosis apparatus water inlet end connection described second is entered Waterpipe；The concentrated water pipeline is divided into the first concentrated water pipeline and the second concentrated water pipeline by second baffle；The one-level reverse osmosis Saturating device water side connects the first concentrated water pipeline, and the second level reverse osmosis apparatus water side connects second concentrated water Pipeline；The first concentrated water pipeline connects second inlet channel；The first-stage reverse osmosis device water side and described Second level reverse osmosis apparatus water side is all connected with the water production pipeline.

Further, also including cleaning fluid input duct and cleaning fluid drain pipe road；First inlet channel is by the One valve and the cleaning fluid input duct, second inlet channel are connected by the second valve with the cleaning fluid input duct Connect；The first concentrated water pipeline is connected by the 3rd valve with the cleaning fluid drain pipe road, and the second concentrated water pipeline passes through 4th valve is connected with the cleaning fluid drain pipe road.

Further, the first-stage reverse osmosis film filter include some first reverse osmosis membranes, some first putaminas and If dry film frame, some first reverse osmosis membranes are arranged in some first putaminas, and some first putaminas are arranged in order If row are arranged on the dry film frame.

Further, the second level reverse osmosis apparatus contain some with some first reverse osmosis membrane alignments Some second putaminas of two reverse osmosis membranes and some first putamina alignments；Some second reverse osmosis membranes are set In in some second putaminas；If some second putaminas are arranged on the dry film frame.

Further, also including an instrument board and electric cabinet, the instrument board connects all instrument；The electric cabinet connects Connect all valves.

Further, the first sampling valve and first pressure table are installed on first inlet channel；The first pressure First pressure sensor is provided with table；Second sampling valve, second inlet channel are installed on second inlet channel Top is provided with first row air valve.

Further, the 3rd sampling valve and second pressure table are installed on the first concentrated water pipeline；The second pressure Second pressure sensor is provided with table.

Further, the water production pipeline top is provided with second row air valve；The second concentrated water pipeline top is provided with the 3rd Air bleeding valve.

Further, the 4th sampling valve, the 3rd pressure gauge, conductivity meter and flowmeter are installed in the water production pipeline； The 3rd pressure sensor is provided with 3rd pressure gauge；The water production pipeline is connected with qualified water exit conduit, first clear Washing lotion outlet conduit, unqualified water exit conduit；The qualified water exit conduit, the first rinse liquid outlet pipeline and unqualified water Outlet conduit is respectively equipped with the first operated pneumatic valve, the second operated pneumatic valve and the 3rd operated pneumatic valve.

Further, the 5th sampling valve, the 4th pressure gauge and flowmeter are installed on the second concentrated water pipeline；Described The 4th pressure sensor is provided with four pressure gauges；The second concentrated water pipeline is connected with concentrated water spout pipeline, rinses floss hole pipe Road, the second rinse liquid outlet pipeline；The concentrated water spout pipeline, flushing floss hole pipeline and the second rinse liquid outlet pipeline set respectively There are the 4th operated pneumatic valve, the 5th operated pneumatic valve and the 6th operated pneumatic valve.

Compared with prior art, the beneficial effect of integrated reverse osmosis water treatment system of the present utility model is：

1st, integrated reverse osmosis water treatment system of the present utility model by inlet channel, first-stage reverse osmosis device, two grades The efficient combinations such as reverse osmosis unit, water production pipeline and concentrated water pipeline, comprehensive utilization, and use first-stage reverse osmosis and two grades of reverse osmosis Saturating two sections of filtering techniques are connected in series mode, greatly improve the advanced treating efficiency of desalinization and industrial wastewater etc., and real Existing pipeline optimization, makes the utility model system compact, equipment cost reduction.

2nd, further, integrated reverse osmosis water treatment system of the present utility model is also connected in parallel using cleaning Mode, cleaning fluid input duct is connected by valve with the first inlet channel and the second inlet channel, and cleaning fluid drain pipe Road is connected by valve with the first concentrated water pipeline and the second concentrated water pipeline, realizes optionally carrying out classification emphasis cleaning for system Or clean simultaneously, the operability that improves equipment, the service life for extending equipment and to reach Chemical cleaning thoroughly efficient Filtering.

To enable above-mentioned purpose of the present utility model, feature and advantage to become apparent, preferred embodiment cited below particularly, and Coordinate appended accompanying drawing, be described in detail below.

Brief description of the drawings

In order to illustrate more clearly of the technical scheme of the utility model embodiment, below will be to be used needed for embodiment Accompanying drawing be briefly described, it will be appreciated that the following drawings illustrate only some embodiments of the present utility model, therefore should not be by Regard the restriction to scope as, for those of ordinary skill in the art, on the premise of not paying creative work, may be used also Other related accompanying drawings are obtained with according to these accompanying drawings.

Fig. 1 is the front view of integrated reverse osmosis water treatment system of the present utility model；

Fig. 2 is the top view of integrated reverse osmosis water treatment system of the present utility model；

Fig. 3 is the left view of integrated reverse osmosis water treatment system of the present utility model；

Fig. 4 is the A-A sectional views in the front view of integrated reverse osmosis water treatment system of the present utility model；

Fig. 5 is the B-B sectional views in the top view of integrated reverse osmosis water treatment system of the present utility model；

Fig. 6 is the C-C sectional views in the top view of integrated reverse osmosis water treatment system of the present utility model；

Fig. 7 is the D-D sectional views in the top view of integrated reverse osmosis water treatment system of the present utility model.

Drawing reference numeral explanation：

1 inlet channel

11 first baffles

12 first inlet channels

13 second inlet channels

14 water inlets

121 first sampling valves

122 first pressure tables

131 second sampling valves

132 first row air valves

2 first-stage reverse osmosis devices

21 first reverse osmosis membranes

22 first putaminas

23 film framves

3 second level reverse osmosis apparatus

31 second reverse osmosis membranes

32 second putaminas

4 water production pipelines

41 the 4th sampling valves

42 the 3rd pressure gauges

43 conductivity meters

44 first flowmeters

45 qualified water exit conduits

46 first rinse liquid outlet pipelines

47 unqualified water exit conduits

48 second row air valves

451 first operated pneumatic valves

461 second operated pneumatic valves

471 the 3rd operated pneumatic valves

5 concentrated water pipelines

51 second baffles

52 first concentrated water pipelines

53 second concentrated water pipelines

521 the 3rd sampling valves

522 second pressure tables

531 the 5th sampling valves

532 the 4th pressure gauges

533 second flowmeters

534 concentrated water spout pipelines

535 rinse floss hole pipeline

536 second rinse liquid outlet pipelines

537 the 3rd air bleeding valves

5341 the 4th operated pneumatic valves

5351 the 5th operated pneumatic valves

5361 the 6th operated pneumatic valves

61 cleaning fluid input ducts

62 cleaning fluid drain pipe roads

611 filter washing water inlets

621 rinse liquid outlets

71 first valves

72 second valves

73 the 3rd valves

74 the 4th valves

8 instrument boards

Specific embodiment

For the ease of understanding the utility model, integrated reverse osmosis water treatment system is carried out below with reference to relevant drawings More fully describe.The first-selected embodiment of integrated reverse osmosis water treatment system is given in accompanying drawing.But, integrated reverse osmosis Water treatment system can be realized in many different forms, however it is not limited to embodiment described herein.On the contrary, providing this The purpose of a little embodiments is to make the disclosure to integrated reverse osmosis water treatment system more thorough comprehensive.

In description of the present utility model, it is to be understood that term " longitudinal direction ", " transverse direction ", " on ", D score, " preceding ", " afterwards ", the orientation or position relationship of the instruction such as "left", "right", " vertical ", " level ", " top ", " bottom ", " interior ", " outward " be based on Orientation shown in the drawings or position relationship, are for only for ease of description the utility model and simplify description, rather than instruction or dark Showing the device or element of meaning must have specific orientation, with specific azimuth configuration and operation therefore it is not intended that right Limitation of the present utility model.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show The description of example " or " some examples " etc. means to combine specific features, structure, material or spy that the embodiment or example are described Point is contained at least one embodiment of the present utility model or example.In this manual, to the schematic table of above-mentioned term State and be not necessarily referring to identical embodiment or example.And, the specific features of description, structure, material or feature can be Combined in an appropriate manner in one or more any embodiments or example.

Additionally, term " first ", " second ", " the 3rd ", " the 4th ", " the 5th ", " the 6th " are only used for describing purpose, without It is understood that to indicate or implying relative importance or the implicit quantity for indicating indicated technical characteristic.Thus, define " the One ", one or more can be expressed or be implicitly included to " second ", " the 3rd ", " the 4th ", " the 5th ", the feature of " the 6th " Multiple this feature.

In description of the present utility model, unless otherwise prescribed with restriction, it is necessary to explanation, term " installation ", " phase Even ", " connection " should be interpreted broadly, for example, it may be mechanically connecting or electrical connection, or two companies of element internal It is logical, can be joined directly together, it is also possible to be indirectly connected to by intermediary, for the ordinary skill in the art, can To understand the concrete meaning of above-mentioned term as the case may be.

Embodiment

Refering to Fig. 1, Fig. 2, Fig. 5 and Fig. 7, the integrated reverse osmosis water treatment system of the utility model embodiment, including enter Waterpipe 1, first-stage reverse osmosis device 2, second level reverse osmosis apparatus 3, water production pipeline 4 and concentrated water pipeline 5；The inlet channel 1 leads to Cross first baffle 11 and be divided into the first inlet channel 12 and the second inlet channel 13；The water inlet end of first-stage reverse osmosis device 2 connects First inlet channel 12 is connect, the water inlet end of the second level reverse osmosis apparatus 3 connects second inlet channel 13；The concentrated water Pipeline 5 is divided into the first concentrated water pipeline 52 and the second concentrated water pipeline 53 by second baffle 51；The first-stage reverse osmosis device 2 goes out Water end (W.E.) connects the first concentrated water pipeline 52, and the water side of the second level reverse osmosis apparatus 3 connects the second concentrated water pipeline 53；The first concentrated water pipeline 52 connects second inlet channel 13；The water side of first-stage reverse osmosis device 2 and described two Level reverse osmosis unit 3 water side is all connected with the water production pipeline 4.

The technological process of above-mentioned integrated reverse osmosis water treatment system is：Pending industrial wastewater or sea to be diluted Water enters the first inlet channel 1 by water inlet 14, and after flowing to first-stage reverse osmosis device 2 through osmosis filtration, what is obtained is qualified Water purification flowed out by water production pipeline 4, the concentrated water for obtaining then flows into the second inlet channel 13 by the first concentrated water pipeline 52, flow direction Two-pass reverse osmosis filter 3 is filtered again through counter-infiltration, and the qualified water purification or fresh water for obtaining are flowed out by water production pipeline 4, The concentrated water for obtaining then is flowed out by the second concentrated water pipeline 53.

Seen from the above description, integrated reverse osmosis water treatment system of the present utility model is anti-by inlet channel 1, one-level The efficient combinations such as permeability apparatus 2, second level reverse osmosis apparatus 3, water production pipeline 4 and concentrated water pipeline 5, comprehensive utilization, and use one Level two sections of filtering techniques of counter-infiltration and two-pass reverse osmosis are connected in series mode, greatly improve desalinization and industrial wastewater etc. Advanced treating efficiency, and realize that pipeline optimizes, make the utility model system compact, equipment cost reduction.

Further, refering to Fig. 5 and Fig. 6, also including cleaning fluid input duct 61 and cleaning fluid drain pipe road 62；Described One inlet channel 12 passes through the second valve by the first valve 71 and the cleaning fluid input duct 61, second inlet channel 13 Door 72 is connected with the cleaning fluid input duct 61；The first concentrated water pipeline 52 is gone out by the 3rd valve 73 and the cleaning fluid Liquid pipe road 62 is connected, and the second concentrated water pipeline 53 is connected by the 4th valve 74 with the cleaning fluid drain pipe road 62.

Above-mentioned, cleaning fluid flows into cleaning fluid input duct 61, the cleaned liquid drain pipe road of cleaning fluid from filter washing water inlet 611 62 discharge from rinse liquid outlet；When opening the first valve 71 and the 3rd valve 73, when closing the second valve 72 and four valves 74, Cleaning fluid in cleaning fluid input duct 61 first flows to first-stage reverse osmosis device 2, then flows into two grades by the first concentrated water pipeline 52 Reverse osmosis unit 3, then flow into the second concentrated water pipeline 53；It is understood that cleaning fluid is dense in first-stage reverse osmosis device 2, first Concentration in waterpipe 52, the concentrated water pipeline 53 of second level reverse osmosis apparatus 3 and second is sequentially reduced, thus may cause anti-to two grades The cleaning of reverse osmosis membrane and the second concentrated water pipeline 53 in permeability apparatus 3 is not thorough enough.

It is same to open the second valve 72 and the 4th valve 74, when closing the first valve 71 and three valves 73, cleaning fluid Cleaning fluid in input duct 61 first flows to second level reverse osmosis apparatus 3, then is diverted to the second concentrated water pipeline 53 simultaneously and by the One concentrated water pipeline 52 flows into first-stage reverse osmosis device 2；Cleaning fluid is dense in second level reverse osmosis apparatus 3, the second concentrated water pipeline 53, first Concentration in waterpipe 52 and second level reverse osmosis apparatus 3 is sequentially reduced, thus may cause to anti-in first-stage reverse osmosis device 2 The cleaning of permeable membrane and the first concentrated water pipeline 52 is not thorough enough.

When the first valve 71, the second valve 72, the 3rd valve 73 and four valves 74 is opened simultaneously, cleaning fluid feed tube Cleaning fluid in road 61 flows into first-stage reverse osmosis device 2 and second level reverse osmosis apparatus 3 simultaneously so that enter first-stage reverse osmosis device 2 as the concentration of the cleaning fluid of second level reverse osmosis apparatus 3, and the cleaning fluid of the first concentrated water pipeline 52 and the second concentrated water pipeline 53 is dense Degree is the same, by being fully contacted for cleaning fluid and all reverse osmosis membranes in system and all pipelines so that cleaning fluid is in system The cleaning of all reverse osmosis membranes and pipeline is more thoroughly clean.

Seen from the above description, integrated reverse osmosis water treatment system of the present utility model is also in parallel even using cleaning The mode for connecing, cleaning fluid input duct 61 is connected by valve with the first inlet channel 12 and the second inlet channel 13, and clearly Washing lotion drain pipe road 62 is connected by valve with the first concentrated water pipeline 52 and the second concentrated water pipeline 53, is realized for system optionally Carry out the cleaning of classification emphasis or while clean, the operability that improves equipment, the service life and reaching for extending equipment Learn cleaning thoroughly high efficiency filter.In addition, filter washing water inlet 611 can connect to form loop with rinse liquid outlet 621, make cleaning fluid Recycle, economize on resources.

Further, refering to Fig. 4 and Fig. 5, the first-stage reverse osmosis film filter 2 includes some first reverse osmosis membranes If the 21, some first putaminas 22 and dry film frame 23, some first reverse osmosis membranes 21 are arranged in some first putaminas 22, institute If stating some ordered arrangements of first putamina 22 to be arranged on the dry film frame 23.

Further, refering to Fig. 2 and Fig. 5, the second level reverse osmosis apparatus 3 contain and some first reverse osmosis membranes 21 Some second putaminas 32 of some second reverse osmosis membranes 31 of alignment and some alignments of first putamina 22, institute Some second reverse osmosis membranes 31 are stated to be arranged in some second putaminas 32, if some second putaminas 32 be arranged at it is described On dry film frame 23.

Above-mentioned, term " some " can be regarded as two, three, four or six etc.；Some first putaminas 22 have Sequence arrangement can be enumerated as a variety of implementations, arranged for example with a row two, two rows two arrange, three rows two arrange, two row three row etc. row Row mode；Some second putaminas 32 are then corresponding by the way of with some alignments of first putamina 22, the utility model In embodiment preferred embodiment as shown in Figure 3 and Figure 5：First putamina 22 is four, by the way of two row two arranges Arrangement；Second putamina 32 is two, by the way of a row two arranges；The reverse osmosis membrane quantity of each putamina is identical, each Corresponding the first reverse osmosis membrane 21 described with two of second reverse osmosis membrane 31 aligns along film frame 23.

It is to be appreciated that such as seawater or industrial wastewater can be made to exist by setting some putaminas and some reverse osmosis membranes Treatment is all shunted per one-level and by multiple times of filtration, so that the treatment such as desalinization or industrial wastewater is more thoroughly, met Fresh water higher or water purification requirement.And by the putamina and reverse osmosis membrane in first-stage reverse osmosis device 2 and second level reverse osmosis apparatus 3 In putamina and reverse osmosis membrane by the way of alignment, make the overall structure of filtration system more attractive compact.

Further, also including instrument board 8 and electric cabinet (not shown), the instrument board 8 connects all instrument；The electricity All valves in control case connection system.

It is to be appreciated that the instrument board 8 is used to monitoring and showing that all instrument such as pressure gauge, flowmeter etc. are supervised in real time The data of survey.For controlling, institute is valvular to be opened and closed automatically the electric cabinet.

Further, first sampling valve 121 and first pressure table 122 are installed on first inlet channel 12；It is described First pressure sensor (not shown) is provided with first pressure table 122；Second is provided with second inlet channel 13 to take Sample valve 131, the top of second inlet channel 13 is provided with first row air valve 132.

It is to be appreciated that first sampling valve 121 is used to carry out the water in the first inlet channel 12 at any time Sampling.The pressure of the water that the first pressure table 122 is used in the first inlet channel of monitor in real time 12.The pressure sensor is used In by the pressure signal transmission of first pressure table real-time monitoring to instrument board 8.Second sampling valve 131 is used at any time can be right Water in second inlet channel 13 is sampled.The first row air valve 132 is used to discharge the second inlet channel 13 before intaking Interior is courteous；Need drained to turn off first row air valve by courteous before water inlet.

Further, the 3rd sampling valve 521 and second pressure table 522 are installed on the first concentrated water pipeline 52；It is described Second pressure sensor (not shown) is provided with second pressure table 522.

Above-mentioned, the 3rd sampling valve 521 is used to be sampled the water in the first concentrated water pipeline 52 at any time.It is described The pressure of the water that second pressure table 522 is used in the first concentrated water of monitor in real time pipeline 52.The second pressure sensor is used for will The pressure signal transmission of the real-time monitoring of second pressure table 522 is to instrument board 8.

Further, the water production pipeline top is provided with second row air valve 48；Second concentrated water pipeline top is provided with the Three air bleeding valves 537.

The air bleeding valve 537 of above-mentioned second row air valve 48 and the 3rd is respectively used to visitor in the concentrated water pipeline 53 of water production pipeline 4 and second The discharge of gas.

Further, the 4th sampling valve 41, the 3rd pressure gauge 42, electricity are installed refering to Fig. 1 and Fig. 3, in the water production pipeline 4 Conductance instrument 43, first flowmeter 44；The 3rd pressure sensor (not shown) is provided with 3rd pressure gauge 42；The product Waterpipe 4 is connected with qualified water exit conduit 45, the first rinse liquid outlet pipeline 46, unqualified water exit conduit 47.The conjunction Lattice water exit conduit 45, the first rinse liquid outlet pipeline 46 and unqualified water exit conduit 47 are respectively equipped with the first operated pneumatic valve 451st, the second operated pneumatic valve 461 and the 3rd operated pneumatic valve 471.

It is to be appreciated that the first rinse liquid outlet pipeline 46 is used to discharge enter during cleaning fluid purging system The cleaning fluid of water production pipeline 4.4th sampling valve 41 is used to be sampled the water in water production pipeline 4 at any time.It is described The pressure of the water that the 3rd pressure gauge 42 is used in monitor in real time water production pipeline 4.3rd pressure sensor is used for the 3rd pressure The pressure signal transmission of the real-time monitoring of power table 42 is to instrument board 8.The table of the conductivity meter 43 is used for real-time monitoring water production pipeline 4 In water quality information, when monitoring water quality and being unqualified, automatically open up the 3rd operated pneumatic valve 471, close the first operated pneumatic valve 451； When monitoring water quality and being qualified, the first operated pneumatic valve 451 is automatically opened up, close the 3rd operated pneumatic valve 471.The first flowmeter 44 For the flow of the water quality in real-time monitoring water production pipeline 4.

Further, the 5th sampling valve 531, the 4th pressure gauge 532, second are installed on the second concentrated water pipeline 53 Gauge 533；4th pressure gauge 532 is provided with the 4th pressure sensor (not shown)；The second concentrated water pipeline 53 is connected There is concentrated water spout pipeline 534, rinse floss hole pipeline 535, the second rinse liquid outlet pipeline 536.The concentrated water spout pipeline 534, punching Wash the rinse liquid outlet pipeline 536 of floss hole pipeline 535 and second and be respectively equipped with the 4th operated pneumatic valve 5341, the 5th operated pneumatic valve 5351 and the 6th operated pneumatic valve 5361.

It is to be appreciated that the 5th sampling valve 531 is used to carry out the water in the second concentrated water pipeline 53 at any time Sampling.The pressure of the water that the 4th pressure gauge 532 is used in the second concentrated water of monitor in real time pipeline 53.4th pressure sensing Device is used for the pressure signal transmission of the real-time monitoring of the 4th pressure gauge 532 to instrument board 8.The second flowmeter 533 is used for real When monitor the flow of water in the second concentrated water pipeline 53.The concentrated water spout pipeline 534 is used to discharge seawater or industrial wastewater warp Enter the concentrated water of the second concentrated water pipeline 53 after system filtering.The flushing floss hole pipeline 535 is used for exhaust apparatus and starts shooting and stop Rinse-system enters the water of the second concentrated water pipeline 53 during machine.Second rinse liquid outlet pipeline 536 is used to discharge cleaning fluid cleaning system Into the cleaning fluid of the second concentrated water pipeline 53 during system.

Although more above used the term for representing structure, such as " first-stage reverse osmosis device ", " two-pass reverse osmosis are filled Put ", " cleaning fluid input duct " etc., but be not precluded from using the possibility of other terms.It is used for the purpose of using these terms More easily describe and explain essence of the present utility model；Being construed as any additional limitation is all and this practicality What new spirit was disagreed.

The above, specific embodiment only of the present utility model, but protection domain of the present utility model do not limit to In this, any one skilled in the art can readily occur in change in the technical scope that the utility model is disclosed Or replace, should all cover within protection domain of the present utility model.

Claims (10)

1. integrated reverse osmosis water treatment system, including inlet channel, first-stage reverse osmosis device, second level reverse osmosis apparatus, product water Pipeline and concentrated water pipeline；It is characterized in that：The inlet channel is divided into the first inlet channel and second and enters by first baffle Waterpipe；The first-stage reverse osmosis device water inlet end connects first inlet channel, the second level reverse osmosis apparatus water inlet end Connect second inlet channel；The concentrated water pipeline is divided into the first concentrated water pipeline and the second concentrated water pipe by second baffle Road；The first-stage reverse osmosis device water side connects the first concentrated water pipeline, the second level reverse osmosis apparatus water side connection The second concentrated water pipeline；The first concentrated water pipeline connects second inlet channel；The first-stage reverse osmosis device Water side and the second level reverse osmosis apparatus water side are all connected with the water production pipeline.

2. integrated reverse osmosis water treatment system according to claim 1, it is characterised in that：Also include cleaning fluid feed tube Road and cleaning fluid drain pipe road；First inlet channel passes through the first valve and the cleaning fluid input duct, described second Inlet channel is connected by the second valve with the cleaning fluid input duct；The first concentrated water pipeline passes through the 3rd valve and institute The connection of cleaning fluid drain pipe road is stated, the second concentrated water pipeline is connected by the 4th valve with the cleaning fluid drain pipe road.

3. integrated reverse osmosis water treatment system according to claim 1, it is characterised in that：The first-stage reverse osmosis film mistake If filter device includes some first reverse osmosis membranes, some first putaminas and dry film frame；Some first reverse osmosis membranes are arranged at In some first putaminas；If some first putamina ordered arrangements are arranged on the dry film frame.

4. integrated reverse osmosis water treatment system according to claim 3, it is characterised in that：The second level reverse osmosis apparatus Alignd with some first putaminas row containing some second reverse osmosis membranes with some first reverse osmosis membrane alignments Some second putaminas of row；Some second reverse osmosis membranes are arranged in some second putaminas；Some second films If shell is arranged on the dry film frame.

5. integrated reverse osmosis water treatment system according to claim 1, it is characterised in that：Also include instrument board and Electric cabinet；The instrument board connects all instrument；The electric cabinet connects all valves.

6. integrated reverse osmosis water treatment system according to claim 5, it is characterised in that：On first inlet channel First sampling valve and first pressure table are installed；First pressure sensor is provided with the first pressure table；Described second enters Second sampling valve is installed, the second inlet channel top is provided with first row air valve on waterpipe.

7. integrated reverse osmosis water treatment system according to claim 5, it is characterised in that：On the first concentrated water pipeline 3rd sampling valve and second pressure table are installed；Second pressure sensor is provided with the second pressure table.

8. integrated reverse osmosis water treatment system according to claim 5, it is characterised in that：The water production pipeline top sets There is second row air valve；The second concentrated water pipeline top is provided with the 3rd air bleeding valve.

9. integrated reverse osmosis water treatment system according to claim 5, it is characterised in that：Installed in the water production pipeline 4th sampling valve, the 3rd pressure gauge, conductivity meter and flowmeter；The 3rd pressure sensing is provided with 3rd pressure gauge Device；The water production pipeline is connected with qualified water exit conduit, the first rinse liquid outlet pipeline, unqualified water exit conduit；It is described Qualified water exit conduit, the first rinse liquid outlet pipeline and unqualified water exit conduit are respectively equipped with the first operated pneumatic valve, second Operated pneumatic valve and the 3rd operated pneumatic valve.

10. integrated reverse osmosis water treatment system according to claim 5, it is characterised in that：The second concentrated water pipeline On the 5th sampling valve, the 4th pressure gauge and flowmeter are installed；The 4th pressure sensor is provided with 4th pressure gauge；Institute The second concentrated water pipeline is stated to be connected with concentrated water spout pipeline, rinse floss hole pipeline, the second rinse liquid outlet pipeline；The concentrated water spout pipe Road, flushing floss hole pipeline and the second rinse liquid outlet pipeline are respectively equipped with the 4th operated pneumatic valve, the 5th operated pneumatic valve and the 6th Operated pneumatic valve.