CN206799218U - Reverse osmosis unit - Google Patents
Reverse osmosis unit Download PDFInfo
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- CN206799218U CN206799218U CN201720469410.XU CN201720469410U CN206799218U CN 206799218 U CN206799218 U CN 206799218U CN 201720469410 U CN201720469410 U CN 201720469410U CN 206799218 U CN206799218 U CN 206799218U
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- putamina
- filtering
- water
- voltage tube
- membrane stack
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Abstract
The utility model discloses a kind of reverse osmosis unit, including support, the membrane stack for filter water is fixedly installed on the support, described support one end is provided with the water inlet system to supply water into membrane stack, the support is fixedly installed the concentrated water system for concentrated water outflow, the support other end is provided with the outlet pipe for the water outflow after filtering, the water inlet system includes being arranged on membrane stack one end and connects the first high-voltage tube of membrane stack, the membrane stack includes several evenly distributed and is used for the filtering putamina for placing filter membrane, the filtering putamina in same a line concatenates and connects the first high-voltage tube.The utility model reduces number of tubes, achieves the beneficial effect for reducing cost.Reduce weld seam, enhance system security;Shorten the process-cycle;Convenient use person operates maintenance.
Description
Technical field
A kind of sewage disposal device is the utility model is related to, more specifically, it relates to a kind of reverse osmosis unit.
Background technology
At present, chemical process, the discharge of unavoidable various industrial wastewaters., will if industrial wastewater is directly discharged
Very big adverse effect is caused to environment.Thus, it is heavy to closing that reverse osmosis unit, which is applied to post-processing stages caused by chemical industry,
Want, industrial wastewater is discharged after reverse osmosis unit, meets the requirement of environmental protection.
Disclose a kind of reverse osmosis unit in the patent of Application No. " 201620078669.7 ", including ultrafiltration film unit,
Reverse osmosis membrane unit, ultrafiltration water tank and counter-infiltration water tank, the water inlet of the ultrafiltration film unit are connected with ultrafiltration water inlet pipe,
It is connected between the delivery port of the ultrafiltration film unit and the water inlet of ultrafiltration water tank by ultra-filtration water pipe, the ultrafiltration water tank
Delivery port and the water inlet of reverse-osmosis membrane element between be connected by feed water by reverse osmosis pipe, the water outlet of the ro components
Mouth is connected between the water inlet of counter-infiltration water tank by reverse osmosis water outlet pipe.Although this reverse osmosis unit realizes automation
Operation, but it is complicated, it is necessary to can be pretty troublesome when repairing, and no redundant space is operated for staff.
Utility model content
In view of the deficienciess of the prior art, the purpose of this utility model is to provide a kind of reverse osmosis unit, have just
In the effect of maintenance.
To realize above-mentioned technical purpose, the utility model provides following technical scheme:A kind of reverse osmosis unit, including branch
Frame, the membrane stack for filter water is fixedly installed on the support, and described support one end is provided with the water inlet supplied water into membrane stack
System, the support are fixedly installed the concentrated water system for concentrated water outflow, and the support other end is provided with for the water after filtering
The outlet pipe of outflow, the water inlet system include being arranged on membrane stack one end and connect the first high-voltage tube of membrane stack, the membrane stack bag
Include several evenly distributed and for placing the filtering putamina of filter membrane, the filtering putamina in same a line concatenates and connects the
One high-voltage tube.
By using above-mentioned technical proposal, pending water is unified to be entered in adjacent filtering putamina from the first high-voltage tube,
Pending water enters can enter in adjacent filtering putamina and transmit successively simultaneously after filtering putamina, avoid each column from filtering putamina
High-voltage tube is all individually equipped with to supply water, reduces number of tubes, achieves the beneficial effect for reducing cost.Only need a supervisor
Reduce the node of filtering putamina and pipeline communication, so as to reach the purpose for reducing weld seam, avoid chlorion and stainless steel is welded
The corrosion of seam, achieve the auxiliary beneficial effect to enhance system security;Due to the reduction of weld seam quantity, the requirement to machining accuracy
It can reduce, achieve the auxiliary beneficial effect for shortening the process-cycle;Because membrane stack one end only has first high-voltage tube, membrane stack is increased
The free space of lower section, achieve the auxiliary beneficial effect that convenient use person operates maintenance.
Preferably, connected between the adjacent filtering putamina by copying woods, the filtering putamina and the first high-voltage tube
Between by copy woods connect.
By using above-mentioned technical proposal, filtering putamina and other systems are connected by copy woods, convenient dismounting, are avoided
Difficulty is dismantled during maintenance, achieves the beneficial effect for improving simple operation.It can be processed simultaneously according to various size requirement
Corresponding copy woods, avoid customizing specific connector, achieve the beneficial effect for reducing cost.
Preferably, the first high-voltage tube upper end is provided with the blind plate for separating the first high-voltage tube, on blind plate
For first high-voltage tube of side for the concentrated water outflow in membrane stack, first high-voltage tube below blind plate supplies pending water
Into membrane stack, the support, which is provided with to supply water, flows into the intersegmental pipe of filtering putamina, and filtering putamina is concatenated and connected described in per a line
Intersegmental pipe, connected between the filtering putamina and intersegmental pipe by copying woods.
By using above-mentioned technical proposal, separate the first high-voltage tube by blind plate, make to form two in the first high-voltage tube
The space of relative closure, the space that blind plate is formed with the high-voltage tube of lower section first enters membrane stack for pending water, into membrane stack
Water is sequentially entered in the filter membrane of connection, the concentrated water outflow that the space of top filters out for membrane stack, and achieving space-saving has
Beneficial effect.Intersegmental pipe is connected again after connecting adjacent filtering putamina by copy woods, so that the filter membrane in membrane stack is connected
It is logical, the weld seam quantity of intersegmental pipe is effectively reduced, achieves the beneficial effect for improving security of system.Reduce number of tubes
Having reached reduces the auxiliary beneficial effect of cost;Simultaneously because weld seam quantity is reduced, the requirement to processing technology reduces, and achieves reduction
The auxiliary beneficial effect of process-cycle;Due to being managed in membrane stack between an only root segment, the free space below membrane stack, the side of achieving are increased
Just user operates the auxiliary beneficial effect of maintenance.
Preferably, the filtering putamina of the first high-voltage tube both sides is symmetrically placed.
By using above-mentioned technical proposal, water flows in the filtering putamina to both sides simultaneously from the first high-voltage tube, improves
The efficiency of water is transmitted, while also avoids Partial filtration film from not using completely, achieves the beneficial effect for improving reasonable structure.
Preferably, the outlet pipe includes the water outlet main pipe positioned at filtering putamina end, the water outlet main pipe both sides point
The water outlet looped pipeline for being respectively communicated with every row filtering putamina is not provided with.
By using above-mentioned technical proposal, the water after filtering enters water outlet looped pipeline after leaving membrane stack, then directly converges to
Water outlet main pipe, avoid each column filtering putamina that outlet pipe is separately configured, reached reduction number of tubes, while decrease water outlet master
The weld seam quantity of pipe, achieve the beneficial effect for improving security of system.Reducing number of tubes and also having reached reduces cost
Auxiliary beneficial effect;Simultaneously because weld seam quantity is reduced, the requirement to processing technology reduces, and achieves the auxiliary benefit effect for reducing the process-cycle
Fruit;Because the membrane stack other end only has a water outlet main pipe, the free space below membrane stack is increased, achieves convenient use person behaviour
Make the auxiliary beneficial effect repaired.
Preferably, the water outlet main pipe is vertically positioned among evenly distributed filtering putamina, the water outlet main pipe both sides
Filtering putamina it is symmetrically placed.
By using above-mentioned technical proposal, water leaves rear while imported in water outlet looped pipeline from filtering putamina, improves transmission
The efficiency of water, at the same also avoid side filtering putamina it is excessive, the water in the filtering putamina of end cannot be introduced into water outlet looped pipeline, acquirement
Improve the beneficial effect of reasonable structure.
Preferably, copy woods is connected between the filtering putamina and water outlet looped pipeline.
By using above-mentioned technical proposal, filtering putamina and other systems are connected by copy woods, convenient dismounting, are avoided
Difficulty is dismantled during maintenance, achieves the beneficial effect for improving simple operation.It can be processed simultaneously according to various size requirement
Corresponding copy woods, avoid customizing specific connector, achieve the beneficial effect for reducing cost.
Preferably, the support includes including being located at cross bar two with the cross bar for supporting filtering putamina, the support
Side with and for fixed transverse rod montant, the distance between the cross bar of bottom and montant end at least 600mm.
By using above-mentioned technical proposal, because a high-voltage tube and outlet pipe are set up in support both ends respectively, while freely
Space is up to 600mm, and convenient use person is directly entered below membrane stack and repaired, it is not necessary to dismantles pipeline and carrys out Free up Memory, takes
Obtained the beneficial effect for improving simple operation.
In summary, the utility model reduces number of tubes, achieves the beneficial effect for reducing cost.Reduce weldering
Seam, enhances system security;Shorten the process-cycle;Convenient use person operates maintenance.
Brief description of the drawings
Fig. 1 is to be used to show integrally-built front view in the present embodiment;
Fig. 2 is to be used to show water inlet system and the right view of membrane stack annexation in the present embodiment;
Fig. 3 is to be used to show outlet pipe and the left view of membrane stack annexation in the present embodiment;
Fig. 4 is to be used to show intersegmental pipe and the top view of membrane stack annexation in the present embodiment.
In figure, 1, support;2nd, membrane stack;3rd, water inlet system;4th, concentrated water system;5th, outlet pipe;11st, cross bar;12nd, montant;21、
Filter putamina;22nd, woods is copied;31st, the first high-voltage tube;32nd, blind plate;51st, water outlet looped pipeline;52nd, water outlet main pipe;6th, intersegmental pipe.
Embodiment
The utility model is described in further detail below in conjunction with accompanying drawing.
This specific embodiment is only that it is not to limitation of the present utility model, ability to explanation of the present utility model
Field technique personnel can make the modification of no creative contribution to the present embodiment as needed after this specification is read, but
As long as all protected in right of the present utility model by Patent Law.
Embodiment:As shown in figure 1, a kind of reverse osmosis unit, including support 1, it is fixedly installed on support 1 for filter water
Membrane stack 2, the one end of support 1 be provided with supply water into membrane stack 2 water inlet system 3, support 1 be fixedly installed for concentrated water outflow it is dense
Water system 4, the other end of support 1 are provided with the outlet pipe 5 for the water outflow after filtering.
As shown in Fig. 2 water inlet system 3 includes being arranged on the one end of membrane stack 2 and connects the first high-voltage tube 31 of membrane stack 2, membrane stack 2
Including several evenly distributed and for placing the filtering putamina 21 of filter membrane, the filtering putamina 21 in same a line is concatenated and connected
First high-voltage tube 31.Adjacent head putamina 21 is connected by copying woods 22, filtering the high-voltage tube 31 of putamina 21 and first again by
Copy woods 22 connects.The blind plate 32 for separating the first high-voltage tube 31 is provided with first high-voltage tube 31, above blind plate 32
The first high-voltage tube 31 for the concentrated water outflow in membrane stack 2, the first high-voltage tube 31 positioned at the lower section of blind plate 32 enters for pending water
Enter membrane stack 2, the first high-voltage tube 31 is made of stainless steel.Separate the first high-voltage tube 31 by blind plate 32, make the first high-voltage tube 31
The interior space for forming two relative closures, the space that blind plate 32 is formed with the first high-voltage tube of lower section 31 enter film for pending water
Heap 2, the space of top are flowed out for the concentrated water that membrane stack 2 filters out.
As shown in Fig. 2 the first high-voltage tube 31 is located between filtering putamina 21, the filtering putamina 21 of the both sides of the first high-voltage tube 31
It is symmetrically placed.Water flows in the filtering putamina 21 to both sides simultaneously from the first high-voltage tube 31, improves the efficiency for transmitting water, simultaneously
Also Partial filtration film is avoided not use completely.
As shown in figure 3, outlet pipe 5 includes the water outlet main pipe 52 positioned at filtering putamina 21 end, the both sides of water outlet main pipe 52 point
The water outlet looped pipeline 51 for being respectively communicated with every row filtering putamina 21 is not provided with.Water outlet looped pipeline 51 is with water outlet main pipe 52 by copying woods 22
Concatenation, filter putamina 21 and water outlet looped pipeline 51 and connect again by copy woods 22.Water outlet main pipe 52 is vertically positioned at evenly distributed
Filter among putamina 21, the filtering putamina 21 of the both sides of water outlet main pipe 52 is symmetrically placed.
As shown in figure 3, support 1 includes including being located at 11 liang of cross bar with the cross bar 11 for supporting filtering putamina 21, support 1
Side with and for fixed transverse rod 11 montant 12, the distance between the cross bar 11 of bottom and the end of montant 12 at least 600mm,
Convenient use person is directly entered the lower section of membrane stack 2 and repaired, it is not necessary to dismantles pipeline and carrys out Free up Memory.
As shown in figure 4, support 1, which is provided with to supply water, flows into the intersegmental pipe 6 of filtering putamina 21, concatenated per a line filter membrane shell 21
And intersegmental pipe 6 is connected, filtering putamina 21 is connected by copying woods 22 with intersegmental pipe 6, and intersegmental pipe 6 is equally made of stainless steel.
Use process:Water to be filtered is entered in the first high-voltage tube 31 by water inlet system 3, and water enters from the first high-voltage tube 31
Enter in adjacent filtering putamina 21, pending water enters after filtering putamina 21 and can entered simultaneously in adjacent filtering putamina 21 simultaneously
Transmit successively.Water enters membrane stack 2, and after the filtering for the filter membrane being sequentially communicated in membrane stack 2, the concentrated water full of impurity is flowed into
In first high-voltage tube 31 of the top of blind plate 32, concentrated water enters concentrated water system 4 from the first high-voltage tube 31 and discharged.By the mistake of membrane stack 2
The water of filter enters water outlet looped pipeline 51, then imports water outlet main pipe 52, improves the efficiency of transmission water, while also avoids side filter membrane
Shell 21 is excessive, and the water in the filtering putamina 21 of end cannot be introduced into water outlet looped pipeline 51.
Intersegmental pipe 6 is connected again after connecting adjacent filtering putamina 21 by copy woods 22, effectively reduces intersegmental pipe 6
Weld seam quantity, further reduce the number of tubes of reverse osmosis unit.
It is mutually coordinated between each system based on support 1, it is rational in infrastructure simple, connected by copy woods 22
Filter membrane shell 21 and other systems, convenient dismounting, avoid dismantling difficulty during maintenance.It can be added simultaneously according to various size requirement
Copy woods 22 corresponding to work.
Claims (8)
1. a kind of reverse osmosis unit, including support (1), it is characterised in that:It is fixedly installed on the support (1) for filter water
Membrane stack (2), described support (1) one end is provided with the water inlet system (3) to supply water into membrane stack (2), and the support (1) fixation is set
The concentrated water system (4) for concentrated water outflow is equipped with, support (1) other end is provided with the outlet pipe for the water outflow after filtering
(5), the water inlet system (3) includes being arranged on membrane stack (2) one end and connects the first high-voltage tube (31) of membrane stack (2), the film
Heap (2) includes several evenly distributed and is used for the filtering putamina (21) for placing filter membrane, the filtering putamina in same a line
(21) concatenate and connect the first high-voltage tube (31).
2. reverse osmosis unit according to claim 1, it is characterised in that:By copying between the adjacent filtering putamina (21)
Belling (22) connects, and is connected between the filtering putamina (21) and the first high-voltage tube (31) by copying woods (22).
3. reverse osmosis unit according to claim 2, it is characterised in that:First high-voltage tube (31) upper end is provided with use
In the blind plate (32) for separating the first high-voltage tube (31), first high-voltage tube (31) above blind plate (32) supplies membrane stack (2)
Interior concentrated water outflow, first high-voltage tube (31) below blind plate (32) enters membrane stack (2) for pending water, described
Support (1), which is provided with to supply water, flows into the intersegmental pipe (6) of filtering putamina (21), and putamina (21) is filtered described in per a line and concatenates and connects
Intersegmental pipe (6), it is connected between the filtering putamina (21) and intersegmental pipe (6) by copying woods (22).
4. reverse osmosis unit according to claim 3, it is characterised in that:The filter membrane of first high-voltage tube (31) both sides
Shell (21) is symmetrically placed.
5. reverse osmosis unit according to claim 4, it is characterised in that:The outlet pipe (5) is included positioned at filtering putamina
(21) water outlet main pipe (52) of end, water outlet main pipe (52) both sides are respectively arranged with going out for connection often row filtering putamina (21)
Water looped pipeline (51).
6. reverse osmosis unit according to claim 5, it is characterised in that:The water outlet main pipe (52) is vertically positioned at uniform row
Among the filtering putamina (21) of row, the filtering putamina (21) of water outlet main pipe (52) both sides is symmetrically placed.
7. reverse osmosis unit according to claim 6, it is characterised in that:The filtering putamina (21) and water outlet looped pipeline (51)
Between be connected with copy woods (22).
8. reverse osmosis unit according to claim 7, it is characterised in that:The support (1) is included with being filtered for supporting
The cross bar (11) of putamina (21), the support (1) are included positioned at cross bar (11) both sides and and for the montant of fixed transverse rod (11)
(12), the distance between the cross bar (11) of bottom and montant (12) end are at least 600mm.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720469410.XU CN206799218U (en) | 2017-04-28 | 2017-04-28 | Reverse osmosis unit |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720469410.XU CN206799218U (en) | 2017-04-28 | 2017-04-28 | Reverse osmosis unit |
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CN206799218U true CN206799218U (en) | 2017-12-26 |
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CN201720469410.XU Active CN206799218U (en) | 2017-04-28 | 2017-04-28 | Reverse osmosis unit |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110015717A (en) * | 2019-04-09 | 2019-07-16 | 海纳祺科技(北京)有限公司 | A kind of reverse osmosis membrane group heap building method being suitble to Fast Installation on site |
-
2017
- 2017-04-28 CN CN201720469410.XU patent/CN206799218U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110015717A (en) * | 2019-04-09 | 2019-07-16 | 海纳祺科技(北京)有限公司 | A kind of reverse osmosis membrane group heap building method being suitble to Fast Installation on site |
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