CN204799110U - Reverse osmosis membrane technology - Google Patents

Abstract

The utility model relates to a reverse osmosis membrane technology, include the center tube, intake at a distance from net, reverse osmosis membrane and pure water water conservancy diversion cloth, it separates net, reverse osmosis membrane and pure water water conservancy diversion cloth and all has the multilayer to intake, and it is in to convolute on the center tube, wherein, pure water water conservancy diversion cloth with the inner chamber of center tube is linked together, form intake runner and product rivers way between the adjacent two -layer reverse osmosis membrane respectively, the runner of intaking says with the product rivers that the interval sets up, intake to separate to net and be located intake in the runner, pure water water conservancy diversion cloth is located produce in the rivers way, intake separate the net and/or pure water water conservancy diversion cloth is many strong points structure. In the carrier roller device, intake separate the net and/or pure water water conservancy diversion cloth is many strong points structure, can effectively increase reverse osmosis membrane technology's pressure -bearing contact point, improves reverse osmosis membrane technology's compressive capacity, has increased the perhaps flow area of pure water of intaking simultaneously, can effectively improve the product water flux of film element.

Description

Reverse-osmosis membrane element

Technical field

The utility model relates to filtration art, is specifically related to a kind of reverse-osmosis membrane element.

Background technology

Reverse-osmosis membrane element is the core component in purified water machine, and the water effect processed of water purification machine and the water efficiency processed of reverse-osmosis membrane element are directly closed.The structure of reverse-osmosis membrane element is in the market all between two panels reverse osmosis membrane, place one deck pure water flow-guiding cloth, then twists on central tube, and the inside being arranged on filter uses.The reverse-osmosis membrane element strong point structure of this structure is few, and element anti-pressure ability is poor, and water inlet, pure water runner is few, and aquifer yield is little, and reverse osmosis membrane easily pollutes, and reverse-osmosis membrane element water efficiency is low, and the water purification machine rate of recovery is low.

Utility model content

In view of this, it is simple that the purpose of this utility model is to provide a kind of structure, the reverse-osmosis membrane element that anti-pressure ability is strong.

The reverse-osmosis membrane element that the utility model provides, comprise central tube, water inlet filter, reverse osmosis membrane and pure water flow-guiding cloth, described water inlet filter, reverse osmosis membrane and pure water flow-guiding cloth all have multilayer, are wound on described central tube, wherein, the intracavity inter-connection of described pure water flow-guiding cloth and described central tube; Form water inlet flow channel between described adjacent two-layer reverse osmosis membrane respectively and produce water flow passage, described water inlet flow channel and product water flow passage interval are arranged, described water inlet filter is positioned at described water inlet flow channel, described pure water flow-guiding cloth is positioned at described product water flow passage, and described water inlet filter and/or described pure water flow-guiding cloth are branched support point structure.

Preferably, described pure water flow-guiding cloth is superposed by the first pure water flow-guiding cloth and the second pure water flow-guiding cloth and is formed, and described first pure water flow-guiding cloth and the second pure water flow-guiding cloth form described branched support point structure.

Preferably, the size of described first pure water flow-guiding cloth and the second pure water flow-guiding cloth, material are identical or different.

Preferably, be placed with filter of intaking described in one deck in a water inlet flow channel, one is produced in water flow passage and is placed with pure water flow-guiding cloth described in one deck.

Preferably, described pure water flow-guiding cloth and/or water inlet filter are bent into waveform, thus form described branched support point structure.

Preferably, described corrugated interlamellar spacing is 15-24 millimeter.

Preferably, described pure water flow-guiding cloth and/or water inlet filter are bent into fan-shaped, thus form described branched support point structure.

Preferably, described fan-shaped bending angle is 60-120 degree.

Preferably, the water inlet of described multilayer filter, reverse osmosis membrane and pure water flow-guiding cloth are wound on described central tube by one group or many group filtrations and are formed, and often organize described filtration and stack rear formation successively by intake filter, one deck reverse osmosis membrane, one deck pure water flow-guiding cloth and one deck reverse osmosis membrane of one deck.

Preferably, the side that described water inlet filter is crossing with described central tube is provided with raw water inlet and dense water delivery port, one of described raw water inlet and dense water delivery port are positioned at the position adjacent with described central tube, and another is positioned at the marginal position away from described central tube.

In the utility model, described water inlet filter and/or described pure water flow-guiding cloth are branched support point structure, such as take to arrange two-layer pure water flow-guiding cloth to be superimposed, or water inlet filter or pure water flow-guiding cloth are bent into waveform or fan-shaped version, effectively can increase the pressure-bearing contact point of reverse-osmosis membrane element, improve the anti-pressure ability of reverse-osmosis membrane element, add the flow area into water or pure water simultaneously, effectively can improve the permeant flux of membrane component; Further, the contamination resistance of membrane component can also be improved, improve the membrane component life-span.

Accompanying drawing explanation

By referring to the description of accompanying drawing to the utility model embodiment, above-mentioned and other objects of the present utility model, feature and advantage will be more clear, in the accompanying drawings:

Fig. 1 is the reverse-osmosis membrane element first example structure schematic diagram in the utility model;

Fig. 2 is the reverse-osmosis membrane element runner schematic diagram in the utility model;

Fig. 3 is the reverse-osmosis membrane element second example structure schematic diagram in the utility model;

Fig. 4 is reverse-osmosis membrane element the 3rd example structure schematic diagram in the utility model;

Fig. 5 is the interlamellar spacing key diagram of each layer after being bent into waveform.

Detailed description of the invention

Hereinafter with reference to accompanying drawing, various embodiment of the present utility model is described in more detail.In various figures, identical element adopts same or similar Reference numeral to represent.For the sake of clarity, the various piece in accompanying drawing is not drawn in proportion.

Embodiment one

As shown in Figure 1, 2, reverse-osmosis membrane element 100 in the present embodiment comprises central tube 11, water inlet filter 12, first reverse osmosis membrane 13, first pure water flow-guiding cloth 14, second pure water flow-guiding cloth 15 and the second reverse osmosis membrane 16, described water inlet filter 12, first reverse osmosis membrane 13, first pure water flow-guiding cloth 14, second pure water flow-guiding cloth 15 and the second reverse osmosis membrane 16 stack successively, their side is fixed on the outer wall of described central tube 11, and is finally wound on described central tube 11.Described first pure water flow-guiding cloth 14 and the second pure water flow-guiding cloth 15 form branched support point structure.Formed between two surfaces that described first reverse osmosis membrane 13 is relative with the second reverse osmosis membrane 16 and produce water flow passage 18, between two other surface, form water inlet flow channel 17.In the application, described first reverse osmosis membrane 13 and the second reverse osmosis membrane 16 can be formed after folding by one deck reverse osmosis membrane, reverse osmosis membrane inner surface after folding forms described water inlet flow channel 17, described product water flow passage 18 is formed between adjacent external surfaces, described water inlet filter 12 is arranged in water inlet flow channel 17, first, second pure water flow-guiding cloth 14,15 is arranged in and produces water flow passage 18, and described product water flow passage 18 only has the product water delivery port towards central tube 11.The inner chamber of described central tube 11 is pure water output channel, the runner in described first pure water flow-guiding cloth 14 and the second pure water flow-guiding cloth 15 and the inner space of described central tube 11.Described water inlet filter 12 connects the intake tunnel of described reverse-osmosis membrane element, the to be filtered former water of reverse-osmosis membrane element is entered after first, second reverse osmosis membrane 13,16 filters from water inlet filter 12, form pure water, pure water enters in first, second pure water flow-guiding cloth 14,15, and then exports through the inner chamber of described central tube 11.Described first reverse osmosis membrane 13 and the second reverse osmosis membrane 16 also can be formed separately by two-layer reverse osmosis membrane.

In order to avoid former water to be filtered or the pure water after filtering are revealed, described water inlet filter 12, first reverse osmosis membrane 13, first pure water flow-guiding cloth 14, second pure water flow-guiding cloth 15 and the second reverse osmosis membrane 16 are except the side be connected with described central tube 11, remaining side fluid sealant seals, the side that water inlet filter 12 is crossing with described central tube 11 is provided with raw water inlet 121 and dense water delivery port 122, in order to lengthen the stroke of former water in reverse-osmosis membrane element, improve filter effect, the distance that arranges between described raw water inlet 121 and dense water delivery port 122 is pulled open as far as possible, this distance is the bigger the better, be preferably, one of described raw water inlet 121 and dense water delivery port 122 are positioned at the position adjacent with described central tube 11, another is positioned at the marginal position away from described central tube 11, as shown in Figure 2.The part entering the to be filtered former water of described water inlet filter 12 from raw water inlet 121 enters the first pure water flow-guiding cloth 14 and the second pure water flow-guiding cloth 15 after first, second reverse osmosis membrane 13,16 described filters, thus enter described central tube 11 and export, the dense water not entering first, second reverse osmosis membrane 13,16 described flows out reverse-osmosis membrane element through described delivery port 122 and discharges.In this embodiment, owing to being provided with two-layer pure water flow-guiding cloth 14, 15, pure water is through after the first reverse osmosis membrane 13, part pure water flows in described central tube 11 along the runner of described first flow-guiding cloth 14 in the horizontal direction, some pure water permeates in vertical direction, the pure water permeated in vertical direction is after described first pure water flow-guiding cloth 14, when contact the second flow-guiding cloth 15, pure water will flow in central tube 11 by some runner along described second flow-guiding cloth 15, like this, add pure water gate thickness, runner quantity increases, the transmitting effect of flow-guiding cloth horizontal direction can be improved, improve the permeant flux of membrane component.Further, the branched support point structure that two-layer pure water flow-guiding cloth is formed is relative to the structure of one deck flow-guiding cloth, and pressure-bearing contact point increases, and anti-pressure ability improves, and this structure is applicable to being applied on industry and desalinization membrane component very much.

The first pure water flow-guiding cloth 14 in the application and the second pure water flow-guiding cloth 15 can adopt same size, also can adopt two kinds of different sizes, two kinds of flow-guiding cloths of can be same material also can be different materials.

Embodiment two

Reverse-osmosis membrane element 200 in the present embodiment as shown in Figure 3, comprises central tube 21, water inlet filter 22, reverse osmosis membrane 23 and pure water flow-guiding cloth 24.Described water inlet filter 22, reverse osmosis membrane 23 and pure water flow-guiding cloth 24 all have multilayer, form water inlet flow channel 27 between adjacent two-layer reverse osmosis membrane 23 respectively and produce water flow passage 28, described water inlet flow channel 27 and product water flow passage 28 interval are arranged, namely except be positioned at inner side and outermost two-layer except, the both sides of a water inlet flow channel 27 all arrange the both sides of producing water flow passage 28, product water flow passage 28 and all arrange water inlet flow channel 27.Be placed with filter 22 of intaking described in one deck in a water inlet flow channel 27, one is produced in water flow passage and is placed with one deck pure water flow-guiding cloth 24.Wherein said pure water flow-guiding cloth 24 is bent into waveform or fan-shaped (shown in figure is sector structure), forms branched support point structure.Preferably, the interlamellar spacing (L see shown in Fig. 5) between the layer that described waveform is adjacent is 15-24 millimeter, and described fan-shaped bending angle is 60 ~ 120 degree, and the thickness H of the described pure water flow-guiding cloth 24 after bending is 0.1 ~ 0.5 millimeter.Such wrap direction effectively can improve the permeant flux of described reverse-osmosis membrane element.Described reverse osmosis membrane 23, water inlet filter 22 twist on central tube 21 together with pure water flow-guiding cloth 24.In the present embodiment, because described pure water flow-guiding cloth 24 is fan-folded, add the filter area of pure water runner, pure water runner is long, and the permeant flux of membrane component improves, and pressure-bearing contact point also increases, and anti-pressure ability improves.

Embodiment three

Reverse-osmosis membrane element 300 in the present embodiment as shown in Figure 4, comprises central tube 31, water inlet filter 32, reverse osmosis membrane 33 and pure water flow-guiding cloth 34.Reverse-osmosis membrane element 300 structure in the present embodiment is substantially identical with reverse-osmosis membrane element 200 structure in embodiment two, difference is, in the present embodiment, described water inlet filter 32 is bent into waveform or fan-shaped, and the described water inlet filter 32 after bending forms branched support point structure.Preferably, the interlamellar spacing (L see shown in Fig. 5) between the layer that described waveform is adjacent is 15-24 millimeter, and described fan-shaped bending angle is 60-120 degree, and the thickness of the described pure water flow-guiding cloth 24 after bending is 0.3 ~ 0.5 millimeter.In the present embodiment, water inlet filter 32 is bent into waveform or fan-shaped, adds the filter area of water inlet flow channel, thus adds inflow, improve permeant flux, can also significantly improve the contamination resistance of membrane component simultaneously, and the membrane component life-span improves.

Further, water inlet filter and pure water flow-guiding cloth can be bent into waveform or fan-shaped simultaneously, be not limited to above combination.

Contrast on effect

Reverse-osmosis membrane element 100 in the embodiment of the present application one is applied on 50G reverse-osmosis membrane element, be arranged on conventional 5 grades of family expenses 50G water purification machines, connect running water, before adjustment film, pressure is 70psi, longtime running, the flux of test reverse-osmosis membrane element initial flux and product water 8000L, salt rejection rate, and membrane module pressure drop, and the computing system rate of recovery.Data are in table 1.

Reverse-osmosis membrane element 200 in the embodiment of the present application two is applied on 50G reverse-osmosis membrane element, be arranged on conventional 5 grades of family expenses 50G water purification machines, connect running water, pressure 70psi before adjustment film, longtime running, the flux of test reverse-osmosis membrane element initial flux and product water 8000L, salt rejection rate, and membrane module pressure drop, and the computing system rate of recovery.

Reverse-osmosis membrane element 300 in the embodiment of the present application three is applied on 50G reverse-osmosis membrane element, be arranged on conventional 5 grades of family expenses 50G water purification machines, connect running water, pressure 70psi before adjustment film, longtime running, the flux of test reverse-osmosis membrane element initial flux and product water 8000L, salt rejection rate, and membrane module pressure drop, and the computing system rate of recovery.Dissect the membrane component produced after water 8000L in addition, observe the adhesion condition of membrane component influent side pollutant, data are in table 1.

The membrane component used in comparison cases is conventional 50G reverse-osmosis membrane element on the market, comprises one deck common water inlet filter and the common pure water flow-guiding cloth of one deck.As shown in Table 1, the membrane component initial flux in comparison cases and salt rejection rate all meet the requirement of 50G reverse-osmosis membrane element, and when product water 8000L, permeant flux and salt rejection rate are satisfied require that, the rate of recovery is lower, and pressure drop is larger.The initial permeant flux of reverse-osmosis membrane element in the application's three embodiments and salt rejection rate, and the permeant flux produced after water 8000L and salt rejection rate are all better than the membrane component of comparison cases.And permeant flux after producing water 8000L and salt rejection rate meet the demands all far away.Comparatively comparison cases is high for the rate of recovery of system, and membrane module pressure drop is much little.It can be said that bright, the reverse-osmosis membrane element permeant flux that improve membrane component all to a certain degree in three embodiments in the application, improves salt rejection rate.After producing water 8000L, membrane component dissects visual observations, the membrane component influent side surface of comparison cases has a large amount of pollutant to adhere to, pressure drop is large, reverse-osmosis membrane element 300 influent side in embodiment three has little pollutant to adhere to, pressure drop is little, can find out that the reverse-osmosis membrane element 300 in the embodiment of the present application three effectively can improve the contamination resistance of membrane component.

Membrane component application data in table 1 comparison cases and the embodiment of the present application

In the application, by regulating in reverse-osmosis membrane element the congruent manner of intake filter, pure water flow-guiding cloth, increase the water inlet flow channel performance of membrane component or/and pure water runner performance, improve the permeant flux of reverse-osmosis membrane element, be conducive to water purification machine and realize large discharge water, improve the rate of recovery of water purification machine.In addition, use two-layer pure water flow-guiding cloth or fan-shaped pure water flow-guiding cloth to make diaphragm have the more strong point, improve the anti-pressure ability of element.And this structural design does not change any performance of existing parts, just rolls mode difference, easily realizes.

It should be noted that in this application, the such as relational terms of first and second grades and so on is only used for an entity and another entity to make a distinction, and not necessarily requires or imply the relation or order that there is any this reality between these entities.

Last it is noted that obviously, above-described embodiment is only for the utility model example is clearly described, and the restriction not to embodiment.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here exhaustive without the need to also giving all embodiments.And thus the apparent change of amplifying out or variation be still among protection domain of the present utility model.

Claims (10)

1. a reverse-osmosis membrane element (100, 200, 300), comprise central tube (11, 21, 31), water inlet filter (12, 22, 32), reverse osmosis membrane (13, 23, 33) and pure water flow-guiding cloth (14, 24, 34), it is characterized in that, described water inlet filter (12, 22, 32), reverse osmosis membrane (13, 23, 33) and pure water flow-guiding cloth (14, 24, 34) all multilayer is had, be wound on described central tube (11, 21, 31) on, wherein, described pure water flow-guiding cloth (14, 24, 34) with described central tube (11, 21, 31) intracavity inter-connection, described adjacent two-layer reverse osmosis membrane (13, 23, 33) water inlet flow channel (17 is formed respectively between, 27, 37) and produce water flow passage (18, 28, 38), described water inlet flow channel (17, 27, 37) and produce water flow passage (18, 28, 38) interval is arranged, described water inlet filter (12, 22, 32) described water inlet flow channel (17 is positioned at, 27, 37) in, described pure water flow-guiding cloth (14, 24, 34) described product water flow passage (18 is positioned at, 28, 38) in, described water inlet filter (12, 22, 32) and/or described pure water flow-guiding cloth (14, 24, 34) be branched support point structure.

2. reverse-osmosis membrane element according to claim 1, it is characterized in that, described pure water flow-guiding cloth (14,15) formed by the first pure water flow-guiding cloth (14) and the superposition of the second pure water flow-guiding cloth (15), described first pure water flow-guiding cloth (14) and the second pure water flow-guiding cloth (15) form described branched support point structure.

3. reverse-osmosis membrane element according to claim 2, is characterized in that, size, the material of described first pure water flow-guiding cloth (14) and the second pure water flow-guiding cloth (15) are identical or different.

4. reverse-osmosis membrane element according to claim 1, it is characterized in that, a water inlet flow channel (27,37) filter (22 of intaking described in one deck is placed with in, 32), pure water flow-guiding cloth described in one deck (24,34) is placed with in product water flow passage (28,38).

5. reverse-osmosis membrane element according to claim 4, is characterized in that, described pure water flow-guiding cloth (24) and/or water inlet filter (32) are bent into waveform, thus form described branched support point structure.

6. reverse-osmosis membrane element according to claim 5, is characterized in that, described corrugated interlamellar spacing is 15-24 millimeter.

7. reverse-osmosis membrane element according to claim 4, is characterized in that, described pure water flow-guiding cloth (24) and/or water inlet filter (32) are bent into fan-shaped, thus form described branched support point structure.

8. reverse-osmosis membrane element according to claim 7, is characterized in that, described fan-shaped bending angle is 60-120 degree.

9. reverse-osmosis membrane element according to claim 1, it is characterized in that, described multilayer water inlet filter (12,22,32), reverse osmosis membrane (13,23,33) and pure water flow-guiding cloth (14,24,34) be wound on described central tube by one group or many group filtrations and formed, often organize described filtration and stack rear formation successively by intake filter, one deck reverse osmosis membrane, one deck pure water flow-guiding cloth and one deck reverse osmosis membrane of one deck.

10. reverse-osmosis membrane element according to claim 9, it is characterized in that, at described water inlet filter (12,22,32) with described central tube (11,21,31) side intersected is provided with raw water inlet (121) and dense water delivery port (122), one of described raw water inlet (121) and dense water delivery port (122) are positioned at and described central tube (11,21,31) adjacent position, another is positioned at away from described central tube (11,21,31) marginal position.