SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a dedicated filtration membrane equipment of protein waste water treatment to solve the defect that proposes in the above-mentioned background art.
In order to achieve the above object, the utility model provides a following technical scheme:
the utility model provides a dedicated filtration membrane equipment of protein waste water treatment, including surpass strain a section of thick bamboo, with the flocculating agent configuration case that communicates each other between the ultrafiltration section of thick bamboo, set up at the reverse osmosis section of thick bamboo of an ultrafiltration section of thick bamboo one side and with the inside antisludging agent configuration case that is linked together of a reverse osmosis section of thick bamboo, surpass and be provided with super microporous membrane on straining the inner wall of section of thick bamboo, surpass and be provided with the inlet tube between the section of thick bamboo, surpass and strain one side of keeping away from the inlet tube of a section of thick bamboo and be provided with the outlet pipe, the end of outlet pipe is provided with the booster pump, the outlet end of booster pump be provided with the inside fixed pipe that is linked together.
Preferably, two first clamping grooves which are symmetrical to each other are formed in the inner wall of the ultra-filtration cartridge, and the ultra-microporous membrane is in insertion fit with the first clamping grooves, so that the ultra-microporous membrane is convenient to mount, dismount and replace.
Preferably, the ultrafiltration cylinder is communicated with the flocculant preparation box through a drug adding pipe, and the scale inhibitor preparation box is communicated with the reverse osmosis cylinder through a drug supplementing pipe, so that corresponding liquid medicine can conveniently enter the corresponding ultrafiltration cylinder or reverse osmosis cylinder.
Preferably, still there is first top cap on the top surface of surpassing a section of thick bamboo through a plurality of fastening bolt fixed mounting, add the pencil and pass first top cap, still there is the second top cap on the top surface of a reverse osmosis section of thick bamboo through a plurality of fastening bolt fixed mounting, mend the pencil and pass the second top cap realizes blockking the top of a section of thick bamboo and a reverse osmosis section of thick bamboo of ultrafiltrating, guarantees that impurity can not enter into surpassing a section of thick bamboo and a reverse osmosis section of thick bamboo.
Preferably, it has the baffle still to inseparable the welding on the inner wall of section of thick bamboo to surpass, the baffle is located one side that super microporous membrane is close to the outlet pipe, be provided with a plurality of matrix arrangements and the limbers that are linked together with the external world in the baffle, surpass strain a section of thick bamboo with still be provided with the backwash water pump between the reverse osmosis section of thick bamboo, the end of intaking of backwash water pump be provided with the inside recoil pipeline that is linked together of reverse osmosis section of thick bamboo, the play water end of backwash water pump be provided with super strain the inside drain pipe that is linked together of section of thick bamboo, guarantee more smoothly when the impurity of clearance.
Preferably, the super filter cartridge is further provided with a impurity discharge pipe, so that impurities in the super filter cartridge can be conveniently discharged from the impurity discharge pipe.
Preferably, be provided with the second draw-in groove of two mutual symmetries on the inner wall of a reverse osmosis section of thick bamboo, reverse osmosis membrane with the joint cooperation between the second draw-in groove, the convenience is installed and is dismantled the change reverse osmosis membrane.
Preferably, the impurity discharging pipe, the medicine adding pipe, the medicine supplementing pipe, the backflushing pipeline and the water discharging pipe are all provided with electromagnetic valves, so that the pipelines are conveniently controlled to be communicated or not communicated with the outside by the electromagnetic valves.
Preferably, arrange the miscellaneous pipe and be located the ultramicropore membrane is close to one side of inlet tube, the outlet pipe with the drain pipe all is located the ultramicropore membrane is kept away from one side of inlet tube, fixed pipe with it all is located to supply the pencil one side that the booster pump is close to the reverse osmosis membrane, the recoil pipeline with the wet return all is located the one side that the booster pump was kept away from to the reverse osmosis membrane guarantees that waste water continues outwards to discharge again after ultramicropore membrane and reverse osmosis membrane are handled.
Compared with the prior art, the beneficial effects of the utility model are that:
1. the utility model discloses a section of thick bamboo is strained in super of setting to be provided with super microporous membrane in a super filter section of thick bamboo, in addition through the reverse osmosis section of thick bamboo that sets up, and be provided with reverse osmosis membrane in a reverse osmosis section of thick bamboo, guarantee when using, can reach the effect of carrying out dual treatment to sewage, facilitate the use, improve the treatment effect to sewage, facilitate the use, solved conventional filtration membrane equipment when using, it does not have dual filtration's function, and then can't reach better filter effect, the problem of inconvenience is brought for the user.
2. The utility model discloses a backwash water pump, recoil pipeline and the drain pipe that set up guarantee when using, can clear up the impurity that accumulates on surpassing the micropore membrane to discharge in the miscellaneous pipe of row, facilitate the use.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.
Furthermore, the terms "first", "second" and "first" 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, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.
Referring to fig. 1-3, the present invention provides:
a special filtering membrane device for protein wastewater treatment comprises an ultrafiltration cylinder 1, a flocculant preparation box 17 communicated with the ultrafiltration cylinder 1, a reverse osmosis cylinder 2 arranged on one side of the ultrafiltration cylinder 1 and a scale inhibitor preparation box 23 communicated with the inside of the reverse osmosis cylinder 2, wherein two first clamping grooves 10 which are symmetrical to each other are arranged on the inner wall of the ultrafiltration cylinder 1, the first clamping grooves 10 are arranged along the height direction of the ultrafiltration cylinder 1, an ultramicropore membrane 12 is arranged on the inner wall of the ultrafiltration cylinder 1, and the ultramicropore membrane 12 is in inserted connection with the first clamping grooves 10, so that the ultramicropore membrane 12 can be conveniently mounted, dismounted and replaced; the dimension of the microporous membrane 12 is matched with the dimension of the first clamping groove 10, so that the microporous membrane 12 can be stably positioned in the first clamping groove 10;
specifically, a water inlet pump 13 is arranged on one side of the ultrafiltration cartridge 1, a water inlet pipe 131 is arranged between the water inlet pump 13 and the ultrafiltration cartridge 1, one end of the water inlet pipe 131 is connected to a water outlet end pipe body of the water inlet pump 13 in a flange mode, the other end of the water inlet pipe 131 is tightly welded to the ultrafiltration cartridge 1, a water outlet pipe 14 is tightly welded to a side barrel body, away from the water inlet pump 13, of the ultrafiltration cartridge 1, a booster pump 141 is arranged at the end of the water outlet pipe 14, the water outlet pipe 14 is connected to a water inlet end pipe body of the booster pump 141 in a flange mode, a water outlet end of the booster pump 141 is connected to a fixed pipe 142 communicated with the inside of the reverse osmosis cartridge 2 in a flange mode, the fixed pipe 142 is tightly welded to the reverse osmosis cartridge 2, a reverse osmosis membrane 21 is arranged on the inner wall of the reverse osmosis cartridge 2, two second clamping grooves 20 which; the reverse osmosis cylinder 2 is also provided with a water return pipe 25, so that treated water can be discharged from the water return pipe 25 when the reverse osmosis cylinder is used.
In the embodiment, the ultrafiltration cylinder 1 is communicated with the flocculant preparation box 17 through the chemical adding pipe 18, and the scale inhibitor preparation box 23 is communicated with the reverse osmosis cylinder 2 through the chemical supplementing pipe 24, so that the corresponding liquid medicine can conveniently enter the corresponding ultrafiltration cylinder 1 or reverse osmosis cylinder 2; a first top cover 16 is fixedly arranged on the top surface of the ultrafiltration cartridge 1 through a plurality of fastening bolts, the chemical adding pipe 18 penetrates through the first top cover 16, a through hole through which the chemical adding pipe 18 penetrates is formed in the first top cover 16, the chemical adding pipe 18 penetrates through the through hole in the first top cover 16 and is tightly welded with the wall of the through hole, and the other end of the chemical adding pipe 18 is tightly welded on the flocculating agent configuration box 17, so that the structure of the ultrafiltration cartridge is firmer; a second top cover 22 is fixedly arranged on the top surface of the reverse osmosis cylinder 2 through a plurality of fastening bolts, the medicine supplementing pipe 24 penetrates through the second top cover 22, a through hole for the medicine supplementing pipe 24 to penetrate through is formed in the second top cover 22, the medicine supplementing pipe 24 penetrates through the through hole in the second top cover 22 and is tightly welded with the hole wall of the through hole, and the other tail end of the medicine supplementing pipe 24 is tightly welded on the scale inhibitor configuration box 23, so that the structure of the reverse osmosis cylinder is firmer; and the top of the ultrafiltration cylinder 1 and the reverse osmosis cylinder 2 is blocked by the arranged first top cover 16 and the second top cover 22, so that impurities cannot enter the ultrafiltration cylinder 1 and the reverse osmosis cylinder 2.
Specifically, a partition plate 11 is further tightly welded on the inner wall of the ultrafiltration cartridge 1, the partition plate 11 is located on one side, close to the water outlet pipe 14, of the ultramicropore membrane 12, a plurality of water through holes 111 which are arranged in a matrix form and communicated with the outside are formed in the partition plate 11, a backwashing water pump 3 is further arranged between the ultrafiltration cartridge 1 and the reverse osmosis cartridge 2, a backwashing pipeline 30 communicated with the inside of the reverse osmosis cartridge 2 is flanged to a water inlet end of the backwashing water pump 3, the backwashing pipeline 30 is tightly welded on the reverse osmosis cartridge 2, a water outlet end of the backwashing water pump 3 is flanged to a water outlet pipe 31 communicated with the inside of the ultrafiltration cartridge 1, the water outlet pipe 31 is tightly welded on the ultrafiltration cartridge 1, it is ensured that the backwashing water pump 3 flushes water into the water outlet pipe 31 after working, the water impacts the ultramicropore membrane 12 along the water through holes 111, impurities accumulated on the ultramicropore membrane.
Furthermore, the ultrafiltration cylinder 1 is also integrally formed with a trash discharge pipe 15, so that the impurities in the ultrafiltration cylinder 1 can be conveniently discharged from the trash discharge pipe 15.
In addition, the electromagnetic valves 4 are arranged on the impurity discharging pipe 15, the medicine adding pipe 18, the medicine replenishing pipe 24, the backflushing pipeline 30 and the water discharging pipe 31, so that the electromagnetic valves 4 are conveniently used for controlling the communication or non-communication between the pipelines and the outside.
It is worth to be noted that the impurity discharging pipe 15 is located on one side of the ultramicropore membrane 12 close to the water inlet pipe 131, the water outlet pipe 14 and the water outlet pipe 31 are both located on one side of the ultramicropore membrane 12 far from the water inlet pipe 131, the fixing pipe 142 and the medicine replenishing pipe 24 are both located on one side of the reverse osmosis membrane 21 close to the booster pump 141, and the backflushing pipe 30 and the water return pipe 25 are both located on one side of the reverse osmosis membrane 21 far from the booster pump 141, so as to ensure that wastewater firstly enters the ultrafiltration cylinder 1 along the water inlet pipe 131, then enters the water outlet pipe 14 and the fixing pipe 142 through the ultramicropore membrane 12, and further enters the reverse osmosis cylinder 2, and then is discharged from the water return pipe 25.
It should be noted that the water inlet pump 13, the backwash water pump 3 and the booster pump 141 in this embodiment are conventional technologies, and will not be described herein again.
When the special filtering membrane equipment for protein wastewater treatment of the utility model is used, firstly, the electromagnetic valves 4 on the impurity discharging pipe 15, the backflushing pipeline 30 and the drain pipe 31 are closed, corresponding liquid medicines are configured in the flocculating agent configuration box 17 and the scale inhibitor configuration box 23, the electromagnetic valves 4 on the medicine adding pipe 18 and the medicine supplementing pipe 24 are opened simultaneously, so that the liquid medicines can enter the corresponding ultrafiltration cylinder 1 and the reverse osmosis cylinder 2, then, the water inlet end pipe body of the water inlet pump 13 is connected with the external sewage inlet pipeline, then, the water inlet pump 13 and the booster pump 141 are both connected with the external power supply and work, the water inlet pump 13 and the booster pump 141 work, the external sewage is conveyed into the ultrafiltration cylinder 1, enters the water outlet pipe 14 and the fixed pipe 142 after being treated by the porous membrane 12 and further enters the reverse osmosis cylinder 2, and is discharged from the water return pipe 25 after being treated by the reverse osmosis membrane 21, the effect of treating the sewage is achieved;
in addition, when impurities accumulated on the ultramicropore membrane 12 are treated, the electromagnetic valve 4 on the impurity discharge pipe 15, the backwashing pipeline 30 and the drain pipe 31 is opened, the backwashing water pump 3 is connected with an external power supply and works, the backwashing water pump 3 works to convey water treated in the reverse osmosis cylinder 2 into the drain pipe 31, and the water further impacts the ultramicropore membrane 12 along the water through hole 111, so that the impurities accumulated on the ultramicropore membrane 12 can be cleaned, the blockage of the ultramicropore membrane 12 is reduced, and the problem that when a conventional filtering membrane device is used, the conventional filtering membrane device does not have a double-filtering function, a better filtering effect cannot be achieved, and inconvenience is brought to a user is solved.
The foregoing shows and describes the general principles, essential features, and advantages of the invention. It should be understood by those skilled in the art that the present invention is not limited by the above embodiments, and the description in the above embodiments and the description is only preferred examples of the present invention, and is not intended to limit the present invention, and that the present invention can have various changes and modifications without departing from the spirit and scope of the present invention, and these changes and modifications all fall into the scope of the claimed invention. The scope of the invention is defined by the appended claims and equivalents thereof.