CN212198728U - Anti-corrosion water treatment device - Google Patents
Anti-corrosion water treatment device Download PDFInfo
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- CN212198728U CN212198728U CN202022695568.3U CN202022695568U CN212198728U CN 212198728 U CN212198728 U CN 212198728U CN 202022695568 U CN202022695568 U CN 202022695568U CN 212198728 U CN212198728 U CN 212198728U
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Abstract
The utility model provides an antiseptic water processor, which comprises a processor shell and two reducing cylinders, wherein a first cyclone mechanism is arranged in one reducing cylinder, a first treatment cavity and a second treatment cavity are respectively arranged at the two ends of the inner part of the processor shell, a plurality of first magnesium rods and second magnesium rods are respectively arranged in the first treatment cavity and the second treatment cavity through an installing mechanism, an opening provided with a second cyclone mechanism is arranged between the first treatment cavity and the second treatment cavity, two drain outlets respectively communicated with the first treatment cavity and the second treatment cavity are arranged on the side wall of the processor shell, a drain pipe provided with a drain valve is fixed on each drain outlet, and two blind plate sight glasses are also arranged on the side wall of the processor shell, the utility model can realize oxygen consumption corrosion to circulating water, and clarify water quality while inhibiting interception of corrosive ions, effectively prevents the corrosion of the circulating water to the equipment, and has the characteristics of rapidness, high efficiency and prolonged service life of the circulating system.
Description
Technical Field
The utility model relates to the technical field of industrial water treatment facilities, especially, relate to an anticorrosive water treatment ware.
Background
In the process of recycling and supplementing common industrial water, the current situations of hard scale formation, corrosion under the scale and microorganism slime blockage generally exist, and the scale causes the flow rate of circulating water to be slow, so that corrosion and the propagation of microorganisms and bacteria and algae are easy to occur, and therefore, the method for inhibiting corrosive ions and dissolved oxygen is a necessary method.
The existing industrial water treatment methods mainly comprise the following steps: the first is to use a water softening system, but the water softening system consumes a large amount of industrial salt and the cost of regular water drainage, water replenishing and labor, and chloride ions are separated out in the using process of the water softening system, so that the equipment is easily seriously corroded in the later period; the second is that various circulating water is treated by using a chemical agent, and if various chemical agents are used for treating the circulating water for a long time, the problems of additive reduction and incompatibility of various chemical agents are easy to occur, so that a plurality of corrosion phenomena are caused due to excessive corrosion ions, and the corrosion speed of various corrosion ions is increased when corrosion products meet proper temperature and a certain flow rate, so that a vicious circle which is difficult to solve is formed.
Therefore, there is a need for a corrosion-resistant water treatment apparatus that can solve the above problems.
SUMMERY OF THE UTILITY MODEL
The utility model provides an anticorrosive water treatment ware can realize the oxygen consumption corruption to the circulating water, clarifies quality of water when restraining interception corrosive ion, has effectively blockked the circulating water to the corruption of equipment, has characteristics high efficiency, extension circulation system life.
The technical scheme of the utility model is realized like this:
the anti-corrosion water processor comprises a processor shell, wherein two ends of the processor shell are respectively and detachably provided with a reducing cylinder, a first rotational flow mechanism is arranged in the reducing cylinder positioned at the inlet end of the processor shell, a first treatment cavity and a second treatment cavity are respectively arranged at two ends in the processor shell, a plurality of first magnesium rods and a plurality of second magnesium rods are respectively arranged in the first treatment cavity and the second treatment cavity through mounting mechanisms, the first treatment chamber and the second treatment chamber pass through an opening arranged coaxially with the processor housing, a second rotational flow mechanism is arranged in the opening, two sewage outlets which are respectively communicated with the first treatment cavity and the second treatment cavity are arranged on the side wall of the processor shell, a sewage pipe provided with a sewage valve is fixed on each sewage outlet, the side wall of the processor shell is also provided with two blind plate sight glasses which are arranged opposite to the sewage draining exit.
As an optimized technical scheme, the first rotational flow mechanism comprises a plurality of first rotational flow sheets with the same rotational flow direction, and all the first rotational flow sheets are uniformly fixed on the inner wall of the corresponding diameter-variable cylinder in an annular shape.
As a preferred technical scheme, the second cyclone mechanism comprises a plurality of second cyclone sheets with opposite cyclone directions to the first cyclone sheets, and all the second cyclone sheets are uniformly fixed on the inner wall of the opening in an annular shape.
As an optimal technical scheme, each installation mechanism all includes the fixed cover of the slip end and the fixed cover of stiff end that relative setting, each the fixed cover of slip end and the fixed cover of stiff end all are fixed in and correspond in first treatment chamber and the second treatment chamber, each the both ends of first magnesium stick and second magnesium stick are equallyd divide and are fixed with a slip end insulating cover and a stiff end insulating cover respectively, each the slip end insulating cover all inserts and corresponds in the slip end fixed cover, each all be fixed with one in the slip end fixed cover top lean on in the top spring of the insulating cover tip of slip end, each the insulating cover of stiff end all inserts and corresponds in the fixed end fixed cover.
As a preferred technical solution, each of the first magnesium rod and the second magnesium rod is axially parallel to the processor housing.
As a preferred technical scheme, two ends of the processor shell are detachably fixed together with the corresponding variable-diameter cylinder through flanges, and a sealing gasket is arranged between every two fixed flanges.
As a preferable technical scheme, each of the first magnesium rod and the second magnesium rod is a magnesium rod made of a magnesium alloy material of an AZ-31B type.
As a preferred technical scheme, the processor shell is a shell made of stainless steel materials.
By adopting the technical scheme, the beneficial effects of the utility model are that:
because the anticorrosive water treatment ware includes treater casing, first treatment chamber and second treatment chamber, when using the utility model discloses the time, after the circulating water enters into equipment, through the guide and the whirl effect of the first spinning disk of the first whirl mechanism in the reducing cylinder, the circulating water flow carries out the fast rotation in first treatment chamber, contacts with the first magnesium stick in first treatment chamber, and the corrosive ion in the circulating water takes place oxidation reaction with more active first magnesium stick, carries out the first oxygen consumption corrosion to unnecessary dissolved oxygen in the circulating water; the circulating water flow after the first oxygen consumption corrosion continuously flows forwards through the opening, under the guiding and rotational flow effects of a second rotational flow sheet of a second rotational flow mechanism in the opening, the circulating water flow with corrosion products rotates in the opposite direction and enters a second treatment cavity, the circulating water reacts with a second magnesium rod in the second treatment cavity to carry out second oxygen consumption corrosion, after the circulating water is subjected to hydrogen evolution and oxygen absorption corrosion twice, various corrosion ions in the water are greatly reduced, and redundant dissolved oxygen is gradually consumed.
The utility model discloses in the in-process of using, along with the higher velocity of flow and pressure that the circulating water whirl brought, begin to have the corrosion pit on first magnesium stick and the second magnesium stick, along with the going on constantly of oxidation reaction, the corrosion pit on first magnesium stick and the second magnesium stick slowly begins to enrich various oxides and corrosive ion, unnecessary dissolved oxygen in the circulating water also constantly reduces, the utility model discloses quick efficient has realized the oxygen consumption corruption to the circulating water to inhibit the corrosive ion who intercepts in the circulating water, has clarified the quality of water of circulating water, has effectively blocked the corruption of corrosive ion in the circulating water to equipment, thereby has prolonged the life of circulating system; and the corrosion product can enter the strong magnetic equipment along with the circulating water flow and be broken up and decomposed, can not be adhered with other substances in the circulating water to form particle crystal suspension or precipitation when being heated, but can flow along with the circulation until being discharged, thereby effectively preventing the generation of scale.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.
Fig. 1 is a schematic structural view of the present invention;
3 FIG. 3 2 3 is 3 a 3 cross 3- 3 sectional 3 view 3 taken 3 along 3 line 3 A 3- 3 A 3 of 3 FIG. 31 3; 3
FIG. 3 is a cross-sectional view taken along line B-B of FIG. 1;
fig. 4 is a schematic structural diagram of the mounting mechanism of the present invention.
Wherein: 1. a processor housing; 2. a variable diameter cylinder; 3. a first processing chamber; 4. a second processing chamber; 5. a first magnesium rod; 6. a second magnesium rod; 7. an opening; 8. a sewage draining outlet; 9. a blowoff valve; 10. a blow-off pipe; 11. a blind plate sight glass; 12. a first spinning disk; 13. a second spinning disk; 14. a sliding end fixing sleeve; 15. a fixed end is fixedly sleeved; 16. a sliding end insulating sleeve; 17. the fixed end is provided with an insulating sleeve; 18. a spring is supported; 19. a flange; 20. and a gasket.
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 efforts belong to the protection scope of the present invention.
As shown in figure 1, the anticorrosion water processor comprises a processor shell 1, wherein two ends of the processor shell 1 are respectively detachably provided with a reducing cylinder 2, a first cyclone mechanism is arranged in the reducing cylinder 2 positioned at the inlet end of the processor shell 1, two ends in the processor shell 1 are respectively provided with a first processing cavity 3 and a second processing cavity 4, a plurality of first magnesium rods 5 and second magnesium rods 6 are respectively arranged in the first processing cavity 3 and the second processing cavity 4 through mounting mechanisms, the first processing cavity 3 and the second processing cavity 4 pass through an opening 7 which is coaxially arranged with the processor shell 1, a second cyclone mechanism is arranged in the opening 7, two sewage outlets 8 which are respectively communicated in the first processing cavity 3 and the second processing cavity 4 are arranged on the side wall of the processor shell 1, a sewage discharge pipe 10 provided with a sewage discharge valve 9 is fixed on each sewage outlet 8, the side wall of the processor shell 1 is also provided with two blind plate sight glasses 11 which are arranged opposite to the corresponding sewage draining exit 8.
Compare in current circulating water treatment facilities, the utility model discloses both can independently install and use, also can form a complete set this, equipment fixing such as filtration uses, is suitable for any circulating water system's anticorrosive and whole equipment and auxiliary facilities, only needs the general construction of a section pipeline, need not the power and can start the operation, has realized the energy saving and emission reduction of circulating water treatment, has reduced the energy consumption.
As shown in fig. 2, the first rotational flow mechanism includes a plurality of first rotational flow sheets 12 having the same rotational flow direction, and all the first rotational flow sheets 12 are annularly and uniformly fixed on the inner wall of the corresponding reducing cylinder 2.
As shown in fig. 3, second whirl mechanism includes a plurality of and 12 whirl opposite direction's of first whirl piece second whirl piece 13, and whole second whirl pieces 13 are the annular and evenly are fixed in on the 7 inner walls of opening, and the direction is the flow direction of circulating water as shown by the arrow in fig. 1, and the direction shown by the arrow in fig. 2 is the whirl direction of circulating water in first treatment chamber 3, and the direction shown by the arrow shown in fig. 3 is the whirl direction of circulating water in second treatment chamber 4 the utility model discloses in, the whirl opposite direction of first whirl piece 12 and second whirl piece 13 can make and carry out two ascending rotations in the treater of circulation rivers, has improved the utility model discloses the effect of oxygen consumption corrosion can consume unnecessary dissolved oxygen and corrosive ion in the circulating water as much as possible.
As shown in fig. 4, each of the mounting mechanisms includes a sliding end fixing sleeve 14 and a fixed end fixing sleeve 15, which are oppositely disposed, each of the sliding end fixing sleeve 14 and the fixed end fixing sleeve 15 is fixed in the corresponding first processing chamber 3 and the corresponding second processing chamber 4, each of the two ends of each of the first magnesium rod 5 and the second magnesium rod 6 is respectively fixed with a sliding end insulating sleeve 16 and a fixed end insulating sleeve 17, each of the sliding end insulating sleeves 16 is inserted into the corresponding sliding end fixing sleeve 14, each of the sliding end fixing sleeves 14 is fixed with a top spring 18 abutting against the end of the sliding end insulating sleeve 16, each of the fixed end insulating sleeves 17 is inserted into the corresponding fixing sleeve 15, and in this embodiment, the top spring 18 is a compression spring.
When the first magnesium rod 5 or the second magnesium rod 6 in the processor needs to be replaced, the magnesium rod needing to be replaced is held by hands and is pressed towards the direction of the sliding end insulating sleeve 16, so that the top spring 18 is compressed, the fixed end insulating sleeve 17 on the magnesium rod leaves the fixed end fixing sleeve 15, and then the sliding end insulating sleeve 16 is pulled out of the sliding end fixing sleeve 14; then, the sliding end insulating sleeve 16 on the new magnesium rod is inserted into the sliding end fixing sleeve 14 and compresses the top spring 18, so that the fixed end insulating sleeve 17 is inserted into the fixed end fixing sleeve 15, the installation of the magnesium rod can be realized, and the installation and the disassembly operations are very simple and convenient.
Each of the first magnesium rod 5 and the second magnesium rod 6 is axially parallel to the processor shell 1, so that the area of the circulating water flow impacting on the first magnesium rod 5 and the second magnesium rod 6 during rotation is increased, and the oxygen consumption corrosion efficiency between the circulating water and the magnesium rods is improved.
Moreover, both ends of the processor shell 1 are detachably fixed together with the corresponding reducing cylinder 2 through flanges 19, and a sealing gasket 20 is arranged between every two fixed flanges 19.
In addition, each of the first magnesium rod 5 and the second magnesium rod 6 is a magnesium rod made of an AZ-31B type magnesium alloy material, the AZ-31B type magnesium alloy material belongs to a customized alloy material, and manual continuous operation can be omitted for about 3 years in a time period without replacing the alloy material.
The shell that treater casing 1 was made for adopting stainless steel material the utility model discloses in, the treater casing 1 that stainless steel material made can be fit for working under the various circulating water system conditions.
To sum up, the utility model provides an anticorrosive water treatment ware can realize clarifying quality of water when inhibiting interception corrosive ion to the oxygen consumption corruption of circulating water, has effectively blockked the circulating water to the corruption of equipment, has characteristics high efficiency, extension circulation system life.
The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (8)
1. Anticorrosion water treatment ware, its characterized in that, including a treater casing, the both ends of treater casing demountable installation respectively have a reducing barrel, are located be provided with first whirl mechanism in the reducing barrel of treater casing entrance point, the inside both ends of treater casing are equipped with first process chamber and second process chamber respectively, install a plurality of first magnesium stick and second magnesium stick through installation mechanism respectively in first process chamber and the second process chamber, first process chamber and second process chamber through one with the opening of the coaxial setting of treater casing, be provided with second whirl mechanism in the opening, be equipped with two on the lateral wall of treater casing respectively in the drain that is linked together in first process chamber and the second process chamber, each all be fixed with a blow off pipe of installing the blowoff valve on the drain, still be provided with on the lateral wall of treater casing two with correspond the relative blind plate sight glass that sets up of drain .
2. The corrosion-resistant water treatment device according to claim 1, wherein the first swirling mechanism comprises a plurality of first swirling sheets with the same swirling direction, and all the first swirling sheets are uniformly fixed on the inner wall of the corresponding reducing cylinder in an annular shape.
3. The corrosion-resistant water treatment device according to claim 2, wherein the second swirling mechanism comprises a plurality of second swirling sheets having a swirling direction opposite to that of the first swirling sheets, and all the second swirling sheets are uniformly fixed on the inner wall of the opening in an annular shape.
4. The device of claim 1, wherein each of said mounting mechanisms comprises a sliding end fixing sleeve and a fixed end fixing sleeve which are oppositely disposed, each of said sliding end fixing sleeve and fixed end fixing sleeve is fixed in the corresponding one of said first treatment chamber and said second treatment chamber, each of two ends of each of said first magnesium rod and said second magnesium rod is respectively fixed with a sliding end insulating sleeve and a fixed end insulating sleeve, each of said sliding end insulating sleeves is inserted into the corresponding one of said sliding end fixing sleeves, each of said sliding end fixing sleeves is fixed with a spring which abuts against an end of said sliding end insulating sleeve, and each of said fixed end insulating sleeves is inserted into the corresponding one of said fixed end fixing sleeves.
5. The treated water processor of claim 1, wherein each of the first and second magnesium rods is axially parallel to the processor housing.
6. The anti-corrosion water treatment device according to claim 1, wherein two ends of the processor shell are detachably fixed with the corresponding variable-diameter cylinder through flanges, and a sealing gasket is arranged between every two fixed flanges.
7. The corrosion-resistant water treatment device according to claim 1, wherein each of the first magnesium rod and the second magnesium rod is a magnesium rod made of a magnesium alloy material of an AZ-31B type.
8. The treater of claim 1, wherein the treater housing is a casing made of stainless steel material.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202022695568.3U CN212198728U (en) | 2020-11-20 | 2020-11-20 | Anti-corrosion water treatment device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202022695568.3U CN212198728U (en) | 2020-11-20 | 2020-11-20 | Anti-corrosion water treatment device |
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CN212198728U true CN212198728U (en) | 2020-12-22 |
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CN202022695568.3U Active CN212198728U (en) | 2020-11-20 | 2020-11-20 | Anti-corrosion water treatment device |
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2020
- 2020-11-20 CN CN202022695568.3U patent/CN212198728U/en active Active
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