CN206109007U - Fluid magnetizer - Google Patents
Fluid magnetizer Download PDFInfo
- Publication number
- CN206109007U CN206109007U CN201620840324.0U CN201620840324U CN206109007U CN 206109007 U CN206109007 U CN 206109007U CN 201620840324 U CN201620840324 U CN 201620840324U CN 206109007 U CN206109007 U CN 206109007U
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- Prior art keywords
- magnetic
- magnetic patch
- split type
- conductive shell
- row
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Classifications
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
- Y02T10/00—Road transport of goods or passengers
- Y02T10/10—Internal combustion engine [ICE] based vehicles
- Y02T10/12—Improving ICE efficiencies
Landscapes
- Water Treatment By Electricity Or Magnetism (AREA)
Abstract
The utility model discloses a fluid magnetizer, including a plurality of split type magnetization component, a plurality of split type magnetization component fit with a contraceptive ring along the circumferencial direction and stream body pipe setup, every split type magnetization component all includes the magnetic conduction shell, sets up two rows of magnetic path groups in the inner wall department of magnetic conduction shell, it is two sets of the interval distribution that staggers each other between the magnetic path group is in on the outer wall of magnetic conduction shell, every row magnetic path group comprises equal a plurality of magnetic paths, above -mentioned fluid magnetizer if install on advancing the oil pipe way, can realize automobile fuel saving 8 -18%, and tail gas pollution thing NO discharges and reduces 38% -94%, if install on running water water intake pipe, can improve water quality, refine hydrone group bunch structure, realize the function that hinders the dirt, disinfects. Therefore, the utility model discloses fluid magnetizer has simple to operate, magnetization is strong, novel and equitable and so on the all many -sided technological advantages of structural design.
Description
Technical field
The utility model is related to magnetizer equipment technical field, more particularly to a kind of fluid magnetizer.
Background technology
It is well known that magnetizer be used for chemistry, mine, metallurgy, construction material, etc. industrial circle and agriculture and medical science side
Face, the function with sterilization, scale inhibition, environmental protection and energy saving, raising technological reaction speed etc. is confirmed by many experiments and application.Carry
It is the long-term technology requirement of socio-economic development for a kind of energy-efficient, simple structure, magnetizer easy for installation.
But, current magnetizer complex structure, the spatial magnetic field of formation is unreasonable, and treatment effect is undesirable.
Number of patent application is:Magnetizer disclosed in CN03206286.9 (referring specifically to Fig. 1), magnet is along central axis
Direction arranges, and parallel to fluid flow direction, test proves to flow to parallel magnetic field magnetic treatment with fluid the magnetic direction of formation
Effect is poor.In addition, this kind of magnetizer need to cut off original pipeline and process jointing when installing could install connection, on the one hand
To stop production during installation, on the other hand many possible leak points improve pipeline and reveal dangerous.
Number of patent application is the magnetizer (magnetizer as shown in Figure 2) that CN104752017A is announced, and it is near processing stream
Body tube wall one end be all same polarity (for example:As near fluid pipe walls being all N poles in Fig. 2), so can on pipeline section shape
Into space magnetic field;But it is clear that magnetic field makes, and fluid line central magnetic field intensity is very weak, magnetization is not
By force.
To sum up, the above-mentioned technological deficiency for how overcoming conventional magnetized device is that those skilled in the art's technology urgently to be resolved hurrily is asked
Topic.
Utility model content
The purpose of this utility model is to provide a kind of fluid magnetizer, to solve above-mentioned technical problem.
In order to achieve the above object, the technical solution of the utility model is realized in:
A kind of fluid magnetizer of the utility model, including multiple split type magnetising assemblies;Multiple split type magnetization groups
Part is along the circumferential direction upper to be arranged around fluid line;
Each described split type magnetising assembly includes magnetic conductive shell, two rows being arranged at the inwall of the magnetic conductive shell
Magnetic patch group;Wherein row's magnetic patch component cloth is arranged on one end of the magnetic conductive shell, and another row's magnetic patch component cloth is arranged on described
The other end of magnetic conductive shell;Mutually stagger between magnetic patch group described in two groups and be distributed on the outer wall of the magnetic conductive shell;Often
Arrange the magnetic patch group to be made up of multiple magnetic patch;
It will be apparent that in multiple split type magnetising assemblies after cylindrical structure;In multiple split type magnetising assemblies
The magnetic conductive shell is in cylindrical structure around the fluid line, and fluid line is inserted in the center socket of cylindrical structure;It is many
The individual magnetic patch each along the outer wall of the fluid line circumferencial direction uniform intervals be distributed, and on each described magnetic patch with institute
The magnetic patch surface of fluid line wall contacts is stated, the outer circle wall of the fluid line is tangential on;And multiple two-phases of magnetic patch two
To arranging, two magnetic patch that above-mentioned position is oppositely arranged are contrary near one end magnetic pole of the fluid line outer wall.
Preferably, can embodiment as one kind;The quantity of the split type magnetising assembly is at least two.
Preferably, can embodiment as one kind;The quantity of the split type magnetising assembly is two, respectively first point
Body formula magnetising assembly and the second split type magnetising assembly;
Wherein, the described first split type magnetising assembly specifically includes the first magnetic conductive shell, is arranged on outside first magnetic conduction
Two row's magnetic patch groups at the inwall of shell;The often row magnetic patch group in the first split type magnetization modular construction is by two magnetic patch
Constitute;
The second split type magnetising assembly specifically includes the second magnetic conductive shell, is arranged on the interior of second magnetic conductive shell
Two row's magnetic patch groups at wall;The often row magnetic patch group in the second split type magnetization modular construction is made up of two magnetic patch;
And first magnetic conductive shell and second magnetic conductive shell are semi-cylindrical shape.
Preferably, can embodiment as one kind;Described in same row on the same split type magnetising assembly
The pole orientation of all magnetic patch in magnetic patch group is identical, the pole orientation phase of all magnetic patch in the magnetic patch group of another row
Together, the magnetic patch and between two row's magnetic patch groups is contrary with the pole orientation of magnetic patch.
Preferably, can embodiment as one kind;In the structure of different split type magnetising assemblies, the adjacent magnetic conduction
It is specially (i.e. between magnetic conductive shell and magnetic conductive shell) between shell and is articulated and connected or riveting or snaps connection or lead to
Cross one kind that steel band is tied up in connection.(forming a kind of dismountable connected mode).
Preferably, can embodiment as one kind;In each split type magnetization modular construction, the magnetic patch is led with described
It is bolt connection or bonding connection (being for example adhesively fixed) between magnetic shell.
Preferably, can embodiment as one kind;In each split type magnetization modular construction, outside the magnetic conductive shell
Bolt is provided with wall;The bolt is used to be fixedly connected the magnetic patch with the magnetic conductive shell.
Preferably, can embodiment as one kind;It is provided with the outer wall and inner wall surface of the magnetic conductive shell anti-
Rotten clad.
Preferably, can embodiment as one kind;The surface of the magnetic patch is additionally provided with coating for protection against corrosion.
Preferably, can embodiment as one kind;The magnetic patch is specially cuboid permanent magnet.
Preferably, can embodiment as one kind;The magnetic conductive shell is steel magnetic conduction construction part.
Compared with prior art, the advantage of the utility model embodiment is:
A kind of fluid magnetizer that the utility model is provided, the primary structure for analyzing above-mentioned fluid magnetizer understands:Its master
To be mutually butted by several split type magnetising assemblies and constitute that (connection so easy to disassemble is not required to cut when being installed on fluid circuit
Disconnected pipeline, without the need for stopping production.Meanwhile, mounting structure is also more safe and reliable), split type magnetising assembly can be two, also may be used certainly
It is individual to be three, four split type magnetising assemblies or other quantity, within protection domain of the present utility model;It is i.e. above-mentioned
Split type magnetising assembly is a kind of modular construction, and it is made up of the structure such as respective magnetic conductive shell and magnetic patch group;
I.e. each split type magnetising assembly includes magnetic conductive shell, two row's magnetic being arranged at the inwall of the magnetic conductive shell
Block group;Wherein row's magnetic patch component cloth is arranged on one end of the magnetic conductive shell, and another row's magnetic patch component cloth is arranged on described leading
The other end of magnetic shell is (for example:Structure illustrated in Figure 3, row's magnetic patch group is located at the left side of magnetic conductive shell, another row's magnetic patch group
Then it is distributed in magnetic conductive shell right side, the setting but this two rows magnetic patch group also mutually staggers between row and row);Magnetic patch i.e. described in two groups
Mutually stagger between group and be distributed on the outer wall of the magnetic conductive shell;The magnetic patch group is often arranged then by multiple magnetic patch structures
Into;
The magnetic conductive shell in multiple split type magnetising assemblies is in cylindrical structure and round around the fluid line
The center socket insertion fluid line of barrel structure;Circumferencial direction of multiple magnetic patch each along the outer wall of the fluid line
Uniform intervals be distributed, and on each described magnetic patch with the magnetic patch surface of the fluid line wall contacts, be tangential on the stream
The outer circle wall of body pipeline;So, (its essence is that several magnetic conductive shells are closed after several split type magnetising assemblies surround
Surround tubular structure), and then also just surround and define a magnetic treatment space, fluid line is by the magnetic treatment space, output
Expected desired fluid, so can ensure that fluid sufficiently carry out magnetization (meanwhile, magnetic conductive shell is played outside shielding magnetic energy
On the one hand the effect (i.e. leakage field is little) let out, i.e., improve magnetic energy utilization efficiency, on the other hand makes component outer magnetic very little, it is to avoid shadow
Ring peripheral devices.
And multiple magnetic patch are oppositely arranged two-by-two, two magnetic patch that above-mentioned position is oppositely arranged are near the fluid line outer wall
One end magnetic pole it is contrary.It should be noted that for example:Two magnetic patch being oppositely arranged, the close fluid hose of one of magnetic patch
The end of pipeline outer wall is N poles, is S poles away from the end of the outer wall of fluid line;So another is opposite to that, i.e., another magnetic patch its
The end of fluid line outer wall is then S poles, is N poles away from the end of the outer wall of fluid line;Therefore, the position relationship of above-mentioned magnetic patch sets
Meter, it is ensured that strong magnetic action can be also produced between relative magnetic patch;So, due to fluid magnetic of the present utility model
Change the magnetic direction of device perpendicular to fluid line direction, it is possible to ensure that the fluid in fluid line is further carried out fully
Magnetization.
Fluid magnetizer of the present utility model, if being arranged on inflow pipeline, is capable of achieving automobile fuel saving 8-18%, tail gas
Pollutant NO discharges reduce 38%-94%;If being arranged on running water inlet pipeline, water quality can be improved, refine water molecule cluster
Structure, realizes scale inhibition, sterilized function, improves the transparency of membrane filtration, and sterilizing rate reaches more than 90%.
Description of the drawings
In order to be illustrated more clearly that the technical scheme of the utility model specific embodiment, below will be to specific embodiment
The accompanying drawing to be used needed for description is briefly described.It should be evident that drawings in the following description are of the present utility model
Some embodiments, for those of ordinary skill in the art, on the premise of not paying creative work, can be with basis
These accompanying drawings obtain other accompanying drawings.
Fig. 1 is a kind of cross section structure diagram of strong-magnetic-field permanent-magnet descaling device of the prior art;
Fig. 2 is a kind of dimensional structure diagram of fluid magnetizer of the prior art;
The schematic perspective view of the overall assembling structure of the fluid magnetizer that Fig. 3 is provided for the utility model embodiment;
The side view of the overall assembling structure of the fluid magnetizer that Fig. 4 is provided for the utility model embodiment in Fig. 3;
Description of reference numerals:
Split type magnetising assembly 1;Magnetic conductive shell 2;Magnetic patch group 3;Magnetic patch 4;Fluid line A.
Specific embodiment
The technical solution of the utility model is clearly and completely described below in conjunction with accompanying drawing, it is clear that described
Embodiment is a part of embodiment of the utility model, rather than the embodiment of whole.Based on the embodiment in the utility model, this
The every other embodiment that field those of ordinary skill is obtained under the premise of creative work is not made, belongs to this practicality
Novel protected scope.
In description of the present utility model, it should be noted that term " " center ", " on ", D score, "left", "right", " perpendicular
Directly ", the orientation or position relationship of the instruction such as " level ", " interior ", " outward " is, based on orientation shown in the drawings or position relationship, to be only
For the ease of describe the utility model and simplify description, rather than indicate or imply indication device or element must have it is specific
Orientation, with specific azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model.
Below by specific embodiment and combine accompanying drawing the utility model is described in further detail.
Referring to Fig. 3, Fig. 4, a kind of fluid magnetizer of the utility model embodiment offer, including multiple split type magnetization groups
Part 1;Multiple split type magnetising assemblies 1 are along the circumferential direction upper to be arranged around fluid line A;
Each described split type magnetising assembly 1 includes magnetic conductive shell 2, is arranged at the inwall of the magnetic conductive shell 2
Two row's magnetic patch groups 3;The wherein distribution of row's magnetic patch group 3 is arranged on one end of the magnetic conductive shell, and another distribution of row's magnetic patch group 3 is arranged
In the other end of the magnetic conductive shell;Mutually stagger between magnetic patch group 3 described in two groups and be distributed in the outer of the magnetic conductive shell
(i.e. the magnetic patch group of previous row just at the right time shelters from the magnetic patch group of latter row in Fig. 3, but referring also to Fig. 4 can be clear on wall
Chu finds out described in two groups that magnetic patch group mutually staggers and is distributed in the magnetic conductive shell);The magnetic patch group 3 is often arranged by multiple
Magnetic patch 4 is sequentially arranged to make up along on same circular path;
It will be apparent that after multiple split type magnetising assemblies 1 encompass cylindrical structure;Multiple split type magnetising assemblies 1
In the magnetic conductive shell 2 around the fluid line be in cylindrical structure, and cylindrical structure center socket insertion fluid hose
Road A;Multiple magnetic patch 4 are distributed each along the circumferencial direction uniform intervals of the outer wall of the fluid line A, and each described magnetic
With the magnetic patch surface of the fluid line A wall contacts on block 4, the outer circle wall of the fluid line is tangential on;And it is multiple
Magnetic patch 4 is oppositely arranged two-by-two, one end magnetic pole of two magnetic patch 4 that above-mentioned position is oppositely arranged near the fluid line A outer walls
On the contrary (i.e. because one end magnetic pole between two relative magnetic patch 4 of position near the fluid line A outer walls is conversely, therefore position
Put and also have between relative two magnetic patch 4 very strong magnetic fields, and then increased the magnetic treatment of fluid in fluid line
Effect).
The primary structure for analyzing above-mentioned fluid magnetizer understands:It is mainly mutually butted by several split type magnetising assemblies
Constitute (connection so easy to disassemble, structure is also more safe and reliable), for example:Fig. 3 illustrates that two split type magnetising assemblies
1, certainly split type magnetising assembly 1 can also be three, four or other quantity, in protection domain of the present utility model
Within;I.e. above-mentioned split type magnetising assembly is a kind of modular construction, and it is by the structure structure such as respective magnetic conductive shell and magnetic patch group
Into;
I.e. each split type magnetising assembly 1 includes magnetic conductive shell 2, two be arranged at the inwall of the magnetic conductive shell 2
Row's magnetic patch group 3;The wherein distribution of row's magnetic patch group 3 is arranged on one end of the magnetic conductive shell, and another distribution of row's magnetic patch group 3 is arranged on
The other end of the magnetic conductive shell is (for example:Figure:4 structures illustrated, row's magnetic patch group 3 is located at the left side of magnetic conductive shell, another
Row's magnetic patch group 3 is then distributed in magnetic conductive shell right side, the setting but this two rows magnetic patch group also mutually staggers between row and row);I.e. two
Mutually stagger between the group magnetic patch group 3 and be distributed on the outer wall of the magnetic conductive shell;The magnetic patch group 3 is often arranged then by equal
Multiple magnetic patch 4 are constituted;
The magnetic conductive shell 2 in multiple split type magnetising assemblies is in cylindrical structure around the fluid line, and
The center socket insertion fluid line A of cylindrical structure;Circle of multiple magnetic patch 4 each along the outer wall of the fluid line A
Circumferential direction uniform intervals be distributed, and on each described magnetic patch 4 with the magnetic patch surface of the fluid line A wall contacts, it is tangent
In the outer circle wall of the fluid line A;So, several split type magnetising assemblies 1 (its essence is several after surrounding
Magnetic conductive shell is encircled into tubular structure), and then also just surround and define a magnetic treatment space, fluid line A is by the magnetic
Reason space, the expected desired fluid of output, so can ensure that fluid sufficiently carry out magnetization (meanwhile, magnetic conductive shell rises
To the effect (i.e. leakage field is little) that shielding magnetic energy leaks, i.e., magnetic energy utilization efficiency is on the one hand improved, on the other hand make component outer magnetic
Property very little, it is to avoid affect peripheral devices.
And multiple magnetic patch 4 are oppositely arranged two-by-two, two magnetic patch 4 that above-mentioned position is oppositely arranged are near the fluid line A
One end magnetic pole of outer wall is contrary.It should be noted that for example:Two magnetic patch 4 being oppositely arranged, one of magnetic patch 4 it is close
The end of fluid line outer wall is N poles, is S poles away from the end of the outer wall of fluid line;So another is opposite to that, i.e., another
The end of magnetic patch 4 its fluid line outer wall is then S poles, is N poles away from the end of the outer wall of fluid line;Therefore, the position of above-mentioned magnetic patch
Put relational design, it is ensured that strong magnetic action can be also produced between relative magnetic patch;So, due to the utility model
Fluid magnetizer magnetic direction perpendicular to fluid line direction, it is possible to ensure fluid in fluid line further
Carry out abundant magnetization.
The concrete structure and particular technique effect of the fluid magnetizer for providing the utility model embodiment below does one
Lower detailed description:
Preferably, can embodiment as one kind;The quantity of the split type magnetising assembly 1 is at least two.
It should be noted that above-mentioned split type magnetising assembly can be two, or three, four etc., but
Its quantity at least two, could so form split type structure design;Split-type structural design is employed, its structure letter
It is single, while being also beneficial to conveniently to be installed on fluid line, (comparing conventional magnetized utensil has significantly easy for installation
The technical advantage of aspect).
Preferably, can embodiment as one kind;Referring to Fig. 3, the quantity of the split type magnetising assembly 1 is two, point
Wei not the first split type magnetising assembly and the second split type magnetising assembly;
Wherein, the described first split type magnetising assembly specifically includes the first magnetic conductive shell, is arranged on outside first magnetic conduction
Two row's magnetic patch groups at the inwall of shell;The often row magnetic patch group in the first split type magnetization modular construction is by two magnetic patch
Constitute;
The second split type magnetising assembly specifically includes the second magnetic conductive shell, is arranged on the interior of second magnetic conductive shell
Two row's magnetic patch groups at wall;The often row magnetic patch group in the second split type magnetization modular construction is made up of two magnetic patch;
And first magnetic conductive shell and second magnetic conductive shell are semi-cylindrical shape.
It should be noted that above-mentioned split type magnetising assembly can be two, or three, four etc., but
It is used as one of preferred scheme;Can select to use two split type magnetising assemblies;When its selection is two split type magnetization
During component, i.e. the respectively first split type magnetising assembly and the second split type magnetising assembly are (referring specifically to knot illustrated in Figure 3
Structure);The first split type magnetising assembly specifically includes the first magnetic conductive shell, is arranged at the inwall of first magnetic conductive shell
Two row's magnetic patch groups;The often row magnetic patch group in the first split type magnetization modular construction is made up of two magnetic patch;And institute
State the first magnetic conductive shell and second magnetic conductive shell is semi-cylindrical shape.
Certainly it can be three split type magnetising assemblies or four split type magnetising assemblies (specially three or four
Individual etc. case structure, the utility model Figure of description is no longer illustrated one by one);As long as it has the technology of above-mentioned core special
Levy, then within protection domain of the present utility model.
Preferably, can embodiment as one kind;Described in same row on the same split type magnetising assembly
The pole orientation of all magnetic patch in magnetic patch group is identical, the pole orientation phase of all magnetic patch in the magnetic patch group of another row
Together, the magnetic patch and between two row's magnetic patch groups is contrary with the pole orientation of magnetic patch.
It should be noted that as shown in figure 3, by it is illustrated in Figure 3 by two split type magnetising assemblies as a example by illustrate;
It will be apparent that the split type magnetization modular construction that the first half is illustrated in Fig. 3, magnetic patch group (i.e. before in Fig. 3 of its same row
Row) all magnetic patch pole orientations it is identical, for example:It is N poles that the magnetic patch group of same row is all proximate to fluid line, away from fluid hose
Road is if S poles;So, magnetic patch group (i.e. a row behind in Fig. 3, i.e., the row's magnetic for being sheltered from by magnetic conductive shell of another row
Block group structure) on all magnetic patch magnetic patch directions be all near fluid line be S poles, away from fluid line be N poles, it is very aobvious
So, the magnetic patch between same split type magnetising assembly its alternating magnetic field is more readily formed, increased field frequency, and then also increase
Magnetization.So, not only interactional magnetic field is may be constructed between different split type magnetising assemblies, while single
The alternating magnetic field of complexity can also be formed between different row's magnetic patch groups on split type magnetising assembly, and then further strengthens stream
The magnetization of body magnetizer.
Certainly, there is also another situation;The same row's being located on the same split type magnetising assembly is described
The pole orientation of all magnetic patch in magnetic patch group is identical, the pole orientation phase of all magnetic patch in the magnetic patch group of another row
Together, the magnetic patch and between two row's magnetic patch groups is identical with the pole orientation of magnetic patch.Obviously such magnetic patch topology layout, Zhi Nengtong
Increase magnetic patch intensity of accelerating is crossed, but alternating magnetic field can not be formed, its magnetization does not have the effect of alternation magnetic patch strong.
Preferably, can embodiment as one kind;In the structure of different split type magnetising assemblies, the adjacent magnetic conduction
It is specially (i.e. between magnetic conductive shell and magnetic conductive shell) between shell 2 and is articulated and connected or riveting or snaps connection or lead to
Cross one kind that steel band is tied up in connection.(forming a kind of dismountable connected mode).
It should be noted that the above-mentioned connected mode between i.e. above-mentioned adjacent magnetic conductive shell is all easy for the connection dismantled
Mode, so can be convenient with installation operation, fast (can pass through buckle, riveting between i.e. split type magnetising assembly
Fix Deng being mechanically connected, it is also possible to which steel band is tied up and is connected).
Preferably, can embodiment as one kind;Each it is split type magnetization modular construction in, the magnetic patch 4 with it is described
It is bolt connection or bonding connection (being for example adhesively fixed) between magnetic conductive shell 2.
It should be noted that in each split type magnetization modular construction, it all includes magnetic conductive shell and is arranged on magnetic conduction
Magnetic patch at outer casing inner wall;It is above-mentioned to adopt the design of various connected modes between the two, it is preferred that selecting bolt connection
Or bonding connection.I.e. in each split type magnetization modular construction, on the outer wall of the magnetic conductive shell bolt is provided with;It is described
Bolt is used to be fixedly connected the magnetic patch with the magnetic conductive shell.
Preferably, can embodiment as one kind;It is provided with the outer wall and inner wall surface of the magnetic conductive shell 2 anti-
Rotten clad (not shown).
It should be noted that above-mentioned anti-corrosion clad is mainly by two kinds of versions, one kind is soft cladding layer structure, separately
One kind coats Rotating fields for rigid plastics;It will be apparent that above-mentioned soft cladding layer can directly coat the table for being arranged on magnetic conductive shell
On face;But above-mentioned rigid plastics is (for example:The high-quality engineering plastics such as ABS, peek) then can be by sides such as injection, leaching modelings
Formula is arranged on the surface of magnetic conductive shell.
Preferably, the utility model have also been devised the anti-corrosion clad of a fire-retardant heat resistanceheat resistant, and it is also of the present utility model
One of innovative point;The utility model is directed to the special anti-corrosion clad of individual flow pipe design;That is the individual flow pipeline
It is interior sometimes for conveying high-temp liquid, need magnetic conductive shell that there is certain heat resistanceheat resistant high temperature resistance effect, otherwise by severe fluid magnetic
Change use safety and the life-span of device;To this above-mentioned anti-corrosion clad of design, the anti-corrosion clad include polyvinyl chloride resin 50-100 parts,
100 parts of vinyl silicone oil, white carbon 10-30 parts, containing hydrogen silicone oil 10-50 parts, defoamer 1-5 parts, inhibitor 1-5 parts, urge
Agent 1-2 part, by mentioned component prepared silicon rubber leaching modeling liquid is well mixed, and then shaping obtains anti-corrosion clad;Concrete operations
Process is:Immersion leaching modeling liquid, takes out after the 11-75 seconds after mould is preheating to into 100-180 DEG C, and the mould for being attached with silica gel is existed
At 210-300 DEG C, take out the cooling 5-60 seconds after the crosslinking 30-90 seconds, the demoulding can be prepared by soaking molded silastic product.
Using the method can be rapidly and efficiently prepare silastic product, resulting product better mechanical property and with certain thermal resistance, very
To flame retardant effect and antistatic property.Above-mentioned soaked-plastic product surface resistivity is 105-109 Ω, and vertical combustion reaches
UL94-V0 level standards, with preferable antistatic behaviour and anti-flammability.To sum up, the anti-corrosion clad is in terms of mass fraction:Institute
Anti-corrosion clad is stated including polyvinyl chloride resin 50-100 parts, 100 parts of vinyl silicone oil, white carbon 10-30 parts, containing hydrogen silicone oil 10-
50 parts, defoamer 1-5 parts, inhibitor 1-5 parts, catalyst 1-2 parts.
Preferably, can embodiment as one kind;The surface of the magnetic patch is additionally provided with coating for protection against corrosion (not shown).
It should be noted that above-mentioned coating for protection against corrosion is generally zinc coat or nickel coating etc., it can be preferably to magnetic patch
Play anti-corrosion protection effect in surface.
Preferably, can embodiment as one kind;The magnetic patch 4 is specially cuboid permanent magnet.
Preferably, can embodiment as one kind;The magnetic conductive shell 2 is steel magnetic conduction construction part.
Generally speaking, the fluid magnetizer that the utility model embodiment is provided, the technology that it at least has following aspect is excellent
Gesture:
First:The fluid magnetizer that the utility model embodiment is provided, it belongs to a kind of fluid magnetic of split-type structural
Device, the fluid magnetizer is arranged by multiple split type magnetising assemblies are along the circumferential direction upper around fluid line;Split type magnetization group
Part can be two, naturally it is also possible to be three, four or other quantity;Cylinder is encircled into by multiple split type magnetising assemblies
Shape structure (its essence is that several magnetic conductive shells are encircled into tubular structure), and the design of the split-type structural of employing is inherently
Great creativeness.
Second:In the fluid magnetizer structure that the utility model embodiment is provided, in multiple split type magnetising assemblies
The magnetic conductive shell is in cylindrical structure around the fluid line, and fluid line is inserted in the center socket of cylindrical structure;It is many
Individual magnetic patch each along the outer wall of the fluid line circumferencial direction uniform intervals be distributed, and on each described magnetic patch with the stream
The magnetic patch surface of body pipeline outer wall contact, is tangential on the outer circle wall of the fluid line;So, several are split type
Magnetising assembly surround after (its essence is that several magnetic conductive shells are encircled into tubular structure), and then also just surround and define a magnetic
Space is processed, by the magnetic treatment space, the expected desired fluid of output so can ensure that fluid sufficiently enters to fluid line
Row magnetization (meanwhile, magnetic conductive shell plays a part of shielding magnetic energy and leaks (i.e. leakage field is little), i.e., on the one hand improve magnetic energy utilization
Efficiency, on the other hand makes component outer magnetic very little, it is to avoid affect peripheral devices.
3rd:In the fluid magnetizer structure that the utility model embodiment is provided, meanwhile, between split type magnetising assembly
Fixation can be mechanically connected by buckle link, rivet link etc., it is also possible to which steel band ties up connection and implements to fix, so greatly square
Fluid magnetizer installation and removal, while also reducing more processing costs.
4th:In the fluid magnetizer structure that the utility model embodiment is provided, i.e., each split type magnetising assembly is equal
Including magnetic conductive shell, two row's magnetic patch groups being arranged at the inwall of the magnetic conductive shell;Wherein row's magnetic patch component cloth is arranged on
One end of the magnetic conductive shell, another row's magnetic patch component cloth is arranged on the other end of the magnetic conductive shell;Magnetic patch i.e. described in two groups
Mutually stagger between group and be distributed on the outer wall of the magnetic conductive shell;The magnetic patch group of two groups of settings of mutually staggering can be obvious
Strengthen the magnetization and the intensity of magnetization of fluid magnetizer.
5th:In the fluid magnetizer structure that the utility model embodiment is provided, the magnetic patch group is often arranged then by multiple
Magnetic patch arrangement is formed;And multiple magnetic patch are oppositely arranged two-by-two, two magnetic patch that above-mentioned position is oppositely arranged are near the fluid hose
One end magnetic pole of pipeline outer wall is contrary.The above-mentioned magnetic patch being oppositely arranged two-by-two its there is special position relationship design, it is ensured that
Also strong magnetic action can be produced between relative magnetic patch;So, due to the magnetic field of fluid magnetizer of the present utility model
Direction is perpendicular to fluid line direction, it is possible to ensure that the fluid in fluid line further carries out abundant magnetization.
6th:It is (i.e. described to lead that split type shell is provided with protective layer for the surface of permeability magnetic material, magnetic conductive shell and magnetic patch
Anti-corrosion clad is provided with the outer wall and inner wall surface of magnetic shell;The surface of the magnetic patch is additionally provided with coating for protection against corrosion);
Above-mentioned protective layer its preferably the surface of magnetic patch and magnetic conductive shell can be played anti-corrosion protection effect.
To sum up, a kind of fluid magnetizer that the utility model is provided, with all many technical advantages, therefore it will
Bring good market prospects and economic benefit.
Finally it should be noted that:Various embodiments above is only illustrating the technical solution of the utility model, rather than it is limited
System;Although being described in detail to the utility model with reference to foregoing embodiments, one of ordinary skill in the art should
Understand:It still can modify to the technical scheme described in foregoing embodiments, either to which part or whole
Technical characteristic carries out equivalent;And these are changed or are replaced, the essence for not making appropriate technical solution departs from this practicality newly
The scope of each embodiment technical scheme of type.
Claims (7)
1. a kind of fluid magnetizer, it is characterised in that including multiple split type magnetising assemblies;Multiple split type magnetising assemblies
It is along the circumferential direction upper to arrange around fluid line;
Each described split type magnetising assembly includes magnetic conductive shell, two row's magnetic patch being arranged at the inwall of the magnetic conductive shell
Group;Wherein row's magnetic patch component cloth is arranged on one end of the magnetic conductive shell, and another row's magnetic patch component cloth is arranged on the magnetic conduction
The other end of shell;Mutually stagger between magnetic patch group described in two groups and be distributed on the outer wall of the magnetic conductive shell;Often arrange institute
State magnetic patch group to be made up of multiple magnetic patch;
The magnetic conductive shell in multiple split type magnetising assemblies is tied around the fluid line in cylindrical structure, and cylinder
The center socket insertion fluid line of structure;Multiple magnetic patch are uniform each along the circumferencial direction of the outer wall of the fluid line
Be spaced apart, and on each described magnetic patch with the magnetic patch surface of the fluid line wall contacts, be tangential on the fluid hose
The outer circle wall in road;And multiple magnetic patch are oppositely arranged two-by-two, two magnetic patch that above-mentioned position is oppositely arranged are near the fluid hose
One end magnetic pole of pipeline outer wall is contrary;
The quantity of the split type magnetising assembly is two, the respectively first split type magnetising assembly and the second split type magnetization group
Part;
Wherein, the described first split type magnetising assembly specifically includes the first magnetic conductive shell, is arranged on first magnetic conductive shell
Two row's magnetic patch groups at inwall;The often row magnetic patch group in the first split type magnetization modular construction is by two magnetic patch structures
Into;
The second split type magnetising assembly specifically includes the second magnetic conductive shell, is arranged at the inwall of second magnetic conductive shell
Two row's magnetic patch groups;The often row magnetic patch group in the second split type magnetization modular construction is made up of two magnetic patch;And institute
State the first magnetic conductive shell and second magnetic conductive shell is semi-cylindrical shape;
The pole orientation phase of all magnetic patch in the magnetic patch group of the same row on the same split type magnetising assembly
Together, the pole orientation of all magnetic patch in the magnetic patch group of another row is identical, and the magnetic patch and magnetic patch between two row's magnetic patch groups
Pole orientation it is contrary.
2. fluid magnetizer according to claim 1, it is characterised in that
In the structure of different split type magnetising assemblies, it is specially between the adjacent magnetic conductive shell and is articulated and connected or rivets company
Connect or snap connection or the one kind in connection is tied up by steel band.
3. fluid magnetizer according to claim 1, it is characterised in that
It is bolt connection or bonding company between the magnetic patch and the magnetic conductive shell in each split type magnetization modular construction
Connect.
4. fluid magnetizer according to claim 1, it is characterised in that
In each split type magnetization modular construction, on the outer wall of the magnetic conductive shell bolt is provided with;The bolt is used for solid
Surely the magnetic patch is connected with the magnetic conductive shell.
5. fluid magnetizer according to claim 1, it is characterised in that
Anti-corrosion clad is provided with the outer wall and inner wall surface of the magnetic conductive shell;The surface of the magnetic patch is additionally provided with
Coating for protection against corrosion.
6. fluid magnetizer according to claim 1, it is characterised in that
The magnetic patch is specially cuboid permanent magnet.
7. fluid magnetizer according to claim 1, it is characterised in that
The magnetic conductive shell is steel magnetic conduction construction part.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620840324.0U CN206109007U (en) | 2016-08-05 | 2016-08-05 | Fluid magnetizer |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620840324.0U CN206109007U (en) | 2016-08-05 | 2016-08-05 | Fluid magnetizer |
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CN206109007U true CN206109007U (en) | 2017-04-19 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108597724A (en) * | 2018-06-14 | 2018-09-28 | 南京鸣全特科技发展有限公司 | A kind of outer-enwraped type magnetizer |
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2016
- 2016-08-05 CN CN201620840324.0U patent/CN206109007U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108597724A (en) * | 2018-06-14 | 2018-09-28 | 南京鸣全特科技发展有限公司 | A kind of outer-enwraped type magnetizer |
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