CN205925673U - Adjustable distortion magnetic field device of depths reason is magnetized intraductal conveyance fluid - Google Patents
Adjustable distortion magnetic field device of depths reason is magnetized intraductal conveyance fluid Download PDFInfo
- Publication number
- CN205925673U CN205925673U CN201620881802.2U CN201620881802U CN205925673U CN 205925673 U CN205925673 U CN 205925673U CN 201620881802 U CN201620881802 U CN 201620881802U CN 205925673 U CN205925673 U CN 205925673U
- Authority
- CN
- China
- Prior art keywords
- magnet
- block
- fluid
- magnetic field
- magnetic
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn - After Issue
Links
Landscapes
- Water Treatment By Electricity Or Magnetism (AREA)
Abstract
The utility model relates to an adjustable distortion magnetic field device of depths reason is magnetized intraductal conveyance fluid, constitute its characterized in that by fluid pipeline (2) and a plurality of cubic work magnets (1) combination of setting in fluid pipe body periphery: cubic work magnet (1) arrange with the same position, along with fluid pipeline (2) radial orientation and be the N row, each two adjacent dislocation, manifest into on spiral array distributing type centers on the periphery in fluid pipeline (2), and two magnetic poles of SN of cubic work magnet (1) are according to unanimous inside or unanimous outside form setting, simultaneously, be in cubic work magnet (1) the optionally that distributes of spiral array distributing type set up additional magnet adjustment unit I (14) or magnet adjustment unit II (15), constitute the high density magnetic field device that can carry out the degree of depth magnetic treatment of adjustable distortion to the various fluid materials in this section fluid pipeline (2) of flowing through from this.
Description
Technical field
The utility model is related to a kind of fluid magnetic technology, and especially a kind of magnetization depths that trandfer fluid in pipe is carried out is managed
Adjustable distortion magnetic field device;It is applied to and solve, from molecular level, the fluid mixing that gas, solid, liquid and its mixture are formed
Molecule under microstate for the thing is tied or complexing problem, and the depth that can effectively facilitate chemical reaction is carried out.
Background technology
The mankind have a long history to the application of magnet and magnetic force, have had been enter into certain when perfect theory is not yet set up
A little industrial circles, occur in that a large amount of commercial Application and civilian after the sixties in last century.So far, based on electromagnet, forever
Magnet and the technology of magnetizing fluid goods and materials achieved and product mainly have several classes as follows:
A () application artificial magnet or natural magnet, are directly placed in fluid, form the primary application of magnetizing fluid.
(b) apply electromagnetic conversion principle, hot-wire coil is wrapped on fluid line or container, formed electromagnetic field effect in
Fluid.
C () application magnet is fixed on runner inner wall, form magnetic field to the effect flowing through passage fluid.
D () applies magnet to form a ring or the distribution of polycyclic order of ring-type outside fluid line, with the magnetic pole of ring magnet
Consistent outwardly or inwardly form local magnetic field enhancing effect, and then to flowing through the fluid matasomatism in magnetic field.
E () application magnet forms a ring of ring-type or polycyclic distribution outside fluid line, the magnetic pole with ring magnet is consistent
Outwardly or inwardly, staggered inside and outside polycyclic NS magnetic pole, form complicated magnetic field to fluid matasomatism.
It is placed in fluid line after (f) application magnet same polarity or heteropolarity linking, series connection or series connection and parallel combination;Or
Person's application annular magnet same polarity or heteropolarity linking, are placed in after series connection outside fluid line, thereby mode acts on fluid.
Because magnetic field is the energy field that can perceive and cannot visually see, same in fluid applications application electromagnetic technique
When, also occur in that based on electromagnetic theory, biological life science, physics polar theory, atomic nucleus electronic correlation theory, quantum reason
By etc. academic cognitive.
In practice, magnetic field application mechanism each stresses difference, and the magnetic field configuration of design is different although practice effect is big
Part is confirmed, but there is also some shortcomings, is mainly manifested in:
(1) hot-wire coil is wound in formation electromagnetic field on fluid line or container, because magnetic conductivity pipeline can cause magnetic field
Decay, or even can armoured magnetic field.
(2) form ring-type or a symmetrical ring or polycyclic magnet outside fluid line, magnetic field be subject to inside pipeline to
The mutual extruding of heart magnetic pole, can form a regular axial neutral path of comparison in central area, polycyclic magnetic field also has footpath
To neutral surface, neutral axis is consistent with fluid flow direction, and will to form fluid treatment incomplete.
(3) due to equipment or the system of all application permanent magnet treatment fluids, it is the determination magnet of prepackage, magnetic field intensity
Cannot adjust with fluid application conditions in use with form, and magnet also can be in use because being heated or outside mechanical shock
Power and gradually decay, overall using effect will be in progressively downward trend at the beginning of coming into operation.
Therefore, fluids industry application utilizes magnetic technique how more accurately, more scientific, just become a new class
Topic.
Utility model content
The purpose of this utility model is intended to:Proposition is a kind of to be had more accurate, more scientificly using magnetic technique in pipe
Trandfer fluid carries out magnetizing the high density magnetic field structure of depths reason;Propose a kind of more reasonable, more accurate, more efficient adjustable torsion
Become highly dense magnetic field treatment fluid, effectively by the magnetic field neutral axis parallel with fluid, and the neutral surface that flow direction is vertical, change
Become space structure distortion neutral surface, and magnet strength can on-line tuning, have the characteristics that to be more beneficial for actual demand.
This adjustable distortion magnetic field device that trandfer fluid in pipe is carried out with magnetization depths reason;By fluid line 2 and setting
Fluid conduit tube in vitro week on some bulk working magnet 1 combination constitute it is characterised in that:Described block working magnet
1 is arranged in N with same orientation, with the arrangement of fluid line 2 radial direction, and each two adjacent row misplace, appears as the distribution of spiral array
Formula is centered around on the periphery of fluid line 2, and S/N two magnetic pole of described bulk working magnet 1 according to unanimously inwardly or consistent to
Outer prominent form;Meanwhile, the block working magnet 1 of the described distributed distribution of spiral array optionally has additional additional
Magnet adjustment unit I or magnet adjustment unit II, thus constitute can be to the various fluids flowing through in this section of fluid line 2
Matter carries out the high density magnetic field device of the depth magnetization treatment of adjustable distortion.
Described magnet adjustment unit I is by the enhancing working magnet block 1.1 being arranged on a certain bulk working magnet 1 outer surface
Constitute, described enhancing working magnet block 1.1 passes through by magnetic conduction radome 11, locating support 10 and is arranged on locating support 10
On gripper shoe 9, c-type gasket assembly 8, setting-up piece 7, adjusting nut 6 and adjusting screw rod 5, attachment screw 12 constitute and strengthen
The positioning regulating mechanism of working magnet block 1.1;Thus constitute the highly dense magnetic field of the adjustable distortion of superposing type adjusted and controlled.
Magnetic conduction radome 11 in the positioning regulating mechanism of described magnet adjustment unit I is a gate framework, and its underpart covers
Put on block working magnet 1, upper space then arranges one piece of enhancing working magnet block 1.1, and by being set in enhancing work
One attachment screw 12 and the adjusting screw rod 5 positioned at magnetic conduction radome 11 top of magnet block 1.1 center are spirally connected to constitute and strengthen
The upper and lower displacement structure of working magnet block 1.1;Meanwhile, it is provided with locating support 10 and external support structure in described magnetic conduction radome 11
Part 13, fixing with fluid line 2 by outer support members 13;Additionally, in described locating support 10 and outer support members 13
Top be sequentially provided with the gripper shoe 9 being set on adjusting screw rod 5, c-type gasket assembly 8 and setting-up piece 7 from bottom to top;Described
Setting-up piece 7 top be again provided with the adjusting nut 6 that is set on adjusting screw rod 5, thus constitute enhancing working magnet block
1.1 displacement location structure.
Described magnet adjustment unit II by be arranged on a certain bulk working magnet 1 outer surface on magnetic conduction radome 11,
Locating support 10 and be arranged on gripper shoe 9 on locating support 10, c-type gasket assembly 8, setting-up piece 7, adjusting nut 6
The positioning regulating mechanism constituting with adjusting screw rod 5, attachment screw 12.
Magnetic conduction radome 11 in the positioning regulating mechanism of described magnet adjustment unit II is a gate framework, and its underpart covers
Put on block working magnet 1, and shielded with positioned at magnetic conduction by an attachment screw 12 of magnetic conduction radome 11 center
The adjusting screw rod 5 covering 11 tops is spirally connected and constitutes the upper and lower displacement structure of block working magnet 1;Meanwhile, in described magnetic conduction radome
11 are provided with locating support 10 and outer support members 13, fixing with fluid line 2 by outer support members 13;Additionally, institute
State locating support 10 and outer support members 13 top be sequentially provided with from bottom to top the gripper shoe 9 being set on adjusting screw rod 5,
C-type gasket assembly 8 and setting-up piece 7;Described setting-up piece 7 top is again provided with the regulation spiral shell being set on adjusting screw rod 5
Female 6, thus constitute the displacement location structure of block working magnet 1.
Described enhancing working magnet block 1.1 and block working magnet 1 are with S, N;Or the pairing setting of N, S-phase anti-magnetic pole.
This adjustable distortion magnetic field that trandfer fluid in pipe is carried out with magnetization depths reason being proposed according to above technical scheme
Device, with commonly used at present similar for the device that fluids within pipes carry out magnetization treatment, there is advantages below:
1., because the block working magnet being arranged on fluid line outer surface takes helical form array arrangement, therefore make whole
In tube chamber, the density of the magnetic line of force is strengthened accordingly, makes the magnetic field neutral surface of appearance between two adjacent groups bulk working magnet
Spacing greatly reduces;Be conducive to reducing fluid magnetic cross section Shang Ruo area.
2. pass through magnet adjustment unit I or magnet adjustment unit II are set up on the block working magnet of array arrangement,
The magnetic field intensity being entirely furnished with the fluid line section of magnet segment can not only be made to be strengthened, reduce fluid magnetic cross section further
Shang Ruo area scope, and so that the intensity distribution in this section of magnetic field is distorted, thus leading to weak district center position to shift,
Thus flow through the magnetic efficiency that the liquid in fluid line receives can be according to the physical property of fluid and magnetic to be reached
Change effect and carry out appropriate adjustment;Thus obtaining more efficiently magnetic field intensity.
Brief description
Fig. 1 is distributed end face for the pipe surface magnetic patch that the utility model designs and shows figure () taking circumferential six pieces of magnets as a example;
Fig. 2 is pipe conveying fluid outer surface magnetic patch and forms Distribution of Magnetic Field displaying figure () taking circumferential six pieces of magnets as a example;
Fig. 3 is not set up the body magnetic field C-C of magnetic field superposition mechanism to distribution schematic diagram () taking circumferential six pieces of magnets as a example;
Fig. 4 is body magnetic field B-B direction distribution displaying figure () setting up magnetic field superposition mechanism taking circumferential six pieces of magnets as a example;
Fig. 5 is to set up the body magnetic field A-A of magnetic field superposition mechanism to distribution displaying figure () taking circumferential six pieces of magnets as a example;
Fig. 6 be outside the pipeline taken after two kinds of magnet adjustment units of the present utility model scheme of installation (with circumference six
As a example block magnet);
Fig. 7 is the structural representation of magnet adjustment unit I;
Fig. 8 is the structural representation of magnet adjustment unit II;
Fig. 9 is that magnet adjustment unit I/magnet adjustment unit II forms framework schematic diagram.
In figure:1- block shaped magnet 1.1- strengthens in the working magnet block 2- fluid flow tube 3- flow channels 4- magnetic line of force
Property face 5- adjusting screw rod 6- adjusting nut 7- setting-up piece 8-C shape gasket assembly 9- gripper shoe 10- locating support 11- leads
Magnetic shielding cover 12- screw 13- exterior support frame 14- magnet adjustment unit II 15- magnet adjustment unit I.
Specific embodiment
The utility model proposes this trandfer fluid in pipe is carried out magnetize depths reason adjustable distortion magnetic field device, its
The main points of utility model have three:
First, being that twist column-shaped is placed on the outer peripheral face 1 of fluid line by block working magnet;Break through traditional
The usual endless arrangement of block working magnet.
Second, selectively disposing magnet adjustment unit I and magnet adjustment unit II in the outside of block working magnet,
Form the distortion magnetic field in fluid pipe road.
Third, building the external structure that magnet adjustment unit I/magnet adjustment unit II carries out appropriateness adjustment, realize convection current
Magnetic field regulation and control in body pipeline.
By above-mentioned three kinds of technical measures, make in the fluid line using this device, to need the flowing material of magnetization treatment
Magnetic susceptibility sufficiently improved within unit interval or unit distance, and can also be carried out according to the needs of various materials
Adjustment.
The utility model is expanded on further below in conjunction with Figure of description, and provides embodiment of the present utility model.
What accompanying drawing 1-2 was given be the utility model proposes this trandfer fluid in pipe is carried out magnetize depths reason adjustable
The basic structure schematic diagram of distortion magnetic field device.
This adjustable distortion magnetic field device that trandfer fluid in pipe is carried out with magnetization depths reason;By fluid line 2 and setting
Some bulk working magnet 1 combinations in fluid conduit tube in vitro week constitute (see the schematic cross-section of Fig. 1).
What Fig. 2 was given is that one with the block working magnet of six pieces of circumference, (what the numbering wherein numbering 1. ... 6. represented is uniform
The block working magnet 1 of 6 row in fluid line 2 outer surface) as a example, open along fluid line longitudinally cutting after, a certain section of transport Stream
The distribution schematic diagram of the block working magnet of 6 row on body pipeline external surface, and it is being additionally arranged magnet adjustment unit I and magnet adjustment
Form Distribution of Magnetic Field after unit II and show figure.
In fig. 2, described block working magnet 1 is arranged in N with same orientation, with the arrangement of fluid line 2 radial direction, respectively
The adjacent two equidistant dislocation of row, appears as on the distributed periphery being centered around fluid line 2 of spiral array, and described bulk
S/N two magnetic pole of working magnet 1 is according to unanimously inwardly or consistent outside prominent form.
Block working magnet 1 due to taking adjacent column is equidistant to be shifted to install, therefore, it is possible to ensure to refer to along in figure arrow
Show the effect of the magnetic line of force of magnet that the fluid of direction flowing is experienced, with respect to the bulk being annularly arranged on fluid line
For working magnet, not only there is continuity, and there is good compactness.Obviously, take this design for fully carrying
The magnetization of high bulk working magnet is favourable.This is also that first utility model point of the present utility model has
Individual positive role.
The magnetic line of force end view that six pieces of magnets in C-C direction are formed along along Fig. 2 that Fig. 3 represents, correctly show
Magnetic line of force cross-sectional distribution schematic diagram under this state.The AA bulk working magnet of in figure represents the block work of two adjacent groups
The magnetic field neutral surface being formed between magnet, the magnetization that the center that many AA magnetic field neutral surfaces intersect just becomes in fluid line is weak
Area.Can consider from the distributing position in the weak area of this magnetization:This center position is also the weak area experiencing magnetization, is also stream
The weak area of magnetization of the flowing material through fluid line center.
In order to overcome the shortcomings of technique scheme, in the technical scheme that the utility model people proposes:Using above-mentioned spiral shell
Simultaneously while block working magnet 1 of rotation array distributed distribution, the working magnet on block of fluid line optionally
Set up additional magnet adjustment unit I or magnet adjustment unit II.Thus constituting can be to flowing through in this section of fluid line 2
Various flowing materials carry out the high density magnetic field device of the depth magnetization treatment of adjustable distortion.This set up in fluid line 2
The actual composition structure of the magnet adjustment unit I outside block working magnet 1 or magnet adjustment unit II is shown in Figure of description 6.
Fig. 6 show outside the pipeline after the utility model takes two kinds of magnet adjustment units scheme of installation (with circumference
As a example six pieces of magnets).What although in figure represented be only along fluid line 2 body bearing of trend the 2. row and the 4. arrange
It is respectively provided with magnet adjustment unit I or magnet adjustment unit II in each a certain piece block working magnet 1.But in practical application
In need not stick to this version completely, can be according to the dielectric property of actual fed fluid, Yi Jisuo in fluid line 2
Adjustment unit I or magnet adjustment unit II are set up in the requirement of system's magnetic efficiency to be reached.
Accompanying drawing 4 has gone out to set up the fluid line cross section magnetic field magnetic line after magnet adjusts unit I outside block working magnet
Distribution schematic diagram, it can also be considered as the cross section tubular figure of Fig. 2 B-B direction.
From Fig. 4 to find out, after block working magnet 1 outer surface of fluid line 2 sets up an enhancing work magnetic patch 1.1,
, in the magnetic line of force distribution of this B-B direction end face of fluid line 2 taking the block working magnet 1 of six pieces of the circumference that in figure is given as a example
Create huge change.Because the outside in former bulk working magnet 1 has been superimposed one piece of enhancing work magnetic patch 1.1, therefore exist
The magnetic field intensity of this position is greatly strengthened, and this position and the density of line of magnetic force of close position also can be made to obtain simultaneously
Strengthen.Not only show that the spacing between the magnetic field neutral surface being formed between two adjacent groups bulk working magnet contracts significantly simultaneously
Little, but also so that the weak area of magnetization being originally in the body pipeline being centrally formed that many AA magnetic field neutral surfaces intersect is contracted
Little, and its center also produces to offset to and faces the dead ahead movement being superimposed one piece of enhancing work magnetic patch 1.1,
Deviate from the center of fluid line 2.
We are by this induced field in the fluid line that additional magnet unit I or magnet adjustment unit II are led to
Displacement be referred to as magnetic field adjustable distortion.Just because of this distortion, adjustable, not only flow through being magnetized in fluid line
The intensity of magnetization that fluid is experienced is greatly improved.The reason this intensity of magnetization improves has two aspects:First, being superposition
Strong work magnetic patch 1.1 brings;It two causes the contour distortion of magnetism intensity to bring by magnetizing weak position and move distortion.
What Fig. 7, Fig. 8 were given is to be applied to two kinds of applied magnet adjustment units I of the present utility model and magnet adjustment unit
II structural representation.
Applied magnet adjustment unit I shown in Fig. 7 is by the enhancing work being arranged on a certain bulk working magnet 1 outer surface
Magnet block 1.1 is constituted, and described enhancing working magnet block 1.1 passes through by magnetic conduction radome 11, locating support 10 and is arranged on
Gripper shoe 9 on locating support 10, c-type gasket assembly 8, setting-up piece 7, adjusting nut 6 and adjusting screw rod 5, attachment screw
12 constitute the positioning regulating mechanism strengthening working magnet block 1.1;Thus constitute the highly dense magnetic field generating structure of the adjustable distortion of superposing type.
Described enhancing working magnet block 1.1 and block working magnet 1 are with S, N;Or the pairing setting of N, S-phase anti-magnetic pole.
Magnetic conduction radome 11 in the positioning regulating mechanism of described magnet adjustment unit I is a gate framework, and its underpart covers
Put on block working magnet 1, upper space then arranges one piece of enhancing working magnet block 1.1, and by being set in enhancing work
One attachment screw 12 and the adjusting screw rod 5 positioned at magnetic conduction radome 11 top of magnet block 1.1 center are spirally connected to constitute and strengthen
The upper and lower displacement structure of working magnet block 1.1;Meanwhile, it is provided with locating support 10 and external support structure in described magnetic conduction radome 11
Part 13, fixing with fluid line 2 by outer support members 13;Additionally, in described locating support 10 and outer support members 13
Top be sequentially provided with the gripper shoe 9 being set on adjusting screw rod 5, c-type gasket assembly 8 and setting-up piece 7 from bottom to top;Described
Setting-up piece 7 top be again provided with the adjusting nut 6 that is set on adjusting screw rod 5, thus constitute enhancing working magnet block
1.1 upper and lower displacement location structure.
In actual use:Magnetic conduction radome 11 in the positioning regulating mechanism of magnet adjustment unit I is a gate framework,
Its underpart is nested with block working magnet 1, and upper space then arranges one piece of enhancing working magnet block 1.1, and by being set in
The attachment screw 12 strengthening working magnet block 1.1 center is spirally connected with the adjusting screw rod 5 positioned at magnetic conduction radome 11 top
Constitute the upper and lower displacement structure strengthening working magnet block 1.1.Due to being superimposed upon on original bulk working magnet 1, from accompanying drawing 4
(i.e. in accompanying drawing 2 B B to magnetic line of force profile) in can see, due to strengthening working magnet block 1.1 and block working magnet
Collective effect on 1, not only makes the intensity (density of the magnetic line of force) of both magnetic lines of force towards fluid line 2 center position obtain
Strengthen, also make simultaneously it with adjacent bulk working magnet 1 between spacing reduce, and by all bulk working magnet
1 center represents that the position magnetizing weak area is pushed near block working magnet 1 (the close stream strengthening working magnet block 1.1 right opposite
Body pipeline);Obviously this means that out that whole field of magnetic forece creates distortion on this fluid line interface.
The magnet adjustment unit II that Fig. 8 is given is by the magnetic conduction radome being arranged on a certain bulk working magnet 1 outer surface
11st, locating support 10 and be arranged on gripper shoe 9 on locating support 10, c-type gasket assembly 8, setting-up piece 7, adjust spiral shell
Mother 6 and the positioning regulating mechanism of adjusting screw rod 5, attachment screw 12 composition.
Magnetic conduction radome 11 in the positioning regulating mechanism of described magnet adjustment unit II is a gate framework, and its underpart covers
Put on block working magnet 1, and shielded with positioned at magnetic conduction by an attachment screw 12 of magnetic conduction radome 11 center
The adjusting screw rod 5 covering 11 tops is spirally connected and constitutes the upper and lower displacement structure of block working magnet 1;Meanwhile, in described magnetic conduction radome
11 are provided with locating support 10 and outer support members 13, fixing with fluid line 2 by outer support members 13;Additionally, institute
State locating support 10 and outer support members 13 top be sequentially provided with from bottom to top the gripper shoe 9 being set on adjusting screw rod 5,
C-type gasket assembly 8 and setting-up piece 7;Described setting-up piece 7 top is again provided with the regulation spiral shell being set on adjusting screw rod 5
Female 6, thus constitute the displacement location structure of block working magnet 1.
In actual use:Magnetic conduction radome 11 in the positioning regulating mechanism of magnet adjustment unit I is a gate framework,
Its underpart is nested with block working magnet 1, and by be set in an attachment screw 12 of magnetic conduction radome 11 center with
Adjusting screw rod 5 positioned at magnetic conduction radome 11 top is spirally connected and constitutes the upper and lower displacement structure of block working magnet 1, by increasing
Or reduce.From accompanying drawing 4 (i.e. accompanying drawing 2 A A to magnetic line of force profile) in can see, not only make both towards fluid
The intensity (density of the magnetic line of force) of the magnetic line of force of pipeline 2 center position is strengthened, also make simultaneously it with block working magnet 1 on
Between spacing reduce, and by all bulk working magnet 1 centers represent position magnetize weak area push near strengthen
The block working magnet 1 (near fluid line) of working magnet block 1.1 right opposite;Obviously this means that out whole field of magnetic forece at this
Distortion is created on one fluid line circle section.
In magnet adjustment unit I/magnet adjustment unit II composition framework schematic diagram that Fig. 9 is given, both structural member bases
This is the same, slightly difference in magnetic conduction radome 11 specification that only both adopt.
Show in sum:The utility model proposes this by outside the fluid line having been provided with magnetizing assembly, increase
If applied magnet adjustment unit I and the structure of magnet adjustment unit II, not only can effectively strengthen fluid in whole fluid line
The intensity of magnetization that material senses, and can make induced field that distortion to occur by applied magnet adjustment unit;So that it is whole
The magnetization experienced within unit interval and unit distance for the fluid in fluid line is strengthened.Obviously this is for appointing
What improves tube fluid magnetic efficiency using magnetization is extremely effective.
More than, it is only the basic embodiment that the utility model proposes according to utility model intention, in actual applications may be used
To need the physicochemical property of magnetization treatment material in foundation fluid line, and magnetic efficiency to be reached is optimized and sets
Meter.
Claims (6)
1. a kind of adjustable distortion magnetic field device that trandfer fluid in pipe is carried out with magnetization depths reason;By fluid line (2) and setting
Fluid conduit tube in vitro week on some bulk working magnet (1) combination constitute it is characterised in that:Described block work magnetic
Body (1) is arranged in N with same orientation, with the arrangement of fluid line (2) radial direction, and each two adjacent row misplace, appears as spiral row
On the distributed periphery being centered around fluid line (2) of battle array, and S/N two magnetic pole of described bulk working magnet (1) according to consistent to
Interior or consistent outside prominent form;Meanwhile, the described distributed distribution of spiral array block working magnet (1) optionally
Have additional additional magnet adjustment unit I (14) or magnet adjustment unit II (15), thus constituting can be to flowing through this section of fluid
Various flowing materials in pipeline (2) carry out the high density magnetic field device of the depth magnetization treatment of adjustable distortion.
2. as claimed in claim 1 a kind of trandfer fluid in pipe is carried out magnetize depths reason adjustable distortion magnetic field device;Its
It is characterised by:Described magnet adjustment unit I (14) is by the enhancing work magnetic being arranged on a certain bulk working magnet (1) outer surface
Body block (1.1) is constituted, described enhancing working magnet block (1.1) pass through by magnetic conduction radome (11), locating support (10) and
It is arranged on the gripper shoe (9) on locating support (10), c-type gasket assembly (8), setting-up piece (7), adjusting nut (6) and adjust
Section screw rod (5), attachment screw (12) constitute the positioning regulating mechanism strengthening working magnet block (1.1);Thus constituting superposing type can
Adjust the highly dense magnetic field generating structure of distortion.
3. as claimed in claim 1 or 2 a kind of trandfer fluid in pipe is carried out magnetize depths reason adjustable distortion magnetic field device,
It is characterized in that:Magnetic conduction radome (11) in the positioning regulating mechanism of described magnet adjustment unit I (14) is a gate framework,
Its underpart is nested with block working magnet (1), and upper space then arranges one piece and strengthens working magnet block (1.1), and by wearing
Put and strengthening an attachment screw (12) of working magnet block (1.1) center and the regulation positioned at magnetic conduction radome (11) top
Screw rod (5) is spirally connected and constitutes the upper and lower displacement structure strengthening working magnet block (1.1);Meanwhile, set in described magnetic conduction radome (11)
There are locating support (10) and outer support members (13), fixing with fluid line (2) by outer support members (13);Additionally,
It is sequentially provided with from bottom to top on the top of described locating support (10) and outer support members (13) and be set on adjusting screw rod (5)
Gripper shoe (9), c-type gasket assembly (8) and setting-up piece (7);Described setting-up piece (7) top is again provided with being set in tune
Adjusting nut (6) on section screw rod (5), thus constitutes the displacement location structure strengthening working magnet block (1.1).
4. as claimed in claim 1 a kind of trandfer fluid in pipe is carried out magnetize depths reason adjustable distortion magnetic field device;Its
It is characterised by:Described magnet adjustment unit II (15) is by the magnetic conduction screen being arranged on a certain bulk working magnet (1) outer surface
Cover cover (11), locating support (10) and be arranged on gripper shoe (9) on locating support (10), c-type gasket assembly (8), solid
Determine pad (7), adjusting nut (6) and adjusting screw rod (5), positioning regulating mechanism that attachment screw (12) is constituted.
5. as claimed in claim 4 a kind of trandfer fluid in pipe is carried out magnetize depths reason adjustable distortion magnetic field device;Its
It is characterised by:Magnetic conduction radome (11) in the positioning regulating mechanism of described magnet adjustment unit II (15) is a gate framework,
Its underpart is nested with block working magnet (1), and in the attachment screw (12) by magnetic conduction radome (11) center
It is spirally connected with the adjusting screw rod (5) positioned at magnetic conduction radome (11) top and constitute the upper and lower displacement structure of block working magnet (1);With
When, it is provided with locating support (10) and outer support members (13) in described magnetic conduction radome (11), by outer support members
(13) fixing with fluid line (2);Additionally, on the top of described locating support (10) and outer support members (13) from bottom to top
It is sequentially provided with the gripper shoe (9) being set on adjusting screw rod (5), c-type gasket assembly (8) and setting-up piece (7);Described fixation
Pad (7) top is again provided with the adjusting nut (6) being set on adjusting screw rod (5), thus constitutes block working magnet (1)
Displacement location structure.
6. as claimed in claim 2 a kind of trandfer fluid in pipe is carried out magnetize depths reason adjustable distortion magnetic field device;Its
It is characterised by:Described enhancing working magnet block (1.1) and block working magnet (1) are with S, N;Or the anti-magnetic pole of N, S-phase matches
Setting.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620881802.2U CN205925673U (en) | 2016-08-15 | 2016-08-15 | Adjustable distortion magnetic field device of depths reason is magnetized intraductal conveyance fluid |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620881802.2U CN205925673U (en) | 2016-08-15 | 2016-08-15 | Adjustable distortion magnetic field device of depths reason is magnetized intraductal conveyance fluid |
Publications (1)
Publication Number | Publication Date |
---|---|
CN205925673U true CN205925673U (en) | 2017-02-08 |
Family
ID=57921498
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201620881802.2U Withdrawn - After Issue CN205925673U (en) | 2016-08-15 | 2016-08-15 | Adjustable distortion magnetic field device of depths reason is magnetized intraductal conveyance fluid |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN205925673U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106268570A (en) * | 2016-08-15 | 2017-01-04 | 上海致行能源科技有限公司 | A kind of adjustable distortion magnetic field device that conveyance fluid in pipe is carried out magnetization depths reason |
-
2016
- 2016-08-15 CN CN201620881802.2U patent/CN205925673U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106268570A (en) * | 2016-08-15 | 2017-01-04 | 上海致行能源科技有限公司 | A kind of adjustable distortion magnetic field device that conveyance fluid in pipe is carried out magnetization depths reason |
CN106268570B (en) * | 2016-08-15 | 2019-03-19 | 上海致行能源科技有限公司 | A kind of pair is managed the adjustable distortion magnetic field device that interior trandfer fluid carries out magnetization depths reason |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN106257602A (en) | A kind of radial direction adjusts the portable nuclear magnetic resonance detection permanent-magnet of uniform field | |
CN102360717B (en) | Liquid magnetizer with variant Halbach permanent magnet array | |
CN205925673U (en) | Adjustable distortion magnetic field device of depths reason is magnetized intraductal conveyance fluid | |
CN102357410A (en) | Dry-type permanent magnetic roller for separation of fine-disseminated ore | |
CN106268570B (en) | A kind of pair is managed the adjustable distortion magnetic field device that interior trandfer fluid carries out magnetization depths reason | |
CN101281239A (en) | Permanent magnetic body used for magnetic resonance imaging and manufacturing method thereof | |
CN207103833U (en) | A kind of isostatic cool pressing prepares the fixture of big specification molybdenum target material | |
CN203904464U (en) | Expandable combined type multipolar electrolytic tank | |
CN206050007U (en) | The manual active frame of plain type | |
CN1862718A (en) | Bipolar permanent magnet | |
CN205205223U (en) | Coating film substrate frame and vacuum coating equipment | |
CN107546669A (en) | One kind is used for explosion-proof type cable fixture | |
CN203778213U (en) | Magnetic interference dense medium cyclone | |
CN202762422U (en) | Magnetic processor for liquids | |
CN208265822U (en) | Combined fluid magnetizing assembly | |
CN203923446U (en) | Heat shield for single crystal furnace | |
CN206928324U (en) | Support component, embedded supporting member and the compound piping lane of bamboo | |
CN204172164U (en) | A kind of two-way pressure type hydraulic press that independently shakes | |
CN205222769U (en) | Magnetic treatment hydrophone | |
CN206982229U (en) | A kind of numerical controlled machinery fixture for processing | |
CN201357111Y (en) | Permanent-magnet high field-intensity magnetic filter | |
CN207430520U (en) | A kind of adjustable magnetic separation roller of clay-bonded sand sand processing magnetic-separation belt conveyor | |
CN207660032U (en) | A kind of gardens drainpipe being conveniently replaceable | |
CN206506422U (en) | The radially magnetic field orientating structure of 2 pole plastic magnetic rotors | |
CN204354270U (en) | A kind of inspection shaft mould |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20170208 Effective date of abandoning: 20190319 |