CN205381995U - Adjustable fluid magnetization unit - Google Patents

Abstract

The utility model relates to an adjustable fluid magnetization unit. The device includes: the pipe for the conveyance fluid, magnetic device, set up in the outside of pipe, it is right to be used for the fluid carries out magnetic treatment, the occlusion part can produce for the pipe and remove, is used for through changing the fluid passes through the sectional area of pipe changes the fluid is in the velocity of flow in the pipe, it is right in order to adjust fluidic magnetization degree, and the casing, be used for sealing the pipe magnetic device with occlusion part at least partly. The utility model provides an adjustable fluid magnetization unit structure is small and exquisite simple, and conveniently the control flow is through the fluid speed in magnetic field for can realize the different magnetization degree of convection cell.

Description

Adjustable fluid magnetizing assembly

Technical field

This utility model relates generally to a kind of magnetizing assembly, more particularly, to a kind of adjustable fluid magnetizing assembly.

Background technology

Magnetic field has a very wide range of applications in industrial or agricultural and daily life.Especially in agricultural production, for increasing that crop yield requires, except changing crop itself, water necessary to cultivation of crops there has also been significantly high requirement.Magnetic water serves positive beneficial effect as there being the growth for crop of the water of given efficacy.Through the seed of magnetic water infiltration, its internal amylase activity is improved, and respiratory intensity there has also been raising, Substance Transformation, transport and energy metabolism when this physiological change is conducive to seed germination；Through the crop that magnetic water is cultivated, the Mitotic frequency of its root and plumular axis increases, and has promoted the increase of root elongation zone cell volume；Through the soil that magnetic water is irrigated, the soil is porous for it, not easily hardens, and improves the crop absorption rate to moisture and mineral element, thus improve the yield of crop.

Present stage is many by adding magnetization medicament in cistern or setting up circulation for the magnetic water of cultivation of crops, and to obtain magnetic water, the usual engineering of this mode is complicated, and needs special working space, is unfavorable for extensive use.Therefore consider a kind of simple in construction, can be widely used for magnetizing assembly everywhere.Such as, the Chinese patent that the patent No. is CN2876080U proposes " fluid magnetizer ", and this patent is provided with, by water tubular union outer wall, two magnets that the opposite sex is relative, is provided with choke apparatus at pipe inner wall simultaneously, the current passed through are magnetized.This device simply and changes water velocity by choke apparatus and has reached the purpose of magnetic water, but the water velocity that this device changes is fixed, therefore hydromagnetic field intensity after its magnetization also fixes, it is impossible to the demand for different crops regulates, and still cannot be widely applied in agricultural production.

Accordingly, it would be desirable to a kind of fluid magnetizer, its simple in construction, and the magnetic field size of generation can be regulated.

Utility model content

For the shortcoming and defect overcoming prior art to exist, an aspect of the present utility model is in that to provide a kind of magnetizing assembly, its simple in construction, and can regulate the flow velocity of wherein fluid, thus changing fluid to be subject to magnetized intensity.

According to an one exemplary embodiment of the present utility model, it is provided that a kind of adjustable fluid magnetizing assembly, described device includes: conduit, for conveyance fluid；Magnetic device, is arranged at the outside of described conduit, for described fluid is carried out magnetization treatment；Occlusion part, it is possible to produce mobile relative to conduit, for changing described fluid flow velocity in described conduit by the sectional area of described conduit by changing described fluid, to adjust the magnetization degree to described fluid；And housing, for encapsulating at least some of of described conduit, described magnetic device and described occlusion part.

In one embodiment, described fluid magnetizer also includes flow sensor, for sensing described fluid flow velocity in described conduit, the flow velocity sensed and predetermined threshold are compared, drive described occlusion part to produce relative to conduit according to magnitude relationship between the two mobile.

In one embodiment, described fluid magnetizer also includes manual adjustments device, and a part for described manual adjustments device is through described housing and is connected to described occlusion part, mobile for driving described occlusion part to produce relative to conduit in response to the operation of user.

In one embodiment, the plane that described occlusion part is formed is vertical with the axis of described conduit.

In one embodiment, described conduit includes notch, and described occlusion part is baffle plate, described baffle plate can insert described conduit or extract from described conduit along described notch at least partially, thus reducing or increase the described fluid sectional area by described conduit, to increase or to reduce the magnetization degree to described fluid.

In one embodiment, appropriately set the size of described notch, and be filled with encapsulant between described notch and described baffle plate, to prevent the described fluid when described baffle plate inserts or pull out described conduit from spilling from described conduit.

In one embodiment, described occlusion part has iris diaphragm structure, by increasing or reduce the through hole of described iris diaphragm structure, thus increasing or reduce the described fluid sectional area by described conduit, to reduce or to increase the magnetization degree to described fluid.

In one embodiment, described occlusion part includes multiple stripes, each described stripes front is provided with projection, the back side is provided with groove, described groove is for being slidably connected with the projection of stripes another described, the plurality of stripes can be launched or draw in be combineding with each other, thus reducing or increase the described fluid sectional area by described conduit, to increase or to reduce the magnetization degree to described fluid.

In one embodiment, described occlusion part includes multiple flabellum portion, front, each described flabellum portion is provided with projection, the back side is provided with groove, described groove is for being slidably connected with the projection in flabellum portion another described, and the plurality of flabellum portion is of similar shape and can rotate centered by the axle of described conduit, to launch in combination or to draw in, thus reducing or increase the described fluid sectional area by described conduit, to increase or to reduce the magnetization degree to described fluid.

In one embodiment, described conduit includes many height pipe, described occlusion part can produce mobile relative at least one height pipe in the plurality of sub-pipe, described fluid flow velocity in described conduit is generally changed by the sectional area of described sub-pipe, to adjust the magnetization degree to described fluid thereby through changing described fluid.

This utility model compared with prior art, has the advantage that

1. this utility model by adopt occlusion part regulated fluid by area, thus controlling to flow through the fluid velocity in magnetic field so that the Lorentz force that the charged particle in fluid is subject in magnetic field is different, to obtain magnetizing fluid in various degree；

2. occlusion part can regulate as required, when being especially applicable to farmland, can according to the different demand regulated fluid magnetizing assemblys of different crops, the fluid velocity flowing through magnetic field changes, make it possible to realize the different magnetization degree of convection cell, thus providing the magnetization water of the demand being applicable to different crops.

Other advantages of the present utility model are by from reference to the accompanying drawings the description of detailed description of the invention being apparent from.

Accompanying drawing explanation

Figure 1A illustrates the magnetizer structure figure being provided with manual adjustments occlusion part.

Figure 1B illustrates the magnetizing assembly side view being provided with manual adjustments occlusion part.

Fig. 1 C illustrates the A-A profile being provided with manual adjustments occlusion part magnetizing assembly.

Fig. 2 A illustrates the magnetizer structure figure being provided with aperture.

Fig. 2 B illustrates magnetizing assembly schematic diagram when aperture closes up.

Fig. 2 C illustrates magnetizing assembly schematic diagram when aperture launches.

Fig. 3 A illustrates that be provided with can the magnetizer structure figure of push-and-pull occlusion part.

Fig. 3 B illustrates that be provided with can the magnetizing assembly side view of push-and-pull occlusion part.

Fig. 3 C illustrates the front schematic view of push-and-pull occlusion part.

Fig. 3 D illustrates the schematic rear view of push-and-pull occlusion part.

Fig. 4 A illustrates the magnetizer structure figure being provided with fan-type occlusion part.

Fig. 4 B illustrates the magnetizing assembly side view being provided with fan-type occlusion part.

Fig. 5 A illustrates the magnetizer structure figure being provided with venetian blind type occlusion part.

Fig. 5 B illustrates the magnetizing assembly side view being provided with venetian blind type occlusion part.

Fig. 6 illustrates the magnetizer structure figure being provided with sub-pipe.

Detailed description of the invention

Just this utility model being described further below for the ease of it will be appreciated by those skilled in the art that, the content that embodiment is mentioned is not to restriction of the present utility model in conjunction with the embodiments.

To enable the flow velocity of convection cell is controlled thus regulating the magnetization of convection cell, embodiments herein proposes a kind of novel adjustable fluid magnetizing assembly.

In embodiments herein, this adjustable fluid magnetizing assembly may include that conduit, magnetic device, occlusion part and housing.

This conduit may be used for conveyance fluid.

Such as, the cylinder that this conduit can adopt cross section to be arbitrary shape.Specifically, this conduit can be cylinder, oblong body, cuboid, six prisms or eight prisms etc..But, conduit is unrestricted in above-mentioned shape, its can according to being actually needed change, to adapt to the actual demand of different purification applications scene.

In conduit, this fluid of conveying could be for the breeding water etc. of the water of crop irrigation, boiler feed water, the boil off water of printing and dyeing mill, raising aquatic products, poultry, domestic animal etc..Obviously, the purposes of magnetic water is unrestricted in above-mentioned application scenarios, but can apply to other and be currently known and be likely to any scene learnt in the future.

It addition, the fluid of conveying can also be in addition to other conductor fluid outside water in conduit, such as, the gas of noble gas, chemicals, solution, oil etc, liquid, semisolid etc..

In one embodiment, this conduit can be made up of single catheter, and all of fluid is all carried via this single catheter.Alternatively, this conduit can also include many height pipe, and either separately or simultaneously transmits a certain amount of fluid in every root pipe.

This magnetic device may be used for described fluid is carried out magnetization treatment, namely applies magnetic field.

Such as, described magnetic device can be made up of permanent magnet material (such as, alloy type, ferrite class, intermetallic compound kind etc.), and it is after external magnetic field magnetizes, even if under sizable opposing magnetic field acts on, remain to keep the magnetic of one or the former direction of magnetization in big portion.

Alternatively, they can also be made up of non-permanent magnet material.Such as, described magnetic device is a pair solenoid, its a kind of device being switched on producing magnetic.In this case, described adjustable fluid magnetizing assembly can also include: coil actuator, for applying to drive electric current to this to solenoid so that it is applies magnetic field in response to driving electric current to fluid.

This magnetic device can be arranged on the optional position in described adjustable fluid magnetizing assembly, and relative position between the two can also be arranged arbitrarily.

In one embodiment, in order to ensure magnetic efficiency and make magnetic device be protected from the erosion of fluid, described magnetic device can be arranged at the outside of described conduit.But, the application is not limited to this.Such as, in order to reduce this adjustable fluid magnetizing assembly overall dimensions, it is also possible to described magnetic device to be placed completely or partially in the inside of described conduit.

Additionally, in order to strengthen magnetic device for leading the magnetic efficiency of tube fluid, described magnetic device can with the symmetrically disposed about both sides at conduit of the axle of described conduit, and the opposite polarity of described magnetic device opposite side.

Although it should be noted that all illustrate for two magnetic devices in the description of the present application, but, the unlimited number of magnetic device is in this.Such as, when not requiring very intense magnetic field horizontal, it would however also be possible to employ a magnetic device.Alternatively, when requiring very intense magnetic field horizontal, the number of this magnetic device can also be more than two and be preferably even number.Such as, when including three pairs of magnetic devices, the center of these three pairs of magnetic devices may be located on the ad-hoc location of the same cross section of conduit, for instance can separate with 120 degree of angles between each two magnetic device；Or these three pairs of magnetic devices can also be divided into three groups, lays respectively on the varying cross-section of conduit.

This occlusion part may be used for by moving the change described fluid sectional area by described conduit relative to conduit, thus changing described fluid flow velocity in described conduit, to adjust the magnetization degree to described fluid.

Why fluid flow velocity in the catheter may decide that the magnetization degree of fluid, and this is owing to the magnetization principle of fluid determines.Below, in order to convenient, the example using water as fluid is gone on to say.

It is generally acknowledged that water system carries out magnetic treatment and mainly accelerates the crystallization within solution, so that salt direct crystallization on heating surface and hard deposition greatly reduce.Specifically, being mutually shifted of water and magnetic current, it is possible to produce faradic current due to electromagnetic induction, under the effect of Lorentz force, the hydrone of low pole and the charged ion of other impurity do adverse movement.In this process, negative ions or granule collide formation a number of " ion association body " mutually, this association body has enough stability, water defines substantial amounts of crystallization nuclei, with these crystal be core particle can be stable be present in water, thus achieve the magnetization of water.

Specifically, Lorentz force is to move in the power suffered by the charged particle of electromagnetic field.According to Lorentz force law, Lorentz force can be expressed as with equation (being called Lorentz force equation):

F=q v B

Wherein, F is Lorentz force, and q is the quantity of electric charge of charged particle, and v is the speed of charged particle, and B is magnetic induction.

From the equation, when other condition is fixing, Lorentz force is with the speed of charged particle in conductor fluid (namely, the flow velocity of fluid) it is directly proportional, say, that the flow velocity of fluid is more fast, Lorentz force suffered by its charged particle comprised is more big, and its magnetized intensity is also more high；Otherwise, the flow velocity of fluid is more slow, and the Lorentz force suffered by its charged particle comprised is more little, and its magnetized intensity is also more low.

In embodiments herein, it is based on above-mentioned principle, by adopting the occlusion part regulated fluid area by conduit, thus controlling to flow through the fluid velocity in magnetic field, make the Lorentz force that the charged particle in fluid is subject in magnetic field different, to obtain the magnetic water of varying strength.Specifically, according to the demand to magnetization degree, can increase or reduce occlusion part and block the area of conduit, thus reducing or increasing the current area by conduit, and then increase or reduce water velocity, make in water the Lorentz force suffered by charged particle increase or reduce, finally making the intensity of magnetization of fluid increase or reduce.

Such as, in order to reach the choked flow efficiency of the best, the plane that described occlusion part is formed can be vertical with the axis of described conduit.It may be evident, however, that the application is not limited to this.Such as, the angle between this occlusion part is formed plane and the axis of conduit can also be in addition to other angle of inclination outside 90 degree.Even, this occlusion part can also adopt other shape of such as umbrella, wedge shape etc.

In one embodiment, described conduit can include notch, and described occlusion part can be baffle plate, described baffle plate can insert described conduit or extract from described conduit along described notch at least partially, thus reducing or increase the described fluid sectional area by described conduit.

Specifically, when there is sufficient space between housing and conduit and may be used for holding baffle plate at least in part, can only in conduit is opened groove so that baffle plate from being inserted into catheter interior between housing and conduit, or can be extracted between housing and conduit from catheter interior.Alternatively, space between housing and conduit relatively small and when causing that baffle plate is at least part of and need to be exposed to hull outside, groove can be all opened so that baffle plate can be inserted into catheter interior from housing, or extracts hull outside from catheter interior on housing and conduit.So, can according to the demand of the convection cell intensity of magnetization, baffle plate is inserted described conduit or extracts from described conduit, the fluid area passing through conduit reduces or increases, thus increasing or reduce the speed of fluid, make in fluid the Lorentz force suffered by charged particle increase or reduce, finally making the degree of fluid magnetic reach increase or the reduction of demand.

When occlusion part is baffle plate, preferably, the size of notch on described conduit can be appropriately set, and encapsulant can be filled with between described notch and described baffle plate, to prevent the described fluid when described baffle plate inserts or pull out described conduit from spilling from described conduit.

In another embodiment, this occlusion part can have iris diaphragm structure, by increasing or reduce the through hole of described iris diaphragm structure, thus increasing or reduce the described fluid sectional area by described conduit.

Specifically, can according to the demand of the convection cell intensity of magnetization, increase or reduce the through hole of described iris diaphragm structure, the fluid area passing through conduit increases or reduces, thus reducing or increase the speed of fluid, make in fluid the Lorentz force suffered by charged particle reduce or increase, finally making the degree of fluid magnetic reach reduction or the increase of demand.

In another embodiment, this occlusion part can include multiple stripes, each described stripes front is provided with projection, the back side is provided with groove, described groove is for being slidably connected with the projection of stripes another described, the plurality of stripes can be launched or draw in be combineding with each other, thus reducing or increase the described fluid sectional area by described conduit.

Specifically, the minimum area of described occlusion part be draw in after the area of single stripes, the maximum area of described occlusion part is that after launching, the area sum of multiple stripes deducts the overlapping region area between two often adjacent stripes.Then, can according to the demand of the convection cell intensity of magnetization, launch or draw in the area of occlusion part, to reduce or to increase the described fluid sectional area by described conduit, thus increasing or reduce the speed of fluid, make in fluid the Lorentz force suffered by charged particle increase or reduce, finally making the degree of fluid magnetic reach increase or the reduction of demand.

In another embodiment, described occlusion part can include multiple flabellum portion, front, each described flabellum portion is provided with projection, the back side is provided with groove, described groove is for being slidably connected with the projection in flabellum portion another described, the plurality of flabellum portion is of similar shape and can rotate centered by the axle of described conduit, to launch in combination or to draw in, thus reducing or increase the described fluid sectional area by described conduit.

Similar with the embodiment of strip occlusion part above, the minimum area of described flabellum shape occlusion part is the area in single flabellum portion, and the area sum that the maximum area of described occlusion part is multiple flabellum portion deducts overlapping region area each other.So, can launch or draw in the area of occlusion part as required so that the degree of fluid magnetic reaches increase or the reduction of demand.

Although it should be noted that be described for above-mentioned multiple embodiments, but the application is not limited to this, but can also adopt the occlusion part with other structure for realizing identical function.Such as, in another embodiment, described occlusion part can also be venetian blind type, it is possible to by the angle that regulation shutter blade is opened, and changes the sectional area flowing through catheter fluid, and then changes fluid velocity, finally makes fluid magnetic degree reach expection and sets.

Adjustment for occlusion part, it is possible to be automatically adjusted, it is possible to manual adjustments.

In one embodiment, described fluid magnetizer can be provided with flow sensor, for sensing described fluid flow velocity in described conduit, and the data of sensing and predetermined threshold are compared, drive described occlusion part to produce relative to conduit according to magnitude relationship between the two mobile.

Such as, this flow sensor can be plug-in type, is fixed in conduit to measure rate of flow of fluid；Can also be pipeline section type, be connected between water pipe and magnetizing assembly for measuring rate of flow of fluid；Can also is that external clamping, be clipped in magnetizing assembly water inlet, be used for measuring fluid velocity.Obviously, the application is not limited to aforesaid way, but can also adopt other various possible modes.

In addition, or alternatively, described fluid magnetizer also can be provided with manual adjustments device, a part for described manual adjustments device is through described housing and is connected to described occlusion part, mobile for driving described occlusion part to produce relative to conduit in response to the operation of user；Or, described manual adjustments device also can a part through described housing and be connected with described occlusion part magnetic at described conduit outer wall, drives described occlusion part to move relative to conduit by magnetic force.

During manual adjustments occlusion part, this magnetizing assembly can be adjusted by the mode that adjusting means is directly or indirectly connected with occlusion part.

In one embodiment, as mentioned above, hole can be opened on the housing, described manual adjustments device is through described hole, on described conduit, open notch simultaneously, make described occlusion part can insert described conduit along described notch or extract from described conduit at least partially under the control of manual adjustments device, thus reducing or increase the described fluid sectional area by described conduit.Preferably, in order to prevent the described fluid when described occlusion part inserts or pull out described conduit from spilling from described conduit, the size of described notch can be appropriately set, and between described notch and described occlusion part, it is filled with encapsulant, such as rubber, plastics or other composites, to ensure the sealing of magnetizing assembly.

Such as, this manual adjustments device can adopt screw-rod structure, by rotary handle, occlusion part is smoothly inserted into or extracts conduit.Or, this manual adjustments device can also adopt buckle structure, is made occlusion part disposable by the button of fixing/discharge on handle or is inserted or pull out conduit with being divided into several grades.Obviously, the application is not limited to above two mode, but can also adopt other various possible modes.

In yet another embodiment, only can open hole or groove on the housing, the described manual adjustments device described hole of traverse or groove, it is provided with magnetic device in the part near described conduit, described occlusion part also is provided with magnetic device near described pipe inner wall part simultaneously, and the magnetic device magnetic inside and outside catheter wall is contrary, described manual adjustments device attracts to interact with described occlusion part by magnetic force, and described manual adjustments device drives occlusion part to move relative to conduit by magnetic force.

Additionally, except being changed the sectional area flowing through fluid by occlusion part, the sectional area of conduit also can be changed thus changing the sectional area flowing through conduit current.Such as, described conduit can include many height pipe, described occlusion part can produce mobile relative at least one height pipe in the plurality of sub-pipe, needs according to convection cell magnetization degree, one or more sub-pipe is optionally blocked, so that the fluid total cross section flowing through sub-pipe changes generally changes described fluid flow velocity in described conduit by occlusion part.Such as, the number of described sub-pipe can be 2,3,4 even more.

This housing may be used for encapsulating at least some of of described conduit, described magnetic device and described occlusion part.

In one embodiment, but this housing can be and the conduit identically shaped cross section cylinder more than conduit.Such as, when conduit is the cylinder with the first radius, this housing can be the cylinder with the second radius more than the first radius, for being nested in wherein by devices such as conduits, to ensure the integrity of product and to make wherein each parts from damage.

In another embodiment, this housing can also have the shape different from conduit.Such as, when conduit is the cylinder with the first radius, this housing can be a hexagonal prism, and this cylindrical circular cross section can be inscribed within the hexagonal cross-section of this hexagonal prism or less.

Such as, this housing can adopt any material of such as metal, plastics, glass etc to constitute.Preferably, this housing can adopt NULL to constitute, in order to avoid leaking in the magnetic field that magnetic device applies.

Below, the structure of adjustable fluid magnetizing assembly being specifically described in embodiments according to the embodiment of the present application.

Embodiment 1

Figure 1A illustrates the magnetizer structure figure of manual adjustments occlusion part.As shown in Figure 1A, conduit 110 is in a cylindrical shape, and circulates for fluid；Conduit 110 is outside to be wrapped up by housing 130, and housing 130 is provided with opening in conduit 110 two-port, passes in and out for fluid；Manual adjustments device 140 is located at housing 130 surface, it is preferable that manual adjustments device 140 is provided with screw thread, can radially be threaded in or out housing 130 surface.

Figure 1B and 1C illustrates magnetizing assembly side view and the A-A profile of manual adjustments occlusion part.As shown in figs. ib and 1 c, outside conduit 110, in housing 130, it is additionally provided with magnetic device 120, for the fluid flowing through conduit 110 is carried out magnetization treatment；Conduit 110 is internal is provided with occlusion part 150, and the plane that occlusion part 150 is formed is vertical with conduit 110 axis；Mobile for making occlusion part 150 can produce relative to conduit 110, it is provided with notch at conduit 110 wall and is provided with perforate at housing 130 wall correspondence position, make occlusion part 150 can be at least partially inserted into or extract conduit 110, thus changing the described fluid sectional area by described conduit 110, and then change described fluid flow velocity in described conduit 110；Preferably, it is provided with the screwed hole corresponding to manual adjustments device 140 in housing 130, through housing 130 and is connected with occlusion part 150 for manual adjustments device 140, when rotation manual adjusting means 140, scalable occlusion part 150 moves radially so that occlusion part 150 is closer or far from conduit 110.When fluid flows through conduit 110, according to the different demands to magnetic water intensity, rotation manual adjusting means 140, the area that occlusion part 150 stretches into conduit 110 is made to increase or reduce, so that the area flowing through conduit 110 fluid reduces or increases, rate of flow of fluid increases or reduces, and in fluid, the Lorentz force suffered by charged particle increases or reduces, and finally gives the magnetizing fluid that the intensity of magnetization is higher or more weak.In order to prevent fluid from spilling from the notch of conduit 110, it is also possible to appropriately set the size of notch, and be filled with encapsulant between notch and occlusion part 150 and manual adjustments device 140, to ensure the sealing of magnetizing assembly.

Embodiment 2

Fig. 2 A illustrates the magnetizer structure figure being provided with aperture.As shown in Figure 2 A, magnetic device 120 surface is provided with manual adjustments device 140, and manual adjustments device 140 can rotate along conduit 110 axis.

Fig. 2 B and 2C illustrates magnetizing assembly schematic diagram when aperture closes up and launches.As illustrated by figures 2 b and 2 c, the occlusion part in conduit 110 is iris diaphragm structure 151, and the plane that iris diaphragm structure 151 is formed is vertical with conduit 110 axis, and iris diaphragm structure 151 is provided with magnetic material (not shown) near the part of conduit 110 inwall；Manual adjustments device 140 traverse housing 130 and conduit 110 wall contacts, manual adjustments device 140 and conduit 110 wall contacts part are provided with magnetic material (not shown), the magnetic part magnetic that manual adjustments device 140 is relative with aperture magnetic part is contrary, and the two is attracting by magnetic force.When along conduit 110 axle rotation manual adjusting means 140, manual adjustments device 140 drives iris diaphragm structure 151 to rotate by magnetic force, diaphragm hole zooms in or out, so that the fluid area flowing through conduit 110 reduces or increases, to obtain the magnetizing fluid that magnetization degree increases or reduces.

Other aspects of embodiment 2 are similar to Example 1, repeat no more herein.Obviously, the connection of manual adjustments device 140 and occlusion part is not limited to magnetic connection, it is possible to connect by other means.

Embodiment 3

Fig. 3 A-3D illustrate be provided with can the magnetizer structure figure of push-and-pull occlusion part, side view and push-and-pull occlusion part positive schematic rear view.As shown in figs. 3 a-3 c, occlusion part is made up of several stripes 152, and the plane that each stripes 152 is formed is vertical with conduit 110 axis；Each stripes 152 front is provided with protruding 161, the back side is provided with groove 162, groove 162 is slidably connected for the projection 161 with another stripes 152, and the stripes 152 that these are slidably connected can be launched slidably or draw in, thus reducing or increase the fluid sectional area by conduit 110.When stripes 152 is all drawn in, the area of occlusion part is in minimum state, and the fluid cross-section now flowing through conduit 110 amasss maximum, and flow velocity is minimum, and the fluid magnetic degree obtained is minimum；When stripes 152 is fully open, the area of occlusion part is in maximum rating, and the fluid cross-section now flowing through conduit 110 amasss minimum, and flow velocity is maximum, and the fluid magnetic degree obtained is the highest.

Other aspects of embodiment 3 are similar to Example 2, repeat no more herein.

Embodiment 4

Fig. 4 A and 4B illustrates the magnetizer structure figure and side view that are provided with fan-type occlusion part.As illustrated in figures 4 a and 4b, occlusion part is made up of multiple flabellums 153,153 fronts of each flabellum are provided with projection, the back side is provided with groove, groove is slidably connected for the projection with another flabellum 153, multiple flabellums 153 are of similar shape, and the plane that multiple flabellum 153 is formed is vertical with the axis of conduit 110.Multiple flabellums 153 can rotate centered by the axle of conduit 110 and launch along groove order or draw in.When needing the strong fluid of the intensity of magnetization, flabellum 153 is deployed into relevant position, to reduce fluid area, to increase fluid velocity；When needing the weak fluid of the intensity of magnetization, flabellum 153 draws relevant position in, to increase fluid area, to reduce fluid velocity.

Other aspects of embodiment 4 are similar to Example 2, repeat no more herein.

Embodiment 5

Fig. 5 A and 5B illustrates the magnetizer structure figure and side view that are provided with venetian blind type occlusion part.As shown in Figure 5 A and 5B, occlusion part is formed venetian blind type by multiple blades 154, it is preferable that blade 154 is different in size, and the shutter occlusion part entirety of composition is conduit 110 cross sectional shape, and the angle changing blade 154 can change the sectional area flowing through conduit 110 fluid.When blade 154 goes to parallel with conduit 110 axis, fluid cross-section amasss maximum, and flow velocity is the slowest, and the intensity of magnetization is minimum；When blade 154 goes to the angle reduction with conduit diameter, fluid area reduces, and flow velocity accelerates, intensity of magnetization step-down；When blade 154 goes to vertical with conduit 110 axis, conduit 110 is covered completely, and current cannot pass through.

Other aspects of embodiment 5 are similar to Example 2, repeat no more herein.

Embodiment 6

Fig. 6 illustrates the magnetizer structure figure being provided with sub-pipe.As shown in Figure 6, conduit 110 is made up of many height pipe 111, occlusion part can produce mobile relative at least one height pipe 111 in many height pipe 111, as required, regulate occlusion part and block the number of sub-pipe 111, stating fluid sectional area in conduit 110 thus generally changing, making rate of flow of fluid increase or reducing, obtaining the fluid that magnetization degree increases or reduces.

Other aspects of embodiment 6 are similar to Example 2, repeat no more herein.

In sum, this utility model amasss by regulating the area change transcatheter fluid cross-section of stream of the occlusion part being located in conduit so that rate of flow of fluid changes, and finally gives the magnetic water of different magnetization degree demand；Meanwhile, adjustable fluid magnetizer structure of the present utility model is simple, low-profile, without specific work space during use, has more the meaning of actual production processing, is particularly suited for Different Crop to magnetic water demand in various degree.Obvious this utility model is a kind of novelty, progress the new design of practicality of deeply having.

Such as, in an application scenarios, adjustable fluid magnetizing assembly according to the embodiment of the present application can combine with agricultural irrigation facility, to use magnetic water that crops are irrigated, and this adjustable fluid magnetizing assembly can arrange the different magnetization degree to irrigation water according to the different qualities of crop self, to reach to promote the optimal effectiveness of crop growth.Such as, for the crops (such as, Cotton Gossypii etc.) of relatively weakly magnetization requirement of strength, it is possible to turned down the intensity of magnetization of irrigation water by this adjustable fluid magnetizing assembly；And for the crops (such as, Fructus Lycopersici esculenti etc.) of relatively hard magnetization requirement of strength, it is possible to the intensity of magnetization of irrigation water is heightened by this adjustable fluid magnetizing assembly.So, the irrigation water of the different intensity of magnetization can be produced only by a set of magnetizing assembly, provide significant conservation equipment cost, achieve customization irrigation purpose.

Although describing this utility model above with reference to one exemplary embodiment, but this utility model being not limited to this.It should be apparent to those skilled in the art that when without departing from scope of the present utility model and thought, it is possible to carry out the variations and modifications in form and details.Scope of the present utility model is only defined by claims and equivalent thereof.

Claims (10)

1. an adjustable fluid magnetizing assembly, it is characterised in that described device includes:

Conduit, for conveyance fluid；

Magnetic device, is arranged at the outside of described conduit, for described fluid is carried out magnetization treatment；

Occlusion part, it is possible to produce mobile relative to conduit, for changing described fluid flow velocity in described conduit by the sectional area of described conduit by changing described fluid, to adjust the magnetization degree to described fluid；And

Housing, for encapsulating at least some of of described conduit, described magnetic device and described occlusion part.

2. fluid magnetizer according to claim 1, it is characterized in that, described fluid magnetizer also includes flow sensor, for sensing described fluid flow velocity in described conduit, the flow velocity sensed and predetermined threshold are compared, drives described occlusion part to produce relative to conduit according to magnitude relationship between the two mobile.

3. fluid magnetizer according to claim 1, it is characterized in that, described fluid magnetizer also includes manual adjustments device, a part for described manual adjustments device is through described housing and is connected to described occlusion part, mobile for driving described occlusion part to produce relative to conduit in response to the operation of user.

4. fluid magnetizer according to claim 1, it is characterised in that the plane that described occlusion part is formed is vertical with the axis of described conduit.

5. fluid magnetizer according to claim 4, it is characterized in that, described conduit includes notch, and described occlusion part is baffle plate, described baffle plate can insert described conduit or extract from described conduit along described notch at least partially, thus reducing or increase the described fluid sectional area by described conduit, to increase or to reduce the magnetization degree to described fluid.

6. fluid magnetizer according to claim 5, it is characterized in that, appropriately set the size of described notch, and be filled with encapsulant between described notch and described baffle plate, to prevent the described fluid when described baffle plate inserts or pull out described conduit from spilling from described conduit.

7. fluid magnetizer according to claim 4, it is characterized in that, described occlusion part has iris diaphragm structure, by increasing or reduce the through hole of described iris diaphragm structure, thus increasing or reduce the described fluid sectional area by described conduit, to reduce or to increase the magnetization degree to described fluid.

8. fluid magnetizer according to claim 4, it is characterized in that, described occlusion part includes multiple stripes, each described stripes front is provided with projection, the back side is provided with groove, and described groove is for being slidably connected with the projection of stripes another described, and the plurality of stripes can be launched or draw in be combineding with each other, thus reducing or increase the described fluid sectional area by described conduit, to increase or to reduce the magnetization degree to described fluid.

9. fluid magnetizer according to claim 5, it is characterized in that, described occlusion part includes multiple flabellum portion, front, each described flabellum portion is provided with projection, the back side is provided with groove, described groove is for being slidably connected with the projection in flabellum portion another described, the plurality of flabellum portion is of similar shape and can rotate centered by the axle of described conduit, to launch in combination or to draw in, thus reducing or increase the described fluid sectional area by described conduit, to increase or to reduce the magnetization degree to described fluid.

10. fluid magnetizer according to claim 1, it is characterized in that, described conduit includes many height pipe, described occlusion part can produce mobile relative at least one height pipe in the plurality of sub-pipe, described fluid flow velocity in described conduit is generally changed by the sectional area of described sub-pipe, to adjust the magnetization degree to described fluid thereby through changing described fluid.