CN205833368U - High magnetic energy-conservation micropowder electromagnetic separator - Google Patents
High magnetic energy-conservation micropowder electromagnetic separator Download PDFInfo
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- CN205833368U CN205833368U CN201620809375.7U CN201620809375U CN205833368U CN 205833368 U CN205833368 U CN 205833368U CN 201620809375 U CN201620809375 U CN 201620809375U CN 205833368 U CN205833368 U CN 205833368U
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- copper bar
- micropowder
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Abstract
The utility model discloses a kind of high magnetic energy-conservation micropowder electromagnetic separator, belong to magnetic separator field, for feed separation, it includes feed bin, support, cylinder, controller, servo-type push pedal valve, high frequency generator, concentration equipment, support, discharging opening, tapping hole, its middle cylinder body is sequentially provided with high frequency generator, concentration equipment from top to bottom, is provided with discharging opening, tapping hole in the bottom of cylinder;Described concentration equipment includes that magnetic conductive media, copper bar, described copper bar are positioned at the periphery of magnetic conductive media, and is wound with coil on copper bar;Described controller is connected with servo-type push pedal valve, and servo-type push pedal valve is between cylinder and feed bin;Described copper bar is provided with cooling layer, and described cooling layer includes cooling water inlet, coolant outlet.In view of technique scheme, this utility model is capable of reducing magnetic separator noise in use and caloric value, and is automatically adjusted charging rate according to the different iron-holder of material, improves the separating effect of magnetic separator.
Description
Technical field
This utility model belongs to magnetic separator field, specifically, particularly relates to a kind of high magnetic energy-conservation micropowder electromagnetic separator.
Background technology
In industrial processes, often can use magnetic separator and the iron powder etc. in powder material is screened.Traditional magnetic
Select facility to have noise and a big feature of caloric value, and the magnetic field that during screening, magnetic separator produces can not meet well in production and divides
From requirement.The most in use, existing magnetic separator automaticity is inadequate, it is impossible to enough materials to different iron-holder
Automatically the charging rate of material is adjusted, and then separating effect when reducing material magnetic separation.
Summary of the invention
The purpose of this utility model is to provide a kind of high magnetic energy-conservation micropowder electromagnetic separator, and it is capable of reducing magnetic separator
Noise in use and caloric value, it is possible to be automatically adjusted charging rate according to the different iron-holder of material, improve magnetic separation
The separating effect of machine.
For reaching above-mentioned purpose, this utility model is achieved through the following technical solutions:
High magnetic described in the utility model energy-conservation micropowder electromagnetic separator, including feed bin, support, is provided with between feed bin and support
Cylinder, also includes controller, servo-type push pedal valve, high frequency generator, concentration equipment, support, discharging opening, tapping hole, wherein cylinder
Body is sequentially provided with high frequency generator, concentration equipment from top to bottom, is provided with discharging opening, tapping hole in the bottom of cylinder;Described magnetic separation
Device includes that magnetic conductive media, copper bar, described copper bar are positioned at the periphery of magnetic conductive media, and is wound with coil on copper bar;Described control
Device processed is connected with servo-type push pedal valve, and servo-type push pedal valve is between cylinder and feed bin;Described copper bar is provided with cooling layer, institute
State cooling layer and include cooling water inlet, coolant outlet.
Say further, electrostatic powder flow sensor is installed at the feed bin described in this utility model, electrostatic
Powder flow sensor is connected with controller.
Saying further, the controller described in this utility model uses PLC.
Saying further, the discharging opening described in this utility model is provided with reversing bar with the junction of tapping hole.
Saying further, the magnetic conductive media employing described in this utility model is easily magnetized and the material of demagnetization is made.
Compared with prior art, the beneficial effects of the utility model are:
1, this utility model can make copper bar into from common copper cash by changing the structure of solenoid, improve wire
Sectional area, thus improve winding current, decrease noise and caloric value, and then reduce power consumption, enhance sensing magnetic
The intensity of field.
2, this utility model can coordinate real by servo-type push pedal valve and electrostatic powder mass flow sensor with controller
The charging rate of existing different iron-holder material, thus ensure iron material separating effect in magnetic separator.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model.
In figure: 1, feed bin;2, servo-type push pedal valve;3, high frequency generator;4, copper bar;5, magnetic conductive media;6, support;7, change
To bar;8, controller;9, coolant outlet;10, cooling water inlet;11, discharging opening;12, tapping hole;13, cylinder;14, electrostatic
Formula powder flow sensor.
Detailed description of the invention
Below in conjunction with the accompanying drawings and technical scheme described herein is described further by embodiment.
Embodiment 1: a kind of high magnetic energy-conservation micropowder electromagnetic separator, including feed bin 1, support 6, is provided with between feed bin 1 and support 6
Cylinder 13, also includes controller 8, servo-type push pedal valve 2, high frequency generator 3, concentration equipment, support 6, discharging opening 11, tapping hole
12, its middle cylinder body 13 is sequentially provided with high frequency generator 3, concentration equipment from top to bottom, be provided with in the bottom of cylinder 13 discharging opening 11,
Tapping hole 12;Described concentration equipment includes magnetic conductive media 5, copper bar 4, and described copper bar 4 is positioned at the periphery of magnetic conductive media 5, and at copper
It is wound with coil on row 4;Described controller 8 is connected with servo-type push pedal valve 2, and servo-type push pedal valve 2 is positioned at cylinder 13 and feed bin 1
Between;Described copper bar 4 is provided with cooling layer, and described cooling layer includes cooling water inlet 10, coolant outlet 9.
Embodiment 2: a kind of high magnetic energy-conservation micropowder electromagnetic separator, including feed bin 1, support 6, is provided with between feed bin 1 and support 6
Cylinder 13, also includes controller 8, servo-type push pedal valve 2, high frequency generator 3, concentration equipment, support 6, discharging opening 11, tapping hole
12, its middle cylinder body 13 is sequentially provided with high frequency generator 3, concentration equipment from top to bottom, be provided with in the bottom of cylinder 13 discharging opening 11,
Tapping hole 12;Described concentration equipment includes magnetic conductive media 5, copper bar 4, and described copper bar 4 is positioned at the periphery of magnetic conductive media 5, and at copper
It is wound with coil on row 4;Described controller 8 is connected with servo-type push pedal valve 2, and servo-type push pedal valve 2 is positioned at cylinder 13 and feed bin 1
Between;Described copper bar 4 is provided with cooling layer, and described cooling layer includes cooling water inlet 10, coolant outlet 9.Described feed bin 1 is pacified
Equipped with electrostatic powder flow sensor 14, electrostatic powder flow sensor 14 is connected with controller 8.Described controller 8 is adopted
Use PLC.Described discharging opening 11 is provided with reversing bar 7 with the junction of tapping hole 12.Described magnetic conductive media 5 uses
Easily magnetize and the material of demagnetization is made.
By above-described embodiment, the micropowder material containing iron powder in use, is entered into by this utility model by feed bin 1
The inside of high magnetic energy-conservation micropowder electromagnetic separator cylinder 13, is vibrated to material by high frequency generator 3 so that its mesoplate
Pulverizing, the various compositions in micropowder powder material reach mix homogeneously each other, suitably carry out the state of magnetic separation.
Micropowder material through high frequency generator 3 enters into concentration equipment, and concentration equipment includes two parts, in being positioned at
The magnetic conductive media 5 at heart position, it is positioned at the copper bar 4 of magnetic conductive media 5 periphery, and on copper bar 4, it is wound with coil, copper bar 4 adds
Form the sectional area of wire in magnetic field, improve winding current, decrease noise and the caloric value of 50% simultaneously, reduce 30%
Power consumption, and the magnetic field that copper bar 4 in this utility model produces can reach 30,000 Gausses.
Using to this medium 5 of using in this utility model is prone to magnetize and the material of demagnetization is made, and such material can
Noresidue or less residual magnetic, it is simple to the separation of iron powder.
This utility model position between feed bin 1 and cylinder 13 is provided with servo-type push pedal valve 2, servo-type push pedal valve
2 flow velocitys that can control material according to the instruction of controller 8, regulation material enters cylinder 13.Simultaneously can also be new in this practicality
The position of the servo-type push pedal valve 2 of type is provided with electrostatic powder flow sensor 14, and this sensor can detect entrance magnetic
Select the powder concentration in machine and flow velocity, and judge the iron-holder in material according to above-mentioned numerical value.When electrostatic powder flow passes
When the sensor numerical value is transferred to controller 8 by sensor 14, controller 8 can be automatically adjusted servo according to the data collected
The opening angle size of formula push pedal valve 2, to realize being automatically adjusted the function of charging rate according to powder iron-holder.
Being additionally provided with cooling layer on copper bar 4, cooling layer is positioned at the outside of coil, and by cooling water inlet 10, cooling
Water out 9 is connected with chiller, it is ensured that the safe and stable operation of concentration equipment, takes away the waste heat that impact runs in time.
Material through magnetic separation leaves cylinder 13, iron powder or ferrous material by two-way and leaves cylinder by tapping hole 12
13, remaining material leaves cylinder 13 by discharging opening 11.Reversing bar 7 it is also equipped with between tapping hole 12 and discharging opening 11,
Reversing bar 7 can realize the order between above-mentioned discharging opening 11 and tapping hole 12 or alternately discharging successively.
Claims (5)
1. a high magnetic energy-conservation micropowder electromagnetic separator, including feed bin (1), support (6), is provided with cylinder between feed bin (1) and support (6)
Body (13), it is characterised in that: also include controller (8), servo-type push pedal valve (2), high frequency generator (3), concentration equipment, support
(6), discharging opening (11), tapping hole (12), its middle cylinder body (13) is sequentially provided with high frequency generator (3), concentration equipment from top to bottom,
Discharging opening (11), tapping hole (12) it is provided with in the bottom of cylinder (13);Described concentration equipment includes magnetic conductive media (5), copper bar
(4), described copper bar (4) is positioned at the periphery of magnetic conductive media (5), and is wound with coil on copper bar (4);Described controller (8) with
Servo-type push pedal valve (2) connects, and servo-type push pedal valve (2) is positioned between cylinder (13) and feed bin (1);Described copper bar sets on (4)
Cooling layer, described cooling layer is had to include cooling water inlet (10), coolant outlet (9).
High magnetic the most according to claim 1 energy-conservation micropowder electromagnetic separator, it is characterised in that: described feed bin (1) place is provided with
Electrostatic powder flow sensor (14), electrostatic powder flow sensor (14) is connected with controller (8).
High magnetic the most according to claim 2 energy-conservation micropowder electromagnetic separator, it is characterised in that: described controller (8) uses PLC
Programmable Logic Controller.
4. according to the high magnetic energy-conservation micropowder electromagnetic separator described in any claim in claims 1 to 3, it is characterised in that: institute
The junction stating discharging opening (11) and tapping hole (12) is provided with reversing bar (7).
High magnetic the most according to claim 4 energy-conservation micropowder electromagnetic separator, it is characterised in that: described magnetic conductive media (5) uses
Easily magnetize and the material of demagnetization is made.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620809375.7U CN205833368U (en) | 2016-07-29 | 2016-07-29 | High magnetic energy-conservation micropowder electromagnetic separator |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620809375.7U CN205833368U (en) | 2016-07-29 | 2016-07-29 | High magnetic energy-conservation micropowder electromagnetic separator |
Publications (1)
Publication Number | Publication Date |
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CN205833368U true CN205833368U (en) | 2016-12-28 |
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ID=57640369
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201620809375.7U Active CN205833368U (en) | 2016-07-29 | 2016-07-29 | High magnetic energy-conservation micropowder electromagnetic separator |
Country Status (1)
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CN (1) | CN205833368U (en) |
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2016
- 2016-07-29 CN CN201620809375.7U patent/CN205833368U/en active Active
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
PE01 | Entry into force of the registration of the contract for pledge of patent right |
Denomination of utility model: High magnetic energy saving micro powder electromagnetic separator Effective date of registration: 20210425 Granted publication date: 20161228 Pledgee: Shandong Linshu Rural Commercial Bank Co., Ltd Pledgor: SHANDONG JINMENG NEW MATERIAL Co.,Ltd. Registration number: Y2021980003015 |
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PE01 | Entry into force of the registration of the contract for pledge of patent right |