CN208373318U - A kind of oil-cooled electromagnetic deferrization device - Google Patents
A kind of oil-cooled electromagnetic deferrization device Download PDFInfo
- Publication number
- CN208373318U CN208373318U CN201821604694.XU CN201821604694U CN208373318U CN 208373318 U CN208373318 U CN 208373318U CN 201821604694 U CN201821604694 U CN 201821604694U CN 208373318 U CN208373318 U CN 208373318U
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- Prior art keywords
- oil
- pipe
- electromagnetism
- iron
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Abstract
The utility model discloses a kind of oil-cooled electromagnetic deferrization devices, it is characterized by comprising racks, electromagnetism is except iron case and removes iron pipe conduit, the electromagnetism is except iron case and except iron pipe conduit is respectively provided on the rack, the electromagnetism is provided with electromagnetic coil and magnetic conduction grid except the cavity of iron case, the electromagnetic coil is circumferentially positioned at magnetic conduction grid periphery, the iron pipe conduit that removes includes inlet pipe, grout outlet, water inlet pipe, arrange iron pipe, upper siphunculus and lower through-tube, the structure design of the utility model is reasonable, it is compact-sized, it takes up little area, use easy to produce, permanent magnetism is replaced with electromagnetism simultaneously, it is cleaned to be easy to implement automation absorption, using the high-alkali High-gradient Magnetic medium net of high temperature resistant, realize uniform high density magnetic field, improve adsorption efficiency and effect.
Description
Technical field
The utility model relates to a kind of oil-cooled electromagnetic deferrization devices.
Background technique
Magnetic filter, which is mainly used in the fields such as petroleum, chemical industry, metallurgy, medicine, machinery, automobile, removes various liquid
A large amount of iron filings, iron powder and other Ferromagnetic Impurities for including in body, slurry and gas, and can be used for precious metal catalyst and return
It receives and weak magnetic medium clarification etc., in actual continuous annealing unit cleaning section circulating filtration production system, circulated filter system at present
Using permanent-magnet filter and ceramic membrane filter unit, use state is bad at present, and permanent magnetism can not achieve automatic abandoning iron, needs daily
Manual cleaning, the processing of iron part is not clean, and ceramic membrane and pipeline is caused to be frequently occluded, and cannot achieve long-term automation circulating filtration,
And in iron remover working condition, equipment can generate a large amount of heat, and conventionally employed air-cooler cooling effect is general.
Utility model content
The purpose of the utility model is to overcome the above deficiencies in the existing technologies, and provide a kind of structure design conjunction
The oil-cooled electromagnetic deferrization device of reason.
The technical scheme in the invention for solving the above technical problem is: a kind of oil-cooled electromagnetic deferrization device, including rack,
Electromagnetism is except iron case and removes iron pipe conduit, and the electromagnetism is described except iron case and except iron pipe conduit is respectively provided on the rack
Electromagnetism the cavity of iron case is provided with electromagnetic coil and magnetic conduction grid, the electromagnetic coil is circumferentially positioned at magnetic conduction grid
Periphery, the iron pipe conduit that removes includes inlet pipe, grout outlet, water inlet pipe, row's iron pipe, upper siphunculus and lower through-tube, under described
Siphunculus is connected to the bottom of magnetic conduction grid inner cavity, is connected at the top of the upper siphunculus and the cavity of magnetic conduction grid, described into slurry
It manages and row's iron pipe is connected to by electric T-shaped valve with lower through-tube, the grout outlet and water inlet pipe are led to by electric T-shaped valve with upper
Pipe connection, the water inlet pipe are connected with the pump housing, and the front end of the grout outlet and water inlet pipe are provided with motor-driven valve
Body.
Further: for the electromagnetism except oil cooled system system is additionally provided in iron case, the oil cooled system system includes conservator, heat
Exchanger and oil pump, the electromagnetic coil are arranged in electromagnetism and soak except in the seal cavity of iron case, the seal cavity is interior
Full cooling oil, the electromagnetic coil is using double glass bag enamel-cover flat electromagnetic wire coilings, and electromagnetic coil uses multi-layer winding knot
Structure, the conservator are fixed on electromagnetism except the outside of iron case and connect with seal cavity, and heat exchanger leaching is located at seal cavity
In cooling oil, the cooling medium inlet of the heat exchanger removes the cold water inlet pipe being arranged on the outside of iron case with electromagnetism and is connected to, described
Heat exchanger cooling medium outlet with electromagnetism except the hot water out pipe of setting on the outside of iron case is connected to, the heat of the heat exchanger
Medium entrance is connected to seal cavity, and the first oil pipe of thermal medium outlet siphunculus and electromagnetism of heat exchanger are except the oil pump on the outside of iron case
Connection, oil pump pass through the second oil pipe for cold oil return to seal cavity.
Further: the bottom of the seal cavity is provided with first annular pipeline, the second annulus line and third ring
Shape pipeline, the cooling medium inlet are connect by connecting first annular pipeline with cold water inlet pipe, and the cooling medium goes out
Mouthful connect by connecting the second annulus line with hot water out pipe, the thermal medium outlet, which passes through, connects third annulus line and the
The connection of one oil pipe.
Further: equidistant interval is provided with multiple groups heat exchanger around electromagnetic coil in the seal cavity, described
Heat exchanger use plate heat exchanger.
Further: the seal cavity is provided with several flowline risers, and the flowline riser is in be vertically arranged in
In seal cavity, equidistant interval is provided with several oil outlets, the flowline to the tube wall of the flowline riser from top to bottom
It is connect by the fourth annular pipeline of connection seal cavity bottom setting with the second oil pipe.
Further: the magnetic conduction grid uses High-gradient Magnetic medium net, and the magnetic conduction grid uses chrome ferritic
Magnetic medium, and the outside wall surface spraying of magnetic conduction grid is provided with the high-alkali composite coating of high temperature resistant.
Further: the inlet pipe, which is also connected with, is provided with return pipe, for overflowing reflux in magnetic conduction grid chamber body.
Further: the tail end of the grout outlet is provided with electronic flowmeter.
Further: inlet pipe, water inlet pipe, row's iron pipe, electric T-shaped valve and the pump housing is arranged under rack
End is enclosed in the space set, and the grout outlet and corresponding electronic valve body are arranged at electromagnetism except on the upper surface of iron case.
Further: electric T-shaped valve, electronic valve body and the pump housing is all made of PCL control.
The utility model compared with prior art, has the following advantages that and effect: it is reasonable in design, it is compact-sized, and it accounts for
Ground is small, use easy to produce, while replacing permanent magnetism with electromagnetism, be easy to implement automation absorption it is cleaned, using high temperature resistant height
Alkali High-gradient Magnetic medium net realizes uniform high density magnetic field, improves adsorption efficiency and effect.
Detailed description of the invention
Fig. 1 is the stereoscopic schematic diagram of the utility model embodiment oil-cooled electromagnetic deferrization device.
Fig. 2 is the positive structural schematic diagram of the utility model embodiment oil-cooled electromagnetic deferrization device.
Fig. 3 is the structural schematic diagram of the utility model embodiment oil-cooled electromagnetic deferrization device side.
Fig. 4 is the structural schematic diagram of the utility model embodiment oil cooled system system.
Specific embodiment
The utility model is described in further detail with reference to the accompanying drawing and by embodiment, and following embodiment is pair
The explanation of the utility model and the utility model is not limited to following embodiment.
Referring to figures 1-4, a kind of oil-cooled electromagnetic deferrization device of the present embodiment, including rack 1, electromagnetism except iron case 2 and remove iron
Pipeline, for the electromagnetism except iron case 2 and except iron pipe conduit is arranged in rack 1, the electromagnetism removes the chamber of iron case 2
Body is provided with electromagnetic coil 3 and magnetic conduction grid 4, and the electromagnetic coil 3 is circumferentially positioned at 4 periphery of magnetic conduction grid, described
Except iron pipe conduit includes inlet pipe 51, grout outlet 52, water inlet pipe 53, row's iron pipe 54, upper siphunculus and lower through-tube 55, described is lower logical
Pipe 55 is connected to the bottom of 4 inner cavity of magnetic conduction grid, is connected at the top of the cavity of the upper siphunculus and magnetic conduction grid 4, it is described into
Slurry pipe 51 and row's iron pipe 54 are connected to by electric T-shaped valve with lower through-tube 55, and the grout outlet 52 and water inlet pipe 53 pass through electronic
Triple valve is connected to upper siphunculus, and the water inlet pipe 53 is connected with the pump housing 57, the front end of the grout outlet 52 and into
Water pipe 53 is provided with electronic valve body, and the oil cooled system system includes conservator 61, heat exchanger 62 and oil pump 63, described
Electromagnetic coil 3 is arranged in electromagnetism and removes in the seal cavity of iron case 2, and cooling oil, the electromagnetism are saturated in the seal cavity
Coil 3 is using double glass bag enamel-cover flat electromagnetic wire coilings, and electromagnetic coil 3 uses multi-layer winding structure, and the conservator 61 is solid
Electromagnetism is scheduled on except the outside of iron case 2 and is connect with seal cavity, the leaching of heat exchanger 62 is located in the cooling oil of seal cavity, described
Cooling medium inlet 621 and the electromagnetism of heat exchanger 62 be connected to except the cold water inlet pipe 641 being arranged on the outside of iron case 2, the heat
The cooling medium outlet 623 of exchanger 62 removes the hot water out pipe being arranged on the outside of iron case 2 with electromagnetism and is connected to, the heat exchanger 62
Thermal medium inlet 624 be connected to seal cavity, 625 the first oil pipe of siphunculus 642 of thermal medium outlet and electromagnetism of heat exchanger 62
Except the oil pump 63 in 2 outside of iron case connects, for oil pump 63 by the second oil pipe 643 by cold oil return to seal cavity, described is close
The bottom of envelope cavity is provided with first annular pipeline 661, the second annulus line 662 and third annulus line 663, the cooling
Medium entrance 621 is connect by connecting first annular pipeline 661 with cold water inlet pipe 641, and the cooling medium outlet 623 passes through
It connects the second annulus line 662 to connect with hot water out pipe, the thermal medium outlet 625 passes through connection third annulus line 663
It being connect with the first oil pipe 642, equidistant interval is provided with multiple groups heat exchanger 62 around electromagnetic coil 3 in the seal cavity,
The heat exchanger uses plate heat exchanger, and the seal cavity is provided with several flowline risers 671, the flowline riser
671 in being vertically arranged in seal cavity, if equidistant interval is provided with and does the tube wall of the flowline riser 671 from top to bottom
Oilhole 672, the flowline are connected by the fourth annular pipeline 664 and the second oil pipe 643 of connection seal cavity bottom setting
It connects, the magnetic conduction grid 4 uses High-gradient Magnetic medium net, and the magnetic conduction grid 4 uses chrome ferritic magnetic medium, and magnetic conduction
The outside wall surface spraying of grid 4 is provided with the high-alkali composite coating of high temperature resistant, and the inlet pipe 51, which is also connected with, is provided with return pipe
58, the tail end of the grout outlet 52 is provided with electronic flowmeter, and the inlet pipe 51, arranges iron pipe 54, is electronic water inlet pipe 53
Triple valve and the pump housing 57 are arranged at 1 lower end of rack and enclose in the space set, the grout outlet 52 and corresponding motor-driven valve
Body is arranged at electromagnetism except on the upper surface of iron case 2, the electric T-shaped valve, electronic valve body and the pump housing 57 are all made of PCL
Control.The oil-cooled electromagnetic deferrization device that the present embodiment is related to is reasonable in design, reasonable in design, compact-sized, takes up little area, just
Replace permanent magnetism in production and application, while with electromagnetism, be easy to implement automation absorption it is cleaned, using the high-alkali high gradient of high temperature resistant
Magnetic medium net realizes uniform high density magnetic field, improves adsorption efficiency and effect, while using cooling oil as thermally conductive Jie of filling
Matter, and be discharged using the heat that cooling water heat exchange effectively generates the work of electromagnetic coil 3, guarantee the stable operation of equipment, it is cold
But oil is filled in seal cavity, comprehensive with the contact of electromagnetic coil 3, is conducive to thermally conductive, is passed through oil pump 63 and heat exchanger and is connected
It connects, makes cooling oil enter heat exchanger by negative pressure and exchange heat, while making the intracorporal cooling oil flowing of seal chamber, improve
The efficiency of heat exchange, flowline riser 671 is uniformly fuel-displaced from top to bottom and is sufficiently mixed by the flow effect of cooling oil, further mentions
The high effect of radiating and cooling.
Above content is only illustrate to examples for clearly illustrating the present invention described in this specification.The utility model
Person of ordinary skill in the field can make various modifications or additions to the described embodiments or using class
As mode substitute, content without departing from the utility model specification or surmount model defined in the claims
It encloses, all should belong to the protection range of the utility model.
Claims (10)
1. a kind of oil-cooled electromagnetic deferrization device, it is characterised in that: except iron case and remove iron pipe conduit, the institute including rack, electromagnetism
For the electromagnetism stated except iron case and except iron pipe conduit is respectively provided on the rack, the electromagnetism is provided with electromagnetic coil except the cavity of iron case
And magnetic conduction grid, the electromagnetic coil are circumferentially positioned at magnetic conduction grid periphery, the iron pipe conduit that removes includes inlet pipe, goes out
Pipe, water inlet pipe, row's iron pipe, upper siphunculus and lower through-tube are starched, the lower through-tube is connected to the bottom of magnetic conduction grid inner cavity, described
Upper siphunculus and magnetic conduction grid cavity at the top of be connected to, the inlet pipe and row iron pipe by electric T-shaped valve and lower through-tube company
Logical, the grout outlet and water inlet pipe is connected to by electric T-shaped valve with upper siphunculus, and the water inlet pipe is connected with the pump housing,
The front end of the grout outlet and water inlet pipe are provided with electronic valve body.
2. oil-cooled electromagnetic deferrization device according to claim 1, it is characterised in that: the electromagnetism removes to be additionally provided in iron case
Oil cooled system system, the oil cooled system system include conservator, heat exchanger and oil pump, and the electromagnetic coil setting removes iron in electromagnetism
In the seal cavity of case, cooling oil is saturated in the seal cavity, the electromagnetic coil is using the flat electricity of double glass bag enamel-covers
Magnet-wire coiling, and electromagnetic coil use multi-layer winding structure, the conservator be fixed on electromagnetism except iron case outside and with sealing
Cavity connection, heat exchanger leaching are located in the cooling oil of seal cavity, the cooling medium inlet and electromagnetism of the heat exchanger
Except the cold water inlet pipe being arranged on the outside of iron case is connected to, the cooling medium outlet of the heat exchanger is with electromagnetism except setting on the outside of iron case
Hot water out pipe connection, the thermal medium inlet of the heat exchanger is connected to seal cavity, the thermal medium outlet of heat exchanger
For the first oil pipe of siphunculus with electromagnetism except the oil pump on the outside of iron case is connect, oil pump passes through the second oil pipe for cold oil return to seal chamber
Body.
3. oil-cooled electromagnetic deferrization device according to claim 2, it is characterised in that: the bottom of the seal cavity is provided with
First annular pipeline, the second annulus line and third annulus line, the cooling medium inlet is by connecting first annular pipe
Road is connect with cold water inlet pipe, and the cooling medium outlet is connect by connecting the second annulus line with hot water out pipe, described
Thermal medium outlet is connect by connecting third annulus line with the first oil pipe.
4. oil-cooled electromagnetic deferrization device according to claim 2, it is characterised in that: equidistant interval is enclosed in the seal cavity
Electromagnetic coil is provided with multiple groups heat exchanger, the heat exchanger uses plate heat exchanger.
5. oil-cooled electromagnetic deferrization device according to claim 2 or 3, it is characterised in that: if the seal cavity is provided with
Dry flowline riser, the flowline riser is in being vertically arranged in seal cavity, and the tube wall of the flowline riser is from top to bottom
Equidistant interval is provided with several oil outlets, the flowline by the fourth annular pipeline of connection seal cavity bottom setting with
The connection of second oil pipe.
6. oil-cooled electromagnetic deferrization device according to claim 1, it is characterised in that: the magnetic conduction grid uses High-gradient Magnetic
Medium net, the magnetic conduction grid uses chrome ferritic magnetic medium, and the outside wall surface spraying of magnetic conduction grid is provided with high temperature resistant height
The composite coating of alkali.
7. oil-cooled electromagnetic deferrization device according to claim 1, it is characterised in that: the inlet pipe, which is also connected with, to be provided with back
Slurry pipe.
8. oil-cooled electromagnetic deferrization device according to claim 1, it is characterised in that: the tail end of the grout outlet is provided with electricity
Subflow meter.
9. oil-cooled electromagnetic deferrization device according to claim 1, it is characterised in that: the inlet pipe, water inlet pipe, row's iron
Pipe, electric T-shaped valve and the pump housing are arranged at rack lower end and enclose in the space set, the grout outlet and corresponding electronic
Valve body is arranged at electromagnetism except on the upper surface of iron case.
10. oil-cooled electromagnetic deferrization device according to claim 1, it is characterised in that: the electric T-shaped valve, electronic valve body
And the pump housing is all made of PCL control.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821604694.XU CN208373318U (en) | 2018-09-29 | 2018-09-29 | A kind of oil-cooled electromagnetic deferrization device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821604694.XU CN208373318U (en) | 2018-09-29 | 2018-09-29 | A kind of oil-cooled electromagnetic deferrization device |
Publications (1)
Publication Number | Publication Date |
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CN208373318U true CN208373318U (en) | 2019-01-15 |
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ID=64962277
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Application Number | Title | Priority Date | Filing Date |
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CN201821604694.XU Expired - Fee Related CN208373318U (en) | 2018-09-29 | 2018-09-29 | A kind of oil-cooled electromagnetic deferrization device |
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CN (1) | CN208373318U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113560039A (en) * | 2021-09-26 | 2021-10-29 | 潍坊追日磁电科技有限公司 | Forced oil circulation cooling type electromagnetic iron remover |
-
2018
- 2018-09-29 CN CN201821604694.XU patent/CN208373318U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113560039A (en) * | 2021-09-26 | 2021-10-29 | 潍坊追日磁电科技有限公司 | Forced oil circulation cooling type electromagnetic iron remover |
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20190115 Termination date: 20190929 |
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CF01 | Termination of patent right due to non-payment of annual fee |