CN104437841A - Magnetic material extractor - Google Patents
Magnetic material extractor Download PDFInfo
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- CN104437841A CN104437841A CN201310432821.8A CN201310432821A CN104437841A CN 104437841 A CN104437841 A CN 104437841A CN 201310432821 A CN201310432821 A CN 201310432821A CN 104437841 A CN104437841 A CN 104437841A
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- magnetic source
- magnetisable material
- insulation shell
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- material extractor
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Abstract
The invention provides a magnetic material extractor which comprises a magnetic suction source (10), an insulating shell (20) and an extraction part (30), wherein the magnetic suction source (10) is arranged in the insulating shell (20); the extraction part (30) is linked with the magnetic suction source (10), and the magnetic suction source (10) can move along the vertical direction relative to the insulating shell (20). A magnetic material is absorbed outside the lower end of the insulating shell and automatically falls off from the insulating shell after reaching a scheduled place, so that the problem that the working intensity and the working efficiency of manually stripping the magnetic material from the magnetic material extractor are low in the prior art can be solved.
Description
Technical field
The present invention relates to the instrument field extracting article, in particular to a kind of magnetisable material extractor.
Background technology
It is very important field that magnetisable material extracts, such as, from sandy soil foreign material, extract magnetic, scum, in the pond of tourist attractions, fish for coin etc.At present, utilizing magnetisable material easily adsorbed by the principle that magnetive attraction attracts and extract magnetisable material, is one of main method of carrying out magnetisable material extraction.The main tool that this field staff is used for adsorbing magnetisable material is the instrument for extracting comprising alnico magnets or comprise electromagnet.
For the situation of such as fishing for small-scale that coin etc. extracts magnetisable materials extracting in the pond of tourist attractions, in instrument for extracting, the general magnet had compared with ferromagnetism power that adopts is as the magnetic source of instrument for extracting.The extraction that staff utilizes such magnetisable material instrument for extracting to carry out the such as magnetisable material such as coin, magnetic.But after the magnetisable material such as coin or magnetic is by attraction, the magnetive attraction be attracted due to it is larger, therefore staff peels off in magnetisable material process from magnetisable material instrument for extracting, the working strength of manual removal is comparatively large, makes operating efficiency low, operates very inconvenient.
Summary of the invention
The present invention aims to provide a kind of magnetisable material extractor, to solve the artificial working strength peeling off magnetisable material from magnetisable material extractor in prior art, the problem that operating efficiency is low.
To achieve these goals, according to embodiments of the invention, provide a kind of magnetisable material extractor, comprising: magnetic source; Insulation shell, magnetic source is arranged in insulation shell; And extraction unit, link between extraction unit and magnetic source; Can move relative to insulation shell in the vertical direction in magnetic source.
Further, extraction unit comprises motion link, and its one end is fixedly installed on magnetic source, and magnetic source can move up and down with motion link in insulation shell.
Further, extraction unit comprises the motion link be arranged on rotationally in insulation shell, and magnetic source is set on described motion link, and with motion link threaded engagement, the rotation of motion link is converted to moving up and down of magnetic source.
Further, magnetisable material extractor also comprises the motion adaptor on the bottom surface that is fixedly installed in insulation shell, and motion link is arranged in motion adaptor rotationally, and limits its axially-movable by motion adaptor.
Further, the lower end of motion link is provided with the projection of circumference, and the lower end of motion adaptor is provided with the first groove of the corresponding projection of circumference, and motion link is located in motion adaptor, and projection is spacing in the first groove.
Further, inhale the structure vertical direction between the side in source and the inwall of insulation shell being provided with male-female engagement, form the guide frame to magnetic source.
Further, extraction unit comprises: the first pulley, is fixedly installed on magnetic source; Second pulley, is fixedly installed on the limit of the upper port of insulation shell; And rope, one end is fixedly installed on the limit of the upper port of the insulation shell relative with the bearing of the second pulley, and other end winding is on the second pulley; First pulley is hung on described rope.
Further, magnetisable material extractor also comprises the baffle plate of the periphery wall circumference extension along insulation shell.
Further, magnetic source is electromagnet.
Further, magnetic source is permanent magnet.
Apply technical scheme of the present invention, magnetisable material extractor comprises magnetic source, and magnetisable material is attracted on magnetic source, and automatically disengages from magnetic source behind arrival precalculated position.Staff is when process is attracted to the magnetisable material of magnetisable material extractor, no longer adopt the mode of manual removal, but make magnetisable material automatically disengage magnetisable material extractor by the magnetic attraction controlling magnetic source, significantly reduce the labour intensity of staff, improve operating efficiency.
Accompanying drawing explanation
The accompanying drawing forming a part of the present invention is used to provide a further understanding of the present invention, and schematic description and description of the present invention, for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:
Fig. 1 shows the structural representation of the first embodiment according to magnetisable material extractor of the present invention;
Fig. 2 shows the structural representation of the second embodiment according to magnetisable material extractor of the present invention; And
Fig. 3 shows the structural representation of the 3rd embodiment according to magnetisable material extractor of the present invention.
Reference numeral:
10, magnetic source; 20, insulation shell; 21, motion adaptor; 211, the first groove; 22, the first pulley; 23, the second pulley; 30, extraction unit; 31, motion link; 311, projection; 32, rope; 40, baffle plate.
Detailed description of the invention
Hereinafter also describe the present invention in detail with reference to accompanying drawing in conjunction with the embodiments.It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combine mutually.
As shown in Figures 1 to 3, according to embodiments of the invention, magnetisable material extractor comprises magnetic source 10, insulation shell 20 and extraction unit 30, magnetic source 10 is arranged on the inside of insulation shell 20, when 30 action of operated by personnel's extraction unit, link between extraction unit 30 and magnetic source 10, namely move with extraction unit 30 in magnetic source 10, and magnetic source 10 can be able to adjust relative to the magnetic attraction in insulation shell 20 in the vertical direction motion magnetic source 10, be attracted to after on magnetic source 10 at the magnetisable material that will extract, the magnetisable material arrival preposition that magnetisable material extractor makes to extract can be moved, then by regulating the magnetic attraction in magnetic source 10 to make magnetisable material automatically disengage from magnetic source 10.
Staff is when process is attracted to the magnetisable material of magnetisable material extractor, no longer adopt the mode of manual removal, but make magnetisable material automatically disengage out magnetisable material extractor by the magnetic attraction controlling magnetic source 10, significantly reduce the labour intensity of staff, improve operating efficiency.
Preferably; manufacture material that insulation shell 20 applies to be insulation and to be the material of non-magnetic screen, be also nonmagnetic substance, because insulation shell 20 is protectives exposed of magnetisable material extractor simultaneously; therefore require that it has larger intensity, so preferably adopt the material that quality is firm.Magnetic source 10 is arranged in insulation shell 20.The cylinder that the profile of insulation shell 20 can have any shape, such as: the cube that cross section is leg-of-mutton cylinder, cross section is rectangle, cross section are polygonal cylinder or cylinder.Preferably, in embodiment, the profile of insulation shell 20 adopts cylindrical shape.
Preferably, staff operates extraction unit 30, and make extraction unit 30 produce motion, owing to linking between extraction unit 30 and magnetic source 10, can move relative to insulation shell 20 in the vertical direction in magnetic source 10 then.
In conjunction with shown in Figure 1, in a first embodiment, the extraction unit 30 of magnetisable material extractor is motion link 31, and one end of motion link 31 is fixedly installed on the upper surface in magnetic source 10 by the mode be spirally connected or weld.Preferably, motion link 31 is screwed onto on magnetic source 10, the upper end of insulation shell 20 is exposed at outside the other end of motion link 31, when the exposed junction of operated by personnel's motion link 31 makes it move up and down relative to insulation shell 20, because magnetic source 10 and motion link 31 link, so magnetic source 10 also can move up and down with motion link 31 in insulation shell 20.In the process, because magnetic source 10 is gradually away from the bottom of insulation shell 20, also namely gradually away from the magnetisable material be adsorbed on insulation shell 20, magnetic attraction suffered by magnetisable material reduces gradually, when being reduced to enough degree, magnetisable material from self falling insulation shell 20, enters magnetisable material depository under self gravitation effect.
The implementation process of the first embodiment is: being spirally connected by motion link 31 is fixed on the upper surface in magnetic source 10, is then loaded in insulation shell 20 together with magnetic source 10 by motion link 31.It is because magnetic source 10 creates magnetic attraction that magnetisable material is attracted on magnetisable material extractor, thus in magnetic source 10 relative to insulation shell 20 when moving straight up, magnetisable material also may move up by opposing insulation housing 20 due to magnetic attraction.Automatically magnetisable material extractor is peeled off in order to more effectively make magnetisable material, the baffle plate 40 of an annular is extended in the peripheral part circumference of insulation shell 20, baffle plate 40 can be fixedly connected on the lateral surface of insulation shell 20 with screw, also can directly be welded on the lateral surface of insulation shell 20.Preferably, baffle plate 40 is welded on the lateral surface of insulation shell 20.Like this, after magnetisable material is moved upwards up to baffle plate 40 position because of moving of magnetic source 10, magnetic source 10 is moved on continuing, and magnetisable material is stopped by baffle plate 40 and cannot continue mobile again, very fast magnetisable material will the reduction of magnetic attraction suffered by the traction of self gravitation and magnetisable material and Automatic-falling.In practical work process, fall in insulation shell 20 to not allow foreign material, then embed in the gap between the side in magnetic source 10 and insulation shell 20 inwall, end cap can be covered at the upper port place of insulation shell 20, thus prevent foreign material from affecting magnetic source 10 relative to the motion of insulation shell 20 at vertical direction.
In conjunction with shown in Figure 2, in a second embodiment, the extraction unit 30 of magnetisable material extractor is the motion link 31 be arranged on rotationally in insulation shell 20, motion link 31 is threaded rods, on magnetic source 10, corresponding motion link 31 arranges screwed hole, magnetic source 10 is set on motion link 31, when operated by personnel's motion link 31 makes it rotate, due to magnetic source 10 and motion link 31 threaded engagement, therefore produce between magnetic source 10 and motion link 31 and link, the rotation of last motion link 31 is converted to moving up and down of magnetic source 10, make magnetic source 10 gradually away from the bottom of insulation shell 20.
Preferably, magnetisable material extractor also comprises motion adaptor 21, motion adaptor 21 is used on the bottom surface that welding manner is fixedly installed in insulation shell 20, the first groove 211 is offered in the lower surface of motion adaptor 21, and through hole is set in the upper surface of motion adaptor 21, the lower end of motion link 31 is provided with the projection 311 of the circumference corresponding with the first groove 211, motion link 31 is located in motion adaptor 21, and projection 311 is spacing in the first groove, can relatively rotate between motion link 31 and motion adaptor 21.Like this, motion link 31 is just arranged in motion adaptor 21 rotationally, and limits the axially-movable of motion link 31 by motion adaptor 21.
Preferably, the side in magnetic source 10 there is the direction recess arranged along vertical direction, the inwall of insulation shell 20 has the guiding projection matched with direction recess, when the inner space of the insulation shell 20 of this embodiment and the shape in magnetic source 10 are cylindric, such guide frame can not only avoid magnetic source 10 to rotate relative to insulation shell 20, also ensure that the motion path in magnetic source 10 more effectively and accurately simultaneously.In addition, also can select direction recess to be arranged on the inwall of insulation shell 20, and the projection that leads is arranged on magnetic source 10, replaces above-mentioned guide frame with such embodiment, also can reach identical guide effect.
The implementation process of the second embodiment is: be first located on motion adaptor 21 by motion link 31, the first groove 211 of motion adaptor 21 is made to be engaged in projection 311, again motion adaptor 21 is weldingly fixed on the bottom surface of insulation shell 20 inside, ensure that motion link 31 can rotate but can not move axially, then magnetic source 10 is socketed on motion link 31, and magnetic source 10 is rotated in loading insulation shell 20 from the exposed junction of motion link 31.It is because magnetic source 10 creates magnetic attraction that magnetisable material is attracted on magnetisable material extractor, thus in magnetic source 10 relative to insulation shell 20 when moving straight up, magnetisable material also may move up by opposing insulation housing 20 due to magnetic attraction.Automatically magnetisable material extractor is peeled off in order to more effectively make magnetisable material, the baffle plate 40 of an annular is extended in the peripheral part circumference of insulation shell 20, baffle plate 40 can be fixedly connected on the lateral surface of insulation shell 20 with screw, also can directly be welded on the lateral surface of insulation shell 20.Preferably, baffle plate 40 is welded on the lateral surface of insulation shell 20.Like this, after magnetisable material is moved upwards up to baffle plate 40 position because of moving of magnetic source 10, magnetic source 10 is moved on continuing, and magnetisable material is stopped by baffle plate 40 and cannot continue mobile again, very fast magnetisable material will the reduction of magnetic attraction suffered by the traction of self gravitation and magnetisable material and Automatic-falling.In practical work process, fall in insulation shell 20 to not allow foreign material, then embed in the gap between the side in magnetic source 10 and insulation shell 20 inwall, end cap can be covered at the upper port place of insulation shell 20, thus prevent foreign material from affecting magnetic source 10 relative to the motion of insulation shell 20 at vertical direction.
In conjunction with shown in Figure 3, in the third embodiment, magnetisable material extractor also comprises: the first pulley 22 second pulley 23 and rope 32, first pulley 22 is fixed by bolt or welding manner is fixedly installed on magnetic source 10, and the second pulley 23 is fixed by bolt or welding manner is fixedly installed on magnetic source 10.Preferably, mode with bolts is fixedly installed the first pulley 22 and the second pulley 23.One end of rope 32 is fixedly installed on the limit of the upper port being the insulation shell 20 that the second pulley 23 is relative, other end winding is on the second pulley 23 and stretch out outside insulation shell 20, first pulley 22 is hung on rope 32, when this end on the second pulley 23 of staff's folding and unfolding rope 32 winding, because magnetic source 10 and these pulley mechanisms combine, therefore magnetic source 10 just can move up and down relative to insulation shell 20 with the folding and unfolding of rope 32.
The implementation process of the 3rd embodiment is: be first fixed by bolts on magnetic source 10 by the first pulley 22, again the second pulley 23 is also fixed by bolts on the upper port limit of insulation shell 20, then one end of rope 32 is fixed on the upper port limit of the insulation shell 20 relative with the second pulley 23, make the first pulley 22 be hung on rope 32 around upper first pulley 22 in rope 32, finally by the other end winding of rope 32 on the second pulley 23.It is because magnetic source 10 creates magnetic attraction that magnetisable material is attracted on magnetisable material extractor, thus in magnetic source 10 relative to insulation shell 20 when moving straight up, magnetisable material also may move up by opposing insulation housing 20 due to magnetic attraction.Automatically magnetisable material extractor is peeled off in order to more effectively make magnetisable material, the baffle plate 40 of an annular is extended in the peripheral part circumference of insulation shell 20, baffle plate 40 can be fixedly connected on the lateral surface of insulation shell 20 with screw, also can directly be welded on the lateral surface of insulation shell 20.Baffle plate 40 is welded on the lateral surface of insulation shell 20.Like this, after magnetisable material is moved upwards up to baffle plate 40 position because of moving of magnetic source 10, magnetic source 10 is moved on continuing, and magnetisable material is stopped by baffle plate 40 and cannot continue mobile again, very fast magnetisable material will the reduction of magnetic attraction suffered by the traction of self gravitation and magnetisable material and Automatic-falling.In practical work process, fall in insulation shell 20 to not allow foreign material, then embed in the gap between the side in magnetic source 10 and insulation shell 20 inwall, end cap can be covered at the upper port place of insulation shell 20, thus prevent foreign material from affecting magnetic source 10 relative to the motion of insulation shell 20 at vertical direction.
From above description, can find out, the above embodiments of the present invention achieve following technique effect: staff is when process is attracted to the magnetisable material of magnetisable material extractor, no longer adopt the mode of manual removal, but make magnetisable material automatically disengage out magnetisable material extractor by the magnetic attraction controlling magnetic source 10, significantly reduce the labour intensity of staff, improve operating efficiency.
The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.
Claims (10)
1. a magnetisable material extractor, is characterized in that, comprising:
Magnetic source (10);
Insulation shell (20), described magnetic source (10) is arranged in described insulation shell (20); And
Extraction unit (30), links between described extraction unit (30) and described magnetic source (10);
Described magnetic source (10) can be moved relative to described insulation shell (20) in the vertical direction.
2. magnetisable material extractor according to claim 1, it is characterized in that, described extraction unit (30) comprises motion link (31), its one end is fixedly installed on described magnetic source (10), and described magnetic source (10) can move up and down with described motion link (31) in described insulation shell (20).
3. magnetisable material extractor according to claim 1, it is characterized in that, described extraction unit (30) comprises the motion link (31) be arranged on rotationally in described insulation shell (20), described magnetic source (10) is set on described motion link (31), and with described motion link (31) threaded engagement, the rotation of described motion link (31) is converted to moving up and down of described magnetic source (10).
4. magnetisable material extractor according to claim 3, it is characterized in that, described magnetisable material extractor also comprises the motion adaptor (21) on the bottom surface that is fixedly installed in described insulation shell (20), described motion link (31) is arranged in described motion adaptor (21) rotationally, and limits the axially-movable of described motion link (31) by described motion adaptor (21).
5. magnetisable material extractor according to claim 4, it is characterized in that, the lower end of described motion link (31) is provided with the projection (311) of circumference, the lower end of described motion adaptor (21) is provided with first groove (211) of the described projection of correspondence (311) of circumference, described motion link (31) is located in described motion adaptor (21), and described projection (311) is spacing in described first groove (211).
6. magnetisable material extractor according to claim 5, it is characterized in that, vertical direction between the side of described magnetic source (10) and the inwall of described insulation shell (20) is provided with the structure of male-female engagement, forms the guide frame to described magnetic source (10).
7. magnetisable material extractor according to claim 1, is characterized in that, described extraction unit (30) comprising:
First pulley (22), is fixedly installed on described magnetic source (10);
Second pulley (23), is fixedly installed on the edge of the upper port of described insulation shell (20); And
Rope (32), one end is fixedly installed on the limit of the upper port of the described insulation shell (20) relative with the bearing of described second pulley (23), and other end winding is on described second pulley (23);
Described first pulley (22) is hung on described rope (32).
8. magnetisable material extractor according to any one of claim 1 to 7, is characterized in that, described magnetisable material extractor also comprises the baffle plate (40) of the periphery wall circumference extension along described insulation shell (20).
9. magnetisable material extractor according to any one of claim 1 to 7, is characterized in that, described magnetic source (10) is electromagnet.
10. magnetisable material extractor according to any one of claim 1 to 7, is characterized in that, described magnetic source (10) is permanent magnet.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201310432821.8A CN104437841A (en) | 2013-09-22 | 2013-09-22 | Magnetic material extractor |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201310432821.8A CN104437841A (en) | 2013-09-22 | 2013-09-22 | Magnetic material extractor |
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| CN104437841A true CN104437841A (en) | 2015-03-25 |
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| CN201310432821.8A Pending CN104437841A (en) | 2013-09-22 | 2013-09-22 | Magnetic material extractor |
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Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN110587568A (en) * | 2019-09-20 | 2019-12-20 | 上海宝冶集团有限公司 | Quick and labor-saving pickup device |
| CN112978376A (en) * | 2021-02-03 | 2021-06-18 | 丰顺县帆凯实业有限公司 | T iron loading attachment |
| CN113375976A (en) * | 2020-02-25 | 2021-09-10 | 北京福田康明斯发动机有限公司 | Sampling device and sampling method for extracting sample for cleanliness detection |
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| CN113375976A (en) * | 2020-02-25 | 2021-09-10 | 北京福田康明斯发动机有限公司 | Sampling device and sampling method for extracting sample for cleanliness detection |
| CN112978376A (en) * | 2021-02-03 | 2021-06-18 | 丰顺县帆凯实业有限公司 | T iron loading attachment |
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Application publication date: 20150325 |
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