CN108283990B - Waste filtering device for magnetic material processing and manufacturing - Google Patents

Waste filtering device for magnetic material processing and manufacturing Download PDF

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Publication number
CN108283990B
CN108283990B CN201810074934.8A CN201810074934A CN108283990B CN 108283990 B CN108283990 B CN 108283990B CN 201810074934 A CN201810074934 A CN 201810074934A CN 108283990 B CN108283990 B CN 108283990B
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magnetic material
telescopic buffer
buffer connecting
connecting mechanism
hollow
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CN108283990A (en
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邓建凯
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Jiangxi yaoci Technology Co., Ltd
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Jiangxi Yaoci Technology Co Ltd
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B03SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
    • B03CMAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
    • B03C1/00Magnetic separation
    • B03C1/02Magnetic separation acting directly on the substance being separated
    • B03C1/30Combinations with other devices, not otherwise provided for

Abstract

The invention discloses a waste filtering device for processing and manufacturing magnetic materials, which comprises a hollow cylindrical shell, wherein a bottom connecting plate of an integrated structure with the hollow cylindrical shell is arranged on the side surface of the bottom of the hollow cylindrical shell, and a plurality of main connecting plates are fixed at the bottom of the bottom connecting plate through bolts. The device can drive the waste water in the waste material so as to realize normal discharge of the waste water, in addition, the device can carry out primary filtering action on the magnetic material with larger volume and mass in the waste material by utilizing the gravity action and the primary filtering action of the magnetic material, and then can carry out secondary filtering action on the waste material after primary filtering by the fine magnetic material adsorption filtering mechanism, and the filtering is magnetic pole adsorption type filtering, so that fine particles can be adsorbed, thereby reducing the pollution degree of the discharged waste material.

Description

Waste filtering device for magnetic material processing and manufacturing
Technical Field
The invention relates to the technical field of industrial processing and manufacturing, in particular to a waste filtering device for processing and manufacturing a magnetic material.
Background
At present, in a magnetic industrial processing place, waste materials generated by magnetic materials, such as iron materials, contain fine metal particles and waste water, and the waste materials are difficult to clean in a common filtering mode, and if the waste materials are directly discharged, great environmental pollution and harm are caused.
Disclosure of Invention
The present invention is directed to a waste filtering device for processing and manufacturing magnetic materials, which solves the above problems.
In order to achieve the purpose, the invention provides the following technical scheme: a waste filtering device for processing and manufacturing magnetic materials comprises a hollow cylindrical shell, wherein a bottom connecting plate of an integrated structure with the hollow cylindrical shell is arranged on the side face of the bottom of the hollow cylindrical shell, a plurality of main connecting plates are fixed at the bottom of the bottom connecting plate through bolts, a plurality of supporting legs are installed at the bottom of each main connecting plate, a motor installation shell is fixed at the center of the bottom of the hollow cylindrical shell through bolts, a motor is installed inside the motor installation shell, a main hollow structure is arranged at the center inside the hollow cylindrical shell, a motor spindle in the motor penetrates through the hollow cylindrical shell, a helical blade is installed on a spindle body inside the main hollow structure, a hollow column clamping groove is arranged inside the top of the hollow cylindrical shell, a hollow column is arranged inside the hollow column clamping groove, the top of hollow post is provided with the roof structure, through a plurality of telescopic buffering coupling mechanism of bolt fastening between the upper surface of bottom connecting plate and the basal surface of roof structure, the side of cavity column shell is provided with rather than the main charge-in pipeline of integral type structure, just the inside of cavity column shell is provided with the main charge-in pipeline hole of intercommunication main charge-in pipeline and main hollow structure, the center of roof structure upper surface is provided with rather than the main discharge pipe way of integral type structure, the inside of main discharge pipe way is provided with main discharge pipe way hole, a tiny magnetic material adsorbs filtering mechanism is installed at the top of main discharge pipe way, the inside of roof structure basal surface is provided with filter screen joint recess, a main filter screen of inside joint of filter screen joint recess.
Preferably, the telescopic buffer connecting mechanism includes a hollow housing for the telescopic buffer connecting mechanism, a hollow structure for the telescopic buffer connecting mechanism, a first connecting plate structure for the telescopic buffer connecting mechanism, a movable plate for the telescopic buffer connecting mechanism, a connecting rod for the telescopic buffer connecting mechanism, a second connecting plate structure for the telescopic buffer connecting mechanism, a bolt hole for the telescopic buffer connecting mechanism, a first coil spring for the telescopic buffer connecting mechanism, and a second coil spring for the telescopic buffer connecting mechanism.
Preferably, a hollow structure for the telescopic buffer connecting mechanism is arranged at the center inside the hollow shell for the telescopic buffer connecting mechanism, a first connecting plate structure for the telescopic buffer connecting mechanism and an integral structure of the first connecting plate structure are arranged at one end of the hollow shell for the telescopic buffer connecting mechanism, a movable plate for the telescopic buffer connecting mechanism is arranged inside the hollow structure for the telescopic buffer connecting mechanism, a first coil spring for the telescopic buffer connecting mechanism is arranged in a space between the first connecting plate structure for the telescopic buffer connecting mechanism and the movable plate for the telescopic buffer connecting mechanism, two ends of the first coil spring for the telescopic buffer connecting mechanism are respectively fixed at one end inside the hollow shell for the telescopic buffer connecting mechanism and one end of the movable plate for the telescopic buffer connecting mechanism A connecting rod for the telescopic buffer connecting mechanism is arranged at the center of the other end face of the movable plate for the telescopic buffer connecting mechanism, the rod body of the connecting rod for the telescopic buffer connecting mechanism penetrates through the center of the other end face of the hollow shell for the telescopic buffer connecting mechanism, the connecting rod for the telescopic buffer connecting mechanism is sleeved in the second spiral spring for the telescopic buffer connecting mechanism on the rod body positioned in the hollow structure for the telescopic buffer connecting mechanism, the connecting rod for the telescopic buffer connecting mechanism is provided with a second connecting plate structure for the telescopic buffer connecting mechanism at one end positioned outside the hollow shell for the telescopic buffer connecting mechanism, the telescopic buffer connecting mechanism is characterized in that a plurality of telescopic buffer connecting mechanism bolt holes are formed in the first connecting plate structure for the telescopic buffer connecting mechanism and the second connecting plate structure for the telescopic buffer connecting mechanism.
Preferably, the first coil spring for the telescopic cushion link mechanism is in a stretched state, and the second coil spring for the telescopic cushion link mechanism is in a compressed state.
Preferably, the telescopic buffer connecting mechanism bolt hole in the first connecting plate structure for telescopic buffer connecting mechanism is fixed on the bottom surface of the top plate structure through a bolt, and the telescopic buffer connecting mechanism bolt hole in the second connecting plate structure for telescopic buffer connecting mechanism is fixed on the upper surface of the bottom connecting plate through a bolt.
Preferably, the fine magnetic material adsorption and filtration mechanism comprises a hollow shell for the fine magnetic material adsorption and filtration mechanism, a bottom protruding structure for the fine magnetic material adsorption and filtration mechanism, a clamping groove for the fine magnetic material adsorption and filtration mechanism, a central space for the fine magnetic material adsorption and filtration mechanism, a discharge pipeline hole for the fine magnetic material adsorption and filtration mechanism, a semi-annular groove structure for the fine magnetic material adsorption and filtration mechanism, and an annular permanent magnet for the fine magnetic material adsorption and filtration mechanism.
Preferably, the bottom of the hollow shell for the fine magnetic material adsorption and filtration mechanism is provided with a bottom protruding structure for the fine magnetic material adsorption and filtration mechanism which is of an integral structure with the bottom protruding structure, the center inside the hollow shell for the fine magnetic material adsorption and filtration mechanism is provided with a central space for the fine magnetic material adsorption and filtration mechanism, the center at the top of the hollow shell for the fine magnetic material adsorption and filtration mechanism is provided with a discharge pipeline for the fine magnetic material adsorption and filtration mechanism which is of an integral structure with the hollow shell for the fine magnetic material adsorption and filtration mechanism, and the inside of the discharge pipeline for the fine magnetic material adsorption and filtration mechanism is provided with a discharge pipeline hole for the fine magnetic material adsorption and filtration mechanism which communicates the upper part of the discharge pipeline for the fine magnetic material adsorption and filtration mechanism and the top end of the central space for the fine magnetic material, the bottom of the bottom protruding structure for the fine magnetic material adsorption and filtration mechanism is provided with a clamping groove for the fine magnetic material adsorption and filtration mechanism, the top of the clamping groove for the fine magnetic material adsorption and filtration mechanism is communicated with the bottom of the center space for the fine magnetic material adsorption and filtration mechanism, the side face of the hollow shell for the fine magnetic material adsorption and filtration mechanism is provided with a plurality of equidistant semi-annular groove structures for the fine magnetic material adsorption and filtration mechanism, and each of the semi-annular groove structures for the fine magnetic material adsorption and filtration mechanism is clamped with an annular permanent magnet for the fine magnetic material adsorption and filtration mechanism, and the fine magnetic material adsorption and filtration mechanism is clamped with a clamping groove joint on the top of a main discharge pipeline by the fine magnetic material adsorption and filtration mechanism in the bottom protruding structure.
Preferably, the annular permanent magnet for the fine magnetic material adsorption and filtration mechanism is of a semi-annular structure made of neodymium iron boron materials.
Compared with the prior art, the invention has the beneficial effects that: the device can drive the waste water in the waste material so as to realize normal discharge of the waste water, in addition, the device can carry out primary filtering action on the magnetic material with larger volume and mass in the waste material by utilizing the gravity action and the primary filtering action of the magnetic material, and then can carry out secondary filtering action on the waste material after primary filtering by the fine magnetic material adsorption filtering mechanism, and the filtering is magnetic pole adsorption type filtering, so that fine particles can be adsorbed, thereby reducing the pollution degree of the discharged waste material.
Drawings
FIG. 1 is a schematic structural view of a waste filtering apparatus for magnetic material manufacturing according to the present invention;
FIG. 2 is a schematic structural view of a telescopic buffer connecting mechanism in a waste filtering device for magnetic material manufacturing according to the present invention;
FIG. 3 is a schematic structural diagram of a fine magnetic material adsorption filtering mechanism in a waste filtering device for magnetic material processing and manufacturing according to the present invention;
in the figure: 1, hollow columnar housing, 2, bottom connecting plate, 3, main connecting plate, 4, leg, 5, motor mounting housing, 6, motor, 7, motor spindle, 8, main hollow structure, 9, hollow column clamping groove, 10, hollow column, 11, roof structure, 12, main discharge pipe, 13, telescopic buffer connecting mechanism, 131, hollow housing for telescopic buffer connecting mechanism, 132, hollow structure for telescopic buffer connecting mechanism, 133, first connecting plate structure for telescopic buffer connecting mechanism, 134, moving plate for telescopic buffer connecting mechanism, 135, connecting rod for telescopic buffer connecting mechanism, 136, second connecting plate structure for telescopic buffer connecting mechanism, 137, bolt hole for telescopic buffer connecting mechanism, 138, first coil spring for telescopic buffer connecting mechanism, 139, second coil spring for telescopic buffer connecting mechanism, 14, helical blade, 15, main feed line, 16, main feed line hole, 17, filter screen joint recess, 18, main discharge line hole, 19, main filter screen, 20, tiny magnetic material adsorbs filtering mechanism, 201, tiny magnetic material adsorbs hollow shell for filtering mechanism, 202, tiny magnetic material adsorbs bottom bulge structure for filtering mechanism, 203, tiny magnetic material adsorbs clamping recess for filtering mechanism, 204, tiny magnetic material adsorbs central space for filtering mechanism, 205, tiny magnetic material adsorbs discharging pipe for filtering mechanism, 206, tiny magnetic material adsorbs discharging pipe hole for filtering mechanism, 207, tiny magnetic material adsorbs filtering mechanism uses semi-annular groove structure, 208, tiny magnetic material adsorbs annular permanent magnet for filtering mechanism.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1, an embodiment of the present invention: the hollow cylindrical shell comprises a hollow cylindrical shell 1, a bottom connecting plate 2 of an integrated structure is arranged on the side face of the bottom of the hollow cylindrical shell 1, a plurality of main connecting plates 3 are fixed at the bottom of the bottom connecting plate 2 through bolts, a plurality of supporting legs 4 are installed at the bottom of each main connecting plate 3, a motor installation shell 5 is fixed at the center of the bottom of the hollow cylindrical shell 1 through bolts, a motor 6 is installed inside the motor installation shell 5, a main hollow structure 8 is arranged at the center inside the hollow cylindrical shell 1, a motor spindle 7 in the motor 6 penetrates through the hollow cylindrical shell 1, a helical blade 14 is installed on a shaft body of the motor spindle 7 inside the main hollow structure 8, a hollow column clamping groove 9 is arranged inside the top of the hollow cylindrical shell 1, and a hollow column 10 is installed inside the hollow column clamping groove 9, the top end of the hollow column 10 is provided with a top plate structure 11, a plurality of telescopic buffer connecting mechanisms 13 are fixed between the upper surface of the bottom connecting plate 2 and the bottom surface of the top plate structure 11 through bolts, the side surface of the hollow cylindrical shell 1 is provided with a main feeding pipeline 15 which is integrated with the hollow cylindrical shell, and the interior of the hollow cylindrical shell 1 is provided with a main feed conduit aperture 16 communicating the main feed conduit 15 and the main hollow structure 8, the center of the upper surface of the top plate structure 11 is provided with a main discharge pipe 12 of an integrated structure, the main discharge pipe 12 is provided with a main discharge pipe hole 18 inside, the top of the main discharge pipe 12 is provided with a fine magnetic material adsorption filtering mechanism 20, the inside of roof structure 11 basal surface is provided with filter screen joint recess 17, a main filter screen 19 of inside joint of filter screen joint recess 17.
Referring to fig. 2, the telescopic buffer connecting mechanism 13 includes a hollow housing 131 for the telescopic buffer connecting mechanism, a hollow structure 132 for the telescopic buffer connecting mechanism, a first connecting plate structure 133 for the telescopic buffer connecting mechanism, a moving plate 134 for the telescopic buffer connecting mechanism, a connecting rod 135 for the telescopic buffer connecting mechanism, a second connecting plate structure 136 for the telescopic buffer connecting mechanism, a bolt hole 137 for the telescopic buffer connecting mechanism, a first coil spring 138 for the telescopic buffer connecting mechanism, and a second coil spring 139 for the telescopic buffer connecting mechanism; the center inside the hollow shell 131 for the telescopic buffer connecting mechanism is provided with a hollow structure 132 for the telescopic buffer connecting mechanism, one end of the hollow shell 131 for the telescopic buffer connecting mechanism is provided with a first connecting plate structure 133 for the telescopic buffer connecting mechanism in an integrated structure with the hollow shell 131, the hollow shell 131 for the telescopic buffer connecting mechanism is positioned at the movable plate 134 for the telescopic buffer connecting mechanism, the inner part of the hollow structure 132 for the telescopic buffer connecting mechanism is positioned at the space between the first connecting plate structure 133 for the telescopic buffer connecting mechanism and the movable plate 134 for the telescopic buffer connecting mechanism, a first coil spring 138 for the telescopic buffer connecting mechanism is arranged in the space, and two ends of the first coil spring 138 for the telescopic buffer connecting mechanism are respectively fixed at one end inside the hollow shell 131 for the telescopic buffer connecting mechanism and the telescopic buffer connecting mechanism A telescopic buffer connecting mechanism connecting rod 135 is installed at the center of one end surface of the structure moving plate 134 and the other end surface of the telescopic buffer connecting mechanism moving plate 134, the rod body of the connecting rod 135 for the telescopic buffer connecting mechanism penetrates the center of the other end surface of the hollow shell 131 for the telescopic buffer connecting mechanism, the connecting rod 135 for the telescopic buffer coupling mechanism is sleeved in the second coil spring 139 for the telescopic buffer coupling mechanism at the rod body positioned inside the hollow structure 132 for the telescopic buffer coupling mechanism, the telescopic buffer coupling mechanism connecting rod 135 is provided with a second connecting plate structure 136 for a telescopic buffer coupling mechanism at one end located outside the hollow housing 131 for a telescopic buffer coupling mechanism, a plurality of telescopic bolt holes 137 for the buffer connection mechanism are arranged inside the first connection plate structure 133 for the telescopic buffer connection mechanism and the second connection plate structure 136 for the telescopic buffer connection mechanism; the first coil spring 138 for the telescopic buffer connecting mechanism is in a stretched state, and the second coil spring 139 for the telescopic buffer connecting mechanism is in a compressed state; the telescopic buffer connecting mechanism bolt hole 137 in the first connecting plate structure 133 for the telescopic buffer connecting mechanism is fixed on the bottom surface of the top plate structure 11 through a bolt, and the telescopic buffer connecting mechanism bolt hole 137 in the second connecting plate structure 136 for the telescopic buffer connecting mechanism is fixed on the upper surface of the bottom connecting plate 2 through a bolt, and the telescopic buffer connecting mechanism bolt hole 137 mainly has the following functions: play the effect of reminding and buffering to be connected, because telescopic buffering coupling mechanism is in tensile state with first coil spring 138, telescopic buffering coupling mechanism is in compression state with second coil spring 139, so when the granule is more and more, just can block up main hollow structure 8, because helical blade 14's effect, can make the deposit that the granule is constituteed shift up, produce thrust to roof structure 11, this thrust makes telescopic buffering coupling mechanism flexible with connecting rod 135, at this moment, the staff observes telescopic buffering coupling mechanism 13's change, alright in order to close the device, then pull down telescopic buffering coupling mechanism and use second connecting plate structure 136, clear up the deposit.
Referring to fig. 3, the fine magnetic material adsorption filter mechanism 20 includes a hollow housing 201 for the fine magnetic material adsorption filter mechanism, a bottom protrusion structure 202 for the fine magnetic material adsorption filter mechanism, a clamping groove 203 for the fine magnetic material adsorption filter mechanism, a central space 204 for the fine magnetic material adsorption filter mechanism, a discharge pipe 205 for the fine magnetic material adsorption filter mechanism, a discharge pipe hole 206 for the fine magnetic material adsorption filter mechanism, a semi-annular groove structure 207 for the fine magnetic material adsorption filter mechanism, and an annular permanent magnet 208 for the fine magnetic material adsorption filter mechanism; the bottom of the hollow shell 201 for the fine magnetic material adsorption and filtration mechanism is provided with a bottom bulge structure 202 for the fine magnetic material adsorption and filtration mechanism of an integrated structure with the bottom bulge structure, the center of the inside of the hollow shell 201 for the fine magnetic material adsorption and filtration mechanism is provided with a central space 204 for the fine magnetic material adsorption and filtration mechanism, the center of the top of the hollow shell 201 for the fine magnetic material adsorption and filtration mechanism is provided with a discharge pipeline 205 for the fine magnetic material adsorption and filtration mechanism of an integrated structure with the hollow shell 201 for the fine magnetic material adsorption and filtration mechanism, the inside of the discharge pipeline 205 for the fine magnetic material adsorption and filtration mechanism is provided with a discharge pipeline hole 206 for the fine magnetic material adsorption and filtration mechanism communicating the upper part of the discharge pipeline 205 for the fine magnetic material adsorption and filtration mechanism and the top end of the central space 204 for the fine magnetic material adsorption and, the bottom of the bottom protruding structure 202 for the fine magnetic material adsorption and filtration mechanism is provided with a clamping groove 203 for the fine magnetic material adsorption and filtration mechanism, the top of the clamping groove 203 for the fine magnetic material adsorption and filtration mechanism is communicated with the bottom of a central space 204 for the fine magnetic material adsorption and filtration mechanism, the side surface of the hollow shell 201 for the fine magnetic material adsorption and filtration mechanism is provided with a plurality of semi-annular groove structures 207 for the fine magnetic material adsorption and filtration mechanism at equal intervals, each semi-annular groove structure 207 for the fine magnetic material adsorption and filtration mechanism is internally clamped with an annular permanent magnet 208 for the fine magnetic material adsorption and filtration mechanism, and the clamping groove 203 for the fine magnetic material adsorption and filtration mechanism in the bottom protruding structure 202 for the fine magnetic material adsorption and filtration mechanism is clamped at the top end of the main discharge pipeline 12; tiny magnetic material adsorbs annular permanent magnet 208 for filter mechanism is the semi-annular structure that neodymium iron boron material made, and its main function is: play the adsorption, because tiny magnetic material adsorbs semi-annular structure that annular permanent magnet 208 made for the neodymium iron boron material for the filter mechanism, so when tiny granule gets into, can adsorb the filter mechanism with annular permanent magnet 208 by tiny magnetic material and adsorb central space 204 inner wall for the filter mechanism, after the work finishes, take off tiny magnetic material adsorbs filter mechanism with annular permanent magnet 208, tiny granule just can fall under the effect of gravity.
The specific use mode is as follows: in the work of the invention, a main feeding pipeline 15 is connected with a discharge port of a waste pool through a pipeline, then the motor 6 is opened, the rotating direction of the motor 6 is controlled, so that a helical blade 14 generates upward thrust, then a pipeline is connected with a fine magnetic material adsorption filtering mechanism 20, when waste materials enter the interior of a main hollow structure 8, particles in the waste materials are removed by a main filtering net 19 and sink under the action of gravity, and the waste water can enter a downward moving step due to the rotating and pushing action of the helical blade 14, when more and more particles are generated, the main hollow structure 8 is blocked, due to the action of the helical blade 14, deposits formed by the particles move upwards to generate thrust on a top plate structure 11, the thrust causes a telescopic buffer connecting mechanism 13 to stretch, at the moment, a worker observes the change of the telescopic buffer connecting mechanism 13, the device can be closed, then the telescopic buffer connecting mechanism 13 is detached, the accumulated objects are cleaned, and when the wastewater enters the downward moving step, fine particles can be adsorbed due to the magnetic action of the fine magnetic material adsorption filtering mechanism 20 and then are discharged through the pipeline.
It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. The utility model provides a magnetic material processing is waste material filter equipment for manufacturing, includes cavity column shell (1), its characterized in that: the side face of the bottom of the hollow cylindrical shell (1) is provided with a bottom connecting plate (2) of an integrated structure with the hollow cylindrical shell, the bottom of the bottom connecting plate (2) is fixed with a plurality of main connecting plates (3) through bolts, a plurality of supporting legs (4) are installed at the bottom of the main connecting plates (3), the center of the bottom of the hollow cylindrical shell (1) is fixed with a motor installation shell (5) through bolts, a motor (6) is installed inside the motor installation shell (5), a main hollow structure (8) is arranged at the center inside the hollow cylindrical shell (1), a motor spindle (7) in the motor (6) penetrates through the hollow cylindrical shell (1), a spiral blade (14) is installed on a spindle body located inside the main hollow structure (8) of the motor spindle (7), a hollow cylindrical clamping groove (9) is arranged inside the top of the hollow cylindrical shell (1), the hollow column clamping groove is characterized in that a hollow column (10) is arranged inside the hollow column clamping groove (9), a top plate structure (11) is arranged at the top end of the hollow column (10), a plurality of telescopic buffer connecting mechanisms (13) are fixed between the upper surface of the bottom connecting plate (2) and the bottom surface of the top plate structure (11) through bolts, a main feeding pipeline (15) of an integrated structure is arranged on the side surface of the hollow cylindrical shell (1), a main feeding pipeline hole (16) communicated with the main feeding pipeline (15) and the main hollow structure (8) is arranged inside the hollow cylindrical shell (1), a main discharging pipeline (12) of an integrated structure is arranged at the center of the upper surface of the top plate structure (11), a main discharging pipeline hole (18) is arranged inside the main discharging pipeline (12), and a fine magnetic material adsorption filtering mechanism (20) is arranged at the top of the main discharging pipeline (12), the inside of roof structure (11) basal surface is provided with filter screen joint recess (17), a main filter screen (19) of inside joint of filter screen joint recess (17).
2. The apparatus of claim 1, wherein the apparatus comprises: the telescopic buffer connecting mechanism (13) comprises a hollow shell (131) for the telescopic buffer connecting mechanism, a hollow structure (132) for the telescopic buffer connecting mechanism, a first connecting plate structure (133) for the telescopic buffer connecting mechanism, a moving plate (134) for the telescopic buffer connecting mechanism, a connecting rod (135) for the telescopic buffer connecting mechanism, a second connecting plate structure (136) for the telescopic buffer connecting mechanism, a bolt hole (137) for the telescopic buffer connecting mechanism, a first spiral spring (138) for the telescopic buffer connecting mechanism and a second spiral spring (139) for the telescopic buffer connecting mechanism.
3. The apparatus of claim 2, wherein the apparatus comprises: the telescopic buffer connecting mechanism is characterized in that a hollow structure (132) for the telescopic buffer connecting mechanism is arranged at the center inside a hollow shell (131) for the telescopic buffer connecting mechanism, one end of the hollow shell (131) for the telescopic buffer connecting mechanism is provided with a first connecting plate structure (133) for the telescopic buffer connecting mechanism, which is of an integrated structure with the hollow shell (131), the hollow shell (131) for the telescopic buffer connecting mechanism is located at a movable plate (134) for the telescopic buffer connecting mechanism, the inside of the hollow structure (132) for the telescopic buffer connecting mechanism is located at a first spiral spring (138) for the telescopic buffer connecting mechanism, which is installed in a space between the first connecting plate structure (133) for the telescopic buffer connecting mechanism and the movable plate (134) for the telescopic buffer connecting mechanism, and two ends of the first spiral spring (138) for the telescopic buffer connecting mechanism are respectively fixed at two ends of the first spiral spring (138) for the telescopic buffer connecting mechanism One end inside a hollow shell (131) for a connecting mechanism and one end surface of a movable plate (134) for a telescopic buffer connecting mechanism, wherein a connecting rod (135) for the telescopic buffer connecting mechanism is arranged at the center of the other end surface of the movable plate (134) for the telescopic buffer connecting mechanism, the rod body of the connecting rod (135) for the telescopic buffer connecting mechanism penetrates through the center of the other end surface of the hollow shell (131) for the telescopic buffer connecting mechanism, the connecting rod (135) for the telescopic buffer connecting mechanism is sleeved in a second spiral spring (139) for the telescopic buffer connecting mechanism at the rod body inside the hollow structure (132) for the telescopic buffer connecting mechanism, and a second connecting plate structure (136) for the telescopic buffer connecting mechanism is arranged at one end outside the hollow shell (131) for the telescopic buffer connecting mechanism by the connecting rod (135), the telescopic buffer connecting mechanism first connecting plate structure (133) and the telescopic buffer connecting mechanism second connecting plate structure (136) are internally provided with a plurality of telescopic buffer connecting mechanism bolt holes (137).
4. The apparatus of claim 3, wherein the apparatus further comprises: the first coil spring (138) for the telescopic buffer connecting mechanism is in a stretched state, and the second coil spring (139) for the telescopic buffer connecting mechanism is in a compressed state.
5. The apparatus of claim 3, wherein the apparatus further comprises: the telescopic buffer connecting mechanism bolt hole (137) in the first connecting plate structure (133) for the telescopic buffer connecting mechanism is fixed on the bottom surface of the top plate structure (11) through a bolt, and the telescopic buffer connecting mechanism bolt hole (137) in the second connecting plate structure (136) for the telescopic buffer connecting mechanism is fixed on the upper surface of the bottom connecting plate (2) through a bolt.
6. The apparatus of claim 1, wherein the apparatus comprises: tiny magnetic material adsorbs filtering mechanism (20) including tiny magnetic material adsorb filtering mechanism with hollow shell (201), tiny magnetic material adsorb filtering mechanism with bottom protruding structure (202), tiny magnetic material adsorb filtering mechanism with joint recess (203), tiny magnetic material adsorb filtering mechanism with central space (204), tiny magnetic material adsorb filtering mechanism with discharge pipe (205), tiny magnetic material adsorb filtering mechanism with discharge pipe hole (206), tiny magnetic material adsorb filtering mechanism with semi-annular groove structure (207) and tiny magnetic material adsorb filtering mechanism with annular permanent magnet (208).
7. The apparatus of claim 6, wherein the apparatus further comprises: the bottom of the hollow shell (201) for the fine magnetic material adsorption and filtration mechanism is provided with a bottom protruding structure (202) for the fine magnetic material adsorption and filtration mechanism of an integrated structure with the bottom protruding structure, the center of the inside of the hollow shell (201) for the fine magnetic material adsorption and filtration mechanism is provided with a central space (204) for the fine magnetic material adsorption and filtration mechanism, the center of the top of the hollow shell (201) for the fine magnetic material adsorption and filtration mechanism is provided with a discharge pipeline (205) for the fine magnetic material adsorption and filtration mechanism of an integrated structure with the hollow shell (201) for the fine magnetic material adsorption and filtration mechanism, the inside of the discharge pipeline (205) for the fine magnetic material adsorption and filtration mechanism is provided with a discharge pipeline hole (206) for communicating the top of the discharge pipeline (205) for the fine magnetic material adsorption and filtration mechanism and the top of the central space (204) for the fine magnetic material adsorption and filtration mechanism, the bottom of the bottom bulge structure (202) for the fine magnetic material adsorption filtering mechanism is provided with a clamping groove (203) for the fine magnetic material adsorption filtering mechanism, the top of the clamping groove (203) for the fine magnetic material adsorption filtering mechanism is communicated with the bottom end of the central space (204) for the fine magnetic material adsorption filtering mechanism, the side surface of the hollow shell (201) for the fine magnetic material adsorption and filtration mechanism is provided with a plurality of semi-annular groove structures (207) for the fine magnetic material adsorption and filtration mechanism at equal intervals, the interior of each semi-annular groove structure (207) for the fine magnetic material adsorption and filtration mechanism is clamped with an annular permanent magnet (208) for the fine magnetic material adsorption and filtration mechanism, the fine magnetic material adsorbs for the filter mechanism in the bottom protruding structure (202) fine magnetic material adsorbs for the filter mechanism joint recess (203) joint on the top of main exhaust pipe way (12).
8. The apparatus of claim 7, wherein the apparatus further comprises: the annular permanent magnet (208) for the fine magnetic material adsorption filtering mechanism is of a semi-annular structure made of neodymium iron boron materials.
CN201810074934.8A 2018-01-25 2018-01-25 Waste filtering device for magnetic material processing and manufacturing Active CN108283990B (en)

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CN111097597B (en) * 2019-12-17 2022-07-08 沅江市同兴新型建材科技有限公司 Building waste residue department metal product separator
CN111203062A (en) * 2020-02-24 2020-05-29 泉州市鑫鼎合德技术服务有限公司 Combined type magnetic metal powder filtering device for industrial manufacturing
CN111442057A (en) * 2020-04-16 2020-07-24 谢绪碧 Buffer type component mounting base for damping mechanism

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