Iron fillings splitter is used in five metals production
Technical Field
The invention relates to a separation device for hardware production, in particular to an iron scrap separation device for hardware production.
Background
Can produce a large amount of iron fillings after the five metals production, and there are some other metal fillings in the iron fillings, need separate iron fillings for this reason, people separate iron fillings at present, it is people to hold magnet to bow to separate iron fillings usually, and people bow to separate iron fillings for a long time and cause the soreness of the waist back pain easily, so can reduce iron fillings separation efficiency, in order to improve iron fillings separation efficiency, people can adopt the electro-magnet to separate iron fillings, and the electro-magnet can be stained with some other metal fillings when adsorbing iron fillings, so can bring the hindrance for the iron fillings separation.
Disclosure of Invention
In order to overcome the problem that people hold a magnet to bend down for a long time and separate iron filings to easily cause soreness of the waist and backache, the defect of iron filings separation efficiency can be reduced, and the technical problem to be solved is as follows: the scrap iron separation equipment for the hardware production can prevent waist soreness and back pain and improve separation efficiency.
The technical scheme is as follows: a scrap iron separation device for hardware production comprises a bottom plate, a collection frame, a right frame, a rotating device, a guide rod, a circular baffle, a sliding block, a sliding rail, an electromagnet, a left frame, a first bearing seat, a first rotating shaft, a frame body, a telescopic rod and a clamping block, wherein the left side of the top of the bottom plate is provided with two slots, the telescopic rod is slidably positioned in the slots, the left side and the right side of the telescopic rod are respectively provided with the clamping block, the frame body capable of containing scrap iron is installed between the top ends of the left telescopic rod and the top end of the right telescopic rod, the upper part of the right side surface of the frame body is provided with a circular hole with a guiding function, the left frame with a supporting function is arranged on the left side surface of the bottom plate, the lower part of the right side surface of the left frame is provided with the first bearing seat capable of rotating the frame body, the right end of the first, the right side that the frame is located the collection frame is put on the right side, and the upper portion of right side frame is installed and is made electromagnet pivoted rotary device, and circular baffle is fixed in the left part of guide arm, and circular baffle is located circular hole, and the slider is fixed in the left end of guide arm, and slider sliding type connects on the slide rail, and the slide rail inlays the electromagnet right flank that can be to iron fillings absorption, and the electro-magnet is located the frame, the right-hand member and the rotary device rigid coupling of guide arm.
Furthermore, the rotating device comprises a bolt, a concave rod, a push rod, a guide sleeve and a rotating wheel, a threaded hole for guiding is formed in the upper portion of the right frame, the threaded hole is internally provided with the bolt capable of enabling the concave rod to rotate, the right end of the bolt is fixed with the concave rod capable of preventing the rotating wheel from moving rightwards, the push rod is arranged on the right side face of the right frame, the push rod is located on the upper side of the threaded hole, the guide sleeve is fixed to the top of the right frame, the guide rod is slidably located in the guide sleeve, the rotating wheel capable of enabling the electromagnet to rotate is fixed at.
Further, the lifting device comprises a lifting rod, a lifting plate, a compression spring, a first pulley, a second pulley, a disc, a first hanging ring, a second hanging ring, a pull wire and a hook, wherein through holes are respectively formed in the left side and the right side of the bottom of the frame body, the lifting rod is arranged in the through holes in a sliding mode, the lifting plate capable of containing scrap iron is fixed between the top ends of the left lifting rod and the right lifting rod, the lifting rod is sleeved with the compression spring with a resetting function, the top end of the compression spring is connected with the bottom of the lifting plate, the bottom end of the compression spring is connected with the bottom in the frame body, the first pulley is arranged in the middle of the bottom in the frame body, the second pulley is arranged at the lower part of the right side of the frame body, the pore is formed in the lower part of the right side of the frame body and is located at the lower side of the second pulley, the disc is fixed on the left side, the second link sets up in framework antetheca right part downside, and it has the hook to hang on the first link, is connected with the acting as go-between that can make the lifter plate reciprocate on the hook, acts as go-between and walks around the second pulley and pass the pore, and it walks around first pulley again and with the bottom centre rigid coupling of lifter plate to act as go-between.
Further, still including second bearing frame, arc bull stick, third bearing frame, second pivot and sheet metal, the second bearing frame is fixed in the top of left socle, installs the arc bull stick in the second bearing frame, and the right-hand member of arc bull stick is fixed with third bearing frame, is provided with in the third bearing frame to make sheet metal pivoted second pivot, and the bottom of second pivot is provided with the sheet metal that can rotate production wind-force.
Further, still including fixing device, fixing device is including ring and plug, and the recess is opened in the left part of second bearing frame, and the lower part of arc bull stick left surface is fixed with the ring, is equipped with in the ring and can be to the fixed plug of arc bull stick, and the lower part of plug is located the recess.
When scrap iron is required to be separated, people pour various metal chips into the frame body, then people energize the electromagnet, so that the electromagnet can generate magnetic force, meanwhile, people rotate the guide rod through the rotating device, the guide rod rotates to enable the electromagnet to rotate through the sliding block and the sliding rail, so that the scrap iron can be adsorbed through the electromagnet, after a proper amount of scrap iron is adhered to the electromagnet, people move the electromagnet upwards and wave the hand fan, so that wind power can be generated to drop other metal chips on the electromagnet, then people loosen the electromagnet, the electromagnet moves downwards along with the electromagnet to reset, then people move the guide rod rightwards through the rotating device, so that the electromagnet can move rightwards out of the frame body and is positioned right above the collecting frame, people cut off the electromagnet, the scrap iron on the electromagnet falls downwards along with the electromagnet in the collecting frame, and then people move the electromagnet leftwards to reset, and adsorb iron fillings for electromagnet circular telegram, after the iron fillings separation is accomplished, people will collect the frame and take away can, people make the telescopic link shift out in the slot afterwards, then people rotate the framework, so can make things convenient for people to handle other metal fillings in the framework, handle the back when other metal fillings, people rotate the framework and reset, and it is fixed to insert the framework in the slot through the telescopic link, so do not need people to hold magnet and separate iron fillings, thereby can prevent people's soreness of the waist and backache, and can improve the efficiency of iron fillings separation.
When the electromagnet needs to be rotated, people rotate the rotating wheel to enable the guide rod to rotate, when the electromagnet needs to be moved out of the frame body rightwards and located above the collecting frame, people rotate the bolt to enable the concave rod to rotate without blocking the rotating wheel, then people pull the rotating wheel rightwards to enable the guide rod to move rightwards, after all scrap iron on the electromagnet falls into the collecting frame, people push the rotating wheel leftwards to enable the electromagnet to move leftwards to reset, then a user rotates the bolt to enable the concave rod to rotate and block the rotating wheel again, and therefore the phenomenon that when the electromagnet rotates, the scrap iron is separated by the fact that the rotating wheel moves rightwards can be prevented.
When scrap iron needs to be separated, people pour metal scraps onto a lifting plate in a frame, then people rotate a rotating wheel in a positive and negative alternating mode to enable a guide rod to rotate in a positive and negative alternating mode, the guide rod rotates in a positive and negative alternating mode to drive a disc to rotate in a positive and negative alternating mode, the disc rotates in a positive and negative alternating mode to drive a first hanging ring to swing back and forth and move up and down, when the first hanging ring moves up, the lifting plate can move down through a pull wire, the lifting plate moves down to drive a lifting rod to move down, a compression spring compresses along with the lifting plate, when the first hanging ring swings and resets, the lifting plate can move up and down under the action of the elastic force of the compression spring to reset, the lifting plate can move up and down continuously to better adsorb the scrap iron through an electromagnet, so that the separation efficiency of the scrap iron can be improved, when the scrap iron on the electromagnet needs to be treated, people take, so can make the lifter plate move down to when can preventing that the electro-magnet from shifting out the frame right in, the metal fillings on the lifter plate moved right for the electro-magnet and brought inconvenience, after iron fillings are handled and are accomplished, the electro-magnet resets the back, people with the hook take off from the second link and hang on first link can.
Before pouring the metal fillings into in the framework, people make the sheet metal turn over through the arc bull stick, in people poured the metal fillings into the framework afterwards, loosen the arc bull stick again, under sheet metal self action of gravity, the sheet metal changes down and resets. After a proper amount of scrap iron is adsorbed on the electromagnet, people move the electromagnet upwards, and simultaneously people rotate the thin plate to generate wind power, so that other metal scraps on the electromagnet can be separated, and people do not need to hold a fan to fan the electromagnet, and the labor intensity of people can be reduced.
When needs rotate through the sheet metal and produce other metal fillings on wind-force to the electro-magnet and separate, people insert the plug in the recess, so can prevent when rotating the sheet metal, the arc bull stick rotates by oneself and brings the hindrance for other metal fillings separation, when needs open the sheet metal, people take out the plug in the recess, rotate the arc bull stick afterwards can.
Has the advantages that: according to the invention, the electromagnet can rotate to adsorb the scrap iron through the rotating device, so that people do not need to hold the magnet to separate the scrap iron, and therefore, the waist soreness and back pain of people can be prevented, and the scrap iron separation efficiency can be improved; the scrap iron can be better separated through the lifting device, and the separation efficiency of the scrap iron can be improved; the sheet rotates to generate wind power, so that other metal chips on the electromagnet can be separated, and people do not need to hold a fan to fan the electromagnet, so that the labor intensity of people can be reduced; the fixing device can prevent the arc-shaped rotating rod from rotating automatically to bring obstruction to the separation of other metal scraps.
Drawings
Fig. 1 is a schematic front view of the present invention.
Fig. 2 is a schematic front view of the rotating device of the present invention.
Fig. 3 is a schematic front view of the lifting device of the present invention.
Fig. 4 is a front view of the fixing device of the present invention.
Wherein: 1 … bottom plate, 2 … collection frame, 3 … right frame, 4 … rotating device, 41 … threaded hole, 42 … bolt, 43 … concave rod, 44 … top rod, 45 … guide sleeve, 46 … rotating wheel, 5 … guide rod, 6 … circular baffle, 7 … sliding block, 8 … sliding rail, 9 … electromagnet, 10 … slot, 11 … left frame, 12 … first bearing seat, 13 … first rotating shaft, 14 … frame, 15 … circular hole, 16 … telescopic rod, 17 … fixture block, 18 … lifting device, 181 … through hole, 182 … lifting rod, 183 … lifting plate, … compression spring 185, … first pulley, 186 … fine hole, 187 … second pulley, 188 … disc, 189 … first hanging ring, … second hanging ring, 1811 … pull wire, 1812 … hook, 3619 bearing seat, 3619 arc-shaped … rotating shaft, … arc-shaped … rotating shaft …, … arc-shaped … fixing device, … groove, … fixing device, …, 243 … are plugged.
Detailed Description
The invention is described in detail below with reference to the drawings and specific examples, but the invention is not limited thereto.
Example 1
An iron scrap separation device for hardware production is disclosed, as shown in fig. 1-4, comprising a bottom plate 1, a collection frame 2, a right frame 3, a rotating device 4, a guide rod 5, a circular baffle 6, a slide block 7, a slide rail 8, an electromagnet 9, a left frame 11, a first bearing seat 12, a first rotating shaft 13, a frame 14, an expansion link 16 and a fixture block 17, wherein the left side of the top of the bottom plate 1 is provided with two slots 10, the expansion link 16 is slidably positioned in the slots 10, the left side and the right side of the expansion link 16 are both provided with the fixture block 17, the frame 14 capable of placing iron scrap is arranged between the top ends of the left expansion link 16 and the right expansion link 16, the upper part of the right side of the frame 14 is provided with a circular hole 15 for guiding, the left frame 11 for supporting is arranged on the left side of the bottom plate 1, the first bearing seat 12 is arranged on the lower part of, the right-hand member of first pivot 13 and the left surface rigid coupling of framework 14, the collection frame 2 that can store iron fillings is placed on the right side at 1 top of bottom plate, right side frame 3 is fixed at bottom plate 1's top, right side frame 3 is located the right side of collecting frame 2, the upper portion of right side frame 3 is installed and is made electromagnet 9 pivoted rotary device 4, circular baffle 6 is fixed at the left part of guide arm 5, circular baffle 6 is located circular port 15, slider 7 is fixed in the left end of guide arm 5, 7 sliding connection of slider are on slide rail 8, slide rail 8 inlays and to be able to be to iron fillings absorbent electromagnet 9 right flank, electromagnet 9 is located framework 14, the right-hand member and the 4 rigid couplings of rotary device of guide arm 5.
Example 2
An iron scrap separation device for hardware production is disclosed, as shown in fig. 1-4, comprising a bottom plate 1, a collection frame 2, a right frame 3, a rotating device 4, a guide rod 5, a circular baffle 6, a slide block 7, a slide rail 8, an electromagnet 9, a left frame 11, a first bearing seat 12, a first rotating shaft 13, a frame 14, an expansion link 16 and a fixture block 17, wherein the left side of the top of the bottom plate 1 is provided with two slots 10, the expansion link 16 is slidably positioned in the slots 10, the left side and the right side of the expansion link 16 are both provided with the fixture block 17, the frame 14 capable of placing iron scrap is arranged between the top ends of the left expansion link 16 and the right expansion link 16, the upper part of the right side of the frame 14 is provided with a circular hole 15 for guiding, the left frame 11 for supporting is arranged on the left side of the bottom plate 1, the first bearing seat 12 is arranged on the lower part of, the right-hand member of first pivot 13 and the left surface rigid coupling of framework 14, the collection frame 2 that can store iron fillings is placed on the right side at 1 top of bottom plate, right side frame 3 is fixed at bottom plate 1's top, right side frame 3 is located the right side of collecting frame 2, the upper portion of right side frame 3 is installed and is made electromagnet 9 pivoted rotary device 4, circular baffle 6 is fixed at the left part of guide arm 5, circular baffle 6 is located circular port 15, slider 7 is fixed in the left end of guide arm 5, 7 sliding connection of slider are on slide rail 8, slide rail 8 inlays and to be able to be to iron fillings absorbent electromagnet 9 right flank, electromagnet 9 is located framework 14, the right-hand member and the 4 rigid couplings of rotary device of guide arm 5.
The rotating device 4 comprises a bolt 42, a concave rod 43, a push rod 44, a guide sleeve 45 and a rotating wheel 46, a threaded hole 41 for guiding is formed in the upper portion of the right frame 3, the bolt 42 capable of enabling the concave rod 43 to rotate is arranged in the threaded hole 41, the concave rod 43 capable of preventing the rotating wheel 46 from moving rightwards is fixed at the right end of the bolt 42, the push rod 44 is arranged on the right side face of the right frame 3, the push rod 44 is located on the upper side of the threaded hole 41, the guide sleeve 45 is fixed to the top of the right frame 3, the guide rod 5 is located in the guide sleeve 45 in a sliding mode, the rotating wheel 46 capable of enabling the electromagnet 9 to rotate is.
Example 3
An iron scrap separation device for hardware production is disclosed, as shown in fig. 1-4, comprising a bottom plate 1, a collection frame 2, a right frame 3, a rotating device 4, a guide rod 5, a circular baffle 6, a slide block 7, a slide rail 8, an electromagnet 9, a left frame 11, a first bearing seat 12, a first rotating shaft 13, a frame 14, an expansion link 16 and a fixture block 17, wherein the left side of the top of the bottom plate 1 is provided with two slots 10, the expansion link 16 is slidably positioned in the slots 10, the left side and the right side of the expansion link 16 are both provided with the fixture block 17, the frame 14 capable of placing iron scrap is arranged between the top ends of the left expansion link 16 and the right expansion link 16, the upper part of the right side of the frame 14 is provided with a circular hole 15 for guiding, the left frame 11 for supporting is arranged on the left side of the bottom plate 1, the first bearing seat 12 is arranged on the lower part of, the right-hand member of first pivot 13 and the left surface rigid coupling of framework 14, the collection frame 2 that can store iron fillings is placed on the right side at 1 top of bottom plate, right side frame 3 is fixed at bottom plate 1's top, right side frame 3 is located the right side of collecting frame 2, the upper portion of right side frame 3 is installed and is made electromagnet 9 pivoted rotary device 4, circular baffle 6 is fixed at the left part of guide arm 5, circular baffle 6 is located circular port 15, slider 7 is fixed in the left end of guide arm 5, 7 sliding connection of slider are on slide rail 8, slide rail 8 inlays and to be able to be to iron fillings absorbent electromagnet 9 right flank, electromagnet 9 is located framework 14, the right-hand member and the 4 rigid couplings of rotary device of guide arm 5.
The rotating device 4 comprises a bolt 42, a concave rod 43, a push rod 44, a guide sleeve 45 and a rotating wheel 46, a threaded hole 41 for guiding is formed in the upper portion of the right frame 3, the bolt 42 capable of enabling the concave rod 43 to rotate is arranged in the threaded hole 41, the concave rod 43 capable of preventing the rotating wheel 46 from moving rightwards is fixed at the right end of the bolt 42, the push rod 44 is arranged on the right side face of the right frame 3, the push rod 44 is located on the upper side of the threaded hole 41, the guide sleeve 45 is fixed to the top of the right frame 3, the guide rod 5 is located in the guide sleeve 45 in a sliding mode, the rotating wheel 46 capable of enabling the electromagnet 9 to rotate is.
The lifting device 18 is further included, the lifting device 18 includes a lifting rod 182, a lifting plate 183, a compression spring 184, a first pulley 185, a second pulley 187, a disc 188, a first hanging ring 189, a second hanging ring 1810, a pull wire 1811 and a hook 1812, through holes 181 are respectively formed in the left side and the right side of the bottom of the frame 14, the lifting rod 182 is arranged in the through holes 181 in a sliding manner, the lifting plate 183 capable of containing iron filings is fixed between the top ends of the left lifting rod 182 and the right lifting rod 182, the lifting rod 182 is sleeved with the compression spring 184 with a resetting function, the top end of the compression spring 184 is connected with the bottom of the lifting plate 183, the bottom end of the compression spring 184 is connected with the bottom of the frame 14, the first pulley 185 is arranged in the middle of the bottom of the frame 14, the second pulley 187 is arranged at the lower part of the right side of the frame 14, the fine hole 186 is arranged at the lower part of the right side of the frame 14, the fine, the disc 188 is positioned at the right side of the circular baffle 6, the bottom of the disc 188 is provided with a first hanging ring 189, a second hanging ring 1810 is arranged at the lower side of the right part of the front wall of the frame body 14, a hook 1812 is hung on the first hanging ring 189, a pulling wire 1811 capable of enabling the lifting plate 183 to move up and down is connected to the hook 1812, the pulling wire 1811 winds around the second pulley 187 and passes through the fine hole 186, and the pulling wire 1811 winds around the first pulley 185 and is fixedly connected with the middle of the bottom of the lifting plate 183.
Example 4
An iron scrap separation device for hardware production is disclosed, as shown in fig. 1-4, comprising a bottom plate 1, a collection frame 2, a right frame 3, a rotating device 4, a guide rod 5, a circular baffle 6, a slide block 7, a slide rail 8, an electromagnet 9, a left frame 11, a first bearing seat 12, a first rotating shaft 13, a frame 14, an expansion link 16 and a fixture block 17, wherein the left side of the top of the bottom plate 1 is provided with two slots 10, the expansion link 16 is slidably positioned in the slots 10, the left side and the right side of the expansion link 16 are both provided with the fixture block 17, the frame 14 capable of placing iron scrap is arranged between the top ends of the left expansion link 16 and the right expansion link 16, the upper part of the right side of the frame 14 is provided with a circular hole 15 for guiding, the left frame 11 for supporting is arranged on the left side of the bottom plate 1, the first bearing seat 12 is arranged on the lower part of, the right-hand member of first pivot 13 and the left surface rigid coupling of framework 14, the collection frame 2 that can store iron fillings is placed on the right side at 1 top of bottom plate, right side frame 3 is fixed at bottom plate 1's top, right side frame 3 is located the right side of collecting frame 2, the upper portion of right side frame 3 is installed and is made electromagnet 9 pivoted rotary device 4, circular baffle 6 is fixed at the left part of guide arm 5, circular baffle 6 is located circular port 15, slider 7 is fixed in the left end of guide arm 5, 7 sliding connection of slider are on slide rail 8, slide rail 8 inlays and to be able to be to iron fillings absorbent electromagnet 9 right flank, electromagnet 9 is located framework 14, the right-hand member and the 4 rigid couplings of rotary device of guide arm 5.
The rotating device 4 comprises a bolt 42, a concave rod 43, a push rod 44, a guide sleeve 45 and a rotating wheel 46, a threaded hole 41 for guiding is formed in the upper portion of the right frame 3, the bolt 42 capable of enabling the concave rod 43 to rotate is arranged in the threaded hole 41, the concave rod 43 capable of preventing the rotating wheel 46 from moving rightwards is fixed at the right end of the bolt 42, the push rod 44 is arranged on the right side face of the right frame 3, the push rod 44 is located on the upper side of the threaded hole 41, the guide sleeve 45 is fixed to the top of the right frame 3, the guide rod 5 is located in the guide sleeve 45 in a sliding mode, the rotating wheel 46 capable of enabling the electromagnet 9 to rotate is.
The lifting device 18 is further included, the lifting device 18 includes a lifting rod 182, a lifting plate 183, a compression spring 184, a first pulley 185, a second pulley 187, a disc 188, a first hanging ring 189, a second hanging ring 1810, a pull wire 1811 and a hook 1812, through holes 181 are respectively formed in the left side and the right side of the bottom of the frame 14, the lifting rod 182 is arranged in the through holes 181 in a sliding manner, the lifting plate 183 capable of containing iron filings is fixed between the top ends of the left lifting rod 182 and the right lifting rod 182, the lifting rod 182 is sleeved with the compression spring 184 with a resetting function, the top end of the compression spring 184 is connected with the bottom of the lifting plate 183, the bottom end of the compression spring 184 is connected with the bottom of the frame 14, the first pulley 185 is arranged in the middle of the bottom of the frame 14, the second pulley 187 is arranged at the lower part of the right side of the frame 14, the fine hole 186 is arranged at the lower part of the right side of the frame 14, the fine, the disc 188 is positioned at the right side of the circular baffle 6, the bottom of the disc 188 is provided with a first hanging ring 189, a second hanging ring 1810 is arranged at the lower side of the right part of the front wall of the frame body 14, a hook 1812 is hung on the first hanging ring 189, a pulling wire 1811 capable of enabling the lifting plate 183 to move up and down is connected to the hook 1812, the pulling wire 1811 winds around the second pulley 187 and passes through the fine hole 186, and the pulling wire 1811 winds around the first pulley 185 and is fixedly connected with the middle of the bottom of the lifting plate 183.
Still including second bearing frame 19, arc bull stick 20, third bearing frame 21, second pivot 22 and sheet metal 23, second bearing frame 19 is fixed in the top of left side frame 11, installs arc bull stick 20 in the second bearing frame 19, and the right-hand member of arc bull stick 20 is fixed with third bearing frame 21, is provided with in the third bearing frame 21 to make sheet metal 23 pivoted second pivot 22, and the bottom of second pivot 22 is provided with the sheet metal 23 that can rotate the production wind-force.
Example 5
An iron scrap separation device for hardware production is disclosed, as shown in fig. 1-4, comprising a bottom plate 1, a collection frame 2, a right frame 3, a rotating device 4, a guide rod 5, a circular baffle 6, a slide block 7, a slide rail 8, an electromagnet 9, a left frame 11, a first bearing seat 12, a first rotating shaft 13, a frame 14, an expansion link 16 and a fixture block 17, wherein the left side of the top of the bottom plate 1 is provided with two slots 10, the expansion link 16 is slidably positioned in the slots 10, the left side and the right side of the expansion link 16 are both provided with the fixture block 17, the frame 14 capable of placing iron scrap is arranged between the top ends of the left expansion link 16 and the right expansion link 16, the upper part of the right side of the frame 14 is provided with a circular hole 15 for guiding, the left frame 11 for supporting is arranged on the left side of the bottom plate 1, the first bearing seat 12 is arranged on the lower part of, the right-hand member of first pivot 13 and the left surface rigid coupling of framework 14, the collection frame 2 that can store iron fillings is placed on the right side at 1 top of bottom plate, right side frame 3 is fixed at bottom plate 1's top, right side frame 3 is located the right side of collecting frame 2, the upper portion of right side frame 3 is installed and is made electromagnet 9 pivoted rotary device 4, circular baffle 6 is fixed at the left part of guide arm 5, circular baffle 6 is located circular port 15, slider 7 is fixed in the left end of guide arm 5, 7 sliding connection of slider are on slide rail 8, slide rail 8 inlays and to be able to be to iron fillings absorbent electromagnet 9 right flank, electromagnet 9 is located framework 14, the right-hand member and the 4 rigid couplings of rotary device of guide arm 5.
The rotating device 4 comprises a bolt 42, a concave rod 43, a push rod 44, a guide sleeve 45 and a rotating wheel 46, a threaded hole 41 for guiding is formed in the upper portion of the right frame 3, the bolt 42 capable of enabling the concave rod 43 to rotate is arranged in the threaded hole 41, the concave rod 43 capable of preventing the rotating wheel 46 from moving rightwards is fixed at the right end of the bolt 42, the push rod 44 is arranged on the right side face of the right frame 3, the push rod 44 is located on the upper side of the threaded hole 41, the guide sleeve 45 is fixed to the top of the right frame 3, the guide rod 5 is located in the guide sleeve 45 in a sliding mode, the rotating wheel 46 capable of enabling the electromagnet 9 to rotate is.
The lifting device 18 is further included, the lifting device 18 includes a lifting rod 182, a lifting plate 183, a compression spring 184, a first pulley 185, a second pulley 187, a disc 188, a first hanging ring 189, a second hanging ring 1810, a pull wire 1811 and a hook 1812, through holes 181 are respectively formed in the left side and the right side of the bottom of the frame 14, the lifting rod 182 is arranged in the through holes 181 in a sliding manner, the lifting plate 183 capable of containing iron filings is fixed between the top ends of the left lifting rod 182 and the right lifting rod 182, the lifting rod 182 is sleeved with the compression spring 184 with a resetting function, the top end of the compression spring 184 is connected with the bottom of the lifting plate 183, the bottom end of the compression spring 184 is connected with the bottom of the frame 14, the first pulley 185 is arranged in the middle of the bottom of the frame 14, the second pulley 187 is arranged at the lower part of the right side of the frame 14, the fine hole 186 is arranged at the lower part of the right side of the frame 14, the fine, the disc 188 is positioned at the right side of the circular baffle 6, the bottom of the disc 188 is provided with a first hanging ring 189, a second hanging ring 1810 is arranged at the lower side of the right part of the front wall of the frame body 14, a hook 1812 is hung on the first hanging ring 189, a pulling wire 1811 capable of enabling the lifting plate 183 to move up and down is connected to the hook 1812, the pulling wire 1811 winds around the second pulley 187 and passes through the fine hole 186, and the pulling wire 1811 winds around the first pulley 185 and is fixedly connected with the middle of the bottom of the lifting plate 183.
Still including second bearing frame 19, arc bull stick 20, third bearing frame 21, second pivot 22 and sheet metal 23, second bearing frame 19 is fixed in the top of left side frame 11, installs arc bull stick 20 in the second bearing frame 19, and the right-hand member of arc bull stick 20 is fixed with third bearing frame 21, is provided with in the third bearing frame 21 to make sheet metal 23 pivoted second pivot 22, and the bottom of second pivot 22 is provided with the sheet metal 23 that can rotate the production wind-force.
The fixing device 24 is further included, the fixing device 24 includes a ring 242 and a plug 243, the groove 241 is formed in the left portion of the second bearing seat 19, the ring 242 is fixed to the lower portion of the left side face of the arc-shaped rotating rod 20, the plug 243 capable of fixing the arc-shaped rotating rod 20 is arranged in the ring 242, and the lower portion of the plug 243 is located in the groove 241.
When scrap iron is required to be separated, people pour various metal scraps into the frame body 14, then people energize the electromagnet 9, so that the electromagnet 9 can generate magnetic force, meanwhile, people rotate the guide rod 5 through the rotating device 4, the guide rod 5 rotates to enable the electromagnet 9 to rotate through the sliding block 7 and the sliding rail 8, so that the scrap iron can be adsorbed through the electromagnet 9, after a proper amount of scrap iron is adhered to the electromagnet 9, people move the electromagnet 9 upwards and wave the hand fan, so that wind power can be generated to make other metal scraps on the electromagnet 9 fall down, then people loosen the electromagnet 9, the electromagnet 9 moves downwards to reset, then people move the guide rod 5 to the right through the rotating device 4, so that the electromagnet 9 moves out of the frame body 14 rightwards and is positioned right above the collecting frame 2, people cut off the electromagnet 9, the scrap iron on the electromagnet 9 falls down into the collecting frame 2, people make electro-magnet 9 remove left afterwards and reset, and adsorb iron fillings for electro-magnet 9 circular telegram, after the iron fillings separation is accomplished, people will collect frame 2 and take away can, people make telescopic link 16 shift out in slot 10 afterwards, then people rotate framework 14, so can make things convenient for people to handle other metal fillings in framework 14, after other metal fillings are handled and are accomplished, people rotate framework 14 and reset, and insert slot 10 through telescopic link 16 in fixed to framework 14, so do not need people to hold magnet and separate iron fillings, thereby can prevent people's soreness of the waist back pain, and can improve the efficiency of iron fillings separation.
When the electromagnet 9 needs to be rotated, people rotate the rotating wheel 46 to rotate the guide rod 5, when the electromagnet 9 needs to be moved out of the frame body 14 rightwards and located above the collecting frame 2, people rotate the bolt 42 to enable the concave rod 43 to rotate without blocking the rotating wheel 46, then people pull the rotating wheel 46 rightwards to enable the guide rod 5 to move rightwards, after all iron scraps on the electromagnet 9 fall into the collecting frame 2, people push the rotating wheel 46 leftwards to enable the electromagnet 9 to move leftwards to reset, then users rotate the bolt 42 to enable the concave rod 43 to rotate and block the rotating wheel 46 again, and therefore the situation that when the electromagnet 9 rotates, the iron scraps are separated due to the fact that the rotating wheel 46 moves rightwards can be prevented from hindering can.
When the iron filings are required to be separated, the metal filings are poured onto the lifting plate 183 in the frame body 14, then the rotating wheel 46 is rotated in a positive and negative alternate manner by people, the guide rod 5 is rotated in the positive and negative alternate manner to drive the disc 188 to rotate in the positive and negative alternate manner, the disc 188 is rotated in the positive and negative alternate manner to drive the first hanging ring 189 to swing back and forth and move up and down, when the first hanging ring 189 moves up, the lifting plate 183 can move down through the pull wire 1811, the lifting plate 183 moves down to drive the lifting rod 182 to move down, the compression spring 184 compresses therewith, when the first hanging ring 189 swings and resets, the lifting plate 183 moves up and resets under the action of the elastic force of the compression spring 184, so that the lifting plate 183 can move up and down continuously to better adsorb the iron filings through the electromagnet 9, thereby the separation efficiency of the iron filings can be accelerated, when the iron, when the iron filings are processed and the electromagnet 9 is reset, the hook 1812 is taken off from the second hanging ring 1810 and hung on the first hanging ring 189 by people.
Before the metal chips are poured into the frame body 14, the thin plate 23 is turned over by people through the arc-shaped rotating rod 20, then the metal chips are poured into the frame body 14 by people, the arc-shaped rotating rod 20 is loosened, and the thin plate 23 is rotated down to reset under the action of the self gravity of the thin plate 23. After a proper amount of scrap iron is adsorbed on the electromagnet 9, people move the electromagnet 9 upwards, and simultaneously people rotate the thin plate 23 to generate wind power, so that other metal scraps on the electromagnet 9 can be separated, and people do not need to hold a fan to fan the electromagnet 9, and the labor intensity of people can be reduced.
When the thin plate 23 needs to rotate to generate wind power to separate other metal scraps on the electromagnet 9, the plug 243 is inserted into the groove 241, so that the arc-shaped rotating rod 20 can be prevented from rotating by itself to separate other metal scraps when the thin plate 23 is rotated, and when the thin plate 23 needs to be turned over, the plug 243 is taken out from the groove 241 and then the arc-shaped rotating rod 20 is rotated.
Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting the protection scope of the present invention, and although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention.