CN112657868A - A mechanical structure for look selection machine magnetic separation is descaled - Google Patents

Abstract

The invention discloses a mechanical structure for magnetic separation and iron removal of a color selector, which comprises a large color selector feeding vibrator assembly, a magnetic separation mechanism, a color selector transmission assembly and a collection hopper, wherein the magnetic separation mechanism is installed at one side of the large color selector feeding vibrator assembly, the color selector transmission assembly is arranged below the magnetic separation mechanism, and the collection hopper is placed on the color selector transmission assembly; the color sorter large feeding vibrator assembly comprises a vibrating hopper and a mounting bracket, wherein four springs are fixedly mounted at the top of the mounting bracket, and the tops of the four springs are matched and fixedly mounted with the vibrating hopper; after adopting above-mentioned structure for the permanent magnet direct contact iron of waiting to reject not, be close to promptly adsorb, magnetic separation mechanism is convenient for clear up, and simple structure simultaneously, the function is easy going, and easy the change, occupation space is little, improves space utilization, saves the cost.

Description

A mechanical structure for look selection machine magnetic separation is descaled

Technical Field

The invention relates to the technical field of magnetic separation deferrization equipment, in particular to a mechanical structure for magnetic separation deferrization of a color separator.

Background

When a color sorter is used for sorting metals in the existing regenerated metal resource market, a small amount of iron is contained in raw materials entering the color sorter due to incomplete iron removal in the previous process, and the color sorter cannot identify the iron because the iron is similar to the colors of a plurality of regenerated metals (such as aluminum, stainless steel and the like), so that the impurity content of the sorted metals is finally influenced. For this reason, many customers add a deferrization process to the rear end of the sorting process of the color sorter, which includes a conveyor, a silo, a collecting hopper, a deferrization chute, a collecting hopper, and the like.

The iron removing chute consists of an iron chute and a permanent magnet, and the permanent magnet is adsorbed on the surface of the iron chute. The materials are fed by a storage bin and a collecting hopper, fall down the collecting hopper through a de-ironing chute, a large number of permanent magnets are distributed on the inner surface of the chute at intervals, and the materials are adsorbed on the permanent magnets when passing through the permanent magnets, so that de-ironing is realized.

The traditional post-procedure deferrization has high cost, large occupied area and inconvenient operation and cleaning.

Disclosure of Invention

In order to overcome the technical problems, the invention aims to provide a mechanical structure for magnetic separation and iron removal of a color selector, which is characterized in that a vibration hopper is arranged to uniformly spread materials, so that the subsequent quick and sufficient adsorption of small-particle iron in the materials is facilitated; through the arrangement of the hasps, the magnetic box assembly can be conveniently and quickly pulled open, so that the iron adsorbed on the surface of the chute weldment can quickly fall off, is discharged from the lower part of the arc opening of the chute weldment and falls into the collecting hopper; the permanent magnet is fixed in a segmented manner by arranging the plurality of fixed pressing plates, so that the permanent magnet is prevented from being attracted by different magnetic poles and separated from a preset position due to non-fastening when the permanent magnet is installed or replaced, and the phenomena of permanent magnet breakage and finger clamping injury are avoided; the structure in the whole magnetic box assembly is fixed through the upper cover assembly, the mounting through hole in the upper cover assembly is a waist hole, and the adjusting allowance is provided, so that when the reinforcing pressing plate abuts against the permanent magnet, an adjusting screw is locked, and the magnetic box assembly is simple and convenient; whole device easy operation, convenient and fast simultaneously through setting up the magnetic separation mechanism of the separation of being convenient for, can be quick effectual get rid of the not iron of removing the tiny granule that removes to the greatest extent of preceding process, practice thrift cost and land, the clearance with change the convenience, improve production efficiency.

The purpose of the invention can be realized by the following technical scheme:

a mechanical structure for magnetic separation and iron removal of a color selector comprises a large color selector feeding vibrator assembly, a magnetic separation mechanism, a color selector transmission assembly and a collection hopper, wherein the magnetic separation mechanism is installed on one side of the large color selector feeding vibrator assembly, the color selector transmission assembly is arranged below the magnetic separation mechanism, and the collection hopper is arranged on the color selector transmission assembly;

the color sorter large feeding vibrator assembly comprises a vibrating hopper and a mounting bracket, wherein four springs are fixedly mounted at the top of the mounting bracket, and the tops of the four springs are matched and fixedly mounted with the vibrating hopper;

magnetic separation mechanism includes magnetic box subassembly, hasp, cross recess pan head screw, chute weldment, stainless steel hinge, cross recess countersunk screw, chute weldment top rear side both ends symmetry is provided with buckle one, the chute weldment is in vibration fill one side through a buckle joint, chute weldment one side is through cross recess countersunk screw fixedly connected with stainless steel hinge, the stainless steel hinge other end passes through cross recess countersunk screw fixed mounting in magnetic box subassembly one side, chute weldment opposite side has the hasp through cross recess pan head screw fixed mounting, hasp other end joint is on magnetic box subassembly opposite side.

As a further scheme of the invention: the vibrating hopper comprises a vibrating motor, a fixing frame, a feeding hopper and a vibrating conveying plate, one side of the vibrating conveying plate is fixedly connected with the outlet side of the feeding hopper, the bottom of the vibrating conveying plate is fixedly welded with the bottom of the feeding hopper in a matched mode, the fixing frame is close to one side of the feeding hopper and is fixedly provided with the vibrating motor, the bottom surface of the vibrating conveying plate is fixedly connected with the bottom surface of the feeding hopper, and the vibrating conveying plate is far away from one side of the feeding hopper and the top of a chute welding part in a clamped mode.

As a further scheme of the invention: the magnetic box assembly comprises an upper cover assembly, an adjusting screw, a bottom box weldment, fixed pressing plates, hexagonal flange nuts and permanent magnets, the permanent magnets are symmetrically placed on two sides of the inner bottom surface of the bottom box weldment, a plurality of fixed pressing plates and a plurality of fixed pressing plates are fixedly mounted in the middle of the inner bottom surface of the bottom box weldment through the hexagonal flange nuts, the two ends of each fixed pressing plate are respectively pressed at the tops of the two permanent magnets, and the upper cover assembly is fixedly mounted at the top of the bottom box weldment through the adjusting screw.

As a further scheme of the invention: the upper cover subassembly includes round steel handle, apron, reinforcing clamp plate, weld nut, the apron bottom is through adjusting screw fixed mounting at end box weldment top, apron top fixedly connected with round steel handle, the inside top surface of apron is provided with two reinforcing clamp plates, two reinforcing clamp plate is about the longitudinal center line symmetric distribution of apron, the welding of the inside one side of apron has two weld nut, weld nut and the cross recess countersunk screw threaded connection of magnetic box subassembly one side, two reinforcing clamp plate presses the top at a plurality of fixed pressing plate both ends.

As a further scheme of the invention: the color selector transmission assembly comprises transmission shafts and a transmission belt, and the transmission shafts are in transmission connection through the transmission belt.

As a further scheme of the invention: the utility model discloses a magnetic separation mechanism, including installing support, backup pad, magnetic box subassembly, supporting bench top, the top welding of installing support is close to magnetic separation mechanism one side top has the backup pad, the backup pad top is close to magnetic separation mechanism one side fixedly connected with brace table, the apron of magnetic box subassembly supports on the brace table top surface.

The invention has the beneficial effects that:

1. according to the invention, the vibrating hopper is arranged to uniformly spread the materials, so that the follow-up quick and sufficient adsorption of small-particle iron in the materials is facilitated; through setting up the hasp, can make things convenient for quick magnetic box subassembly that pulls open for chute weldment surface can drop fast by absorbent iron, discharges via the circular arc mouth below of chute weldment, falls into the collection and fights.

2. The permanent magnet is fixed in a segmented mode through the plurality of fixing press plates, so that the permanent magnet is prevented from being attracted by different magnetic poles and separated from a preset position due to the fact that the permanent magnet is not fastened when the permanent magnet is installed or replaced, and the phenomena that the permanent magnet is broken and fingers are injured by clamping are avoided.

3. According to the invention, the structure in the whole magnetic box assembly is fixed through the upper cover assembly, the mounting through hole on the upper cover assembly is a waist hole, and the adjusting allowance is provided, so that when the reinforcing pressing plate abuts against the permanent magnet, the adjusting screw is locked, and the magnetic box assembly is simple and convenient.

4. The whole device is simple to operate, convenient and quick, and meanwhile, small particles of iron which are not removed in the previous working procedure can be quickly and effectively removed by arranging the magnetic separation mechanism convenient to separate, so that the cost and the land are saved, the cleaning and the replacement are convenient, and the production efficiency is improved.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the magnetic separation mechanism according to the present invention;

FIG. 3 is a schematic view of the construction of the magnetic cassette assembly of the present invention;

FIG. 4 is a schematic cross-sectional view of a magnetic cassette assembly according to the present invention;

FIG. 5 is a schematic view of the structure of the upper cover assembly of the present invention.

In the figure: 1. feeding a large vibrator assembly into the color sorter; 2. a magnetic separation mechanism; 3. a color selector transmission assembly; 4. a collecting hopper; 11. a vibrating hopper; 12. mounting a bracket; 21. a magnetic cassette assembly; 22. a hasp; 23. a cross recessed pan head screw; 24. chute weldment; 25. a stainless steel hinge; 26. a cross recessed countersunk flat head screw; 111. a vibration motor; 112. a fixed mount; 113. a feed hopper; 114. vibrating a conveying plate; 211. an upper cover assembly; 212. adjusting the screw; 213. a bottom box weldment; 214. fixing the pressing plate; 215. a hexagonal flange nut; 216. a permanent magnet; 2111. round steel handles; 2112. a cover plate; 2113. a reinforcing pressure plate; 2114. and welding the nut.

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. 1-5, a mechanical structure for magnetic separation and iron removal of a color selector comprises a large color selector feed vibrator assembly 1, a magnetic separation mechanism 2, a color selector transmission assembly 3 and a collection hopper 4, wherein the magnetic separation mechanism 2 is installed on one side of the large color selector feed vibrator assembly 1, iron which is not removed in the previous process is adsorbed and removed by the magnetic separation mechanism 2, the iron is convenient and quick, the color selector transmission assembly 3 is arranged below the magnetic separation mechanism 2, and the collection hopper 4 is placed on the color selector transmission assembly 3;

the color sorter feeding large vibrator assembly 1 comprises a vibrating hopper 11 and a mounting bracket 12, wherein four springs are fixedly mounted at the top of the mounting bracket 12, and the vibrating hopper 11 is fixedly mounted at the tops of the four springs in a matching manner; the materials are uniformly paved through the vibration hopper 11, so that the follow-up quick and sufficient adsorption of the small-particle iron in the materials is facilitated.

The magnetic separation mechanism 2 comprises a magnetic box assembly 21, hasps 22, cross groove pan head screws 23, chute weldments 24, stainless steel hinges 25 and cross groove countersunk screws 26, wherein buckles I are symmetrically arranged at two ends of the rear side of the top of each chute weldment 24, each chute weldment 24 is connected to one side of the vibration hopper 11 in a clamping mode through the corresponding buckle I, the chute weldments 24 are convenient to disassemble and assemble and are convenient to clean, the stainless steel hinges 25 are fixedly connected to one side of each chute weldment 24 through the cross groove countersunk screws 26, the other end of each stainless steel hinge 25 is fixedly arranged on one side of the magnetic box assembly 21 through the cross groove countersunk screws 26, the hasps 22 are fixedly arranged on the other side of each chute weldment 24 through the cross groove pan head screws 23, the other ends of the hasps 22 are connected to the other side of the magnetic box assembly 21 in a clamping mode, the magnetic box assembly 21 can be pulled open conveniently and quickly by arranging the hasps 22, and iron, is discharged through the underside of the arc mouth of the chute weldment 24 and falls into the collection hopper 4.

Vibration hopper 11 includes vibrating motor 111, mount 112, feeder hopper 113, vibration conveying board 114 one side and the 113 outlet side fixed connection of feeder hopper, vibration conveying board 114 bottom and the 113 bottom cooperation fixed welding of feeder hopper have mount 112, mount 112 is close to 113 one side fixed mounting of feeder hopper have vibrating motor 111, vibration conveying board 114 bottom surface and the 113 bottom surfaces of feeder hopper all with spring fixed connection, vibration conveying board 114 is kept away from feeder hopper 113 one side and the buckle joint at chute weldment 24 top, vibrating motor 111 is YZS-2.5-2, drives vibration hopper 11 through vibrating motor 111 and vibrates for the magnetic separation speed of removing iron.

The magnetic box assembly 21 comprises an upper cover assembly 211, an adjusting screw 212, a bottom box weldment 213, fixed pressing plates 214, hexagonal flange nuts 215 and permanent magnets 216, the permanent magnets 216 are symmetrically placed on two sides of the bottom surface inside the bottom box weldment 213, small iron particles passing through the chute weldment 24 are adsorbed and removed from materials, the plurality of fixed pressing plates 214 are fixedly installed in the middle of the bottom surface inside the bottom box weldment 213 through the hexagonal flange nuts 215, two ends of the plurality of fixed pressing plates 214 are respectively pressed on the tops of the two permanent magnets 216 in a pressing mode, and the upper cover assembly 211 is fixedly installed on the top of the bottom box weldment 213 through the adjusting screw 212; the permanent magnet 216 is fixed in a segmented mode through the plurality of fixed pressing plates 214, and the phenomenon that the permanent magnet 216 is broken and fingers are pinched due to the fact that the permanent magnet 216 is attracted by different magnetic poles and is separated from a preset position due to the fact that the permanent magnet 216 is not fastened when the permanent magnet 216 is installed or replaced is avoided.

The upper cover assembly 211 comprises a round steel handle 2111, a cover plate 2112, reinforcing pressure plates 2113 and welding nuts 2114, the bottom of the cover plate 2112 is fixedly mounted at the top of a bottom box weldment 213 through adjusting screws 212, the top of the cover plate 2112 is fixedly connected with the round steel handle 2111, the top surface inside the cover plate 2112 is provided with two reinforcing pressure plates 2113, the two reinforcing pressure plates 2113 are symmetrically distributed about the longitudinal center line of the cover plate 2112, one side inside the cover plate 2112 is welded with two welding nuts 2114, the welding nuts 2114 are in threaded connection with cross-groove countersunk head screws 26 at one side of the magnetic box assembly 21, the two reinforcing pressure plates 2113 are pressed at the tops of two ends of a plurality of fixed pressure plates 214, and further compress the permanent magnet 216; the upper cover assembly 211 is used to fix the whole structure in the magnetic cassette assembly 21, the mounting through hole on the upper cover assembly 211 is a waist hole, and an adjusting margin is provided, so that the adjusting screw 212 can be locked when the reinforcing pressure plate 2113 abuts against the permanent magnet 216.

The color selector transmission assembly 3 comprises transmission shafts and a transmission belt, and the transmission shafts are in transmission connection through the transmission belt.

The utility model discloses a magnetic separation mechanism, including installing support 12, backup pad, magnetism box subassembly 21, apron 2112 supports on propping up a supporting bench, and it has the backup pad to prop up a supporting bench through setting up a supporting bench and keep the steady of magnetic separation mechanism 2, the backup pad top is close to 2 one side fixedly connected with brace table of magnetic separation mechanism, the apron 2112 of magnetism box subassembly 21.

The working principle of the invention is as follows:

conveying materials into a feed hopper 113, feeding the materials by the feed hopper 113, starting a vibration motor 111, driving a vibration conveying plate 114 to vibrate, uniformly dispersing the materials fed by the feed hopper 113 in a vibration manner, falling onto a magnetic separation mechanism 2, sliding on the surface of a chute weldment 24, adsorbing iron doped in the materials through a permanent magnet 216 in a magnetic box assembly 21 at the back of the chute weldment 24, accumulating the iron on the surface of the chute weldment 24, and conveying other materials out through a color sorter transmission assembly 3; when the look selects the machine to shut down daily when maintaining, operating personnel will collect and fight 4 and place on look selection machine drive assembly 3 of chute weldment 24 below, only need open hasp 22, pull open magnetic box subassembly 21, make magnetic box subassembly 21 keep away from the back of chute weldment 24, the adsorbed iron in chute weldment 24 surface can drop, discharge below the circular arc mouth of chute weldment 24, fall into and collect and fight 4, accomplish the magnetic separation to the indisputable granule, whole device easy operation, convenient and fast, simultaneously through setting up the magnetic separation mechanism 2 of being convenient for the separation, can be fast effectual get rid of the iron of the not minimum granule of preceding process, save cost and land, it is convenient to clear up and change, and the production efficiency is improved.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is illustrative and explanatory only and is not intended to be exhaustive or to limit the invention to the precise embodiments described, and various modifications, additions, and substitutions may be made by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims.

Claims (6)

1. A mechanical structure for magnetic separation and iron removal of a color selector is characterized by comprising a large color selector feeding vibrator assembly (1), a magnetic separation mechanism (2), a color selector transmission assembly (3) and a collecting hopper (4), wherein the magnetic separation mechanism (2) is installed on one side of the large color selector feeding vibrator assembly (1), the color selector transmission assembly (3) is arranged below the magnetic separation mechanism (2), and the collecting hopper (4) is placed on the color selector transmission assembly (3);

the color sorter feeding large vibrator assembly (1) comprises a vibrating hopper (11) and a mounting bracket (12), wherein four springs are fixedly mounted at the top of the mounting bracket (12), and the vibrating hopper (11) is fixedly mounted at the tops of the four springs in a matched manner;

magnetic separation mechanism (2) include magnetic box subassembly (21), hasp (22), cross recess pan head screw (23), chute weldment (24), stainless steel hinge (25), cross recess countersunk screw (26), chute weldment (24) top rear side both ends symmetry is provided with buckle one, chute weldment (24) are through a buckle joint in vibration fill (11) one side, chute weldment (24) one side is through cross recess countersunk screw (26) fixedly connected with stainless steel hinge (25), stainless steel hinge (25) other end is through cross recess countersunk screw (26) fixed mounting in magnetic box subassembly (21) one side, chute weldment (24) opposite side has hasp (22) through cross recess pan head screw (23) fixed mounting, hasp (22) other end joint is on magnetic box subassembly (21) opposite side.

2. The mechanical structure for magnetic separation and iron removal of the color selector according to claim 1, wherein the vibrating hopper (11) comprises a vibrating motor (111), a fixing frame (112), a feeding hopper (113) and a vibrating conveying plate (114), one side of the vibrating conveying plate (114) is fixedly connected with the outlet side of the feeding hopper (113), the fixing frame (112) is fixedly welded at the bottom of the vibrating conveying plate (114) and the bottom of the feeding hopper (113) in a matched mode, the vibrating motor (111) is fixedly installed at one side, close to the feeding hopper (113), of the fixing frame (112), the bottom surface of the vibrating conveying plate (114) and the bottom surface of the feeding hopper (113) are both fixedly connected with springs, and one side, far away from the feeding hopper (113), of the vibrating conveying plate (114) is clamped with a buckle at the top of the chute weldment (24.

3. The mechanical structure for magnetic separation and deferrization of the color sorter according to claim 1, wherein the magnetic box assembly (21) comprises an upper cover assembly (211), an adjusting screw (212), a bottom box weldment (213), a fixed pressing plate (214), a hexagonal flange nut (215) and a permanent magnet (216), the permanent magnet (216) is symmetrically placed on two sides of the inner bottom surface of the bottom box weldment (213), a plurality of fixed pressing plates (214) are fixedly installed in the middle of the inner bottom surface of the bottom box weldment (213) through the hexagonal flange nut (215), two ends of each fixed pressing plate (214) are respectively pressed on the tops of the two permanent magnets (216), and the upper cover assembly (211) is fixedly installed on the top of the bottom box weldment (213) through the adjusting screw (212).

4. The mechanical structure for magnetic separation and iron removal of the color selector is characterized in that, the upper cover component (211) comprises a round steel handle (2111), a cover plate (2112), a reinforced pressure plate (2113) and a welding nut (2114), the bottom of the cover plate (2112) is fixedly arranged at the top of the bottom box weldment (213) through an adjusting screw (212), the top of the cover plate (2112) is fixedly connected with a round steel handle (2111), the top surface inside the cover plate (2112) is provided with two reinforcing pressure plates (2113), the two reinforcing pressure plates (2113) are symmetrically distributed around the longitudinal center line of the cover plate (2112), two welding nuts (2114) are welded on one side inside the cover plate (2112), the welding nuts (2114) are in threaded connection with cross groove countersunk head screws (26) on one side of the magnetic box assembly (21), and the two reinforcing pressure plates (2113) are pressed on the tops of two ends of the plurality of fixing pressure plates (214).

5. The mechanical structure for magnetic separation and deferrization of a color selector as claimed in claim 1, characterized in that the color selector transmission assembly (3) comprises a transmission shaft and a conveyor belt, and the two transmission shafts are in transmission connection through the conveyor belt.

6. The mechanical structure for magnetic separation and iron removal of the color sorter as claimed in claim 1, wherein a supporting plate is welded on the top of one side of the mounting bracket (12) close to the magnetic separation mechanism (2), a supporting table is fixedly connected on one side of the top of the supporting plate close to the magnetic separation mechanism (2), and a cover plate (2112) of the magnetic box assembly (21) abuts against the top surface of the supporting table.

Images