CN110923451A - Metal recovery equipment for computer case - Google Patents

Abstract

The invention relates to the field of computers, in particular to a metal recovery device for a computer case, wherein parts such as a doped circuit board, a fan and the like in the case are inconvenient for metal recovery, the internal space of the case is large, and the waste of available space can be caused during transportation, the invention solves the problems that a front side sliding door is pulled open, the computer case starts to work after being arranged in a chopping chamber, a chopping assembly is chopped and crushed along tracks, a fixed blade and the fixed blade are matched to quickly cut the metal case, a rear side crushing thorn rod crushes the internal circuit board and fan blades of the case after the metal case is cut, a loading and unloading assembly is opened after the crushing, the chopping chamber is lifted, the front side sliding door is pulled open, the chopped case fragments slide out along the front door, the rear side sliding door is automatically opened to clean residues which do not slide out from the rear side, the case fragments fall onto a magnetic conveying belt after being flattened, non-ferromagnetic materials fall into a non-metal storage chamber, the ferromagnetic material is scraped by the scraper and falls into the ferromagnetic metal storage chamber to be classified.

Description

Metal recovery equipment for computer case

Technical Field

The invention relates to the field of computers, in particular to a metal recovery device for a computer case.

Background

When the metal of the computer is recycled, parts such as a doped circuit board, a fan and the like in the case are often encountered, the metal is not convenient to recycle, the internal space of the case is large, and the waste of the available space is caused during transportation.

Disclosure of Invention

The purpose of the invention is realized by the following technical scheme:

the metal recovery equipment for computer case includes shredding assembly, loading and unloading assembly, flattening assembly and separating assembly, the shredding assembly is connected with the loading and unloading assembly, the loading and unloading assembly is connected with the flattening assembly, and the loading and unloading assembly and the flattening assembly are positioned above the separating assembly.

As a further optimization of the technical scheme, the metal recycling device for the computer case comprises a chopping assembly, wherein the chopping assembly comprises an upper cover, a ball groove slide rail, an upper wall, a sliding ball, a motor I, a ring gear support, a chopping chamber upper cover, a chopping chamber, a walking gear shaft, a walking gear, an annular tooth frame, a gear chute, a sliding door carriage, a chain wheel I, a chain wheel II, a motor II support, a fixed blade, a motor II shaft support, a disc, a deflector rod, a connecting rod, a movable blade, a rotating shaft, a shovel plate, a limiting wheel support, a limiting wheel shaft, a limiting wheel and a crushing thorn rod, the ball groove slide rail is positioned on the upper cover, the upper cover is connected with the upper wall, the sliding ball is connected with the ball groove slide rail in a sliding manner, the sliding ball is connected with the motor I, the ring gear support is connected with the upper cover, the upper wall is connected with the chopping chamber upper cover, the motor I is connected with a traveling gear shaft, the traveling gear shaft is connected with a traveling gear, the traveling gear is meshed with an annular gear rack, the annular gear rack is connected with an annular gear support, the traveling gear is connected with a gear chute in a sliding manner, the gear chute is connected with an upper cover of the shredding chamber, a sliding door is connected with a sliding door sliding frame, the sliding door and the sliding door sliding frame are both connected with the shredding chamber in a sliding manner, two adjacent traveling gear shafts are respectively connected with a chain wheel I and a chain wheel II, the chain wheel I and the chain wheel II are connected with a chain wheel, the motor II support is rotationally connected with a traveling gear shaft, the traveling gear shaft is connected with a crushing thorn rod, the motor II support is connected with a fixed blade, the fixed blade is rotationally connected with a rotating shaft, the rotating shaft is rotationally connected with a shovel plate, the shovel plate is connected with a limiting wheel, II supports of motor are connected with II motors, II motors are connected with II shafts of motor, II shafts of motor are connected with II shaft supports of motor in a rotating mode, II shaft supports of motor are connected with II supports of motor, II shafts of motor are connected with disc, disc is connected with driving lever, driving lever is connected with connecting rod in a rotating mode, connecting rod is hinged with movable blade, and movable blade is connected with II supports of motor in a sliding mode.

As a further optimization of the technical scheme, the invention relates to a computer case metal recycling device, wherein a loading and unloading assembly comprises a limiting wheel chute, a bottom plate, a motor III support, a motor III shaft, a chain wheel III, a chain II, a chain wheel IV shaft, a gear I, a rack, a friction block, a coupling, a threaded shaft, a slider sliding box, a slider support lug, a support rod support lug, a support plate, a hinge shaft, a chopping support and support legs, wherein the limiting wheel chute is positioned on the bottom plate, the bottom plate is connected with the motor III support, the motor III support is connected with the motor III, the motor III shaft is connected with the chain wheel III, the chain wheel II and the chain wheel IV are connected with the chain wheel IV shaft, the chain wheel IV shaft is connected with the gear I, the gear I is meshed with the rack, and the rack is connected with a rear side, the shaft of the motor III is in contact with the friction block, the friction block is connected with the shaft coupling, the shaft coupling is connected with the threaded shaft, the threaded shaft is rotatably connected with the sliding block sliding box, the threaded shaft is in threaded connection with the sliding block, the sliding block is slidably connected with the sliding block sliding box, the sliding block sliding box is connected with the bottom plate, the sliding block is connected with the sliding block support lug, the sliding block support lug is hinged with the supporting rod, the supporting rod is hinged with the supporting rod support lug, the supporting rod support lug is connected with the supporting plate, the bottom plate is rotatably connected with the hinged shaft, the hinged shaft is rotatably connected with the chopping support, the.

As a further optimization of the technical scheme, the invention relates to a computer case metal recovery device, wherein a flattening assembly comprises a motor IV, a motor IV shaft, a gear II, a bracket, a gear III shaft, a flattening chain wheel I, a flattening chain wheel II, a flattening shaft bracket I, a flattening roller, a flattening wing plate and a flattening shaft bracket II, the motor IV is connected with the bracket, the motor IV is connected with the motor IV shaft, the motor IV shaft is connected with the gear II, the gear II is meshed with the gear III, the gear III is connected with the gear III shaft, the motor IV shaft and the gear III shaft are both rotationally connected with the bracket, the bracket is connected with the bracket, the gear III shaft is connected with the flattening chain wheel I, the flattening chain wheel II is connected with the flattening chain wheel II, the flattening shaft II is connected with the flattening shaft, the flattening shaft is rotationally connected with the flattening shaft, the flattening shaft is connected with the support plate, the motor IV shaft and the flattening shaft are rotationally connected with the chopping support and the flattening shaft support II, the motor IV shaft and the flattening shaft are respectively connected with the two flattening rollers, and the flattening wing plate is connected with the chopping support and the flattening shaft support II.

As a further optimization of the technical scheme, the invention relates to computer case metal recycling equipment, wherein the separation assembly comprises a motor V, a motor V bracket, a transmission shaft, a transmission chain wheel I, a transmission chain wheel II, a transmission shaft bracket, a transmission roller, a magnetic transmission belt, a scraping plate, a non-ferromagnetic metal storage chamber and a ferromagnetic metal storage chamber, the motor V is connected with the motor V bracket, the motor V bracket is connected with the transmission shaft bracket, the motor V is connected with one transmission shaft, two adjacent transmission shafts are respectively connected with the transmission chain wheel I and the transmission chain wheel II, the transmission chain wheel I, the transmission chain wheel and the transmission chain wheel II are connected by a chain wheel and a chain wheel, the transmission shafts are rotatably connected with the transmission shaft bracket, the transmission shaft bracket is connected with the non-ferromagnetic metal storage chamber and the ferromagnetic metal storage chamber, the transmission shaft is connected with the transmission roller, and the transmission, the magnetic conveyor belt is made of magnetic materials, is in contact with the scraper, and is connected with the two conveying shaft supports.

The metal recovery equipment for the computer case has the beneficial effects that: the front side sliding door is pulled open, the computer case is loaded into the shredding chamber and then starts to work, the shredding assembly shreds and crushes along tracks, the fixed blade and the fixed blade are matched to rapidly cut the metal case, the crushing thorn rod on the rear side of the cut metal case crushes the circuit board and the fan blades in the case, the loading and unloading assembly is opened after the crushing, the shredding chamber is lifted, the front side sliding door is pulled open, the shredded case fragments slide out along the front door, the rear side sliding door is automatically opened to clean residues which do not slide out from the rear side, the case fragments fall onto the magnetic conveying belt after being flattened and rolled, the non-ferromagnetic material falls into the non-ferromagnetic metal storage chamber, and the ferromagnetic material is scraped by the scraper and falls into the ferromagnetic metal storage chamber to complete classification.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a first schematic view of the shredding assembly 1 of the present invention;

FIG. 3 is a schematic structural view II of the shredding assembly 1 of the present invention;

FIG. 4 is a third schematic structural view of the shredding assembly 1 of the present invention;

FIG. 5 is a partial cross-sectional view of the shredding assembly 1 of the present invention;

FIG. 6 is a fourth schematic structural view of the shredding assembly 1 of the present invention;

FIG. 7 is a schematic view of the shredding assembly 1 of the present invention;

FIG. 8 is a sixth schematic view of the shredding assembly 1 of the present invention;

FIG. 9 is an enlarged partial view of the shredding assembly 1 of the present invention;

FIG. 10 is an enlarged partial view of the shredding assembly 1 of the present invention;

FIG. 11 is a seventh schematic structural view of the shredding assembly 1 of the present invention;

FIG. 12 is a schematic view eight of the structure of the shredding assembly 1 of the present invention;

FIG. 13 is a second partial cross-sectional view of the shredding assembly 1 of the present invention;

FIG. 14 is a first schematic view of the structure of the loading and unloading assembly 2 of the present invention;

FIG. 15 is an enlarged partial view of the first handling assembly 2 of the present invention;

FIG. 16 is a second partially enlarged view of the handling assembly 2 of the present invention;

FIG. 17 is a second schematic structural view of the handling assembly 2 of the present invention;

FIG. 18 is a partial cross-sectional view of the handling assembly 2 of the present invention;

fig. 19 is a schematic view of the configuration of the collapsing assembly 3 according to the invention;

FIG. 20 is a schematic view of the structure of the separation assembly 4 of the present invention;

fig. 21 is a partial cross-sectional view of the separation assembly 4 of the present invention.

In the figure: a shredding assembly 1; an upper cover 1-1; a ball groove slide rail 1-2; an upper wall 1-3; 1-4 parts of a sliding ball; 1-5 of a motor I; 1-6 of a ring gear support; a shredding chamber upper cover 1-7; 1-8 parts of a chopping chamber; 1-9 parts of a walking gear shaft; 1-10 parts of a traveling gear; 1-11 of an annular gear rack; 1-12 gear chutes; 1-13 of a sliding door; sliding door carriages 1-14; 1-15 parts of a chain wheel; 1-16 parts of a chain; chain wheels II 1-17; 1-18 brackets of a motor II; 1-19 parts of a fixed blade; 1-20 parts of a motor II; 1-21 of a motor II shaft; 1-22 shaft supports of a motor II; discs 1-23; 1-24 parts of a deflector rod; connecting rods 1-25; 1-26 parts of movable blade; a rotating shaft 1-27; shovel boards 1-28; 1-29 parts of a limiting wheel bracket; 1-30 parts of a limiting wheel shaft; 1-31 parts of a limiting wheel; 1-32 parts of crushing thorn rod; a loading and unloading assembly 2; a limiting wheel chute 2-1; a bottom plate 2-2; a motor III support 2-3; 2-4 of a motor III; 2-5 shafts of a motor III; 2-6 parts of a chain wheel III; 2-7 parts of a chain II; 2-8 parts of a chain wheel IV; 2-9 of a sprocket IV shaft; 2-10 parts of a gear I; 2-11 of racks; 2-12 parts of friction block; 2-13 of a coupler; 2-14 parts of a threaded shaft; 2-15 parts of a sliding block and a sliding box; 2-16 parts of a sliding block; 2-17 of a slide block support lug; 2-18 of a support rod; support rod lugs 2-19; 2-20 parts of a support plate; the articulated shaft is 2-21; 2-22 parts of a chopping bracket; legs 2-23; flattening the combined body 3; a motor IV 3-1; 3-2 of a motor IV shaft; 3-3 of a gear; 3-4 of a bracket; 3-5 parts of a gear III; gear III shaft 3-6; flattening the chain wheels I3-7; 3-8 of flattening chains; flattening the chain wheels II 3-9; 3-10 parts of a flattening shaft; 3-11 parts of a flatting shaft bracket; 3-12 parts of a flattening roller; flattening wing plates 3-13; flatting shaft supports II 3-14; a separation assembly 4; a motor V4-1; a bracket 4-2 of a motor V; 4-3 of a transmission shaft; a conveying chain wheel I4-4; 4-5 of a conveying chain; a transmission chain wheel II 4-6; a transmission shaft support 4-7; conveying rollers 4-8; a magnetic conveyor belt 4-9; 4-10 parts of a scraper; a non-ferromagnetic metal reservoir 4-11; ferromagnetic metal reservoirs 4-12.

Detailed Description

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

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment;

referring to the embodiment of fig. 1-21, a metal recycling apparatus for computer case includes a shredding assembly 1, a loading and unloading assembly 2, a flattening assembly 3, and a separating assembly 4, and is characterized in that: the shredding assembly 1 is connected with the loading and unloading assembly 2, the loading and unloading assembly 2 is connected with the flattening assembly 3, and the loading and unloading assembly 2 and the flattening assembly 3 are positioned above the separating assembly 4.

The second embodiment is as follows:

referring to fig. 1-21, the present embodiment will be further described, wherein the shredding assembly 1 includes an upper cover 1-1, a ball-groove sliding track 1-2, an upper wall 1-3, sliding balls 1-4, motors i 1-5, ring-tooth supports 1-6, a shredding-chamber upper cover 1-7, a shredding chamber 1-8, a traveling-gear shaft 1-9, a traveling gear 1-10, an annular rack 1-11, a gear sliding slot 1-12, a sliding door 1-13, a sliding-door carriage 1-14, chain wheels i 1-15, chains i 1-16, chain wheels ii 1-17, motor ii supports 1-18, a fixed blade 1-19, motors ii 1-20, motor ii shafts 1-21, motor ii supports 1-22, disc shafts 1-23, Deflector rod 1-24, connecting rod 1-25, moving blade 1-26, rotating shaft 1-27, shovel plate 1-28, limiting wheel support 1-29, limiting wheel shaft 1-30, limiting wheel 1-31 and crushing thorn rod 1-32, ball groove slide rail 1-2 is positioned on upper cover 1-1, upper cover 1-1 is connected with upper wall 1-3, slide ball 1-4 is connected with ball groove slide rail 1-2 in a sliding way, slide ball 1-4 is connected with motor I1-5, ring gear support 1-6 is connected with upper cover 1-1, upper wall 1-3 is connected with upper cover 1-7 of the crushing chamber, upper cover 1-7 of the crushing chamber is connected with the crushing chamber 1-8, motor I1-5 is connected with a walking gear shaft 1-9, walking gear shaft 1-9 is connected with walking gear 1-10, the traveling gears 1-10 are meshed with the annular gear racks 1-11, the annular gear racks 1-11 are connected with annular gear supports 1-6, the traveling gears 1-10 are slidably connected with gear chutes 1-12, the gear chutes 1-12 are connected with shredding chamber upper covers 1-7, the sliding doors 1-13 are connected with sliding door carriages 1-14, the sliding doors 1-13 and the sliding door carriages 1-14 are slidably connected with shredding chambers 1-8, two adjacent traveling gear shafts 1-9 are respectively connected with chain wheels I1-15 and chain wheels II 1-17, the chain wheels I1-15, the chain I1-16 and the chain wheels II 1-17 are connected with a chain wheel chain, the motor II supports 1-18 are rotatably connected with the traveling gear shafts 1-9, the traveling gear shafts 1-9 are connected with the shredding thorn rods 1-32, the motor II bracket 1-18 is connected with the fixed blade 1-19, the fixed blade 1-19 is rotationally connected with the rotating shaft 1-27, the rotating shaft 1-27 is rotationally connected with the shovel plate 1-28, the shovel plate 1-28 is connected with the limiting wheel bracket 1-29, the limiting wheel bracket 1-29 is rotationally connected with the limiting wheel shaft 1-30, the limiting wheel shaft 1-30 is rotationally connected with two limiting wheels 1-31, the motor II bracket 1-18 is connected with the motor II 1-20, the motor II 1-20 is connected with the motor II shaft 1-21, the motor II shaft 1-21 is rotationally connected with the motor II shaft bracket 1-22, the motor II shaft bracket 1-22 is connected with the motor II bracket 1-18, the motor II shaft 1-21 is connected with the disc 1-23, the disc 1-23 is connected with the deflector rod 1-24, the driving lever 1-24 is rotatably connected with the connecting rod 1-25, the connecting rod 1-25 is hinged with the movable blade 1-26, and the movable blade 1-26 is slidably connected with the motor II bracket 1-18.

The third concrete implementation mode:

referring to the embodiment shown in fig. 1-21, the loading and unloading assembly 2 further includes a limit wheel chute 2-1, a bottom plate 2-2, a motor iii bracket 2-3, a motor iii 2-4, a motor iii shaft 2-5, a chain wheel iii 2-6, a chain ii 2-7, a chain wheel iv 2-8, a chain wheel iv shaft 2-9, a gear i 2-10, a rack 2-11, a friction block 2-12, a coupling 2-13, a threaded shaft 2-14, a slider slide box 2-15, a slider 2-16, a slider support lug 2-17, a support rod 2-18, a support rod support lug 2-19, a support plate 2-20, a coupling 2-21, a chopping bracket 2-22 and a hinge shaft 2-23, the limiting wheel chute 2-1 is positioned on the bottom plate 2-2, the bottom plate 2-2 is connected with a motor III support 2-3, the motor III support 2-3 is connected with a motor III 2-4, the motor III 2-4 is connected with a motor III shaft 2-5, the motor III shaft 2-5 is connected with a chain wheel III 2-6, the chain wheel III 2-6, a chain II 2-7, a chain wheel IV 2-8, a chain wheel chain, a chain wheel IV 2-8, a chain wheel IV 2-9, a chain wheel IV shaft 2-9, a gear I2-10, a rack 2-11, a rear side sliding door 1-13, a motor III shaft 2-5, a friction block 2-12 and a coupler 2-13, the shaft coupling 2-13 is connected with a threaded shaft 2-14, the threaded shaft 2-14 is rotationally connected with a sliding block sliding box 2-15, the threaded shaft 2-14 is connected with a sliding block 2-16 in a threaded manner, the sliding block 2-16 is connected with the sliding block sliding box 2-15 in a sliding manner, the sliding block sliding box 2-15 is connected with a bottom plate 2-2, the sliding block 2-16 is connected with a sliding block support lug 2-17, the sliding block support lug 2-17 is hinged with a support rod 2-18, the support rod 2-18 is hinged with a support rod support lug 2-19, the support rod support lug 2-19 is connected with a support plate 2-20, the bottom plate 2-2 is rotationally connected with a hinged shaft 2-21, the hinged shaft 2-21 is rotationally connected with a chopping support 2-22, and two support legs 2-23, the two legs 2-23 are connected to the strip 2-20.

The fourth concrete implementation mode:

referring to the embodiment shown in fig. 1-21, the embodiment further describes the first embodiment, the flattening assembly 3 includes a motor iv 3-1, a motor iv shaft 3-2, a gear ii 3-3, a bracket 3-4, a gear iii 3-5, a gear iii shaft 3-6, a flattening sprocket i 3-7, a flattening chain 3-8, a flattening sprocket ii 3-9, a flattening shaft 3-10, a flattening shaft bracket i 3-11, a flattening roller 3-12, a flattening wing plate 3-13 and a flattening shaft bracket ii 3-14, the motor iv 3-1 is connected with the bracket 2-20, the motor iv 3-1 is connected with the motor iv shaft 3-2, the motor iv shaft 3-2 is connected with the gear ii 3-3, the gear ii 3-3 is connected with the gear iii 3-5 in a meshing manner, the gear III 3-5 is connected with a gear III shaft 3-6, the motor IV shaft 3-2 and the gear III shaft 3-6 are rotatably connected with a bracket 3-4, the bracket 3-4 is connected with a support plate 2-20, the gear III shaft 3-6 is connected with a flattening chain wheel I3-7, the flattening chain wheel I3-7, a flattening chain 3-8 and a flattening chain wheel II 3-9 are connected with a chain wheel chain, the flattening chain wheel II 3-9 is connected with a flattening shaft 3-10, the flattening shaft 3-10 is rotatably connected with a flattening shaft bracket I3-11, the flattening shaft 3-10 is connected with the support plate 2-20, the motor IV shaft 3-2 and the flattening shaft 3-10 are rotatably connected with a chopping bracket 2-22 and a flattening shaft bracket II 3-14, and the motor IV shaft 3-2, The flattening shafts 3-10 are respectively connected with two flattening rollers 3-12, and the flattening wing plates 3-13 are connected with the chopping supports 2-22 and the flattening shaft supports II 3-14.

The fifth concrete implementation mode:

referring to the embodiment shown in fig. 1-21, the separating assembly 4 of the present invention is further illustrated, wherein the separating assembly 4 includes a motor v 4-1, a motor v bracket 4-2, a conveying shaft 4-3, a conveying sprocket i 4-4, a conveying chain 4-5, a conveying sprocket ii 4-6, a conveying shaft bracket 4-7, a conveying roller 4-8, a magnetic conveying belt 4-9, a scraping plate 4-10, a non-ferromagnetic metal storage chamber 4-11 and a ferromagnetic metal storage chamber 4-12, the motor v 4-1 is connected to the motor v bracket 4-2, the motor v bracket 4-2 is connected to the conveying shaft bracket 4-7, the motor v 4-1 is connected to one conveying shaft 4-3, and two adjacent conveying shafts 4-3 are respectively connected to the conveying sprockets i 4-4, The conveying chain wheels II 4-6 are connected, the conveying chain wheels I4-4, the conveying chain 4-5 and the conveying chain wheels II 4-6 are connected through chain wheels, the conveying shafts 4-3 are rotatably connected with the conveying shaft supports 4-7, the conveying shaft supports 4-7 are connected with the non-ferromagnetic metal storage chambers 4-11 and the ferromagnetic metal storage chambers 4-12, the conveying shafts 4-3 are connected with the conveying rollers 4-8, the conveying rollers 4-8 are connected with the magnetic conveying belts 4-9 through belts, the magnetic conveying belts 4-9 are made of magnetic materials, the magnetic conveying belts 4-9 are in contact with the scraping plates 4-10, and the scraping plates 4-10 are connected with the two conveying shaft supports 4-7.

The invention relates to a metal recovery device of a computer case, which has the working principle that: the front side sliding door 1-13 is pulled open, the sliding door 1-13 slides out in the shredding chamber 1-8, the machine case is placed in the shredding chamber 1-8 along the front door of the shredding chamber 1-8, the front side sliding door 1-13 slides back, the motor I1-5 and the motor II 1-20 are started, the motor II 1-20 drives the motor II shaft 1-21 to rotate, the motor II shaft 1-21 drives the disc 1-23 to rotate, the disc 1-23 drives the deflector rod 1-24 to rotate, the deflector rod 1-24 drives the connecting rod 1-25 to move, the connecting rod 1-25 drives the movable blade 1-26 to slide up and down in the motor II bracket 1-18 through the articulated shaft, the fixed blade 1-19 is fixed, the movable blade 1-26 and the fixed blade 1-19 can cut the machine case, the motor I1-5 rotates to drive the traveling gear shaft 1-9 to rotate, the traveling gear shaft 1-9 drives the traveling gear 1-10 to rotate, the traveling gear 1-10 moves around the circular rack 1-11 orbit, the traveling gear 1-10 rotates in the gear chute 1-12 and does not fall off, the traveling gear 1-10 drives the traveling gear shaft 1-9 to move along the circular rack 1-11 orbit, the traveling gear shaft 1-9 drives the sliding ball 1-4 to slide in the ball-groove sliding rail 1-2 through the motor I1-5, the traveling gear shaft 1-9 rotates to drive the chain wheel I1-15 to rotate, the chain wheel I1-15 drives the chain wheel II 1-17 to rotate through the chain I1-16, the chain wheel II 1-17 drives the other traveling gear shaft 1-9 to rotate, and the adjacent two traveling gear shafts 1-9 and the chain wheels I1-15 respectively, The chain wheels II 1-17 are connected, so that a plurality of walking gear shafts 1-9 move along the tracks of the annular gear racks 1-11 at the same time, the walking gear shafts 1-9 drive the crushing thorn rods 1-32 to rotate, the walking gear shafts 1-9 drive the motor II supports 1-18 to move along the tracks of the annular gear racks 1-11, the motor II supports 1-18 drive the fixed blades 1-19 to move along the tracks of the annular gear racks 1-11, the fixed blades 1-19 drive the rotating shafts 1-27 to move, the rotating shafts 1-27 drive the shovel plates 1-28 to move, the shovel plates 1-28 drive the limiting wheel supports 1-29 to move, the limiting wheel supports 1-29 drive the two limiting wheels 1-31 to slide in the limiting wheel chutes 2-1 through the limiting gear shafts 1-30, and the limiting wheel chutes 2-1 limit the limiting wheels 1-31 to ensure that the rotating shafts 1-27 follow the limiting wheel chutes 2-1 track changes to rotate, the fixed blades 1-19 rotate along with the track changes of the limiting wheel sliding grooves 2-1, the supports 1-18 of the motor II rotate along with the track changes of the limiting wheel sliding grooves 2-1, so that after the movable blades 1-26 and the fixed blades 1-19 are matched to cut the case along the track, the crushing thorn rods 1-32 crush the circuit board and the fan blades in the case, the shoveling plates 1-28 can shovel residues in the limiting wheel sliding grooves 2-1 so as not to interfere the operation of the limiting wheels 1-31, the motor III 2-4 drives the shaft 2-5 of the motor III to rotate, the shaft 2-5 of the motor III drives the chain wheel III 2-6 to rotate, the chain wheel III 2-6 drives the chain wheel IV 2-8 to rotate through the chain II 2-7, the chain wheel IV 2-8 drives the shaft 2-9 of the chain wheel IV to rotate, a chain wheel IV shaft 2-9 drives a gear I2-10 to rotate, the gear I2-10 drives a rack 2-11 to move, the rack 2-11 drives a rear side sliding door 1-13 to slide out in a chopping chamber 1-8, a motor III shaft 2-5 drives a friction block 2-12 to rotate through friction, the friction block 2-12 drives a coupler 2-13 to rotate, the coupler 2-13 drives a threaded shaft 2-14 to rotate, the threaded shaft 2-14 drives a sliding block 2-16 to move in a sliding block box 2-15 through threads, the sliding block 2-16 drives a supporting rod 2-18 to gradually tend to be vertical through a sliding block supporting lug 2-17, a bottom plate 2-2 is supported around a hinged shaft 2-21, a chopping assembly 1 is supported, and the lower end of the supporting rod 2-18 rotates around the hinged shaft of the supporting rod supporting lug 2-19, when the slide block 2-16 moves to the end of the slide block sliding box 2-15, the slide block 2-16 can not move, the threaded shaft 2-14 can not rotate, the shaft 2-5 of the motor III can not drive the shaft coupling 2-13 to rotate through the friction block 2-12, the shaft 2-5 of the motor III continuously drives the chain wheel III 2-6 to rotate, the rear side sliding door 1-13 is continuously opened, the front side sliding door 1-13 is pulled open to discharge the cut case along the inclined plane of the bottom plate 2-2, the residue which is not completely discharged can be cleaned from the rear side sliding door 1-13, the reverse motor III 2-4 cutting assembly 1 falls after cleaning, the cut case falls onto the flattening roller 3-12 and the flattening wing plate 3-13, the motor IV 3-1 rotates to drive the motor IV shaft 3-2 to rotate, the motor IV shaft 3-2 drives the gear II 3-3 to rotate, the gear II 3-3 drives the gear III 3-5 to rotate, the gear III 3-5 drives the gear III shaft 3-6 to rotate, the gear III shaft 3-6 drives the flattening chain wheel I3-7 to rotate, the flattening chain wheel I3-7 drives the flattening chain wheel II 3-9 to rotate through the flattening chain 3-8, the flattening chain wheel II 3-9 drives the flattening shaft 3-10 to rotate, the motor IV shaft 3-2 and the flattening shaft 3-10 rotate oppositely to drive the two flattening rollers 3-12 to rotate oppositely, the machine box which is chopped by the two flattening rollers 3-12 is flattened, a large circuit board is crushed and falls onto the magnetic conveying belt 4-9, the motor V4-1 operates to drive the conveying shaft 4-3 to rotate, and the conveying shaft 4-3 drives the conveying chain wheel I4-4 to rotate, two adjacent conveying shafts 4-3 are respectively connected with a conveying chain wheel I4-4 and a conveying chain wheel II 4-6, the conveying chain wheel I4-4 drives the conveying chain wheel II 4-6 to rotate through a conveying chain 4-5, the conveying chain wheel II 4-6 drives the adjacent conveying shaft 4-3 to rotate, the conveying shaft 4-3 drives a conveying roller 4-8 to rotate, the conveying roller 4-8 drives a magnetic conveying belt 4-9 to rotate, circuit board fragments of the magnetic conveying belt 4-9, non-ferromagnetic material fragments such as fan blade fragments and the like are transported to a non-ferromagnetic metal storage chamber 4-11, the flattened ferromagnetic material case is adsorbed by a magnetic conveyor belt 4-9, transported to the upper part of the ferromagnetic metal storage chamber 4-12, scraped by a scraper 4-10 and falls into the metal storage chamber 4-12 to complete separation.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (5)

1. A computer case metal recovery equipment comprises a chopping assembly (1), a loading and unloading assembly (2), a flattening assembly (3) and a separation assembly (4), and is characterized in that: the shredding assembly (1) is connected with the loading and unloading assembly (2), the loading and unloading assembly (2) is connected with the flattening assembly (3), and the loading and unloading assembly (2) and the flattening assembly (3) are positioned above the separating assembly (4).

2. The metal recycling device for computer cabinets of claim 1, wherein: the chopping assembly (1) comprises an upper cover (1-1), a ball groove slide rail (1-2), an upper wall (1-3), a sliding ball (1-4), a motor I (1-5), a ring gear support (1-6), a chopping chamber upper cover (1-7), a chopping chamber (1-8), a traveling gear shaft (1-9), a traveling gear (1-10), an annular tooth frame (1-11), a gear slide groove (1-12), a sliding door (1-13), a sliding door sliding frame (1-14), a chain wheel I (1-15), a chain I (1-16), a chain wheel II (1-17), a motor II support (1-18), a fixed blade (1-19), a motor II (1-20), a motor II shaft (1-21), a motor II frame (1-22) and shaft supports, A disc (1-23), a deflector rod (1-24), a connecting rod (1-25), a movable blade (1-26), a rotating shaft (1-27), a shovel plate (1-28), a limiting wheel bracket (1-29), a limiting wheel shaft (1-30), a limiting wheel (1-31) and a crushing thorn rod (1-32), a ball groove slide rail (1-2) is positioned on an upper cover (1-1), the upper cover (1-1) is connected with an upper wall (1-3), a sliding ball (1-4) is connected with the ball groove slide rail (1-2) in a sliding way, the sliding ball (1-4) is connected with a motor I (1-5), a ring gear bracket (1-6) is connected with the upper cover (1-1), the upper wall (1-3) is connected with an upper cover (1-7) of a crushing chamber, the upper cover (1-7) of the shredding chamber is connected with the shredding chamber (1-8), the motor I (1-5) is connected with a traveling gear shaft (1-9), the traveling gear shaft (1-9) is connected with a traveling gear (1-10), the traveling gear (1-10) is meshed with an annular gear rack (1-11), the annular gear rack (1-11) is connected with an annular gear support (1-6), the traveling gear (1-10) is slidably connected with a gear chute (1-12), the gear chute (1-12) is connected with the upper cover (1-7) of the shredding chamber, a sliding door (1-13) is connected with a sliding door carriage (1-14), the sliding door (1-13) and the sliding door carriage (1-14) are slidably connected with the shredding chamber (1-8), two adjacent traveling gear shafts (1-9) are respectively connected with a chain wheel I (1-15) and a chain wheel II (1-17), the chain wheel I (1-15), a chain I (1-16) and the chain wheel II (1-17) are connected with the chain wheel chain, a motor II bracket (1-18) is rotationally connected with the traveling gear shaft (1-9), the traveling gear shaft (1-9) is connected with a crushing thorn rod (1-32), the motor II bracket (1-18) is connected with a fixed blade (1-19), the fixed blade (1-19) is rotationally connected with a rotating shaft (1-27), the rotating shaft (1-27) is rotationally connected with a shovel plate (1-28), the shovel plate (1-28) is connected with a limiting wheel bracket (1-29), the limiting wheel bracket (1-29) is rotationally connected with a limiting wheel shaft (1-30), the limiting wheel shafts (1-30) are rotatably connected with two limiting wheels (1-31), the supports (1-18) of the motor II are connected with the motors II (1-20), the motors II (1-20) are connected with the shafts (1-21) of the motors II, the shafts (1-21) of the motors II are rotatably connected with the supports (1-22) of the shafts of the motors II, the supports (1-22) of the shafts of the motors II are connected with the supports (1-18) of the motors II, the shafts (1-21) of the motors II are connected with the disks (1-23), the disks (1-23) are connected with the shift lever (1-24), the shift lever (1-24) is rotatably connected with the connecting rods (1-25), the connecting rods (1-25) are hinged with the movable blades (1-26), and the movable blades (1-26) are slidably connected with the supports (1-18) of the motors II.

3. The metal recycling device for computer cabinets of claim 1, wherein: the loading and unloading assembly (2) comprises a limiting wheel chute (2-1), a bottom plate (2-2), a motor III support (2-3), a motor III (2-4), a motor III shaft (2-5), a chain wheel III (2-6), a chain II (2-7), a chain wheel IV (2-8), a chain wheel IV shaft (2-9), a gear I (2-10), a rack (2-11), a friction block (2-12), a coupler (2-13), a threaded shaft (2-14), a sliding block sliding box (2-15), a sliding block (2-16), a sliding block support lug (2-17), a support rod (2-18), a support rod support lug (2-19), a support plate (2-20), a hinge shaft (2-21), a chopping support (2-22) and a support leg (2-23), the limiting wheel chute (2-1) is positioned on the bottom plate (2-2), the bottom plate (2-2) is connected with a motor III support (2-3), the motor III support (2-3) is connected with a motor III (2-4), the motor III (2-4) is connected with a motor III shaft (2-5), the motor III shaft (2-5) is connected with a chain wheel III (2-6), the chain wheel III (2-6), a chain II (2-7) and a chain wheel IV (2-8) are connected with a chain wheel chain, the chain wheel IV (2-8) is connected with a chain wheel IV shaft (2-9), the chain wheel IV shaft (2-9) is connected with a gear I (2-10), the gear I (2-10) is connected with a rack (2-11) in a meshing way, the rack (2-11) is connected with a rear side sliding door (1-13), a shaft (2-5) of a motor III is contacted with a friction block (2-12), the friction block (2-12) is connected with a coupling (2-13), the coupling (2-13) is connected with a threaded shaft (2-14), the threaded shaft (2-14) is rotatably connected with a sliding block sliding box (2-15), the threaded shaft (2-14) is in threaded connection with a sliding block (2-16), the sliding block (2-16) is in sliding connection with the sliding block sliding box (2-15), the sliding block sliding box (2-15) is connected with a bottom plate (2-2), the sliding block (2-16) is connected with a sliding block support lug (2-17), the sliding block support lug (2-17) is hinged with a support rod (2-18), the support rod (2-18) is hinged with a support rod support lug (2-19), the support rod support lug (2-19) is connected with a support plate (2-20), the bottom plate (2-2) is rotatably connected with a hinged shaft (2-21), the hinged shaft (2-21) is rotatably connected with a chopping bracket (2-22), two support legs (2-23) are connected with the bottom plate (2-2), and the two support legs (2-23) are connected with the support plate (2-20).

4. The metal recycling device for computer cabinets of claim 1, wherein: the flattening assembly (3) comprises a motor IV (3-1), a motor IV shaft (3-2), a gear II (3-3), a support (3-4), a gear III (3-5), a gear III shaft (3-6), a flattening chain wheel I (3-7), a flattening chain (3-8), a flattening chain wheel II (3-9), a flattening shaft (3-10), a flattening shaft support I (3-11), a flattening roller (3-12), a flattening wing plate (3-13) and a flattening shaft support II (3-14), the motor IV (3-1) is connected with the support plate (2-20), the motor IV (3-1) is connected with the motor IV shaft (3-2), the motor IV shaft (3-2) is connected with the gear II (3-3), the gear II (3-3) is connected with the gear III (3-5) in a meshing manner, the gear III (3-5) is connected with a gear III shaft (3-6), the motor IV shaft (3-2) and the gear III shaft (3-6) are rotatably connected with the support (3-4), the support (3-4) is connected with the support plate (2-20), the gear III shaft (3-6) is connected with the flattening chain wheel I (3-7), the flattening chain wheel (3-8) and the flattening chain wheel II (3-9) are connected by a chain wheel chain, the flattening chain wheel II (3-9) is connected with the flattening shaft (3-10), the flattening shaft (3-10) is rotatably connected with the flattening shaft support I (3-11), the flattening shaft (3-10) is connected with the support plate (2-20), the motor IV shaft (3-2) and the flattening shaft (3-10) are connected with the chopping support (2-22), The flattening shaft supports II (3-14) are rotationally connected, a motor IV shaft (3-2) and a flattening shaft (3-10) are respectively connected with the two flattening rollers (3-12), and the flattening wing plates (3-13) are connected with the chopping supports (2-22) and the flattening shaft supports II (3-14).

5. The metal recycling device for computer cabinets of claim 1, wherein: the separation assembly (4) comprises a motor V (4-1), a motor V bracket (4-2), a conveying shaft (4-3), a conveying chain wheel I (4-4), a conveying chain (4-5), a conveying chain wheel II (4-6), a conveying shaft bracket (4-7), a conveying roller (4-8), a magnetic conveying belt (4-9), a scraping plate (4-10), a non-ferromagnetic metal storage chamber (4-11) and a ferromagnetic metal storage chamber (4-12), a motor V (4-1) is connected with the motor V bracket (4-2), the motor V bracket (4-2) is connected with the conveying shaft bracket (4-7), the motor V (4-1) is connected with one conveying shaft (4-3), and two adjacent conveying shafts (4-3) are respectively connected with the conveying chain wheel I (4-4), A transmission chain wheel II (4-6) connected with the transmission chain wheel I (4-4) and a transmission chain (4-5), the conveying chain wheels II (4-6) are connected with a chain wheel chain, the conveying shafts (4-3) are rotatably connected with conveying shaft supports (4-7), the conveying shaft supports (4-7) are connected with non-ferromagnetic metal storage chambers (4-11) and ferromagnetic metal storage chambers (4-12), the conveying shafts (4-3) are connected with conveying rollers (4-8), the conveying rollers (4-8) are connected with magnetic conveying belts (4-9) through belts, the magnetic conveying belts (4-9) are made of magnetic materials, the magnetic conveying belts (4-9) are in contact with scraping plates (4-10), and the scraping plates (4-10) are connected with the two conveying shaft supports (4-7).

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