CN113231162B

CN113231162B - Aluminum scrap crushing equipment

Info

Publication number: CN113231162B
Application number: CN202110671803.XA
Authority: CN
Inventors: 张凤春
Original assignee: Shanxi Magari Light Metal New Materials Co ltd
Current assignee: Shanxi Magari Light Metal New Materials Co ltd
Priority date: 2021-06-17
Filing date: 2021-06-17
Publication date: 2022-12-23
Anticipated expiration: 2041-06-17
Also published as: CN113231162A

Abstract

The invention relates to the technical field of waste recovery, in particular to aluminum scrap crushing equipment, wherein a dredging device is used for dredging when blockage occurs, a rotating rod rotates to further enable a first clutch to be meshed with a second clutch, a first driving rack is meshed with a first straight gear, a driving gear shaft and a driven gear shaft rotate to drive a second driving belt, so that a dredging plate compresses aluminum scraps, a compressing device compresses the aluminum scraps into blocks after the aluminum scraps are crushed into slag, the second straight gear is meshed with a second gear shaft and a gear on the rear end face through the sliding of a trigger rod, a driving lead screw is in threaded connection with a first sliding block, a lifting support II drives a roller to rotate in a sliding rail, a carrying assembly transports the aluminum scrap slag, and the third gear shaft drives a fourth rack to convey the aluminum scrap blocks through the sliding of the trigger block.

Description

Aluminum scrap crushing equipment

Technical Field

The invention relates to the technical field of waste recovery, in particular to aluminum scrap crushing equipment.

Background

In some factories, when aluminum scrap crushers crush aluminum scrap, the problem that the aluminum scrap is blocked cannot be effectively solved, for example, the patent number is CN202020556375.7 as a novel axially adjustable forged hub aluminum scrap crusher.A horizontal right-angle speed reducing motor is fixedly installed on the right side above a main installation plate, an output shaft of the horizontal right-angle speed reducing motor is provided with an elastic coupling, a driving shaft is installed on the shaft hole at the other end of the elastic coupling in a matched manner, and a driving gear is installed on the driving shaft in a matched manner; a square box is fixedly arranged on the left side of the main mounting plate, and the square box is of a structure in which four steel plates with the thickness of 30mm are aligned and combined and connected with each other; two bearing supports are respectively arranged on the left side and the right side of the square box, the driving shaft is arranged on the two bearing supports, the driven shaft is arranged on the other two bearing supports, and a driven gear is arranged on the shaft hole of the driven shaft in a matching way; the driving gear and the driven gear are installed in a tooth meshing manner, and two end faces are aligned; a group of blade assemblies are respectively and fixedly arranged on the driving shaft and the driven shaft relatively; the hopper is fixedly arranged at the upper part of the square box, the hopper is of a lower closing-up structure, the front side of the hopper is designed to be of an open notch structure, a feeding slide is arranged at the position of the open notch in a lap joint mode, and the feeding slide is fixedly supported on the ground through four supporting legs and is coplanar with the lower surface of the main mounting plate; the feeding slide is installed in a manner of inclining a certain angle with the horizontal plane, and a strong magnetic plate is fixedly installed on the feeding slide; bearing support inside be provided with the double row bearing, the excircle of double row bearing with bearing support shaft hole cooperation installation, the interior circle of double row bearing with the relative shaft hole cooperation installation of driving shaft or driven shaft the inside screw-thread fit of bearing support install round nut, round nut's excircle is helicitic texture, round nut's medial surface with the laminating of double row bearing's outer lane terminal surface, every round nut's outside terminal surface all install and be provided with three connecting plate, round nut terminal surface on the design have a several screw hole, a reference circle is shared to the screw hole, bearing support outside terminal surface on the design have a several screw hole equally, a reference circle is shared equally to the screw hole, the design has three mounting hole on the connecting plate, two holes wherein pass through screw installation locking round nut on, another hole passes through screw installation locking on bearing support, three connecting plate be triangle-shaped fixed mounting, novel adjustable forging wheel hub aluminium bits rubbing crusher that axial compares with prior art scheme, conveniently adjusts the installation clearance to reliability and security that technical scheme has been improved, but the condition of meetting the jam still can's unable solution when burning aluminium bits.

Disclosure of Invention

The invention aims to provide aluminum scrap crushing equipment which can be dredged by a dredging device when the aluminum scrap crushing equipment is blocked, wherein the compressing device is used for compressing aluminum scraps into blocks after the aluminum scraps are crushed into slag, and a carrying assembly is used for transporting the aluminum scrap slag.

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

the aluminum scrap crushing equipment comprises a dredging device, a compressing device and a carrying assembly, wherein the dredging device is connected with the compressing device in a matched mode, the dredging device is connected with the carrying assembly in a matched mode, and the compressing device is connected with the carrying assembly in a matched mode.

As a further optimization of the technical scheme, the invention relates to aluminum scrap crushing equipment, wherein the dredging device comprises an aluminum scrap crushing box, a cross rod sleeve, a sleeve support, a first transmission belt, a cutter shaft, a driving gear, a driven gear, a blade, a rotating rod, a cylindrical pin, a transmission shaft sleeve, a first transmission shaft, a cross rod, a first clutch, a second clutch, a rotating arm, a sliding bearing, a sliding chute, a first rack, a first straight gear, a driving gear shaft, a driven gear shaft, a second transmission belt, a first gear shaft, a second rack and a dredging plate, the cross rod sleeve is rotatably connected with the sleeve support, the sleeve support is fixedly connected with the aluminum scrap crushing box, the first transmission belt is cooperatively connected with the cross rod sleeve, the first transmission belt is cooperatively connected with the cutter shaft, the cutter shaft is rotatably connected with the aluminum scrap crushing box, the cutter shaft is fixedly connected with the driving gear, the cutter shaft is fixedly connected with the driven gear, and the cutter shaft is fixedly connected with the blade, the driving gear is meshed with the driven gear, the rotating rod is fixedly connected with the cylindrical pin, the cylindrical pin is fixedly connected with the aluminum scrap crushing box, the transmission shaft sleeve is slidably connected with the rotating rod, the first transmission shaft is rotatably connected with the transmission shaft sleeve, the first transmission shaft is fixedly connected with the cross rod, the cross rod is slidably connected with the cross rod sleeve, the cross rod is fixedly connected with the first clutch, the first clutch is meshed with the second clutch, the second clutch is fixedly connected with the rotating arm, the rotating arm is rotatably connected with the aluminum scrap crushing box, the rotating arm is slidably connected with the sliding bearing, the sliding bearing is slidably connected with the sliding groove, the sliding groove is slidably connected with the aluminum scrap crushing box, the sliding groove is fixedly connected with the first rack, the first rack is meshed with the first straight gear, the first straight gear is fixedly connected with the driving gear shaft, the driving gear shaft is rotatably connected with the aluminum scrap crushing box, and the driving gear shaft is meshed with the driven gear shaft, the driven gear shaft is connected with the aluminum scrap smashing box in a rotating mode, the second driving belt is connected with the driving gear shaft in a matching mode, the second driving belt is connected with the driven gear shaft in a matching mode, the second driving belt is connected with the first gear shaft in a matching mode, the first gear shaft is connected with the aluminum scrap smashing box in a rotating mode, the first gear shaft is connected with the second rack in a meshing mode, the second rack is fixedly connected with the dredging plate, and the dredging plate is connected with the aluminum scrap smashing box in a sliding mode.

As a further optimization of the technical scheme, the invention relates to aluminum scrap crushing equipment, wherein a compression device comprises a compression box, a half gear shaft, a third rack, a compression plate, a first spring, a bearing plate, a trigger rod, a second spring, a second transmission shaft, a second straight gear, a gear support, a second gear shaft, an end face gear, a lead screw, a fixed rod, a first lifting support, a second lifting support, a first sliding block, a roller and a sliding rail, the compression box is fixedly connected with the aluminum scrap crushing box, the half gear shaft is rotatably connected with the compression box, the half gear shaft is meshed with the third rack, the third rack is fixedly connected with the compression plate, the compression plate is slidably connected with the compression box, one end of the spring is contacted with the compression box, the other end of the spring is contacted with the compression plate, the bearing plate is slidably connected with the compression box, and the trigger rod is slidably connected with the bearing plate, the trigger rod is fixedly connected with the second transmission shaft, one end of the second spring is contacted with the compression box, the other end of the second spring is contacted with the trigger rod, the second transmission shaft is fixedly connected with the second straight gear, the gear support is rotatably connected with the second transmission shaft, the gear support is rotatably connected with the second gear shaft, the end face gear is meshed with the second straight gear, the end face gear is meshed with the second gear shaft, the end face gear is fixedly connected with the lead screw, the lead screw is rotatably connected with the fixed rod, the lead screw is in threaded connection with the first sliding block, the fixed rod is fixedly connected with the sliding rail, the first lifting support is fixedly connected with the bearing plate, the first lifting support is fixedly connected with the fixed rod, the second lifting support is fixedly connected with the first sliding block, the first sliding block is fixedly connected with the roller, and the roller is rotatably connected with the sliding rail.

As a further optimization of the technical scheme, the invention relates to aluminum scrap crushing equipment, which comprises a motor, a transmission belt support, a transmission belt III, a transmission belt IV, a bevel gear shaft I, a bevel gear shaft support I, a bevel gear shaft II, a bevel gear shaft support II, a transmission belt V, a roller, a transmission belt VI, a bevel gear I, a transmission belt VII, a bevel gear shaft III, a bevel gear II, a trigger block, a spring III, a bevel gear III, a gear shaft III, a rack IV, a slide block II, an optical axis, a spring IV and an aluminum scrap block support, wherein the motor is fixedly connected with the transmission belt support, the transmission belt III is connected with the motor in a matching way, the transmission belt III is connected with a cross rod sleeve in a matching way, the transmission belt IV is connected with the bevel gear shaft I in a matching way, the bevel gear shaft I is rotationally connected with the bevel gear shaft support, the bevel gear shaft I is connected with the bevel gear shaft II in a meshing way, the bevel gear shaft I is connected with the bevel gear shaft I in a matching way, a bevel gear shaft II is rotatably connected with a bevel gear shaft bracket II, a transmission belt fifth is connected with the bevel gear shaft II in a matching way, the transmission belt fifth is connected with a roller in a matching way, the roller is rotatably connected with a transmission belt bracket, a transmission belt sixth is connected with the roller in a matching way, the transmission belt sixth is connected with a half gear shaft in a matching way, a bevel gear I is fixedly connected with a bevel gear shaft III, a transmission belt seventh is connected with the bevel gear shaft III in a matching way, the transmission belt seventh is connected with a transmission shaft II in a matching way, the bevel gear shaft III is rotatably connected with the transmission belt bracket, the bevel gear II is connected with a bevel gear shaft III in a meshing way, the bevel gear II is fixedly connected with a trigger block, the trigger block is connected with the transmission belt bracket in a sliding way, one end of a spring III is contacted with the transmission belt bracket, the other end of the spring III is contacted with the trigger block, the bevel gear III is fixedly connected with a gear shaft III, and the gear shaft III is rotatably connected with the transmission belt bracket, the gear shaft III is meshed with the rack IV, the rack IV is fixedly connected with the sliding block II, the sliding block II is connected with the optical axis in a sliding mode, the optical axis is fixedly connected with the transmission belt support, one end of the spring IV is in contact with the transmission belt support, the other end of the spring IV is in contact with the sliding block II, and the aluminum scrap block support is fixedly connected with the rack IV.

The aluminum scrap crushing equipment has the beneficial effects that:

the invention relates to aluminum scrap crushing equipment, which is characterized in that a dredging device rotates through a rotating rod, so that a clutch I is meshed with a clutch II, a driving rack I is meshed with a straight gear I, a driving gear shaft and a driven gear shaft rotate, a driving belt II is driven, a dredging plate compresses aluminum scraps, a compression device is used for meshing a straight gear II with a gear shaft II along with an end face gear through the sliding of a trigger rod, a driving lead screw is in threaded connection with a sliding block I, a lifting support II drives a roller to rotate in a sliding rail, a carrying assembly slides through a trigger block, so that a bevel gear II is meshed with a bevel gear shaft III and a bevel gear III, and the driving gear shaft III drives a rack IV to convey aluminum scrap blocks.

Drawings

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

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

FIG. 2 is a first structural schematic diagram of the dredging device of the invention;

FIG. 3 is a second structural schematic diagram of the dredging device of the present invention;

FIG. 4 is a third structural view of the dredging device of the present invention;

FIG. 5 is a fourth schematic structural view of the pull through of the present invention;

FIG. 6 is a fifth structural schematic view of the dredging device of the present invention;

FIG. 7 is a structural schematic diagram six of the dredging device of the invention;

FIG. 8 is a first schematic view of the compression apparatus of the present invention;

FIG. 9 is a second schematic view of the compression apparatus of the present invention;

FIG. 10 is a third schematic view of the compression apparatus of the present invention;

FIG. 11 is a fourth schematic structural view of the compression apparatus of the present invention;

FIG. 12 is a fifth structural view of the compression apparatus of the present invention;

FIG. 13 is a sixth schematic view of the compression apparatus of the present invention;

FIG. 14 is a first schematic view of a carrier assembly of the present invention;

FIG. 15 is a second schematic view of the carrier assembly of the present invention;

fig. 16 is a third schematic structural view of the carrier assembly of the present invention.

In the figure: a dredging device 1; 1-1 of an aluminum scrap crushing box; a cross-bar sleeve 1-2; 1-3 of a sleeve support; 1-4 parts of a first transmission belt; 1-5 of a cutter shaft; 1-6 parts of a driving gear; 1-7 of a driven gear; 1-8 parts of blades; rotating the rods 1-9; 1-10 parts of a cylindrical pin; 1-11 of a transmission shaft sleeve; 1-12 parts of a first transmission shaft; 1-13 parts of a cross rod; a first clutch 1-14; a second clutch 1-15; rotating arms 1-16; plain bearings 1-17; 1-18 of chutes; racks I1-19; 1-20 parts of a first straight gear; drive gear shafts 1-21; driven gear shafts 1 to 22; a second transmission belt 1-23; gear shafts 1-24; a second rack 1-25; dredging plates 1-26; a compression device 2; 2-1 of a compression box; a half gear shaft 2-2; 2-3 of a rack; 2-4 of a compression plate; 2-5 parts of a first spring; 2-6 parts of a bearing plate; 2-7 of a trigger lever; 2-8 parts of a second spring; 2-9 parts of a second transmission shaft; 2-10 parts of a second straight gear; 2-11 parts of a gear bracket; 2-12 parts of a second gear shaft; face gears 2-13; 2-14 parts of a screw rod; 2-15 parts of a fixed rod; 2-16 parts of a lifting support I; 2-17 parts of a second lifting support; 2-18 parts of a first sliding block; 2-19 of rollers; 2-20 parts of a slide rail; a carrier assembly 3; a motor 3-1; a belt support 3-2; a third transmission belt 3-3; a fourth transmission belt 3-4; 3-5 parts of a bevel gear shaft I; a bevel gear shaft support I3-6; 3-7 parts of a bevel gear shaft II; a second bevel gear shaft support 3-8; a transmission belt five 3-9; 3-10 parts of rollers; 3-11 of a conveyor belt; six transmission belts 3-12; 3-13 parts of a first bevel gear; a transmission belt seventh 3-14; 3-15 parts of a bevel gear shaft; bevel gears II 3-16; trigger blocks 3-17; 3-18 parts of a spring; bevel gears three 3-19; 3-20 parts of a gear shaft; rack four 3-21; 3-22 parts of a second sliding block; optical axis 3-23; a fourth spring 3-24; 3-25 parts of aluminum scrap block bracket.

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 chute 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 is as follows:

the following describes the present embodiment with reference to fig. 1 to 16, and an aluminum scrap crushing apparatus includes a dredging device 1, a compressing device 2, and a carrying assembly 3, where the dredging device 1 is connected with the compressing device 2 in a matching manner, the dredging device 1 is connected with the carrying assembly 3 in a matching manner, and the compressing device 2 is connected with the carrying assembly 3 in a matching manner.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1-16, and the embodiment further describes the first embodiment, wherein the dredging device 1 comprises an aluminum scrap crushing box 1-1, a cross rod sleeve 1-2, a sleeve support 1-3, a transmission belt I1-4, a cutter shaft 1-5, a driving gear 1-6, a driven gear 1-7, a blade 1-8, a rotating rod 1-9, a cylindrical pin 1-10, a transmission shaft sleeve 1-11, a transmission shaft I1-12, a cross rod 1-13, a clutch I1-14, a clutch II 1-15, a rotating arm 1-16, a sliding bearing 1-17, a sliding chute 1-18, a rack I1-19, a straight gear I1-20, a driving gear shaft 1-21, a driven gear shaft 1-22, a transmission belt II 1-23, a gear shaft I1-24, a rack II 1-25, a dredging plate 1-26, a cross rod sleeve 1-2 is rotatably connected with the sleeve support 1-3, a sleeve support 1-3 is fixedly connected with the aluminum scrap crushing box 1-1, a cutter shaft 1-4 is fixedly connected with the transmission belt, a cutter shaft 1-5 is fixedly connected with the driving gear 1-5, a driving gear is fixedly connected with the driving gear 1-5, a cylindrical pin is fixedly connected with the driving gear 1-5, a driving gear 1-6, a driving gear 1-5, a driving gear is connected with the driving gear 1-5, the cylindrical pin 1-10 is fixedly connected with the aluminum scrap crushing box 1-1, the transmission shaft sleeve 1-11 is slidably connected with the rotating rod 1-9, the transmission shaft I1-12 is rotatably connected with the transmission shaft sleeve 1-11, the transmission shaft I1-12 is fixedly connected with the cross rod 1-13, the cross rod 1-13 is slidably connected with the cross rod sleeve 1-2, the cross rod 1-13 is fixedly connected with the clutch I1-14, the clutch I1-14 is engaged with the clutch II 1-15, the clutch II 1-15 is fixedly connected with the rotating arm 1-16, the rotating arm 1-16 is rotatably connected with the aluminum scrap crushing box 1-1, the rotating arm 1-16 is slidably connected with the sliding bearing 1-17, and the sliding bearing 1-17 is slidably connected with the sliding chute 1-18, the chutes 1-18 are slidably connected with an aluminum scrap crushing box 1-1, the chutes 1-18 are fixedly connected with racks 1-19, the racks 1-19 are meshed with spur gears 1-20, the spur gears 1-20 are fixedly connected with driving gear shafts 1-21, the driving gear shafts 1-21 are rotatably connected with the aluminum scrap crushing box 1-1, the driving gear shafts 1-21 are meshed with driven gear shafts 1-22, the driven gear shafts 1-22 are rotatably connected with the aluminum scrap crushing box 1-1, driving belts two 1-23 are matched and connected with the driving gear shafts 1-21, driving belts two 1-23 are matched and connected with the driven gear shafts 1-22, driving belts two 1-23 are matched and connected with the gear shafts one 1-24, the gear shafts one 1-24 are rotatably connected with the aluminum scrap crushing box 1-1, the first gear shaft 1-24 is meshed with the second rack 1-25, the second rack 1-25 is fixedly connected with the dredging plate 1-26, and the dredging plate 1-26 is slidably connected with the aluminum scrap crushing box 1-1;

aluminum scraps are crushed in an aluminum scrap crushing box 1-1, when aluminum scrap crushing blockage is met, a cross rod sleeve 1-2 rotates in a sleeve support 1-3, a transmission belt 1-4 is matched with the cross rod sleeve 1-2 and a cutter shaft 1-5, the cross rod sleeve 1-2 drives the transmission belt 1-4 to transmit, the transmission belt 1-4 drives the cutter shaft 1-5 to rotate, the cutter shaft 1-5 is connected with a driving gear 1-6, a driven gear 1-7 and a blade 1-8, the driving gear 1-6 is meshed with the driven gear 1-7, the driving blade 1-8 is driven to crush the aluminum scraps, when the aluminum scrap crushing box 1-1 meets the blockage condition, the driving gear 1-6 rotates in a cylindrical pin 1-10 through a rotating rod 1-9, the rotating rod 1-9 drives a transmission shaft sleeve 1-11 to slide in a transmission shaft 1-12, the cross rod 1-13 slides in a cross rod 1-2, the sleeve 1-13 is connected with a clutch one-14, a driving rod 1-13 slides in a transmission shaft sleeve 1-12 to slide in a transmission shaft 1-12, a sliding groove 1-16 is connected with a sliding groove 1-16, a sliding groove 1-16 is connected with a sliding groove 16, the first straight gear 1-20 is connected with the driving gear shaft 1-21, the driving gear shaft 1-21 is driven to be meshed with the driven gear shaft 1-22 after the first straight gear 1-20 rotates, the transmission belt II 1-23 is matched with the driving gear shaft 1-21, the driven gear shaft 1-22 and the gear shaft I1-24, the driving gear shaft 1-21 is meshed with the driven gear shaft 1-22, the transmission belts II 1-23 on two sides are driven to transmit, the transmission belt II 1-23 drives the gear shaft I1-24 to rotate, the gear shaft I1-24 is meshed with the rack II 1-25 after rotating, the driving rack II 1-25 slides, and the rack II 1-25 is connected with the dredging plates 1-26, so that the dredging plates 1-26 on two sides dredge aluminum scraps blocked in the aluminum scrap crushing box 1-1.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 16, and the embodiment further describes the first embodiment, wherein the compression device 2 comprises a compression box 2-1, a half gear shaft 2-2, a rack three 2-3, a compression plate 2-4, a spring one 2-5, a bearing plate 2-6, a trigger rod 2-7, a spring two 2-8, a transmission shaft two 2-9, a spur gear two 2-10, a gear support 2-11, a gear shaft two 2-12, an end face gear 2-13, a screw rod 2-14, a fixed rod 2-15, a lifting support one 2-16, a lifting support two 2-17, a slide block one 2-18, a roller 2-19 and a slide rail 2-20, the compression box 2-1 is fixedly connected with an aluminum scrap crushing box 1-1, a half gear shaft 2-2 is rotatably connected with a compression box 2-1, the half gear shaft 2-2 is meshed with a rack III 2-3, the rack III 2-3 is fixedly connected with a compression plate 2-4, the compression plate 2-4 is slidably connected with the compression box 2-1, one end of a spring I2-5 is contacted with the compression box 2-1, the other end of the spring I2-5 is contacted with the compression plate 2-4, a bearing plate 2-6 is slidably connected with the compression box 2-1, a trigger rod 2-7 is slidably connected with the bearing plate 2-6, the trigger rod 2-7 is fixedly connected with a transmission shaft II 2-9, one end of the spring II 2-8 is contacted with the compression box 2-1, the other end of the spring II 2-8 is contacted with the trigger rod 2-7, the transmission shaft II 2-9 is fixedly connected with a straight gear II 2-10, the gear support 2-11 is rotatably connected with the transmission shaft II 2-9, the gear support 2-11 is rotatably connected with the gear shaft II 2-12, the end face gear 2-13 is meshed with the straight gear II 2-10, the end face gear 2-13 is meshed with the gear shaft II 2-12, the end face gear 2-13 is fixedly connected with the screw rod 2-14, the screw rod 2-14 is rotatably connected with the fixed rod 2-15, the screw rod 2-14 is in threaded connection with the slider I2-18, the fixed rod 2-15 is fixedly connected with the slide rail 2-20, the lifting support I2-16 is fixedly connected with the bearing plate 2-6, the lifting support I2-16 is fixedly connected with the fixed rod 2-15, the lifting support II 2-17 is fixedly connected with the bearing plate 2-6, the lifting support II 2-17 is fixedly connected with the slider I2-18, the slider I2-18 is fixedly connected with the roller 2-19, and the roller 2-19 is rotatably connected with the slide rail 2-20;

after aluminum scraps are crushed in a compression box 2-1, a half gear shaft 2-2 is meshed with a rack three 2-3 through rotation of a half gear shaft 2-2, the rack three 2-3 is driven to slide, the rack three 2-3 is connected with a compression plate 2-4, when the half gear shaft 2-2 is meshed with the rack three 2-3, the compression plate 2-4 is driven to stretch a spring I2-5 to compress the aluminum scraps, when the half gear shaft 2-2 is disconnected from meshing with the rack three 2-3, the spring I2-5 drives the compression plate 2-4 to retract, a bearing plate 2-6 loads the aluminum scraps, when the aluminum scraps are contacted with a trigger rod 2-7, a spring II 2-8 is carried out through a trigger rod 2-7, the trigger rod 2-7 is connected with a transmission shaft II 2-9, a straight gear II 2-10, a gear support 2-11 fixes the gear II 2-12 on the transmission shaft II 2-9, when the trigger rod 2-7 is in contact, the straight gear shaft II 2-7, the straight gear shaft II 2-10 is connected with the transmission shaft II 2-9, a gear support 2-13 is connected with a screw-2-13, a screw-2-13 is driven to rotate on the end face of the screw rod 2-13, a screw rod 13 is connected with a screw-2-13, the face gear 2-13 is made to rotate reversely, the screw rod 2-14 drives the first slider 2-18 to slide, the first slider 2-18 drives the roller 2-19 to rotate on the sliding rail 2-20, the second lifting support 2-17 is driven to slide, so that the bearing plate 2-6 faces upwards, the first lifting support 2-16 is fixed on the bearing plate 2-6, and the second lifting support 2-17 slides with the first lifting support 2-16 as a fulcrum.

The fourth concrete implementation mode:

the first embodiment is further described with reference to fig. 1-16, and the carrier assembly 3 includes a motor 3-1, a belt support 3-2, a belt third 3-3, a belt fourth 3-4, a bevel gear shaft first 3-5, a bevel gear shaft support first 3-6, a bevel gear shaft second 3-7, a bevel gear shaft support second 3-8, a belt fifth 3-9, rollers 3-10, a belt 3-11, a belt sixth 3-12, a bevel gear first 3-13, a belt seventh 3-14, a bevel gear shaft third 3-15, a bevel gear second 3-16, a trigger block 3-17, a spring third 3-18, a bevel gear third 3-19, a gear shaft third 3-20, a rack fourth 3-21, a slide block second 3-22, an optical axis 3-23, a spring fourth 3-24, and an aluminum scrap support 3-25, the motor 3-1 is fixedly connected with the transmission belt bracket 3-2, the transmission belt III 3-3 is connected with the motor 3-1 in a matching way, the transmission belt III 3-3 is connected with the cross rod sleeve 1-2 in a matching way, the transmission belt IV 3-4 is connected with the motor 3-1 in a matching way, the transmission belt IV 3-4 is connected with the bevel gear shaft I3-5 in a matching way, the bevel gear shaft I3-5 is rotationally connected with the bevel gear shaft bracket I3-6, the bevel gear shaft I3-5 is connected with the bevel gear shaft II 3-7 in a meshing way, the bevel gear shaft I3-5 is connected with the bevel gear shaft I3-13 in a matching way, the bevel gear shaft II 3-7 is rotationally connected with the bevel gear shaft bracket II 3-8, and the transmission belt V3-9 is connected with the bevel gear shaft II 3-7 in a matching way, five transmission belts 3-9 are in fit connection with the rollers 3-10, the rollers 3-10 are in rotational connection with a transmission belt bracket 3-2, the rollers 3-10 are in fit connection with the transmission belts 3-11, six transmission belts 3-12 are in fit connection with the rollers 3-10, six transmission belts 3-12 are in fit connection with a half gear shaft 2-2, a first bevel gear 3-13 is fixedly connected with a third bevel gear 3-15, a seventh transmission belt 3-14 is in fit connection with the third bevel gear 3-15, a seventh transmission belt 3-14 is in fit connection with a second transmission shaft 2-9, the third bevel gear 3-15 is in rotational connection with the transmission belt bracket 3-2, a second bevel gear 3-16 is in mesh connection with the third bevel gear 3-15, and a second bevel gear 3-16 is in mesh connection with the third bevel gear 3-19, the second bevel gear 3-16 is fixedly connected with the trigger block 3-17, the trigger block 3-17 is in sliding connection with the transmission belt bracket 3-2, one end of the third spring 3-18 is in contact with the transmission belt bracket 3-2, the other end of the third spring 3-18 is in contact with the trigger block 3-17, the third bevel gear 3-19 is fixedly connected with the third gear shaft 3-20, the third gear shaft 3-20 is in rotating connection with the transmission belt bracket 3-2, the third gear shaft 3-20 is in meshing connection with the fourth rack 3-21, the fourth rack 3-21 is fixedly connected with the second slider 3-22, the second slider 3-22 is in sliding connection with the optical axis 3-23, the optical axis 3-23 is fixedly connected with the transmission belt bracket 3-2, one end of the fourth spring 3-24 is in contact with the transmission belt bracket 3-2, the other end of the spring IV 3-24 is contacted with the sliding block II 3-22, and the aluminum scrap block bracket 3-25 is fixedly connected with the rack IV 3-21.

The invention relates to aluminum scrap crushing equipment, which has the working principle that: aluminum scraps are crushed in an aluminum scrap crushing box 1-1, when aluminum scrap crushing blockage is met, a cross rod sleeve 1-2 rotates in a sleeve support 1-3, a transmission belt 1-4 is matched with the cross rod sleeve 1-2 and a cutter shaft 1-5, the cross rod sleeve 1-2 drives the transmission belt 1-4 to transmit, the transmission belt 1-4 drives the cutter shaft 1-5 to rotate, the cutter shaft 1-5 is connected with a driving gear 1-6, a driven gear 1-7 and a blade 1-8, the driving gear 1-6 is meshed with the driven gear 1-7, the driving blade 1-8 is driven to crush the aluminum scraps, when the aluminum scrap crushing box 1-1 meets the blockage condition, the driving gear 1-6 rotates in a cylindrical pin 1-10 through a rotating rod 1-9, the rotating rod 1-9 drives a transmission shaft sleeve 1-11 to slide in a transmission shaft 1-12, the cross rod 1-13 slides in a cross rod 1-2, the sleeve 1-13 is connected with a clutch one-14, a driving rod 1-13 slides in a transmission shaft sleeve 1-12 to slide in a transmission shaft 1-12, a sliding groove 1-16 is connected with a sliding groove 1-16, a sliding groove 1-16 is connected with a sliding groove 16, the first straight gear 1-20 is connected with the driving gear shaft 1-21, the driving gear shaft 1-21 is driven to be meshed with the driven gear shaft 1-22 after the first straight gear 1-20 rotates, the transmission belt II 1-23 is matched with the driving gear shaft 1-21, the driven gear shaft 1-22 and the gear shaft I1-24, the driving gear shaft 1-21 is meshed with the driven gear shaft 1-22, the transmission belts II 1-23 on the two sides are driven to transmit, the transmission belts II 1-23 drive the gear shafts I1-24 to rotate, the gear shafts I1-24 are meshed with the rack II 1-25 after rotating, the driving rack II 1-25 slides, the rack II 1-25 is connected with the dredging plates 1-26, so that the dredging plates 1-26 on the two sides dredge aluminum scraps blocked in the aluminum scrap crushing box 1-1, after aluminum scraps are crushed, in a compression box 2-1, through the rotation of a half gear shaft 2-2, the half gear shaft 2-2 is meshed with a rack III 2-3 to drive the rack III 2-3 to slide, the rack III 2-3 is connected with a compression plate 2-4, when the half gear shaft 2-2 is meshed with the rack III 2-3, the compression plate 2-4 is driven to stretch a spring I2-5 to compress the aluminum scraps, when the half gear shaft 2-2 is disconnected with the rack III 2-3, the spring I2-5 drives the compression plate 2-4 to retract, a bearing plate 2-6 loads the aluminum scraps, when the aluminum scraps are contacted with a trigger rod 2-7, the spring II 2-8 is carried out through the trigger rod 2-7, the trigger bar 2-7 is connected with the second transmission shaft 2-9 and the second straight gear 2-10, the gear support 2-11 fixes the second gear shaft 2-12 on the second transmission shaft 2-9, when the trigger bar 2-7 slides, the second straight gear 2-10 is meshed with the second end face gear 2-13, the second end face gear 2-13 is connected with the lead screw 2-14, the lead screw 2-14 is driven to be in threaded connection with the first slider 2-18 after the end face gear 2-13 rotates, so that the first slider 2-18 drives the second roller 2-19 to rotate on the sliding rail 2-20, the second slider 2-17 is driven to slide, the bearing plate 2-6 slides, after the aluminum scrap slag is conveyed, the second spring 2-8 releases the gear shaft, the second transmission belt drives the second transmission shaft 2-9 through the transmission belt 2-7, so that the second slider 2-12 is meshed with the second end face gear 2-13, the end face gear 2-13 is driven to reverse, the first slider 2-18 slides, the first slider 2-18 drives the first slider 2-18 to rotate on the sliding rail 2-20, the second slider 2-10 drives the second slider 2-13 to be meshed, the lifting bracket 2-17 to slide, the second slider 2-6 is fixed on the bearing plate 2-6, the bearing plate 2-1, the lifting support 2-6 is driven to slide, the first lifting support 2-16 is driven by the lifting support 2-6, the lifting support 2-1 motor, the lifting support 2-6 is driven by the lifting motor, the lifting support 2-1 lifting motor, the lifting support 2-6 is matched with the lifting motor, the lifting motor is matched with the lifting motor, the lifting support 2-1 support 16, the lifting motor, the lifting support 2-1 support 2-6 is fixed on the lifting motor, the lifting support 16, the third driving belt 3-3 drives the cross rod sleeve 1-2 to rotate after driving, so that the dredging device runs, the fourth driving belt 3-4 is matched with the motor 3-1 and the first bevel gear shaft 3-5, the fourth driving belt 3-4 drives the first bevel gear shaft 3-5 to rotate in the first bevel gear shaft support 3-6 after driving, the first bevel gear shaft 3-5 is meshed with the second bevel gear shaft 3-7 and the first bevel gear 3-13, the first bevel gear shaft 3-5 drives the second bevel gear shaft 3-7 to rotate in the second bevel gear shaft support 3-8, the fifth driving belt 3-9 is matched with the second bevel gear shaft 3-7 and the roller 3-10, and the second bevel gear shaft 3-7 drives the fifth driving belt 3-9 to drive, after the transmission of the fifth transmission belt 3-9, the rollers 3-10 are driven to rotate in the transmission belt bracket 3-2, the rollers 3-10 are matched with the transmission belt 3-11 to transmit aluminum scrap, the transmission belt sixth 3-12 is matched with the rollers 3-10 and the half gear shaft 2-2, after the rollers 3-10 drive the transmission belt sixth 3-12 to transmit, the transmission belt sixth 3-12 drives the half gear shaft 2-2 to rotate, so that the aluminum scrap is compressed into blocks by the compression device, after the first bevel gear shaft 3-5 is meshed with the first bevel gear 3-13, the first bevel gear 3-13 is connected with the third bevel gear shaft 3-15, the seventh transmission belt 3-14 is matched with the third bevel gear shaft 3-15 and the second transmission shaft 2-9, and the seventh transmission belt 3-14 is driven to transmit after the third bevel gear shaft 3-15 rotates, the transmission belt seventh 3-14 drives the transmission shaft second 2-9 to enable the straight gear second 2-10 to rotate so as to enable the lifting support to run, the bearing plate 2-6 slides to be in contact with the trigger block 3-17, the trigger block 3-17 slides on the transmission belt support 3-2, the trigger block 3-17 is connected with the bevel gear second 3-16, the trigger block 3-17 slides to enable the extension spring third 3-18 to enable the bevel gear second 3-16 to be meshed with the bevel gear third 3-15 and the bevel gear third 3-19, the bevel gear second 3-16 is meshed with the bevel gear third 3-15 to rotate, the bevel gear second 3-16 drives the bevel gear third 3-19 to rotate, the bevel gear third 3-19 is connected with the gear shaft third 3-20, after the bevel gear III 3-19 rotates, the gear shaft III 3-20 is driven to be meshed with the rack IV 3-21, the rack IV 3-21 is meshed to slide, the rack IV 3-21 is connected with the sliding block II 3-22 and the aluminum scrap block support 3-25, after the rack IV 3-21 slides, the sliding block II 3-22 is driven to slide in the optical axis 3-23 by the compression spring IV 3-24, the aluminum scrap block support 3-25 controls the aluminum scrap slag to be transported, and after the aluminum scrap slag is transported, the lifting support upwards slides to release the spring III 3-18, the bevel gear II 3-16 is driven to be disengaged from the bevel gear shaft III 3-15 and the bevel gear III 3-19, the spring IV 3-24 is released, and the sliding block II 3-22 is driven to reset.

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

1. The utility model provides an aluminium bits crushing apparatus which characterized in that: the device comprises a dredging device (1), a compression device (2) and a carrying assembly (3), wherein the dredging device (1) is connected with the compression device (2) in a matching manner, the dredging device (1) is connected with the carrying assembly (3) in a matching manner, and the compression device (2) is connected with the carrying assembly (3) in a matching manner;

the dredging device (1) comprises an aluminum scrap crushing box (1-1), a cross rod sleeve (1-2), a sleeve support (1-3), a first transmission belt (1-4), a cutter shaft (1-5), a blade (1-8), a rotating rod (1-9), a cylindrical pin (1-10), a transmission shaft sleeve (1-11), a first transmission shaft (1-12), a cross rod (1-13), a first clutch (1-14), a second clutch (1-15), a rotating arm (1-16), a sliding bearing (1-17), a sliding chute (1-18), a first rack (1-19), a first straight gear (1-20), a first driving gear shaft (1-21), a second transmission belt (1-23), a first gear shaft (1-24), a second rack (1-25) and a dredging plate (1-26), wherein the cross rod sleeve (1-2) is rotatably connected with the sleeve support (1-3), the sleeve support (1-3) is fixedly connected with the aluminum scrap crushing box (1-1), the first transmission belt (1-4) is connected with the cross rod sleeve (1-2), and the first transmission belt (1-5) is connected with the cross rod sleeve (1-4), the cutter shaft (1-5) is rotationally connected with the aluminum scrap crushing box (1-1), the cutter shaft (1-5) is fixedly connected with the cutter blade (1-8), the rotating rod (1-9) rotates in the cylindrical pin (1-10), the cylindrical pin (1-10) is fixedly connected with the aluminum scrap crushing box (1-1), the transmission shaft sleeve (1-11) is slidably connected with the rotating rod (1-9), the transmission shaft (1-12) is rotationally connected with the transmission shaft sleeve (1-11), the transmission shaft (1-12) is fixedly connected with the cross rod (1-13), the cross rod (1-13) is slidably connected with the cross rod sleeve (1-2), the cross rod (1-13) is fixedly connected with the clutch I (1-14), the clutch I (1-14) is meshed with the clutch II (1-15), the clutch II (1-15) is fixedly connected with the rotating arm (1-16), the rotating arm (1-16) is rotatably connected with the aluminum scrap crushing box (1-1), the rotating arm (1-16) is slidably connected with the sliding bearing (1-17), the sliding bearing (1-17) is slidably connected with the sliding chute (1-18), the sliding chute (1-18) is slidably connected with the aluminum scrap crushing box (1-1), the chute (1-18) is fixedly connected with a first rack (1-19), the first rack (1-19) is meshed with a first straight gear (1-20), the first straight gear (1-20) is fixedly connected with a first driving gear shaft (1-21), the driving gear shaft (1-21) is rotatably connected with an aluminum scrap crushing box (1-1), a second driving belt (1-23) is matched and connected with the driving gear shaft (1-21), the second driving belt (1-23) is matched and connected with a first gear shaft (1-24), the first gear shaft (1-24) is rotatably connected with the aluminum scrap crushing box (1-1), the first gear shaft (1-24) is meshed and connected with a second rack (1-25), the second rack (1-25) is fixedly connected with a dredging plate (1-26), and the dredging plate (1-26) is slidably connected with the aluminum scrap crushing box (1-1);

the compression device (2) comprises a compression box (2-1), a half gear shaft (2-2), a rack III (2-3), a compression plate (2-4), a spring I (2-5), a bearing plate (2-6), a trigger rod (2-7), a spring II (2-8), a transmission shaft II (2-9), a straight gear II (2-10), a gear support (2-11), a gear shaft II (2-12), an end face gear (2-13), a screw rod (2-14), a fixed rod (2-15), a lifting support I (2-16), a lifting support II (2-17), a slide block I (2-18), a roller (2-19) and a slide rail (2-20), wherein the compression box (2-1) is fixedly connected with the aluminum scrap crushing box (1-1), the half gear shaft (2-2) is rotatably connected with the compression box (2-1), the half gear shaft (2-2) is meshed with the rack III (2-3), the rack III (2-3) is fixedly connected with the compression plate (2-4), one end of the compression box (2-5) is connected with the compression plate (2-4), the other end of the first spring (2-5) is in contact with the compression plate (2-4), the bearing plate (2-6) is in sliding connection with the compression box (2-1), the trigger rod (2-7) is in sliding connection with the bearing plate (2-6), the trigger rod (2-7) is fixedly connected with the second transmission shaft (2-9), one end of the second spring (2-8) is in contact with the compression box (2-1), the other end of the second spring (2-8) is in contact with the trigger rod (2-7), the second transmission shaft (2-9) is fixedly connected with the second straight gear (2-10), the gear support (2-11) is in rotating connection with the second transmission shaft (2-9), the gear support (2-11) is in rotating connection with the second gear shaft (2-12), the end face gear (2-13) can be in meshing connection with the second straight gear (2-10), the end face gear (2-13) can be in meshing connection with the second transmission shaft (2-12), the end face gear (2-13) is fixedly connected with the lead screw (2-14), the slide block (2-14) is fixedly connected with the first lead screw (2-14), and the slide block (2-15) is in threaded connection with the first lead screw (2-9), the lifting support I (2-16) is fixedly connected with the bearing plate (2-6), the lifting support I (2-16) is fixedly connected with the fixing rod (2-15), the lifting support II (2-17) is fixedly connected with the bearing plate (2-6), the lifting support II (2-17) is fixedly connected with the sliding block I (2-18), the sliding block I (2-18) is fixedly connected with the roller (2-19), and the roller (2-19) is rotatably connected with the sliding rail (2-20);

the carrying assembly (3) comprises a motor (3-1), a transmission belt support (3-2), a transmission belt III (3-3), a transmission belt IV (3-4), a bevel gear shaft I (3-5), a bevel gear shaft support I (3-6), a bevel gear shaft II (3-7), a bevel gear shaft support II (3-8), a transmission belt V (3-9), a roller (3-10), a transmission belt (3-11), a transmission belt VI (3-12), a bevel gear I (3-13), a transmission belt VII (3-14), a bevel gear shaft III (3-15), a bevel gear II (3-16), a trigger block (3-17), a spring III (3-18), a bevel gear III (3-19), a gear shaft III transmission belt (3-20), a rack IV (3-21), a sliding block II (3-22), an optical axis (3-23), a spring IV (3-24) and an aluminum scrap block support (3-25), wherein the motor (3-1) is fixedly connected with the transmission belt support (3-2), the motor III (3-3) is connected with the transmission belt (3-1) in a matched with the motor (3-1), and a cross-2) is connected with the motor (3-1), a fourth transmission belt (3-4) is connected with a motor (3-1) in a matching way, the fourth transmission belt (3-4) is connected with a first bevel gear shaft (3-5) in a matching way, the first bevel gear shaft (3-5) is connected with a first bevel gear shaft support (3-6) in a rotating way, the first bevel gear shaft (3-5) is connected with a second bevel gear shaft (3-7) in a meshing way, the first bevel gear shaft (3-5) is connected with a first bevel gear (3-13) in a matching way, the second bevel gear shaft (3-7) is connected with a second bevel gear shaft (3-8) in a rotating way, the fifth transmission belt (3-9) is connected with the second bevel gear shaft (3-7) in a matching way, the fifth transmission belt (3-9) is connected with a roller (3-10) in a matching way, the roller (3-10) is connected with a transmission belt support (3-2) in a rotating way, the roller (3-10) is connected with a transmission belt (3-11) in a matching way, the sixth transmission belt (3-12) is connected with a half gear shaft (3-2) in a matching way, the first bevel gear shaft (3-7) is connected with a transmission belt (3-15) in a matching way, and the seventh transmission shaft (14), a third bevel gear shaft (3-15) is rotationally connected with a transmission belt bracket (3-2), a second bevel gear (3-16) is meshed with the third bevel gear shaft (3-15), a second bevel gear (3-16) is meshed with a third bevel gear (3-19), the second bevel gear (3-16) is fixedly connected with a trigger block (3-17), the trigger block (3-17) is slidably connected with the transmission belt bracket (3-2), one end of a third spring (3-18) is contacted with the transmission belt bracket (3-2), the other end of the third spring (3-18) is contacted with the trigger block (3-17), the third bevel gear (3-19) is fixedly connected with a third gear shaft (3-20), the third gear shaft (3-20) is rotationally connected with the transmission belt bracket (3-2), the third gear shaft (3-20) is meshed with a fourth rack (3-21), the fourth rack (3-21) is fixedly connected with a second slider (3-22), the second slider (3-22) is slidably connected with the transmission belt bracket (3-23), the other end of the fourth gear shaft (3-23) is fixedly connected with a fourth spring (3-2), the slider (24) is fixedly connected with the second spring bracket (3-22), the aluminum scrap block bracket (3-25) is fixedly connected with the rack four (3-21).