CN111232654A - Aluminum alloy homogeneity is with pile device that has arrangement mechanism - Google Patents

Aluminum alloy homogeneity is with pile device that has arrangement mechanism Download PDF

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Publication number
CN111232654A
CN111232654A CN202010135436.7A CN202010135436A CN111232654A CN 111232654 A CN111232654 A CN 111232654A CN 202010135436 A CN202010135436 A CN 202010135436A CN 111232654 A CN111232654 A CN 111232654A
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CN
China
Prior art keywords
motor
plate
supporting
aluminum alloy
outside
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CN202010135436.7A
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Chinese (zh)
Inventor
何海瑞
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何海瑞
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Priority to CN202010135436.7A priority Critical patent/CN111232654A/en
Publication of CN111232654A publication Critical patent/CN111232654A/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G57/00Stacking of articles
    • B65G57/02Stacking of articles by adding to the top of the stack
    • B65G57/16Stacking of articles of particular shape
    • B65G57/20Stacking of articles of particular shape three-dimensional, e.g. cubiform, cylindrical
    • B65G57/22Stacking of articles of particular shape three-dimensional, e.g. cubiform, cylindrical in layers each of predetermined arrangement
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G61/00Use of pick-up or transfer devices or of manipulators for stacking or de-stacking articles not otherwise provided for

Abstract

The invention discloses a stacking device with an arranging mechanism for homogenizing aluminum alloy, which comprises a supporting frame, an electric push rod, a first motor, a second motor, a third motor, a fourth motor, a fifth motor, a sixth motor and a control panel, wherein a supporting top plate is fixedly installed at the top of the supporting frame, a blanking column is inserted in the middle of the supporting top plate, a feeding limiting opening is fixedly installed at the top of the supporting top plate, a supporting platform is welded and communicated with the bottom of the blanking column, and a rotating ring is welded and fixed below the supporting platform. According to the invention, the bearing plate below the device can transversely move left and right through the threaded connection of the second screw sleeve and the second screw rod, and meanwhile, the rotary adjusting plate is connected with the supporting platform through the rotary ring, so that the device can be rotated to adjust the stacking direction, aluminum alloy ingots are overlapped through cross stacking and laying, and the stability of the aluminum alloy ingots after stacking is greatly improved.

Description

Aluminum alloy homogeneity is with pile device that has arrangement mechanism
Technical Field
The invention relates to the technical field of aluminum alloy homogenizing equipment, in particular to a stacking device with a sorting mechanism for aluminum alloy homogenizing.
Background
In the production process of the aluminum alloy ingot, because the internal chemical composition and the structure of the aluminum alloy ingot are uneven, residual stress exists in the aluminum alloy ingot, and in order to eliminate the residual stress in the aluminum alloy ingot and the unevenness of the chemical composition and the structure, the pressure processing technology of the aluminum alloy ingot reaches the standard performance, generally, the aluminum alloy ingot is homogenized, but the existing aluminum alloy ingot homogenization operation is mostly carried out in a homogenizing furnace.
In the prior homogenizing furnace for homogenizing aluminum alloy ingots, the homogenizing operation of the aluminum alloy ingots is enabled to reach the optimal state, the aluminum alloy ingots are generally subjected to stacking operation, the aluminum alloy ingots after stacking are conveyed into a homogenizing furnace through a carrying device, and the aluminum alloy ingots are easy to collapse under the action force of external vibration and the like during the transferring and homogenizing operation in the homogenizing furnace due to the lack of support limitation on the outer side when the aluminum alloy ingots are transferred after stacking is finished, so that the normal homogenizing operation of the aluminum alloy ingots is influenced;
in addition, the existing stacking and arranging operation for homogenizing aluminum alloy ingots is generally operated by a stacking manipulator, and only a small amount of aluminum alloy ingots can be moved by single movement, so that the stacking efficiency is low, and the stacking working efficiency is influenced.
Disclosure of Invention
The invention aims to provide a stacking device with a sorting mechanism for homogenizing aluminum alloy, which aims to solve the problems that the existing stacking device for homogenizing aluminum alloy ingots before homogenizing operation has low working efficiency during use and the aluminum alloy ingots after stacking is easy to collapse by external force during transportation and homogenizing operation due to lack of support and limitation on the outer sides of the aluminum alloy ingots.
In order to achieve the purpose, the invention provides the following technical scheme: a stacking device with an arranging mechanism for homogenizing aluminum alloy comprises a supporting frame, an electric push rod, a first motor, a second motor, a third motor, a fourth motor, a fifth motor, a sixth motor and a control panel, wherein a supporting top plate is fixedly installed at the top of the supporting frame, a blanking column is inserted in the middle of the supporting top plate, a feeding limiting opening is fixedly installed at the top of the supporting top plate, a supporting platform is welded and communicated with the bottom of the blanking column, a rotating ring is welded and fixed below the supporting platform, a rotating adjusting plate is sleeved on the outer side of the rotating ring, a blanking opening is formed in the middle of the inner portion of the rotating adjusting plate, a valve plate is inserted in the blanking opening, the electric push rod is fixedly installed at one end of the valve plate, sliding clamping blocks are symmetrically clamped on the front side and the rear side of the rotating adjusting plate, and a connecting frame is welded and fixed to the bottom of the sliding blocks, the bottom parts of the left side and the right side of the connecting frame are symmetrically inserted with bearing plates, the insides of two groups of the bearing plates are symmetrically inserted with first guide wheels, the middle positions of the insides of the two groups of the bearing plates are symmetrically inserted with second guide wheels, one end of each second guide wheel is fixedly welded with a connecting block, the middle position of the bottom of the bearing plate is fixedly provided with a first motor, a first chain wheel transmission mechanism is connected and installed between the rotating output shaft of the first motor and the other end of each second guide wheel, the front end and the rear end of the connecting frame are inserted with first screw rods through brackets, the left side and the right side of each group of first screw rods are symmetrically sleeved with first screw sleeves, the front side and the rear side of the connecting frame are respectively fixedly provided with a second motor, a second chain wheel transmission mechanism is connected and installed between the second motor and the first screw rods, and, the front of the rotation adjusting plate is inserted with a second screw rod through a support, one end of the rotation adjusting plate is fixedly provided with a third motor, a third chain wheel transmission mechanism is connected and installed between the third motor and the second screw rod, the upper portion of the rotation adjusting plate is fixedly provided with a fourth motor, a first gear is fixedly arranged on a rotation output shaft of the fourth motor, a third screw rod is fixedly welded on the upper portion of the supporting platform, a third screw sleeve is sleeved on the outer side of the third screw rod, a second gear is fixedly welded on the outer side of the third screw sleeve, limiting rods are symmetrically welded on the upper portion of the supporting platform, a fifth motor is fixedly arranged on the top portion of the supporting top plate, a third gear is fixedly arranged on a rotation output shaft of the fifth motor, a bottom frame is fixedly arranged at the bottom of the supporting frame, conveying rollers are uniformly inserted in the bottom frame, a conveying belt is sleeved on the outer side of the conveying rollers, wherein a set of the one end fixed mounting of transfer roller has the sixth motor, the bracket has been placed to the top of conveyer belt, the outside fixed mounting who supports the roof has control panel.
Preferably, the through-hole has been seted up to the top intermediate position of roof support, and the inside size of through-hole and the outside size looks adaptation of unloading post, sliding connection about unloading post and the roof support, the right side of unloading post is for running through the form, the left end parcel of feeding restriction mouth is in the right side outside of unloading post.
Preferably, the spout has been seted up at the top of rotation regulating plate, and the appearance of spout is circular-arcly, the appearance of change is the ring form, the change is inlayed in the spout of seting up on the rotation regulating plate, the outside size of change and the inside size looks adaptation of spout on the rotation regulating plate, the change passes through the spout and rotates the regulating plate sliding rotation and be connected.
Preferably, the spout has been seted up to the bilateral symmetry around rotating the regulating plate, the slip fixture block is inlayed and is seted up the spout in the bilateral symmetry around rotating the regulating plate, the outside size of slip fixture block and the inside dimension looks adaptation of the spout that both sides were seted up around rotating the regulating plate, the link passes through the cooperation of slip fixture block and spout and rotates regulating plate sliding connection, the outside at the second screw rod is established to the second swivel nut cover, the screw thread looks adaptation of assembly on the screw thread of assembly on the second swivel nut inner wall and the second screw rod outer wall, the second swivel nut passes through threaded meshing and second screw rod screw thread swivelling joint.
Preferably, the feed opening is located under the feed column, a sliding groove is formed in the inner wall of the feed opening, the valve plate is embedded in the sliding groove formed in the inner wall of the feed opening, the valve plate is connected with the feed opening in a sliding mode through the sliding groove, and one end of the valve plate is welded and fixed to a power output shaft of the electric push rod.
Preferably, the first guide wheel is rotatably connected with the bearing plate, the second guide wheel is rotatably connected with the bearing plate, and anti-skidding teeth are uniformly welded on the other side of the connecting block.
Preferably, the other end of the first threaded sleeve corresponds to be fixedly welded on the bearing plate, threads assembled on the inner wall of the first threaded sleeve are matched with threads assembled on the outer side of the first screw rod, the first threaded sleeve is rotatably connected with the threads of the first screw rod through threaded engagement, the threads assembled on the outer walls of the left side and the right side of the first screw rod are opposite in direction, sliding grooves are symmetrically formed in the bottom of the connecting frame, two groups of sliding blocks are welded and fixed on the upper portions of the bearing plate, the sliding blocks are clamped in the sliding grooves formed in the connecting frame at the corresponding positions, and the bearing plate is connected with the connecting frame in a sliding mode through the matching of the sliding blocks and the sliding grooves.
Preferably, the outer side of the first gear is connected with the outer side of the supporting platform, the outer side of the supporting platform is evenly provided with teeth, the teeth assembled on the outer side of the supporting platform are matched with the teeth assembled on the outer side of the first gear, and the first gear is in meshing transmission connection with the supporting platform through meshing of the teeth.
Preferably, the screw thread of third screw rod outside assembly and the screw thread looks adaptation of third swivel nut outside assembly, the third screw rod passes through the meshing of screw thread and third swivel nut screw thread swivelling joint, the hinge groove has been seted up to the inside of supporting the roof, the outside welding of third swivel nut has the hinge ring, the hinge ring block of third swivel nut outside welding is in the hinge groove of supporting the inside division of roof, the third swivel nut passes through the cooperation of hinge groove and hinge ring and is connected with supporting the roof rotation, the tooth of third gear outside assembly and the tooth looks adaptation of second gear outside assembly, the third gear passes through the meshing of tooth and is connected with the meshing transmission of second gear.
Preferably, the inside of the supporting top plate is symmetrically provided with limiting holes, the upper end of the limiting rod is inserted into the limiting holes formed in the supporting top plate, and the limiting rod is connected with the supporting top plate in a vertical sliding mode through the limiting holes.
Compared with the prior art, the invention has the beneficial effects that:
1. through setting up the braced frame parcel in the device outside, make braced frame restrict the aluminium alloy spindle after the inside pile up neatly of the device, effectively prevent that the aluminium alloy spindle from taking place the slope, simultaneously, set up the third swivel nut and can drive the third screw rod when rotating and reciprocate, thereby make the loading board of the device below can compress tightly in the top of aluminium alloy spindle after the pile up neatly is ended, through to aluminium alloy spindle pressurized mode, prevent that the aluminium alloy spindle slope from collapsing, the effectual stability of aluminium alloy spindle when transporting with the homogenization operation of having guaranteed.
2. Through inserting in the inside of loading board and being equipped with the second guide pulley, can be effectual will carry the aluminium alloy spindle propelling movement on the first guide pulley evenly to lay on the loading board through the rotation of second guide pulley for the device can carry out the pile up neatly operation to whole aluminium alloy spindle simultaneously, and the effectual agility that has strengthened the device when using improves the pile up neatly operation's work efficiency greatly.
3. Threaded connection through setting up second swivel nut and second screw rod makes the loading board of the device below can transversely remove about moving, and simultaneously, it is connected through the swivel to set up between rotation regulating plate and the supporting platform, the meshing transmission of cooperation supporting platform outside tooth and first gear, make and rotate the regulating plate and can the free rotation, thereby be favorable to the device can rotate the adjustment after vertical pile up neatly finishes and be horizontal pile up neatly, through alternately piling up the mode of laying, make aluminium alloy ingot overlap each other, be favorable to the arrangement of aluminium alloy ingot, and the stability after the aluminium alloy ingot pile up neatly finishes has been improved greatly.
Drawings
FIG. 1 is a schematic front view of the structure of the present invention;
FIG. 2 is a schematic sectional elevation view of the structure of the present invention;
FIG. 3 is a schematic top view of the structure of the present invention;
FIG. 4 is a schematic top view of the structure of the support platform, rotation adjustment plate and connecting frame of the present invention;
FIG. 5 is an enlarged view of the structure at A in FIG. 1 according to the present invention;
FIG. 6 is an enlarged view of the structure at B in FIG. 2 according to the present invention;
FIG. 7 is a schematic top view of the structure of the carrier plate according to the present invention;
FIG. 8 is a schematic side view of the structure of the connecting block of the present invention;
FIG. 9 is a schematic side view of the first sprocket drive mechanism of the present invention.
In the figure: 1. a support frame; 2. supporting a top plate; 3. blanking the column; 4. a feed restriction port; 5. A support platform; 6. rotating the ring; 7. rotating the adjusting plate; 8. a feeding port; 9. a valve plate; 10. an electric push rod; 11. sliding the clamping block; 12. a connecting frame; 13. a carrier plate; 14. a first guide wheel; 15. A second guide wheel; 16. connecting blocks; 17. a first motor; 18. a first sprocket drive mechanism; 19. A first screw; 20. a first threaded sleeve; 21. a second motor; 22. a second sprocket drive mechanism; 23. a second thread insert; 24. a second screw; 25. a third motor; 26. a third sprocket drive mechanism; 27. a fourth motor; 28. a first gear; 29. a third screw; 30. a third thread insert; 31. a second gear; 32. a restraining bar; 33. a fifth motor; 34. a third gear; 35. a chassis; 36. a conveying roller; 37. a conveyor belt; 38. a sixth motor; 39. a bracket; 40. a control panel.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1-9, an embodiment of the present invention is shown:
a stacking device with a sorting mechanism for homogenizing aluminum alloy comprises a supporting frame 1, an electric push rod 10, a first motor 17, a second motor 21, a third motor 25, a fourth motor 27, a fifth motor 33, a sixth motor 38 and a control panel 40, wherein a supporting top plate 2 is fixedly installed at the top of the supporting frame 1, a blanking column 3 is inserted in the middle of the supporting top plate 2, a feeding limiting port 4 is fixedly installed at the top of the supporting top plate 2, a through hole is formed in the middle of the top of the supporting top plate 2, the inner size of the through hole is matched with the outer size of the blanking column 3, the blanking column 3 is in vertical sliding connection with the supporting top plate 2, the right side of the blanking column 3 is in a penetrating shape, the left end of the feeding limiting port 4 is wrapped on the outer side of the blanking column 3, during operation, aluminum alloy ingots can be continuously conveyed for internal stacking operation of the stacking device through vertical movement of the blanking column 3, set up to running through the form through the right side with blanking post 3, be favorable to blanking post 3 at the in-process that rises, the position of feeding restriction mouth 4 is unmovable, then inside aluminium alloy ingot can get into the device's blanking post 3 smoothly, be favorable to guaranteeing the stability of the device work, and simultaneously, the device is when using, can install inside the isotropic symmetry, support through the restriction of braced frame 1, the effectual aluminium alloy ingot that prevents is piled and is fallen by external effort slope, be favorable to promoting the stability that aluminium alloy ingot piled.
The bottom of the blanking column 3 is welded and communicated with a supporting platform 5, a rotating ring 6 is welded and fixed below the supporting platform 5, a rotating adjusting plate 7 is sleeved outside the rotating ring 6, the top of the rotating adjusting plate 7 is provided with a sliding chute, the shape of the sliding groove is arc-shaped, the shape of the rotating ring 6 is circular ring, the rotating ring 6 is embedded in the sliding groove arranged on the rotating adjusting plate 7, the outer side size of the rotating ring 6 is matched with the inner size of a chute on the rotating adjusting plate 7, the rotating ring 6 is connected with the rotating adjusting plate 7 in a sliding and rotating way through the chute, the rotation adjusting plate 7 and the supporting platform 5 can rotate relatively, so that the device can perform rotary transposition when aluminum alloy ingots are stacked, make the aluminium alloy spindle be horizontal and indulge crossing mode and press the pile up and put, the effectual stability that improves after the aluminium alloy spindle pile up neatly is convenient for the aluminium alloy spindle neatly to be stacked.
A feed opening 8 is arranged in the middle of the inside of the rotary adjusting plate 7, a valve plate 9 is inserted in the feed opening 8, an electric push rod 10 is fixedly arranged at one end of the valve plate 9, the feed opening 8 is positioned under the feed column 3, a sliding groove is arranged on the inner wall of the feed opening 8, the valve plate 9 is embedded in the sliding groove arranged on the inner wall of the feed opening 8, the valve plate 9 is connected with the feed opening 8 in a sliding manner through the sliding groove, one end of the valve plate 9 is welded and fixed on a power output shaft of the electric push rod 10, when the rotary adjusting plate works, the feed opening 8 is aligned with the lower end of the feed column 3, so that an aluminum alloy ingot can smoothly enter the feed opening 8 from the feed column 3, the electric push rod 10 is fixedly arranged on the valve plate 9 through the power output shaft provided with the electric push rod 10, and the electric push rod 10 can achieve the purposes of, the automatic feeding device is beneficial to orderly feeding one by one when the device is stacked, so that the device works more reasonably, and the working stability of the device is greatly improved.
Sliding fixture blocks 11 are symmetrically clamped on the front side and the rear side of the rotating adjusting plate 7, connecting frames 12 are welded and fixed at the bottoms of the sliding fixture blocks 11, bearing plates 13 are symmetrically inserted at the bottoms of the left side and the right side of each connecting frame 12, first guide wheels 14 are uniformly and symmetrically inserted in the two groups of bearing plates 13, second guide wheels 15 are uniformly and symmetrically inserted in the middle positions of the two groups of bearing plates 13, connecting blocks 16 are fixedly welded at one ends of the second guide wheels 15, first motors 17 are fixedly installed at the middle positions of the bottoms of the bearing plates 13, first chain wheel transmission mechanisms 18 are connected between the rotating output shafts of the first motors 17 and the other ends of the second guide wheels 15, the first guide wheels 14 are rotatably connected with the bearing plates 13, the second guide wheels 15 are rotatably connected with the bearing plates 13, anti-skid teeth are uniformly welded at the other sides of the connecting blocks 16, and the, the left second guide wheel 15 can drive the right second guide wheel 15 to rotate when rotating, so that more stable conveying of aluminum alloy ingots falling on the second guide wheel 15 is facilitated, in operation, the first chain wheel transmission mechanism 18 is arranged to be connected between the second guide wheel 15 and the first motor 17, so that the first motor 17 can drive the second guide wheel 15 to rotate through the first chain wheel transmission mechanism 18 after being powered on, aluminum alloy ingots falling off from the second guide wheel 15 can be conveyed to one side of the bearing plate 13 through rotation of the second guide wheel 15, the first guide wheel 14 is uniformly hinged above the bearing plate 13, so that the conveying process is more convenient and labor-saving, meanwhile, the second guide wheel 15 can convey the aluminum alloy ingots on one side to the other side after conveying the aluminum alloy ingots on one side through changing of the rotation direction of the first motor 17, so that the aluminum alloy ingots are stacked in an array manner, the stacking efficiency is greatly improved, and the working efficiency is greatly improved.
The front end and the rear end of the connecting frame 12 are respectively inserted with a first screw 19 through a support, the left side and the right side of each group of first screws 19 are symmetrically sleeved with a first screw sleeve 20, the front side and the rear side of the connecting frame 12 are respectively and fixedly provided with a second motor 21, a second chain wheel transmission mechanism 22 is connected and arranged between the second motor 21 and the first screws 19, the other end of the first screw sleeve 20 is correspondingly and fixedly welded on the bearing plate 13, threads assembled on the inner wall of the first screw sleeve 20 are matched with threads assembled on the outer side of the first screws 19, the first screw sleeve 20 is in threaded rotary connection with the first screws 19 through threaded engagement, the threads assembled on the outer walls of the left side and the right side of the first screws 19 are opposite in direction, the bottom of the connecting frame 12 is symmetrically provided with sliding grooves, sliding blocks are welded and fixed above the two groups of bearing plates 13, the sliding blocks are clamped in the sliding grooves formed on the connecting frame 12 at corresponding positions, and the two groups of bearing, when the aluminum alloy stacking device works, the second chain wheel transmission mechanism 22 is arranged to connect the second motor 21 and the first screw rod 19, so that the second motor 21 can drive the first screw rod 19 to rotate through the second chain wheel transmission mechanism 22 after being electrified and rotated, under the meshing action of threads, two groups of first screw sleeves 20 symmetrically sleeved outside the first screw rod 19 simultaneously move oppositely to drive the bearing plates 13 to move oppositely, when the aluminum alloy ingots are stacked downwards, the bearing plates 13 on two sides of the bottom of the connecting frame 12 are controlled to move towards two ends simultaneously through the rotation of the second motor 21, so that the aluminum alloy ingots orderly arranged in the bearing plates 13 simultaneously fall downwards onto the bracket 39 to be stacked, after unloading is completed, the second motor 21 rotates reversely to control the bearing plates 13 to move reversely to reset, the aluminum alloy ingots aligned through the movement of the bearing plates 13 are directly placed downwards, and the working efficiency of the aluminum alloy ingot stacking device for aluminum alloy ingots is greatly improved, is beneficial to shortening the working time.
A second threaded sleeve 23 is fixedly welded on the outer side of the sliding fixture block 11, a second screw 24 is inserted in the front face of the rotating adjusting plate 7 through a support, a third motor 25 is fixedly installed at one end of the rotating adjusting plate 7, a third chain wheel transmission mechanism 26 is installed between the third motor 25 and the second screw 24, sliding grooves are symmetrically formed in the front side and the rear side of the rotating adjusting plate 7, the sliding fixture block 11 is embedded in the sliding grooves symmetrically formed in the front side and the rear side of the rotating adjusting plate 7, the outer side size of the sliding fixture block 11 is matched with the inner size of the sliding grooves formed in the front side and the rear side of the rotating adjusting plate 7, the connecting frame 12 is in sliding connection with the rotating adjusting plate 7 through the matching of the sliding fixture block 11 and the sliding grooves, the second threaded sleeve 23 is sleeved on the outer side of the second screw 24, threads assembled on the inner wall of the second threaded sleeve 23 are matched with threads assembled on the outer wall of the, when the stacking device works, the third chain wheel transmission mechanism 26 is arranged to be connected between the second screw rod 24 and the third motor 25, so that the third motor 25 can drive the second screw rod 24 to rotate through the third chain wheel transmission mechanism 26 after being electrified and started, the second screw sleeve 23 can move on the second screw rod 24 through the meshing of threads, the sliding fixture block 11 is driven to move left and right on the rotating adjusting plate 7, the connecting frame 12 is arranged to be in sliding connection with the rotating adjusting plate 7 through the sliding fixture block 11, so that the connection between the connecting frame 12 and the sliding fixture block 11 is firmer, the structural stability of the stacking device is favorably improved, when the stacking device works, the rotating direction of the second screw rod 24 is favorably adjusted through controlling the rotating direction of the third motor 25, the stacking device can move the bearing plate 13 below the connecting frame 12 through the movement of the connecting frame 12, and can be operated once, is beneficial to improving the continuity and the neatness of the stacking operation.
A fourth motor 27 is fixedly installed above the rotating adjusting plate 7, a first gear 28 is fixedly installed on a rotating output shaft of the fourth motor 27, the outer side of the first gear 28 is connected with the outer side of the supporting platform 5, teeth are evenly assembled on the outer side of the supporting platform 5, the teeth assembled on the outer side of the supporting platform 5 are matched with the teeth assembled on the outer side of the first gear 28, the first gear 28 is in meshing transmission connection with the supporting platform 5 through meshing of the teeth, when the device works, the fourth motor 27 is electrified and started to drive the first gear 28 to rotate, under the meshing action of the teeth, the first gear can be correspondingly meshed and rotated on the outer side of the supporting platform 5, so that the rotating adjusting plate 7 rotates relative to the supporting platform 5, the rotating angle of the rotating adjusting plate 7 is more accurate through meshing of the teeth, the device is beneficial to transversely and longitudinally crossed stacking, and the working accuracy of the device is greatly improved, and is favorable for making the aluminum alloy ingot more stable through the mode of cross stacking.
Supporting platform 5's top welded fastening has third screw rod 29, and the outside cover of third screw rod 29 is equipped with third swivel nut 30, the outside welded fastening of third swivel nut 30 has second gear 31, supporting platform 5's top symmetrical welding has limiting rod 32, spacing hole has been seted up to the inside symmetry of supporting roof 2, the upper end of limiting rod 32 is inserted and is established in the spacing hole of seting up on supporting roof 2, limiting rod 32 is through spacing hole and supporting roof 2 sliding connection from top to bottom, restriction through limiting rod 32, make baiting column 3 only can reciprocate, restrict the rotation of baiting column 3, be favorable to making baiting column 3 more stable when carrying out the oscilaltion.
A fifth motor 33 is fixedly installed at the top of the supporting top plate 2, a third gear 34 is fixedly installed on a rotating output shaft of the fifth motor 33, threads assembled outside the third screw 29 are matched with threads assembled outside the third screw sleeve 30, the third screw 29 is in threaded rotary connection with the third screw sleeve 30 through the meshing of the threads, a hinge groove is formed inside the supporting top plate 2, a hinge ring is welded outside the third screw sleeve 30, the hinge ring welded outside the third screw sleeve 30 is clamped in the hinge groove formed inside the supporting top plate 2, the third screw sleeve 30 is in rotary connection with the supporting top plate 2 through the matching of the hinge groove and the hinge ring, teeth assembled outside the third gear 34 are matched with teeth assembled outside the second gear 31, the third gear 34 is in meshing transmission connection with the second gear 31 through the meshing of the teeth, and during work, through the meshing between the third gear 34 and the second gear 31, make fifth motor 33 can drive third swivel nut 30 and rotate after the circular telegram starts for drive third screw 29 and reciprocate under the meshing effect of screw thread, thereby make loading board 13 reciprocate, carry out the pile up neatly operation that lasts, simultaneously, can make loading board 13 extrude the reinforcement with the aluminium alloy ingot that the pile up neatly was accomplished after the downward movement, be favorable to guaranteeing the stability that the aluminium alloy ingot piled, prevent that its slope from collapsing.
The bottom of braced frame 1 is fixed to be installed chassis 35, and chassis 35's inside evenly is inserted and is equipped with transfer roller 36, the outside cover of transfer roller 36 is equipped with conveyer belt 37, one end fixed mounting of one set of transfer roller 36 has sixth motor 38 wherein, bracket 39 has been placed to conveyer belt 37's top, the outside fixed mounting of roof support 2 has control panel 40, after aluminium alloy ingot homogenization is finished, the staff can press the control button on control panel 40 and control sixth motor 38 circular telegram and start, drive transfer roller 36 and rotate, make the conveyer belt 37 of 36 outside parcel rotate and send out inside braced frame 1 with bracket 39, be convenient for shift out the operation to aluminium alloy ingot, the inside of control panel 40 includes shift knob, singlechip and machine controller, the singlechip can save and operate the program that the device set up, machine controller can be through changing to first motor 17, The current input directions of the second motor 21, the third motor 25, the fourth motor 27 and the fifth motor 33 are controlled, so that the rotation directions of the first motor 17, the second motor 21, the third motor 25, the fourth motor 27 and the fifth motor 33 are controlled, and the continuous palletizing operation is performed.
The working principle is as follows: when the device works, a worker installs the device in a homogenizing furnace used for homogenizing aluminum alloy ingots, connects the device with an external power supply through a wire, so that the external power supply provides electric support for the device, and then the worker can control the device to be electrified and started by pressing a control button on a control panel 40;
during working, a worker firstly places aluminum alloy ingots uniformly downwards in the blanking column 3 to fully fill the blanking column 3 with the aluminum alloy ingots, then, the feeding limiting port 4 is connected to an external aluminum alloy ingot conveying device to continuously convey the aluminum alloy ingots for the device, and the worker presses a control button on the control panel 40 to electrify and start the device;
when the aluminum alloy ingot blanking device works, a single chip microcomputer arranged in a control panel 40 works according to a program arranged in the single chip microcomputer, a motor controller in the control panel 40 controls a motor in the control panel 40 to supply current to a first motor 17, a second motor 21, a third motor 25, a fourth motor 27 and a fifth motor 33 respectively, the control panel 40 controls an electric push rod 10 to be electrified and started, a valve plate 9 arranged on a power output shaft of the electric push rod 10 is moved and opened through contraction of the electric push rod 10, so that an aluminum alloy ingot in a blanking column 3 falls onto a second guide wheel 15, after the first motor 17 is electrified and started, a first chain wheel transmission mechanism 18 drives a second guide wheel 15 to rotate, so that the aluminum alloy ingot falling onto the second guide wheel 15 is conveyed to one side of a bearing plate 13, and after the aluminum alloy ingot is loaded on one side of the bearing plate 13, the control panel 40 controls the first motor 17 to rotate reversely, the first chain wheel transmission mechanism 18 drives the second guide wheel 15 to rotate reversely, the aluminum alloy ingot falling off is conveyed to the other side of the bearing plate 13 in a moving mode, after the bearing plate 13 is loaded, the control panel 40 controls the electric push rod 10 to start, and the valve plate 9 is pushed to close the feed opening 8 again;
during operation, the control panel 40 controls the third motor 25 to be powered on and started, the third sprocket transmission mechanism 26 drives the second screw rod 24 to rotate, under the meshing action of the threads, the second screw sleeve 23 sleeved on the second screw rod 24 moves left and right on the second screw rod 24, so as to drive the connecting frame 12 fixed below the sliding fixture block 11 to move, so that the bearing plate 13 moves to the leftmost side of the rotating adjusting plate 7, subsequently, the control panel 40 controls the second motor 21 to be powered on and started, the second sprocket transmission mechanism 22 drives the first screw rod 19 to rotate, under the meshing action of the threads, the first screw sleeves 20 sleeved on the two sides of the first screw rod 19 simultaneously move to the two sides, so as to drive the bearing plate 13 to open to the two sides, so that the aluminum alloy ingots loaded on the bearing plate 13 orderly drop on the bracket 39, under the control of the control panel 40, the second motor 21 reversely rotates to drive the bearing plate 13 to close again, and the current direction led into the third motor 25 is controlled, so that the second screw 24 is reversely rotated to drive the bearing plate 13 to reset to return to the middle position of the device;
during operation, the control panel 40 controls the device to fully operate, aluminum alloy ingots are orderly paved into one layer, then the control panel 40 controls the fifth motor 33 to be powered on and started to drive the third gear 34 to rotate, under the meshing action of teeth, the third gear 34 drives the second gear 31 to rotate, so that the third threaded sleeve 30 in the second gear 31 rotates, under the meshing action of threads, the third screw 29 relatively moves upwards in the third threaded sleeve 30 to drive the bearing plate 13 below the device to move upwards for a certain position, then the control panel 40 controls the fourth motor 27 to be powered on and started to drive the first gear 28 to rotate, under the meshing action of the teeth, the first gear 28 rotates in a meshing way relative to the supporting platform 5, so that the rotation adjusting plate 7 rotates in a ninety-degree direction, and then the control panel 40 respectively controls the valve plate 9, the first motor 17, the valve plate 9 and the first motor 17, The second motor 21 and the third motor 25 are electrified, so that the bearing plates 13 move sequentially to stack aluminum alloy ingots sequentially and transversely;
during operation, control the device and repeat above-mentioned operation, until the aluminium alloy spindle by pile up neatly to braced frame 1 inside top, afterwards, control fifth motor 33 antiport, make loading board 13 downstream through the meshing of screw thread, compress tightly the aluminium alloy spindle downwards, after the aluminium alloy spindle is by the homogeneity, control panel 40 controls fifth motor 33 and rotates, it rises upwards to drive loading board 13, subsequently, control panel 40 controls sixth motor 38 circular telegram and starts, drive and fix the transfer roller 36 rotation on its rotation output shaft, make the conveyer belt 37 that 36 outside covers of transfer roller establish rotate and move, the carriage 39 that loads the aluminium alloy spindle on the conveyer belt 37 sees off braced frame 1 inside.
It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides an aluminum alloy homogeneity is with pile device that has arrangement mechanism, includes braced frame (1), electric putter (10), first motor (17), second motor (21), third motor (25), fourth motor (27), fifth motor (33), sixth motor (38) and control panel (40), its characterized in that: the top of the supporting frame (1) is fixedly provided with a supporting top plate (2), the middle position of the supporting top plate (2) is inserted with a blanking column (3), the top of the supporting top plate (2) is fixedly provided with a feeding limiting port (4), the bottom of the blanking column (3) is welded and communicated with a supporting platform (5), a rotating ring (6) is welded and fixed below the supporting platform (5), the outer side of the rotating ring (6) is sleeved with a rotating adjusting plate (7), the middle position inside the rotating adjusting plate (7) is provided with a blanking port (8), a valve plate (9) is inserted inside the blanking port (8), one end of the valve plate (9) is fixedly provided with an electric push rod (10), the front side and the back side of the rotating adjusting plate (7) are symmetrically clamped with a sliding clamping block (11), and the bottom of the sliding clamping block (11) is welded and fixed with a connecting frame (12), the bottom of the left side and the right side of the connecting frame (12) is symmetrically inserted with bearing plates (13), the insides of the two groups of bearing plates (13) are uniformly and symmetrically inserted with first guide wheels (14), the middle position of the insides of the two groups of bearing plates (13) is uniformly and symmetrically inserted with second guide wheels (15), one end of each second guide wheel (15) is fixedly welded with a connecting block (16), the middle position of the bottom of each bearing plate (13) is fixedly provided with a first motor (17), a first chain wheel transmission mechanism (18) is connected between a rotating output shaft of the first motor (17) and the other end of each second guide wheel (15), the front end and the rear end of the connecting frame (12) are respectively inserted with a first screw rod (19) through a support, the left side and the right side of each group of the first screw rod (19) are symmetrically sleeved with a first screw sleeve (20), and the front side and the rear side of the connecting, and a second chain wheel transmission mechanism (22) is connected and installed between a second motor (21) and the first screw (19), a second threaded sleeve (23) is fixedly welded on the outer side of the sliding clamping block (11), a second screw (24) is inserted into the front of the rotating adjusting plate (7) through a support, a third motor (25) is fixedly installed at one end of the rotating adjusting plate (7), a third chain wheel transmission mechanism (26) is connected and installed between the third motor (25) and the second screw (24), a fourth motor (27) is fixedly installed above the rotating adjusting plate (7), a first gear (28) is fixedly installed on a rotating output shaft of the fourth motor (27), a third screw (29) is fixedly welded on the upper side of the supporting platform (5), a third threaded sleeve (30) is sleeved on the outer side of the third screw (29), a second gear (31) is fixedly welded on the outer side of the third threaded sleeve (30), the top symmetrical welding of supporting platform (5) has limiting rod (32), the top fixed mounting of supporting roof (2) has fifth motor (33), and fixed mounting has third gear (34) on the rotation output shaft of fifth motor (33), chassis (35) have been installed to the bottom of braced frame (1) is fixed, and the inside of chassis (35) is evenly inserted and is equipped with transfer roller (36), the outside cover of transfer roller (36) is equipped with conveyer belt (37), and is a set of one end fixed mounting of transfer roller (36) has sixth motor (38), bracket (39) have been placed to the top of conveyer belt (37), the outside fixed mounting of supporting roof (2) has control panel (40).
2. The stacking device with the sorting mechanism for aluminum alloy homogenization according to claim 1, wherein: the through-hole has been seted up to the top intermediate position of roof support (2), and the inside dimension of through-hole and the outside size looks adaptation of blanking post (3), sliding connection about blanking post (3) and roof support (2), the right side of blanking post (3) is for running through the form, the left end parcel of feeding restriction mouth (4) is in the right side outside of blanking post (3).
3. The stacking device with the sorting mechanism for aluminum alloy homogenization according to claim 1, wherein: the top of rotating regulating plate (7) has been seted up the spout, and the appearance of spout is circular-arcly, the appearance of change (6) is the ring form, change (6) are inlayed in the spout of seting up on rotating regulating plate (7), the inside size looks adaptation of spout on the outside size of change (6) and rotation regulating plate (7), change (6) pass through the spout and rotate regulating plate (7) slip rotation and be connected.
4. The stacking device with the sorting mechanism for aluminum alloy homogenization according to claim 1, wherein: the spout has been seted up to the bilateral symmetry around rotating regulating plate (7), slip fixture block (11) are inlayed and are seted up the spout in the bilateral symmetry around rotating regulating plate (7), the inside size looks adaptation of the spout that both sides were seted up around slip fixture block (11) and rotation regulating plate (7), link (12) through the cooperation of slip fixture block (11) and spout with rotate regulating plate (7) sliding connection, the outside at second screw rod (24) is established in second swivel nut (23) cover, the screw thread looks adaptation of assembly on the screw thread of assembly on second swivel nut (23) inner wall and the second screw rod (24) outer wall, second swivel nut (23) are through the meshing of screw thread and second screw rod (24) screw thread swivelling joint.
5. The stacking device with the sorting mechanism for aluminum alloy homogenization according to claim 1, wherein: feed opening (8) are located feed column (3) under, the spout has been seted up on the inner wall of feed opening (8), inlaying of valve plate (9) in the spout of seting up on feed opening (8) inner wall, valve plate (9) are through spout and feed opening (8) sliding connection, the one end welded fastening of valve plate (9) is on the power output shaft of electric putter (10).
6. The stacking device with the sorting mechanism for aluminum alloy homogenization according to claim 1, wherein: the first guide wheel (14) is rotatably connected with the bearing plate (13), the second guide wheel (15) is rotatably connected with the bearing plate (13), and anti-skidding teeth are uniformly welded on the other side of the connecting block (16).
7. The stacking device with the sorting mechanism for aluminum alloy homogenization according to claim 1, wherein: the other end of the first threaded sleeve (20) corresponds fixed welding on the bearing plate (13), the threads assembled on the inner wall of the first threaded sleeve (20) are matched with the threads assembled on the outer side of the first screw rod (19), the first threaded sleeve (20) is in threaded rotary connection with the first screw rod (19) through threaded engagement, the threads assembled on the outer walls of the left side and the right side of the first screw rod (19) are opposite in direction, sliding grooves are symmetrically formed in the bottom of the connecting frame (12), and a sliding block is fixed to the upper portion of the bearing plate (13) in a welded mode and clamped in the sliding grooves formed in the corresponding position of the connecting frame (12) and is connected with the connecting frame (12) in a sliding mode.
8. The stacking device with the sorting mechanism for aluminum alloy homogenization according to claim 1, wherein: the outside of first gear (28) is connected with the outside of supporting platform (5), the outside of supporting platform (5) evenly is equipped with the tooth, and the tooth of supporting platform (5) outside assembly and the tooth looks adaptation of the assembly of first gear (28) outside, first gear (28) are connected with supporting platform (5) meshing transmission through the meshing of tooth.
9. The stacking device with the sorting mechanism for aluminum alloy homogenization according to claim 1, wherein: the screw thread of third screw rod (29) outside assembly and the screw thread looks adaptation of third swivel nut (30) outside assembly, meshing and third swivel nut (30) screw thread swivelling joint of screw thread are passed through in third screw rod (29), the hinge groove has been seted up to the inside of supporting roof (2), the outside welding of third swivel nut (30) has the hinge ring, the hinge ring block of third swivel nut (30) outside welded is in the hinge groove of supporting roof (2) inside seting up, third swivel nut (30) are connected with supporting roof (2) rotation through the cooperation of hinge groove and hinge ring, the tooth of third gear (34) outside assembly and the tooth looks adaptation of second gear (31) outside assembly, third gear (34) are connected through the meshing of tooth and second gear (31) meshing transmission.
10. The stacking device with the sorting mechanism for aluminum alloy homogenization according to claim 1, wherein: limiting holes are symmetrically formed in the supporting top plate (2), the upper end of the limiting rod (32) is inserted into the limiting holes formed in the supporting top plate (2), and the limiting rod (32) is connected with the supporting top plate (2) in a vertical sliding mode through the limiting holes.
CN202010135436.7A 2020-03-02 2020-03-02 Aluminum alloy homogeneity is with pile device that has arrangement mechanism Pending CN111232654A (en)

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CN202010135436.7A CN111232654A (en) 2020-03-02 2020-03-02 Aluminum alloy homogeneity is with pile device that has arrangement mechanism

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Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
SU650914A1 (en) * 1977-09-06 1979-03-05 Mashaj Konstantin Arrangement for reloading rails
DE3031653A1 (en) * 1980-08-22 1982-03-04 Eduard Olbricht DEVICE FOR MANIPULATING, ESPECIALLY FOR STACKING OR UNSTACKING ITEMS, IN PARTICULAR GLASS PANELS
DE69700669T2 (en) * 1996-02-15 2000-06-15 Mobilpref S P A High speed stacking system for panels
CN104444395A (en) * 2014-11-25 2015-03-25 傅军强 Offline automatic brick stacking assembly line and brick stacking method
CN208135583U (en) * 2018-04-02 2018-11-23 惠州市环兴包装制品有限公司 Stacking device is used in a kind of production of carton
CN208948308U (en) * 2018-11-06 2019-06-07 山东正方智能机器人产业发展有限公司 Automatic loading and unloading robot for warehouse

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
SU650914A1 (en) * 1977-09-06 1979-03-05 Mashaj Konstantin Arrangement for reloading rails
DE3031653A1 (en) * 1980-08-22 1982-03-04 Eduard Olbricht DEVICE FOR MANIPULATING, ESPECIALLY FOR STACKING OR UNSTACKING ITEMS, IN PARTICULAR GLASS PANELS
DE69700669T2 (en) * 1996-02-15 2000-06-15 Mobilpref S P A High speed stacking system for panels
CN104444395A (en) * 2014-11-25 2015-03-25 傅军强 Offline automatic brick stacking assembly line and brick stacking method
CN208135583U (en) * 2018-04-02 2018-11-23 惠州市环兴包装制品有限公司 Stacking device is used in a kind of production of carton
CN208948308U (en) * 2018-11-06 2019-06-07 山东正方智能机器人产业发展有限公司 Automatic loading and unloading robot for warehouse

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