CN214030880U - Stacking mechanism for steel strip processing line - Google Patents

Stacking mechanism for steel strip processing line Download PDF

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Publication number
CN214030880U
CN214030880U CN202022807847.4U CN202022807847U CN214030880U CN 214030880 U CN214030880 U CN 214030880U CN 202022807847 U CN202022807847 U CN 202022807847U CN 214030880 U CN214030880 U CN 214030880U
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China
Prior art keywords
rod
frame
guide
stacking
hinged
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CN202022807847.4U
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Chinese (zh)
Inventor
朱继乔
卢威
刘慧丹
姜佳均
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Yangjiang Hongwang Industrial Co Ltd
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Yangjiang Hongwang Industrial Co Ltd
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Priority to CN202022807847.4U priority Critical patent/CN214030880U/en
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Abstract

The utility model discloses a stacking mechanism for steel band processing line, including frame, unloading mechanism, driving cylinder and windrow platform, unloading mechanism includes conduction band frame, swing piece, fixed plate and transfer roller, and conduction band frame relative movement locates in the frame, swing piece one end articulates on conduction band frame, and the other end has set firmly the fixed plate is installed on the fixed plate the transfer roller, the cylinder body one end of driving cylinder articulates on conduction band frame, and the other end that the driving cylinder has the telescopic link articulates on swing piece to when the telescopic link is flexible, drive swing piece and transfer roller around conduction band frame pendulum commentaries on classics, on supplying the steel sheet direction windrow platform on the transfer roller, windrow platform can go up and down and control with the transfer roller relatively, in order to derive the steel band on the windrow platform from the transfer roller below. The utility model discloses can collect and shift abandonment steel sheet conveniently and accurately, reduce intensity of labour, the operating efficiency is high.

Description

Stacking mechanism for steel strip processing line
Technical Field
The utility model relates to a stacker field specifically relates to a stacking mechanism for steel band processing line.
Background
In the steel strip processing process, steel strip fragments with quality defects are required to be cut frequently, and waste steel plates formed after the steel strips are cut need to be transferred away in time so as to avoid influencing subsequent steel strip transmission and processing. The existing mode is that a steel plate is transferred manually or a conveying roller supporting a steel belt is lifted upwards or downwards through an air cylinder so that the steel plate can slide into a waste material frame to be collected, but the steel plate stacking mode is disordered, the steel plate is difficult to collect, the steel plate is inconvenient to transfer after being collected in the waste material frame, and the working efficiency is low.
SUMMERY OF THE UTILITY MODEL
In order to solve the problem, the utility model provides a stacking mechanism for steel band processing line can accurately collect the steel sheet and shift the steel sheet high efficiency.
The utility model discloses technical scheme as follows: the utility model provides a stacking mechanism for steel band processing line, includes frame, unloading mechanism and windrow platform, unloading mechanism includes conduction band frame, swing piece, fixed plate, transfer roller and driving cylinder, and conduction band frame relative movement locates in the frame, swing piece one end articulates on conduction band frame, and the other end has set firmly the fixed plate is installed on the fixed plate the transfer roller, the cylinder body one end of driving cylinder articulates on conduction band frame, and the driving cylinder has the other end of telescopic link to articulate on swing piece to when the telescopic link is flexible, drive swing piece and transfer roller around conduction band frame pendulum commentaries on classics, on the windrow platform is led to the steel sheet on the transfer roller, windrow platform can go up and down and control with the transfer roller relatively, in order to derive the steel band on the windrow platform from the transfer roller below.
Further, the stacking platform comprises a supporting plate arranged below the conveying rollers, and the top surface of the supporting plate is used for receiving the stacked steel plates.
Furthermore, the stacking platform comprises an underframe, a first swing rod and a second swing rod, a guide groove is formed in the underframe, one end of the first swing rod is hinged to the underframe, the other end of the first swing rod is hinged and supported on the bottom surface of the supporting plate, one end of the second swing rod is installed in the guide groove of the underframe through a roller, the other end of the second swing rod is hinged and supported on the bottom surface of the supporting plate, and the first swing rod is hinged with the second swing rod through a pin shaft.
Furthermore, the stacking platform comprises a hydraulic cylinder, one end of a cylinder body of the hydraulic cylinder is fixedly arranged on the underframe, one end of the hydraulic cylinder is provided with a push-pull rod, and the end of the hydraulic cylinder is hinged to one end of the first swing rod supporting plate, so that when the push-pull rod of the hydraulic cylinder stretches, the push-pull rod drives the first swing rod to lift together with the second swing rod supporting plate.
Furthermore, the top both ends of layer board are equipped with respectively and keep off the structure, keep off and protect the structure and include connecting piece and baffle, connecting piece one end rigid coupling on the conduction band frame, the other end rigid coupling have the baffle, the layer board top is located to the baffle for it drops to both ends from the layer board top surface to block the steel sheet.
Furthermore, a driving mechanism for driving the stacking platform to move is arranged on the underframe, the driving mechanism comprises a motor, a rotating shaft and a guide wheel, the motor is fixedly arranged on the underframe, the rotating shaft is rotatably arranged at the bottom of the underframe, the guide wheels are fixedly arranged at two ends of the rotating shaft respectively, a gear is fixedly arranged on the rotating shaft, and the output end of the motor is in transmission connection with the gear of the rotating shaft through a chain so as to drive the rotating shaft to rotate together with the guide wheel.
Furthermore, a guide rail matched with the guide wheel is arranged below the bottom frame, so that the stacking platform can move along the guide rail through the guide wheel.
Furthermore, a screw rod structure is arranged between the rack and the belt guide frame, the screw rod structure comprises a screw rod and a plurality of rod shafts, and the screw rod and the rod shafts are both mounted on the rack through bearings so as to hang the belt guide frame.
Furthermore, a plurality of sleeving pieces are fixedly arranged on the guide belt frame, and the sleeving pieces are sleeved on the screw rod and the rod shaft, so that the guide belt frame moves relative to the rack along the screw rod when the screw rod rotates.
Furthermore, a hanging rod is fixedly arranged at the bottom end of the belt guide frame, and one end of the swinging piece, which is opposite to the fixed plate, is hinged on the hanging rod.
Compared with the prior art: the utility model provides a stacking mechanism of a steel strip processing line, which drives a transmission roller to swing downwards through a driving cylinder, so that a waste steel plate falls onto a supporting plate of a stacking platform from the transmission roller, the stacking is convenient, and the stacking effect is good; when the steel sheet accumulated a certain amount on the layer board, the lifting and the side shifting of the stacking platform are respectively realized through the hydraulic cylinder and the motor to shift out the steel sheet on the layer board from the lower part of the blanking mechanism, so that the waste steel sheet is transferred, the convenience and the rapidness are realized, and the collection and the transfer efficiency of the waste steel sheet are improved.
Drawings
Fig. 1 is a perspective view of the present invention.
Detailed Description
The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings. It is to be understood that the description of the embodiments herein is for purposes of illustration and explanation only and is not intended to limit the invention.
Referring to fig. 1, a stacking mechanism for a steel strip processing line includes a frame 10, a blanking mechanism 20 and a stacking platform 30, where the blanking mechanism 20 includes a guide belt frame 21, a swinging member 22, a fixing plate 23, a conveying roller 24 and a driving cylinder 25, the guide belt frame 21 is relatively movably disposed on the frame 10, one end of the swinging member 22 is hinged to the guide belt frame 21, the other end is fixedly provided with the fixing plate 23, and the conveying roller 24 is mounted on the fixing plate 23 for conveying a steel plate.
One end of the cylinder body of the driving cylinder 25 is hinged on the guide belt frame 21, and the other end of the driving cylinder 25 with the telescopic rod is hinged on the swinging piece 22, so that when the telescopic rod is telescopic, the swinging piece 22 and the conveying roller 24 are driven to swing around the guide belt frame 21, and a steel plate on the conveying roller 24 is guided onto the stacking platform 30. The stacking platform 30 can be lifted and moved left and right relative to the conveying rollers 24 to guide the steel strip on the stacking platform 30 out from under the conveying rollers 24.
The stacking platform 30 includes a pallet 31 disposed below the transfer rollers 24, and a top surface of the pallet 31 receives the stacked steel sheets. In this embodiment, the top surface of the supporting plate 31 is provided with a plurality of protrusions to reduce the impact when the steel plate falls to the top surface of the supporting plate 31.
The stacking platform 30 comprises an underframe 32, a first swing rod 33 and a second swing rod 34, wherein a guide groove is formed in the underframe 32, one end of the first swing rod 33 is hinged to the underframe 32, the other end of the first swing rod 33 is hinged to the bottom surface of the supporting plate 31, one end of the second swing rod 34 is installed in the guide groove of the underframe 32 through a roller, and the other end of the second swing rod is hinged to the bottom surface of the supporting plate 31. The first swing link 33 and the second swing link 34 are both used for supporting the supporting plate 31 to lift and are hinged through a pin shaft, so that the first swing link 33 and the second swing link 34 synchronously support the supporting plate 31 to lift.
The stacking platform 30 comprises a hydraulic cylinder 35, one end of the cylinder body of the hydraulic cylinder 35 is fixedly arranged on the underframe 32, one end of the hydraulic cylinder 35 provided with a push-pull rod is hinged on one end of the first swing rod 33 supporting pallet 31, so that when the push-pull rod of the hydraulic cylinder 35 extends and retracts, the push-pull rod drives the first swing rod 33 and the second swing rod 34 supporting pallet 31 to lift, one end of the second swing rod 34 supports the pallet 31 to lift, and rolls along the guide groove of the underframe 32 through a roller wheel,
the top both ends of layer board 31 are equipped with respectively and keep off structure 40, keep off structure 40 and include connecting piece 41 and baffle 42, 41 one end rigid couplings of connecting piece are on conduction band frame 21, and the other end rigid coupling has baffle 42, when the steel sheet dropped to layer board 31 top surface from transfer roller 24, baffle 42 blockked that the steel sheet drops from layer board 31 top surface both ends, guarantee that the steel sheet stacking process goes on smoothly.
The bottom frame 32 is provided with a driving mechanism 50 for driving the stacking platform 30 to move, the driving mechanism 50 comprises a motor 51, a rotating shaft 52 and guide wheels 53, the motor 51 is fixedly arranged on the bottom frame 32, the rotating shaft 52 is rotatably arranged at the bottom of the bottom frame 32, and the guide wheels 53 are respectively fixedly arranged at two ends of the rotating shaft 52. The rotating shaft 52 is fixedly provided with a gear, and the output end of the motor 51 is in transmission connection with the gear of the rotating shaft 52 through a chain to drive the rotating shaft 52 to rotate together with the guide wheel 53, so as to drive the whole stacking platform 30 to move, and the steel plate of the supporting plate 31 is transferred out from the lower part of the blanking mechanism 20.
A guide rail matched with the guide wheel 53 is arranged below the underframe 32, so that the stacking platform 30 can relatively move along the guide rail through the guide wheel 53.
A screw 61 structure 60 is arranged between the frame 10 and the belt guiding frame 21, the screw 61 structure 60 includes a screw 61 and a plurality of shafts 62, and the screw 61 and the shafts 62 are mounted on the frame 10 through bearings. The belt guide frame 21 is fixedly provided with a plurality of sleeve-connection pieces 211, the sleeve-connection pieces 211 are sleeved on the screw rod 61 and the rod shaft 62, so that when the screw rod 61 rotates, the belt guide frame 21 moves along the screw rod 61 and the rod shaft 62 relative to the rack 10, the conveying rollers 24 below the belt guide frame 21 move together, the position of the conveying rollers 24 is adjusted, and the conveying rollers 24 can accurately bear the deviated steel belt and support the steel belt to convey.
The bottom end of the belt guide frame 21 is fixedly provided with a hanging rod 212, one end of the swinging piece 22 opposite to the fixed plate 23 is hinged on the hanging rod 212, and when the telescopic rod of the driving cylinder 25 extends and retracts, the swinging piece 22 and the conveying roller 24 swing around the hanging rod 212.
The utility model discloses a use as follows: referring to fig. 1, when the steel strip enters the blanking mechanism 20, the steel strip is supported by the conveying rollers 24 for conveying, if the steel strip deviates on the conveying rollers 24, the screw rod 61 can be rotated, the position of the strip guide frame 21 is adjusted, so that the conveying rollers 24 correspondingly move, and the conveying rollers 24 can accurately support and support the steel strip for conveying; when the waste steel plate formed after the steel belt is cut is conveyed out, the telescopic rod of the driving cylinder 25 contracts upwards to drive the fixing plate 23 to swing downwards, so that the conveying roller 24 swings downwards together, the steel plate on the conveying roller 24 falls downwards onto the top surface of the supporting plate 31, and the baffle plate 42 simultaneously stops the steel plate from falling from two ends of the top surface of the supporting plate 31; when a certain amount of steel plates are accumulated on the supporting plate 31, the hydraulic cylinder 35 drives the supporting plate 31 to fall downwards until the baffle 42 cannot prevent the steel plates on the supporting plate 31 from moving out to one side, then the motor 51 drives the rotating shaft 52 to rotate together with the guide wheel 53, the guide wheel 53 moves along the guide rail, and the supporting plate 31 of the stacking platform 30 is further driven to move out from the lower part of the blanking mechanism 20; after the waste steel plates on the supporting plate 31 are removed, the motor 51 drives the stacking platform 30 to move below the blanking mechanism 20 again.
In conclusion, the conveying roller 24 is driven by the driving cylinder 25 to swing downwards, so that the steel plate accurately falls onto the supporting plate 31 of the stacking platform 30 from the conveying roller 24, and the stacking effect is good; and then the steel plate on the supporting plate 31 is moved out from the lower part of the blanking mechanism 20 by the lifting and lateral movement of the stacking platform 30, so that the waste steel plate is quickly transferred, the operation is convenient and quick, the working efficiency is improved, and the working strength is reduced.
As long as the idea created by the present invention is not violated, various different embodiments of the present invention can be arbitrarily combined, and all the embodiments should be regarded as the content disclosed by the present invention; the utility model discloses an in the technical conception scope, carry out multiple simple variant and different embodiments to technical scheme and go on not violating the utility model discloses the arbitrary combination of the thought of creation all should be within the protection scope.

Claims (10)

1. The utility model provides a stacking mechanism for steel band processing line, includes frame (10), unloading mechanism (20) and windrow platform (30), its characterized in that: the blanking mechanism (20) comprises a guide belt frame (21), a swinging piece (22), a fixing plate (23), a conveying roller (24) and a driving cylinder (25), the guide belt frame (21) can be arranged on the machine frame (10) in a relatively movable manner, one end of the swinging piece (22) is hinged on the guide belt frame (21), the other end is fixedly provided with the fixed plate (23), the fixed plate (23) is provided with the conveying roller (24), one end of the cylinder body of the driving cylinder (25) is hinged on the guide belt frame (21), the other end of the driving cylinder (25) with a telescopic rod is hinged on the swinging piece (22), so as to drive the swinging piece (22) and the conveying roller (24) to swing around the guide belt frame (21) when the telescopic rod stretches, so as to guide the steel plate on the conveying roller (24) to the stacking platform (30), the stacking platform (30) can lift and move left and right relative to the conveying roller (24), so as to lead the steel strip on the stacking platform (30) out from the lower part of the conveying roller (24).
2. The stacking mechanism of claim 1, wherein: the stacking platform (30) comprises a supporting plate (31) arranged below the conveying rollers (24), and the top surface of the supporting plate (31) is used for receiving stacked steel plates.
3. The stacking mechanism of claim 2, wherein: the stacking platform (30) comprises an underframe (32), a first swing rod (33) and a second swing rod (34), a guide groove is formed in the underframe (32), one end of the first swing rod (33) is hinged to the underframe (32), the other end of the first swing rod is hinged to and supported on the bottom surface of a supporting plate (31), one end of the second swing rod (34) is installed in the guide groove of the underframe (32) through a roller, the other end of the second swing rod is hinged to and supported on the bottom surface of the supporting plate (31), and the first swing rod (33) is hinged to the second swing rod (34) through a pin shaft.
4. A stacking mechanism as in claim 3, wherein: the stacking platform (30) comprises a hydraulic cylinder (35), one end of a cylinder body of the hydraulic cylinder (35) is fixedly arranged on the underframe (32), one end of the hydraulic cylinder (35) is provided with a push-pull rod, and one end of the push-pull rod is hinged to one end of the first swing rod (33) supporting plate (31), so that when the push-pull rod of the hydraulic cylinder (35) stretches, the push-pull rod drives the first swing rod (33) and the second swing rod (34) supporting plate (31) to lift.
5. A stacking mechanism as in claim 3, wherein: the top both ends of layer board (31) are equipped with fender structure (40) respectively, keep off and protect structure (40) including connecting piece (41) and baffle (42), connecting piece (41) one end rigid coupling is on conduction band frame (21), and the other end rigid coupling has baffle (42), layer board (31) top is located to baffle (42) for stop the steel sheet and drop from layer board (31) top surface to both ends.
6. A stacking mechanism as in claim 3, wherein: the stacking device is characterized in that a driving mechanism (50) for driving the stacking platform (30) to move is arranged on the bottom frame (32), the driving mechanism (50) comprises a motor (51), a rotating shaft (52) and guide wheels (53), the motor (51) is fixedly arranged on the bottom frame (32), the rotating shaft (52) is rotatably arranged at the bottom of the bottom frame (32), the guide wheels (53) are fixedly arranged at two ends of the rotating shaft (52) respectively, gears are fixedly arranged on the rotating shaft (52), and the output end of the motor (51) is in transmission connection with the gears of the rotating shaft (52) through chains so as to drive the rotating shaft (52) and the guide wheels (53) to rotate.
7. The stacking mechanism of claim 6, wherein: and a guide rail matched with the guide wheel (53) is arranged below the bottom frame (32) so that the stacking platform (30) can move along the guide rail through the guide wheel (53).
8. The stacking mechanism of claim 1, wherein: the guide belt device is characterized in that a screw rod structure (60) is arranged between the rack (10) and the guide belt frame (21), the screw rod structure (60) comprises a screw rod (61) and a plurality of rod shafts (62), and the screw rod (61) and the rod shafts (62) are mounted on the rack (10) through bearings so as to hang the guide belt frame (21).
9. The stacking mechanism of claim 8, wherein: the guide belt frame (21) is fixedly provided with a plurality of sleeve-joint pieces (211), and the sleeve-joint pieces (211) are sleeved on the screw rod (61) and the rod shaft (62) so that the guide belt frame (21) moves along the screw rod (61) relative to the rack (10) when the screw rod (61) rotates.
10. The stacking mechanism of claim 1, wherein: the bottom end of the guide belt frame (21) is fixedly provided with a hanging rod (212), and one end of the swinging piece (22) opposite to the fixing plate (23) is hinged on the hanging rod (212).
CN202022807847.4U 2020-11-27 2020-11-27 Stacking mechanism for steel strip processing line Active CN214030880U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202022807847.4U CN214030880U (en) 2020-11-27 2020-11-27 Stacking mechanism for steel strip processing line

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202022807847.4U CN214030880U (en) 2020-11-27 2020-11-27 Stacking mechanism for steel strip processing line

Publications (1)

Publication Number Publication Date
CN214030880U true CN214030880U (en) 2021-08-24

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ID=77363547

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202022807847.4U Active CN214030880U (en) 2020-11-27 2020-11-27 Stacking mechanism for steel strip processing line

Country Status (1)

Country Link
CN (1) CN214030880U (en)

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