CN109230723B

CN109230723B - Belt material turntable storage device

Info

Publication number: CN109230723B
Application number: CN201811352539.8A
Authority: CN
Inventors: 王正田; 颜兴林; 徐雪冰; 刘成
Original assignee: JIANGSU NANYANG MACHINERY MANUFACTURING CO LTD
Current assignee: JIANGSU NANYANG MACHINERY MANUFACTURING CO LTD
Priority date: 2018-11-14
Filing date: 2018-11-14
Publication date: 2024-03-15
Anticipated expiration: 2038-11-14
Also published as: CN109230723A

Abstract

The invention discloses a belt material turntable storage device in the field of storage devices, which comprises a rotary sleeve, a fixed support disc and a plurality of vertical rollers, wherein the rotary sleeve is in transmission connection with a rotary driving mechanism, the fixed support disc is overlapped with the axis of the rotary sleeve, the periphery of the fixed support disc is provided with the plurality of rotatable vertical rollers in a circumferential arrangement, a plurality of rotatable flat rollers are arranged around the periphery of the fixed supporting disc, the roller axes of the flat rollers are arranged along the radial direction of the rotating sleeve, the vertical rollers are arranged corresponding to the flat rollers, each flat roller is positioned in a central hole of the rotating sleeve, and the upper sides of the flat rollers are arranged corresponding to the upper end face of the rotating sleeve; the fixed support disc is obliquely provided with a rotatable extraction roller, and a guide mechanism is arranged corresponding to the extraction roller. The invention can store the steel belt while conveying the steel belt, release the steel belt when needed, ensure that the steel belt can not be folded or bent during conveying, and carry out continuous steel belt production and conveying.

Description

Belt material turntable storage device

Technical Field

The invention belongs to the field of storage devices, and particularly relates to a belt material turntable storage device.

Background

In the prior art, steel pipes are classified into seamless steel pipes and welded steel pipes. The welded steel pipe is produced through bending steel belt into pipe and welding the seam. The welded steel pipe has lower cost and higher production efficiency than the seamless steel pipe. When steel pipes are produced in batches in workshops, the steel belts are required to be continuously conveyed so as to improve the production efficiency; when one coil of steel is used up, another coil of steel is needed to be subjected to shearing butt welding, and a storage device is needed to be arranged in order to ensure the production continuity in the process of replacing the strip.

In the prior art, there is an automatic feed proportioning system's storage carousel mechanism, its patent application number: 201220103069.3; filing date: 2012.03.19; publication No.: 202464677U; publication date: 2012.10.03; the structure of the device comprises a storage turntable base fixed on the ground, wherein a storage turntable rotating shaft is vertically arranged on the storage turntable base, the lower part of the storage turntable rotating shaft is connected with a storage turntable motor through a transmission mechanism, the upper end of the storage turntable rotating shaft is provided with a horizontally arranged storage turntable, and a plurality of storage containers are uniformly distributed on the periphery of the storage turntable. After the mechanism can be used for preparing materials, the materials can be placed in a storage container, and orderly placement of multiple prepared materials can be completed without running, but the mechanism is characterized in that: the strip material can only twine on this storage carousel, can't carry out the steel band when the storage, can't adapt to the continuous transport of steel band.

Disclosure of Invention

The invention aims to provide a belt material turntable storage device which can store a certain length of steel belt while conveying the steel belt, release the steel belt when required, ensure the continuity of production in the belt replacement process when shearing butt welding, ensure that the steel belt cannot be folded or bent during conveying, and carry out continuous production and conveying of the steel belt.

The purpose of the invention is realized in the following way: the belt material turntable storage device comprises a rotating sleeve, a fixed supporting disc, a plurality of rotatable vertical rolls, a plurality of rotatable flat rolls, a plurality of roller shafts of the flat rolls, a plurality of rotary driving mechanisms, a rotary driving mechanism, a rotary sleeve, a rotary driving mechanism and a rotary sleeve, wherein the rotating sleeve is in transmission connection with the rotary driving mechanism; the fixed support disc is obliquely provided with a rotatable extraction roller, and a guide mechanism is arranged corresponding to the extraction roller.

The invention is used for storing steel belts when conveying the steel belts, the steel belts entering from a feeding end are wound on the annular upper end surface of a rotating sleeve from outside to inside for a plurality of circles, the diameters of the steel belts on the rotating sleeve decrease from outside to inside, the side surfaces of the steel belts are supported on the rotating sleeve, the surfaces of the steel belts are kept vertical, the ends of the steel belts positioned on the inner side of the rotating sleeve reversely extend to a flat roller, the steel belts are wound on the flat roller from outside to inside for a plurality of circles, the diameters of the steel belts on the flat roller decrease from outside to inside, the bottoms of the steel belts on the flat roller are supported on the flat roller, the inner steel belts on the flat roller are abutted against the periphery of each vertical roller, the ends of the steel belts on the flat roller extend above a fixed center disc through the gap between two adjacent vertical rollers, then the steel belts extend to a lead-out roller in an inclined manner, and the steel belts extend to a discharging end after passing through a guiding mechanism. When the steel belt is conveyed, the feeding end and the discharging end are both provided with driving devices for driving the steel belt to move, the driving devices at the feeding end discharge materials to each steel belt loop on the rotary sleeve, the rotary driving mechanism drives the rotary sleeve to rotate, each steel belt loop on the rotary sleeve and each steel belt loop on the flat roller rotate along with the rotary sleeve, and the steel belt loop on the inner side of the flat roller is attached to each vertical roller to move, so that the guiding effect is realized; and discharging all the steel belt rings on the rotating sleeve to all the steel belt rings on the flat roller, discharging all the steel belt rings on the flat roller to the discharge end, and collecting all the steel belt rings on the flat roller backwards by the discharge end driving device. Compared with the prior art, the invention has the beneficial effects that: each steel belt ring on the flat roller and each steel belt ring on the rotary sleeve are always in a winding conveying state, the steel belts are wound into a plurality of rings, the storage is realized, the steel belts are ensured not to be folded or bent during conveying, and continuous steel belt conveying is performed; the bottoms of the steel belt rings on the flat rollers are contacted with the flat rollers, the steel belt rings on the inner sides of the flat rollers are guided by the vertical rollers, the friction force is small, and the transmission efficiency is higher.

As a further improvement of the invention, the central hole of the rotary sleeve comprises an upper mounting hole and a lower transmission hole with coincident axes, the aperture of the upper mounting hole is larger than that of the lower transmission hole, the hole depth of the upper mounting hole corresponds to the roller diameter of the flat roller, the flat rollers are annularly distributed around the upper mounting hole at intervals, a rotary supporting disc is also arranged in the upper mounting hole and coincides with the axis of the rotary sleeve, the rotary supporting disc is also connected with a rotary driving mechanism in a transmission way, one end of the flat roller is rotatably supported on the upper edge of the rotary supporting disc through a support, and the other end of the flat roller is rotatably supported on the side wall of the upper mounting hole; the fixed support disk is located in the upper mounting hole, and the fixed support disk is also located above the rotary support disk. The flat roller is arranged in the upper mounting hole, and the technical scheme ensures that the structure is more compact.

As a further improvement of the invention, the rotary driving mechanism comprises a vertically arranged fixed shaft, the fixed shaft is overlapped with the axis of the rotary sleeve, the fixed shaft stretches into the central hole of the rotary sleeve, the periphery of the fixed shaft is sleeved with rotatable sleeve-shaped octahedral teeth, the rotary sleeve is sleeved on the periphery of the octahedral teeth through a lower transmission hole, the rotary supporting disc is fixedly connected with the upper end of the octahedral teeth, the octahedral teeth downwards stretch out of the lower transmission hole, the stretching end of the octahedral teeth is sleeved with a gear I, the gear I is meshed with the gear II, the gear II is arranged at the output end of the speed reducer, and the input end of the speed reducer is in transmission connection with a motor. The motor is decelerated by the speed reducer, the gear II is driven to rotate by the gear I, the rotating sleeve is driven by the octahedral teeth to rotate, and the rotating support disc also rotates.

As a further improvement of the invention, the lower end of the fixed shaft is fixed on the base, the middle part of the rotary supporting disk is provided with a through hole, the upper end of the fixed shaft penetrates through the through hole of the rotary supporting disk and is fixed with an end cover, the fixed supporting disk is fixed on the end cover, and the gear I is positioned between the base and the rotary sleeve. The fixed support disc is supported on the end cover, and is stressed by the fixed shaft, so that the structure is stable.

As a further improvement of the invention, the base is provided with the shaft sleeve, the lower end of the fixed shaft stretches into the shaft sleeve, the inner wall of the octahedral tooth is respectively provided with an upper inner step and a lower inner step, an upper bearing and a lower bearing are arranged between the inner wall of the octahedral tooth and the periphery of the fixed shaft, the lower end of the upper bearing is supported on the upper inner step, the fixed shaft is sleeved with the locking nut positioned above the upper bearing, and the lower bearing is positioned between the shaft sleeve and the lower inner step.

As a further improvement of the invention, a plurality of radial support rods are uniformly distributed on the circumferential direction of the annular upper end surface of the rotary sleeve, and the upper sides of the radial support rods are correspondingly arranged with the upper sides of the flat rollers. The bottoms of the steel belt rings on the rotary sleeve are in contact with the radial supporting rods, so that the contact area is smaller, the friction force is small, and the conveying of the steel belt rings is smoother.

As a further improvement of the invention, the lower roll shaft support of the vertical roll is connected with the outer edge of the fixed supporting disc through a connecting plate, a connecting ring is arranged above each vertical roll, and the upper roll shaft support of the vertical roll is connected with the connecting ring. The vertical rolls can guide the steel belt rings positioned on the inner sides of the flat rolls, so that the steel belt is convenient to convey.

As a further improvement of the invention, the guide mechanism comprises a horizontal support plate fixedly connected to the connecting ring, the support plate is positioned between the connecting ring and the fixed support plate, the support plate is provided with a horizontal guide roller, the front side of the support plate positioned on the horizontal guide roller is also provided with a pair of vertical guide rollers, a lower roller shaft support of the vertical guide roller is fixed with the support plate, and an upper roller shaft support of the vertical guide roller is fixedly connected with the connecting ring through an obliquely arranged mounting rod. After being guided by the inclined leading-out rollers, the lower side of the steel belt is supported on the horizontal guide rollers, and the steel belt is directionally conveyed onto the steel belt conveying line through the space between the pair of vertical guide rollers.

As a further improvement of the invention, a plurality of rotatable vertical feed rollers are uniformly distributed on the periphery of the outer edge of the rotary sleeve, and the vertical feed rollers are arranged at the upper ends of the supporting legs. When the steel belt enters the device for storage, the vertical feeding roller can conduct guiding.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural view of the rotating sleeve.

Fig. 3 is a partial enlarged view of fig. 1.

Fig. 4 is a schematic view of the structure of an octahedral tooth.

Fig. 5 is a partial enlarged view of fig. 3.

Fig. 6 is a top view of fig. 1.

Fig. 7 is a schematic diagram of the positional relationship of the flat roller and the vertical roller.

Fig. 8 is a partial enlarged view of fig. 6.

The device comprises a rotary sleeve 1, an upper mounting hole 1a, a lower transmission hole 1b, a fixed supporting disc 2, a vertical roller 3, a flat roller 4, a lead-out roller 5, a rotary supporting disc 6, a fixed shaft 7, an octahedral tooth 8, an upper inner step 8a, a lower inner step 8b, a first gear 9, a second gear 10, a speed reducer 11, a motor 12, a base 13, an end cover 14, a shaft sleeve 15, an upper bearing 16, a lower bearing 17, a locking nut 18, a supporting rod 19, a connecting plate 20, a connecting ring 21, a supporting plate 22, a horizontal guiding roller 23, a vertical guiding roller 24, a mounting rod 25, a vertical feeding roller 26 and supporting legs 27.

Detailed Description

1-8, a belt material turntable storage device comprises a rotary sleeve 1, wherein the rotary sleeve 1 is in transmission connection with a rotary driving mechanism, the belt material turntable storage device further comprises a fixed supporting disc 2, the fixed supporting disc 2 is overlapped with the axis of the rotary sleeve 1, a plurality of rotatable vertical rolls 3 are circumferentially arranged on the outer edge of the fixed supporting disc 2, a plurality of rotatable flat rolls 4 are circumferentially arranged around the outer periphery of the fixed supporting disc 2, the roll axes of the flat rolls 4 are radially arranged along the rotary sleeve 1, the vertical rolls 3 are correspondingly arranged with the flat rolls 4, each flat roll 4 is positioned in a central hole of the rotary sleeve 1, and the upper side of each flat roll 4 is correspondingly arranged with the upper end face of the rotary sleeve 1; the fixed support plate 2 is obliquely provided with a rotatable extraction roller 5, and a guide mechanism is arranged corresponding to the extraction roller 5. The central hole of the rotary sleeve 1 comprises an upper mounting hole 1a and a lower transmission hole 1b, the axes of which are coincident, the aperture of the upper mounting hole 1a is larger than that of the lower transmission hole 1b, the aperture depth of the upper mounting hole 1a corresponds to the roller diameter of each flat roller 4, each flat roller 4 is annularly and alternately distributed around the upper mounting hole 1a, a rotary supporting disc 6 is also arranged in the upper mounting hole 1a, the rotary supporting disc 6 coincides with the axes of the rotary sleeve 1, the rotary supporting disc 6 is also connected with a rotary driving mechanism in a transmission way, one end of each flat roller 4 is rotatably supported on the upper edge of the rotary supporting disc 6 through a support, and the other end of each flat roller 4 is rotatably supported on the side wall of the upper mounting hole 1 a; the fixed support plate 2 is located in the upper mounting hole 1a, and the fixed support plate 2 is also located above the rotary support plate 6. The rotary driving mechanism comprises a vertically arranged fixed shaft 7, the fixed shaft 7 is overlapped with the axis of the rotary sleeve 1, the fixed shaft 7 stretches into the central hole of the rotary sleeve 1, a rotatable sleeve-shaped octahedral tooth 8 is sleeved on the periphery of the fixed shaft 7, the rotary sleeve 1 is sleeved on the periphery of the octahedral tooth 8 through a lower transmission hole 1b, a rotary supporting disc 6 is fixedly connected with the upper end of the octahedral tooth 8, the octahedral tooth 8 stretches out of the lower transmission hole 1b downwards, a gear I9 is sleeved on the stretching end of the octahedral tooth 8, the gear I9 is meshed with a gear II 10, the gear II 10 is arranged at the output end of a speed reducer 11, and the input end of the speed reducer 11 is in transmission connection with a motor 12. The lower end of the fixed shaft 7 is fixed on the base 13, a through hole is arranged in the middle of the rotary supporting disk 6, the upper end of the fixed shaft 7 passes through the through hole of the rotary supporting disk 6 and is fixed with an end cover 14, the fixed supporting disk 2 is fixed on the end cover 14, and the first gear 9 is positioned between the base 13 and the rotary sleeve 1. The base 13 is provided with a shaft sleeve 15, the lower end of the fixed shaft 7 stretches into the shaft sleeve 15, an upper inner step 8a and a lower inner step 8b are respectively arranged on the inner wall of the octahedral tooth 8, an upper bearing 16 and a lower bearing 17 are arranged between the inner wall of the octahedral tooth 8 and the periphery of the fixed shaft 7, the lower end of the upper bearing 16 is supported on the upper inner step 8a, a locking nut 18 positioned above the upper bearing 16 is sleeved on the fixed shaft 7, and the lower bearing 17 is positioned between the shaft sleeve 15 and the lower inner step 8 b. A plurality of radial support rods 19 are uniformly distributed on the circumferential direction of the annular upper end surface of the rotary sleeve 1, and the upper sides of the radial support rods 19 are correspondingly arranged on the upper sides of the flat rollers 4. The lower roll shaft support of the vertical rolls 3 is connected with the outer edge of the fixed supporting disc 2 through a connecting plate 20, a connecting ring 21 is arranged above each vertical roll 3, and the upper roll shaft support of the vertical rolls 3 is connected with the connecting ring 21. The guide mechanism comprises a horizontal support plate 22 fixedly connected to the connecting ring 21, the support plate 22 is located between the connecting ring 21 and the fixed support plate 22, a horizontal guide roller 23 is arranged on the support plate 22, a pair of vertical guide rollers 24 are further arranged on the front side of the horizontal guide roller 23 on the support plate 22, a lower roller shaft support of the vertical guide rollers 24 is fixed to the support plate 22, and an upper roller shaft support of the vertical guide rollers 24 is fixedly connected with the connecting ring 21 through an obliquely arranged mounting rod 25. A plurality of rotatable vertical feed rollers 26 are uniformly distributed on the periphery of the outer edge of the rotary sleeve 1, and the vertical feed rollers 26 are arranged at the upper ends of the supporting legs 27.

The device is used for storing steel belts when conveying the steel belts, the steel belts entering from a feeding end extend to a rotary sleeve 1 through the guide of a vertical feeding roller 26, a plurality of circles are wound on the annular upper end face of the rotary sleeve 1 from outside to inside, the diameters of the steel belts on the rotary sleeve 1 decrease from outside to inside, the side faces of the steel belts are supported on the rotary sleeve 1, the surfaces of the steel belts keep vertical, the ends of the steel belts on the inner side of the rotary sleeve 1 reversely extend to a flat roller 4, the steel belts wind a plurality of circles on the flat roller 4 from outside to inside, the diameters of the steel belts on the flat roller 4 decrease from outside to inside, the bottoms of the steel belts on the flat roller 4 are supported on the flat roller 4, the inner steel belts on the flat roller 4 are attached to the periphery of each vertical roller 3, the ends of the steel belts on the flat roller 4 extend to the upper part of a fixed center disc through the gap between the adjacent two vertical rollers 3, then the steel belts extend to a drawing roller 5 in an inclined manner, the steel belts are drawn out, the steel belts are supported on the horizontal guide roller 23, and the steel belts extend to a discharging end through the gap between the two vertical guide rollers 24. When the steel belt is conveyed, a driving device for driving the steel belt to move is arranged at the feeding end and the discharging end, the driving device of the feeding end discharges materials to each steel belt ring on the rotary sleeve 1, the motor 12 drives the gear II 10 to rotate after being decelerated by the speed reducer 11, the gear II 10 drives the gear I9 to rotate, the octahedral teeth 8 drive the rotary sleeve 1 to rotate, the rotary supporting disc 6 also rotates, each steel belt ring on the rotary sleeve 1 and the flat roller 4 rotates along with the rotary sleeve, and each steel belt ring on the inner side of the flat roller 4 is attached to each vertical roller 3 to move, so that a guiding effect is realized; each steel belt ring on the rotary sleeve 1 is discharged to each steel belt ring on the flat roller 4, each steel belt ring on the flat roller 4 is discharged to the discharge end, and each steel belt ring on the flat roller 4 is received backwards by the discharge end driving device. The device has the advantages that: each steel belt ring on the flat roller 4 and each steel belt ring on the rotary sleeve 1 are always in a winding conveying state, and the steel belts are wound into a plurality of rings, so that the storage is realized, the steel belts are ensured not to be folded or bent during conveying, and continuous steel belt conveying is performed; the bottoms of the steel belt rings on the flat roller 4 are contacted with the flat roller 4, the steel belt rings on the inner side of the flat roller 4 are guided by the vertical roller 3, the friction force is small, and the transmission efficiency is higher.

The invention is not limited to the above embodiments, and based on the technical solution disclosed in the invention, a person skilled in the art may make some substitutions and modifications to some technical features thereof without creative effort according to the technical content disclosed, and all the substitutions and modifications are within the protection scope of the invention.

Claims

1. The belt material turntable storage device comprises a rotating sleeve, wherein the rotating sleeve is in transmission connection with a rotary driving mechanism, and is characterized by further comprising a fixed supporting disc, the fixed supporting disc is overlapped with the axis of the rotating sleeve, a plurality of rotatable vertical rolls are circumferentially arranged on the outer edge of the fixed supporting disc, a plurality of rotatable flat rolls are circumferentially arranged around the outer periphery of the fixed supporting disc, the roll axes of the flat rolls are radially arranged along the rotating sleeve, the vertical rolls are correspondingly arranged with the flat rolls, each flat roll is positioned in a central hole of the rotating sleeve, and the upper sides of the flat rolls are correspondingly arranged with the upper end face of the rotating sleeve; the fixed supporting disc is obliquely provided with a rotatable extraction roller, and a guide mechanism is arranged corresponding to the extraction roller; the central hole of the rotary sleeve comprises an upper mounting hole and a lower transmission hole with coincident axes, the aperture of the upper mounting hole is larger than that of the lower transmission hole, the hole depth of the upper mounting hole corresponds to the roller diameter of the flat roller, the flat rollers are annularly distributed around the upper mounting hole at intervals, a rotary supporting disc is further arranged in the upper mounting hole and is coincident with the axis of the rotary sleeve, the rotary supporting disc is also in transmission connection with a rotary driving mechanism, one end of the flat roller is rotatably supported at the upper edge of the rotary supporting disc through a support, and the other end of the flat roller is rotatably supported on the side wall of the upper mounting hole; the fixed support disc is positioned in the upper mounting hole, and the fixed support disc is also positioned above the rotary support disc; the rotary driving mechanism comprises a vertically arranged fixed shaft, the fixed shaft is overlapped with the axis of the rotary sleeve, the fixed shaft stretches into the central hole of the rotary sleeve, a rotatable sleeve-shaped octahedral tooth is sleeved on the periphery of the fixed shaft, the rotary sleeve is sleeved on the periphery of the octahedral tooth through a lower transmission hole, the rotary supporting disc is fixedly connected with the upper end of the octahedral tooth, the octahedral tooth stretches out of the lower transmission hole downwards, a gear I is sleeved at the stretching end of the octahedral tooth, the gear I is meshed with the gear II, the gear II is arranged at the output end of the speed reducer, and the input end of the speed reducer is in transmission connection with the motor; the lower end of the fixed shaft is fixed on the base, a through hole is formed in the middle of the rotary supporting disc, the upper end of the fixed shaft penetrates through the through hole of the rotary supporting disc and is fixedly provided with an end cover, the fixed supporting disc is fixed on the end cover, and the first gear is positioned between the base and the rotary sleeve; the base is provided with a shaft sleeve, the lower end of the fixed shaft extends into the shaft sleeve, the inner wall of the octahedral tooth is respectively provided with an upper inner step and a lower inner step, an upper bearing and a lower bearing are arranged between the inner wall of the octahedral tooth and the periphery of the fixed shaft, the lower end of the upper bearing is supported on the upper inner step, the fixed shaft is sleeved with a lock nut positioned above the upper bearing, and the lower bearing is positioned between the shaft sleeve and the lower inner step; a plurality of radial support rods are uniformly distributed on the circumferential direction of the annular upper end surface of the rotary sleeve, and the upper sides of the radial support rods are correspondingly arranged on the upper sides of the flat rollers; the lower roll shaft support of the vertical roll is connected with the outer edge of the fixed supporting disc through a connecting plate, a connecting ring is arranged above each vertical roll, and the upper roll shaft support of the vertical roll is connected with the connecting ring; the guide mechanism comprises a horizontal support plate fixedly connected to the connecting ring, the support plate is arranged between the connecting ring and the fixed support plate, a horizontal guide roller is arranged on the support plate, a pair of vertical guide rollers are further arranged on the front side of the horizontal guide roller on the support plate, a lower roller shaft support of each vertical guide roller is fixed to the support plate, and an upper roller shaft support of each vertical guide roller is fixedly connected with the connecting ring through an installation rod arranged in an inclined mode.

2. The belt material turntable storage device according to claim 1, wherein a plurality of rotatable vertical feed rollers are uniformly distributed on the periphery of the outer edge of the rotary sleeve, and the vertical feed rollers are arranged at the upper ends of the supporting legs.