CN210709680U - Buttress board split device - Google Patents

Abstract

The utility model discloses a stacking plate splitting device, which comprises a frame, a roller line mechanism and stacking plate lifting mechanisms, wherein the roller line mechanism is arranged at the bottom of the frame and is positioned between the two stacking plate lifting mechanisms; the device comprises two symmetrically arranged conveying beams and a plurality of rollers arranged between the two conveying beams, wherein the rollers are connected with each other and driven by a first motor arranged on the rack; the stacking plate lifting mechanism comprises a side plate, two rotating arms symmetrically hinged to the side plate and two guide pillars vertically and symmetrically arranged on the rack, two ends of the side plate are respectively sleeved on the two guide pillars and are controlled to move up and down along the guide pillars by the lifting mechanism arranged on the rack, and the two rotating arms are located between the two guide pillars and are controlled to rotate by a rotating mechanism arranged on the side plate. The utility model discloses realize the automatic split of buttress board, the occasion of many production lines pile up neatly simultaneously or quick replacement buttress board is adapted to.

Description

Buttress board split device

Technical Field

The utility model relates to a pile up neatly packaging machinery technical field, more specifically say, relate to a buttress board split device.

Background

At present, the pile board of packing pile up neatly trade is mostly placed through the manual work, not only consumes more manpower and materials, increases the cost, because the speed is slow in the manual work is placed in addition, is unsuitable for the occasion of many production lines pile up neatly simultaneously or quick replacement pile up neatly board.

SUMMERY OF THE UTILITY MODEL

For overcoming the not enough of prior art, the utility model provides a buttress board split device realizes the automatic split of buttress board, adapts to the occasion of many production lines pile up neatly simultaneously or quick replacement buttress board, practices thrift the cost.

The utility model provides a technical scheme that its technical problem adopted is:

a stacking plate splitting device comprises a rack, a roller line mechanism and two stacking plate lifting mechanisms which are oppositely arranged at the lower ends of two sides of the rack, wherein the roller line mechanism is arranged at the bottom of the rack and is positioned between the two stacking plate lifting mechanisms;

the roller line mechanism comprises two symmetrically arranged conveying beams and a plurality of rollers arranged between the two conveying beams, and the rollers are connected with each other and driven by a first motor arranged on the rack;

the stacking plate lifting mechanism comprises a side plate, two rotating arms symmetrically hinged to the side plate and two guide pillars vertically and symmetrically arranged on the rack, two ends of the side plate are respectively sleeved on the two guide pillars and are controlled to move up and down along the guide pillars by the lifting mechanism arranged on the rack, and the two rotating arms are located between the two guide pillars and are controlled to rotate by a rotating mechanism arranged on the side plate.

Preferably, hoist mechanism includes second motor and hoisting device, hoisting device includes first chain, drive sprocket and driven sprocket, the second motor is fixed in the frame, and connect drive sprocket, driven sprocket fixes the lower extreme of frame, first chain is connected drive sprocket and driven sprocket, the curb plate is fixed on the first chain.

Preferably, the number of the lifting devices is two, the two lifting devices are symmetrically arranged at two ends of the side plate, a lifting shaft is connected between the driving chain wheels of the two lifting devices, and the second motor is connected with the lifting shaft.

Preferably, the rotating mechanism includes a third motor, a first rotating device and a second rotating device, one end of the first connecting device is connected to one end of the second connecting device, the other end of the first connecting device is connected to the two rotating arms, and the third motor is connected to the first rotating device and drives the first rotating device and the second rotating device to drive the rotating arms to rotate.

Preferably, first rotary device and second rotary device all include first sprocket, second sprocket, cantilever seat, connecting plate, gear, second chain and connecting axle, the cantilever seat sets up on the curb plate, the middle part of swinging boom with the cantilever seat is articulated, the one end of swinging boom is connected first sprocket, the second sprocket reaches the gear all cup joints on the connecting axle, the both ends of connecting axle are connected the connecting plate, the second chain is connected first sprocket and second sprocket, the third motor is connected first rotary device the connecting axle, first rotary device with the second rotary device the gear engagement is connected.

Preferably, the roller comprises two first power rollers and two roller groups respectively connected with the two conveying beams, the two first power rollers are arranged at the front ends of the two conveying beams, the first power rollers far away from the roller groups are connected with the first motor, each roller group comprises a plurality of uniformly distributed second power rollers, one end of each second power roller is connected with the conveying beam, the other end of each second power roller is connected with the first mounting plate, and the two first power rollers and the plurality of second power rollers are connected with each other through third chains.

Preferably, two third chain wheels are arranged at two ends of the first power roller and at one end of the second power roller connected with the conveying beam, and the first power roller and the second power roller are connected with each other through the third chain.

Preferably, an unpowered roller group is arranged between the two roller groups, the unpowered roller group comprises two second mounting plates which are symmetrically arranged and a plurality of uniformly distributed unpowered rollers which are arranged between the two second mounting plates, and a linking plate and a supporting plate are connected between the first mounting plate and the second mounting plates.

Preferably, the both sides of frame are equipped with electric mounting panel, electric cabinet door, go up safety guard, outer cover plate, inner cover plate and motor safety guard, electric mounting panel sets up the middle part of frame, outer cover plate and inner cover plate set up relatively the lower extreme of frame, buttress board hoist mechanism locates outer cover plate and between the inner cover plate, electric cabinet door is located electric mounting panel with between the outer cover plate, go up safety guard lid close with on the electric cabinet door, the motor safety guard is fixed in the frame.

Preferably, the driven sprocket is fixed on a sprocket seat, the sprocket seat is fixed on the rack through a tensioning block, and the side plate is fixedly connected with the first chain through a chain block.

The utility model has the advantages that: by arranging the stacking plate lifting mechanism, when stacked stacking plates need to be detached, the stacking plates are placed on the roller line mechanism, then the rotating mechanism drives the rotating arm to rotate and extend into the second stacking plate which is counted from the bottom upwards, then the lifting mechanism lifts the rotating arm to drive the stacking plates to ascend, when the lifted stacking plates leave the stacking plate at the bottommost layer, the lifting is stopped, and meanwhile, the first motor drives the roller line mechanism to move, so that the stacking plate at the bottommost layer enters a production line; after the bottom stack plate is moved away, the lifting mechanism drives the lifted stack plate to descend to the roller line mechanism, and the operation before the operation is repeated to output another stack plate, so that the automatic splitting of the stack plate is realized, the automatic splitting device can adapt to the occasion of simultaneously stacking multiple production lines or quickly replacing the stack plate, and the cost is saved. The utility model discloses simple structure, excellent in use effect easily uses widely.

Drawings

Fig. 1 is the structure schematic diagram of the stacking plate splitting device of the utility model.

Fig. 2 is the schematic diagram of the stack lifting mechanism of the stack splitting device of the present invention.

Fig. 3 is the utility model discloses a buttress board hoist mechanism's of buttress board split device axonometric drawing.

Fig. 4 is a schematic structural view of a roller line mechanism of the stacking plate splitting device of the present invention.

Fig. 5 is a schematic structural view of a rack of the stacking plate splitting device of the present invention.

Wherein: 1-frame, 2-roller line mechanism, 21-conveying beam, 22-first powered roller, 23-roller group, 231-second powered roller, 232-first mounting plate, 23-third chain, 24-third chain wheel, 25-unpowered roller group, 251-second mounting plate, 252-unpowered roller, 26-link plate, 27-support plate, 3-stacking plate lifting mechanism, 31-side plate, 32-rotating arm, 33-guide column, 34-lifting device, 341-first chain, 342-driving chain wheel, 343-driven chain wheel, 344-chain wheel seat, 345-tensioning block, 346-chain block, 35-second motor, 36-third motor, 37-lifting shaft, 38-first rotating device, 381-first sprocket, 382-second sprocket, 383-cantilever mount, 384-link plate, 385-gear, 386-second chain, 387-link shaft, 39-second rotating means, 4-first motor.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the stacking plate splitting device of the embodiment includes a frame 1, a roller line mechanism 2, and two stacking plate lifting mechanisms 3 oppositely disposed at the lower ends of two sides of the frame 1, wherein the roller line mechanism 2 is disposed at the bottom of the frame 1 and between the two stacking plate lifting mechanisms 3;

the roller line mechanism 2 comprises two symmetrically arranged conveying beams 21 and a plurality of rollers arranged between the two conveying beams 21, and the rollers are connected with each other and driven by a first motor 4 arranged on the rack 1;

the stacking plate lifting mechanism 3 comprises a side plate 31, two rotating arms 32 symmetrically hinged on the side plate 31 and two guide posts 33 vertically and symmetrically arranged on the rack 1, two ends of the side plate 31 are respectively sleeved on the two guide posts 33 and are controlled by the lifting mechanism arranged on the rack 1 to move the side plate 31 up and down along the guide posts 33, and the two rotating arms 32 are positioned between the two guide posts 33 and are controlled to rotate by a rotating mechanism arranged on the side plate 31.

According to the stacking plate splitting device based on the technical characteristics, by arranging the stacking plate lifting mechanism 3, when stacked stacking plates need to be split, the stacking plates are placed on the roller line mechanism 2 firstly, then the rotating mechanism drives the rotating arm 32 to rotate and extend into the second stacking plate counted from the bottom upwards, then the lifting mechanism lifts the rotating arm 32 to drive the stacking plates to ascend, when the lifted stacking plates leave the stacking plate at the bottommost layer, the lifting is stopped, and meanwhile, the first motor 4 drives the roller line mechanism 2 to move, so that the stacking plate at the bottommost layer enters a production line; after the bottom stack plate is moved away, the lifting mechanism drives the lifted stack plate to descend to the roller line mechanism 2, and the operation before the operation is repeated to output another stack plate, so that the automatic splitting of the stack plate is realized, the automatic splitting device can adapt to the occasions of simultaneously stacking multiple production lines or rapidly replacing the stack plate, and the cost is saved. The utility model discloses simple structure, excellent in use effect easily uses widely.

In this embodiment, the lifting mechanism includes a second motor 35 and a lifting device 34, the lifting device 34 includes a first chain 341, a driving sprocket 342 and a driven sprocket 343, the second motor 35 is fixed on the frame 1 and connected to the driving sprocket 342, the driven sprocket 343 is fixed at the lower end of the frame 1, in order to facilitate the fixing of the driven sprocket 343, the driven sprocket 343 is fixed on a sprocket seat 344, and the sprocket seat 344 is fixed on the frame 1 through a tensioning block 345. The first chain 341 connects the driving sprocket 342 and the driven sprocket 343, the side plate 31 is fixed on the first chain 341, and preferably, the side plate 31 and the first chain 341 are fixedly connected by a chain block 346. When the stacking plate needs to be lifted or lowered, only the second motor 35 needs to be started, the second motor 35 drives the driving sprocket 342 to rotate, and the driving sprocket 342 drives the first chain 341 to move, so that the side plate 31 mounted on the first chain 341 can move up and down.

Meanwhile, as the lifting mechanism moves up and down to drive the stacking plate under the rotating arm 32 to move up and down, and the stacking plate has a certain weight, in order to ensure the stability and safety of the movement of the lifting mechanism, two sets of lifting devices 34 are provided, the two sets of lifting devices 34 are symmetrically arranged at two ends of the side plate 31, a lifting shaft 37 is connected between the driving sprockets 342 of the two lifting devices 34, and the second motor 35 is connected with the lifting shaft 37. When the stacking plate needs to be lifted up and down, the second motor 35 drives the lifting shaft 37 to rotate, and the lifting shaft 37 drives the two sets of lifting devices 34 to move synchronously, so that the stability and the safety of lifting the stacking plate are ensured.

In this embodiment, the rotating mechanism includes a third motor 36, a first rotating device 38 and a second rotating device 39, one end of the first connecting device 38 is connected to one end of the second connecting device 39, the other end of the first connecting device 38 is connected to the two rotating arms 32, and the third motor 36 is connected to the first rotating device 38 and drives the first rotating device 38 and the second rotating device 39 to drive the rotating arms 32 to rotate. Preferably, the first rotating device 38 and the second rotating device 39 each include a first sprocket 381, a second sprocket 382, a cantilever seat 383, a connecting plate 384, a gear 385, a second chain 386, and a connecting shaft 387, the cantilever seat 383 is disposed on the side plate 31, the rotating arm 32 is L-shaped, the middle portion of the rotating arm 32 is hinged to the cantilever seat 383, one end of the rotating arm 32 is connected to the first sprocket 381, the other end is used for supporting the stacking plate, the second sprocket 382 and the gear 385 are both sleeved on the connecting shaft 387, and both ends of the connecting shaft 387 are connected to the connecting plate 384. Preferably, the connecting plate 384 includes an upper connecting plate and a lower connecting plate, and the connecting shaft 387 is disposed between the upper connecting plate and the lower connecting plate. The second chain 386 connects the first chain wheel 381 and the second chain wheel 382, the third motor 36 connects the connecting shaft 387 of the first rotating means 38, and the first rotating means 38 is in meshed connection with the gear 385 of the second rotating means 39. When the rotating arm 32 needs to be rotated, the third motor 36 is activated to drive the second sprocket 382 and the gear 385 of the first rotating device 38 to rotate, and then the second chain 386 of the first rotating device 38 drives the rotating arm 32 of the first rotating device 38 to rotate; meanwhile, the gear 385 of the first rotating device 38 drives the gear 385 of the second rotating device 39 to rotate, and the gear 385 of the second rotating device 39 drives the connecting shaft 387 of the second rotating device 39 to rotate so as to drive the second sprocket 382 of the second rotating device 39 to rotate, so that the rotation of the rotating arm of the second rotating device 39 is realized.

In this embodiment, the rollers include two first power rollers 22 and two roller sets 23 respectively connected to the two conveying beams 21, the two first power rollers 22 are disposed at the front ends of the two conveying beams 21, and the first power roller 22 far away from the roller set 23 is connected to the first motor 4, preferably, the first power roller 22 is connected to the first motor 4 through a chain. Each group of roller group 23 comprises a plurality of second power rollers 231 which are uniformly distributed, one end of each second power roller 231 is connected with the conveying beam 21, the other end of each second power roller 231 is connected with the first mounting plate 232, and the two first power rollers 22 and the plurality of second power rollers 231 are connected with each other through third chains 23. Preferably, two third chain wheels 23 are disposed at both ends of the first power roller 22 and at the end of the second power roller 231 connected to the conveying beam 21, and the first power roller 22 and the second power roller 231 are connected to each other by the third chain 23. Specifically, the two first power rollers 22, the first power roller 22 close to the roller group 23, and the second power roller 231 adjacent to the first power roller 22, and the two second power rollers 231 adjacent to each other are connected by the third chain 23, respectively.

In this embodiment, an unpowered roller set 25 is disposed between the two roller sets 23, the unpowered roller set 25 includes two second mounting plates 251 symmetrically disposed and a plurality of uniformly distributed unpowered rollers 252 disposed between the two second mounting plates 251, and a linking plate 26 and a supporting plate 27 are connected between the first mounting plate 232 and the second mounting plates 251.

Referring to fig. 5, in this embodiment, in order to ensure the overall aesthetic property and the use safety of the stacking plate splitting device, an electrical mounting plate 5, an electrical cabinet door 6, an upper safety cover 7, an outer cover plate 8, an inner cover plate 9 and a motor safety cover a are arranged on two sides of the rack 1, and the electrical mounting plate 5 is arranged in the middle of the rack 1 and used for mounting electrical equipment; the outer cover plate 8 and the inner cover plate 9 are oppositely arranged at the lower end of the rack 1, and the stacking plate lifting mechanism 3 is arranged between the outer cover plate 8 and the inner cover plate 9. Meanwhile, a movable hole for the movement of the rotating arm 32 needs to be formed in the position of the inner cover plate 9 corresponding to the rotating arm 32, so that the movement of the rotating arm 32 is prevented from being blocked. The electric cabinet door 6 is arranged between the electric installation plate 5 and the outer cover plate 8, the upper safety cover 7 covers the electric cabinet door 6, and the motor safety cover a is fixed on the rack 1 and used for covering each motor.

In addition, if the first motor 4 is connected to the first power roller 22 through a chain, a chain safety cover needs to be disposed on the frame 1 to ensure safety. Also, cable ducts may be provided for mounting cables.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and replacements can be made without departing from the technical principle of the present invention, and these modifications and replacements should also be regarded as the protection scope of the present invention.

Claims (10)

1. The utility model provides a buttress board split device which characterized in that: the stacking machine comprises a rack, a roller line mechanism and two stacking plate lifting mechanisms which are oppositely arranged at the lower ends of two sides of the rack, wherein the roller line mechanism is arranged at the bottom of the rack and is positioned between the two stacking plate lifting mechanisms;

the roller line mechanism comprises two symmetrically arranged conveying beams and a plurality of rollers arranged between the two conveying beams, and the rollers are connected with each other and driven by a first motor arranged on the rack;

the stacking plate lifting mechanism comprises a side plate, two rotating arms symmetrically hinged to the side plate and two guide pillars vertically and symmetrically arranged on the rack, two ends of the side plate are respectively sleeved on the two guide pillars and are controlled to move up and down along the guide pillars by the lifting mechanism arranged on the rack, and the two rotating arms are located between the two guide pillars and are controlled to rotate by a rotating mechanism arranged on the side plate.

2. A buttress plate detachment apparatus according to claim 1, in which: the lifting mechanism comprises a second motor and a lifting device, the lifting device comprises a first chain, a driving chain wheel and a driven chain wheel, the second motor is fixed to the rack and connected with the driving chain wheel, the driven chain wheel is fixed to the lower end of the rack, the driving chain wheel and the driven chain wheel are connected through the first chain, and the side plates are fixed to the first chain.

3. A buttress plate detachment apparatus according to claim 2, in which: the lifting device is provided with two sets, the two sets of lifting devices are symmetrically arranged at two ends of the side plate, a lifting shaft is connected between the driving chain wheels of the two lifting devices, and the second motor is connected with the lifting shaft.

4. A buttress plate detachment apparatus according to claim 1, in which: the rotating mechanism comprises a third motor, a first rotating device and a second rotating device, one end of the first connecting device is connected with one end of the second connecting device, the other end of the first connecting device is connected with the two rotating arms, and the third motor is connected with the first rotating device and drives the first rotating device and the second rotating device to drive the rotating arms to rotate.

5. A buttress plate detachment apparatus according to claim 4, in which: first rotary device and second rotary device all include first sprocket, second sprocket, cantilever seat, connecting plate, gear, second chain and connecting axle, the cantilever seat sets up on the curb plate, the middle part of swinging boom with the cantilever seat is articulated, the one end of swinging boom is connected first sprocket, the second sprocket reaches the gear all cup joints on the connecting axle, the both ends of connecting axle are connected the connecting plate, the second chain is connected first sprocket and second sprocket, the third motor is connected first rotary device the connecting axle, first rotary device with the second rotary device the gear engagement is connected.

6. A buttress plate detachment apparatus according to claim 1, in which: the roller comprises two first power rollers and two roller groups respectively connected with the two conveying beams, the two first power rollers are arranged at the front ends of the two conveying beams, the first power rollers far away from the roller groups are connected with the first motor, each roller group comprises a plurality of uniformly distributed second power rollers, one end of each second power roller is connected with the conveying beam, the other end of each second power roller is connected with the first mounting plate, and the two first power rollers and the plurality of second power rollers are connected with each other through a third chain.

7. A buttress plate detachment apparatus according to claim 6, in which: two third chain wheels are arranged at two ends of the first power roller and at one end of the second power roller connected with the conveying beam, and the first power roller and the second power roller are connected with each other through a third chain.

8. A buttress plate detachment apparatus according to claim 6, in which: an unpowered roller group is arranged between the two roller groups, the unpowered roller group comprises two second mounting plates which are symmetrically arranged and a plurality of uniformly distributed unpowered rollers which are arranged between the two second mounting plates, and a linking plate and a supporting plate are connected between the first mounting plate and the second mounting plates.

9. A buttress plate detachment apparatus according to claim 1, in which: the both sides of frame are equipped with electric mounting panel, electric cabinet door, go up safety guard, outer cover plate, inner cover plate and motor safety guard, electric mounting panel sets up the middle part of frame, outer cover plate and inner cover plate set up relatively the lower extreme of frame, buttress board hoist mechanism locates outer cover plate reaches between the inner cover plate, electric cabinet door is located electric mounting panel with between the outer cover plate, go up safety guard lid close with on the electric cabinet door, motor safety guard fixes in the frame.

10. A buttress plate detachment apparatus according to claim 2, in which: the driven chain wheel is fixed on a chain wheel seat, the chain wheel seat is fixed on the rack through a tensioning block, and the side plate is fixedly connected with the first chain through a chain block.

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