CN221050069U - Flexible plate packing equipment - Google Patents

Abstract

The utility model discloses flexible plate packing equipment. The flexible plate packing equipment comprises a frame, and a binding belt mechanism, a reversing mechanism, a bag feeding mechanism and a material transferring mechanism which are arranged on the frame, wherein a binding belt station, a reversing station and a bag pushing station are sequentially arranged on the frame; the binding belt mechanism is used for binding the binding belt on the outer peripheral side of the flexible plate stacking; the reversing mechanism is used for switching the flexible board stockpiles which are transversely conveyed to the reversing mechanism along the frame to be longitudinally arranged along the frame, and the flexible board stockpiles which are longitudinally arranged along the frame can be transferred to the binding belt station; the bag feeding mechanism is positioned at the bag pushing station and is used for loading the flexible board stacks bound by the binding belt mechanism into the packaging bags; the material transfer mechanism is used for sequentially transferring the flexible plate stockpiles among the binding band station, the reversing station and the bag pushing station. The flexible plate packing equipment provided by the utility model has the advantages that the packing process of flexible plate stacking is more intelligent, the packing efficiency is higher, the flexible plate is not easy to damage, and the quality is ensured.

Description

Flexible plate packing equipment

Technical Field

The utility model relates to the technical field of soft board processing machinery, in particular to soft board packaging equipment.

Background

After the flexible board is cut and manufactured, the flexible board is packed and bagged in batches, and one bag of flexible board comprises a plurality of flexible boards, so that the flexible board is convenient to transfer and transport for batch management. However, the flexible plates are easy to damage, and the flexible plates are generally irregularly shaped, so that the flexible plates slide easily when the stack is formed, and the packing of the flexible plate stack is difficult. Traditional flexible plate winded with adhesive tape or bag is wrapped outside the flexible plate winded manually, and then the flexible plate winded with adhesive tape or bag is put into the packaging bag integrally, so that the packaging efficiency is low, and the flexible plate is easy to damage in the manual packaging process, and the quality and the manufacturing cost of the flexible plate are affected.

Disclosure of utility model

Therefore, the utility model aims to solve the technical problems that the packing efficiency is low and the quality and the manufacturing cost of the finished product of the flexible plate are affected due to the traditional flexible plate packing mode.

In order to solve the above technical problems, the present utility model provides a flexible board packaging device, including:

The machine frame is sequentially provided with a binding belt station, a reversing station and a bag pushing station;

The binding belt mechanism is arranged on the frame and corresponds to the binding belt station, and is used for binding a binding belt on the outer peripheral side of the flexible plate stacker;

The reversing mechanism is arranged on the frame and is positioned at the reversing station, and is used for switching the flexible board stacks which are transversely conveyed to the reversing mechanism along the frame to be longitudinally arranged along the frame and transferring the flexible board stacks longitudinally arranged along the frame to the binding station;

The bagging mechanism is arranged on the frame and positioned at the bag pushing station and is used for loading the flexible board stacks bound by the binding belt mechanism into a packaging bag;

The material transfer mechanism is arranged on the frame and used for sequentially transferring the flexible board stockpiles among the binding band station, the reversing station and the bag pushing station.

Optionally, the reversing mechanism includes:

The conveying structure is arranged on the frame and at least can be used for conveying the flexible board stacks from the reversing station to the binding station;

The reversing bracket is provided with a movable stroke along the up-down direction of the frame and a rotating stroke along the horizontal direction of the frame, and has a first working state which is flush with the conveying surface of the conveying structure and a second working state which is higher than the conveying structure, and when the reversing bracket is in the second working state, the reversing bracket can rotate relative to the frame;

and the reversing driving structure is connected with the conveying structure and the reversing bracket.

Optionally, the conveying structure includes a plurality of first conveying rollers rotatably disposed on the frame, the plurality of first conveying rollers are disposed at intervals in parallel along a transverse direction of the frame, and the plurality of first conveying rollers have a rotation direction that is consistent and can rotate in a first direction and a second direction, and the first direction and the second direction are opposite;

The reversing support comprises a first support rod, a second support rod and a rotating shaft, wherein the first support rod and the second support rod are arranged in a crossing mode, the rotating shaft is connected to the intersection of the first support rod and the second support rod, the rotating shaft extends along the up-down direction of the frame, the first support rod extends along the transverse direction of the frame, and the second support rod extends along the longitudinal direction of the frame;

The reversing driving structure comprises a first driving piece and a second driving piece, wherein the first driving piece is connected with at least one first conveying roller and used for driving a plurality of first conveying rollers to rotate, and the second driving piece is connected with the rotating shaft and used for driving the rotating shaft to move along the up-down direction of the frame and driving the rotating shaft to rotate.

Optionally, the second driving piece includes first driver, with the elevating platform that reversing drive structure is connected and locates second driver on the elevating platform, the axis of rotation rotates to be located on the elevating platform, first driver is located in the frame, be used for the drive the elevating platform is followed the upper and lower direction of frame removes, second driver with the axis of rotation is connected, is used for the drive the axis of rotation rotates.

Optionally, the reversing mechanism further includes a positioning structure movably disposed on the frame, where the positioning structure is adapted to drive the flexible board stack to be placed on the reversing support in a centered manner.

Optionally, the positioning structure includes:

The two locating clamping plates are arranged at opposite intervals along the longitudinal direction of the frame and are provided with movable strokes which are close to each other and far away from each other, and the two locating clamping plates are positioned above the conveying surface of the conveying structure;

And the positioning driver is arranged on the frame and connected with the two positioning clamping plates and used for driving the two positioning clamping plates to be close to or far away from each other.

Optionally, still be equipped with into the bag station in the frame, it is located to go into the bag station push away behind the bag station, it includes to go into bag mechanism:

The bag-entering supporting component is movably arranged at the bag-pushing station and can be used for placing soft board piles which are transmitted by the reversing mechanism;

The pushing assembly is movably arranged on the frame and used for pushing the soft board stacks on the bag-entering supporting assembly into the packaging bags at the bag-entering station.

Optionally, the flexible board packaging device further comprises a bag supporting mechanism, wherein the bag supporting mechanism comprises a bag supporting platform, and the setting height of the bag supporting platform is higher than the height of the transfer plane of the material transfer mechanism;

The bag entering supporting assembly comprises two groups of roller groups, the two groups of roller groups are arranged at intervals along the longitudinal direction of the frame, each group of roller groups comprises a plurality of second conveying rollers which are rotationally arranged on the frame, each group of roller groups is provided with a plurality of second conveying rollers which are arranged at intervals along the transverse direction of the frame side by side, and the two groups of roller groups are provided with movable strokes along the up-down direction of the frame.

Optionally, the pushing component includes a first pushing structure and a second pushing structure, where the first pushing structure is used to push the flexible board stack on the bag-in supporting component into the packaging bag on the bag-supporting platform and make at least part of the flexible board stack enter the packaging bag, and the second pushing structure is arranged on one side of the bag-in supporting component and is used to push the flexible board stack on the bag-supporting platform again so that the flexible board stack completely enters the packaging bag.

Optionally, the first pushing structure includes a first pushing block and a first pushing driver connected with the first pushing block, where the first pushing block is movably disposed between two sets of intervals of the roller sets along a transverse direction of the frame;

the second pushing structure comprises a second pushing block and a second pushing driver connected with the second pushing block, wherein the second pushing block is provided with a reciprocating movement stroke along the longitudinal direction of the frame and a reciprocating movement stroke along the transverse direction of the frame.

The technical scheme provided by the utility model has the following advantages:

The flexible plate packing equipment provided by the utility model comprises a rack, and a binding belt mechanism, a reversing mechanism, a bag feeding mechanism and a material transferring mechanism which are arranged on the rack, wherein packing adhesive tapes can be bound on the peripheral side of flexible plate piles through the binding belt mechanism, so that the relative sliding among flexible plates is avoided; the flexible board stacking can be reversed through the reversing mechanism, so that the flexible board stacking is bound again through the binding belt mechanism after the reversing is carried out, the peripheral side of the flexible board stacking is wound and bound through at least two adhesive tapes which are arranged in a crossing manner, the flexible board stacking is more reliably fixed, the flexible board can not move relatively in the transferring process, and further, the bound flexible board stacking can be loaded into a packaging bag through the bagging mechanism, so that the flexible board stacking is packaged; moreover, the flexible plate stacking can be transferred among the stations through the material transfer mechanism, so that the packing process of the flexible plate stacking is more intelligent, manual participation is not needed in the whole process, the packing efficiency is higher, the flexible plate is not easy to damage, and the quality is guaranteed.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of an embodiment of a flexible board packaging device according to the present utility model;

FIG. 2 is a schematic view of the flexible board packaging apparatus of FIG. 1 from another perspective;

FIG. 3 is a schematic view of the flexible board packaging apparatus of FIG. 1 from another perspective;

Fig. 4 is an enlarged schematic view of the reversing mechanism and the bagging mechanism shown in fig. 1.

Reference numerals illustrate:

100-flexible plate packing equipment; 1-a frame; 2-a banding mechanism; 3-a reversing mechanism; 31-a transport structure; 311-a first transfer roller; 32-reversing brackets; 321-a first support bar; 322-a second support bar; 33-positioning structure; 331-locating a clamping plate; 4-bagging mechanism; 41-bagging support assembly; 411-second transfer roller; 42-pushing assembly; 421-a first push structure; 422-a second push structure; 5-a material transfer mechanism; 6-a blanking mechanism.

Detailed Description

The following description of the embodiments of the present utility model will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown. The utility model will be described in detail hereinafter with reference to the drawings in conjunction with embodiments. It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other.

It should be noted that the terms "first," "second," and the like in the description and the claims of the present utility model and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order.

In the present utility model, unless otherwise indicated, terms of orientation such as "upper, lower, top, bottom" are used generally with respect to the orientation shown in the drawings or with respect to the component itself in the vertical, upright or gravitational direction; also, for ease of understanding and description, "inner and outer" refers to inner and outer relative to the profile of each component itself, but the above-mentioned orientation terms are not intended to limit the present utility model.

The present utility model provides a flexible sheet packing apparatus 100, which flexible sheet packing apparatus 100 is adapted to bind a plurality of flexible sheets (i.e., flexible sheet piles) arranged in a stack and to be packed in a packing bag.

Specifically, referring to fig. 1 to 3, the flexible board packaging device 100 includes a frame 1, and a banding mechanism 2, a reversing mechanism 3, a bag feeding mechanism 4 and a material transferring mechanism 5 which are arranged on the frame 1, wherein a banding station, a reversing station and a bag pushing station are sequentially arranged on the frame 1, i.e. the banding station, the reversing station and the bag pushing station are sequentially arranged according to the operation sequence; the binding belt mechanism 2 is arranged corresponding to the binding belt station, and the binding belt mechanism 2 is used for binding the binding belt on the outer peripheral side of the flexible plate stacking; the reversing mechanism 3 is positioned at the reversing station, the reversing mechanism 3 is used for switching the flexible board stacks conveyed to the reversing mechanism 3 along the transverse direction of the frame 1 to be arranged along the longitudinal direction of the frame 1, and at least the flexible board stacks arranged along the longitudinal direction of the frame 1 can be transferred to the banding station; the bag feeding mechanism 4 is positioned at the bag pushing station, and the bag feeding mechanism 4 is used for loading the flexible board piles bound by the binding belt mechanism 2 into the packaging bags; the material transfer mechanism 5 is used for sequentially transferring the flexible board stockpiles among the binding band station, the reversing station and the bag pushing station.

The flexible board packaging equipment 100 can bind packaging adhesive tapes on the outer peripheral side of flexible board stacks through the binding belt mechanism 2, so that the relative sliding among the flexible boards is avoided; the flexible board stacking can be reversed through the reversing mechanism 3, so that the flexible board stacking is conveyed to the position of the strap mechanism 2 through the reversing mechanism 3 after reversing, and is bound again through the strap mechanism 2, so that the peripheral side of the flexible board stacking is wound and bound through at least two adhesive tapes which are arranged in a crossed manner, the flexible board stacking is more reliably fixed, the flexible board is prevented from moving relatively in the transferring process, and further, the bound flexible board stacking can be loaded into a packaging bag through the bag loading mechanism 4, and the packaging of the flexible board stacking is completed; moreover, the flexible plate stockpile can be transferred among the stations through the material transfer mechanism 5, so that the packing process of the flexible plate stockpile is more intelligent, manual participation is not needed in the whole process, the packing efficiency is higher, the flexible plate is more ensured to be not easy to damage, and the quality is more ensured.

Wherein the frame 1 is used for other mechanisms to be mounted on, so that the relative correct positions among the mechanisms and parts can be kept. The frame 1 is generally manufactured by casting or welding. Considering the production process and the manufacturing cost, the steel is preferably welded by square steel, and the steel has the advantages of simple process, good connection performance and high structural strength. Moreover, thin-wall baffles or cabinet door structures can be arranged on each side surface and the bottom surface of the frame 1, so that the appearance of the whole flexible plate packaging equipment 100 is concise and elegant, clean and sanitary, the internal structure of the whole equipment is closed, the influence of foreign matters on the running of the machine is reduced, the safety of the equipment is improved, and the damage to workers in the operation process is prevented.

The material transfer mechanism 5 may be configured as a roller conveyor or a belt conveyor, and the conveying direction is configured to extend along the transverse direction of the frame 1, so that at least the flexible board stacking material may reciprocate between the banding station and the reversing station.

It should be noted that, the initial state of setting the flexible board stack on the material transfer mechanism 5 is that the length direction is set along the transverse direction of the frame 1, so it can be understood that when the flexible board stack is in the initial state, the belt mechanism 2 can be bound and attached to two sides of the flexible board stack along the width direction, when the flexible board stack is changed by the reversing mechanism 3, the length direction of the flexible board stack is set along the longitudinal direction of the frame 1, and when the flexible board stack is bound and attached again by the belt mechanism 2, the adhesive tape is bound and attached to two sides of the flexible board stack along the length direction.

Specifically, the belt mechanism 2 includes a belt releasing structure and a belt tightening structure, the belt releasing structure is annularly arranged at the belt station, when the flexible board stacking material moves to the belt station, the belt releasing structure releases the belt, so that the belt can be annularly arranged at the outer periphery side of the flexible board stacking material along the longitudinal direction of the frame 1, and is bound to two sides of the flexible board stacking material along the width direction thereof, and then the fallen belt is tightened and cut through the belt tightening structure, so that the belt can be tightly bound on the flexible board stacking material. The specific working principle and structure of the belt mechanism 2 belong to the conventional technology, and are not described here too much.

And, still be equipped with detection structure in band station department, detection structure can set up as position sensor or inductive sensor, of course, flexible board baling equipment 100 can also include the controller, the controller is connected with detection structure electricity, when flexible board windrow moves to band station department under the transfer of material transfer mechanism 5, detection structure detects flexible board windrow and sends the testing result to the controller, and then control material transfer mechanism 5 through the controller and pause work, in order to control band mechanism 2 work, after band mechanism 2 binds the sticky tape on flexible board windrow, the controller again controls material transfer mechanism 5 work, in order to transfer the flexible board windrow that binds to reversing station department.

Further, the detection structure can be provided with a plurality of detection structures, so that the flexible board stacking material can pause moving for a plurality of times when being transferred to the binding station, and the binding mechanism 2 can bind the adhesive tape for a plurality of times. Preferably, two detection structures are arranged at the position of the binding belt station at intervals along the transverse direction of the frame 1, so that the flexible plate stacking material can be bound once through the binding belt mechanism 2 at about 1/3 of the length direction of the flexible plate stacking material along the transverse direction of the frame 1, and can be bound once through the binding belt mechanism 2 at about 2/3 of the length direction of the flexible plate stacking material, and the binding of the flexible plate stacking material is ensured to be firmer.

In addition, after the flexible plate stacking is bound twice in the width direction, further, at least one binding is needed on the peripheral side along the length direction of the flexible plate stacking, so that a plurality of adhesive tapes are bound in a crossed mode, and the adhesive tapes are not easy to loose in the transportation process. Therefore, it is necessary to turn the flexible sheet stack to complete the binding of the adhesive tape again in the length direction thereof.

Specifically, the flexible sheet stack can be turned by the reversing mechanism 3 to bind again. The reversing mechanism 3 comprises a conveying structure 31, a reversing bracket 32 and a reversing driving structure, wherein the conveying structure 31 is arranged on the frame 1 and at least can be used for conveying the flexible board stacks from the reversing station to the binding station, and of course, the conveying structure 31 can also be used for conveying the flexible board stacks from the reversing station to the bag pushing station; the reversing bracket 32 specifically has a movable stroke in the up-down direction of the frame 1 and a rotational stroke in the horizontal direction of the frame 1, the reversing bracket 32 has a first operating state in which it is flush with the conveying surface of the conveying structure 31 and a second operating state in which it is disposed higher than the conveying structure 31, and the reversing bracket 32 is rotatable relative to the frame 1 when the reversing bracket 32 is in the second operating state; the reversing drive is connected to the transfer structure 31 and the reversing support 32. When the flexible plate packing device 100 works normally, the flexible plate stacking can be transferred to the banding working position through the material transferring mechanism 5, after the flexible plate stacking is bound by the banding mechanism 2 through the adhesive tape in the width direction twice, the material is transferred to the reversing mechanism 3 through the material transferring mechanism 5, the flexible plate stacking is driven to rotate through the rotation of the reversing support 32, preferably the flexible plate stacking is rotated by 90 degrees, the diverted flexible plate stacking is conveyed to the banding station through the conveying structure 31, the flexible plate stacking is bound by the banding mechanism 2 through the adhesive tape in the length direction, so that the whole banding operation is completed, and then the bound flexible plate stacking is transferred to the bag pushing station for bagging operation.

Preferably, as shown in fig. 2 and fig. 4, the conveying structure 31 includes a plurality of first conveying rollers 311 rotatably disposed on the frame 1, the plurality of first conveying rollers 311 are disposed at intervals along a lateral direction of the frame 1, the plurality of first conveying rollers 311 rotate to drive the flexible board stack disposed thereon to move, and the plurality of first conveying rollers 311 rotate in a consistent direction and can rotate in a first direction and a second direction, wherein the first direction and the second direction are opposite, for example, the first direction is clockwise, and the second direction is counterclockwise; the reversing bracket 32 comprises a first supporting rod 321 and a second supporting rod 322 which are arranged in a crossing way, and a rotating shaft connected to the crossing part of the first supporting rod 321 and the second supporting rod 322, wherein the rotating shaft extends along the up-down direction of the frame 1 and extends towards the bottom of the plurality of first conveying rollers 311, the first supporting rod 321 extends along the transverse direction of the frame 1, and the second supporting rod 322 extends along the longitudinal direction of the frame 1; the reversing driving structure comprises a first driving piece and a second driving piece, wherein the first driving piece is connected with at least one first conveying roller 311 and is used for driving the plurality of first conveying rollers 311 to rotate, one of the first conveying rollers 311 is driven to rotate by the first driving piece, so that the rest of the first conveying rollers 311 can be driven to rotate, when the first driving piece is set to drive the plurality of first conveying rollers 311 to rotate along a first direction, the flexible plate stacking can be driven to move along a transverse forward direction, and when the first driving piece is set to drive the plurality of first conveying rollers 311 to rotate along a second direction, the flexible plate stacking can be driven to move along a transverse backward direction, and the second driving piece is connected with a rotating shaft and is used for driving the rotating shaft to move along the up-down direction of the frame 1 and driving the rotating shaft to rotate.

After the flexible board stack is bound along the width direction by the banding mechanism 2, the flexible board stack is moved to the plurality of first conveying rollers 311, after the plurality of first conveying rollers 311 transfer the flexible board stack to the reversing support 32, the reversing support 32 can move upwards along the frame 1 under the driving action of the second driving piece, so that the flexible board stack is separated from the plurality of first conveying rollers 311 and is positioned above the plurality of first conveying rollers 311, and then the second driving piece drives the rotating shaft to rotate, so that the first supporting rod 321 and the second supporting rod 322 are driven to rotate, so that the placement direction of the flexible board stack can be changed, after the flexible board stack is turned, the second driving piece drives the reversing support 32 to descend again, so that the flexible board stack can fall onto the plurality of first conveying rollers 311, and then the first conveying rollers 311 reversely rotate to drive the flexible board stack to move backwards from the reversing station to the banding position, and binding the flexible board stack is carried out again by the banding mechanism 2. When the binding mechanism 2 binds the flexible board stacks along the length direction thereof and then transfers the flexible board stacks to the reversing support 32 again, the reversing support 32 can perform the reversing action again, so that the flexible board stacks can be restored to the original placement direction, and the subsequent process is facilitated.

Preferably, the second driving member comprises a first driver, a lifting platform connected with the reversing driving structure and a second driver arranged on the lifting platform, the rotating shaft is rotationally arranged on the lifting platform, the first driver is arranged on the frame 1 and used for driving the lifting platform to move along the up-down direction of the frame 1, and the second driver is connected with the rotating shaft and used for driving the rotating shaft to rotate. The lifting table is driven by the first driver to move up and down along the frame 1, so that the reversing support 32 can be driven to move up and down along the frame 1, and the rotating shaft can be driven by the second driver to rotate, so that the reversing support 32 is driven to rotate, and the placing direction of the soft board stacking is switched. And the second driving member can be positioned below the plurality of first conveying rollers 311, so that the structure is more compact.

Further, the reversing mechanism 3 further comprises a positioning structure 33 movably arranged on the frame 1, and the positioning structure 33 is suitable for driving the flexible plate stockpile to be placed on the reversing bracket 32 in a centering manner, so that the flexible plate stockpile is ensured to be bundled more tightly when being bound.

Preferably, the positioning structure 33 comprises two positioning clamping plates 331 and a positioning driver, the two positioning clamping plates 331 are arranged at opposite intervals along the longitudinal direction of the frame 1 and have movable strokes of approaching and separating from each other, and the two positioning clamping plates 331 are positioned above the conveying surface of the conveying structure 31; the positioning driver is arranged on the frame 1 and connected with the two positioning clamping plates 331, and is used for driving the two positioning clamping plates 331 to be close to or far from each other. The two locating clamping plates 331 are driven by the locating driver to be close to each other, so that the two locating clamping plates 331 can be simultaneously abutted against two sides of the flexible plate stacking along the transverse direction of the frame 1, and due to the fact that the moving amounts of the two locating clamping plates 331 are consistent, the flexible plate stacking is positioned on the reversing support 32 in a centering mode, after the reversing mechanism 3 is used for reversing, the flexible plate stacking can be better positioned in the middle of the plurality of first conveying rollers 311, and therefore when the flexible plate stacking is conveyed to a binding belt station, the flexible plate stacking is also positioned in the middle position, and the binding belt is not prone to shifting.

Further, after the flexible board stacking is bound for a plurality of times, the flexible board stacking can be moved to a bag pushing station under the action of the reversing mechanism 3 or the material transferring mechanism 5 so as to carry out bagging treatment on the flexible board stacking.

Specifically, a bag feeding station is further arranged on the frame 1, the bag feeding station is positioned behind the bag pushing station, the bag feeding mechanism 4 comprises a bag feeding supporting component 41 and a pushing component 42, and the bag feeding supporting component 41 is movably arranged at the bag pushing station and can be used for placing soft board piles conveyed out by the reversing mechanism 3; the pushing component 42 is movably arranged on the frame 1 and is used for pushing the flexible board stacks on the bag-entering supporting component 41 into the packaging bags at the bag-entering station, so that the flexible board stacks are packaged in a bagging mode.

Preferably, the flexible board packaging device 100 further comprises a bag supporting mechanism, wherein the bag supporting mechanism comprises a bag supporting platform, and the height of the bag supporting platform is higher than the height of a transfer plane of the material transfer mechanism 5, so that the pushing assembly 42 is convenient for pushing materials; the bag-entering supporting component 41 comprises two groups of roller groups, the two groups of roller groups are arranged at intervals along the longitudinal direction of the frame 1, each group of roller groups comprises a plurality of second conveying rollers 411 which are rotatably arranged on the frame 1, the plurality of second conveying rollers 411 in each group of roller groups are arranged at intervals side by side along the transverse direction of the frame 1, and the two groups of roller groups all have movable strokes along the up-down direction of the frame 1. When pushing, the conveying surface of the bag-in supporting component 41 can be driven to be flush with the bag-supporting platform, so that the soft board stacking material is opposite to the bag mouth of the packaging bag positioned at the bag-supporting platform, and then the soft board stacking material is pushed by the pushing component 42, so that the soft board stacking material is loaded into the packaging bag.

Further, the pushing assembly 42 includes a first pushing structure 421 and a second pushing structure 422, the first pushing structure 421 is used for pushing the flexible board stack on the bag supporting assembly 41 into the packaging bag on the bag supporting platform, and making at least part of the flexible board stack enter the packaging bag, so that at least part of the flexible board stack is exposed outside the packaging bag, the second pushing structure 422 is disposed on one side of the bag supporting assembly 41, and is used for pushing the flexible board stack on the bag supporting platform again, so that the flexible board stack completely enters the packaging bag, wherein a desiccant or other accessories can be placed in the packaging bag between the two pushing intervals, so as to ensure that the flexible board is packaged well.

Preferably, the first pushing structure 421 includes a first pushing block and a first pushing driver connected to the first pushing block, where the first pushing block is movably disposed between two sets of roller sets along a lateral direction of the frame 1, so as to push the flexible board stacking from the middle portion, so that a pushing effect is better; the second pushing structure 422 includes a second pushing block and a second pushing driver connected to the second pushing block, where the second pushing block has a reciprocating motion along a longitudinal direction of the frame 1 and has a reciprocating motion along a transverse direction of the frame 1, and when the first pushing block pushes the soft board, the second pushing block is located at one side to avoid, and after the first pushing block pushes, the whole bag-entering supporting component 41 moves down to an initial position again, so that the second pushing block moves into the pushing area again, and pushes the soft board stack along the transverse direction of the frame 1, so that the soft board stack is completely filled into the packaging bag.

Of course, after the soft board stacking material is completely filled into the packaging bag, the packaging bag can be further vacuumized through the suction device, and then the bag opening of the packaging bag is packaged through the bag sealing mechanism, so that the soft board stacking material is completely sealed and reliable.

In addition, the flexible board packaging device 100 may further include a labeling mechanism, wherein the labeling mechanism may be located above the reversing station, and after the flexible board stacking is bound, a label may be attached to the upper surface of the flexible board stacking through the labeling mechanism, and the label may be a two-dimensional code and/or product information of the flexible board stacking, so that subsequent maintenance is facilitated after bagging.

In addition, the flexible board packaging device 100 can further comprise a blanking mechanism 6, and the bagged and sealed flexible board product can be moved out of the material transferring mechanism 5 through the blanking mechanism 6 to be placed in a storage trolley or a collection container for centralized processing.

It will be apparent that the embodiments described above are merely some, but not all, embodiments of the utility model. Based on the embodiments of the present utility model, those skilled in the art may make other different changes or modifications without making any creative effort, which shall fall within the protection scope of the present utility model.

Claims (10)

1. A flexible board packaging apparatus, comprising:

The machine frame is sequentially provided with a binding belt station, a reversing station and a bag pushing station;

The binding belt mechanism is arranged on the frame and corresponds to the binding belt station, and is used for binding a binding belt on the outer peripheral side of the flexible plate stacker;

The reversing mechanism is arranged on the frame and is positioned at the reversing station, and is used for switching the flexible board stacks which are transversely conveyed to the reversing mechanism along the frame to be longitudinally arranged along the frame and transferring the flexible board stacks longitudinally arranged along the frame to the binding station;

The bagging mechanism is arranged on the frame and positioned at the bag pushing station and is used for loading the flexible board stacks bound by the binding belt mechanism into a packaging bag;

The material transfer mechanism is arranged on the frame and used for sequentially transferring the flexible board stockpiles among the binding band station, the reversing station and the bag pushing station.

2. The flexible board packaging device as claimed in claim 1, wherein the reversing mechanism includes:

The conveying structure is arranged on the frame and at least can be used for conveying the flexible board stacks from the reversing station to the binding station;

The reversing bracket is provided with a movable stroke along the up-down direction of the frame and a rotating stroke along the horizontal direction of the frame, and has a first working state which is flush with the conveying surface of the conveying structure and a second working state which is higher than the conveying structure, and when the reversing bracket is in the second working state, the reversing bracket can rotate relative to the frame;

and the reversing driving structure is connected with the conveying structure and the reversing bracket.

3. The flexible board packaging device as claimed in claim 2, wherein the conveying structure comprises a plurality of first conveying rollers rotatably arranged on the frame, wherein the plurality of first conveying rollers are arranged at intervals side by side along the transverse direction of the frame, the rotation directions of the plurality of first conveying rollers are consistent, and the plurality of first conveying rollers can rotate along a first direction and a second direction, and the first direction is opposite to the second direction;

The reversing support comprises a first support rod, a second support rod and a rotating shaft, wherein the first support rod and the second support rod are arranged in a crossing mode, the rotating shaft is connected to the intersection of the first support rod and the second support rod, the rotating shaft extends along the up-down direction of the frame, the first support rod extends along the transverse direction of the frame, and the second support rod extends along the longitudinal direction of the frame;

The reversing driving structure comprises a first driving piece and a second driving piece, wherein the first driving piece is connected with at least one first conveying roller and used for driving a plurality of first conveying rollers to rotate, and the second driving piece is connected with the rotating shaft and used for driving the rotating shaft to move along the up-down direction of the frame and driving the rotating shaft to rotate.

4. The flexible board packing apparatus as claimed in claim 3, wherein the second driving member includes a first driver, a lifting table connected to the reversing driving structure, and a second driver provided on the lifting table, the rotation shaft is rotatably provided on the lifting table, the first driver is provided on the frame for driving the lifting table to move in an up-down direction of the frame, and the second driver is connected to the rotation shaft for driving the rotation shaft to rotate.

5. The flexible board packaging device as claimed in claim 2, wherein the reversing mechanism further comprises a positioning structure movably disposed on the frame, the positioning structure being adapted to urge the flexible board stacks to be placed in alignment on the reversing frame.

6. The flexible board packaging device as claimed in claim 5, wherein the positioning structure comprises:

The two locating clamping plates are arranged at opposite intervals along the longitudinal direction of the frame and are provided with movable strokes which are close to each other and far away from each other, and the two locating clamping plates are positioned above the conveying surface of the conveying structure;

And the positioning driver is arranged on the frame and connected with the two positioning clamping plates and used for driving the two positioning clamping plates to be close to or far away from each other.

7. The flexible board packaging device as claimed in claim 1, wherein a bagging station is further provided on the frame, the bagging station being located after the bag pushing station, the bagging mechanism comprising:

The bag-entering supporting component is movably arranged at the bag-pushing station and can be used for placing soft board piles which are transmitted by the reversing mechanism;

The pushing assembly is movably arranged on the frame and used for pushing the soft board stacks on the bag-entering supporting assembly into the packaging bags at the bag-entering station.

8. The flexible sheet bagging apparatus of claim 7, further comprising a bagging mechanism comprising a bagging platform disposed at a height above a transfer plane of the material transfer mechanism;

The bag entering supporting assembly comprises two groups of roller groups, the two groups of roller groups are arranged at intervals along the longitudinal direction of the frame, each group of roller groups comprises a plurality of second conveying rollers which are rotationally arranged on the frame, each group of roller groups is provided with a plurality of second conveying rollers which are arranged at intervals along the transverse direction of the frame side by side, and the two groups of roller groups are provided with movable strokes along the up-down direction of the frame.

9. The flexible sheet bagging apparatus of claim 8, wherein the pushing assembly includes a first pushing structure for pushing the flexible sheet stack on the bag-in support assembly into the bag on the bag-in support platform and causing at least a portion of the flexible sheet stack to enter the bag, and a second pushing structure provided on a side of the bag-in support assembly for pushing the flexible sheet stack on the bag-in support platform again so that the flexible sheet stack completely enters the bag.

10. The flexible board packaging device as claimed in claim 9, wherein the first pushing structure comprises a first pushing block and a first pushing driver connected with the first pushing block, and the first pushing block is movably arranged between two sets of intervals of the roller set along the transverse direction of the frame;

the second pushing structure comprises a second pushing block and a second pushing driver connected with the second pushing block, wherein the second pushing block is provided with a reciprocating movement stroke along the longitudinal direction of the frame and a reciprocating movement stroke along the transverse direction of the frame.