CN115676389B - Mechanism capable of storing large panel and large capacity on line - Google Patents

Abstract

The invention provides a mechanism capable of storing large panels and large capacity on line, which solves the problems of large plate width of glass plates, multiple sheet number load and the like. The invention has the advantages of large storage capacity, stable structure and the like.

Description

Mechanism capable of storing large panel and large capacity on line

Technical Field

The invention belongs to the technical field of transportation and storage, and particularly relates to a mechanism capable of storing large panels and large capacity on line.

Background

In the process layout of an automatic production line in the photovoltaic glass deep processing industry, the function of storing glass on the production line due to production beat or equipment failure is often involved, and the production specification of a product is gradually increased along with the development of the photovoltaic industry; the produced specification and size are changed continuously according to the order requirement. The sheet storage machine is one of connection devices for realizing glass storage, the working performance of the sheet storage machine directly influences the whole line yield level and the whole production rhythm, and the stability of the sheet storage machine directly relates to the economic benefit of a client. However, in the actual storage process, the existing sheet storage machine needs to adopt a manual operation mode to temporarily store and manage the glass sheets, and the glass sheets are easily damaged in the transportation process. In addition, the existing industrial chip storage machine cannot meet the high load requirements of large board width and multiple chips.

In order to solve the defects of the prior art, people have long searched for and put forward various solutions. For example, the chinese patent document discloses a glass sheet storage machine [201420171958.2] comprising a frame, a roller way bar, a plurality of sheet storage shelves for storing glass conveyed by the roller way bar, a lifting mechanism supported on the frame and for driving the sheet storage shelves to ascend or descend, and a power mechanism supported on the frame and for driving the lifting mechanism to move; each stores up the interval interlude of rack and locates in the space between the double-phase adjacent roll table strip, stores up the rack and includes that two parallel arrangement's support longeron and a plurality of intervals are equal and parallel arrangement in the crossbeam between two support longerons, and a plurality of crossbeams separate into a plurality of compartments that are used for saving glass with the space between two support longerons.

The problem that glass is easy to damage in the temporary storage process is solved to a certain extent by the scheme, but the scheme still has a plurality of defects, such as the problems that the requirements of large plate width and multiple pieces of loads cannot be met.

Disclosure of Invention

The invention aims to solve the problems and provides a mechanism which is reasonable in design, can bear large load, can store large panels on line and has large capacity.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides a can save big panel, mechanism of large capacity on line, is including storing up the piece support body, stores up the storage mechanism that piece support body internal portion was provided with range upon range of arrangement from top to bottom, stores up and is provided with sprocket elevating system between piece support body and the storage mechanism, stores up piece support body lower extreme and arranges the pay-off passageway relative with sprocket elevating system, and pay-off passageway internally mounted has transmission device. The transmission mechanism transmits the glass sheets to the sheet storage rack body, the chain wheel lifting mechanism is used for lifting and storing the glass sheets, and the storage mechanism arranged in a stacked mode meets the requirement of large-capacity storage.

In foretell a can on-line storage big panel, the mechanism of large capacity, store up the piece frame body including storing up the piece frame, store up the piece frame and include a main frame body and a plurality of minute framework, store the mechanism and install in main frame body and minute framework, sprocket elevating system installs in main frame body, main frame body and divide to be provided with between the framework and transversely push away the material subassembly. The sub-frame body is expanded according to actual needs, and the glass sheets in the main frame body are conducted into the sub-frame body by the transverse pushing assembly, so that the integral storage capacity of the sheet storage frame body is greatly improved.

In foretell big panel of a kind of can online storage, in the mechanism of large capacity, storage mechanism is including setting up at the inside and upper and lower range upon range of storage board of arranging of minute framework, leave storage clearance and storage board upper end between the storage board and install the storage gyro wheel respectively, the inside both sides of main framework are provided with the storage strip respectively, rotate respectively on the storage strip and install the storage plectrum, slidable mounting has the rack of stirring in the storage strip, stir the rack and rotate the drive of stirring the ring gear meshing in the end outside with the storage plectrum, stir the rack and be connected with the framework of stirring of slidable mounting in main framework both sides, be provided with electric putter between stirring framework and the main framework. The storage mechanism utilizes the storage plate and the storage shifting sheet to support the glass plate, and reduces the load of the chain wheel lifting mechanism in a static state.

In the mechanism capable of storing large panels and large capacity on line, the transverse pushing assembly comprises a pushing groove extending transversely along the sub-frame, pushing blocks are slidably mounted in the pushing groove, pushing plates are connected between the pushing blocks, downward pushing pieces are telescopically mounted in the pushing plates, the pushing blocks and the pushing groove are driven by pushing screws, and an electromagnetic block and an elastic reset piece are arranged between the pushing pieces and the pushing plates; one side of the main frame body far away from the separation frame body is provided with a material pushing strip, and an electric push rod is arranged between the material pushing strip and the main frame body. The transverse pushing assembly controls feeding and discharging between the main frame body and the sub-frame body, and applies pushing force to the middle of the glass plate, so that the pushing requirements of glass sheets with different specifications are met.

In the above-mentioned mechanism that can save big panel, large capacity on line, sprocket elevating system is including rotating the drive sprocket who installs the upper and lower extreme on the storage rack body, and the meshing transmission has drive chain between the drive sprocket, is provided with synchronous drive subassembly between the drive sprocket, and one side that drive chain is relative is provided with the promotion subassembly. The chain wheel lifting mechanism utilizes the synchronous transmission assembly to uniformly lift the glass sheet, and avoids the uneven stress of the chain wheel lifting mechanism from damaging the surface of the glass sheet.

In the mechanism capable of storing large panels and large capacity on line, the synchronous transmission assembly comprises a synchronous gear connected with a transmission chain wheel, the synchronous gear is connected with a synchronous transmission motor through a speed change gear set and a synchronous shaft, a synchronous rod is connected between the centers of the symmetrically arranged transmission chain wheels, and a unidirectional rotation assembly is arranged between the transmission chain wheel and the sheet storage rack body; the unidirectional rotating assembly comprises a unidirectional ratchet fixedly connected with the transmission chain wheel, a unidirectional pawl meshed with the unidirectional ratchet is installed on the sheet storage frame body, the unidirectional pawl and the unidirectional ratchet are arranged in the rotating base, and an elastic resetting piece is arranged between the rotating base and the unidirectional pawl. The unidirectional rotating assembly avoids the glass plate from being separated from the chain wheel lifting mechanism due to rotation in the transmission process, and when the glass sheet needs to be moved out of the sheet storage frame body, the transmission direction of the transmission chain can be controlled by adjusting the meshing direction of the unidirectional pawl.

In foretell big panel of can on-line storage, in the mechanism of large capacity, promote the subassembly including setting up the promotion strip that extends at the storage piece support body inboard and along vertical direction, it has the promotion groove that supplies drive chain to penetrate to promote the strip to open, the equidistance is arranged on the drive chain and is installed the promotion piece with promotion groove block, promote the piece and store up the inside relative one side of piece support body and rotate and be connected with the lifting plate, the promotion piece is opened and is supplied the lifting plate to rotate the promotion groove of connecting, the promotion groove has the promotion step face relative with the lifting plate side. As the lift block slides up and rises in the lift slot, the lift plate remains horizontal and supports the glass sheet.

In foretell mechanism that can save big panel, large capacity on line, the pay-off passageway is provided with the guide subassembly including setting up the delivery sheet at storage rack body lower extreme middle part, delivery sheet both sides, and transmission device installs on the delivery sheet, installs the buffering subassembly between transmission device and the guide subassembly. The feeding channel is connected with the glass plate detection and processing production line, and the temporary storage requirements of different glass plate production lines can be met by adjusting the height of the sheet storage rack body and the height of the feeding channel.

In the mechanism capable of storing large panels and large capacity on line, the material guide assembly comprises material guide plates arranged on two sides of the feeding plate, an electric push rod is arranged between the material guide plates, the telescopic end of the electric push rod is rotatably connected with the material guide plates, and the upper ends of the material guide plates are provided with material guide rollers; the transmission mechanism comprises transmission guide rollers which are rotatably arranged on the feeding plate, a transmission belt is arranged between the transmission guide rollers in a transmission way, and the transmission guide rollers are in meshed transmission with a transmission motor through a transmission gear set. The material guide assembly adjusts the orientation angle of the material guide roller in the glass sheet conveying process, so that the glass sheet is guided to accurately fall, and the edge of the glass sheet is prevented from colliding with the sheet storage rack body.

In foretell mechanism that can big panel of on-line storage, large capacity, the buffering subassembly is including setting up the buffer board at pay-off board and stock guide support, and the buffering strip of a plurality of elasticity materials is installed to the buffer board upper end, and the buffering strip is the arch and arranges along pay-off passageway extending direction equidistance, and the relative pay-off board upper end in buffering strip top is protruding. The buffer component plays a role in buffering the bottom in the process of lifting or falling the glass plate.

Compared with the prior art, the invention has the advantages that: the storage rack body utilizes the chain wheel lifting mechanism and the storage mechanism to store the glass plates transmitted from the feeding channel in a laminating manner, so that the storage requirement of large-capacity glass plates is met; the storage mechanism can expand the specification of the sheet storage rack body, and the main frame body and the sub-frame body are combined according to actual needs to realize three-dimensional storage of glass sheets; the chain wheel lifting assembly can meet the lifting requirements of a plurality of glass sheets at one time, and the temporary storage efficiency of the glass sheets is improved.

Drawings

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

Fig. 2 is a schematic view of the structure of the storage mechanism of the present invention.

Fig. 3 is a schematic view of the structure of the feed channel of the present invention.

FIG. 4 is a schematic view of the synchronous drive assembly of the present invention.

Fig. 5 is a schematic structural view of the unidirectional rotating assembly of the present invention.

Fig. 6 is a partial schematic view of the main frame of the present invention.

Fig. 7 is a structural sectional view of the stripper plate of the present invention.

Fig. 8 is a schematic view of the construction of the lifting assembly of the present invention.

In the figure, the storage rack body 1, the storage rack frame 11, the main frame body 12, the sub frame body 13, the storage mechanism 2, the storage plate 21, the storage gap 22, the storage roller 23, the storage strip 24, the storage plectrum 25, the poking rack 26, the poking toothed ring 27, the poking frame body 28, the sprocket lifting mechanism 3, the transmission sprocket 31, the transmission chain 32, the feeding channel 4, the feeding plate 41, the guide plate 42, the guide roller 43, the transmission guide roller 44, the transmission belt 45, the transmission gear set 46, the transmission motor 47, the transmission mechanism 5, the transverse pushing assembly 6, the pushing groove 61, the pushing block 62, the pushing plate 63, the pushing piece 64, the pushing screw 65, the electromagnetic block 66, the pushing strip 67, the synchronous transmission assembly 7, the synchronous gear 71, the speed change gear set 72, the synchronous shaft 73, the synchronous transmission motor 74, the synchronous rod 75, the unidirectional rotation assembly 76, the unidirectional ratchet 77, the unidirectional ratchet 78, the rotation base 79, the lifting assembly 8, the lifting strip 81, the lifting groove 82, the lifting block 83, the lifting plate 84, the lifting step surface 85, the buffer assembly 9, the buffer plate 92 and the buffer strip 92.

Detailed Description

The invention is described in further detail below with reference to the drawings and the detailed description.

As shown in figure 1, the mechanism capable of storing large panels and large capacity on line comprises a sheet storage frame body 1 arranged on a glass plate production line, wherein the sheet storage frame body 1 is of a frame structure, and the joint of the sheet storage frame body 1 is fixedly assembled in a threaded mode. Store up 1 inside storage mechanism 2 that is provided with range upon range of arrangement from top to bottom of piece support body, when the production line broke down, in order to guarantee that holistic operation is stable, need take in unnecessary glass board temporarily, store up and be provided with sprocket elevating system 3 between piece support body 1 and the storage mechanism 2, sprocket elevating system 3 carries out temporary storage with storage mechanism 2 synchronous start with the glass board, treat that the glass board periodicity with the storage after the production line resumes passes back to the production line. The lower end of the sheet storage rack body 1 is provided with a feeding channel 4 opposite to the chain wheel lifting mechanism 3, the transmission direction of the feeding channel 4 is generally vertical to the transmission direction of a production line, a transmission mechanism 5 is arranged in the feeding channel 4 and is connected with the production line in a switching mode, and the distance between each glass plate and the feeding channel 4 is equal after the glass plates are transmitted by adjusting the transmission speed.

Specifically, the sheet storage frame body 1 comprises a stainless steel sheet storage frame 11 and reinforcing ribs and other structures arranged in the sheet storage frame 11, so that the overall bearing performance is improved. The sheet storage frame 11 comprises a main frame body 12 and a plurality of sub frame bodies 13, wherein the main frame body 12 is connected with a production line, and the rest sub frame bodies 13 are connected with the main frame body 12 in an arrangement mode along the same axial direction. The storage mechanism 2 is arranged in the main frame body 12 and the sub frame body 13 to support the glass plates, the chain wheel lifting mechanism 3 is arranged in the main frame body 12 to vertically lift the glass plates, the transverse pushing assembly 6 is arranged between the main frame body 12 and the sub frame body 13 to horizontally move the glass plates, and the glass plates are stored at equal intervals along the arrangement direction of the sub frame body 13.

As can be seen from fig. 2 and 6, the storage mechanism 2 includes a storage plate 21 disposed inside the sub-frame 13 and stacked up and down, and the sub-frame 13 further has baffles disposed on both sides of the storage plate 21, and the baffles are usually made of transparent material to facilitate observation of the storage state of the glass plate. Storage gaps 22 are reserved among the storage plates 21, storage rollers 23 are mounted at the upper ends of the storage plates 21 respectively, the vertical distance of each storage gap 22 is larger than the thickness of a glass plate, and a layer of glass plate is placed in each layer of storage gap 22 along the horizontal direction. The inside both sides of main frame body 12 are provided with storage strip 24 respectively and storage strip 24 does not directly contact with the glass board, rotate respectively on the storage strip 24 and install storage plectrum 25, slidable mounting has stirring rack 26 in the storage strip 24, stir rack 26 and the meshing transmission of stirring ring gear 27 outside the storage plectrum 25 rotation end, stir rack 26 and slidable mounting are connected at the frame body 28 of stirring of main frame body 12 both sides, stir and be provided with electric putter between frame body 28 and the main frame body 12. Electric putter promotes to stir framework 28 and makes to stir rack 26 and stir the ring gear 27 meshing transmission, and storage plectrum 25 pops out from storage strip 24 thereupon and contacts with glass sheet bottom, and a plurality of storage plectrums 25 disperse the bearing to glass sheet, can accomodate simultaneously and do not influence sprocket elevating system 3 in the storage strip 24 and carry out the elevating movement.

Further, when the sprocket lifting mechanism 3 lifts the glass plate to a specified height, an additional pushing force needs to be applied to push the glass plate from the sub-frame 13 into the main frame 12, or to translate and adjust the storage orientation of the glass plate in the sub-frame 13. The transverse pushing assembly 6 comprises a pushing groove 61 extending transversely along the sub-frame 13, pushing blocks 62 are slidably mounted in the pushing groove 61, pushing plates 63 shown in fig. 7 are connected between the pushing blocks 62, downward pushing pieces 64 are retractably mounted in the pushing plates 63, the pushing blocks 62 and the pushing grooves 61 are driven by pushing screws 65, and an electromagnetic block 66 and an elastic reset piece are arranged between the pushing pieces 64 and the pushing plates 63; when the pushing screw 65 is started, the pushing block 62 slides along the pushing groove 61, and the electromagnetic block 66 is started to push the pushing sheet 64 out of the pushing plate 63, so that the pushing sheet 64 applies pushing torque to the side edge of the glass plate. The side of the main frame body 12, which is far away from the sub-frame body 13, is provided with the pushing strip 67, an electric push rod is arranged between the pushing strip 67 and the main frame body 12, and after the electric push rod is started, the pushing strip 67 is opposite to the storage gap 22 and pushes the glass plate in the sprocket lifting mechanism 3 or the storage mechanism 2 into the sub-frame body 13.

Further, be different from conventional sprocket lift drive structure, sprocket elevating system 3 in this application is including rotating the drive sprocket 31 of installing lower extreme on storing up piece support body 1, as shown in fig. 8, the meshing transmission has drive chain 32 between the drive sprocket 31, be provided with synchronous drive subassembly 7 between the drive sprocket 31, the relative one side of drive chain 32 is provided with promotes subassembly 8, multiunit drive chain 32 and drive sprocket 31 synchronous working, keep the horizontal position stability of each glass board, it provides the strong point for drive chain 32 to promote subassembly 8, thereby drive a plurality of glass boards and go up and down in succession.

As shown in fig. 4-5, if the transmission chain wheel 31 or the transmission chain 32 has a transmission difference, the stress on each stress point of the glass plate is uneven, so that the glass plate topples or cracks, and therefore, the synchronous transmission assembly 7 is assembled between the existing chain wheel structures, and the synchronous lifting of each group of transmission chain wheel 31 and transmission chain 32 is ensured. The synchronous transmission assembly 7 comprises a synchronous gear 71 connected with the transmission chain wheels 31, the synchronous gear 71 is connected with a synchronous transmission motor 74 through a speed change gear set 72 and a synchronous shaft 73, a synchronous rod 75 is connected between the centers of the symmetrically arranged transmission chain wheels 31, a one-way rotating assembly 76 is arranged between the transmission chain wheels 31 and the storage rack body 1, the transmission chain wheels 31 synchronously rotate by utilizing the linkage of the speed change gear set 72, and the requirement of the chain wheel lifting mechanism 3 for driving low-speed and high-torque transmission can be met by a single synchronous transmission motor 74; the unidirectional rotation component 76 comprises a unidirectional ratchet wheel 77 fixedly connected with the transmission chain wheel 31, a unidirectional pawl 78 meshed with the unidirectional ratchet wheel 77 is installed on the sheet storage rack body 1, the unidirectional pawl 78 and the unidirectional ratchet wheel 77 are arranged in a rotation base 79, and an elastic reset piece is arranged between the rotation base 79 and the unidirectional pawl 78. The engagement of the one-way pawl 78 with the one-way pawl 78 is typically selected by electrical control, and the one-way pawl 78 is symmetrically arranged relative to the one-way ratchet wheel 77 and alternatively engaged to ensure the stability of the lifting assembly 8 when the drive chain 32 is at rest.

Meanwhile, the lifting assembly 8 comprises a lifting strip 81 which is arranged on the inner side of the wafer storage frame body 1 and extends along the vertical direction, the lifting strip 81 is provided with a lifting groove 82 for the transmission chain 32 to penetrate, the lifting strip 81 and the lifting groove 82 limit the transmission range of the transmission chain wheel 31, and the deviation in the lifting process is avoided. The transmission chain 32 is provided with lifting blocks 83 which are clamped with the lifting grooves 82 at equal intervals, one side of each lifting block 83 opposite to the inside of the storage rack body 1 is rotatably connected with a lifting plate 84, the lifting block 83 is provided with a lifting groove 82 for the lifting plate 84 to be rotatably connected, and the lifting groove 82 is provided with a lifting step surface 85 opposite to the side surface of the lifting plate 84. When the lifting block 83 is lifted up and down in the lifting groove 82, the lifting plate 84 connected thereto is kept horizontal with respect to the lifting plate 84 and the lifting bar 81 by the lifting plate 84, and the lifting plate 84 connected to the lifting block 83 on the other side of the drive chain 32 naturally sags by gravity, thereby avoiding contact collision with the upper end of the glass sheet.

As shown in fig. 3, two ends of the feeding channel 4 extend outward relative to the storage rack 1, and the feeding speed is controlled by the detection mechanism. The feeding channel 4 comprises a feeding plate 41 arranged in the middle of the lower end of the sheet storage frame body 1, material guiding assemblies are arranged on two sides of the feeding plate 41, the material guiding assemblies are kept standing in a conventional state, and if the detection mechanism senses that the glass plate deviates, the detection mechanism starts to dynamically adjust the direction of the glass plate. The conveying mechanism 5 is installed on the feeding plate 41, the buffering assembly 9 is installed between the conveying mechanism 5 and the material guiding assembly, and when the glass plate falls onto the feeding plate 41, the buffering assembly 9 protects the glass plate.

Obviously, the material guiding assembly comprises material guiding plates 42 arranged at two sides of the feeding plate 41, an electric push rod is arranged between the material guiding plates 42 and the feeding plate 41, the telescopic end of the electric push rod is rotatably connected with the material guiding plates 42, a material guiding roller 43 is arranged at the upper end of the material guiding plates 42, the electric push rod adjusts the material guiding plates 42 to an inclined device, and the material guiding roller 43 at the upper end guides the glass plate towards the middle of the material guiding plates 42 to prevent the edge of the glass plate from contacting with the edge of the feeding channel 4; the transmission mechanism 5 comprises transmission guide rollers 44 rotatably arranged on the feeding plate 41, transmission belts 45 are arranged between the transmission guide rollers 44 in a transmission manner, and the transmission guide rollers 44 are in meshed transmission with a transmission motor 47 through a transmission gear set 46. The conveying belt 45 is used for contacting the surface of the glass plate, so that the contact surface area is larger than that of the conveying guide roller 44, and the conveying stability of the glass plate is improved.

Preferably, when the glass board falls in sprocket elevating system 3 drive, if then take place the damage of colliding with the delivery sheet 41 direct contact easily, conventional buffering position is the damping piece, but this buffering mode can influence the normal removal of glass board on the delivery sheet 41 surface, consequently, buffering subassembly 9 in this application is including setting up the buffer board 91 at delivery sheet 41 and stock guide 42 support, a plurality of elastic material's buffering strip 92 is installed to buffer board 91 upper end, buffering strip 92 is the arch and arranges along the direction of extension equidistance of pay-off passageway 4, the relative delivery sheet 41 upper end in buffering strip 92 top is protruding. Since the elastic buffer strip 92 is in point contact with the glass sheet, it does not affect the self-orientation adjustment of the glass sheet on the feeding plate 41.

In summary, the principle of the present embodiment is: store up piece support body 1 and utilize sprocket elevating system 3 to store the glass piece lifting layering, storage mechanism 2 wherein has expanded the storage specification that stores up piece support body 1 through the translation glass piece, and cooperation pay-off passageway 4 and inside transmission device 5 satisfy the continuous storage demand of big batch glass board.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Although the storage rack 1, the storage rack 11, the main rack 12, the sub-rack 13, the storage mechanism 2, the storage plate 21, the storage gap 22, the storage roller 23, the storage bar 24, the storage paddle 25, the paddle rack 26, the paddle toothed ring 27, the paddle frame 28, the sprocket lifting mechanism 3, the driving sprocket 31, the driving chain 32, the feeding passage 4, the feeding plate 41, the guide plate 42, the guide roller 43, the transmission guide roller 44, the transmission belt 45, the transmission gear set 46, the transmission motor 47, the transmission mechanism 5, the transverse pushing assembly 6, the pushing chute 61, the pushing block 62, the pushing plate 63, the pushing block 64, the pushing lead screw 65, the electromagnetic block 66, the pushing bar 67, the synchronous transmission assembly 7, the synchronous gear 71, the speed gear set 72, the synchronous shaft 73, the synchronous transmission motor 74, the synchronous lever 75, the unidirectional rotation assembly 76, the unidirectional ratchet 77, the unidirectional pawl 78, the unidirectional rotation base 79, the lifting assembly 8, the lifting bar 81, the lifting bar 82, the lifting bar 83, the lifting block 84, the lifting plate 85, the buffer assembly 9, the buffer assembly 91, the buffer plate 92, and other terms are used more, but the possibility is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims (8)

1. A mechanism capable of storing large panels and large capacity on line comprises a sheet storage rack body (1), wherein storage mechanisms (2) which are arranged in a vertically stacked mode are arranged in the sheet storage rack body (1), and a chain wheel lifting mechanism (3) is arranged between the sheet storage rack body (1) and the storage mechanisms (2), and is characterized in that a feeding channel (4) opposite to the chain wheel lifting mechanism (3) is arranged at the lower end of the sheet storage rack body (1), and a transmission mechanism (5) is arranged in the feeding channel (4); the storage rack body (1) comprises a storage frame (11), the storage frame (11) comprises a main frame body (12) and a plurality of sub frame bodies (13), the storage mechanism (2) is installed in the main frame body (12) and the sub frame bodies (13), the chain wheel lifting mechanism (3) is installed in the main frame body (12), and a transverse pushing assembly (6) is arranged between the main frame body (12) and the sub frame bodies (13); storage mechanism (2) including setting up in memory board (21) that divides frame (13) inside and range upon range of arrangement from top to bottom, memory board (21) between leave storage clearance (22) just memory board (21) upper end install storage gyro wheel (23) respectively, main frame (12) inside both sides be provided with storage strip (24) respectively, storage strip (24) on rotate respectively and install storage plectrum (25), storage strip (24) in slidable mounting have stir rack (26), stir rack (26) and storage plectrum (25) rotate the drive of stirring ring gear (27) meshing in the end outside, stir rack (26) and slidable mounting stir frame (28) and be connected in main frame (12) both sides, stir frame (28) and main frame (12) between be provided with electric putter.

2. The mechanism capable of storing large panels and large capacity online according to claim 1, wherein the transverse pushing assembly (6) comprises a pushing slot (61) extending transversely along the sub-frame (13), a pushing block (62) is slidably mounted in the pushing slot (61), a pushing plate (63) is connected between the pushing blocks (62), a downward pushing plate (64) is retractably mounted in the pushing plate (63), the pushing block (62) and the pushing slot (61) are driven by a pushing screw (65), and an electromagnetic block (66) and an elastic restoring member are disposed between the pushing plate (64) and the pushing plate (63); the material pushing device is characterized in that a material pushing strip (67) is arranged on one side, away from the sub-frame body (13), of the main frame body (12), and an electric push rod is arranged between the material pushing strip (67) and the main frame body (12).

3. The mechanism capable of storing large panels and large capacity on line according to claim 1, wherein the sprocket lifting mechanism (3) comprises transmission sprockets (31) rotatably mounted at the upper and lower ends of the sheet storage frame body (1), transmission chains (32) are engaged and driven between the transmission sprockets (31), a synchronous transmission assembly (7) is arranged between the transmission sprockets (31), and a lifting assembly (8) is arranged at the opposite side of the transmission chains (32).

4. A mechanism capable of storing large panels and large capacity on line according to claim 3, wherein the synchronous transmission assembly (7) comprises a synchronous gear (71) connected with the transmission chain wheel (31), the synchronous gear (71) is connected with a synchronous transmission motor (74) through a speed change gear set (72) and a synchronous shaft (73), a synchronous rod (75) is connected between the centers of the symmetrically arranged transmission chain wheels (31), and a unidirectional rotation assembly (76) is arranged between the transmission chain wheel (31) and the storage rack body (1); one-way rotating assembly (76) include with drive sprocket (31) fixed connection's one-way ratchet (77), storage rack body (1) on install with one-way ratchet (77) meshed one-way pawl (78), one-way pawl (78) and one-way ratchet (77) arrange in rotation base (79), rotation base (79) and one-way ratchet (78) between be provided with the elasticity piece that resets.

5. The mechanism capable of storing large panels and large capacity on line according to claim 4, wherein the lifting assembly (8) comprises lifting bars (81) which are arranged on the inner side of the sheet storage rack body (1) and extend along the vertical direction, the lifting bars (81) are provided with lifting grooves (82) for the penetration of the transmission chain (32), the transmission chain (32) is provided with lifting blocks (83) which are clamped with the lifting grooves (82) in an equidistant arrangement, the lifting blocks (83) are rotatably connected with lifting plates (84) on the opposite side of the inner part of the sheet storage rack body (1), the lifting blocks (83) are provided with lifting grooves (82) for the rotatable connection of the lifting plates (84), and the lifting grooves (82) are provided with lifting step surfaces (85) opposite to the side surfaces of the lifting plates (84).

6. The mechanism capable of storing large panels and large capacity on line according to claim 1, wherein the feeding channel (4) comprises a feeding plate (41) arranged in the middle of the lower end of the sheet storage frame body (1), material guiding assemblies are arranged on two sides of the feeding plate (41), the conveying mechanism (5) is installed on the feeding plate (41), and a buffering assembly (9) is installed between the conveying mechanism (5) and the material guiding assemblies.

7. The mechanism capable of storing large panels and large capacity on line according to claim 6, wherein the material guiding assembly comprises material guiding plates (42) installed at two sides of a feeding plate (41), an electric push rod is arranged between the material guiding plates (42) and the feeding plate (41), the telescopic end of the electric push rod is rotatably connected with the material guiding plates (42), and material guiding rollers (43) are installed at the upper ends of the material guiding plates (42); transmission mechanism (5) including rotating transmission deflector roll (44) of installing on delivery sheet (41), transmission deflector roll (44) between the transmission install transmission belt (45), transmission deflector roll (44) through transmission gear train (46) and transmission motor (47) meshing transmission.

8. The mechanism capable of storing large panels and large capacity on line as claimed in claim 7, wherein the buffer assembly (9) comprises a buffer plate (91) disposed on the support of the feeding plate (41) and the material guide plate (42), a plurality of buffer strips (92) made of elastic material are mounted on the upper end of the buffer plate (91), the buffer strips (92) are arranged in an arch shape along the extending direction of the feeding channel (4) at equal intervals, and the tops of the buffer strips (92) are raised relative to the upper end of the feeding plate (41).

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