CN117085976A - Panel divides material transportation storage all-in-one and divides material transportation storage system thereof - Google Patents

Abstract

The application relates to the technical field of plate material transportation, material distribution and storage, in particular to a plate material transportation, material distribution, material storage integrated machine and a material distribution, transportation and storage system thereof, which comprises: the plate conveying plate surface is used for conveying plates with different sizes and grids; the plate material separating box comprises a plate material feeding surface and a plate material discharging surface; the tail end of the plate conveying plate surface is close to the plate feeding surface, and a plate pressing mechanism is arranged at the plate feeding surface and used for pressing the plates in transportation; the inside of this panel divides workbin is equipped with panel and divides flitch face and panel storage face, and this first elevating system control this panel divides the elevating height at flitch face top, and this second elevating system control this panel storage face's elevating height. According to the scheme provided by the application, the plates with different models and sizes can be transported, separated and stored, so that the production efficiency of the plates is improved.

Description

Panel divides material transportation storage all-in-one and divides material transportation storage system thereof

Technical Field

The application relates to the technical field of plate material transportation, material distribution and storage, in particular to a plate material transportation, material distribution, material storage all-in-one machine and a material distribution, transportation and storage system thereof.

Background

The plate is a flat rectangular building material plate with standard size, is widely applied to the building industry, and is mainly used as a member of a wall, a ceiling or a floor; the metal plate is also a metal plate formed by forging, rolling or casting, and is divided according to the thickness of the plate, and can be divided into a thin plate, a middle plate, a thick plate and an extra-thick plate; typically, the panels are often flat rectangular sheets of building material of standard size; in addition, the plates are generally produced by plate manufacturing equipment in the manufacturing process, even one piece of equipment can produce plates with different sizes and different shapes, and after the plates with different sizes and shapes are produced by the manufacturing equipment, the produced plates are often required to be moved so as to prevent the plates with different types from being stacked at the outlet of the moving manufacturing equipment and further damage the plates.

At present, different types of plates produced by plate manufacturing equipment are often moved in a manual carrying mode, meanwhile, plates with different sizes and shapes are required to be respectively classified one by one, the classified plates are respectively packaged or processed, and finally, the packaged or processed plates are uniformly placed, so that the plates are completely processed, moved and classified; however, the plates with different sizes and shapes are moved and classified in a manual pairing mode, so that the efficiency is low, the plates are extremely easy to accumulate, the plates which are just produced are damaged, and the production efficiency and quality of the plates are greatly reduced; meanwhile, for carrying and classifying workers, the workers need to be on the station, so that the workers are tired easily, and finally the loss of the workers at the station is serious.

In addition, various automatic plate conveying devices exist in the current market, and in the existing automatic plate conveying devices, plates can be conveyed only, classification and stock can not be performed, so that when the plates are classified, manual classification is required, and comprehensive automation can not be realized; for example, the patent name of China patent with the publication number of CN214692057U is a landing rail gantry type plate loading and unloading machine, a suction disc frame is arranged on a gantry type movable frame through a lifting mechanism, a suction disc is arranged on the suction disc frame, a landing machine base is arranged below the gantry type movable frame, the gantry type movable frame is connected to the landing machine base in a sliding manner, a translation driving device is arranged between the landing machine base and the gantry type movable frame, the translation driving device drives the gantry type movable frame to slide along the landing machine base, loading and unloading are automatically achieved, the manner can facilitate a girder crane or forklift to transfer plates from a loading station of a production line, and automatic moving is achieved, but the equipment can only move plates with the same shape and size, and can not actually classify and store plates with different shapes and sizes, and the application range is limited.

Therefore, how to automatically integrate the produced boards for material distribution, transportation and storage is a problem to be solved by the current technicians.

Disclosure of Invention

In order to overcome the problems in the related art, the application provides the plate material distribution, transportation and storage integrated machine which can distribute and store various types of plate materials transported by the plate material conveying plate surface, improves the production efficiency of the plate materials, can overcome the phenomenon that the plate materials with different sizes are stacked to damage the appearance of the plate materials while providing the plate material transportation efficiency, and finally realizes the production of the plate material automatic integrated transportation, distribution and storage.

In order to achieve the above object, the present application provides in a first aspect a sheet material separating, transporting and storing integrated machine, comprising:

the plate conveying plate surface is used for conveying plates with different sizes and grids; the plate material separating box comprises a plate material feeding surface and a plate material discharging surface, wherein the plate material discharging surface is used for connecting the plate material separating box or the plate material storing box; the tail end of the plate conveying plate surface is close to the plate feeding surface, and a plate pressing mechanism is arranged at the plate feeding surface and used for pressing the plates in transportation; the inside of this panel divides workbin is equipped with panel and divides flitch face and panel storage face, and this first elevating system control this panel divides the elevating height at flitch face top, and this second elevating system control this panel storage face's elevating height.

Preferably, the plate pushing mechanism comprises a connecting plate, a fixed cross rod, a movable plate and a pushing device, wherein the movable plate is fixed on the fixed cross rod, the movable plate is positioned above the connecting plate, one end of the connecting plate is in butt joint with the plate conveying surface, the other end of the connecting plate is in close contact with the plate feeding surface, and the pushing device controls the rotation angle of the fixed cross rod; at least 2 groups of sliding wheels are arranged on one surface of the movable plate facing the connecting plate, the 2 groups of sliding wheels are located in the plate material distributing box, the connecting plate is located outside the plate material distributing box, and the connecting plate is located between the plate material distributing plate surface and the plate material storage plate surface.

Preferably, the device also comprises a plate feeding rail, a plate conveying rail, a rail lifting mechanism and a waste storage frame body, wherein the waste storage frame body comprises a supporting side frame and a waste storage frame; the plate conveying plate surface is positioned between the two guide rails of the plate conveying rail, and the included angle between the plate conveying plate surface and the plate feeding surface is an acute angle; the tail end of the plate feeding rail is close to the starting end of the plate conveying plate surface, the rail lifting mechanism controls the lifting height of the starting end of the plate conveying rail, the tail end of the plate conveying rail is hinged with the supporting side frame, the waste storage rack is located below the plate conveying rail, and the waste storage rack is used for storing plates which cannot pass through the plate conveying rail.

Preferably, the device further comprises a plate material separating bracket, wherein at least two conveying belts are arranged on the plate material separating bracket, the surface of the conveying belt is covered by the plate material separating plate surface, and the conveying direction of the conveying belt is perpendicular to the plate material feeding surface; the tail end of the plate material separating bracket is hinged to one side close to the plate material discharging surface, and the first lifting mechanism controls the lifting height of the starting end of the plate material separating bracket.

Preferably, the plate storage device further comprises a plate storage rail, wherein the plate storage plate surface is positioned between two guide rails of the plate storage rail, and a plurality of rotating rollers are uniformly arranged between the two guide rails of the plate storage rail; the plate storage plate surface is covered on the rotating roller, and the sliding direction of the plate storage plate surface is perpendicular to the lifting direction of the plate material separating plate surface.

Preferably, the pushing device comprises a pushing component and a movable connecting piece, one end of the movable connecting piece is fixedly connected with the fixed cross rod, the other end of the movable connecting piece is hinged with the telescopic rod of the pushing component, the cylinder body of the pushing component is fixed on the plate material separating box body, and the axis of the fixed cross rod is positioned on the plate material feeding surface.

Preferably, a plate feeding plane is arranged between two guide rails of the plate feeding track, the plate feeding plane is used for conveying plates with different sizes to be detected and classified, and the tail end of the plate feeding plane is intersected with the plate conveying plate surface; the surface of the waste storage rack is parallel to the plate feeding plane, and the included angle between the plate conveying plate surface and the surface of the waste storage rack is an acute angle.

Preferably, the second lifting mechanisms are at least provided with 2, and the 2 second lifting mechanisms respectively control the two ends of the plate storage rail to synchronously lift, the 2 second lifting mechanisms are all fixed above the plate storage rail, one second lifting mechanism is close to the tail end of the plate storage rail, and the other second lifting mechanism is close to the starting end of the plate storage rail.

Preferably, the second lifting mechanism comprises a pushing component, a first chain, a second chain, a first gear and a second gear, one end of the first chain is fixedly connected with one guide rail of the plate storage rail, the other end of the first chain is fixedly connected with a pushing rod of the pushing component, and the first chain is meshed with the second gear; one end of the second chain is fixedly connected with the other guide rail of the plate storage rail, and the other end of the second chain is fixedly connected with the pushing rod of the pushing assembly; the second chain is sequentially meshed with the first gear and the second gear, and the rotation directions of the first gear and the second gear are opposite; the first gear is fixed above one guide rail of the plate storage rail, the second gear is fixed above the other guide rail of the plate storage rail, and the central section of the first gear and the central section of the second gear are located on the same plane.

Preferably, when the number of the plate material separating boxes is 2, the two plate material separating boxes are adjacent, and the plate material discharging surface of one plate material separating box corresponds to the plate material feeding surface of the other plate material separating box, and the plate material discharging surface of the other plate material separating box is used for corresponding to the plate material storing box.

Preferably, the plate separating box further comprises a plate moving surface, the plate feeding surface is opposite to the plate discharging surface, the plate moving surface is adjacent to the plate feeding surface and the plate discharging surface, the lifting direction of the first lifting mechanism is parallel to the plate moving surface, and the plate moving surface is used for removing plates stacked on the plate storage plate surface for moving.

The present application also provides in a second aspect a sheet material dispensing, transporting and storing system comprising:

the plate material separating, transporting and storing integrated machine comprises a plate material storage box and a third lifting mechanism; a plate stacking rail is arranged in the plate storage box, the third lifting mechanism controls the lifting height of the plate stacking rail, and a plurality of rollers are arranged between two guide rails of the plate stacking rail; the plate storage box comprises a first storage surface and a second storage surface, wherein the plate discharge surface faces the first storage surface, and the second storage surface is used for taking away plates of the same type placed on the plate stacking track; the first storage surface is provided with a storage pressing mechanism, and the storage pressing mechanism is consistent with the plate pressing mechanism in structure and is used for pressing plates on the plate dividing plate surface.

The technical scheme provided by the application can comprise the following beneficial effects:

in the technical scheme, through setting up panel conveying face, a first elevating system, a second elevating system and at least 1 panel material dividing box, the detected and qualified panel is conveyed to the panel material feeding face of the panel material dividing box through the panel conveying face, meanwhile, a panel material pressing mechanism is set at the panel material feeding face, the panel material discharging face of the panel material dividing box is connected with the panel material dividing box or connected with the panel material storing box, the panel material in the process of being conveyed by the panel material conveying face is pressed down through the panel material pressing mechanism, meanwhile, the tail end of the panel material conveying face is close to the panel material feeding face, meanwhile, the panel material dividing face and the panel material storing face are set in the panel material dividing box, the panels with different sizes and grids are conveyed to the panel material feeding face through the panel material conveying face, then the elevation of the panel material dividing face initial end is controlled through the first elevating system, and the elevation of the panel material storing face is controlled through the second elevating system; when the transported plate is determined to be the plate type which is not required to be stored on the plate storage surface (namely, when the plate is still required to be separated), the plate separation plate surface is controlled to descend through the first lifting mechanism, so that the end face of the plate separation plate surface is flush with the end face of the plate conveying plate surface, then the plate end point in transportation is controlled through the plate pushing mechanism, the plate pushing mechanism can separate the plate entering from the plate feeding surface through the plate separation plate surface, and enters the next plate separation box or plate storage box from the plate discharging surface, and the plate of the type is stored through the plate separation box or the plate storage box; when the transported plate is detected to be the plate type of the plate storage plate surface to be stored (namely, when the plate needs to be stored), the plate storage plate surface is controlled to ascend through the second lifting mechanism, so that the end face of the plate storage plate surface is level with the end face of the plate conveying plate surface, the plate material distributing plate surface is controlled to ascend through the first lifting mechanism, and then the plate material pushing mechanism is used for pushing down, so that the target plate material to be stored enters the plate storage plate surface, the plate material with the size is stacked and stored on the plate storage plate surface, and the plate material with the same size is stored; therefore, this technical scheme is through foretell setting, can carry the various model panels of panel transportation to panel to divide material and store, improves the production efficiency of panel, and when providing panel transportation efficiency, can also overcome not unidimensional panel and take place to pile up the phenomenon of damaging the panel appearance and appear, finally realizes the production to panel automation integration's transportation, divide material and store.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application as claimed.

Drawings

The foregoing and other objects, features and advantages of the application will be apparent from the following more particular descriptions of exemplary embodiments of the application as illustrated in the accompanying drawings wherein like reference numbers generally represent like parts throughout the exemplary embodiments of the application.

Fig. 1 is a schematic structural view of a plate material separating, transporting and storing integrated machine according to an embodiment of the present application;

FIG. 2 is a schematic side view of a plate material separating, transporting and storing integrated machine according to an embodiment of the present application;

FIG. 3 is another schematic structural view of a plate material separating, transporting and storing integrated machine according to an embodiment of the present application;

FIG. 4 is a schematic view of a plate pressing mechanism according to an embodiment of the present application;

in the figure: a board conveying board surface 10; a first elevating mechanism 20; a second lifting mechanism 30, a pushing assembly 31, a first chain 32, a second chain 33, a first gear 34, and a second gear 35; a plate material separating box 40, a plate material feeding surface 41, a plate material discharging surface 42, a plate material moving surface 43, a plate material separating plate surface 47 and a plate material storing plate surface 48; a plate material storage box 50, a plate material stacking rail 51, a roller 52, a first material storage surface 53 and a second material storage surface 54; the plate pushing mechanism 60, the connecting plate 61, the fixed cross bar 62, the movable plate 63, the pushing device 64, the pushing assembly 641, the movable connecting piece 642, the sliding wheel 65 and the driving roll shaft 66; a plate material feeding rail 70, a plate material feeding plane 71; a board conveying rail 80; a rail lifting mechanism 90; a waste storage frame 100 supporting the side frame 101 and a waste storage rack 102; a plate material separating bracket 103 and a conveying belt 104; a sheet storage rail 110, a rotating roller 111; a stock-pressing mechanism 120; and a third elevating mechanism 130.

Detailed Description

Preferred embodiments of the present application will be described in more detail below with reference to the accompanying drawings. While the preferred embodiments of the present application are shown in the drawings, it should be understood that the present application may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the application to those skilled in the art.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in this specification and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any or all possible combinations of one or more of the associated listed items.

It will be understood that when an element is referred to as being "mounted" or "disposed" on another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

In the description of the present application, it should be understood that the terms "thickness," "upper," "lower," "front," "rear," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the application and simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the application.

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art according to the specific circumstances.

The following describes the technical scheme of the embodiment of the present application in detail with reference to the accompanying drawings.

Referring to fig. 1 to 4, the plate material separating, transporting and storing integrated machine comprises:

a board conveying board surface 10, a first lifting mechanism 20, a second lifting mechanism 30 and at least 1 board material separating box 40, wherein the board conveying board surface 10 is used for conveying boards with different sizes and grids; the plate material separating box body 40 comprises a plate material feeding surface 41 and a plate material discharging surface 42, and the plate material discharging surface 42 is used for connecting the plate material separating box body 40 or the plate material storing box body 50; the tail end of the plate conveying plate surface 10 is close to the plate feeding surface 41, a plate pressing mechanism 60 is arranged at the plate feeding surface 41, and the plate pressing mechanism 60 is used for pressing the plates in transportation; the inside of panel divides the workbin 40 is equipped with panel and divides flitch 47 and panel storage face 48, first elevating system 20 control the lift height of panel divides flitch 47, second elevating system control the lift height of panel storage face 48.

Specifically, the plate pushing mechanism 60 includes a connecting plate 61, a fixed cross bar 62, a movable plate 63, and a pushing device 64, where the movable plate 63 is fixed on the fixed cross bar 62, the movable plate 63 is located above the connecting plate 61, one end of the connecting plate 61 is in butt joint with the plate conveying surface 10, the other end is close to the plate feeding surface 41, and the pushing device 64 controls the rotation angle of the fixed cross bar 62; at least 2 groups of sliding wheels 65 are arranged on one surface of the movable plate 63 facing the connecting plate 61, and 2 groups of sliding wheels 65 are all positioned in the plate material separating box 40, and the connecting plate 61 is positioned outside the plate material separating box 40.

Specifically, the device also comprises a plate feeding rail 70, a plate conveying rail 80, a rail lifting mechanism 90 and a waste storage frame 100, wherein the waste storage frame 100 comprises a supporting side frame 101 and a waste storage frame 102; the plate conveying plate surface 10 is positioned between two guide rails of the plate conveying rail 80, and an included angle between the plate conveying plate surface 10 and the plate feeding surface 41 is an acute angle; the tail end of the plate feeding rail 70 is close to the starting end of the plate conveying plate surface 10, the rail lifting mechanism 90 controls the lifting height of the starting end of the plate conveying rail 80, the tail end of the plate conveying rail 80 is hinged to the supporting side frame 101, the waste storage rack 102 is located below the plate conveying rail 80, and the waste storage rack 102 is used for storing unqualified plates.

Specifically, the device further comprises a plate material distributing support 103, at least two conveying belts 104 are arranged on the plate material distributing support 103, the plate material distributing plate surface 47 is covered on the surface of the conveying belts 104, and the conveying direction of the conveying belts 104 is perpendicular to the plate material feeding surface 41; the tail end of the plate material distributing support 103 is hinged to one side close to the plate material discharging surface 42, and the first lifting mechanism 20 controls the lifting height of the starting end of the plate material distributing support 103.

Specifically, the plate storage rail 110 further comprises a plate storage plate 48 located between two guide rails of the plate storage rail 110, and a plurality of rotating rollers 111 are uniformly arranged between the two guide rails of the plate storage rail 110; the rotating roller 111 is covered with the plate storage plate 48, and the sliding direction of the plate storage plate 48 is perpendicular to the lifting direction of the plate separating plate 47.

Specifically, the pushing device 64 includes a pushing assembly 641 and a movable connecting member 642, one end of the movable connecting member 642 is fixedly connected with the fixed cross rod 62, the other end is hinged to a telescopic rod of the pushing assembly 641, a cylinder of the pushing assembly 641 is fixed on the plate material separating box 40, and an axis of the fixed cross rod 62 is located on the plate material feeding surface 41.

Specifically, a plate feeding plane 71 is disposed between two guide rails of the plate feeding rail 70, the plate feeding plane 71 is used for transporting plates with different sizes to be detected and classified, and the tail end of the plate feeding plane 71 intersects with the plate conveying plate surface 10; the surface of the waste storage rack 102 is parallel to the plate feeding plane 71, and the included angle between the plate conveying plate surface 10 and the surface of the waste storage rack 102 is an acute angle.

Specifically, at least 2 second lifting mechanisms 30 are provided, and 2 second lifting mechanisms 30 respectively control two ends of the plate storage rail 110 to synchronously lift, 2 second lifting mechanisms 30 are all fixed above the plate storage rail 110, one second lifting mechanism 30 is close to the tail end of the plate storage rail 110, and the other second lifting mechanism is close to the start end of the plate storage rail 110.

Specifically, the second lifting mechanism 30 includes a pushing assembly 31, a first chain 32, a second chain 33, a first gear 34 and a second gear 35, one end of the first chain 32 is fixedly connected with one of the guide rails of the plate storage rail 110, the other end of the first chain 32 is fixedly connected with a pushing rod of the pushing assembly 31, and the first chain 32 is meshed with the second gear 35; one end of the second chain 33 is fixedly connected with the other guide rail of the plate storing rail 110, and the other end of the second chain 33 is fixedly connected with the pushing rod of the pushing assembly 31; the second chain 33 is sequentially meshed with the first gear 34 and the second gear 35, and the rotation directions of the first gear 34 and the second gear 35 are opposite; wherein the first gear 34 is fixed above one of the guide rails of the plate storing rail 110, the second gear 35 is fixed above the other guide rail of the plate storing rail 110, and the central section of the first gear 34 and the central section of the second gear 35 are located on the same plane.

Specifically, when the number of the plate material separating boxes 40 is 2, the two plate material separating boxes 40 are adjacent, and the plate material discharging surface of one plate material separating box 40 corresponds to the plate material feeding surface of the other plate material separating box 40, and the plate material discharging surface of the other plate material separating box 40 corresponds to the plate material storing box 50.

Specifically, the plate material separating box 40 further includes a plate material moving surface 43, the plate material feeding surface 43 is opposite to the plate material discharging surface 42, the plate material moving surface 43 is adjacent to the plate material feeding surface 41 and the plate material discharging surface 42, the lifting direction of the first lifting mechanism 20 is parallel to the plate material moving surface 43, and the plate material moving surface 43 is used for facilitating a worker or a forklift to move the plate materials stacked on the plate material storage plate 48.

In the first embodiment, in order to realize automation, the boards with different sizes and different shapes are transported, classified and stored, so as to improve the production efficiency of the boards, and ensure that the boards with different sizes and shapes can be efficiently moved or classified and packaged after being produced and manufactured; therefore, the plates of different types can be prevented from being stacked when being moved, and the plates are damaged; therefore, the plate material transporting and storing integrated machine is provided, and the plate material transporting plate surface, the first lifting mechanism, the second lifting mechanism and at least 1 plate material separating box body are arranged, so that plates with different sizes and passing detection can be transported through the plate material transporting plate surface (passing plates refer to plates with no defects on the surface of the plate material, and the passing plates in the process are still plates with different sizes); meanwhile, a plate material feeding surface and a plate material discharging surface are arranged on the plate material distributing box (six surfaces are arranged on the box body structure), the plate material discharging surface is connected with a box body for material storage or material distribution (namely, the plate material distributing box body or the plate material storing box body), the tail end of the plate material conveying plate surface is close to the plate material feeding surface, a plate material pressing mechanism is arranged at the plate material feeding surface, the plate material in transportation is pressed down by the plate material pressing mechanism, the end part of the plate material cannot enter the plate material distributing plate surface or the plate material storing plate surface, the plate material distributing plate surface and the plate material storing plate surface in the plate material distributing box body are respectively controlled to be lifted by a first lifting mechanism and a second lifting mechanism, the plate material is matched with the plate material pressing mechanism to be fed and discharged, and the plate materials with different sizes are classified according to the size, so that automatic integrated plate material transportation, classification and storage are realized.

Notably, the plate material distribution, transportation and storage integrated machine can be used for classifying types according to plate materials, further correspondingly increasing the number of plate material distribution boxes corresponding to the plate materials, and realizing transportation, distribution and storage of various plate materials; the plates are classified by the plate separating plates in each plate separating box, the plates are transported to enter the next plate separating box or the plate storing box, and one plate model corresponding to one plate model is stored by the plate storing plates in the plate separating box, so that the plates with various sizes can be transported, separated and stored integrally; in addition, it is noted that one sheet material separating box can store two types of sheet materials, or can store one type of sheet material and continue to separate the sheet materials; furthermore, through increasing one or more panel storage boards and panel divides the flitch face more in panel divides the workbin, also can increase the panel of storage multiple model to realize dividing the material or storing to the panel of multiple model.

In practical application, in order to facilitate moving the plates with good material distribution, in the embodiment, a plate material distribution plate surface and a plate material storage plate surface are arranged in a plate material distribution box, namely, the plates with different sizes are distributed through the plate material distribution plate surface, so that multifunctional material distribution is realized; the plates with the same model are stored through the plate storage plate surface; when the stacked plates on the plate storage plate surface reach a certain number, the plate material separating plate surface can further continuously convey the plate material conveyed in subsequently to the plate material separating box body of the next plate material to separate the plate material (namely, the above classification step is repeated once, and the above embodiment can be referred to), so that continuous material separation and storage are realized, further, the plate material is ensured not to be interrupted in the conveying process, and the plate material conveying and classifying efficiency is further improved.

For example, in the embodiment, plates with different sizes and grids are transported to a plate feeding surface through a plate conveying surface, then the lifting height of the starting end of a plate distributing plate surface is controlled through a first lifting mechanism, and the lifting height of a plate storing plate surface is controlled through a second lifting mechanism; when the transported plate is detected to be the plate type which is not required to be stored on the plate storage surface (namely, when the plate is required to be separated), the plate separation plate surface is controlled to descend through the first lifting mechanism, so that the end face of the plate separation plate surface is flush with the end face of the plate conveying plate surface, then the plate end point in transportation is controlled through the plate pushing mechanism, the plate pushing mechanism can separate the plate entering from the plate feeding surface through the plate separation plate surface, and enters the next plate separation box or plate storage box from the plate discharging surface, and the plate of the type is stored through the plate separation box or the plate storage box; when the transported plate is detected to be the plate type of the plate storage plate surface to be stored (namely, when the plate needs to be stored), the plate storage plate surface is controlled to ascend through the second lifting mechanism, so that the end face of the plate storage plate surface is level with the end face of the plate conveying plate surface, the plate material distributing plate surface is controlled to ascend through the first lifting mechanism, and then the plate material pushing mechanism is used for pushing down, so that the target plate material to be stored enters the plate storage plate surface, the plate material with the size is stacked and stored on the plate storage plate surface, and the plate material with the same size is stored; therefore, this embodiment one through foretell setting, can carry the various model panels of panel transportation to divide material and store, improve the production efficiency of panel, and when providing panel transportation efficiency, can also overcome that the panel of different sizes takes place to pile up the phenomenon that damages the panel appearance to appear, finally realize the production to the transportation of panel automation integration, divide material and store.

For example, the 3 plate material separating boxes can be arranged, so that the automatic transportation, material separation and storage of the plates with different three types can be realized through the 3 plate material separating boxes, the material separation types and the automatic classification efficiency of the plates are further improved, and meanwhile, the automatic classification of the plates with the same type and shape is more convenient; or through setting up 2 panel feed divider and 1 panel storage box, realize carrying out transportation, feed divider and the automated production of storage to the different panel of three model through 2 panel feed divider and 1 panel storage box, wherein panel storage box is only used for storing the panel, and remaining two panel feed divider both need realize the feed divider transportation to the panel, need realize bearing the task of storing the panel of same model again.

In summary, the technical scheme can classify, transport and store various boards with different models and sizes, and can store boards with different models and sizes by adding the corresponding number of boxes no matter how many kinds of classification are needed; for example, when the number of the plate material separating boxes is 2, two plate material separating boxes are arranged adjacently, the plate material discharging surface of one plate material separating box corresponds to the plate material feeding surface of the other plate material separating box, the plate material discharging surface of the other plate material separating box is used for corresponding to the plate material storing box, and the plate material needing to be separated and stored is transported into the other plate material separating box through the plate material separating plate surface in one plate material separating box for classification or storage, so that the integrated transportation, separation and storage of a plurality of plates with different sizes and types are realized.

In the second embodiment, when the plate conveying plate conveys plates of different sizes and types, due to the fact that the plate conveying plate surface and the plate feeding surface have an inclination angle, and due to the fact that the plate thickness and the plate length are different, when the plates enter the plate separating box body through the plate feeding surface, the plates cannot fall onto the plate separating plate surface or the plate storing plate surface directly, and when the thickness of the plates reaches a certain value, the plates cannot be pushed upwards directly to the inside of the plate separating box body due to the fact that the hardness of the plates is large enough, and then the plates and the plate separating box body are damaged; therefore, in order to realize that the plate is safely and accurately transported to the plate distributing plate surface or the plate storage plate surface in the plate distributing box, the plate pushing mechanism is arranged at the plate feeding surface, and the end part of the plate is pushed down by the plate pushing mechanism, so that the plate can smoothly enter the plate distributing plate surface or the plate storage plate surface.

Specifically, the plate pushing mechanism is set to be a mechanism composed of a connecting plate, a fixed cross rod, a movable plate, a pushing device and the like, the connecting plate is arranged between the plate distributing plate surface and the plate storing plate surface, meanwhile, the movable plate is fixed on the fixed cross rod, so that the movable plate is positioned above the connecting plate, one end of the connecting plate is in butt joint with the plate conveying plate surface, the other end of the connecting plate is close to the plate feeding surface, the pushing device pushes the fixed cross rod to control the rotation angle of the fixed cross rod, finally, 2 groups of sliding wheels are arranged on the surface of the movable plate facing the connecting plate, and the 2 groups of sliding wheels are positioned in the plate distributing box body, and the connecting plate is positioned outside the plate distributing box body; when the pushing device pushes the fixed cross rod, the fixed cross rod swings, 2 sliding wheels are controlled to press downwards, one end of the plate is conveyed downwards through a driving roller shaft below the sliding wheels, the end of the plate enters a plate distributing plate surface or a plate storing plate surface (the plate is still transported, the rear part of the plate also gradually enters a box) at first, and when the rest part of the plate enters the box, the plate can be accurately and effectively placed on the plate distributing plate surface or the plate storing plate surface completely, accurate transportation, classification and storage are realized, abrasion on the surface of the plate can be effectively prevented through the sliding wheels, the plate is effectively limited to enter the plate distributing plate surface or the plate storing plate surface, and the production efficiency of the plate is provided; wherein, the driving roll axle is the part that is used for being in the panel entering panel divides the workbin in-process, for panel transportation power, and this driving roll axle passes through motor control and rotates, if: when the part of the plate entering first enters the plate material separating box and the part of the plate entering after the plate material leaves the plate material conveying plate surface, the plate material conveying plate surface cannot provide driving and conveying power for the plate material, and the plate material completely enters the plate material separating box only by gravity, so that the efficiency is low, the plate material is possibly suspended and clamped, and the production efficiency is further influenced; therefore, the driving roll shaft provides power for the plates at the stage, so that the plates can smoothly enter the plate separating box from the plate conveying plate surface, and the plates are transported, classified and stored rapidly and efficiently.

In addition, it should be noted that, because the transported plate can be a plate of a wooden product or a plate of a metal product, and when the wooden product is transported, the plate has lower ductility than the metal plate, so when the wooden product is transported, the plate pushing mechanism can also effectively prevent the plate from being folded and broken, thereby effectively improving the transportation quality of the plate; for example, in this example, through setting up 2 groups the movable pulley is in the inside of panel divides the workbin, will connect the plate setting in the outside of panel divides the workbin (make connect plate and movable pulley keep relatively far away), when a part of panel enters into the panel and divides the workbin inside, utilize the plate of connection as the fulcrum at panel both ends, push down the tip of panel through the panel pushing down mechanism for the panel can keep relative steady (can not lead to the panel to break directly), then transport gradually through panel transport face, make the tip of panel can get into panel minute flitch face smoothly or panel storage face on, and when its other tip breaks away from the connection plate, the panel just can fall into panel minute flitch face or panel storage face completely, guarantee the integrality of panel, can not be broken.

It should also be noted that, in order to facilitate the pushing device to smoothly control the rotation angle of the fixed rail (the fixed rail is used for fixing the movable plate, two ends of the fixed rail are actually rotatable, and the fixed rail is actually hinged above the connecting plate), the fixed rail can be found to rotate by the pushing device; the pushing device comprises a pushing component and a movable connecting piece, one end of the movable connecting piece is fixedly connected with the fixed cross rod, the other end of the movable connecting piece is hinged (or fixedly connected) with a telescopic rod of the pushing component, and the movable connecting piece is pushed by the pushing component to realize movement; in addition, in this case, the cylinder of the pushing assembly must be fixed on the plate separating box body to ensure that the force can be applied, and at the same time, the axis of the fixed cross rod must be located on the plate feeding surface, so that the connecting plate and the sliding wheel can keep a relatively long distance; the pushing component in this example may be an air cylinder or an electric cylinder.

In the third embodiment, before classifying the passing boards with different sizes and types, the passing boards and the failing boards in transportation are also required to be classified, so that the stored boards are ensured to be passing boards before, the automation degree is improved, and the production efficiency of the boards is improved; therefore, before the plate conveying plate surface conveys plates with different sizes and passing through the plate material separating box body or the plate material storing box body, the plates are required to be classified into passing through and failing through before being conveyed through the plate material conveying plate surface; for example:

The plate material transporting and storing integrated machine is further provided with a plate material feeding track, a plate material conveying track, a track lifting mechanism and a waste material storing frame body, wherein the waste material storing frame body comprises a supporting side frame and a waste material storing frame; according to the plate conveying device, the plate conveying plate surface is arranged between the two guide rails of the plate conveying rail, and the included angle between the plate conveying plate surface and the plate feeding surface is an acute angle, so that plates can be smoothly conveyed into the plate distributing box, and the plates which are not qualified can be classified; for this reason, in this example, the tail end of the plate feeding rail is set to be close to the start end of the plate conveying surface, the lifting height of the start end of the plate conveying rail is controlled by the rail lifting mechanism, and the tail end of the plate conveying rail is hinged with the supporting side frame, so that the waste storage rack is located below the plate conveying rail; when workman personnel or check out test set find that panel on the panel material loading track is broken panel, rise through control track lifting mechanism, carry orbital top lifting with panel, then panel material loading track continues to transport and break away from its orbital terminal with the panel of failing, under its inertia and gravity's effect, the failing panel just falls into be used for depositing the failing panel on the waste material storage rack to realize going on passing to the panel and the sorting of failing.

In addition, in the process of transporting the plates, in order to save the use of a motor or an air cylinder and further reduce energy consumption, the parts of the mechanism in the embodiment often fall into a target area by utilizing the self gravity of the plates so as to realize material distribution and storage; therefore, in this case, the surface of the waste storage rack needs to be set to be parallel to the plate feeding plane, the included angle between the plate conveying plate surface and the surface of the waste storage rack is set to be an acute angle, and the included angle between the plate conveying plate surface and the plate feeding surface is set to be an acute angle, which is convenient for the automatic integrated transportation and material distribution of the plates, and prevents breakage of the plates caused by overlarge angle between the parts due to the mechanism.

It should be noted that in the embodiment, a plate feeding plane is further arranged between two guide rails of the plate feeding rail, and plates with different sizes to be detected and classified are transported through the plate feeding plane, so that plate type automatic feeding with different sizes and types is realized; moreover, this example is still through will panel loading planar terminal set up with the panel carries the face crossing, will the surface of waste material storage rack set up with panel loading planar parallel, and make panel carry the face with the contained angle on waste material storage rack surface can become the acute angle, furthest reduces the butt joint difference between two tracks, and then guarantees that the panel can not take place to fold.

In addition, the rail lifting mechanism can be an air cylinder or other mechanisms with telescopic functions, such as an electric cylinder and the like; the starting end of the plate conveying rail is pushed to be lifted through the air cylinder, so that the plate which is not passed can fall onto the waste storage rack.

In the fourth embodiment, when the plate material enters the plate material separating box, the plate material separating box is required to separate or store the plate material, and when the plate material is separated, the plate material transported through the plate material separating plate surface also needs to flow out through the plate material discharging surface of the plate material separating box and enter the next plate material separating box or the plate material storing box, and further the plate material is separated and stored, so that the plate material of various different sizes and shapes is classified and stored; for this reason, when the sheet material transported through the sheet material separating plate surface is to be discharged through the sheet material discharging surface of the sheet material separating box, it is also necessary to consider whether the sheet material can be actually and smoothly flowed into the next sheet material separating box or the sheet material storing box without damage, so as to ensure the quality of sheet material transportation.

In order to smoothly flow the plates into the next plate material distributing box or the plate material storing box to realize the re-distribution or storage of the plates, in the embodiment, a plate material distributing bracket is further arranged, 2 conveying belts (2 conveying belts can ensure stable transportation) are arranged on the plate material distributing bracket, the plate material distributing plate surfaces are covered on the surfaces of the conveying belts, a power source is provided for the plate material distributing plate surfaces through the conveying belts, so that the plates are classified again, and when the plates are required to be stored, a plate material storing box can be added, and the plates are conveyed into the plate material storing box to be stored; in addition, in order to ensure that the sheet material enters the next sheet material separating and storing box smoothly, in this case, the conveying direction of the conveying belt is required to be perpendicular to the sheet material feeding surface, meanwhile, the tail end of the sheet material separating bracket is required to be hinged to one side close to the sheet material discharging surface, and the lifting height of the starting end of the sheet material separating bracket is controlled by the first lifting mechanism, so that the sheet material is smoothly fed into the next sheet material separating and storing box; for example, when the plate is on the plate surface, the plate is further transported to the next plate material distributing box or the plate material storing box, and the lifting of the starting end of the plate material distributing bracket is controlled by the first lifting mechanism, so that the plate material can smoothly flow into the plate material distributing box or the plate material storing box along the moving direction of the conveying belt and then is distributed or stored, and the plate material is not damaged; the first lifting mechanism can be an air cylinder, and lifting can be achieved by pulling the starting end of the plate material distributing support through the air cylinder.

In addition, when the same type of plates are stacked on the plate storage plate surface, in order to facilitate the movement of the plates of the same type and improve the operation efficiency of the plate material distributing, transporting and storing integrated machine, in the embodiment, the plate material distributing box is also internally provided with a plate material storage rail, and the synchronous lifting of the plate material storage rail is controlled by a second lifting mechanism, so that the plate material storage plate surface can store more plate materials; for discharging, in this example, the plate storage plate surface is fixed between two guide rails of the plate storage rail, and a plurality of rotating rollers are uniformly arranged between the two guide rails of the plate storage rail, so that the plate storage plate surface covers the rotating rollers, when the plate is fully stacked on the plate storage plate surface, a worker or a manipulator is adopted to pull the plate, so that the fully stacked plate can be easily moved out of the plate separating box, and the operation efficiency is improved; wherein, for preventing that panel storage face from colliding with other parts or structure, this example still will the slip direction of panel storage face set to with the lift direction of panel divide the flitch face is perpendicular, improves the security of panel unloading.

Fifth, in this embodiment, in order to specifically describe how the second lifting mechanism lifts and lowers the board storage rail or the board storage board synchronously, this embodiment will be further described; specifically, the second lifting mechanism in the embodiment can synchronously lift the plate storage rail or the plate storage plate surface under the condition of not influencing the transportation of the plates, so that the integrated normal operation of transportation, material distribution and storage is ensured; for example, in order to achieve synchronous lifting, 2 second lifting mechanisms are provided, two ends of the plate storage rail are respectively controlled to synchronously lift by 2 second lifting mechanisms, the 2 second lifting mechanisms are all fixed above the plate storage rail, one of the second lifting mechanisms is provided near the tail end of the plate storage rail, the other of the second lifting mechanisms is provided near the beginning end of the plate storage rail, and two guide rails of the plate storage rail are synchronously controlled by two second lifting mechanisms to synchronously lift, so that a stable lifting plate storage plate surface is achieved.

Specifically, the two guide rails of the plate storage rail are synchronously controlled to synchronously lift by two second lifting mechanisms, namely the second lifting mechanisms are arranged to be a mechanism consisting of a pushing assembly, a first chain, a second chain, a first gear, a second gear and the like, one end of the first chain is fixedly connected with one guide rail of the plate storage rail, the other end of the first chain is fixedly connected with a pushing rod of the pushing assembly, and meanwhile the first chain is meshed with the first gear; meanwhile, one end of the second chain is fixedly connected with the other guide rail of the plate storage rail, and the other end of the second chain is fixedly connected with the pushing rod of the pushing assembly; simultaneously make the second chain in proper order with first gear with second gear meshing is connected, and make first gear with the rotation direction of second gear is opposite, just can realize the synchronization and go up and down to panel storage track or panel storage face synchronization.

In addition, in order to prevent the parts of the second lifting mechanism from affecting normal transportation and material distribution of the plates, in this example, the first gear is fixed above one guide rail of the plate storage rail, the second gear is fixed above the other guide rail of the plate storage rail, so that the central section of the first gear and the central section of the second gear are positioned on the same plane, the first chain is pulled by the pushing component, the second line is pulled by the first gear, finally, one guide rail of the plate storage rail is pulled by the pushing component, two guide rails of the plate storage rail are pulled by the two pushing components, finally, the two second lifting mechanisms synchronously pull one plate storage rail, and the plate storage rail filled with plates of the same type is ensured to be lifted stably, and normal transportation, classification and storage of the plates are not affected.

Corresponding to the embodiment of the application function implementation method, the application also provides a plate material distribution transportation and storage system and corresponding embodiments.

Referring to fig. 1 to 3, the sheet material-dividing transportation and storage system includes:

the plate material separating, transporting and storing integrated machine according to any one of the above, the plate material storing box 50 and the third lifting mechanism 130; a plate stacking rail 51 is arranged in the plate storage box 50, the third lifting mechanism 130 controls the lifting height of the plate stacking rail 51, and a plurality of rollers 52 are arranged between two guide rails of the plate stacking rail 51; the plate material storage box 50 comprises a first storage surface 53 and a second storage surface 54, the plate material discharging surface 42 faces the first storage surface 53, the first storage surface 53 is adjacent to the second storage surface 54, and the second storage surface 54 is used for facilitating a worker or a forklift to move and take out plates with different shapes placed on the plate material stacking track 51; the first storage surface 53 is provided with a storage pressing mechanism 120, and the storage pressing mechanism 120 is consistent with the plate pressing mechanism 60 in structure.

In the sixth embodiment, another embodiment is provided for automatic integrated material-dividing transportation and storage of the produced boards, so that the application effect of the embodiment is improved, and the original board material-dividing transportation and storage integrated machine is further improved on the basis of the original board material-dividing transportation and storage integrated machine so as to ensure that more boards of different types can be classified and stored.

Specifically, in the embodiment, on the basis of a plate material distributing, transporting and storing integrated machine, a plate material storage box body and a third lifting mechanism are additionally arranged, a plate material stacking rail is arranged in the plate material storage box body, the lifting height of the plate material stacking rail is controlled through the third lifting mechanism, and a plurality of rollers are arranged between two guide rails of the plate material stacking rail; the plate storage box realizes complete storage of one type of plates and does not divide the plates, so that the plates of the same type can be completely filled in the plate storage box.

In order to facilitate the moving of the plates filled with the same type, in this example, a first storage surface and a second storage surface are further arranged on the plate storage box, and the plate discharging surface of the plate material separating box is arranged to face the first storage surface, and the plates of the same type placed on the plate material stacking track are taken away on the second storage surface, so that the plate material discharging efficiency is improved; moreover, in order to ensure that the plate coming out of the plate discharging surface of the plate distributing box can smoothly enter the plate storing box, the plate distributing box is further provided with a storage pushing mechanism on the first storage surface, wherein the storage pushing mechanism is consistent with the plate pushing mechanism of the plate distributing, transporting and storing integrated machine, and the plate on the plate distributing plate is pushed down by the plate pushing mechanism, so that the plate can smoothly fall into the plate stacking track, and the integral plate distributing, transporting and storing system is ensured not to damage the plate passing through.

To sum up, this panel divides material transportation storage system is actually another implementation mode of this panel divides material transportation storage all-in-one to all can divide material and store to panel conveying plate face transportation's various model panel, improve the production efficiency of panel, and when providing panel transportation efficiency, can also overcome that the phenomenon that the panel of equidimension took place to pile up to damage the panel appearance appears, finally realize the production to panel automation integration transportation, divide material and storage.

The specific manner in which the respective modules perform the operations in the apparatus of the above embodiments has been described in detail in the embodiments related to the method, and will not be described in detail herein.

The aspects of the present application have been described in detail hereinabove with reference to the accompanying drawings. In the foregoing embodiments, the descriptions of the embodiments are focused on, and for those portions of one embodiment that are not described in detail, reference may be made to the related descriptions of other embodiments. Those skilled in the art will also appreciate that the acts and modules referred to in the specification are not necessarily required for the present application. In addition, it can be understood that the steps in the method of the embodiment of the present application may be sequentially adjusted, combined and pruned according to actual needs, and the modules in the device of the embodiment of the present application may be combined, divided and pruned according to actual needs.

The foregoing description of embodiments of the application has been presented for purposes of illustration and description, and is not intended to be exhaustive or limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the various embodiments described. The terminology used herein was chosen in order to best explain the principles of the embodiments, the practical application, or the improvement of technology in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein.

Claims (12)

1. The utility model provides a panel divides material transportation storage all-in-one which characterized in that includes:

the plate conveying plate comprises a plate conveying plate surface, a first lifting mechanism, a second lifting mechanism and at least 1 plate material separating box body, wherein the plate conveying plate surface is used for conveying plates with different sizes and grids;

the plate material separating box comprises a plate material feeding surface and a plate material discharging surface, and the plate material discharging surface is used for facilitating the plate materials after discharging and sorting; the tail end of the plate conveying plate surface is close to the plate feeding surface, and a plate pressing mechanism is arranged at the plate feeding surface and used for pressing the plates in transportation;

The inside of panel divides the workbin is equipped with panel and divides flitch face and panel storage face, first elevating system control the elevation height at panel divides flitch face top, second elevating system control the elevation height of panel storage face.

2. The plate material distribution, transportation and storage integrated machine according to claim 1, wherein the plate material pushing mechanism comprises a connecting plate, a fixed cross rod, a movable plate and a pushing device, the movable plate is fixed on the fixed cross rod, and the fixed cross rod is fixed above the connecting plate through a bracket and is close to the plate material feeding surface; the movable plate is positioned between the fixed cross rod and the connecting plate, one end of the connecting plate is in butt joint with the plate conveying surface, the other end of the connecting plate is close to the plate feeding surface, and the pushing device controls the rotation angle of the fixed cross rod; the movable plate faces one face of the connecting plate, at least 2 groups of sliding wheels are arranged on the face of the movable plate, the 2 groups of sliding wheels are located inside the plate material distributing box, the connecting plate is located outside the plate material distributing box, and the connecting plate is located between the plate material distributing plate face and the plate material storing plate face.

3. The plate material distribution, transportation and storage integrated machine according to claim 1, further comprising a plate material feeding rail, a plate material conveying rail, a rail lifting mechanism and a waste storage frame body, wherein the waste storage frame body comprises a supporting side frame and a waste storage frame; the plate conveying plate surface is positioned between the two guide rails of the plate conveying rail, and an included angle between the plate conveying plate surface and the plate feeding surface is an acute angle; the tail end of the plate feeding rail is close to the starting end of the plate conveying plate surface, the rail lifting mechanism controls the lifting height of the starting end of the plate conveying rail, the tail end of the plate conveying rail is hinged to the supporting side frame, the waste storage rack is located below the plate conveying rail, and the waste storage rack is used for storing plates which cannot pass through.

4. The plate material distribution, transportation and storage integrated machine according to claim 1, further comprising a plate material distribution bracket, wherein at least two conveying belts are arranged on the plate material distribution bracket, the plate material distribution plate surface is covered on the surface of the conveying belts, and the conveying direction of the conveying belts is perpendicular to the plate material feeding surface; the tail end of the plate material distributing support is hinged to one side close to the plate material discharging surface, and the first lifting mechanism controls the lifting height of the starting end of the plate material distributing support.

5. The plate material distribution, transportation and storage integrated machine according to claim 1, further comprising a plate material storage rail, wherein the plate material storage plate surface is positioned between two guide rails of the plate material storage rail, and a plurality of rotating rollers are uniformly arranged between the two guide rails of the plate material storage rail; the plate storage plate surface covers the rotating roller, and the sliding direction of the plate storage plate surface is perpendicular to the lifting direction of the plate material distributing plate surface.

6. The plate material separating, transporting and storing all-in-one machine according to claim 2, wherein the pushing device comprises a pushing component and a movable connecting piece, one end of the movable connecting piece is fixedly connected with the fixed cross rod, the other end of the movable connecting piece is hinged with a telescopic rod of the pushing component, a cylinder body of the pushing component is fixed on the plate material separating box body, and an axis of the fixed cross rod is positioned on the plate material feeding surface.

7. A plate material distribution, transportation and storage integrated machine according to claim 3, wherein a plate material feeding plane is arranged between two guide rails of the plate material feeding track, the plate material feeding plane is used for transporting plates with different sizes to be detected and classified, and the tail end of the plate material feeding plane is intersected with the plate material conveying plate surface; the surface of the waste storage rack is parallel to the plate feeding plane, and the included angle between the plate conveying plate surface and the surface of the waste storage rack is an acute angle.

8. The plate material separating, transporting and storing all-in-one machine according to claim 5, wherein at least 2 second lifting mechanisms are arranged, 2 second lifting mechanisms respectively control two ends of the plate material storing rail to synchronously lift, 2 second lifting mechanisms are fixed above the plate material storing rail, one second lifting mechanism is close to the tail end of the plate material storing rail, and the other second lifting mechanism is close to the starting end of the plate material storing rail.

9. The plate material separating, transporting and storing integrated machine according to claim 8, wherein the second lifting mechanism comprises a pushing component, a first chain, a second chain, a first gear and a second gear, one end of the first chain is fixedly connected with one guide rail of the plate material storing rail, the other end of the first chain is fixedly connected with a pushing rod of the pushing component, and the first chain is meshed with the second gear;

one end of the second chain is fixedly connected with the other guide rail of the plate storage rail, and the other end of the second chain is fixedly connected with the pushing rod of the pushing assembly; the second chain is sequentially meshed with the first gear and the second gear, and the rotation directions of the first gear and the second gear are opposite;

The first gear is fixed above one guide rail of the plate storage rail, the second gear is fixed above the other guide rail of the plate storage rail, and the central section of the first gear and the central section of the second gear are located on the same plane.

10. The integrated machine for transporting and storing plate materials according to claim 1, wherein when the number of the plate material separating boxes is 2, two plate material separating boxes are adjacent, the plate material discharging surface of one plate material separating box corresponds to the plate material feeding surface of the other plate material separating box, and the plate material discharging surface of the other plate material separating box is used for corresponding to the plate material storing box.

11. The integrated machine for transporting and storing plate materials according to claim 1, wherein the plate material separating box body further comprises a plate material moving surface, the plate material feeding surface and the plate material discharging surface are arranged opposite to each other, the plate material moving surface is adjacent to the plate material feeding surface and the plate material discharging surface at the same time, the lifting direction of the first lifting mechanism is parallel to the plate material moving surface, and the plate material moving surface is used for facilitating a worker or a forklift to move plate materials stacked on the plate material storing surface.

12. A sheet material dispensing, transporting and storing system, comprising:

the sheet material-dividing, transporting and storing all-in-one machine according to any one of claims 1 to 11, and a sheet material storage bin and a third elevating mechanism;

a plate stacking rail is arranged in the plate storage box, the third lifting mechanism controls the lifting height of the plate stacking rail, and a plurality of rollers are arranged between two guide rails of the plate stacking rail; the plate storage box comprises a first storage surface and a second storage surface, the plate discharge surface faces the first storage surface, and the second storage surface is used for taking away plates of the same type placed on the plate stacking track;

the first storage surface is provided with a storage pressing mechanism, and the storage pressing mechanism is consistent with the plate pressing mechanism in structure and is used for pressing the plate on the first storage surface.