CN210501639U - Upper bottom plate folding and upper opening demolding station - Google Patents

Abstract

The utility model discloses an upper plate rolls over a mouthful drawing of patterns station belongs to processing equipment for packing technical field, including drawing of patterns installation part, support box part, upper plate part, push away the bottom plate part, turn over the bottom plate part, collude limit part, upper plate border part and drawing of patterns part, drawing of patterns installation part is including drawing of patterns bottom plate, two drawing of patterns curb plates, two upper plate part mounting panels, a plurality of curb plate mounting and two bottom plate part mounting panels, two turn over the top that the bottom plate part mounting panel set up respectively at two upper plate part mounting panels, and is a plurality of the curb plate mount sets up the corner between bottom plate, two drawing of patterns curb plates and two upper plate part mounting panels respectively. The utility model discloses can accurate control wait to process the removal stroke of wine box, can accomplish automatic size through the control between the above-mentioned part and adjust, then can satisfy the wine box operation of drawing of patterns of attached completion, automatic regulation reduces artificial output.

Description

Upper bottom plate folding and upper opening demolding station

Technical Field

The utility model belongs to the technical field of processing equipment for packing technique and specifically relates to an upper plate rolls over suitable for reading drawing of patterns station.

Background

Traditional wine packaging processing machinery, in prior art, wine packaging's forming process generally will be through the lower cover silk screen printing gluing, lower cover hem location, the foxing is pasted to the lower cover, put the centre form, upper cover hem, technological process such as closing cap, and above-mentioned technological process generally adopts the mode of manual molding to realize, not only the shaping is inefficient, and because can be because factors such as operating personnel operating technology level height, operating personnel's operating condition among the manual forming process, in the subsequent handling of wine box processing, need accomplish to carry out the drawing of patterns operation to the wine box, then whole drawing of patterns station need carry out quick adjustment according to the size of different processing wine boxes, drawing of patterns station among the prior art can only be according to manual semi-automatic regulation operation, the regulation rate is low, and governing speed is slow.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an upper plate rolls over suitable for reading drawing of patterns station to solve the technical problem among the prior art.

The utility model provides an upper plate folding upper opening demoulding station, which comprises a demoulding installation part, a box supporting part, an upper plate part, a bottom plate pushing part, a bottom plate turning part, an edge hooking part, an upper plate edge rolling part and a demoulding part, wherein the box supporting part is arranged at the bottom of the demoulding installation part, the output end of the box supporting part is arranged in the demoulding installation part, the demoulding part is arranged at the middle part of the demoulding installation part, the end part of the demoulding part is inserted at the output end of the box supporting part, the upper plate part is arranged at the top of the demoulding installation part, the bottom plate pushing part is arranged in the upper plate part and is positioned at the bottom of the upper plate part, the bottom plate turning part is arranged at the top of the demoulding installation part and is arranged at the side of the upper plate part, the edge hooking part is arranged at the bottom of the upper plate part and is butted with the output end of the, drawing of patterns installation part is including drawing of patterns bottom plate, two drawing of patterns curb plates, two upper plate part mounting panels, a plurality of curb plate mounting and two bottom plate part mounting panels that turn over, two drawing of patterns curb plate symmetry is installed at the top of drawing of patterns bottom plate, two the upper plate part mounting panel sets up respectively at the top of two drawing of patterns curb plates, two leave fixed distance, two between the upper plate part mounting panel turn over the bottom plate part mounting panel and set up respectively at the top of two upper plate part mounting panels, and is a plurality of the curb plate mount sets up the corner between bottom plate, two drawing of patterns curb plates and two upper plate part mounting panels respectively.

Further, hold in the palm box part including holding in the palm box subassembly motor, holding in the palm box motor mounting panel, holding in the palm box adjusting screw, wine box layer board and a plurality of support box subassembly guide bar, hold in the palm box subassembly motor and install in the bottom of holding in the palm box motor mounting panel, it is a plurality of hold in the palm box subassembly guide bar and be the distribution of rectangle structure on holding in the palm box motor mounting panel, every hold in the palm the bottom and hold in the palm box motor mounting panel rotation of box subassembly guide bar and be connected, every hold in the palm box subassembly guide bar and run through the drawing of patterns bottom plate in proper order along vertical direction and set up between two drawing of patterns curb plates, the wine box layer board is installed on.

Further, the demoulding component comprises a first demoulding component and a second demoulding component, the first demoulding component is arranged at the top of the demoulding bottom plate, the second demoulding component is arranged at one end of the top of the first demoulding component, the first demoulding component comprises a first demoulding guide rail fixing seat, a second demoulding guide rail fixing seat, a demoulding supporting plate, a demoulding motor tensioning seat, a demoulding motor fixing seat, a demoulding motor, a first driving pulley, a second driving pulley, a positioning driving belt and two demoulding guide rails, the first demoulding guide rail fixing seat and the second demoulding guide rail fixing seat are both in stepped structures and symmetrically arranged at the top of the demoulding bottom plate, the demoulding supporting plate is arranged at the tops of the first demoulding guide rail fixing seat and the second demoulding guide rail fixing seat, and the two demoulding guide rails are respectively arranged on the steps of the side walls of the first demoulding guide rail fixing seat and the second demoulding guide rail fixing seat, drawing of patterns motor fixing base is installed on first drawing of patterns guide rail fixing base lateral wall, drawing of patterns motor is installed on the lateral wall of drawing of patterns motor fixing base, the main shaft of drawing of patterns motor runs through drawing of patterns motor fixing base and drawing of patterns motor tensioning seat, first driving pulley is installed on the main shaft of drawing of patterns motor, the middle part at second drawing of patterns guide rail fixing base is installed to second driving pulley, the location drive belt cover is established on first driving pulley and second driving pulley.

Further, second drawing of patterns subassembly includes that drawing of patterns cylinder bottom plate and two symmetries set up the location drawing of patterns portion on drawing of patterns cylinder bottom plate, two the output of location drawing of patterns portion sets up relatively, every location drawing of patterns portion includes drawing of patterns cylinder support, drawing of patterns cylinder regulating plate, drawing of patterns cylinder mounting panel, drawing of patterns cylinder and drawing of patterns clamp plate, drawing of patterns cylinder support is the top at drawing of patterns cylinder bottom plate is installed to vertical state, the top at drawing of patterns cylinder support is installed to drawing of patterns cylinder regulating plate, the top at drawing of patterns cylinder regulating plate is installed to drawing of patterns cylinder mounting panel, the drawing of patterns cylinder sets up the top at drawing of patterns cylinder mounting panel, the output end department at drawing of patterns cylinder is installed to the drawing of patterns clamp plate, the output direction perpendicular.

Further, the upper base plate component comprises two base plate adjusting plate guide shafts and two upper base plate components which are oppositely arranged, the two base plate adjusting plate guide shafts are arranged between the two upper base plate components, each base plate adjusting plate guide shaft connects and forms the two upper base plate components, each upper base plate component comprises an upper base plate side plate, a base plate width adjusting plate, a base plate supporting section bar, a base plate length limiting plate, a base plate width adjusting screw rod and two base plate thickness adjusting plates, the upper base plate side plate is arranged at the top of the upper base plate component mounting plate, the base plate width adjusting plate is arranged on the inner side wall of the upper base plate side plate, the base plate supporting section bar is arranged on the inner side wall of the base plate width adjusting plate, the base plate width adjusting screw rod is arranged on the upper base plate side plate, and the base plate width adjusting screw rod sequentially penetrates through the upper, two bottom plate thickness regulating plates are symmetrically arranged on the side wall of the bottom plate width regulating plate.

Further, push away the bottom plate part and include that first push away bottom plate cylinder mount pad, second push away bottom plate cylinder mount pad, push away bottom plate cylinder guide rail connecting seat, push away bottom plate length adjustment piece, push away bottom plate thickness adjustment piece, push away the bottom plate cylinder, push away bottom plate oil buffer and two push away the bottom plate guide rail, first push away bottom plate cylinder mount pad and second push away bottom plate cylinder mount pad symmetry and install between two bottom plate width regulating boards, two push away the bottom plate guide rail setting and push away between bottom plate cylinder mount pad and second at first push away bottom plate cylinder mount pad, push away bottom plate cylinder guide rail connecting seat and two output fixed connection who pushes away the bottom plate guide rail, push away the bottom plate cylinder and install and push away between the bottom plate guide rail at two.

Further, the turning bottom plate component comprises a turning bottom plate rotating shaft seat, a turning bottom plate cylinder mounting seat, a turning bottom plate cylinder connecting rod, two turning bottom plate oscillating rods, two turning bottom plate supporting plates, two turning bottom plate width adjusting blocks and a turning bottom plate length adjusting block, the turning bottom plate cylinder mounting seat is mounted on the side wall of the upper bottom plate side plate, the tail end of the turning bottom plate cylinder is hinged with the turning bottom plate cylinder mounting seat, the turning bottom plate cylinder connecting rod is mounted at the end part of a turning bottom plate cylinder telescopic rod, the two turning bottom plate oscillating rods are symmetrically mounted at the top of the upper bottom plate component mounting plate, the two turning bottom plate supporting plates are respectively mounted at the tops of the turning bottom plate oscillating rods, the two turning bottom plate width adjusting blocks are in one-to-one correspondence with the positions of the two turning bottom plate push plates, each turning bottom plate width adjusting block is mounted at the top of one turning bottom plate supporting plate, the turning bottom plate rotating shaft seat is installed on the side wall of one turning bottom plate swinging rod, and the other end of the turning bottom plate rotating shaft is rotatably connected with the other turning plate swinging rod.

Further, collude the limit part including colluding limit cylinder mounting panel, collude the limit and push down the cylinder, collude the limit cylinder block, collude the limit board and collude the limit clamp plate, collude limit cylinder mounting panel setting between two bottom plate swinging arms that turn over, collude the both ends of limit cylinder mounting panel respectively with two lateral walls fixed connection that turn over the bottom plate swinging arms, collude the limit and push down the cylinder and install in the bottom of colluding the limit cylinder mounting panel, collude the output department that limit cylinder mounting panel set up at colluding the limit and push down the cylinder, collude the limit cylinder setting in the bottom of colluding the limit cylinder mounting panel, collude the limit cylinder block and install the tip at colluding limit cylinder telescopic link, collude the limit board and install in the bottom of colluding the limit cylinder block, collude the limit clamp plate.

Further, the binding part includes binding rubber roll connecting shaft, binding rubber roll and two binding rubber roll installation bases, two binding rubber roll installation bases set up respectively on the lateral wall of two drawing of patterns curb plates, the both ends of binding rubber roll connecting shaft rotate with the lateral wall of two binding rubber roll installation bases respectively and are connected, binding rubber roll cover is established on binding rubber roll connecting shaft.

Compared with the prior art, the beneficial effects of the utility model reside in that: at first need adjust the removal size that holds in the palm box part and upper plate position in proper order according to the size of different processing wine boxes, the completion is waited to process the wine box and can is run through the removal smoothly, hold in the palm the box part setting in the bottom of drawing of patterns main part, hold in the palm the box part and can remove along vertical direction, control wine box moves the stroke in vertical direction, drawing of patterns part can drive the wine box of waiting to process and remove along the horizontal direction, the control is waited to process the moving stroke of wine box, then can accurate control waits to process the moving stroke of wine box, can accomplish automatic size adjustment through the control between the above-mentioned part, then can satisfy and carry out the drawing of patterns operation to the wine box of attached completion, automatic regulation, reduce artificial.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic perspective view of a full-automatic barrel-type fine mounting box forming machine;

FIG. 2 is a schematic partial structural view I of a full-automatic barrel-type fine mounting box forming machine;

fig. 3 is a partial structural schematic view two of the full-automatic barrel-type fine mounting box forming machine;

FIG. 4 is a schematic perspective view of a vertical drive assembly in a three-fold station;

FIG. 5 is a schematic view of a partial structure of the section bar rack device, the three-port folding station and the conveying manipulator;

FIG. 6 is a schematic view of an assembly structure of a deviation rectifying station;

FIG. 7 is a schematic view of an assembly configuration of the barrel forming station;

FIG. 8 is a schematic view of a portion of a vertical lift rotational power system;

FIG. 9 is a schematic view of an assembled structure of the vertical lift rotational power system;

FIG. 10 is a schematic perspective view of two mold stations;

FIG. 11 is a schematic view of an assembly of two mold stations;

FIG. 12 is a schematic perspective view of an upper base plate folding upper opening demolding station;

fig. 13 is a schematic view of the assembly structure of the upper base plate folding upper opening demoulding station.

Reference numerals: the device comprises a main body 1, a bottom sheet metal door device 2, a section frame device 3, a three-port folding station 4, a three-port folding station main body 401, a three-port folding part 402, a three-port folding pressing part 403, an L-shaped support beam 4031, a three-port folding output cylinder 4032, an output positioning plate 4033, an output extension rod 4034, a vertical driving component 404, a first driving plate 4041, a second driving plate 4042, a vertical driving cylinder 4043, a vertical driving extension rod 4044, a deviation correcting station 5, a feeding positioning frame 501, a horizontal conveying belt 502, an inclined conveying belt 503, a conveying manipulator 6, an output positioning electric cylinder 601, a conveying vertical driving component 602, a conveying positioning frame 6021, a vertical conveying driving cylinder 2, a conveying installation frame 6023, a conveying vertical extension rod 6024, a paper board sucking component 603, a conveying positioning plate 604, a barrel forming station 7, a barrel forming main body 701, a rolling edge part 702, a shovel plate part 703, an upper top part 602704 and a lower shovel plate part, a right shovel part 706, an upper shovel part 707, a bottom sealing part 708, a bidirectional screw rod sliding table 709, a vertical lifting and rotating power system 8, a power installation part 801, a lifting guide rail rack installation plate 8011, a safety wing 8012, a rotary servo driven wheel limit plate 8013, a power support frame 8014, an exhaust fan 8015, a transverse driving part 802, a lifting driving motor 8021, a lifting servo installation plate 8022, a lifting driving gear 8023, a lifting driving rack 8024, an oil receiving box 8025, a vertical driving part 803, a graphite copper tile fixing plate 8031, a graphite copper tile 8032, an output spindle 8033, a rotary servo driven synchronizing wheel 8034, a lifting driving guide rail slider installation plate 8035, an auxiliary sliding part 804, a first lifting driving guide rail 8041, a second lifting driving guide rail 8042, a rotary driving part 805, a rotary servo motor 8051, a rotary servo installation plate 8052, a rotary driving synchronizing wheel 8053, a rotary servo driving belt 8054, a rotary servo fixing plate 8055, a rotary servo supporting plate 8056, two mold stations 9, a mold mounting part 901, a mold connecting seat 9011, a mold bottom plate 9012, a mold top plate 9013, a mold side plate 9014, a guide rail driving part 902, a vertical mold driving part 903, a core bar left-right adjustment synchronizing shaft connecting plate 9031, a core bar left-right adjustment synchronizing shaft 9032, a first core bar left-right synchronization adjusting gear 9033, a second core bar left-right synchronization adjusting gear 9034, a stepping motor supporting seat 9035, a core bar left-right adjustment synchronizing shaft mounting seat 9036, a stepping motor mounting plate 9037, a core bar left-right adjustment motor 9038, a core bar up-down adjustment motor 9039, a positioning guide rail part 904, a first core bar 9041, a second core bar 9042, a third core bar 9043, a fourth core bar 9044, a first driving assembly 905, a second driving assembly 906, a first up-down adjustment guide rail 9061, a second up-down adjustment guide rail 9062, an up-down adjustment guide rail mounting, a third driving assembly 907, a fourth driving assembly 908, a fifth core left-right adjusting guide 9081, a sixth core left-right adjusting guide 9082, a fourth core guide mounting plate 9083, a core up-down adjusting screw 9084, a guide slider connecting plate 9085, a first horizontal driving portion 909, a first core left-right adjusting screw 9091, a first linkage bevel 9092, a first horizontal positioning block 9093, a first positioning portion 910, a first guide portion 911, a first core left-right adjusting guide 912, a second core left-right adjusting guide 913, a first core common guide 914, a first core common mounting plate 915, a third positioning portion 916, a third core left-right adjusting guide 9161, a fourth core left-right adjusting guide 9162, an upper base plate folding upper opening demolding station 10, a demolding mounting member 101, a demolding base plate 1011, a demolding side plate 1012, an upper base plate member mounting plate 1013, a side plate mounting plate 1014, a flip base plate member mounting plate 1015, a tray member 102, a tray assembly motor 1021, a tray motor mounting plate 1022, a tray adjustment screw 1023, a wine box tray 1024, a tray assembly guide bar 1025, an upper base plate member 103, a base plate adjustment plate guide shaft 1031, an upper base plate member 1032, an upper base plate side plate 1033, a base plate width adjustment plate 1034, a base plate support profile 1035, a base plate length limiting plate 1036, a base plate width adjustment screw 1037, a base plate thickness adjustment plate 1038, a push base plate member 104, a first push base plate cylinder mounting base 1041, a second push base plate cylinder mounting base 1042, a push base plate cylinder guide rail connecting base 1043, a push base plate length adjustment block 1044, a push base plate thickness adjustment block 1045, a push base plate cylinder 1046, a push base plate hydraulic buffer 1047, a push base plate guide rail 1048, a flip base plate member 105, a flip base plate rotation shaft base 1051, a flip base plate cylinder mounting base 1052, a flip base plate cylinder 1053, a flip base plate cylinder connecting rod 1054, a flip base, the device comprises a turnover bottom plate supporting plate 1056, a turnover bottom plate width adjusting block 1057, a turnover bottom plate length adjusting block 1058, a side hooking component 106, a side hooking cylinder mounting plate 1061, a side hooking downward pressing cylinder 1062, a side hooking cylinder 1064, a side hooking cylinder seat 1065, a side hooking plate 1066, a side hooking pressing plate 1067, an upper bottom plate side trimming component 107, a side trimming glue roll connecting shaft 1071, a side trimming glue roll 1072, a side trimming glue roll mounting seat 1073, a demoulding component 108, a first demoulding component 109, a first demoulding guide rail fixing seat 1091, a second demoulding guide rail fixing seat 1092, a demoulding supporting plate 1093, a demoulding motor tensioning seat 1094, a demoulding motor fixing seat 1095, a demoulding motor 1096, a first driving belt 1097, a positioning driving belt 1099, a demoulding guide rail 10991, a second demoulding component 110, a demoulding cylinder bottom plate 1101, a demoulding cylinder support 1102, a demoulding cylinder adjusting plate 1103, a demoulding cylinder mounting plate 1104, a demoulding cylinder 1105 and a demoulding pressing plate 1106.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention.

The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The embodiment of the invention provides a full-automatic forming machine for a barrel-type fine mounting box, which is shown by combining figures 1 to 13 and comprises a main body 1, a bottom sheet metal door device 2, a section frame device 3, a three-opening folding station 4, a deviation correcting station 5, a conveying manipulator 6, a barrel forming station 7, a vertical lifting and rotating power system 8, two mold stations 9 and an upper bottom plate opening folding and demolding station 10 which are sequentially arranged along the direction of a wine box to be processed, wherein the vertical lifting and rotating power system 8 and the main body 1 are arranged in the bottom sheet metal door device 2, the section frame device 3 is arranged at the top of the bottom sheet metal door device 2, the barrel forming station 7, the two mold stations 9, the upper bottom plate opening folding and demolding station 10 and the conveying manipulator 6 are arranged in the section frame device 3, the deviation correcting station 5 is arranged at the output end of the three-opening folding station 4, the deviation correcting station 5 is arranged beside the section frame device, the feeding end of the deviation rectifying station 5 is in butt joint with the material clamping end of the conveying manipulator 6, the discharging end of the conveying manipulator 6 is in butt joint with the feeding end of the barrel forming station 7, the output direction of the vertical lifting rotary power system 8 is vertical upwards, the two mould stations 9 are installed at the output end of the vertical lifting rotary power system 8, and the discharging ends of the two mould stations 9 are in butt joint with the feeding end of the upper bottom plate folding upper opening demoulding station 10.

The working principle of the invention is as follows: after the equipment starts to work, a large amount of facial tissues and gray boards to be adhered are continuously conveyed to the output end of the deviation correcting station 5 through the three-opening folding station 4 and the deviation correcting station 5, the facial tissues and the gray boards are adsorbed by the conveying manipulator 6, then the facial tissues and the gray boards are moved to the barrel forming station 7, the barrel forming bottom plate is automatically opened upwards, the facial tissues are adsorbed to enable the positioning to be accurate, the facial tissues and the gray boards synchronously descend along with the dies, the left and right pressing plates enable the gray boards on the two sides of the facial tissues to be adhered to the dies, the upper shovel boards and the hair wheels work to enable the wine box to be formed, and then the prefabricated wine box is conveyed along the horizontal direction through the two die stations 9, because the two die stations 9 can achieve the assembling operation of different assembled packaging boxes, the quick adjustment of assembling equipment; after the processing is completed, the box is conveyed to the upper bottom plate folding and opening demolding station 10, automatic adjustment can be achieved according to the box size of the wine box, the box to be attached is completely attached to the outer surface of the box, automatic processing procedures are adopted, manual output is reduced, processing efficiency is improved, and the accuracy of wine box processing is improved.

The deviation rectifying station 5 comprises a feeding positioning frame 501, a horizontal conveyor belt 502, an inclined conveyor belt 503, a first feeding part 504, a second feeding part 505 and two hinged support plates 506, wherein the horizontal conveyor belt 502 is installed at the top of the feeding positioning frame 501, one end of the inclined conveyor belt 503 is in butt joint with the feeding end of the horizontal conveyor belt 502, the inclined conveyor belt 503 is arranged in an inclined state, the two hinged support plates 506 are respectively arranged between the inclined conveyor belts 503 of the feeding positioning frame 501, two ends of each hinged support plate 506 are respectively hinged with the side wall of the feeding positioning frame 501 and the bottom of the inclined conveyor belt 503, the first feeding part 504 is installed at the top of the inclined conveyor belt 503, the second feeding part 505 is installed at the top of the horizontal conveyor belt 502, and facial tissue and an ash plate to be packaged are continuously conveyed to the three-opening folding station 4 through the horizontal conveyor belt 502 and the inclined conveyor belts 503, in the transmission process, the first feeding part 504 and the second feeding part 505 finish the limiting and deviation rectifying operation on the surface paper and the gray board, so that the gray board and the surface paper can be stably and continuously transmitted in the transmission process.

The three-port folding station 4 comprises a three-port folding station main body 401, a three-port folding part 402 and a three-port folding pressing part 403, the three-port folding pressing part 403 is mounted at the top of the loading positioning frame 501, the three-port folding part 402 is mounted at the output end of the three-port folding station main body 401, the output end of the three-port folding part 402 is vertically downward and is in butt joint with the output end of the three-port folding pressing part 403, the three-port folding pressing part 403 comprises an L-shaped supporting beam 4031, a three-port folding output cylinder 4032, an output positioning plate 4033 and two output extension rods 4034, the three-port folding output cylinder 4032 is mounted at the top of the L-shaped supporting beam 4031, the two output extension rods 4034 are mounted at two sides of the three-port folding output cylinder 4032, the vertical driving assembly 404 comprises a first driving plate 4041, a second driving plate 4042, a vertical driving cylinder 4043 and a plurality of vertical driving extension rods 40344 distributed in a rectangular structure, vertical drive actuating cylinder 4043 installs in the bottom of second drive plate 4042, the tip of vertical drive actuating cylinder 4043 telescopic link is along vertical direction and first drive plate 4041's bottom fixed connection, a plurality of vertical drive extension bar 4044 is two liang of distributions, every vertical drive extension bar 4044 runs through second drive plate 4042 along vertical direction and with first drive plate 4041's bottom fixed connection, second drive plate 4042 can move on all vertical drive extension bars 4044 along vertical direction, and the completion is treated the facial tissue of sticker and is treated the folding operation in proper order of pasting, improves the sticker operation to the wine box.

The three-port folding station main body 401 comprises a three-port folding positioning plate, a three-port folding mounting plate, a three-port folding support frame, a three-port folding transmission belt, a transmission screw rod, a transmission positioning block, a circular rotating disc, two horizontal guide rails and a plurality of horizontal sliding blocks, the three-port folding positioning plate is arranged at the top of the feeding positioning frame 501, the three-port folding mounting plate is arranged above the three-port folding positioning plate, the transmission positioning block is arranged on a side wall between the three-port folding positioning plate and the three-port folding mounting plate, one end of the transmission screw rod penetrates through the transmission positioning block and is fixedly connected with the middle part of the circular rotating disc, the two horizontal guide rails are arranged at two sides of the transmission screw rod, the plurality of horizontal sliding blocks are divided into two groups, the two groups are respectively arranged on the two horizontal guide rails, each horizontal sliding block is in sliding fit with the horizontal guide rails, and the, roll over three mouthful of support frames and set up at the top of rolling over three mouthful of mounting panels, roll over three mouthful of drive belts and install on three mouthful of support frames, above equipment can realize realizing the material loading operation in proper order to facial tissue and hawk.

Conveying manipulator 6 inhales material subassembly 603 and two transport location boards 604, two including output location electric jar 601, transport vertical drive assembly 602, cardboard carry locating plate 604 to install on section bar rack device 3's inside wall, output location electric jar 601 is installed on the lateral wall of two transport location boards 604, it can remove along output location electric jar 601's extending direction to carry vertical drive assembly 602, the cardboard is inhaled material subassembly 603 and is installed at the output end that carries vertical drive assembly 602, the cardboard is inhaled the output of material subassembly 603 and is vertical downwards, accomplishes inhaling in proper order of facial tissue and hawk and places the operation, accomplishes the packing processing operation to the wine box.

The conveying vertical driving assembly 602 comprises a conveying positioning frame 6021, a vertical conveying driving air cylinder 6022, a conveying installation frame 6023 and two conveying vertical extension rods 6024, the vertical conveying driving air cylinder 6022 is installed at the top of the conveying positioning frame 6021, the conveying installation frame 6023 is arranged at the middle part of the conveying positioning frame 6021, the two conveying vertical extension rods 6024 are installed at the two sides of the conveying installation frame 6023, the top end of each conveying vertical extension rod 6024 is fixedly connected with the inner bottom wall of the conveying positioning frame 6021, the paperboard sucking assembly 603 comprises a horizontal positioning plate, two longitudinal positioning plates and a plurality of sucking nozzles, the horizontal positioning plate is installed at the bottom of the conveying positioning frame 6021, the two longitudinal positioning plates are symmetrically installed at the bottom of the horizontal positioning plate, the end part of each longitudinal positioning plate is fixedly connected through a positioning bolt, and the plurality of sucking nozzles are divided into two groups, two sets of the material suction nozzles are respectively arranged at the bottom of the longitudinal positioning plate, and each material suction nozzle is downward along the vertical direction.

The barrel forming station 7 comprises a barrel forming main body 701, a binding part 702, a shovel plate part 703, an upper top part 704, a lower shovel plate part 705, a right shovel part 706, an upper shovel part 707, a bottom sealing part 708 and two bidirectional screw rod sliding tables 709, wherein four sliding guide rails are installed on the inner bottom wall of the barrel forming main body 701, the binding part 702 and the shovel part can be respectively arranged on one of the bidirectional screw rod sliding tables 709 in a sliding manner, the right shovel part 706 and the bottom sealing part 708 can be respectively arranged on the other bidirectional screw rod sliding table 709 in a sliding manner, the upper shovel part 707 is installed on the side wall of the shovel plate part 703, the upper top part 704 is installed at the bottom of the barrel forming main body 701, the bottom sealing part 708 is installed at the bottom of the upper top part 704, the upper top sealing part 704 is in transmission connection with the bottom sealing part 708, and the binding part 702, the shovel plate part 703, the upper top part 704, the lower shovel plate part 705, The right shovel edge part 706, the upper shovel edge part 707, the back cover part 708 and the two bidirectional screw rod sliding tables 709 sequentially realize the supporting processing operation on the two side edges of the wine box, realize the paper sticking operation on the side wall of the wine box, and improve the packaging efficiency and accuracy of the wine box.

The vertical lifting and rotating power system 8 comprises a power mounting part 801, a transverse driving part 802, a vertical driving part 803, an auxiliary sliding part 804 and a rotating driving part 805, wherein the transverse driving part 802 is arranged in the power mounting part 801, the vertical driving part 803 is arranged on the side wall of the power mounting part 801, the transverse driving part 802 is in transmission connection with the vertical driving part 803, the auxiliary sliding part 804 is arranged on the inner side wall of the power mounting part 801, the vertical driving part 803 is in vertical sliding fit with the auxiliary sliding part 804, the rotating driving part 805 is arranged on the top of the power mounting part 801, the rotating driving part 805 is in transmission connection with the vertical driving part 803, the transverse driving part 802 and the vertical driving part 803 can be mounted on the power mounting part 801, and the auxiliary sliding part 804 and the rotating driving part 805 can be mounted in a detachable mode, the efficiency of packaging the wine box can be improved.

The power mounting part 801 comprises a bottom plate, a lifting guide rail rack mounting plate 8011, safety wings 8012, a rotary servo driven wheel limiting plate 8013, two side plates, two power supporting frames 8014 and two exhaust fans 8015, wherein the bottom plate, the safety wings 8012 and the two side plates are spliced to form a rectangular accommodating frame and are fixedly connected with the top of the bottom plate, the rotary servo driven wheel limiting plate 8013 is installed at the top of the rectangular accommodating frame, the two exhaust fans 8015 are respectively arranged on the two side plates, the two power supporting frames 8014 correspond to the two side plates one to one, and each power supporting frame 8014 is installed on the side wall of one of the side plates, so that stable supporting force can be provided, and stability in the working process is improved.

The auxiliary sliding part 804 includes two first lifting transmission guide rails 8041 and two second lifting transmission guide rails 8042, two the first lifting transmission guide rails 8041 are respectively arranged on the inner side walls of the two side plates, and two the second lifting transmission guide rails 8042 are symmetrically arranged on the inner side walls of the lifting guide rail rack mounting plate 8011, so that the transverse driving part 802 and the vertical driving part 803 are stably positioned, and the instability of wine box processing in the processing process is avoided.

The transverse driving component 802 comprises a lifting driving motor 8021, a lifting servo mounting plate 8022, a lifting transmission gear 8023, a lifting transmission rack 8024 and an oil receiving box 8025, two sides of the lifting servo mounting plate 8022 are fixedly connected with sliding blocks on two second lifting transmission guide rails 8042, the lifting driving motor 8021 is mounted on the side wall of the lifting servo mounting plate 8022, a spindle of the lifting driving motor 8021 penetrates through the lifting servo mounting plate 8022 and the lifting transmission gear 8023 along the horizontal direction, the lifting transmission rack 8024 is mounted on the inner side wall of the lifting guide rail rack mounting plate 8011, the lifting transmission gear 8023 is meshed with the lifting transmission rack 8024, the oil receiving box 8025 is arranged in a horizontal state and is arranged below the lifting transmission gear 8023, the lifting driving motor 8021 drives the lifting transmission gear 8023 to rotate, and the lifting transmission gear 8023 is meshed with the transmission lifting transmission rack 8024, the output ends of the two second lifting transmission guide rails 8042 can be driven to move along the vertical direction, and the driving operation of the vertical driving part 803 is completed.

The vertical driving part 803 comprises a graphite copper tile fixing plate 8031, a graphite copper tile 8032, an output spindle 8033, a rotary servo driven synchronizing wheel 8034 and two lifting transmission guide rail slider mounting plates 8035, wherein the two lifting transmission guide rail slider mounting plates 8035 are respectively mounted at two ends of the side wall of the lifting servo mounting plate 8022, the graphite copper tile fixing plate 8031 is mounted at the tops of the two lifting transmission guide rail slider mounting plates 8035, the graphite copper tile 8032 is mounted at the top of the graphite copper tile fixing plate 8031, the output spindle 8033 is vertically arranged on the graphite copper tile 8032, a circular groove for mounting a rotary servo driven wheel is arranged on a rotary servo driven wheel limiting plate 8013, the rotary servo driven wheel is arranged in the circular groove, the output spindle 8033 can be driven to move and rotate along the vertical direction, and the rotation of the two mold stations 9 in the horizontal direction is completed, the position of the paper box is controlled.

The rotary driving component 805 includes a rotary servo motor 8051, a rotary servo mounting plate 8052, a rotary servo driving synchronizing wheel 8053, a rotary servo transmission belt 8054, a rotary servo fixing plate 8055 and two rotary servo support plates 8056, the two rotary servo support plates 8056 are respectively mounted on two sides of the top of the rotary servo mounting plate 8052, the rotary servo fixing plate 8055 is mounted on the top of the two rotary servo support plates 8056, the rotary servo driving synchronizing wheel 8053 is mounted on the top of the rotary servo mounting plate 8052, the rotary servo motor 8051 is mounted on the bottom of the rotary servo mounting plate 8052, a spindle of the rotary servo motor 8051 penetrates through the rotary servo mounting plate 8052 and is fixedly connected with the rotary servo driving synchronizing wheel 8053, the rotary servo transmission belt 8054 is sleeved on the rotary servo driven synchronizing wheel 8034 and the rotary servo driving synchronizing wheel 8053, and the rotary servo driving synchronizing wheel 8053 is driven by the rotary servo motor 8051 to rotate, because the rotary servo transmission belt 8054 is sleeved on the rotary servo driving synchronizing wheel 8053 and the rotary servo driven synchronizing wheel 8034, the rotary servo driven synchronizing wheel 8034 can be driven to rotate, the output main shaft 8033 can be driven to rotate, and the driving operation of the two mold stations 9 is completed.

The two mold stations 9 comprise mold mounting components 901, guide rail driving components 902, vertical mold driving components 903 and positioning guide rail components 904, the guide rail driving components 902 are arranged in the mold mounting components 901, the vertical mold driving components 903 are arranged at the tops of the mold mounting components 901, the positioning guide rail components 904 are arranged in the mold mounting components 901, the positioning guide rail components 904 are in transmission connection with the guide rail driving components 902, and the positioning processing operation of wine boxes with different sizes is completed according to the equipment.

The mold mounting component 901 comprises a mold connecting seat 9011, a mold bottom plate 9012, a mold top plate 9013 and two mold side plates 9014, the mold bottom plate 9012 is mounted at the top of the mold connecting seat 9011, the two mold side plates 9014 are mounted on two sides of the top of the mold bottom plate 9012, the mold top plate 9013 is mounted at the top of the two mold side plates 9014, two ends of the bottom of the mold top plate 9013 are fixedly connected with the tops of the two mold side plates 9014 respectively, stable mounting operation of the guide rail driving component 902, the first driving assembly 905 and the second driving assembly 906 can be achieved due to the sequential arrangement of the devices, and the processing stability is improved.

The guide rail driving component 902 comprises a first driving component 905, a second driving component 906, a third driving component 907 and a fourth driving component 908, the first driving component 905 is installed on the top of the mold bottom plate 9012, the second driving component 906 is installed on the two mold side plates 9014, the third driving component 907 is installed on the inner bottom wall of the mold top plate 9013, the fourth driving component 908 is installed at the output end of the third driving component 907, the positioning guide rail component 904 is respectively in transmission connection with the first driving component 905, the second driving component 906, the third driving component 907 and the fourth driving component 908, the vertical mold driving component 903 is in transmission connection with the first driving component 905 and the third driving component 907, sequential driving operation of the positioning guide rail component 904 can be realized through the arrangement of the first driving component 905, the second driving component 906, the third driving component 907 and the fourth driving component 908, the movement stability of the positioning rail member 904 is improved.

The first driving assembly 905 includes a first horizontal driving part 909, two first positioning parts 910, and two first guide parts 911, the two first guide parts 911 are symmetrically installed on the top of the mold base 9012, the two first positioning parts 910 are symmetrically installed at the output ends of the two first guide parts 911, each of the first guide parts 911 includes a first core left-right adjustment rail 912 and a second core left-right adjustment rail 913, each of the first positioning parts 910 includes a first core common rail 914 and a first core common mounting plate 915, the two ends of the bottom of the first core bar universal guide rail 914 are installed at the output ends of the first core bar left-right adjusting guide rail 912 and the second core bar left-right adjusting guide rail 913, the first horizontal driving part 909 is in transmission connection with all the first core universal mounting plates 915, so that continuous power transmission is completed, and the driving operation of the positioning guide rail component 904 is improved.

The second driving assembly 906 component comprises a first up-down adjusting guide rail 9061, a second up-down adjusting guide rail 9062 and two up-down adjusting guide rail mounting plates 9063, the two up-down adjusting guide rail mounting plates 9063 are respectively mounted on the inner side walls of the two die side plates 9014, the first up-down adjusting guide rail 9061 and the second up-down adjusting guide rail 9062 are respectively slidably mounted on the two up-down adjusting guide rail mounting plates 9063, and the two up-down adjusting guide rail mounting plates 9063 can realize mounting operation of the first up-down adjusting guide rail 9061 and the second up-down adjusting guide rail 9062.

The first horizontal driving part 909 comprises a first core left-right adjusting screw rod 9091, a first linkage bevel gear 9092 and two first horizontal positioning blocks 9093, the two first horizontal positioning blocks 9093 are respectively arranged on the side walls of the two mold side plates 9014, one end of the first core left-right adjusting screw rod 9091 is rotatably connected with one of the first horizontal positioning blocks 9093, the other end of the first core left-right adjusting screw rod 9091 sequentially penetrates through the two mold side plates 9014, the two upper-lower adjusting guide rail mounting plates 9063 and the two first core universal mounting plates 915, and finally penetrates through the other first horizontal positioning block 9093 along the horizontal direction, and the first linkage bevel gear 9092 is mounted at the end part of the first core left-right adjusting screw rod 9091, so that continuous transmission operation of power is realized.

The third driving assembly 907 comprises a second horizontal driving part, two third core strips 9043 common mounting plates and two third positioning parts 916, the two third positioning parts 916 are symmetrically mounted at the bottom of the mold top plate 9013, the two third driving positioning plates are symmetrically mounted at the output ends of the two third positioning parts 916, the second horizontal driving part is in transmission connection with the two third positioning parts 916,

each third positioning portion 916 comprises a third core left-right adjusting guide rail 9161 and a fourth core left-right adjusting guide rail 9162, the third core left-right adjusting guide rail 9161 and the fourth core left-right adjusting guide rail 9162 are symmetrically installed at the bottom of the mold base plate 9012, two common mounting plates for the third core 9043 are respectively installed at the output ends of the third core left-right adjusting guide rail 9161 and the fourth core left-right adjusting guide rail 9162, the second horizontal driving portion comprises a second core 9042 left-right adjusting screw rod, a second coupling umbrella tooth and two second horizontal positioning blocks, the two second horizontal positioning blocks are respectively installed on the side walls of the two mold side plates 9014, one end of the second core 9042 left-right adjusting screw rod sequentially penetrates through one of the second horizontal positioning blocks, the two mold side plates 9014 and the two common mounting plates for the third core 9043 and is finally connected with the other second horizontal positioning block in a rotating manner, the second linkage umbrella teeth are arranged at the end parts of the left and right adjusting screw rods of the second core bar 9042 and are positioned on the same side with the first linkage umbrella teeth 9092.

The fourth driving assembly 908 comprises a fifth core left-right adjusting guide rail 9081, a sixth core left-right adjusting guide rail 9082, a fourth core guide rail mounting plate 9083, a core up-down adjusting screw 9084 and two guide rail slider connecting plates 9085, the fifth core left-right adjusting guide rail 9081 and the sixth core left-right adjusting guide rail 9082 are symmetrically mounted at the bottom of the fourth core guide rail mounting plate 9083, the two guide rail slider connecting plates 9085 are respectively mounted at the output ends of the fifth core left-right adjusting guide rail 9081 and the sixth core left-right adjusting guide rail 9082, the core up-down adjusting screw 9084 is arranged in the middle of the fourth core guide rail mounting plate 9083 and is arranged in a vertical state, and the core up-down adjusting screw 9084 is in transmission connection with the vertical mold driving component 903.

The positioning guide rail component 904 comprises a first core bar 9041, a second core bar 9042, a third core bar 9043 and a fourth core bar 9044, wherein the side wall and the top of the first core bar 9041 are fixedly connected with the output end of a first up-and-down adjusting guide rail 9061 and the bottom of one guide rail slider connecting plate 9085 respectively, the side wall and the top of the second core bar 9042 are fixedly connected with the output end of a second up-and-down adjusting guide rail 9062 and the bottom of the other guide rail slider connecting plate 9085 respectively, the bottom of the third core bar 9043 is mounted between one first core bar universal guide rail 914 and one first core bar universal mounting plate 915, and the bottom of the fourth core bar 9044 is mounted between the other first core bar universal guide rail 914 and one first core bar universal mounting plate 915.

The vertical die driving component 903 comprises a core bar left-right adjustment synchronizing shaft connecting plate 9031, a core bar left-right adjustment synchronizing shaft 9032, a first core bar left-right synchronization adjusting gear 9033, a second core bar left-right synchronization adjusting gear 9034, a stepping motor supporting seat 9035, a core bar left-right adjustment synchronizing shaft mounting seat 9036, a stepping motor mounting plate 9037, a core bar left-right adjustment motor 9038 and a core bar up-down adjustment motor 9039, wherein the core bar left-right adjustment synchronizing shaft mounting seat 9036 and the stepping motor supporting seat 9035 are arranged at the bottom of the stepping motor mounting plate 9037 at intervals, the core bar up-down adjustment motor 9039 is arranged at the top of the stepping motor mounting plate 9037, a main shaft of the core bar up-down adjustment motor 9039 is fixedly connected with the top end of the core bar up-down adjustment screw 9084, the core bar left-right adjustment synchronizing shaft connecting plate 9031 is arranged on the side wall of the die bottom plate 9012, and the core bar left-right adjustment synchronizing shaft 9032 is inserted to the top of, the first core left-right synchronous adjusting gear 9033 and the second core left-right synchronous adjusting gear 9034 are arranged on the core left-right adjusting synchronizing shaft 9032 in a sleeved mode at intervals, the core left-right debugging motor 9038 is fixedly connected with the core left-right adjusting synchronizing shaft 9032, the first core left-right synchronous adjusting gear 9033 is meshed with the first linkage bevel gear 9092, and the second core left-right synchronous adjusting gear 9034 is meshed with the second linkage bevel gear.

The upper bottom plate folding and opening demoulding station 10 comprises a demoulding installation part 101, a box supporting part 102, an upper bottom plate part 103, a bottom plate pushing part 104, a bottom plate turning part 105, a side hooking part 106, an upper bottom plate edge rolling part 107 and a demoulding part 108, the box supporting part 102 is arranged at the bottom of the demoulding installation part 101, the output end of the box supporting part 102 is arranged inside the demoulding installation part 101, the ejector member 108 is installed at the middle portion of the ejector-mounting member 101, the end portion of the ejector member 108 is inserted to the output end of the tray member 102, the upper floor member 103 is mounted on top of the knock-out mounting member 101, the push floor member 104 is provided in the upper floor member 103 at the bottom thereof, the flip-bottom plate member 105 is provided on the top of the knock-out mounting member 101 and beside the upper plate member 103, the edge hooking component 106 is installed at the bottom of the upper bottom plate component 103 and is butted with the output end of the turnover bottom plate component 105.

The demolding mounting part 101 comprises a demolding bottom plate 1011, two demolding side plates 1012, two upper plate part mounting plates 1013, a plurality of side plate fixing parts 1014 and two turnover bottom plate part mounting plates 1015, two the demolding side plates 1012 are symmetrically mounted at the top of the demolding bottom plate 1011, two the upper plate part mounting plates 1013 are respectively arranged at the tops of the two demolding side plates 1012, two fixed distances are left between the upper plate part mounting plates 1013, two the turnover bottom plate part mounting plates 1015 are respectively arranged at the tops of the two upper plate part mounting plates 1013, and a plurality of the side plate fixing frames are respectively arranged at the corners between the bottom plate, the two demolding side plates 1012 and the two upper plate part mounting plates 1013.

The box supporting component 102 comprises a box supporting component motor 1021, a box supporting motor mounting plate 1022, a box supporting adjusting screw 1023, a wine box supporting plate 1024 and a plurality of box supporting component guide rods 1025, wherein the box supporting component motor 1021 is mounted at the bottom of the box supporting motor mounting plate 1022, the box supporting component guide rods 1025 are distributed on the box supporting motor mounting plate 1022 in a rectangular structure, each box supporting component guide rod 1025 is rotatably connected with the box supporting motor mounting plate 1022 at the bottom end, each box supporting component guide rod 1025 sequentially penetrates through a demolding bottom plate 1011 along the vertical direction and is arranged between two demolding side plates 1012, and the wine box supporting plate 1024 is mounted at the top ends of all the box supporting component guide rods 1025.

The demolding part 108 comprises a first demolding component 109 and a second demolding component 110, the first demolding component 109 is installed at the top of the demolding base plate 1011, the second demolding component 110 is installed at one end of the top of the first demolding component 109, the first demolding component 109 comprises a first demolding guide rail fixing seat 1091, a second demolding guide rail fixing seat 1092, a demolding supporting plate 1093, a demolding motor tensioning seat 1094, a demolding motor fixing seat 1095, a demolding motor 1096, a first driving pulley 1097, a second driving pulley, a positioning driving belt 1099 and two demolding guide rails 10991, the first demolding guide rail fixing seat 1091 and the second demolding guide rail fixing seat 1092 are both in a step-platform structure and symmetrically installed at the top of the demolding base plate 1011, the demolding supporting plate 1093 is installed at the tops of the first demolding guide rail fixing seat 1091 and the second demolding guide rail fixing seat 1092, the two demolding guide rails 10991 are respectively arranged on the step platforms of the side walls of the first demolding guide rail fixing seat 1091 and the second demolding guide rail fixing seat 1092, the drawing of patterns motor fixing base 1095 is installed on first drawing of patterns guide rail fixing base 1091 lateral wall, drawing of patterns motor 1096 is installed on the lateral wall of drawing of patterns motor fixing base 1095, drawing of patterns motor 1096's main shaft runs through drawing of patterns motor fixing base 1095 and drawing of patterns motor tensioning seat 1094, first driving pulley 1097 is installed on drawing of patterns motor 1096's main shaft, the middle part at second drawing of patterns guide rail fixing base 1092 is installed to second driving pulley, location drive belt 1099 cover is established on first driving pulley 1097 and the second driving pulley.

The second demoulding assembly 110 comprises a demoulding cylinder base plate 1101 and two positioning demoulding parts symmetrically arranged on the demoulding cylinder base plate 1101, the output ends of the two positioning demoulding parts are oppositely arranged, each positioning demoulding part comprises a demoulding cylinder support 1102, a demoulding cylinder adjusting plate 1103, a demoulding cylinder mounting plate 1104, a demoulding cylinder 1105 and a demoulding pressure plate 1106, the stripper cylinder support 1102 is mounted in an upright position on top of the stripper cylinder base plate 1101, the stripper cylinder adjusting plate 1103 is mounted on top of the stripper cylinder support 1102, the stripper cylinder mounting plate 1104 is mounted on top of the stripper cylinder adjusting plate 1103, the stripper cylinder 1105 is disposed on top of the stripper cylinder mounting plate 1104, the stripper pressure plate 1106 is mounted at the output of the stripper cylinder 1105, the output direction of the demolding cylinder 1105 is perpendicular to the arrangement direction of the demolding cylinder bottom plate 1101.

The upper bottom plate component 103 comprises two bottom plate adjusting plate guide shafts 1031 and two oppositely arranged upper bottom plate components 1032, two bottom plate adjusting plate guide shafts 1031 are arranged between the two upper bottom plate components 1032, each bottom plate adjusting plate guide shaft 1031 connects and forms the two upper bottom plate components 1032, each upper bottom plate component 1032 comprises an upper bottom plate side plate 1033, a bottom plate width adjusting plate 1034, a bottom plate support profile 1035, a bottom plate length limiting plate 1036, a bottom plate width adjusting screw 1037 and two bottom plate thickness adjusting plates 1038, the upper bottom plate side plate 1033 is installed at the top of the upper bottom plate component installing plate 1013, the bottom plate width adjusting plate 1034 is installed on the inner side wall of the upper bottom plate side plate 1033, the bottom plate support profile 1035 is installed on the inner side wall of the bottom plate width adjusting plate 1034, the bottom plate width adjusting screw 1037 is installed on the upper bottom plate side plate 3, and the bottom plate width adjusting screw 1037 sequentially penetrates through the upper bottom plate side plate 1033 and the And two of the floor thickness adjusting plates 1038 are symmetrically installed on the sidewalls of the floor width adjusting plate 1034.

Push away bottom plate part 104 and include that first push away bottom plate cylinder mount pad 1041, second push away bottom plate cylinder mount pad 1042, push away bottom plate cylinder guide rail connecting seat 1043, push away bottom plate length regulating block 1044, push away bottom plate thickness regulating block 1045, push away bottom plate cylinder 1046, push away bottom plate hydraulic buffer 1047 and two push away bottom plate guide rail 1048, first push away bottom plate cylinder mount pad 1041 and second push away bottom plate cylinder mount pad 1042 symmetry and install between two bottom plate width regulating plates 1034, two push away bottom plate guide rail 1048 sets up and pushes away between bottom plate cylinder mount pad 1042 at first push away bottom plate cylinder mount pad 1041 and second, push away bottom plate cylinder guide rail connecting seat 1043 and two output fixed connection who pushes away bottom plate guide rail 1048, push away bottom plate cylinder 1046 and install and push away between bottom plate guide rail 1048 at two.

The turnover plate component 105 comprises a turnover plate rotating shaft seat 1051, a turnover plate cylinder mounting seat 1052, a turnover plate cylinder 1053, a turnover plate cylinder connecting rod 1054, two turnover plate swinging rods 1055, two turnover plate supporting plates 1056, two turnover plate width adjusting blocks 1057 and a turnover plate length adjusting block 1058, wherein the turnover plate cylinder mounting seat 1052 is mounted on the side wall of an upper plate side plate 1033, the tail end of the turnover plate cylinder 1053 is hinged with the turnover plate cylinder mounting seat 1052, the turnover plate cylinder connecting rod 1054 is mounted at the end part of a telescopic rod of the turnover plate cylinder 1053, the two turnover plate swinging rods 1055 are symmetrically mounted at the top part of the upper plate component mounting plate 1013, the two turnover plate supporting plates 1056 are respectively mounted at the top part of the turnover plate swinging rods 1055, the two turnover plate width adjusting blocks 1057 correspond to the positions of the two turnover plate supporting plates one by one, and each turnover plate width adjusting block 1057 is mounted at the top part of one turnover plate supporting plate 1056, the turning bottom plate length adjusting block 1058 is arranged at one end of the top of the two turning bottom plate supporting plates 1056, the turning bottom plate rotating shaft seat 1051 is arranged on the side wall of one turning bottom plate swinging rod 1055, and the other end of the turning bottom plate rotating shaft is rotatably connected with the other turning bottom plate swinging rod.

The edge hooking component 106 comprises an edge hooking cylinder mounting plate 1061, an edge hooking downward-pressing cylinder 1062, an edge hooking cylinder 1064, an edge hooking cylinder seat 1065, an edge hooking plate 1066 and an edge hooking pressing plate 1067, wherein the edge hooking cylinder mounting plate 1061 is arranged between two turnover bottom plate swing rods 1055, two ends of the edge hooking cylinder mounting plate 1061 are fixedly connected with the side walls of the two turnover bottom plate swing rods 1055 respectively, the edge hooking downward-pressing cylinder 1062 is arranged at the bottom of the edge hooking cylinder mounting plate 1061, the edge hooking cylinder mounting plate 1061 is arranged at the output end of the edge hooking downward-pressing cylinder 1062, the edge hooking cylinder 1064 is arranged at the bottom of the edge hooking cylinder mounting plate 1061, the edge hooking cylinder seat 1065 is arranged at the end of the edge hooking cylinder 1064, the edge hooking plate 1066 is arranged at the bottom of the edge hooking cylinder seat 1065, and the edge hooking pressing plate 1067 is arranged on the side wall of the edge hooking plate 1066.

The upper plate border part 107 includes border rubber roll connecting shaft 1071, border rubber roll 1072 and two border rubber roll mount pads 1073, two border rubber roll mount pads 1073 set up respectively on the lateral wall of two drawing of patterns curb plate 1012, border rubber roll connecting shaft 1071's both ends rotate with the lateral wall of two border rubber roll mount pads 1073 respectively and are connected, border rubber roll 1072 cover is established on the rubber roll connecting shaft, and border rubber roll 1072 can realize pressing the roller action industry to the top of carton, improves the accuracy of wine box lateral wall facial tissue and grey board processing.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (9)

1. A demoulding station for folding the upper bottom plate, characterized in that it comprises a demoulding mounting part (101), a supporting box part (102), an upper bottom plate part (103), a pushing bottom plate part (104), a flipping bottom plate A part (105), a hemming part (106), an upper bottom plate hemming part (107), and a demolding part (108), the bracket part (102) is arranged at the bottom of the demoulding installation part (101), the bracket The output end of the box part (102) is arranged inside the demoulding installation part (101), the demoulding part (108) is installed in the middle part of the demoulding installation part (101), and the part of the demoulding part (108) is The end is plugged into the output end of the tray part (102), the upper bottom plate part (103) is mounted on the top of the demoulding mounting part (101), and the pushing bottom plate part (104) is arranged on the upper bottom plate part (104). 103) and at the bottom thereof, the flip-up bottom part (105) is arranged on the top of the demolding mounting part (101) and on the side of the upper bottom plate part (103), and the hooking part (106) is mounted on the The bottom of the upper bottom plate part (103) is butted with the output end of the turning bottom plate part (105), and the demoulding installation part (101) comprises a demoulding bottom plate (1011), two demoulding side plates (1012), two The upper base plate part mounting plate (1013), several side plate fixing parts (1014) and two flipping bottom plate part mounting plates (1015), the two said demoulding side plates (1012) are symmetrically mounted on the demolding bottom plate (1011) The top of the two upper base plate component mounting plates (1013) are respectively arranged on the top of the two demolding side plates (1012), and a fixed distance is left between the two upper bottom plate component mounting plates (1013), and the two The mounting plates (1015) for the flip-up bottom plate components are respectively arranged on top of the two upper bottom plate component mounting plates (1013). at the corners between the baseplate assembly mounting plates (1013). 2 . The upper bottom plate folding and upper opening demoulding station according to claim 1 , wherein the holder part (102) comprises a holder assembly motor (1021) and a holder motor mounting plate (1022) 2 . , a tray adjusting screw (1023), a wine tray tray (1024) and several tray assembly guide rods (1025), the tray assembly motor (1021) is mounted on the bottom of the tray motor mounting plate (1022), and several tray assembly motors (1021) are installed at the bottom of the tray motor mounting plate (1022). The tray assembly guide rods (1025) are distributed on the tray motor mounting plate (1022) in a rectangular structure, and the bottom end of each tray assembly guide rod (1025) rotates with the tray motor mounting plate (1022). connected, each guide rod (1025) of the tray assembly passes through the stripping bottom plate (1011) in the vertical direction and is arranged between the two stripping side plates (1012), and the wine tray tray (1024) ) on top of all tray assembly guide bars (1025). 3. A demolding station for folding the upper bottom plate according to claim 2, wherein the demolding component (108) comprises a first demolding assembly (109) and a second demolding assembly (110), the first demolding assembly (109) is installed on the top of the demoulding bottom plate (1011), and the second demolding assembly (110) is installed on the top of the first demolding assembly (109) At one end, the first demolding assembly (109) includes a first demoulding guide rail fixing seat (1091), a second demolding guide rail fixing seat (1092), a demoulding support plate (1093), and a demoulding motor tensioning seat (1094), ejection motor fixing seat (1095), ejection motor (1096), first drive pulley (1097), second drive pulley, positioning drive belt (1099) and two ejection guide rails (10991), the The first stripping guide rail fixing seat (1091) and the second stripping guide rail fixing base (1092) both have a stepped structure and are symmetrically installed on the top of the stripping bottom plate (1011), and the stripping support plate (1093) is installed on the top of the stripping base plate (1093). The tops of the first demolding guide rail fixing seat (1091) and the second demolding guide rail fixing seat (1092), the two demoulding guide rails (10991) are respectively arranged on the first demoulding guide rail fixing seat (1091) and the second demoulding guideway fixing seat (1091) On the step of the side wall of the guide rail fixing seat (1092), the demoulding motor fixing seat (1095) is installed on the side wall of the first demolding guide rail fixing seat (1091), and the demolding motor (1096) is installed on the side wall of the first demolding guide rail fixing seat (1091). On the side wall of the mold motor holder (1095), the main shaft of the mold release motor (1096) runs through the mold release motor holder (1095) and the mold release motor tensioning seat (1094), and the first transmission pulley (1097) ) is installed on the main shaft of the demolding motor (1096), the second transmission pulley is installed in the middle part of the second demoulding guide rail fixing seat (1092), and the positioning transmission belt (1099) is sleeved on the first transmission pulley (1099). 1097) and the second drive pulley. 4. The upper bottom plate folding and upper opening demoulding station according to claim 3, wherein the second demolding assembly (110) comprises a demoulding cylinder bottom plate (1101) and two symmetrically arranged The positioning and demolding parts on the bottom plate of the demolding cylinder (1101), the output ends of the two positioning and demolding parts are arranged opposite to each other, and each of the positioning and demolding parts includes a demoulding cylinder support (1102), a demoulding cylinder adjustment Plate (1103), stripping cylinder mounting plate (1104), stripping cylinder (1105) and stripping press plate (1106), the stripping cylinder support (1102) is vertically installed on the stripping cylinder bottom plate (1101) ), the demolding cylinder adjusting plate (1103) is installed on the top of the demolding cylinder support (1102), the demolding cylinder mounting plate (1104) is installed on the top of the demolding cylinder adjusting plate (1103), The demolding cylinder (1105) is arranged on the top of the demoulding cylinder mounting plate (1104), and the demolding pressing plate (1106) is installed at the output end of the demoulding cylinder (1105), and the demolding cylinder (1105) The output direction is perpendicular to the setting direction of the demoulding cylinder bottom plate (1101). 5. The upper bottom plate folding and upper opening demoulding station according to claim 4, wherein the upper bottom plate part (103) comprises two bottom plate adjusting plate guide shafts (1031) and two oppositely arranged guide shafts (1031) The upper bottom plate assembly (1032), the two bottom plate adjusting plate guide shafts (1031) are arranged between the two upper bottom plate assemblies (1032), and each of the bottom plate adjusting plate guide shafts (1031) has two The upper floor assemblies (1032) are connected and formed, and each of the upper floor assemblies (1032) includes an upper floor side plate (1033), a floor width adjusting plate (1034), a floor supporting profile (1035), and a floor length limiting plate (1036). ), a bottom plate width adjustment screw (1037) and two bottom plate thickness adjustment plates (1038), the upper bottom plate side plate (1033) is mounted on the top of the upper bottom plate component mounting plate (1013), the bottom plate width adjustment plate (1034) ) is installed on the inner side wall of the upper bottom plate side plate (1033), the bottom plate supporting profile (1035) is installed on the inner side wall of the bottom plate width adjusting plate (1034), and the bottom plate width adjusting screw (1037) is installed on the upper bottom plate On the side plate (1033), the bottom plate width adjusting screw (1037) sequentially penetrates the upper bottom plate side plate (1033) and the bottom plate width adjusting plate (1034) along the horizontal direction, and the two bottom plate thickness adjusting plates (1038) are symmetrical Installed on the side wall of the floor width adjustment plate (1034). 6 . The upper bottom plate folding and upper opening demoulding station according to claim 5 , wherein the pushing bottom plate component ( 104 ) comprises a first pushing bottom plate cylinder mounting seat ( 1041 ), a second pushing bottom plate cylinder Mounting base (1042), base plate cylinder guide rail connection base (1043), push base plate length adjustment block (1044), push base plate thickness adjustment block (1045), push base plate cylinder (1046), push base plate hydraulic buffer (1047) and two push bottom plate guide rails (1048), the first push bottom plate cylinder mounting seat (1041) and the second push bottom plate cylinder mounting seat (1042) are symmetrically installed between the two bottom plate width adjustment plates (1034), two The push bottom plate guide rail (1048) is arranged between the first push bottom plate cylinder mounting seat (1041) and the second push bottom plate cylinder mounting seat (1042), and the push bottom plate cylinder guide rail connecting seat (1043) is connected to the two push bottom plate The output ends of the guide rails (1048) are fixedly connected, and the base plate pushing cylinder (1046) is installed between the two pushing base plate guide rails (1048). 7. The upper base plate folding and upper opening demoulding station according to claim 6, wherein the turning base plate component (105) comprises a turning base plate rotating shaft seat (1051), a turning base plate cylinder mounting seat (1052) ), floor-turning cylinder (1053), connecting rod of turning-floor cylinder (1054), two floor-turning swing rods (1055), two floor-turning support plates (1056), two floor-turning width adjustment blocks (1057) and a The length adjustment block (1058) of the bottom-turning bottom plate, the mounting seat of the bottom-turning bottom plate cylinder (1052) is installed on the side wall of the side plate (1033) of the upper bottom plate, and the rear end of the bottom-turning bottom plate cylinder (1053) is connected with the mounting seat of the bottom-turning bottom plate cylinder (1052) Hinged, the connecting rod of the bottom plate cylinder (1054) is installed on the end of the telescopic rod of the bottom plate cylinder (1053), and the two swing rods (1055) of the bottom plate are symmetrically mounted on the mounting plate (1013) of the bottom plate part ), two of the flip-up bottom support plates (1056) are respectively installed on the top of the flip-up bottom plate swing rod (1055), and the two flip-up bottom plate width adjustment blocks (1057) correspond to the positions of the two flip-up bottom plate push plates one-to-one , each of the turning base width adjustment blocks (1057) is installed on the top of one turning base supporting plate (1056), and the turning base length adjusting blocks (1058) are installed on the top of two turning base supporting plates (1056) At one end, the turning base plate rotating shaft seat (1051) is installed on the side wall of one of the turning base plate swing bars (1055), and the other end of the turning base plate rotating shaft is rotatably connected with the other turning plate swing bar. 8. The upper bottom plate folding and upper opening demoulding station according to claim 7, wherein the hemming component (106) comprises a hemming cylinder mounting plate (1061), a hemming pressing cylinder (1062) ), hemming cylinder (1064), hemming cylinder seat (1065), hemming plate (1066) and hemming pressure plate (1067), the hemming cylinder mounting plate (1061) is arranged on the two swinging rods ( 1055), the two ends of the hooking cylinder mounting plate (1061) are respectively fixedly connected with the side walls of the two bottom-turning swing bars (1055), and the hooking pressing cylinder (1062) is installed on the hooking cylinder. The bottom of the mounting plate (1061), the hemming cylinder mounting plate (1061) is arranged at the output end of the hemming pressing cylinder (1062), the hemming cylinder (1064) is arranged on the hemming cylinder mounting plate (1061) ), the hooking cylinder seat (1065) is installed on the end of the telescopic rod of the hooking cylinder (1064), the hooking plate (1066) is installed at the bottom of the hooking cylinder seat (1065), the hook The side pressing plate (1067) is installed on the side wall of the edging plate (1066). 9. The upper base plate folding and upper opening demoulding station according to claim 8, wherein the upper base plate hemming component (107) comprises a hemming rubber roller connecting shaft (1071), a hemming rubber roller (1072) and two piping mounting seats (1073), the two piping mounting seats (1073) are respectively arranged on the side walls of the two stripping side plates (1012), and the piping is connected to the shaft (1071). ) are respectively rotatably connected with the side walls of the two piping rubber roller mounting seats (1073), and the piping rubber rollers (1072) are sleeved on the roller connecting shaft.

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