CN111137044A - Intelligent printing adhesive binding cutting machine - Google Patents

Abstract

The invention relates to an intelligent printing adhesive cutting machine which comprises a printing module (4), an adhesive module (6) and a cover cutting module (9) which are sequentially connected, wherein a paper feeding sorting mechanism (3) is arranged between the printing module (4) and the adhesive module (6), the paper feeding sorting mechanism (3) comprises a first vibrating module (39), a second vibrating module (40), a first sliding groove (41), a supporting rod (42), a baffle (43), a first bottom plate (46), a hydraulic rod (44) and a rod sleeve (45) arranged on the hydraulic rod (44), the hydraulic rod (44) moves downwards, the first bottom plate (46) inclines towards the baffle (43), and the first vibrating module (39) and the second vibrating module (40) are matched to sort printed paper in the printing module (4). Compared with the prior art, the paper sheet integrating device has the advantages of being good in paper sheet integrating effect, improving the stability of paper sheets in the transportation process and the like.

Description

Intelligent printing adhesive binding cutting machine

Technical Field

The invention relates to the field of printing adhesive bonds, in particular to an intelligent printing adhesive bond cutting machine.

Background

With the development of the times, people have more and more requirements on printing and gluing, and the requirements are higher and higher, particularly, the printing, gluing and cutting are mostly involved in the homework of students in the school stage, test papers and out-of-class paper works in a plurality of families. The printer, the glue binding machine and the cutting machine have higher price, large occupied area and complex use and maintenance, and direct purchase does not meet the practical life for family users.

Large-scale image and text manufacturing companies use large-scale printing and gluing equipment, the printing, gluing and cutting efficiency is high, the general charge is higher, and the large-scale image and text manufacturing company is not suitable for the consumption level of popular residents. In practical situations, the number of documents to be printed, glued and cut per time is usually not large for individual users, and large-scale graphics production companies do not accept such small-lot production.

The gluing and cutting equipment in small-size print shops is not high in automation degree relatively, and the low efficiency generally needs manual cooperation operation. For example, the existing small-sized glue binding machine basically has a glue binding function, and the small-sized glue binding machine is limited by the capacity of a glue bin, so that glue is often injected manually for many times, and the labor intensity is high; the work such as cutting out of front cover after the mucilage binding is finished all needs manual operation to be finished respectively, and the efficiency is low, and the operation is complicated. Manual cutting requires precise alignment and pressing of the cut, requiring a high degree of operator skill. Whether the blade of tailorring can injure customer, whether tailorring can accurately accomplish without mistake, whether the position can align when the strip of paper used for sealing cutting, these all need the manual work to go the problem of solving, and the reality condition is, even if skilled operator also takes place easily to injure the hand, tailors the blade and does not wait the problem, and the quality stability of mucilage binding goods is not enough.

The large printing, gluing and cutting device has high automation degree and high efficiency, but is difficult to recall wrong programs, and once the intermediate process is interrupted, the programs are difficult to cancel, so that printing paper waste is easily caused.

Disclosure of Invention

The invention aims to provide an intelligent printing adhesive binding cutting machine for overcoming the defect that the paper of the printing, adhesive binding and cutting machine in the prior art is not stable enough in the conveying process.

The purpose of the invention can be realized by the following technical scheme:

an intelligent printing adhesive binding cutting machine comprises a printing module, an adhesive binding module and a cover cutting module which are connected in sequence, a paper feeding arrangement mechanism is arranged between the printing module and the gluing module, the paper feeding arrangement mechanism comprises a first vibration module, a second vibration module, a first chute, a support rod, a baffle plate, a first bottom plate, a hydraulic rod and a rod sleeve arranged on the hydraulic rod, the first bottom plate is parallel to the paper outlet of the printing module, the support rod is positioned in the first chute, the hydraulic rod and the support rod are both arranged below the first bottom plate, the first vibration module and the second vibration module are arranged in the middle layer in the first bottom plate, the baffle is arranged at two adjacent sides of the first bottom plate and is opposite to the paper outlet of the printing module, the hydraulic rod moves downwards, the first bottom plate is inclined towards the baffle, and the paper finishing printing in the printing module is arranged by matching with the first vibration module and the second vibration module.

Preferably, the number of the hydraulic rods is 2, and the hydraulic rods are arranged at one end, far away from the paper outlet, of the first bottom plate.

Preferably, the support rod is arranged at the other end, far away from the hydraulic rod, of the first bottom plate.

Preferably, the length of the first sliding groove is less than half of the length of the first bottom plate.

Still be equipped with the paging wheel between print module and the mucilage binding module and press from both sides paper transport mechanism, press from both sides paper transport mechanism and include flexible component, positioning element, clamping element, first splint, second splint, connecting rod, third fixed plate, connecting strip, slider, second spout and first lead screw, flexible component locates positioning element's top, and positioning element is fixed in on the slider through connecting strip and third fixed plate, and positioning element passes through the clamping element of bottom and is connected with first splint and second splint, the quantity of first lead screw is 2, all passes from the slider is inside, in the second spout is located to the connecting strip, is equipped with between the connecting strip the connecting rod.

The mucilage binding module is including keeping off the offset plate, going out jiao kou, first gear, rubber tyer and glue pond, go up the rubber tyer nestification in the glue pond, through first rotation axis and the first gear connection who is located the outside both sides in glue pond, go out jiao kou and locate the glue pond bottom, be equipped with the anti-overflow plate between the inner wall of going up offset wheel and glue pond, prevent that glue from spilling in the part gap, keep off the play paper end that the offset plate is located the glue pond and be a little higher than the glue pond, get rid of unnecessary glue on the paper.

The cover cutting module comprises a rack, a second bottom plate, a vertical cutter, a cylindrical roller and a paper clamp, wherein a reel type cover is arranged on the cylindrical roller, a second gear and a third gear are arranged at two ends of the cylindrical roller, the second gear is arranged on the rack, the rack is fixed on the second bottom plate, a notch is formed in the middle of the second bottom plate, the vertical cutter and the paper clamp are arranged at the same end of the second bottom plate, the paper clamp is fixed on a support, an electromagnet is arranged on the support, a second rotating shaft is arranged in the cylindrical roller, and the second rotating shaft is fixed in the cylindrical roller through a bearing.

An application of an intelligent printing adhesive package cutting machine comprises the intelligent printing adhesive package cutting machine and a logistics module, wherein the logistics module comprises a first conveying wheel, a paper conveying frame, a second screw rod, a third screw rod, a second fixing plate, a first fixing plate and a logistics cabinet, wireless receiving and sending modules are arranged in the paper conveying frame, the printing module and the logistics cabinet, the paper conveying frame is connected with a paper outlet of a front cover cutting module through the first conveying wheel, a plurality of cabinet doors and corresponding storage lattices are arranged on the logistics cabinet, the paper conveying frame comprises a second conveying wheel, a top plate and a third bottom plate, the third screw rod penetrates through the third bottom plate and is fixed on the second fixing plate, the second conveying wheel is fixed above the third bottom plate through the first fixing plate, four corners of the third bottom plate are connected with the top plate through guide rails, and the guide rails are perpendicular to the third bottom plate, and a second screw rod is arranged on the first fixing plate and is parallel to the guide rail.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, the first bottom plate is inclined by downwards moving the hydraulic rod, and the resistance between the paper sheets is reduced by matching with the vibration module, so that gaps in the paper sheets are further loosened, and a better integration effect is achieved.

2. The supporting rod is arranged to play a supporting role in the paper feeding and finishing process, so that paper falling caused by excessive inclination of the device is prevented.

3. The invention utilizes the roller to unfold and cut the cover to the required length, effectively avoids the waste of paper materials, and utilizes the matching of the clamping plate and the bottom plate to enable the front cover to be flatly placed and press the cementing part, and simultaneously ensures the smoothness of the corners of the paper.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of a paper clamping and conveying mechanism according to the present invention;

FIG. 3 is a schematic diagram of a cover cutting module according to the present invention;

FIG. 4 is a schematic view of a logistics module of the present invention;

FIG. 5 is a schematic view of a glue module of the present invention;

FIG. 6 is a schematic view of a paper feeding and finishing mechanism according to the present invention.

Reference numerals:

1-a paper clamping and conveying mechanism; 2-a paging wheel; 3-paper feeding and finishing mechanism; 4-a printing module; 5-a logistics module; 6-gluing a module; 7-a sheet transport rack; 8-a first transfer wheel; 9-cover cutting module; 10-a telescopic element; 11-a positioning element; 12-a clamping element; 13-a first splint; 14-a second splint; 15-a connecting rod; 16-a third fixing plate; 17-a connecting strip; 18-a slide block; 19-a second runner; 20-a first lead screw; 21-a second gear; 22-a rack; 23-a second base plate; 24-a vertical cutter; 25-notches; 26-a bearing; 27-a second axis of rotation; 28-a third gear; 29-a cylindrical drum; 30-a paper clip; 31-an electromagnet; 32-a scaffold; 33-glue blocking plate; 34-a glue outlet; 35-a first gear; 36-a first axis of rotation; 37-gluing wheels; 38-spill plate; 39-a first vibration module; 40-a second vibration module; 41-a first runner; 42-a support bar; 43-a baffle; 44-hydraulic rods; 45-rod sleeve; 46-a first base plate; 47-Logistics cabinets; 48-a second screw rod; 49-a guide rail; 50-a cabinet door; 51-a third base plate; 52-a top plate; 53-third lead screw; 54-a first fixing plate; 55-a second transfer wheel; 56-second fixing plate.

Detailed Description

The invention is described in detail below with reference to the figures and specific embodiments. The present embodiment is implemented on the premise of the technical solution of the present invention, and a detailed implementation manner and a specific operation process are given, but the scope of the present invention is not limited to the following embodiments.

As shown in fig. 1, an intelligent printing adhesive package cutting machine comprises a printing module 4, an adhesive package module 6, a cover cutting module 9 and a logistics module 5 which are connected in sequence, wherein a paper feeding arrangement mechanism 3 is arranged between the printing module 4 and the adhesive package module 6, as shown in fig. 6, the paper feeding arrangement mechanism 3 comprises a first vibration module 39, a second vibration module 40, a first chute 41, a support rod 42, a baffle 43, a first bottom plate 46, a hydraulic rod 44 and a rod sleeve 45 arranged on the hydraulic rod 44, the first bottom plate 46 is parallel to a paper outlet of the printing module 4, the support rod 42 is positioned in the first chute 41, the hydraulic rod 44 and the support rod 42 are both arranged below the first bottom plate 46, the first vibration module 39 and the second vibration module 40 are arranged in an inner middle layer of the first bottom plate 46, the baffle 43 is arranged on two adjacent sides of the first bottom plate 46 and is opposite to the paper outlet of the printing module 4, the hydraulic rod 44 moves downwards, the first base plate 46 is inclined toward the baffle 43, and cooperates with the first vibration module 39 and the second vibration module 40 to arrange the printed paper in the printing module 4.

The number of the hydraulic rods 44 is 2, and the hydraulic rods are arranged at one end of the first bottom plate 46 far away from the paper outlet.

The support rod 42 is provided on the other end of the first base plate 46 remote from the hydraulic rod 44.

The length of the first chute 41 is less than one-half the length of the first bottom plate 46.

Still be equipped with paging wheel 2 and double-layered paper transport mechanism 1 between print module 4 and the mucilage binding module 6, as shown in fig. 2, double-layered paper transport mechanism 1 includes telescopic element 10, positioning element 11, clamping element 12, first splint 13, second splint 14, connecting rod 15, third fixed plate 16, connecting strip 17, slider 18, second spout 19 and first lead screw 20, telescopic element 10 locates the top of positioning element 11, positioning element 11 is fixed in on slider 18 through connecting strip 17 and third fixed plate 16, positioning element 11 is connected with first splint 13 and second splint 14 through the clamping element 12 of bottom, the quantity of first lead screw 20 is 2, all pass from slider 18 inside, connecting strip 17 is located in second spout 19, be equipped with connecting rod 15 between the connecting strip 17.

As shown in fig. 5, the gluing module 6 includes a glue blocking plate 33, a glue outlet 34, a first gear 35, a glue applying wheel 37 and a glue pool, the glue applying wheel 37 is nested in the glue pool and connected with the first gear 35 located at two sides of the outside of the glue pool through a first rotating shaft 36, the glue outlet 34 is located at the bottom of the glue pool, an overflow preventing plate 38 is arranged between the glue applying wheel 37 and the inner wall of the glue pool to prevent glue from leaking out from a gap between parts, and the glue blocking plate 33 is located at a paper outlet end of the glue pool and slightly higher than the glue pool to remove excess glue on paper.

As shown in fig. 3, the front cover cutting module 9 includes a rack 22, a second bottom plate 23, a vertical cutter 24, a cylindrical roller 29 and a paper clamp 30, wherein a second gear 21 and a third gear 28 are disposed at two ends of the cylindrical roller 29, the second gear 21 is disposed on the rack 22, the rack 22 is fixed on the second bottom plate 23, a notch 25 is disposed in the middle of the second bottom plate 23, the vertical cutter 24 and the paper clamp 30 are disposed at the same end of the second bottom plate 23, the paper clamp 30 is fixed on a bracket 32, an electromagnet 31 is disposed on the bracket, a second rotating shaft 27 is disposed in the cylindrical roller 29, and the second rotating shaft 27 is fixed in the cylindrical roller 29 through a bearing 26.

As shown in fig. 4, an application of an intelligent printing adhesive package cutting machine comprises the intelligent printing adhesive package cutting machine and a logistics module 5, wherein the logistics module 5 comprises a first transmission wheel 8, a paper transmission frame 7, a second lead screw 48, a third lead screw 53, a second fixing plate 56, a first fixing plate 55 and a logistics cabinet 47, wireless receiving and sending modules are arranged in the paper transmission frame 7, the printing module 4 and the logistics cabinet 47, the paper transmission frame 7 is connected with a paper outlet of the front cover cutting module 5 through the first transmission wheel 8, a plurality of cabinet doors 50 and corresponding storage lattices are arranged on the logistics cabinet 47, the paper transmission frame 7 comprises a second transmission wheel 56, a top plate 52 and a third bottom plate 51, the third lead screw 53 passes through the inside of the third bottom plate 51 and is fixed on the second fixing plate 56, the second transmission wheel 56 is fixed above the third bottom plate 51 through the first fixing plate 55, four corners of the third bottom plate 51 are connected with the top plate 52 through guide rails 49, the guide rail 49 is perpendicular to the third bottom plate 51, the first fixing plate 55 is provided with a second screw 48, and the second screw 48 is parallel to the guide rail 49.

Example one

The printing module 4 receives a printing instruction and printing content sent by a user through a terminal through the wireless receiving and sending module, the printing module 4 leaves from the paper outlet after the printing of the paper is finished, the paper enters the paper arranging mechanism 3, the baffle 43 stops the paper from sliding down and enables the paper to be placed neatly, the hydraulic rod 44 moves downwards after the printing is finished, the first bottom plate 46 inclines towards the baffle 43, and the first vibration module 39 and the second vibration module 40 vibrate to finish the arranging of the paper. The clamping element 12 is extended by the connecting strip 17, the first clamping plate 13 and the second clamping plate 14 are opened and clamp all the paper and then contract, and then the first screw rod 20 rotates to drive the slide block 18 to move rightwards, so that the paper is driven to be transported to the gluing module 6 through the page separating wheel 2.

The paper gluing edge after paging is glued through gluing wheel 37, a glue pool is arranged below gluing wheel 37, the motor drives first gear 35, first rotating shaft 36 and gluing wheel 37 perform circular motion, and gluing wheel 37 is driven to convey glue in the gluing pool below to the upper side so as to be smeared to the paper gluing edge.

The cylindrical roller 29 moves back and forth under the connection and matching of the second gear 21 and the rack 22, the reel type cover on the cylindrical roller is covered on the second bottom plate 23, the paper clamping and conveying mechanism 1 conveys the glued paper to the cover cutting module 9 and places the glued paper on the cover corresponding to the notch 25 on the second bottom plate 23, and the vertical cutter 24 cuts the cover and stops the cover on the bottom plate 23 for 10s to complete packaging.

Tailor the paper after the encapsulation and transport to commodity circulation module 5 through first transfer gear 8, the wireless receiving and dispatching module of paper conveying frame 7 receives the instruction of depositing that commodity circulation cabinet 47 sent, the upper and lower removal of rotary control paper conveying frame 7 through motor control second lead screw 48 and third lead screw 54 makes paper conveying frame 7 stop to before depositing the cabinet door 50 that the instruction corresponds, cabinet door 50 is opened, second transfer gear 56 rotates and sends the paper into the matter storage lattice, after the paper got into the matter storage lattice, commodity circulation cabinet 47 received the module through wireless receiving and dispatching and tells the user through sending and dispatching and prints the completion, and send the piece code and be used for the user to take the paper away.

In addition, it should be noted that the specific embodiments described in the present specification may have different names, and the above descriptions in the present specification are only illustrations of the structures of the present invention. Minor or simple variations in the structure, features and principles of the present invention are included within the scope of the present invention. Various modifications or additions may be made to the described embodiments or methods may be similarly employed by those skilled in the art without departing from the scope of the invention as defined in the appending claims.

Claims (8)

1. The utility model provides an intelligent printing mucilage binding cutter, includes print module (4), mucilage binding module (6) and the front cover cutting module (9) that connect gradually, its characterized in that, be equipped with between print module (4) and the mucilage binding module (6) and go into paper arrangement mechanism (3), go into paper arrangement mechanism (3) including first vibrations module (39), second vibrations module (40), first spout (41), bracing piece (42), baffle (43), first bottom plate (46), hydraulic stem (44) and locate rod cover (45) on hydraulic stem (44), first bottom plate (46) are parallel with the exit slot of print module (4), bracing piece (42) are located first spout (41), and hydraulic stem (44) and bracing piece (42) all locate first bottom plate (46) below, and the inside intermediate level of first bottom plate (46) is located to first vibrations module (39) and second vibrations module (40), baffle (43) are located the adjacent both sides of first bottom plate (46) and towards the exit slot of printing module (4), and hydraulic stem (44) move down, and first bottom plate (46) slope to baffle (43) direction, and with first vibrations module (39) and second vibrations module (40) cooperation to accomplish the paper of printing in printing module (4) and arrange in order.

2. The intelligent printing adhesive binding and cutting machine according to claim 1, wherein the number of the hydraulic rods (44) is 2, and the hydraulic rods are arranged at one end of the first bottom plate (46) far away from the paper outlet.

3. The intelligent printing adhesive binding and cutting machine according to claim 2, wherein the supporting rod (42) is arranged at the other end of the first bottom plate (46) far away from the hydraulic rod (44).

4. The intelligent printing adhesive binding and cutting machine according to claim 1, wherein the length of the first chute (41) is less than half of the length of the first bottom plate (46).

5. The intelligent printing adhesive cutting machine according to claim 1, wherein a paging wheel (2) and a paper clamping conveying mechanism (1) are further arranged between the printing module (4) and the adhesive module (6), the paper clamping conveying mechanism (1) comprises a telescopic element (10), a positioning element (11), a clamping element (12), a first clamping plate (13), a second clamping plate (14), a connecting rod (15), a third fixing plate (16), a connecting strip (17), a sliding block (18), a second sliding groove (19) and a first screw rod (20), the telescopic element (10) is arranged at the top end of the positioning element (11), the positioning element (11) is fixed on the sliding block (18) through the connecting strip (17) and the third fixing plate (16), and the positioning element (11) is connected with the first clamping plate (13) and the second clamping plate (14) through the clamping element (12) at the bottom end, the quantity of first lead screw (20) is 2, all passes from slider (18) inside, in second spout (19) are located in connecting strip (17), be equipped with between connecting strip (17) connecting rod (15).

6. The intelligent printing and gluing cutting machine according to claim 1, wherein the gluing module (6) comprises a glue blocking plate (33), a glue outlet (34), a first gear (35), a glue feeding wheel (37) and a glue pool, the glue feeding wheel (37) is nested in the glue pool and is connected with the first gear (35) positioned on two sides of the outside of the glue pool through a first rotating shaft (36), the glue outlet (34) is arranged at the bottom of the glue pool, an overflow preventing plate (38) is arranged between the glue feeding wheel (37) and the inner wall of the glue pool, and the glue blocking plate (33) is positioned at the paper outlet end of the glue pool and is slightly higher than the glue pool.

7. The intelligent printing adhesive binding and cutting machine according to claim 1, the front cover cutting module (9) comprises a rack (22), a second bottom plate (23), a vertical cutter (24), a cylindrical roller (29) and a paper clip (30), a second gear (21) and a third gear (28) are arranged at two ends of the cylindrical roller (29), the second gear (21) is arranged on a rack (22), the rack (22) is fixed on the second bottom plate (23), a notch (25) is arranged in the middle of the second bottom plate (23), the vertical cutter (24) and the paper clip (30) are arranged at the same end of the second bottom plate (23), the paper clip (30) is fixed on a bracket (32), the bracket is provided with an electromagnet (31), a second rotating shaft (27) is arranged in the cylindrical roller (29), and the second rotating shaft (27) is fixed in the cylindrical roller (29) through a bearing (26).

8. The application of the intelligent printing adhesive package cutting machine according to any one of claims 1-7, comprising the intelligent printing adhesive package cutting machine and a logistics module (5), wherein the logistics module (5) comprises a first transmission wheel (8), a paper transmission frame (7), a second screw rod (48), a third screw rod (53), a second fixing plate (56), a first fixing plate (55) and a logistics cabinet (47), wireless receiving and sending modules are arranged in the paper transmission frame (7), the printing module (4) and the logistics cabinet (47), the paper transmission frame (7) is connected with a paper outlet of the cover cutting module (5) through the first transmission wheel (8), a plurality of cabinet doors (50) and corresponding storage lattices are arranged on the logistics cabinet (47), the paper transmission frame (7) comprises a second transmission wheel (56), a top plate (52) and a third bottom plate (51), the third screw rod (53) penetrates through the third bottom plate (51) and is fixed on a second fixing plate (56), the second transmission wheel (56) is fixed above the third bottom plate (51) through a first fixing plate (55), four corners of the third bottom plate (51) are connected with the top plate (52) through guide rails (49), the guide rails (49) are perpendicular to the third bottom plate (51), a second screw rod (48) is arranged on the first fixing plate (55), and the second screw rod (48) is parallel to the guide rails (49).

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