CN112918004A

CN112918004A - A rubber coating device for carton production

Info

Publication number: CN112918004A
Application number: CN202110393254.4A
Authority: CN
Inventors: 朱飞
Original assignee: Yancheng Dabaiyang Color Printing Co ltd
Current assignee: Yancheng Dabaiyang Color Printing Co ltd
Priority date: 2021-04-13
Filing date: 2021-04-13
Publication date: 2021-06-08

Abstract

The invention discloses a gluing device for carton production, which solves the problems of low automation degree, uneven gluing and low working efficiency of the existing carton gluing; the translation assembly drives the paper box to reciprocate along the X direction, so that the paper box is continuously contacted with the gluing cylinder to drive the gluing cylinder to roll, and automatic gluing is completed. The two transmission parts are driven to synchronously move through belt transmission of the driving part, the belt pulley drives the main transmission shaft to rotate, the cam rotates, the cam is abutted against the rotating wheel to drive the fixing column to reciprocate in the X direction, and the supporting plate and the carton move along with the fixing column; form the voussoir structure through driving block, stopper, the auxiliary cylinder drives the driving block downstream, utilizes first inclined plane and second inclined plane butt, turns into the side-to-side motion of stopper with the up-and-down motion of driving block, drives first curved bar, second curved bar and rotates, makes the distance between rubber coating section of thick bamboo and the driving roller reduce, rubber coating section of thick bamboo, driving roller respectively with the up end of carton, lower terminal surface butt.

Description

A rubber coating device for carton production

Technical Field

The invention particularly relates to a gluing device for carton production.

Background

With the progress of human beings, the transition of times, and the development of economy and society, the package is from endless, simple to frequent, and becomes a logistics activity inseparable in human production and life nowadays. In order to prevent the damage and deformation of the material, the material package must be able to withstand the external force such as various impacts, shocks, jolts, compression, friction, etc. during the loading, unloading, transportation, storage, etc. processes, so as to protect the external force.

The carton is the important component part of commodity circulation packing, and the carton is through cross cutting, indentation, deciding the case or gluing the case and making, and the rubber coating is the last process in the carton production, but current carton rubber coating degree of automation is low, adopts manual work usually, very easily appears the inhomogeneous condition of rubber coating, and work efficiency is low simultaneously, wastes time and energy.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a gluing device for carton production.

The technical scheme for solving the problems comprises the following steps: a gluing device for carton production comprises a bottom plate, a rack arranged on the bottom plate, a clamping assembly movably arranged on the rack and used for limiting a carton, a translation assembly arranged on the rack and used for driving the clamping assembly to reciprocate along the X direction, and a smearing assembly arranged on the bottom plate and positioned on the left side of the rack;

the clamping assembly comprises a supporting plate movably mounted at the top of the frame, a through groove is formed in the center of the supporting plate, and a vacuum chuck is mounted in the through groove, and the upper end face of the vacuum chuck is flush with the supporting plate;

the translation assembly comprises a fixed plate, transmission parts and driving parts, wherein the fixed plate is installed at the bottom of the supporting plate and is respectively positioned at the front side and the rear side of the supporting plate;

the transmission part comprises a vertical plate which is arranged on the bottom plate and is positioned at one end of the machine frame far away from the smearing component, a first supporting seat and a second supporting seat which are arranged on the vertical plate and distributed along the Z direction, a main transmission shaft with two ends respectively rotatably arranged on the first supporting seat and the second supporting seat through rolling bearings, a first gear arranged at the top of the transmission shaft, a cam arranged in the middle of the transmission shaft, a first slide bar which is arranged on the first supporting seat and is positioned at one end of the first supporting seat far away from the vertical plate, a first fixing seat movably arranged on the first slide bar, a second slide bar which is arranged on the second supporting seat and is positioned at one end of the second supporting seat far away from the vertical plate, a second fixing seat movably arranged on the second slide bar, a vertical column with one end arranged on the first fixing seat and the other end arranged on the second fixing seat, a rotating wheel which is, the device comprises a first gear, a second gear, a vertical seat A, a vertical seat B, a transmission ring, a secondary transmission shaft, a third gear, a fourth gear, a spring A and a spring B, wherein the second gear is installed at the top of a rotating shaft;

the driving part comprises a belt pulley arranged at the bottom of the main transmission shaft, an annular belt which is in friction transmission with the two belt pulleys simultaneously, and a driving motor which is arranged on the bottom plate and an output shaft of which is connected with one of the main transmission shafts.

Furthermore, a pair of slide rails distributed along the Y direction is installed at the top of the rack, and the support plate is installed on the slide rails.

Furthermore, a first sliding hole for a first sliding rod to penetrate through is formed in the first fixed seat, and the first sliding rod is matched with the first sliding hole in shape;

and a second sliding hole for the second sliding rod to penetrate through is formed in the second fixed seat, and the second sliding rod is matched with the second sliding hole in shape.

Further, the translation subassembly is still including installing the gluey bucket of depositing on the second fixing base, rotates through antifriction bearing and installs the (mixing) shaft of depositing in gluey bucket and top and pivot connection, installs at the epaxial stirring leaf of stirring.

Further, a jacket is arranged outside the glue storage barrel, and an electric heating pipe is arranged in the jacket;

deposit and glue the barrel head portion and be equipped with the feed inlet, deposit and glue the barrel head portion and be equipped with the discharge gate.

Further, the smearing assembly comprises a vertical arm arranged on the bottom plate, an auxiliary piece arranged on the vertical arm, and a smearing cylinder arranged on the auxiliary piece;

the auxiliary part comprises a pair of first guide rails arranged on the vertical arm and distributed along the Y direction, a transmission block arranged on the first guide rails, a first inclined plane arranged on one side of the transmission block facing the translation component, an auxiliary oil cylinder arranged on the vertical arm and connected with the transmission block by a telescopic rod, a limiting block movably arranged on the vertical arm, a second inclined plane arranged at one end of the limiting block close to the transmission block, a pair of first support rods arranged on the vertical arm and distributed along the Y direction, a first bending rod arranged above the support plate and provided with a bending angle and hinged with the first support rod, a first roller rotatably arranged at one end of the first bending rod and always abutted with the top of the limiting block, a pair of second support rods arranged on the vertical arm and distributed along the Y direction, and a second bending rod arranged with a bending angle and hinged with the second support rod, the second curved bar and the first curved bar are vertically symmetrical, a second roller which is installed at one end of the second curved bar and is always abutted to the bottom of the limiting block is rotated, the second roller and the first roller are vertically symmetrical, two ends of the second roller are respectively rotatably installed on a driving roller on the second curved bar, the driving roller and the gluing barrel are vertically symmetrical, one end of the spring C is installed on the second curved bar at the first curved bar, the other end of the spring C is installed on the second curved bar, and the limiting plate on the right side of the limiting block is installed.

Furthermore, the limiting block upper end face is provided with a third inclined face, the limiting block lower end face is provided with a fourth inclined face, and the third inclined face and the fourth inclined face are vertically symmetrical.

Furthermore, a pair of second guide rails distributed along the Y direction is installed on the vertical arm, the second guide rails are perpendicular to the first guide rails, and the limiting block is installed on the second guide rails.

Further, the gluing cylinder comprises a cylinder body with a hollow structure, a plurality of glue outlet holes are formed in the outer wall of the cylinder body, and bristles are arranged on the outer wall of the cylinder body;

both sides all are equipped with into jiao kou around the barrel, advance jiao kou and pass through conveyer pipe and discharge gate intercommunication, install the pump body and valve on the conveyer pipe.

The invention has the following beneficial effects: the invention solves the problems of low automation degree, non-uniform gluing and low working efficiency of the existing carton gluing; the translation assembly drives the paper box to reciprocate along the X direction, so that the paper box is continuously contacted with the gluing cylinder to drive the gluing cylinder to roll, and automatic gluing is completed. The two transmission parts are driven to synchronously move through belt transmission of the driving part, the belt pulley drives the main transmission shaft to rotate, the cam rotates, the cam is abutted against the rotating wheel to drive the fixing column to reciprocate in the X direction, and the supporting plate and the carton move along with the fixing column; through the transmission piece, the stopper forms the voussoir structure, and auxiliary cylinder drives the transmission piece downstream, utilizes first inclined plane and second inclined plane butt, turns into the side-to-side motion of stopper with the up-and-down motion of transmission piece, utilizes third inclined plane, fourth inclined plane, drives first knee, the rotation of second knee, makes the distance between rubber coating section of thick bamboo and the driving roller reduce, rubber coating section of thick bamboo, driving roller respectively with the up end of carton, lower terminal surface butt, cooperation translation subassembly completion rubber coating.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 is a schematic view of a translation assembly according to the present invention;

FIG. 4 is a cross-sectional view of the glue storage barrel of the present invention;

FIG. 5 is a schematic view of the applicator assembly of the present invention;

FIG. 6 is a schematic view of a limiting block structure according to the present invention;

FIG. 7 is a front cross-sectional view of a dispensing cartridge in accordance with the present invention.

In the figure:

1-a bottom plate, 2-a frame, 3-a clamping assembly, 4-a translation assembly, 5-a smearing assembly, 6-a slide rail, 7-a support plate, 8-a vacuum chuck, 9-a fixing plate, 10-a transmission member, 11-a driving member, 12-a vertical plate, 13-a first support seat, 14-a second support seat, 15-a main transmission shaft, 16-a first gear, 17-a cam, 18-a first slide rod, 19-a first fixed seat, 20-a second slide rod, 21-a second fixed seat, 22-an upright post, 23-a rotating wheel, 24-a rotating shaft, 25-a second gear, 26-an upright seat A, 27-an upright seat B, 28-a transmission ring, 29-a counter transmission shaft, 30-a third gear, 31-a fourth gear, 32-spring A, 33-spring B, 34-inserting column, 35-belt pulley, 36-annular belt, 37-driving motor, 38-glue storage barrel, 39-stirring shaft, 40-stirring blade, 41-electric heating pipe, 42-feeding port, 43-discharging port, 44-vertical arm, 45-auxiliary component, 46-glue coating barrel, 47-driving block, 48-first inclined plane, 49-auxiliary oil cylinder, 50-limiting block, 51-second inclined plane, 52-first supporting rod, 53-first bending rod, 54-second supporting rod, 55-second roller, 56-driving roller, 57-spring C, 58-limiting plate, 59-third inclined plane, 60-fourth inclined plane, 61-second guide rail and 62-barrel, 63-glue outlet, 64-brush hair, 65-glue inlet, 66-conveying pipe, 67-second bent rod and 68-carton.

Detailed Description

The invention is further described with reference to the following drawings and detailed description.

A gluing device for carton production comprises a bottom plate 1, a rack 2 mounted on the bottom plate 1, a clamping assembly 3 movably mounted on the rack 2 and used for limiting a carton 68, a translation assembly 4 mounted on the rack 2 and used for driving the clamping assembly 3 to reciprocate along the X direction, and a smearing assembly 5 mounted on the bottom plate 1 and located on the left side of the rack 2.

Clamping assembly 3 is including installing at 2 tops in the frame and along a pair of slide rail 6 that Y direction distributes, installs backup pad 7 on

slide rail

6, and 7 central point departments of backup pad are equipped with logical groove, install and lead to the vacuum chuck 8 of inslot and up end and backup pad 7 parallel and level.

When the vacuum sucking disc type paper box is used, the vacuum sucking disc 8 is matched with a vacuum pump for use, and the paper box 68 arranged on the supporting plate 7 is adsorbed and limited.

The translation component 4 comprises a fixed plate 9 which is arranged at the bottom of the supporting plate 7 and is respectively positioned at the front side and the rear side of the supporting plate 7, a transmission piece 10 which is arranged on the rack 2, is respectively positioned at the front side and the rear side of the supporting plate 7 and is connected with the fixed plate 9, and a driving piece 11 which is arranged on the transmission piece 10;

the transmission part 10 comprises a vertical plate 12 which is arranged on the bottom plate 1 and is positioned at one end of the machine frame 2 far away from the smearing component 5, a first supporting seat 13 and a second supporting seat 14 which are arranged on the vertical plate 12 and are distributed along the Z direction, a main transmission shaft 15 with two ends respectively rotatably arranged on the first supporting seat 13 and the second supporting seat 14 through rolling bearings, a first gear 16 arranged at the top of the transmission shaft, a cam 17 arranged in the middle of the transmission shaft, a first slide bar 18 which is arranged on the first supporting seat 13 and is positioned at one end of the first supporting seat 13 far away from the vertical plate 12, a first fixed seat 19 movably arranged on the first slide bar 18, a second slide bar 20 which is arranged on the second supporting seat 14 and is positioned at one end of the second supporting seat 14 far away from the vertical plate 12, a second fixed seat 21 movably arranged on the second slide bar 20, a vertical column 22 with one end arranged, a rotary wheel 23 rotatably mounted on the column 22 and always abutting against the cam 17, a rotary shaft 24 rotatably mounted on the first fixed seat 19 via a rolling bearing, a second gear 25 mounted on the top of the rotary shaft 24, a vertical seat a26 mounted on the first support seat 13, a vertical seat B27 mounted on the first fixed seat 19, a transmission ring 28 rotatably mounted on the vertical seat B27 via a rolling bearing, a counter-transmission shaft 29 having one end movably mounted on the transmission ring 28 and the other end rotatably mounted on the vertical seat B27 via a rolling bearing, a third gear 30 mounted on the counter-transmission shaft 29 and meshing with the first gear 16, a fourth gear 31 mounted on the transmission ring 28 and meshing with the second gear 25, a spring a32 having one end mounted on the column 22 and the other end mounted on the first support seat 13, a spring B33 having one end mounted on the column 22 and the other end mounted on the second support seat 14, a spring a32, a cam, The spring B33 is always in tension.

The inner wall of the transmission ring 28 is provided with a slot, the auxiliary transmission shaft 29 is provided with an inserting column 34 matched with the slot, and the inserting column 34 is inserted into the slot; the drive ring 28 drives synchronously with the counter drive shaft 29 and the counter drive shaft 29 is movable in the X direction.

The driving member 11 includes a pulley 35 mounted on the bottom of the main transmission shaft 15, an endless belt 36 frictionally driven with both pulleys 35, and a driving motor 37 mounted on the base plate 1 and having an output shaft connected to one of the main transmission shafts 15.

A first sliding hole for the first sliding rod 18 to penetrate through is formed in the first fixed seat 19, and the first sliding rod 18 is matched with the first sliding hole in shape; the second fixed seat 21 is provided with a second sliding hole for the second sliding rod 20 to penetrate through, and the second sliding rod 20 is matched with the second sliding hole in shape.

Translation subassembly 4 still includes the gluey bucket 38 of depositing of installation on second fixing base 21, rotates the (mixing) shaft 39 of installing in depositing gluey bucket 38 and top and being connected with pivot 24 through antifriction bearing, installs the stirring leaf 40 on (mixing) shaft 39. A jacket is arranged outside the glue storage barrel 38, and an electric heating pipe 41 is arranged in the jacket; deposit and glue bucket 38 top and be equipped with feed inlet 42, deposit and glue bucket 38 bottom and be equipped with discharge gate 43.

The translation assembly 4 drives the paper box 68 to reciprocate along the X direction, so that the paper box 68 is continuously contacted with the gluing cylinder 46, and the gluing cylinder 46 is driven to roll, thereby completing automatic gluing. The two transmission parts 10 are driven to synchronously move through belt transmission of the driving part 11, the belt pulley 35 drives the main transmission shaft 15 to rotate, the cam 17 rotates, the cam 17 is abutted against the rotating wheel 23 to drive the fixing column to reciprocate in the X direction, and the supporting plate 7 and the paper box 68 move along with the fixing column; the main transmission shaft 15 drives the first gear 16 to rotate, the first gear 16 is meshed with the third gear 30, the auxiliary transmission shaft 29 rotates, the fourth gear 31 is meshed with the second gear 25, the rotating shaft 24 rotates, and the stirring blade 40 rotates, so that glue in the glue storage barrel 38 is prevented from being solidified.

The smearing component 5 comprises a vertical arm 44 arranged on the bottom plate 1, an auxiliary piece 45 arranged on the vertical arm 44, and a gluing cylinder 46 arranged on the auxiliary piece 45;

the auxiliary member 45 comprises a pair of first guide rails arranged on the vertical arm 44 and distributed along the Y direction, a transmission block 47 arranged on the first guide rails, a first inclined surface 48 arranged on one side of the transmission block 47 facing the translation component 4, an auxiliary oil cylinder 49 arranged on the vertical arm 44 and connected with the transmission block 47 through an expansion link, a limiting block 50 movably arranged on the vertical arm 44, a second inclined surface 51 arranged at one end of the limiting block 50 close to the transmission block 47, a pair of first support rods 52 arranged on the vertical arm 44 and distributed along the Y direction, a first bent rod 53 arranged above the support plate 7 and provided with a bending angle and hinged with the first support rod 52, a first roller rotatably arranged at one end of the first bent rod 53 and always abutted with the top of the limiting block 50, two ends of the gluing barrel are respectively rotatably arranged on the first bent rod 53, a pair of second support rods 54 arranged on the vertical arm 44 and distributed along the Y direction, be equipped with angle of buckling and second knee 67 with second branch 54 articulated, second knee 67 and first knee 53 longitudinal symmetry, rotate and install second gyro wheel 55 in second knee 67 one end and all the time with stopper 50 bottom butt, second gyro wheel 55 and first gyro wheel longitudinal symmetry, both ends rotate respectively and install driving roller 56 on second knee 67, driving roller 56 and rubber coating bucket longitudinal symmetry, spring C57 on second knee 67 is installed at first knee 53 and the other end to one end, spring C57 is in tensile state all the time, install limiting plate 58 on the right side of stopper 50.

The upper end face of the limiting block 50 is provided with a third inclined face 59, the lower end face of the limiting block 50 is provided with a fourth inclined face 60, and the third inclined face 59 and the fourth inclined face 60 are vertically symmetrical.

The vertical arm 44 is provided with a pair of second guide rails 61 distributed along the Y direction, the second guide rails 61 are perpendicular to the first guide rails, and the limiting block 50 is mounted on the second guide rails 61.

Through drive block 47, stopper 50 forms the voussoir structure, auxiliary cylinder 49 drives drive block 47 downstream, utilize first inclined plane 48 and second inclined plane 51 butt, convert the up-and-down motion of drive block 47 into the side-to-side motion of stopper 50, utilize third inclined plane 59, fourth inclined plane 60, drive first curved bar 53, second curved bar 67 rotates, make the distance between rubber coating cylinder 46 and the driving roller 56 reduce, rubber coating cylinder 46, driving roller 56 respectively with the up end of carton 68, the lower terminal surface butt, subassembly 5 accomplishes the rubber coating is paintd in the cooperation.

The gluing cylinder 46 comprises a cylinder body 62 with a hollow structure, a plurality of glue outlet holes 63 are arranged on the outer wall of the cylinder body 62, and bristles 64 are arranged on the outer wall of the cylinder body 62; the front side and the rear side of the cylinder 62 are provided with glue inlets 65, the glue inlets 65 are communicated with the discharge hole 43 through a conveying pipe 66, and the conveying pipe 66 is provided with a pump body and a valve.

The gluing cylinder 46 is driven to roll by the abutting joint of the paper box 68 and the gluing cylinder 46, and the gluing efficiency and the gluing effect are greatly improved.

The working principle of the invention is as follows:

s1: the paper box 68 is arranged on the supporting plate 7, and the vacuum chuck 8 tightly sucks the paper box 68;

s2: starting the translation assembly 4, and driving the paper box 68 to reciprocate along the X direction by the translation assembly 4;

s3: the smearing component 5 is started, the gluing cylinder 46 and the driving roller 56 are respectively abutted against the upper end face and the lower end face of the paper box 68, and the smearing component 5 is matched to finish gluing.

Many other changes and modifications can be made without departing from the spirit and scope of the invention. It is to be understood that the invention is not to be limited to the specific embodiments, but only by the scope of the appended claims.

Claims

1. The gluing device for carton production is characterized by comprising a bottom plate (1), a rack (2) arranged on the bottom plate (1), a clamping component (3) movably arranged on the rack (2) and used for limiting a carton (68), a translation component (4) arranged on the rack (2) and used for driving the clamping component (3) to reciprocate along the X direction, and a smearing component (5) arranged on the bottom plate (1) and positioned on the left side of the rack (2);

the clamping assembly (3) comprises a supporting plate (7) movably mounted at the top of the rack (2), a through groove is formed in the center of the supporting plate (7), and a vacuum chuck (8) is mounted in the through groove, and the upper end face of the vacuum chuck is flush with the supporting plate (7);

the translation assembly (4) comprises fixing plates (9) which are arranged at the bottom of the supporting plate (7) and are respectively positioned on the front side and the rear side of the supporting plate (7), transmission parts (10) which are arranged on the rack (2) and are respectively positioned on the front side and the rear side of the supporting plate (7) and are connected with the fixing plates (9), and a driving part (11) which is arranged on the transmission parts (10);

the transmission part (10) comprises a vertical plate (12) which is arranged on the bottom plate (1) and is positioned at one end of the rack (2) far away from the smearing component (5), a first supporting seat (13) and a second supporting seat (14) which are arranged on the vertical plate (12) and distributed along the Z direction, a main transmission shaft (15) with two ends respectively rotatably arranged on the first supporting seat (13) and the second supporting seat (14) through rolling bearings, a first gear (16) arranged at the top of the transmission shaft, a cam (17) arranged in the middle of the transmission shaft, a first sliding rod (18) which is arranged on the first supporting seat (13) and is positioned at one end of the first supporting seat (13) far away from the vertical plate (12), a first fixed seat (19) movably arranged on the first sliding rod (18), and a second sliding rod (20) which is arranged on the second supporting seat (14) and is positioned at one end of the second supporting, a second fixed seat (21) movably installed on the second sliding rod (20), an upright post (22) with one end installed on the first fixed seat (19) and the other end installed on the second fixed seat (21), a rotating wheel (23) rotatably installed on the upright post (22) and always abutted to the cam (17), a rotating shaft (24) rotatably installed on the first fixed seat (19) through a rolling bearing, a second gear (25) installed at the top of the rotating shaft (24), a vertical seat A (26) installed on the first supporting seat (13), a vertical seat B (27) installed on the first fixed seat (19), a transmission ring (28) rotatably installed on the vertical seat B (27) through the rolling bearing, an auxiliary transmission shaft (29) with one end movably installed on the transmission ring (28) and the other end rotatably installed on the vertical seat B (27) through the rolling bearing, a third gear (30) installed on the auxiliary transmission shaft (29) and engaged with the first gear (16), a fourth gear (31) mounted on the transmission ring (28) and engaged with the second gear (25), a spring A (32) having one end mounted on the column (22) and the other end mounted on the first support base (13), and a spring B (33) having one end mounted on the column (22) and the other end mounted on the second support base (14);

the driving part (11) comprises a belt pulley (35) arranged at the bottom of the main transmission shaft (15), an annular belt (36) which is in friction transmission with the two belt pulleys (35) and a driving motor (37) which is arranged on the bottom plate (1) and of which the output shaft is connected with one of the main transmission shafts (15).

2. A gluing device for carton production according to claim 1, wherein a pair of sliding rails (6) distributed along the Y direction are mounted on the top of the frame (2), and the support plate (7) is mounted on the sliding rails (6);

a first sliding hole for a first sliding rod (18) to penetrate through is formed in the first fixed seat (19), and the first sliding rod (18) is matched with the first sliding hole in shape; the second fixed seat (21) is provided with a second sliding hole for the second sliding rod (20) to penetrate through, and the second sliding rod (20) is matched with the second sliding hole in shape.

3. A gluing device for carton production according to claim 1, wherein the translation assembly (4) further comprises a glue storage barrel (38) mounted on the second fixed base (21), a stirring shaft (39) rotatably mounted in the glue storage barrel (38) through a rolling bearing and having a top connected with the rotating shaft (24), and a stirring blade (40) mounted on the stirring shaft (39).

4. A gluing device for carton production according to claim 3, wherein a jacket is arranged outside the glue storage barrel (38), and an electric heating pipe (41) is arranged in the jacket; deposit and glue bucket (38) top and be equipped with feed inlet (42), deposit and glue bucket (38) bottom and be equipped with discharge gate (43).

5. A gumming device for carton production as in claim 4, characterized in that said application assembly (5) comprises an upright arm (44) mounted on the base plate (1), an auxiliary member (45) mounted on the upright arm (44), a gumming cylinder (46) mounted on the auxiliary member (45);

the auxiliary part (45) comprises a pair of first guide rails which are arranged on a vertical arm (44) and distributed along the Y direction, a transmission block (47) arranged on the first guide rails, a first inclined surface (48) is arranged on one side, facing the translation component (4), of the transmission block (47), an auxiliary oil cylinder (49) which is arranged on the vertical arm (44) and is connected with the transmission block (47) through a telescopic rod, a limiting block (50) movably arranged on the vertical arm (44), a second inclined surface (51) is arranged at one end, close to the transmission block (47), of the limiting block (50), the first inclined surface (48) is always abutted to the second inclined surface (51), a pair of first supporting rods (52) which are arranged on the vertical arm (44) and distributed along the Y direction, the first supporting rods (52) are located above the supporting plate (7), a first bending rod (53) which is provided with a bending angle and is hinged to the first supporting rods (52) is arranged at the bending angle, and a first roller which is rotatably arranged at one end of the first bending rod, rubber coating bucket both ends are installed at first knee (53) with rotating respectively, install on standing arm (44) and along a pair of second branch (54) that Y direction distributes, be equipped with angle of bend and second knee (67) articulated with second branch (54), second knee (67) and first knee (53) longitudinal symmetry, second gyro wheel (55) of installing in second knee (67) one end and all the time with stopper (50) bottom butt, second gyro wheel (55) and first gyro wheel longitudinal symmetry, driving roller (56) of installing on second knee (67) are rotated respectively to both ends, driving roller (56) and rubber coating bucket longitudinal symmetry, spring C (57) on second knee (67) are installed to one end is installed at first knee (53) and the other end, install limiting plate (58) on stopper (50) right side.

6. A gluing device for carton production according to claim 5, wherein the upper end face of the limiting block (50) is provided with a third inclined face (59), the lower end face of the limiting block (50) is provided with a fourth inclined face (60), and the third inclined face (59) and the fourth inclined face (60) are vertically symmetrical.

7. A gluing device for carton production, according to claim 5 or 6, characterised in that the upright arm (44) is provided with a pair of second guides (61) distributed along the Y-direction, the second guides (61) being perpendicular to the first guides, the stop (50) being mounted on the second guides (61).

8. A gluing device for carton production according to claim 5, wherein the gluing cylinder (46) comprises a cylinder body (62) with a hollow structure, a plurality of glue outlet holes (63) are arranged on the outer wall of the cylinder body (62), and bristles (64) are arranged on the outer wall of the cylinder body (62);

both sides all are equipped with into jiao kou (65) around barrel (62), advance jiao kou (65) through conveyer pipe (66) and discharge gate (43) intercommunication, install the pump body and valve on conveyer pipe (66).