CN216685195U - Automatic adhesive tape sticking machine - Google Patents

Abstract

The utility model discloses an automatic adhesive tape sticking machine, which comprises: the feeding device comprises a first rack, a material bearing mechanism and a material moving mechanism; the centering conveying device is positioned on the side of the material bearing mechanism and comprises a second rack, a centering mechanism and a first conveying mechanism, the centering mechanism comprises a driving assembly, two centering pushing frames and two transmission parts, the driving assembly is arranged on the second rack, the two centering pushing frames are arranged oppositely, the two pairs of centering pushing frames are both connected with the second rack in a sliding mode, the two transmission parts are arranged and are respectively connected with the driving assembly and the corresponding centering pushing frames in a transmission mode, and the first conveying mechanism is arranged on the second rack and positioned between the two pairs of centering pushing frames; the rubberizing device comprises a third rack, a second conveying mechanism and a rubberizing machine head, wherein the second conveying mechanism and the rubberizing machine head are arranged on the third rack. The plate can be centered and positioned by arranging the centering mechanism, the situation that the adhesive tape stuck is deviated from the set position is avoided, and the position accuracy of sticking is improved.

Description

Automatic adhesive tape sticking machine

Technical Field

The utility model relates to the technical field of rubberizing equipment, in particular to an automatic rubberizing machine.

Background

At present, to some plates, need carry out the rubberizing processing on its surface, in the course of working, need take off the plate that stacks together one by one and place in the frame, then carry the plate to the position at rubberizing aircraft nose place, establish the adhesive tape through the surface subsides of rubberizing aircraft nose at the plate. However, when placing the plate in the frame, the condition that can have plate offset often leads to the plate can't aim at with the rubberizing aircraft nose when removing to rubberizing aircraft nose place position, and the adhesive tape of establishing can deviate the position of settlement through the rubberizing aircraft nose subsides, and the position precision of rubberizing is relatively poor, influences the rubberizing effect.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an automatic rubberizing machine which can improve the rubberizing position precision.

In order to realize the above-mentioned purpose, provide an automatic coating machine, it includes: the feeding device comprises a first rack, a material bearing mechanism and a material moving mechanism, wherein the material bearing mechanism and the material moving mechanism are arranged on the first rack; the centering conveying device is positioned on the lateral side of the material bearing mechanism and comprises a second rack, a centering mechanism and a first conveying mechanism, the centering mechanism comprises a driving assembly, centering pushing frames and transmission parts, the driving assembly is arranged on the second rack, the two centering pushing frames are arranged oppositely, the two centering pushing frames are connected with the second rack in a sliding mode, the two transmission parts are arranged and are respectively connected with the driving assembly and the corresponding centering pushing frames in a transmission mode, and the first conveying mechanism is arranged on the second rack and positioned between the two centering pushing frames; and the rubberizing device is positioned on the side of the second rack and comprises a third rack, a second conveying mechanism and a rubberizing machine head, and the second conveying mechanism and the rubberizing machine head are arranged on the third rack.

According to the automatic adhesive tape sticking machine, the driving assembly comprises a first motor and a connecting disc, the first motor is connected with the second rack, and the connecting disc is connected with an output shaft of the first motor; one end of the transmission piece is rotatably connected with the centering push frame, the other end of the transmission piece is rotatably connected with the connecting disc, and the other ends of the transmission pieces are respectively arranged on two sides of the output shaft of the first motor.

According to an automatic coating machine, first conveying mechanism includes first driving shaft, first driven shaft, first driving pulley, first driven pulley, first conveyer belt and first conveying motor, first driving shaft and first driven shaft all rotate to set up in the second frame, first driving pulley sets firmly in first driving shaft, first driven pulley sets firmly in first driven shaft, first conveyer belt is located between two pairs of centre pushing frame and duplex winding locates first driving pulley and first driven pulley, first conveying motor sets up in the second frame and is connected with first driving shaft transmission.

According to the automatic gluing machine, the first conveying belts are arranged to be more than two and are sequentially arranged at intervals along the first driving shaft, the supporting plate located above the driving assembly is arranged at the top of the second rack, and the supporting plate is located on the inner side of the first conveying belts.

According to the automatic adhesive tape sticking machine, the material bearing mechanism comprises a material bearing frame, a material bearing motor and a first transmission belt, a first guide wheel and a second guide wheel which are vertically arranged are rotatably arranged on the first frame, the material bearing frame is arranged on the first frame in a vertically sliding mode, the material bearing motor is arranged on the first frame and is in transmission connection with the first guide wheel or the second guide wheel, and the first transmission belt is wound on the first guide wheel and the second guide wheel and is connected with the material bearing frame.

According to the automatic adhesive tape sticking machine, the material moving mechanism comprises a first material moving frame, an air cylinder, a second material moving frame, a material moving motor and a second transmission belt, a third guide wheel and a fourth guide wheel which are arranged at intervals are rotatably arranged on the first frame, the first material moving frame is transversely arranged on the first frame in a sliding mode, the air cylinder is respectively connected with the first material moving frame and the second material moving frame, a suction nozzle is arranged at the bottom of the second material moving frame, the material moving motor is arranged on the first frame and is in transmission connection with the third guide wheel or the fourth guide wheel, and the second transmission belt is wound on the third guide wheel and the fourth guide wheel and is connected with the first material moving frame.

According to an automatic adhesive tape pasting machine, second conveying mechanism includes belt conveyor, first support, pressure equipment frame, spring part and pinch roller, belt conveyor and first support all set up in the top of third frame, the pressure equipment frame is located belt conveyor's top to can set up in first support with sliding from top to bottom, the spring part sets up between pressure equipment frame and first support, the pinch roller rotates and sets up in the bottom of pressure equipment frame.

According to the automatic adhesive tape sticking machine, the press mounting frames are arranged in a triangle shape, each press mounting frame can be arranged on the first support in a vertically sliding mode, and the bottom of each press mounting frame is provided with more than two press wheels; wherein, at least one pressing wheel on the pressing frame is wound with a pressing belt.

According to the automatic rubberizing machine, a second support is further arranged at the top of the third rack, and the rubberizing machine head is arranged on the second support in a transversely sliding mode.

According to an automatic coating machine, still including the unloading conveyor who is located third frame side, unloading conveyor includes fourth frame, second driving shaft, second driven shaft, second driving pulley, second driven pulley, second conveyer belt and second conveying motor, second driving shaft and second driven shaft all rotate and set up in the fourth frame, the second driving pulley sets firmly in the second driving shaft, the second driven pulley sets firmly in the second driven shaft, the second conveyer belt is around locating second driving pulley and second driven pulley, the second conveying motor sets up in the fourth frame and is connected with the transmission of second driving shaft.

Has the beneficial effects that: the plate can be centered and positioned by arranging the centering mechanism, so that the plate can be accurately conveyed to the position of the rubberizing machine head, the phenomenon that the attached rubber strip deviates from the set position is avoided, the rubberizing position precision is improved, and the rubberizing effect is optimized; the two centering pushing frames can act synchronously, the centering and positioning accuracy of the plate is improved, the two centering pushing frames can be driven to operate through one driving assembly, the number of driving structures can be reduced, the structure of the equipment is simplified, and the equipment cost is reduced.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The utility model is further described below with reference to the accompanying drawings and examples;

FIG. 1 is a block diagram of an embodiment of the present invention;

FIG. 2 is a structural diagram of a loading device;

FIG. 3 is a block diagram of the centering conveyor;

FIG. 4 is a top view of the centering conveyor with the support plate removed;

FIG. 5 is a block diagram of the centering mechanism;

FIG. 6 is a structural view of the first conveyance mechanism;

FIG. 7 is a block diagram of the taping device;

FIG. 8 is a structural view of a second conveyance mechanism;

fig. 9 is a structural view of the blanking conveying apparatus.

Detailed Description

Reference will now be made in detail to the present preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to like elements throughout.

In the description of the present invention, it should be understood that the orientation or positional relationship referred to in the description of the orientation, such as the upper, lower, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, greater than, less than, exceeding, etc. are understood as excluding the present numbers, and the above, below, inside, etc. are understood as including the present numbers. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless otherwise explicitly limited, terms such as arrangement, installation, connection and the like should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention in combination with the specific contents of the technical solutions.

Referring to fig. 1 to 9, an automatic adhesive tape dispenser includes a feeding device 10, a centering and conveying device 20, an adhesive tape dispensing device 30, and a discharging and conveying device 40. The feeding device 10 includes a first frame 11, a material supporting mechanism 12 and a material moving mechanism 13, and the material supporting mechanism 12 and the material moving mechanism 13 are both disposed on the first frame 11. The centering and conveying device 20 is located on the side of the material bearing mechanism 12 and comprises a second rack 21, a centering mechanism 22 and a first conveying mechanism 23, the centering mechanism 22 comprises a driving assembly 221, centering push frames 222 and transmission members 223, the driving assembly 221 is arranged on the second rack 21, the centering push frames 222 are arranged in two and are oppositely arranged, the two centering push frames 222 are both in sliding connection with the second rack 21, the transmission members 223 are arranged in two and are respectively in transmission connection with the driving assembly 221 and the corresponding centering push frames 222, namely, two ends of one transmission member 223 are respectively in transmission connection with the driving assembly 221 and one centering push frame 222, two ends of the other transmission member 223 are respectively in transmission connection with the driving assembly 221 and the other centering push frame 222, and the first conveying mechanism 23 is arranged on the second rack 21 and is located between the two centering push frames 222. The rubberizing device 30 is located on the side of the second frame 21, and includes a third frame 31, a second conveying mechanism 32 and a rubberizing machine head 33, and the second conveying mechanism 32 and the rubberizing machine head 33 are both disposed on the third frame 31. The blanking conveying device 40 is located on the side of the third frame 31.

During operation, the stacked plates are placed on the material bearing mechanism 12, the plates are moved to the action range of the material moving mechanism 13 through the material bearing mechanism 12, the plate is moved between the two centering pushing frames 222 on the second frame 21 by the moving mechanism 13, the driving assembly 221 drives the two centering pushing frames 222 to synchronously move through the transmission member 223 to clamp the plate, so that the plate can be centered and positioned, and after the plate is centered and positioned, the centering and pushing frame 222 moves reversely to reset, the conveying assembly can convey the positioned plate, so that the plate is moved to the second conveying mechanism 32 on the third frame 31, the second conveying mechanism 32 conveys the plate through the rubberizing machine head 33, the adhesive tape is rubberized on the plate by the rubberizing machine head 33, the second conveying mechanism 32 then conveys the plate members to the blanking conveying device 40, and the plate members are conveyed to other positions by the blanking conveying device 40.

Can be with plate centering location through setting up centering mechanism 22 for the plate can be carried to the position at rubberizing aircraft nose 33 place by the accuracy, avoids appearing the skew position of setting for of the adhesive tape of subsides establishing, has improved the position accuracy of rubberizing, has optimized the rubberizing effect. The two centering pushing frames 222 can act synchronously, the centering and positioning accuracy of the plate is improved, the two centering pushing frames 222 can be driven to operate through one driving assembly 221, the number of driving structures can be reduced, the structure of the equipment is simplified, and the cost of the equipment is reduced.

Specifically, the second frame 21 is provided with a slide rail 24, the centering push frame 222 is slidably disposed on the slide rail 24, the driving assembly 221 includes a first motor 2211 and a connecting plate 2212, the first motor 2211 is connected to the second frame 21, the connecting plate 2212 is connected to an output shaft of the first motor 2211, one end of the transmission member 223 is rotatably connected to the centering push frame 222, the other end of the transmission member 223 is rotatably connected to the connecting plate 2212, and the other ends of the two transmission members 223 are disposed on two sides of the output shaft of the first motor 2211, that is, the connection position of the transmission member 223 and the connecting plate 2212 deviates from the rotation center of the connecting plate 2212. The connecting plate 2212, the transmission piece 223 and the centering and pushing frame 222 are formed as a crank-link mechanism, and the first motor 2211 can drive the connecting plate 2212 to rotate, so that the two centering and pushing frames 222 are driven to move synchronously.

The side edge of the connecting disc 2212 is provided with a convex strip 2213, the second frame 21 is provided with a first detection piece 2214 matched with the convex strip 2213, and the first motor 2211 and the first detection piece 2214 are electrically connected with a control system of the adhesive tape sticking machine. The first detection means 2214 may be provided as a proximity sensor, a photoelectric sensor, or the like, and the position of the projection 2213 is detected by the first detection means 2214, whereby the rotation angle of the land 2212 can be detected.

First conveying mechanism 23 includes first driving shaft 231, first driven shaft 232, first driving pulley 233, first driven pulley 234, first conveyer belt 236 and first conveyer motor 235, first driving shaft 231 and first driven shaft 232 all rotate and set up in second frame 21, and slide rail 24, first driving shaft 231 and first driven shaft 232 three are parallel to each other, first driving pulley 233 sets firmly in first driving shaft 231, first driven pulley 234 sets firmly in first driven shaft 232, first conveyer belt 236 is located between two centering pushing frames 222 and locates first driving pulley 233 and first driven pulley 234 around, first conveyer motor 235 sets up in second frame 21 and is connected with first driving shaft 231 transmission. The plate member is placed on the first conveyor belt 236, and the first conveyor belt 236 is driven by the first conveyor motor 235 through the first driving shaft 231, thereby driving the plate member to move.

Further, the first conveyor belts 236 are provided with more than two belts and are sequentially arranged at intervals along the first driving shaft 231, and each first conveyor belt 236 is correspondingly provided with a driving pulley and a driven pulley so that the material can be moved smoothly. A support plate 25 is provided on the top of the second frame 21 above the driving assembly 221, the support plate 25 is positioned inside the first conveyor belt 236, the upper side of the first conveyor belt 236 may be supported by the support plate 25, and the sagging of the first conveyor belt 236 may be restricted when a plate member is placed on the first conveyor belt 236.

The top of the support plate 25 is provided with a second detection part 26 electrically connected to the control system, the second detection part 26 is disposed at the side of the first conveyor belt 236, and the second detection part 26 may be configured as a photoelectric sensor. Whether a plate member is placed on the first conveyor belt 236 is detected by the second detecting member 26.

In some embodiments, the driving assembly 221 includes a first conveying motor 235 and a gear, the transmission member 223 is configured as a rack, the first conveying motor 235 is disposed on the second frame 21, the gear is disposed at an output end of the first conveying motor 235, the rack is slidably disposed on the second frame 21, one end of the rack is fixedly connected to the centering and pushing frame 222, and the rack is engaged with the gear, so that the rack is in transmission connection with the driving assembly 221. Wherein, two racks are arranged on two sides of the gear respectively, so that the moving directions of the two racks are opposite.

The material bearing mechanism 12 includes a material bearing frame 121, a material bearing motor 122 and a first transmission belt 123, a first guide wheel and a second guide wheel are rotatably disposed on the first frame 11, the material bearing frame 121 is slidably disposed on the first frame 11, the material bearing motor 122 is disposed on the first frame 11 and is in transmission connection with the first guide wheel, and the first transmission belt 123 is wound on the first guide wheel and the second guide wheel and is connected with the material bearing frame 121. Specifically, a first guide wheel, a second guide wheel and a first transmission belt 123 are arranged on both sides of the material bearing frame 121, the two first guide wheels are sleeved on a transmission shaft 124, and the material bearing motor 122 is in transmission connection with the transmission shaft 124. The plate is placed on the material support frame 121, and the first driving belt 123 is driven by the material support motor 122 to move, so as to drive the material support frame 121 to move upwards.

In some embodiments, the motor can be in transmission connection with the second guide wheel. An electric push rod can also be arranged and is respectively connected with the first machine frame 11 and the material bearing frame 121.

The material transferring mechanism 13 comprises a first material transferring frame 131, an air cylinder 132, a second material transferring frame 133, a material transferring motor 134 and a second transmission belt 135, a third guide wheel and a fourth guide wheel which are arranged at intervals are rotatably arranged on the first frame 11, the first material transferring frame 131 is transversely arranged on the first frame 11 in a sliding mode, the air cylinder 132 is vertically arranged, the air cylinder 132 is respectively connected with the first material transferring frame 131 and the second material transferring frame 133, a suction nozzle 136 is arranged at the bottom of the second material transferring frame 133, the material transferring motor 134 is arranged on the first frame 11 and is in transmission connection with the third guide wheel, and the second transmission belt 135 is wound on the third guide wheel and the fourth guide wheel and is connected with the first material transferring frame 131. The air cylinder 132 drives the second material moving frame 133 to move downwards, the suction nozzle 136 contacts and adheres to the board, then the air cylinder 132 drives the second material moving frame 133 to move upwards, the material moving motor 134 drives the first material moving frame 131 to move the board to the upper side of the second frame 21, and the second material moving frame 133 moves downwards and releases the board on the first conveyor belt 236 through the suction nozzle 136.

In some embodiments, the material moving motor 134 can also be in transmission connection with the fourth guide wheel. Structures such as an electric push rod can also be provided, and the electric push rod is respectively connected with the first frame 11 and the first material moving frame 131.

The second conveying mechanism 32 includes a belt conveyor 321, a first support 322, a press-fitting frame 323, a spring element 324, and a pressing wheel 325, the belt conveyor 321 and the first support 322 are both disposed at the top of the third frame 31, the press-fitting frame 323 is disposed above the belt conveyor 321 and is slidably disposed on the first support 322 up and down, the spring element 324 is a pressing spring and is disposed between the press-fitting frame 323 and the first support 322, and the pressing wheel 325 is rotatably disposed at the bottom of the press-fitting frame 323. First conveying mechanism 23 carries the plate to between pinch roller 325 and belt conveyor 321, exerts certain effort to the plate through pinch roller 325, makes it hug closely in belt conveyor 321's belt, ensures that the plate moves smoothly through rubberizing aircraft nose 33, and the plate takes place to slide at the relative belt conveyor 321 of removal in-process, ensures that rubberizing aircraft nose 33 can improve the position accuracy of rubberizing to the accurate rubberizing of plate. The spring piece 324 is arranged to enable the pressing wheel 325 to apply appropriate acting force to the plate, and the press mounting frame 323 can move up and down to adapt to plates with different thicknesses.

The press-mounting frames 323 are arranged in a shape like a Chinese character 'pin', each press-mounting frame 323 can be arranged on the first support 322 in a vertically sliding mode, and each press-mounting frame 323 is correspondingly provided with the spring part 324 and more than two press wheels 325, so that two sides of the plate can be uniformly stressed, and the plate is prevented from tilting on one side. Wherein, the press wheel 325 on at least one press-mounting frame 323 is wound with a press-mounting belt 326, and the press-mounting belt 326 and the plate have a larger contact area, which can increase friction force, ensure the plate to move stably and avoid the plate being crushed.

The third frame 31 is also provided at the top with a second bracket 34, and the head 33 is slidably provided on the second bracket 34 in the lateral direction so as to adjust the position of the head 33.

Unloading conveyor 40 includes fourth frame 41, second driving shaft 42, second driven shaft 43, second driving pulley 44, second driven pulley 45, second conveyer belt 47 and second conveying motor 46, second driving shaft 42 and second driven shaft 43 all rotate and set up in fourth frame 41, second driving pulley 44 sets firmly in second driving shaft 42, second driven pulley 45 sets firmly in second driven shaft 43, second conveyer belt 47 is around locating second driving pulley 44 and second driven pulley 45, second conveying motor 46 sets up in fourth frame 41 and is connected with second driving shaft 42 transmission. Wherein the second driving belt 135 is provided in plural and arranged in sequence along the second driving shaft 42.

In some embodiments, the blanking conveyor 40 may also be provided as a drag conveyor.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims (10)

1. An automatic adhesive tape sticking machine is characterized by comprising:

the feeding device comprises a first rack, a material bearing mechanism and a material moving mechanism, wherein the material bearing mechanism and the material moving mechanism are arranged on the first rack;

the centering and conveying device is positioned on the side of the material bearing mechanism and comprises a second rack, a centering mechanism and a first conveying mechanism, the centering mechanism comprises a driving assembly, two centering pushing frames and a transmission part, the driving assembly is arranged on the second rack, the two centering pushing frames are arranged oppositely, the two centering pushing frames are both in sliding connection with the second rack, the two transmission parts are arranged and are respectively in transmission connection with the driving assembly and the corresponding centering pushing frame, and the first conveying mechanism is arranged on the second rack and positioned between the two centering pushing frames;

and the rubberizing device is positioned on the side of the second rack and comprises a third rack, a second conveying mechanism and a rubberizing machine head, and the second conveying mechanism and the rubberizing machine head are arranged on the third rack.

2. The automatic tape sticking machine according to claim 1, wherein the driving assembly comprises a first motor and a connecting disc, the first motor is connected with the second frame, and the connecting disc is connected with an output shaft of the first motor; one end of the transmission piece is rotatably connected with the centering push frame, the other end of the transmission piece is rotatably connected with the connecting disc, and the other ends of the transmission pieces are respectively arranged on two sides of the output shaft of the first motor.

3. The automatic adhesive tape sticking machine according to claim 1 or 2, wherein the first conveying mechanism comprises a first driving shaft, a first driven shaft, a first driving pulley, a first driven pulley, a first conveying belt and a first conveying motor, the first driving shaft and the first driven shaft are both rotatably arranged on the second rack, the first driving pulley is fixedly arranged on the first driving shaft, the first driven pulley is fixedly arranged on the first driven shaft, the first conveying belt is arranged between the two pairs of middle pushing frames and is wound on the first driving pulley and the first driven pulley, and the first conveying motor is arranged on the second rack and is in transmission connection with the first driving shaft.

4. The automatic tape sticking machine according to claim 3, wherein the first conveyor belt is provided with more than two belts and is sequentially arranged along the first driving shaft at intervals, a bearing plate positioned above the driving assembly is arranged at the top of the second frame, and the bearing plate is positioned at the inner side of the first conveyor belt.

5. The automatic gluing machine as claimed in claim 1, wherein the material supporting mechanism comprises a material supporting frame, a material supporting motor and a first transmission belt, the first frame is rotatably provided with a first guide wheel and a second guide wheel which are arranged up and down, the material supporting frame is slidably arranged on the first frame up and down, the material supporting motor is arranged on the first frame and is in transmission connection with the first guide wheel or the second guide wheel, and the first transmission belt is wound on the first guide wheel and the second guide wheel and is connected with the material supporting frame.

6. An automatic adhesive tape sticking machine according to claim 1 or 5, characterized in that the material transferring mechanism comprises a first material transferring frame, an air cylinder, a second material transferring frame, a material transferring motor and a second transmission belt, wherein the first frame is rotatably provided with a third guide wheel and a fourth guide wheel which are arranged at intervals, the first material transferring frame is transversely and slidably arranged on the first frame, the air cylinder is respectively connected with the first material transferring frame and the second material transferring frame, the bottom of the second material transferring frame is provided with a suction nozzle, the material transferring motor is arranged on the first frame and is in transmission connection with the third guide wheel or the fourth guide wheel, and the second transmission belt is wound on the third guide wheel and the fourth guide wheel and is connected with the first material transferring frame.

7. The automatic adhesive tape sticking machine according to claim 1, wherein the second conveying mechanism comprises a belt conveyor, a first support, a press-fitting frame, a spring part and a pressing wheel, the belt conveyor and the first support are both arranged at the top of the third rack, the press-fitting frame is positioned above the belt conveyor and is arranged on the first support in a manner of sliding up and down, the spring part is arranged between the press-fitting frame and the first support, and the pressing wheel is rotatably arranged at the bottom of the press-fitting frame.

8. The automatic adhesive tape sticking machine according to claim 7, wherein the press mounting frames are three and arranged in a delta shape, each press mounting frame can be arranged on the first support in a vertically sliding manner, and the bottom of each press mounting frame is provided with more than two press wheels; wherein, at least one pressing wheel on the pressing frame is wound with a pressing belt.

9. The automatic gluing machine as claimed in claim 7, wherein a second bracket is further provided on the top of the third frame, and the gluing head is slidably provided on the second bracket in a lateral direction.

10. The automatic adhesive tape sticking machine according to claim 1, further comprising a blanking conveying device located on the side of the third frame, wherein the blanking conveying device comprises a fourth frame, a second driving shaft, a second driven shaft, a second driving pulley, a second driven pulley, a second conveying belt and a second conveying motor, the second driving shaft and the second driven shaft are both rotatably arranged on the fourth frame, the second driving pulley is fixedly arranged on the second driving shaft, the second driven pulley is fixedly arranged on the second driven shaft, the second conveying belt is wound on the second driving pulley and the second driven pulley, and the second conveying motor is arranged on the fourth frame and is in transmission connection with the second driving shaft.

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