CN209794706U - Full-automatic installation gift box handle's equipment - Google Patents

Abstract

The utility model belongs to the technical field of carton board production facility, a equipment of full-automatic installation gift box handle is provided. The utility model discloses include loading attachment, send case subassembly, final drive and receive the material pile up neatly in proper order, be equipped with a plurality of installation components on the final drive, the installation component is including the subassembly that punches a hole, the glue of precoating subassembly, glue the handle area, spout the glue subassembly, glue the subassembly of strengthening the band subassembly and strengthen the band subassembly that distributes in proper order on the final drive, can realize the auto-feed and the automatic board function of branch of cardboard, reduce manual work and working strength, improve equipment's work efficiency and reliability technological effect.

Description

full-automatic installation gift box handle's equipment

Technical Field

the utility model relates to a carton board production facility technical field, concretely relates to equipment of full-automatic installation gift box handle.

Background

At present, plastic handbuckles which are formed by injection molding are mostly applied to the handbuckles of the present dairy products and beverage enterprises (such as Mongolian cattle, Yili, Yilu, Jiaduobao, Wangzai and Qingdao beer), and most of the plastic handbuckles are installed manually, so that the mode of manually installing the handles is low in efficiency, the manual tolerance is high, and the labor cost is high. The response speed to the market in the busy season is low, and the solution is to recruit more people, so that the management is difficult, and more potential personal safety hazards exist.

the automatic research and development of domestic such packing has just begun, has appeared some automatic installation handle and has taken equipment, including the erection equipment of novel material handle and the erection equipment of traditional plastics hand buckle, but some structures are in the verification stage, and production efficiency is low, and product quality is unstable, and market customer complains frequently the scheduling problem.

SUMMERY OF THE UTILITY MODEL

to the defect among the prior art, the utility model provides a full-automatic installation gift box handle's equipment realizes the auto-feed and the automatic board function of dividing of cardboard, reduces manual work and working strength, improve equipment's work efficiency and reliability.

in order to achieve the purpose, the utility model provides a full-automatic installation gift box handle's equipment includes loading attachment, send case subassembly, final drive and receipts material pile up neatly in proper order, the last a plurality of installation components that are equipped with of final drive.

the technical principle and the technical effect of the scheme are as follows:

the handle belt is adhered to the gift box carton through the processes of punching, pre-gluing, adhering the handle belt, spraying glue, adhering the reinforcing belt and the like. The handle strip is adhered to the gift box carton by adhesive.

further, the box conveying assembly comprises a first conveyor belt, a pressing plate assembly and a forward conveying assembly;

The pressure plate assembly comprises a wheel plate and a pressing cylinder;

The wheel plate and the first conveyor belt are arranged in parallel, the wheel plate is provided with a sliding column in sliding fit with the rack, the driving end of the compaction air cylinder is connected to the wheel plate, the compaction air cylinder drives the wheel plate to approach the first conveyor belt, and the wheel plate is provided with a plurality of conveying wheels abutted against the first conveyor belt;

The front conveying assembly comprises a front conveying sliding block and a front conveying air cylinder, the front conveying sliding block is located on the side portion of the tail end of the first conveying belt, and the front conveying sliding block is in sliding fit with the machine frame along the direction of the first conveying belt.

further, the installation component comprises a punching component, a pre-gluing component, a sticky handle belt, a glue spraying component, a sticky reinforcing belt component and a reinforcing belt component which are sequentially distributed on the main transmission.

Further, the main transmission line comprises a box opening sliding rod, a guide rail, a transmission chain and a box opening shuttle nozzle;

The guide rail and the box opening sliding rod are arranged in parallel, the feeding end of the box opening sliding rod is arranged at the feeding end of the box opening sliding rod, and the front end of the box opening shuttle nozzle extends to the box conveying component;

The conveying chains are arranged above the guide rails in parallel, and shifting blocks for pushing the cartons on the guide rails are arranged on the conveying chains.

the carton is opened under the action of the carton opening shuttle nozzle and enters the designated position of the main transmission, and the carton plate is pushed by the shifting block on the conveying chain at the moment to push the carton forward by the distance of one station. The paper box is circularly reciprocated in such a way, so that the function of conveying the paper box to the next station is realized.

further, the punching assembly comprises a first sliding rail, a sliding block seat, a first connecting arm and a bottom die;

the first sliding rail is vertically arranged on the machine frame at two sides of the first cam, first sliding blocks are respectively fixed at two sides of the sliding seat, and the first sliding blocks are respectively in sliding fit with the first sliding rail;

the utility model discloses a punch press, including punch fixed plate, guide post, briquetting mounting panel, die block, punch fixed plate, guide post, punch, briquetting mounting panel, punch, die block, and the both ends of first connecting arm articulate respectively in first cam with the slider seat, still be equipped with the connecting plate on the slider seat, be equipped with the punch fixed plate on the connecting plate, vertical sliding fit has the guide post on the punch fixed plate, the lower extreme level of guide post is fixed with the briquetting mounting panel, the both ends of briquetting mounting panel are fixed with the briquetting respectively, it is vertical still fixed with the punch on the punch fixed plate, the punch passes downwards briquetting and briquetting.

When the carton reaches the designated position of the first bottom die. The lower sliding block seat, the third connecting plate and the punch fixing plate are driven by the first connecting arm to move up and down. In the process, the first pressing block descends firstly to press the carton, then the punch moves downwards continuously to punch a hole in the carton, the punch rises after the hole is punched, and then the first pressing block rises to complete the punching function. Through so circulating to reciprocate to realize the punching function of carton at this station.

further, the pre-gluing assembly comprises a first ball screw, a first supporting seat, an upper moving plate and a lower moving plate;

The first ball screw is horizontally and rotationally matched on the rack, the first ball screw is connected to the motor through a coupler, and a first moving block is in threaded fit on the first ball screw;

the first supporting seat is horizontally matched with the rack in a sliding manner, the rear end of the first supporting seat is fixed to the first moving block, the front end of the first supporting seat is provided with a lifting cylinder, and two sides of the lifting cylinder are respectively provided with a second sliding rail;

The two ends of the upper and lower moving plates are respectively provided with a second sliding block, the second sliding blocks are respectively in sliding fit with the second sliding rails, the middle parts of the upper and lower moving plates are connected with the lifting cylinder, a first glue gun fixing rod is horizontally arranged on the upper and lower moving plates, and two ends of the first glue gun fixing rod are respectively provided with a glue scraping gun.

further, the sticky handle assembly comprises a pressing assembly, a handle penetrating assembly and a belt conveying assembly;

the pressing assembly comprises a brush belt cylinder, a pressing rod, a swinging rod and a plurality of connecting rods;

the brush belt cylinder is vertically arranged on the frame, the output end of the brush belt cylinder is provided with a connecting block,

the pressing rods are horizontally arranged on two sides below the brush belt cylinder respectively, the upper part of the inner ends of the pressing rods is hinged with the lower end of the swinging rod, and a brush belt block is arranged below the inner ends of the pressing rods;

the upper end of the swing rod is hinged with the connecting block, the connecting rods are arranged in parallel, and two ends of each connecting rod are hinged to the pressing rod and the rack respectively.

After the handle belt penetrates through the hole in the carton, the brush belt cylinder descends to drive the cylinder connecting block to move downwards, and the brush belt block is driven to realize the action of the brush belt through the action of the oscillating rod, the opening and closing oscillating rod and the oscillating pin, so that the penetrated handle belt is bonded with the carton. Then the brush belt cylinder rises to drive the brush belt block to separate from the carton, thereby realizing the action of the brush belt.

after the handle belt is adhered to the carton, the air cylinder extends out and moves forwards through the second floating joint and the air cylinder fixing plate, so that the handle penetrating assembly is driven to move forwards, and the handle belt is separated from the belt pressing plate. The carton is conveyed to the next station, and then the cylinder retracts to drive the through-handle assembly to return.

Further, the handle penetrating assembly comprises a third slide rail, a fixed seat and a second cam;

the third slide rail is vertically arranged below the brush belt block, the fixed seat is in sliding fit with the third slide rail, a base plate which slides up and down is arranged at the upper end of the third slide rail, a belt pressing plate is arranged in the middle of the base plate, the belt pressing block and the brush belt block are correspondingly arranged, pressing covers are respectively arranged at two ends of the belt pressing plate, the lower part of the base plate is connected with the fixed seat through a belt penetrating steel sheet, the second cam is arranged below the third slide rail, and the second cam is connected with the fixed seat through a second connecting arm;

the belt feeding assembly is arranged on the left side of the handle penetrating assembly.

further, the glue spraying assembly comprises a second ball screw and a second supporting seat;

the second ball screw is horizontally and rotationally matched on the rack, the second ball screw is connected to the motor through a coupler, and a second moving block is in threaded fit on the second ball screw;

The second supporting seat is horizontally matched with the rack in a sliding mode, the rear end of the first supporting seat is fixed to the second moving block, a second glue gun fixing rod is horizontally arranged at the front end of the second supporting seat, and glue spraying guns are respectively arranged at two ends of the second glue gun fixing rod.

Further, the material receiving and stacking device comprises a blanking guide plate, a conveying belt and a storage box platform;

The front surface of the blanking guide plate is obliquely arranged upwards, one end of the front surface of the blanking guide plate is in butt joint with the tail end of the main transmission line, the other end of the front surface of the blanking guide plate is provided with a baffle plate,

The head end of the conveying belt is positioned below the blanking guide plate,

The storage tank platform set up in the tail end below of conveyer belt, the vertical flitch of returning to the place of being equipped with in storage tank bench, the tail end of conveyer belt with it is equipped with the storage space to leave between the flitch to return.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

FIG. 1 is a layout diagram of the production line according to the embodiment of the present invention;

Fig. 2 is a perspective view of a feeding device in an embodiment of the present invention;

FIG. 3 is a perspective view of the main drive of the embodiment of the present invention;

FIG. 4 is a front view of the main drive of the embodiment of the present invention;

fig. 5 is a left side view of the main drive of the embodiment of the present invention;

FIG. 6 is a schematic view of a box feeder assembly according to an embodiment of the present invention;

FIG. 7 is a schematic view of a forward feed apparatus of a box feed assembly according to an embodiment of the present invention;

fig. 8 is a left side view of a box feed assembly in accordance with an embodiment of the present invention;

fig. 9 is a perspective view of a punch assembly in accordance with an embodiment of the present invention;

Fig. 10 is a cross-sectional view of a punch assembly in accordance with an embodiment of the present invention;

FIG. 11 is a schematic view of a pre-glue assembly according to an embodiment of the present invention;

FIG. 12 is a cross-sectional view of a pre-glue assembly in accordance with an embodiment of the present invention;

fig. 13 is a front view of an adhesive handle assembly according to an embodiment of the present invention;

fig. 14 is a perspective view of a glue handle assembly according to an embodiment of the present invention;

Fig. 15 is a schematic view of a tape feed assembly according to an embodiment of the present invention;

Fig. 16 is a schematic view of a threading handle assembly according to an embodiment of the present invention;

fig. 17 is a schematic view of a glue spraying assembly according to an embodiment of the present invention;

fig. 18 is a cross-sectional view of a glue-spraying assembly according to an embodiment of the present invention;

fig. 19 is a perspective view of a stiffener assembly according to an embodiment of the present invention;

fig. 20 is a cross-sectional view of a stiffener assembly according to an embodiment of the present invention;

FIG. 21 is a schematic view of a reinforcing tape unwind stand according to an embodiment of the present invention;

FIG. 22 is a schematic view of a handle strip unwind box according to an embodiment of the present invention;

fig. 23 is a rear view of a handle tape unwinding box according to an embodiment of the present invention.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby. It is to be noted that unless otherwise specified, technical or scientific terms used herein shall have the ordinary meaning as understood by those skilled in the art to which the present invention belongs.

example (b):

the utility model discloses a production line of cardboard carton gift box installation handle includes loading attachment in proper order, send case subassembly, final drive and receipts material pile up neatly, is equipped with the installation component on the final drive, the installation component is including the subassembly that punches a hole, pre-coat glue subassembly, glue the handle area, spout glue the subassembly, glue the subassembly and strengthen the band subassembly that distributes in proper order on the final drive.

a feeding device:

the device comprises a material storage device 1-1, a first synchronous belt 1-2, a second synchronous belt 1-3, a first servo motor 1-4, a first rodless cylinder 1-5, a material pushing plate 1-6, a stepping motor 1-7, a third synchronous belt 1-8, a tension balancer 1-9, a plate separating device 1-10, a ratchet wheel fixing ring 1-11, a feeding cylinder 1-12, a fourth synchronous belt 1-13, a first synchronous belt wheel 1-14, a sixth rotating shaft 1-15 and a box falling and feeding device 1-16.

Wherein:

storage device 1-1: the device comprises a front box baffle 1-1-1, a material storage bottom plate 1-1-2, a plate dividing synchronous belt 1-1-3, a rear box baffle 1-1-4, a first lifting cylinder 1-1-5, a first rodless cylinder 1-1-6, a first bottom plate 1-1-7, a synchronous belt support 1-1-8, a linear bearing 1-1-9, a support column 1-1-10, a roller support 1-1-11, a first bearing 1-1-12, a first connecting plate 1-1-13, a cam plate 1-1-14 and a second lifting cylinder 1-1-15.

Plate separating device 1-10: the box pushing device comprises, by weight, 1-10-1 parts of a first box pushing plate, 1-10-2 parts of a pushing plate, 1-10-3 parts of a first guide pillar, 1-10-3 parts of a first air cylinder connecting piece, 1-10-5 parts of a plate separating air cylinder, 1-10-6 parts of a first rubber-coated roller, 1-10-7 parts of a second rubber-coated roller shaft, 1-10-8 parts of a fifth synchronous belt, 1-10-9 parts of a sixth synchronous belt wheel and 1-10-10 parts of a brushless motor.

Case material feeding unit 1-16 falls: the device comprises a stop block 1-16-1, a box blocking rod 1-16-2, a push block 1-16-3, a second connecting plate 1-16-4, a blanking plate 1-16-5, a clamping block 1-16-6, a chain wheel 1-16-7, a first chain 1-16-8 and a first motor 1-16-9.

the piled paper boxes are placed on a storage bottom plate 1-1-2, the paper boards cannot topple over under the action of plate dividing synchronous belts 1-1-3 on the two sides until the storage plates are fully placed, and then a first rodless cylinder 1-1-6 drives a front box baffle plate 1-1-1 to move forwards to tightly press the loaded paper boards. Then, when a material shortage signal is received, the second lifting cylinder 1-1-15 fixed on the first bottom plate 1-1-7 extends out to drive the first connecting plate 1-1-13 and the cam plate 1-1-14 to advance, so that the first bearing 1-1-12 is pushed to lift upwards, the supporting columns 1-1-10 and the material storage bottom plate 1-1-2 are lifted, and the paper box is separated from the plate dividing synchronous belt. The first servo motor 1-4 drives the first synchronous belt 1-2 fixed with the synchronous belt support 1-1-8 to move by driving the first synchronous belt wheel 1-3 to rotate, so as to drive the material storage device 1-1 to move forwards. When the proximity switch detects the leading cardboard, the magazine stops moving forward. At the moment, the first rodless cylinder 1-5 drives the material pushing plate 1-6 to ascend, then the stepping motor 1-7 is started, the third synchronous belt 1-8 drives the material pushing plate 1-6 to integrally move forwards, the material pushing plate 1-6 descends when reaching the front edge of the front box baffle of the storage device, the first lifting cylinder 1-1-5 drives the rear box baffle 1-1-4 to descend, and the paper plate is pushed to move forwards with a certain pulling force under the action of the pulling force balancer 1-9. The material storage device returns to the feeding position under the action of the first rodless cylinder 1-1-6 and the first servo motor 1-4 to continue feeding.

When the paperboard runs to the board separating device 1-10, a material shortage signal of a box sending is received, the board separating air cylinder 1-10-5 retracts, the first box pushing plate 1-10-1 retracts under the drive of the 1-10-4 air cylinder connecting piece and the first guide pillar 1-10-3, the brushless motor 1-10-10 drives the second rubber wrapping roller shaft 1-10-7 to rotate through the sixth synchronous belt wheel 1-10-9 and the fifth synchronous belt 1-10-8, one paperboard is brushed down under the rotation action of the first rubber wrapping roller 1-10-6 on the rubber wrapping roller shaft, when the paperboard reaches a specified position, the board separating air cylinder extends out, and the first box pushing plate 1-10-1 blocks the subsequent paperboard. At the moment, the feeding cylinder 1-12 stretches once, and the fourth synchronous belt 1-13 is driven to move through the ratchet wheel fixing ring 1-11, the first synchronous belt pulley 1-14 and the sixth rotating shaft 1-15, so that the paperboard is fed once. The automatic board separating function is realized by the cyclic reciprocating.

when the paper boards fall to the box falling and feeding devices 1-16 under the action of the board separating device. Under the action of inertia and gravity, the carton falls onto the blanking plate 1-16-5 and then slides into the groove of the stop block 1-16-1, at the moment, the first motor 1-16-9 is started, the first chain 1-16-8 is driven to move forward by the rotation of the chain wheel 1-16-7, and the pushing block 1-16-3 fixed on the chain pushes the carton to move forward. When the paper box leaves the designated position on the blanking plate, a material shortage signal is sent out, the plate separating device 1-10 moves, and a paper plate falls down. The automatic blanking and box conveying functions are realized by the circular reciprocating.

Main transmission:

the main transmission line comprises a box opening sliding rod, a guide rail, a transmission chain and a box opening shuttle nozzle;

The guide rail and the box opening sliding rod are arranged in parallel, the feeding end of the box opening sliding rod is arranged at the feeding end of the box opening sliding rod, and the front end of the box opening shuttle nozzle extends to the box conveying component;

the conveying chains are arranged above the guide rails in parallel, and shifting blocks for pushing the cartons on the guide rails are arranged on the conveying chains.

the reference numbers and the working flows related to the part are as follows:

The automatic box opening mechanism comprises a driven shaft 3-1, a second bearing 3-2, a second driven chain wheel 3-3, a third chain 3-4, a box opening shuttle nozzle 3-5, a carton shifting block 3-6, a second driving shaft 3-7, a second driving chain wheel 3-8, a connecting sleeve 3-9, a second servo motor 3-10, an upper guide rail 3-11, an adjusting baffle 3-12 and a lower guide rail 3-13.

during the carton conveying process of the carton conveyed by the carton conveying assembly, the carton is opened under the action of the carton opening shuttle nozzle 3-5 and enters a designated position of a main transmission, at the moment, the second servo motor 3-10 is started to rotate for a certain angle to drive the second driving shaft 3-7 and the second driving chain wheel 3-8 to rotate, so that the chain 3-4 is driven to move forwards, and the carton shifting block 3-6 fixed on the chain pushes the carton forwards for a distance of one station. The paper box is circularly reciprocated in such a way, so that the function of conveying the paper box to the next station is realized.

A box conveying assembly:

the box conveying assembly comprises a first conveyor belt, a pressing plate assembly and a forward conveying assembly;

the pressure plate assembly comprises a wheel plate and a pressing cylinder;

the wheel plate and the first conveyor belt are arranged in parallel, the wheel plate is provided with a sliding column in sliding fit with the rack, the driving end of the compaction air cylinder is connected to the wheel plate, the compaction air cylinder drives the wheel plate to approach the first conveyor belt, and the wheel plate is provided with a plurality of conveying wheels abutted against the first conveyor belt;

the front conveying assembly comprises a front conveying sliding block and a front conveying air cylinder, the front conveying sliding block is located on the side portion of the tail end of the first conveying belt, and the front conveying sliding block is in sliding fit with the machine frame along the direction of the first conveying belt.

The reference numbers and the working flows related to the part are as follows:

The box packing machine comprises a first rubber coating wheel 4-1, a guide plate 4-2, a third driving shaft 4-3, a compaction cylinder 4-4, a box conveying device 4-5, a front conveying device 4-6, a driven belt wheel 4-7, a driving belt wheel 4-8 and a third motor 4-9.

wherein:

and (4) a box conveying device 4-5: 4-5-1 parts of a first sliding block, 4-5-2 parts of a first connecting block, 4-5-3 parts of a first belt, 4-5-4 parts of a first belt wheel and 4-5-5 parts of a front conveying cylinder;

Forward devices 4-6: 4-6-1 parts of a second belt, 4-6-2 parts of a second belt wheel, 4-6-3 parts of an upper gear, 4-6-4 parts of a third belt wheel, 4-6-5 parts of a base, 4-6-6 parts of a second rotating shaft, 4-6-7 parts of a second bottom plate, 4-6-8 parts of a third rotating shaft and 4-6-9 parts of a lower gear.

the carton feeding part of the loading device feeds the cartons to the designated position of the 4 carton feeding assemblies. The third motor 4-9 is started, the driving belt wheel 4-8 is driven to rotate, so that the driven belt wheel 4-7 and the third driving shaft 4-3 are driven to rotate through the synchronous belt, the first belt 4-5-3 and the first belt wheel 4-5-4 are driven to rotate by the rotating shaft 4-3, and the carton moves forwards to the front feeding device 4-6 under the action of the 2 first belts 4-5-3.

the cartons are in designated positions at the advancing devices 4-6. The first belt 4-5-3 drives the third belt wheel 4-6-4 to rotate, and then the second belt 4-6-1 and the second belt wheel 4-6-2 are driven to rotate through the lower gear 4-6-9 and the upper gear 4-6-3, and the carton moves forwards under the friction force of the belts. Meanwhile, the front air feeding cylinder 4-5-5 extends forwards, the front feeding device 4-6 is pushed forwards, the carton is fed to the designated position of the main transmission, and then the front air feeding cylinder 4-5-5 retracts.

a punching assembly:

The punching assembly comprises a first sliding rail, a sliding block seat, a first connecting arm and a bottom die;

the first sliding rail is vertically arranged on the machine frame at two sides of the first cam, first sliding blocks are respectively fixed at two sides of the sliding seat, and the first sliding blocks are respectively in sliding fit with the first sliding rail;

The utility model discloses a punch press, including punch fixed plate, guide post, briquetting mounting panel, die block, punch fixed plate, guide post, punch, briquetting mounting panel, punch, die block, and the both ends of first connecting arm articulate respectively in first cam with the slider seat, still be equipped with the connecting plate on the slider seat, be equipped with the punch fixed plate on the connecting plate, vertical sliding fit has the guide post on the punch fixed plate, the lower extreme level of guide post is fixed with the briquetting mounting panel, the both ends of briquetting mounting panel are fixed with the briquetting respectively, it is vertical still fixed with the punch on the punch fixed plate, the punch passes downwards briquetting and briquetting.

The reference numbers and the working flows related to the part are as follows:

The device comprises, by weight, 5-1 parts of a first connecting arm, 5-2 parts of a third bearing, 5-3 parts of a slider seat, 5-4 parts of a fourth bearing, 5-5 parts of a third connecting plate, 5-6 parts of a punch fixing plate, 5-7 parts of a guide rod, 5-8 parts of a first press block mounting plate, 5-9 parts of a first press block, 5-10 parts of a first guide rail, 5-11 parts of a second slider, 5-12 parts of a first bottom die, 5-13 parts of a fourth rotating shaft, 5-14 parts of a fourth belt pulley, 5-15 parts of a fourth motor, 5-16 parts of a connecting disc, 5-17 parts of a cam rotating seat, 5-18 parts of a first pin shaft, 5-19 parts of a. Figure 6 is a punch assembly.

when the carton reaches the designated position of the first bottom die 5-12, the fourth motor 5-15 is started to drive the fourth belt wheel 5-14 to rotate, and the fifth belt wheel 5-19 is driven to rotate through the synchronous belt, so that the fourth rotating shaft 5-13, the connecting disc 5-16 and the cam rotating seat 5-17 do rotating motion. The lower sliding block seat 5-3, the third connecting plate 5-5 and the punch fixing plate 5-6 are driven by the first connecting arm 5-1 to move up and down. In the process, the first pressing block 5-9 descends to press the paper box, then the punch 5-20 continues to move downwards to punch the paper box, the punch 5-20 ascends after the hole is punched, and then the first pressing block 5-9 ascends to complete the punching function. Through so circulating to reciprocate to realize the punching function of carton at this station.

Pre-gluing component:

the pre-gluing assembly comprises a first ball screw, a first supporting seat, an upper moving plate and a lower moving plate;

the first ball screw is horizontally and rotationally matched on the rack, the first ball screw is connected to the motor through a coupler, and a first moving block is in threaded fit on the first ball screw;

The first supporting seat is horizontally matched with the rack in a sliding manner, the rear end of the first supporting seat is fixed to the first moving block, the front end of the first supporting seat is provided with a lifting cylinder, and two sides of the lifting cylinder are respectively provided with a second sliding rail;

The two ends of the upper and lower moving plates are respectively provided with a second sliding block, the second sliding blocks are respectively in sliding fit with the second sliding rails, the middle parts of the upper and lower moving plates are connected with the lifting cylinder, a first glue gun fixing rod is horizontally arranged on the upper and lower moving plates, and two ends of the first glue gun fixing rod are respectively provided with a glue scraping gun.

the reference numbers and the working flows related to the part are as follows:

the device comprises a third lifting cylinder 6-1, a glue scraping gun 6-2, an upper movable plate 6-4, a lower movable plate 6-5, a third sliding block 6-5, a first supporting seat 6-6, a fifth motor 6-7, a first coupler 6-8, a first transverse movable plate 6-9, a first floating joint 6-10, a second connecting block 6-11 and a first ball screw 6-12. FIG. 7 shows a pre-glued assembly.

when the carton reaches the designated position of the pre-gluing station, the third lifting cylinder 6-1 descends, and the first floating joint 6-10 drives the second connecting block 6-11, the upper and lower movable plates 6-4 and the first glue gun fixing rod 6-3 to move downwards together, so that the glue scraping gun 6-2 is driven to move downwards to be close to the glue scraping position of the carton for glue scraping. At the moment, the fifth motor 6-7 is started to drive the first ball screw 6-12 to rotate, so that the first transverse moving plates 6-9 and 6-6 supporting blocks are pushed to move towards the motor direction, and the glue machine realizes horizontal movement to coat glue on the paper boxes. Then, the third lifting cylinder 6-1 rises to drive the glue scraping gun 6-2 to rise, and the fifth motor 6-7 is started to drive the glue gun to horizontally move back to the initial position. Through so circulating to reciprocate to realize the frictioning function of carton at this station.

sticking a handle belt:

the adhesive handle assembly comprises a pressing assembly, a handle penetrating assembly and a belt conveying assembly;

the pressing assembly comprises a brush belt cylinder, a pressing rod, a swinging rod and a plurality of connecting rods;

the brush belt cylinder is vertically arranged on the frame, the output end of the brush belt cylinder is provided with a connecting block,

The pressing rods are horizontally arranged on two sides below the brush belt cylinder respectively, the upper part of the inner ends of the pressing rods is hinged with the lower end of the swinging rod, and a brush belt block is arranged below the inner ends of the pressing rods;

the upper end of the swinging rod is hinged with the connecting block, the connecting rods are arranged in parallel, and two ends of each connecting rod are respectively hinged with the pressing rod and the rack;

The handle penetrating assembly comprises a third slide rail, a fixed seat and a second cam;

the third slide rail is vertically arranged below the brush belt block, the fixed seat is in sliding fit with the third slide rail, a base plate which slides up and down is arranged at the upper end of the third slide rail, a belt pressing plate is arranged in the middle of the base plate, the belt pressing block and the brush belt block are correspondingly arranged, pressing covers are respectively arranged at two ends of the belt pressing plate, the lower part of the base plate is connected with the fixed seat through a belt penetrating steel sheet, the second cam is arranged below the third slide rail, and the second cam is connected with the fixed seat through a second connecting arm;

The belt feeding assembly is arranged on the left side of the handle penetrating assembly.

The reference numbers and the working flows related to the part are as follows:

the belt feeding device comprises a belt feeding assembly 7-1, a handle penetrating assembly 7-2, a roller bearing follower 7-3, a brush belt cylinder 7-4, a cylinder connecting block 7-5, an opening and closing swing rod 7-6, a swing pin 7-7, a pressing rod 7-8, a brush belt block 7-9, a swing rod 7-10, a brush opening connecting block 7-11, a fourth connecting plate 7-12, a mounting base plate 7-13, a sliding plate 7-14, a cylinder 7-15, a cylinder fixing plate 7-16, a second fixing plate 7-17 and a second floating joint 7-18. Figure 8 shows a sticky handle assembly.

wherein:

Belt feeding assembly 7-1: the belt feeding device comprises a fifth bearing 7-1-1, a belt feeding bearing seat 7-1-2, a sixth belt wheel 7-1-3, a seventh belt wheel 7-1-4, a sixth motor 7-1-5, a belt passing bottom plate 7-1-6, a compression roller mandrel 7-1-7 and a belt feeding wheel shaft 7-1-8.

Handle assembly 7-2: a first gland 7-2-1, a cutter seat 7-2-2, a lifting seat 7-2-3, a cutter lifting cam 7-2-4, a connecting rod 7-2-5, a joint bearing 7-2-6, a belt pressing plate 7-2-7, a second gland 7-2-8, a seventh motor 7-2-9, a belt steel penetrating sheet 7-2-10, a fixing seat 7-2-11, a belt penetrating cam 7-2-12, a first bearing follower 7-2-13, a fifth rotating shaft 7-2-14, a first gear 7-2-15, a first cutter 7-2-16, a belt pressing rod 7-2-17, a belt pressing top plate 7-2-18 and a second guide rail 7-2-19, a second gear 7-2-20, an eighth belt wheel 7-2-21, a fourth driving shaft 7-2-22, a pinch rod seat 7-2-23, a second bearing follower 7-2-24, a photoelectric switch 7-2-25 and a ninth belt wheel 7-2-26.

When the carton reaches the designated position of the adhesive handle station, the belt feeding assembly 7-1 carries out belt feeding. The sixth motor 7-1-5 is started to drive the seventh belt wheel 7-1-4 to rotate, and the sixth belt wheel 7-1-3 and the belt conveying wheel shaft 7-1-8 are driven to rotate through the synchronous belt. The handle belt is conveyed forwards under the action of the belt conveying wheel shaft 7-1-8 and the fifth bearing 7-1-1, and when the paper belt reaches the photoelectric switch 7-2-25, the belt conveying action is stopped.

when the lifting handle belt is sent to a specified position, the seventh motor 7-2-9 is started to drive the ninth belt wheel 7-2-26 to rotate, the eighth belt wheel 7-2-21 and the fourth driving shaft 7-2-22 are driven to rotate through the synchronous belt, so that the second gear 7-2-20 is driven to rotate, the first gear 7-2-15 and the fifth rotating shaft 7-2-14 are driven to rotate, the cutter lifting cam 7-2-4 is driven to move up and down, and the first bearing follower 7-2-13, the lifting seat 7-2-3 and the first cutter 7-2-16 are driven to move up and down by the cam, so that the action of cutting the lifting handle belt is completed.

in the process of cutting the handle belt, the second gear 7-2-20 rotates to drive the belt penetrating cam 7-2-12 to rotate, so that the second bearing follower 7-2-24 is driven to move, the second guide rail 7-2-19, the belt pressing rod seat 7-2-23 and the belt pressing top plate 7-2-18 are driven to move upwards, the handle belt is pressed through the belt pressing rod 7-2-17, then the belt penetrating cam 7-2-12 rotates to drive the fixed seat 7-2-11 and the belt penetrating steel sheet 7-2-10 to move up and down, the handle belt penetrates through a carton, and then the belt pressing rod 7-2-17 descends to be separated from contact with the handle belt.

After the handle belt penetrates through the hole on the carton, the brush belt cylinder 7-4 descends to drive the cylinder connecting block 7-5 to move downwards, and the brush belt block 7-9 is driven to realize the action of the brush belt through the action of the oscillating rod 7-10, the opening and closing oscillating rod 7-6 and the oscillating pin 7-7, so that the penetrated handle belt is adhered to the carton. Then the brush belt cylinder 7-4 rises to drive the brush belt block 7-9 to separate from the paper box, thereby realizing the brush belt action.

After the handle belt is adhered to the carton, the air cylinder 7-15 extends out and moves forwards through the second floating joint 7-18 and the air cylinder fixing plate 7-16, so that the handle penetrating assembly 7-2 is driven to move forwards, and the handle belt is separated from the belt pressing plate 7-2-7. The carton is transferred to the next station and the cylinder 7-15 is then retracted, bringing the through-handle assembly 7-2 back.

The paper box is circularly reciprocated in such a way, so that the function of threading the handle belt of the paper box at the station is realized.

And (3) spraying a glue component:

the glue spraying assembly comprises a second ball screw and a second supporting seat;

the second ball screw is horizontally and rotationally matched on the rack, the second ball screw is connected to the motor through a coupler, and a second moving block is in threaded fit on the second ball screw;

the second supporting seat is horizontally matched with the rack in a sliding mode, the rear end of the first supporting seat is fixed to the second moving block, a second glue gun fixing rod is horizontally arranged at the front end of the second supporting seat, and glue spraying guns are respectively arranged at two ends of the second glue gun fixing rod.

The reference numbers and the working flows related to the part are as follows:

8-1 parts of a glue gun fixing plate, 8-2 parts of a second glue gun fixing rod, 8-3 parts of a glue spraying gun, 8-4 parts of a second supporting seat, 8-5 parts of an eighth motor, 8-6 parts of a second coupler, 8-7 parts of a second ball screw and 8-8 parts of a second transverse moving plate. Figure 9 shows a glue-spraying assembly.

when the carton reaches the designated position of the glue spraying station, the eighth motor 8-5 is started, the second ball screw 8-7 is driven to rotate through the second coupler 8-6, so that the second transverse moving plate 8-8 and the second supporting seat 8-4 are pushed to move towards the motor, and the glue spraying gun 8-3 realizes horizontal movement and sprays glue to the carton. Then, the eighth motor 8-5 rotates reversely, and the second ball screw 8-7 is driven to rotate by the second coupler 8-6, so that the second traverse moving plate 8-8 and the second supporting seat 8-4 are pushed to move in the reverse direction of the motor, and the glue gun 8-3 is driven to return to the initial position. Through so circulating to reciprocate to realize the gluey function of spouting of carton at this station.

gluing a reinforcing belt assembly:

9-1 of a lifting cam, 9-2 of a second connecting arm, 9-3 of a sixth bearing, 9-4 of a pressure head fixing plate, 9-5 of a belt pressing guide rod, 9-6 of a second pressing block mounting plate, 9-7 of a second pressing block, 9-8 of a second bottom die, 9-9 of a mounting plate, 9-10 of a fourth lifting cylinder, 9-11 of a second cutter, 9-12 of a cutter mounting plate, 9-13 of a belt pressing motor, 9-14 of a fourth sliding block, 9-15 of a pressing roller shaft, 9-16 of a seventh bearing, 9-17 of a belt feeding motor, 9-18 of a tenth belt wheel, 9-19 of a second rubber wrapping wheel, 9-20 of an eleventh belt wheel, 9-21 of a guide wheel, 9-22 of a third shaft coupler, 9-23 of an oilless bushing, 9-24 of a sliding film, 9-25 of a rotating shaft and 9-26 of an, the paper cutting device comprises 9-27 parts of transition plates, 9-28 parts of cam followers, 9-29 parts of paper cutting connecting rods, 9-30 parts of eighth bearings, 9-31 parts of second pin shafts, 9-32 parts of paper cutting connecting blocks and 9-33 parts of paper passing cover plates.

when the carton reaches the designated position of the station for adhering the reinforcing belt, the belt conveying motor 9-17 is started to drive the tenth belt wheel 9-18 to rotate, the eleventh belt wheel 9-20 and the second rubber wrapping wheel 9-19 are driven to rotate through the synchronous belt, the conveying of the reinforcing belt is further realized under the action of the second rubber wrapping wheel 9-19 and the seventh bearing 9-16, and the length of the conveying reinforcing belt is determined according to the rotating angle of the motor.

after the paper box and the reinforcing belts reach the designated positions, the fourth lifting cylinder 9-10 is lifted to drive the mounting plate 9-9 and the second bottom die 9-8 to lift and support the lower edge of the paper box. Then, the belt pressing motor 9-13 is started, the lifting cam 9-1 is driven to move through the rotation of the third coupler 9-22 and the rotating shaft 9-25, and therefore the second connecting arm 9-2, the pressure head fixing plate 9-4, the second pressing block mounting plate 9-6 and the second pressing block 9-7 are driven to move downwards, and the reinforcing belt is pressed tightly. The lifting cam 9-1 moves the inner track to drive the cam follower 9-28, the paper cutting connecting rod 9-29, the paper cutting connecting block 9-32 and the second cutter 9-11 to move downwards to cut off the reinforcing belt, and then the second cutter 9-11 rises to separate from the carton. Then, the second pressing block 9-7 rises to be separated from the carton, the fourth lifting cylinder 9-10 descends, and the carton advances by one station to complete the function of adhering the handle belt.

through so circulating to reciprocate to realize the sticky handle area function of carton at this station.

The reinforced belt unwinding box:

the device comprises a first tray detection arm 10-1, a first detection shaft 10-2, a first guide wheel 10-3, reinforcement belt starvation photoelectricity 10-4, a second guide wheel 10-5, a third guide wheel 10-6, a fourth guide wheel 10-7, a first belt conveying rubber wheel 10-8, a ninth motor 10-9, a guide bearing 10-10, a first paper belt guide pipe 10-11, a ninth bearing 10-12, a first keyless sleeve 10-13, a belt passing roller 10-14, a third driving sprocket 10-15, a first sprocket shaft 10-16, a first material cylinder 10-17 and a material box 10-18.

the reinforcing tape unwinding box supplies the reinforcing tape for the 9-stick reinforcing tape assembly. The reinforcing belt unreeling box is bilaterally symmetrical. The coiled reinforcing belt is placed on the first material cylinder 10-17, and enters between the first belt conveying rubber wheel 10-8 and the belt passing roller wheel 10-14 through the first guide wheel 10-3, the second guide wheel 10-5, the first paper belt guide pipe 10-11, the third guide wheel 10-6 and the fourth guide wheel 10-7. One end of a first tray detection arm 10-1 is fixed with a first detection shaft 10-2, a ninth bearing 10-12 is in contact with the outer circular surface of the coiled reinforcing band, the first detection shaft 10-2 rotates along with the outer circular surface of the lifting handle band, and the reinforcing band material shortage photoelectric device 10-4 determines whether material shortage exists or not by detecting the position of a screw at the right end.

When the material shortage is detected in the material box 10-18, the ninth motor 10-9 is started to drive the third driving sprocket 10-15 to rotate, the first sprocket shaft 10-16 is driven to rotate through the chain, the first key-free sleeve 10-13 and the first belt conveying belt packing wheel 10-8 are driven to rotate, the reinforcing belt is pulled to enter the material box 10-18 through the rotation of the first belt conveying belt packing wheel 10-8 and the belt passing roller wheel 10-14, and the ninth motor 10-9 is stopped when the material fullness is detected in the material box 10-18. The reinforcing tape is temporarily stored in a magazine 10-18 and is transported out through a guide bearing 10-10 to a 9-ply reinforcement tape assembly to provide the reinforcing tape.

11, unwinding the handle belt:

The device comprises a material shortage photoelectric device 11-1, a second material cylinder 11-2, a second paper tape guide pipe 11-3, a tenth motor 11-4, a second key-free sleeve 11-5, a fifth guide wheel 11-6, a sixth guide wheel 11-7, a second tape conveying rubber wheel 11-8, a tape conveying roller wheel 11-9, a tape conveying guide wheel 11-10, a fourth driving sprocket wheel 11-11, a second sprocket wheel shaft 11-12, a hot air blower 11-13, a second material tray detection arm 11-14, a second detection shaft 11-15, a heating box 11-16, a seventh guide wheel 11-17 and a tenth bearing 11-18.

The handle tape unwinding box provides the handle tape for the tape feed assembly 7-1. The coiled handle belt is placed on the second material cylinder 11-2 and enters between the second belt rubber-feeding roller 11-8 and the belt-feeding roller wheel 11-9 through a seventh guide wheel 11-17, a fifth guide wheel 11-6, a second paper belt guide tube 11-3 and a sixth guide wheel 11-7. One end of the second tray detection arm 11-14 is fixed with the second detection shaft 11-15, the tenth bearing 11-18 at the other end is contacted with the outer circular surface of the coiled lifting handle belt, the second detection shaft 11-15 rotates along with the outer circular surface of the lifting handle belt, and the material shortage photoelectric device 11-1 determines whether the material shortage exists or not by detecting the position of a screw at the right end.

when the heating box 11-16 detects that the material is short, the tenth motor 11-4 is started to drive the fourth driving sprocket 11-11 to rotate, the second sprocket shaft 11-12 is driven to rotate through the chain, the second key-free sleeve 11-5 and the second belt conveying rubber wheel 11-8 are driven to rotate, the handle belt is pulled into the heating box 11-16 through the rotation of the second belt conveying rubber wheel 11-8 and the belt conveying roller wheel 11-9, and the tenth motor 11-4 is stopped when the heating box 11-16 detects that the material is full. The handle belt is preheated in the heating box 11-16 by the hot air blower 11-13, and the preheated handle belt is output by the guide belt conveying guide wheel 11-10 and is conveyed into the belt conveying assembly 7-1.

receiving and stacking:

the receiving stacking device comprises a receiving stacking device, a conveying device and a stacking device, wherein the receiving stacking device comprises a blanking guide plate, a conveying belt and a storage box platform;

The front side of the blanking guide plate is obliquely arranged upwards, one end of the front side of the blanking guide plate is in butt joint with the tail end of the main transmission line, and the other end of the front side of the blanking guide plate is provided with a baffle;

The head end of the conveying belt is positioned below the blanking guide plate;

The storage tank platform set up in the tail end below of conveyer belt, the vertical flitch of returning to the place of being equipped with in storage tank bench, the tail end of conveyer belt with it is equipped with the storage space to leave between the flitch to return.

The reference numbers and the working flows related to the part are as follows:

The device comprises a conveying belt 2-1, a first driving shaft 2-2, a conveying belt wheel 2-3, a box storage plate 2-4, a first rotating shaft 2-5, a material receiving plate 2-6, a baffle plate 2-7, a blanking guide plate 2-8, a box pushing cylinder 2-9, a first fixing plate 2-10, a second box pushing plate 2-11, a second motor 2-12, a first driving chain wheel 2-13, a second chain 2-14, a first driven chain wheel 2-15, a first rotating arm 2-16, a second rotating arm 2-17, a box receiving cylinder 2-18, a fisheye joint 2-19 and a box falling plate 2-20.

The carton glued with the reinforcing belt enters a material receiving and stacking position under the action of the chain shifting teeth on the main transmission. Under the action of the shifting teeth, the blanking guide plates 2-8 reach the positions of the baffle plates 2-7. After the equipment is started, the second motor 2-12 drives the first driving chain wheel 2-13 to rotate, so that the first driving shaft 2-2 fixed with the first driven chain wheel 2-15 is driven to move through the second chain 2-14. The rotating driving shaft drives the conveying belt wheel 2-3 and the conveying belt 2-1 to move forwards, and the carton moves forwards and falls to the carton falling plate 2-20 under the action of friction force of the conveying belt 2-1. When 10 cartons are dropped, 1 carton receiving cylinder 2-18 on the left and right of the carton dropping position retracts to drive the first rotating arm 2-16 and the second rotating arm 2-17 to rotate, so that the material receiving plate 2-6 fixed on the first rotating shaft 2-5 is driven to rotate for 90 degrees to receive the dropped cartons. At the moment, the carton pushing cylinder 2-9 retracts to drive the second carton pushing plate 2-11 to push the carton to the designated position of the carton storage plate 2-4. Then the box pushing cylinders 2-9 extend out, the left and right box receiving cylinders 2-18 extend out respectively at the box falling position, the first rotating arms 2-16 and the second rotating arms 2-17 are driven to rotate, and the cartons on the material receiving plates 2-6 are fallen down. The material receiving and stacking functions are realized through the circulation reciprocating.

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

Claims (8)

1. the equipment for fully automatically installing the gift box handle is characterized by sequentially comprising a feeding device, a box conveying assembly, a main transmission and a material receiving stacking device, wherein the main transmission is provided with a plurality of installation assemblies;

The box conveying assembly comprises a first conveyor belt, a pressing plate assembly and a forward conveying assembly;

the pressing plate assembly comprises a wheel plate and a pressing cylinder;

the wheel plate is arranged in parallel with the first conveyor belt, the wheel plate is provided with a sliding column in sliding fit with the rack, the driving end of the pressing cylinder is connected to the wheel plate, the pressing cylinder drives the wheel plate to be close to the first conveyor belt, and the wheel plate is provided with a plurality of conveying wheels abutted against the first conveyor belt;

the front conveying assembly comprises a front conveying sliding block and a front conveying cylinder, the front conveying sliding block is positioned on the side part of the tail end of the first conveying belt, and the front conveying sliding block is in sliding fit with the rack along the direction of the first conveying belt;

the installation component comprises a punching component, a pre-gluing component, a sticky handle belt, a glue spraying component, a sticky strengthening belt component and a strengthening belt component which are sequentially distributed on the main transmission.

2. A fully automatic gift box handle mounting apparatus as claimed in claim 1 wherein the main drive line includes a box opening slide, a guide rail, a conveyor chain and a box opening shuttle;

The guide rail and the box opening slide bar are arranged in parallel, the feed end of the box opening slide bar is arranged at the feed end of the box opening slide bar, and the front end of the box opening shuttle nozzle extends to the box conveying component;

The conveying chain is arranged above the guide rail in parallel, and the conveying chain is provided with a shifting block for pushing the paper boxes on the guide rail.

3. the fully automatic gift box handle installation apparatus of claim 2, wherein the punch assembly includes a first slide rail, a slide block seat, a first connecting arm, and a bottom die;

the first sliding rail is vertically arranged on the machine frame at two sides of the first cam, the two sides of the sliding seat are respectively fixed with a first sliding block, and the first sliding blocks are respectively in sliding fit with the first sliding rail;

the both ends of first connecting arm articulate respectively in first cam and slider seat, still are equipped with the connecting plate on the slider seat, are equipped with the drift fixed plate on the connecting plate, and vertical sliding fit has the guide post on the drift fixed plate, and the lower extreme level of guide post is fixed with the briquetting mounting panel, and the both ends of briquetting mounting panel are fixed with the briquetting respectively, still vertically on the drift fixed plate is fixed with the drift, and the drift passes briquetting and briquetting mounting panel downwards, drift and briquetting, briquetting installation version sliding fit, and the die block sets up in the frame of briquetting below.

4. a fully automatic gift box handle mounting apparatus as claimed in claim 3, wherein the pre-glue assembly comprises a first ball screw, a first support base, an upper and lower movable plate;

the first ball screw is horizontally and rotationally matched on the rack, the first ball screw is connected to the motor through a coupler, and a first moving block is in threaded fit on the first ball screw;

the first supporting seat is horizontally matched with the rack in a sliding manner, the rear end of the first supporting seat is fixed to the first moving block, the front end of the first supporting seat is provided with a lifting cylinder, and two sides of the lifting cylinder are respectively provided with a second sliding rail;

The two ends of the upper and lower movable plates are respectively provided with a second sliding block, the second sliding blocks are respectively in sliding fit with second sliding rails, the middle parts of the upper and lower movable plates are connected with the lifting cylinder, the upper and lower movable plates are horizontally provided with a first glue gun fixing rod, and the two ends of the first glue gun fixing rod are respectively provided with a glue scraping gun.

5. a fully automatic gift box handle mounting apparatus as defined in claim 1,

the sticky handle assembly comprises a pressing assembly, a handle penetrating assembly and a belt conveying assembly;

the pressing assembly comprises a brush belt cylinder, a pressing rod, a swinging rod and a plurality of connecting rods;

the brush belt cylinder is vertically arranged on the frame, the output end of the brush belt cylinder is provided with a connecting block,

The two sides of the lower part of the brush belt cylinder are respectively and horizontally provided with a pressing rod, the upper part of the inner end of the pressing rod is hinged with the lower end of the swinging rod, and a brush belt block is arranged below the inner end of the pressing rod;

The upper end of the swing rod is hinged with the connecting block, the connecting rods are arranged in parallel, and the two ends of each connecting rod are respectively hinged with the pressing rod and the rack.

6. A fully automated gift box handle mounting apparatus as claimed in claim 5, wherein the handle penetrating assembly comprises a third slide rail, a fixed base, and a second cam;

the third sliding rail is vertically arranged below the brush belt block, the fixed seat is in sliding fit with the third sliding rail, a base plate which can slide up and down is arranged at the upper end of the third sliding rail, a belt pressing plate is arranged in the middle of the base plate, the belt pressing block and the brush belt block are correspondingly arranged, two ends of the belt pressing plate are respectively provided with a gland, the lower part of the base plate is connected with the fixed seat through a belt penetrating steel sheet, the second cam is arranged below the third sliding rail, and the second cam is connected with the fixed seat through a second connecting arm;

The belt feeding assembly is arranged on the left side of the handle penetrating assembly.

7. a fully automated gift box handling apparatus of claim 6 wherein the glue gun assembly includes a second ball screw and a second support base;

the second ball screw is horizontally and rotationally matched on the rack, the second ball screw is connected to the motor through a coupler, and a second moving block is in threaded fit on the second ball screw;

the second supporting seat is horizontally matched with the rack in a sliding mode, the rear end of the first supporting seat is fixed to the second moving block, the front end of the second supporting seat is horizontally provided with a second glue gun fixing rod, and two ends of the second glue gun fixing rod are respectively provided with a glue spraying gun.

8. A fully automatic gift box handle mounting apparatus as claimed in claim 7 wherein the material receiving stack includes a blanking guide plate, a conveyor belt and a storage box table;

The front side of the blanking guide plate is obliquely arranged upwards, one end of the front side of the blanking guide plate is in butt joint with the tail end of the main transmission line, and the other end of the front side of the blanking guide plate is provided with a baffle;

The head end of the conveying belt is positioned below the blanking guide plate;

The storage box platform sets up in the tail end below of conveyer belt, and the vertical flitch of returning to the palm of being equipped with of storage box bench is reserved between the tail end of conveyer belt and the flitch of returning to the palm and is equipped with the storage space.