CN216887495U - Packing carton rubberizing mechanism - Google Patents

Abstract

The utility model relates to a packing box rubberizing mechanism which comprises a rubberizing translation cylinder, a rubberizing moving plate and a rubberizing lifting motor arranged on a rack table, wherein the rubberizing lifting motor and the rubberizing translation cylinder drive the rubberizing moving plate to move, a rubberizing roller is rotatably arranged on the rubberizing moving plate, a rubber tape roll is wound on the rubberizing roller, a cutter moving cylinder is fixed at the bottom of the rubberizing moving plate, a piston rod of the cutter moving cylinder is connected with a rubberizing lower pressing wheel and a rubberizing cutter, the rubberizing cutter is located above the rubberizing lower pressing wheel, and a rubber tape head of the rubber tape roll is hung in front of the rubberizing lower pressing wheel. Compared with the prior art, the automatic rubberizing device has the advantages that the automatic rubberizing of the packaging box is realized through the cooperation of the rubberizing lower pressing wheel and the rubberizing cutter, the speed is high, the efficiency is high, the sanitation is high, the positions of the rubberizing tapes and the lengths of the adhesive tapes are uniform and neat, the three adhesive tapes are pasted, the firmness and the attractiveness are high, and the top of the packaging box is prevented from popping out in the transportation process.

Description

Packing carton rubberizing mechanism

Technical Field

The utility model relates to a packing box gluing mechanism, and belongs to the technical field of medical equipment.

Background

The medical instrument is indispensable during hemodialysis when the arteriovenous puncture needle is used, and can only be used once, and the market demand is large. In order to ensure the sanitation and safety of the arteriovenous puncture needle, an operator and equipment are required to keep clean from production to packaging, and the packaging of the arteriovenous puncture needle comprises puncture needle bagging packaging and packaging a plurality of puncture needles which are bagged into a packaging box, so that the arteriovenous puncture needle is convenient to transport and take. In the prior art, automatic puncture needle bagging and packaging equipment exists, and after puncture needles are bagged and packaged, the puncture needles need to be loaded to a box packaging position. After the puncture needle is put into the box, an adhesive tape needs to be pasted on the packaging box to prevent the top of the packaging box from popping out, and the packaging box is scattered in the transportation process to cause the puncture needle to fall out of the packaging box. At present, the rubberizing work is finished manually, and the defects of manual rubberizing comprise: the speed is low and the efficiency is low; not hygienic enough; the positions of the adhesive tapes and the lengths of the adhesive tapes are not uniform and tidy.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a packing box gluing mechanism capable of automatically gluing aiming at the defects of the prior art.

The technical scheme adopted by the utility model for realizing the purpose is as follows:

packing carton rubberizing mechanism, including rubberizing translation cylinder, rubberizing movable plate and set up the rubberizing elevator motor on the rack platform, rubberizing elevator motor, rubberizing translation cylinder drive the rubberizing movable plate removes, the rotation is provided with the rubberizing gyro wheel on the rubberizing movable plate, the winding has the sticky tape to roll up on the rubberizing gyro wheel, the bottom of rubberizing movable plate is fixed with cutter moving cylinder, be connected with down pinch roller of rubberizing and rubberizing cutter on the piston rod of cutter moving cylinder, the rubberizing cutter is located the top of pinch roller under the rubberizing, the sticky tape head of sticky tape roll hang perpendicularly in the place ahead of pinch roller under the rubberizing.

As a further optimization of the above technical solution: the adhesive tape swing mechanism is characterized in that an adhesive tape sensor and an adhesive tape swing rod which can rotate relative to the adhesive tape moving plate are further mounted on the adhesive tape moving plate, a protruding adhesive tape contact rod is arranged on the adhesive tape swing rod, the adhesive tape contact rod is located above the adhesive tape roll and is always in contact with the adhesive tape roll, the height of the adhesive tape contact rod gradually decreases along with the use of the adhesive tape roll, and therefore the adhesive tape swing rod starts to swing until the adhesive tape sensor senses the adhesive tape swing rod.

As a further optimization of the above technical solution: the adhesive tape cutting device is characterized in that two matched rollers are further rotatably arranged on the adhesive tape moving plate, an adhesive tape pressing wheel and an adhesive tape moving limiting block are further mounted at the bottom of the adhesive tape moving plate, the adhesive tape pressing wheel is located above the adhesive tape pressing wheel, the adhesive tape cutting knife is located below the adhesive tape pressing wheel, and an adhesive tape head on the adhesive tape roll sequentially penetrates through the space between the two matched rollers, the adhesive tape pressing wheel and the space between the adhesive tape moving limiting blocks.

As a further optimization of the above technical solution: also comprises a rubberizing installation back plate fixed on the rack platform, a rubberizing lifting guide block and a rubberizing lifting lug are fixed on the rubberizing installation back plate, the rubberizing lifting motor is arranged on the rubberizing lifting guide block, a rubberizing lifting slide block is arranged on the rubberizing lifting guide block, the rubberizing lifting slide block is driven by the rubberizing lifting motor and can move along the rubberizing lifting guide block, the rubberizing lifting lug is fixed with a rubberizing sliding guide rail, the rubberizing sliding guide rail is provided with a rubberizing sliding guide slider, a rubberizing lifting plate is fixed between the rubberizing lifting slide block and the rubberizing sliding guide slide block, the rubberizing translation cylinder is fixed on the rubberizing lifting plate, the rubberizing translation cylinder is provided with a rubberizing translation slider, the rubberizing translation cylinder drives the rubberizing translation slider moves, and the rubberizing movable plate is fixed with the rubberizing translation slider mutually.

As a further optimization of the above technical solution: still including moving the material subassembly, move the material subassembly including moving the material motor, moving the material piece and fixing move the material backplate on the rack platform, move and install on the material backplate and move the material guide block, it installs to move the material motor move on the material guide block, it is provided with on the material guide block and moves the material slider to move, move the material slider quilt move the material motor and drive and can follow move the material guide block and remove, move the material piece with it is connected to move the material slider, it promotes the packing carton to move the material piece.

As a further optimization of the above technical solution: still including setting up be in the last movable plate of weighing of rack platform, be provided with preceding fender moving cylinder, backplate and air cylinder that pushes down on the movable plate of weighing, be provided with preceding fender moving block on the preceding fender moving cylinder, preceding fender moving cylinder drives preceding fender moving block removes, be fixed with preceding baffle on the preceding fender moving block, it has the rubberizing breach to make on the preceding baffle, a part of packing carton exposes the rubberizing breach, the rubberizing cutter with the rubberizing pushes down the wheel and is located the place ahead of rubberizing breach, it is located to push down the air cylinder preceding baffle with the top of backplate, install the rubberizing clamp plate on the piston rod of air cylinder that pushes down, it drives to push down the air cylinder the rubberizing clamp plate removes, preceding baffle the backplate the rubberizing clamp plate all with the packing carton is hugged closely.

As a further optimization of the above technical solution: the material passing bottom plate and the weighing movable plate are located on the same plane, two material passing baffles are installed on the material passing bottom plate, the top of each material passing baffle is connected with a material passing pressing plate, the packaging boxes are located between the two material passing baffles, and the material passing pressing plates press the packaging boxes.

As a further optimization of the above technical solution: the material moving block pushes the packaging box, and the packaging box moves from the material passing bottom plate to the weighing moving plate.

As a further optimization of the above technical solution: the material moving back plate is further provided with a material moving convex block, a material moving sliding rail is fixed on the material moving convex block, a material moving guide sliding block is arranged on the material moving sliding rail, and the material moving block is connected with the material moving guide sliding block.

Compared with the prior art, the automatic rubberizing of the packing box is realized through the cooperation of the rubberizing lower pressing wheel and the rubberizing cutter, the speed is high, the efficiency is high, the box is more sanitary, the position of the rubberizing tape and the length of the adhesive tape are uniform and regular, the three adhesive tapes are pasted, the box is firmer and more attractive, and the top of the packing box is prevented from popping out in the transportation process; set up preceding baffle, backplate and rubberizing clamp plate and fix a position the packing carton, make things convenient for the rubberizing.

Drawings

Fig. 1 is a schematic top view of the puncture needle cartridge packaging machine.

Fig. 2 is a schematic perspective view of a box sealing mechanism and a gluing mechanism in the puncture needle box-entering packaging machine.

Fig. 3 is a schematic perspective view of the present invention.

Fig. 4 is a schematic perspective view of a part of the structure of the present invention.

Detailed Description

The utility model is further described with reference to the following figures and detailed description. As shown in fig. 1-4, the puncture needle boxing and packaging machine includes a puncture needle pitch varying mechanism 11, a puncture needle detection mechanism 12, a puncture needle feeding mechanism 3, a bin mechanism 4, a transfer mechanism 5, a packaging box forming mechanism 6, a turntable transfer mechanism 7, a box sealing mechanism 8, a gluing mechanism 9, and a defective product pushing mechanism 10, which are located on a rack 1, and a protective cover 2 is further installed on the rack 1. The puncture needles mentioned hereinafter are all puncture needles which are packaged in bags.

In the above technical scheme: the rubberizing mechanism 9 includes a material moving assembly 91, a material receiving weighing assembly 92 and an adhesive tape assembly 93. The box sealing mechanism 8 drives the packaging box to move to be matched with the material moving assembly 91, the material moving assembly 91 pushes the packaging box into the material receiving weighing assembly 92, the adhesive tape assembly 93 is pasted with an adhesive tape on the packaging box, then the material receiving weighing assembly 92 weighs the packaging box, and whether the amount of the puncture needle in the packaging box is enough or not is judged through weight.

In the above technical scheme: the material moving assembly 91 comprises a material moving motor 911, a rubberizing pressing plate cylinder 912 and a material moving back plate 913 fixed on the rack platform 1. The material moving back plate 913 is provided with a material moving guide block 914, the material moving motor 911 is installed on the material moving guide block 914, the material moving guide block 914 is provided with a material moving slide block, and the material moving slide block is driven by the material moving motor 911 and can move along the material moving guide block 914. The transmission modes among the material moving motor 911, the material moving guide block 914 and the material moving slide block are the same as those among the specimen motor, the specimen guide block and the specimen positioning slide block in the patent of the blood testing machine with the application number of 202110027391.6. The material moving sliding block is connected with a material moving block 916, the box sealing mechanism 8 drives the packaging box to move to be matched with the material moving assembly 91, the material moving motor 911 drives the material moving block 916 to move, and therefore the material moving block 916 pushes the packaging box to the material receiving weighing assembly 92. The material moving back plate 913 is further provided with a material moving convex block, the material moving convex block is fixed with a material moving slide rail 917, the material moving slide rail 917 is provided with a material moving sliding guide block, and the material moving block 916 is connected with the material moving sliding guide block. The rubberizing pressing plate cylinder 912 is fixed at the top of the material moving back plate 913, and a rubberizing push plate 915 is installed on a piston rod of the rubberizing pressing plate cylinder 912.

In the above technical scheme: connect material weighing component 92 including fixing the fixed plate 921 of weighing on rack platform 1 and being located the material bottom plate 922 and the movable plate 923 of weighing of crossing above the fixed plate 921 of weighing. The material passing bottom plate 922 is fixed on the weighing fixing plate 921 through the support column, two material passing baffle plates 924 are installed on the material passing bottom plate 922, and the top of the material passing baffle plates 924 is connected with a material passing press plate 925. The material moving block 916 pushes the packaging box onto the material passing bottom plate 922, the packaging box is located between the two material passing baffle plates 924, and the material passing press plate 925 presses the packaging box top 133 to prevent the packaging box top 133 from popping out.

In the above technical scheme: a weighing moving cylinder 9212 and a weighing sensor 9213 are fixed on the weighing fixing plate 921. The piston rod of the weighing moving cylinder 9212 is fixed at the bottom of the weighing moving plate 923, and the weighing moving cylinder 9212 drives the weighing moving plate 923 to move up and down. Install the uide bushing 928 of weighing on the fixed plate 921 weighs, the below of fixed plate 921 of weighing is provided with the removal installation piece 9210 of weighing, and it removes guide pillar 927 to slide to be provided with in the uide bushing 928 of weighing, and the both ends of removing guide pillar 927 of weighing are fixed mutually with the removal board 923 and the removal installation piece 9210 of weighing respectively. The bottom of fixed plate 921 of weighing is installed and is weighed and remove stopper 929, and the removal of weighing installation piece 9210 is gone up and is installed and remove stopper 929 complex of weighing removal buffer 9211. The weighing sensor 9213 is provided with a weighing support seat 9214, the weighing support seat 9214 is provided with a plurality of weighing lugs 9220, and the weighing moving plate 923 is provided with weighing holes for the weighing lugs 9220 to pass through. Move material subassembly 91 and push away the packing carton to weighing on the movable plate 923, during weighing, the movable cylinder 9212 that weighs drives the movable plate 923 that weighs and moves down, and the lug 9220 that weighs passes the weighing hole gradually to ejecting with the packing carton, weighing sensor 9213 weighs the packing carton. After weighing, the mobile cylinder 9212 that weighs drives the mobile plate 923 that weighs and shifts up to reset, moves material subassembly 91 and pushes away the packing carton into substandard product pushing equipment 10 according to the result of weighing.

In the above technical scheme: a front gear moving cylinder 9215 and a rear baffle 9216 are fixed on the weighing moving plate 923. The front gear moving cylinder 9215 is provided with an L-shaped front gear moving slide block, the front gear moving cylinder 9215 drives the front gear moving slide block to move, and the matching mode between the front gear moving cylinder 9215 and the front gear moving slide block is the same as the matching mode between the puncture outfit guide cylinder and the puncture outfit guide slide block in the drip chamber automatic assembling machine with the application number of 2021101856870. A front baffle 9217 is fixed on the front baffle moving slide block, and a rubberizing notch is formed on the front baffle 9217. The top of the material passing baffle 924 is also connected with a lower air cylinder 9218, and a piston rod of the lower air cylinder 9218 is provided with a rubberizing pressing plate 9219. During gluing, the front baffle moving cylinder 9215 drives the front baffle 9217 to move forwards, the pressing cylinder 9218 drives the gluing pressing plate 9219 to move downwards, and the front baffle 9217, the rear baffle 9216 and the gluing pressing plate 9219 are all tightly attached to the packaging box to position the packaging box.

In the above technical scheme: the tape assembly 93 is positioned in front of the taping notch. The adhesive tape assembly 93 includes an adhesive lifting motor 931, an adhesive translation cylinder 932, and an adhesive mounting back plate 933 fixed to the gantry base 1. A rubberizing lifting guide block 934 and a rubberizing lifting projection 935 are fixed on the rubberizing installation back plate 931. Rubberizing lifting motor 931 is installed on rubberizing lift guide 934, is provided with rubberizing lifting slide block on the rubberizing lift guide 934, and rubberizing lifting slide block is driven and can be followed rubberizing lift guide 934 by rubberizing lifting motor 931 and removed. The transmission modes between the rubberizing lifting motor 931, the rubberizing lifting guide block 934 and the rubberizing lifting slide block are the same as those between the blood sampling tube moving motor, the blood sampling tube guide block and the cover pulling slide block in the blood testing machine patent with the application number of 202110027391.6. The rubberizing lifting convex block 935 is fixed with a rubberizing sliding guide rail, and the rubberizing sliding guide rail is provided with a rubberizing sliding guide block. A rubberizing lifting plate 936 is fixed between the rubberizing lifting slide block and the rubberizing sliding guide slide block. Rubberizing translation cylinder 932 is fixed on rubberizing lifter plate 936, is provided with rubberizing translation slider on the rubberizing translation cylinder 932, and rubberizing translation cylinder 932 drives rubberizing translation slider and removes, is fixed with rubberizing movable plate 937 on the rubberizing translation slider. A rubberizing roller 938 and two matching rollers 939 are rotatably arranged on the rubberizing moving plate 937, and a tape roll 9318 is wound on the rubberizing roller 938. In order to prevent the adhesive tape from sticking to the engaging roller 939, the engaging roller 939 is a teflon roller, and the two engaging rollers 939 guide the movement of the adhesive tape. The rubberizing moving plate 937 is further provided with a rubberizing pressing wheel 9313 and a rubberizing moving limiting block 9314 positioned above the rubberizing pressing wheel 9313. The adhesive tape head on the adhesive tape roll 9318 passes through the space between the two matching rollers 939 and then passes through the space between the adhesive tape upper pressing wheel 9313 and the adhesive tape moving limiting block 9314.

In the above technical scheme: a cutter moving cylinder 9310 is fixed at the bottom of the adhesive tape moving plate 937, an adhesive tape lower pressing wheel 9311 is connected to a piston rod of the cutter moving cylinder 9310 through a cutter connecting block, and an adhesive tape head is vertically hung in front of the adhesive tape lower pressing wheel 9311. A rubberizing cutter 9312 is fixed on the cutter connecting block through a cutter fixing block, and the rubberizing cutter 9312 is positioned between a rubberizing lower pressing wheel 9311 and a rubberizing upper pressing wheel 9313.

In the above technical scheme: the rubberizing moving plate 937 is further provided with a tape sensor 9315 and a tape swing rod 9316 which can rotate relative to the rubberizing moving plate 937, the tape swing rod 9316 is provided with a protruded tape contact rod 9317, and the tape contact rod 9317 is positioned above the tape roll 9318 and is always in contact with the tape roll 9318. The height of the tape contact bar 9317 gradually decreases as the tape roll 9318 is used, so that the tape swing link 9316 starts to swing, and when the tape sensor 9315 senses the tape swing link 9316, indicating that the tape roll 9318 is used up, the tape sensor 9315 sends a signal to remind a worker to replace the tape roll 9318.

The working process of the utility model is as follows: the puncture needle distance changing mechanism 11 is responsible for sucking a plurality of puncture needles and changing the distance of the puncture needles, so that each puncture needle is separated by a certain distance, and the puncture needles are placed on the puncture needle feeding mechanism 3. The puncture needle detection mechanism 12 is responsible for detecting the puncture needle in the process that the puncture needle distance changing mechanism 11 drives the puncture needle with the distance changed to move to the puncture needle feeding mechanism 3, and detecting whether the puncture needle is qualified. The storage bin mechanism 4 is internally provided with an unfolded packing box paperboard 13, the transfer mechanism 5 absorbs the packing box paperboard 13 on the storage bin mechanism 4 and drives the packing box paperboard 13 to move to the packing box forming mechanism 6 for folding and forming. The transfer mechanism 5 drives the folded packaging box paperboard 13 to move to the rotary table transfer mechanism 7 to wait for feeding. The puncture needle feeding mechanism 3 feeds puncture needles into a packing box on the turntable transfer mechanism 7. The material loading finishes, and carousel transfer mechanism 7 drives the packing carton rotatory, moves and carries mechanism 5 to drive the packing carton and remove to a box mechanism 8 that seals, seals box mechanism 8 and seals the box to the packing carton.

The packaging box with the sealed box is moved to the gluing mechanism 9 to be glued, the material moving motor 911 drives the material moving block 916 to move, the material moving block 916 pushes the packaging box with the sealed box to the material passing bottom plate 922 and the weighing moving plate 923, and a part of the side surface 132 of the packaging box is exposed out of the gluing notch. The front baffle moving cylinder 9215 drives the front baffle 9217 to move forward, the pressing cylinder 9218 drives the rubberizing pressing plate 9219 to move downward, and the front baffle 9217, the rear baffle 9216 and the rubberizing pressing plate 9219 are all attached to the packaging box to position the packaging box. The rubberizing translation cylinder 932 drives the rubberizing moving plate 937 to move towards the packaging box, so that the rubberizing pressing wheel 9311 and the rubberizing pressing wheel 9313 penetrate through the rubberizing gap and paste the adhesive tape head on the side surface 132 of the packaging box. Then, the adhesive lifting motor 931 drives the adhesive moving plate 937 to move upward, the adhesive tape is pulled, the cutter moving cylinder 9310 drives the adhesive pressing wheel 9311 and the adhesive cutter 9312 to move, and the adhesive pressing wheel 9311 pulls the adhesive tape and adheres the adhesive tape to the top 133 of the packing box while moving. When the tape is driven to move by the tape pressing lower wheel 9311, the tape is in an inclined state, contacts the tape sticking cutter 9312 and is cut off by the tape sticking cutter 9312, the tape stuck on the packaging box is separated from the tape roll 9318, and at the moment, two ends of the tape are respectively stuck on the top surface 133 of the packaging box and the side surface 132 of one of the packaging boxes to prevent the top 133 of the packaging box from popping up. Then the air cylinder 9218 is pressed down to drive the rubberizing pressing plate 9219 to move upwards, the front baffle moving air cylinder 9215 drives the front baffle 9217 to move backwards, and at the moment, a section of adhesive tape is adhered to the upper packaging box.

The gluing action of the packaging box is continuously repeated for two times until three sections of adhesive tapes are adhered to different positions of the side surface 132 of the packaging box, the packaging box is completely positioned on the weighing moving plate 923, and the gluing of the packaging box is finished.

Begin to weigh, rubberizing clamp plate cylinder 912 drives rubberizing push pedal 915 and moves, and rubberizing push pedal 915 promotes the packing carton and makes the packing carton not contact with backplate 9216, and the packing carton also does not contact with preceding baffle 9217, rubberizing clamp plate 9219 this moment, prevents that preceding baffle 9217, rubberizing clamp plate 9219 and backplate 9216 from contacting the packing carton and influencing the precision of weighing of packing carton. The weighing moving cylinder 9212 drives the weighing moving plate 923 to move downwards, the weighing lug 9220 gradually passes through the weighing hole and pushes out the packaging box, and the weighing sensor 9213 weighs the packaging box.

After weighing, the weighing moving cylinder 9212 drives the weighing moving plate 923 to move upwards for resetting, and the material moving assembly 91 pushes the packaging box into the defective product pushing mechanism 10. And the finished defective product pushing mechanism 10 judges whether the packaging box is a qualified product or not according to the weighing result of the packaging box and moves the packaging box into a corresponding area.

The foregoing detailed description of the preferred embodiments of the utility model has been presented. It should be understood that numerous modifications and variations could be devised by those skilled in the art in light of the present teachings without departing from the inventive concepts. Therefore, the technical solutions that can be obtained by those skilled in the art through logic analysis, reasoning or limited experiments based on the prior art according to the concepts of the present invention should fall within the scope of the present invention.

Claims (8)

1. Packing carton rubberizing mechanism, its characterized in that includes rubberizing translation cylinder (932), rubberizing movable plate (937) and sets up rubberizing elevator motor (931) on rack platform (1), rubberizing elevator motor (931), rubberizing translation cylinder (932) drive rubberizing movable plate (937) remove, the rotation is provided with rubberizing gyro wheel (938) on rubberizing movable plate (937), the winding has adhesive tape book (9318) on rubberizing gyro wheel (938), the bottom of rubberizing movable plate (937) is fixed with cutter moving cylinder (9310), be connected with rubberizing lower pinch roller (9311) and rubberizing cutter (9312) on the piston rod of cutter moving cylinder (9310), rubberizing cutter (9312) are located the top of rubberizing lower pinch roller (9311), the head of adhesive tape book (9318) hangs perpendicularly in the place ahead of rubberizing lower pinch roller (9311).

2. The packing box gluing mechanism according to claim 1, wherein a tape sensor (9315) and a tape swing lever (9316) rotatable relative to the gluing moving plate (937) are further installed on the gluing moving plate (937), a protruded tape contact lever (9317) is provided on the tape swing lever (9316), the tape contact lever (9317) is located above the tape roll (9318) and is always in contact with the tape roll (9318), and the height of the tape contact lever (9317) gradually decreases with the use of the tape roll (9318), so that the tape swing lever (9316) starts to swing until the tape sensor (9315) senses the tape swing lever (9316).

3. The packing box gluing mechanism according to claim 1, wherein the gluing moving plate (937) is further rotatably provided with two matching rollers (939), the bottom of the gluing moving plate (937) is further provided with a gluing pinch roller (9313) and a gluing movement stopper (9314) above the gluing pinch roller (9313), the gluing cutter (9312) is located below the gluing pinch roller (9313), and a tape head on the tape roll (9318) sequentially passes through a space between the two matching rollers (939), the gluing pinch roller (9313) and the gluing movement stopper (9314).

4. The packing box gluing mechanism according to claim 1, further comprising a gluing mounting back plate (933) fixed to the frame base (1), wherein a gluing lifting guide block (934) and a gluing lifting projection (935) are fixed to the gluing mounting back plate (933), the gluing lifting motor (931) is mounted to the gluing lifting guide block (934), a gluing lifting slider is provided to the gluing lifting guide block (934), the gluing lifting slider is driven by the gluing lifting motor (931) and can move along the gluing lifting guide block (934), a gluing guide rail is fixed to the gluing lifting projection (935), a gluing guide slider is provided to the gluing guide rail, a gluing lifting plate (936) is fixed between the gluing lifting slider and the gluing guide slider, and the gluing translation cylinder (932) is fixed to the gluing lifting plate (936), be provided with rubberizing translation slider on rubberizing translation cylinder (932), rubberizing translation cylinder (932) drive the rubberizing translation slider removes, rubberizing movable plate (937) with rubberizing translation slider is fixed mutually.

5. The packing box gluing mechanism according to any one of claims 1 to 4, further comprising a material moving assembly (91), wherein the material moving assembly (91) comprises a material moving motor (911), a material moving block (916) and a material moving back plate (913) fixed on the rack platform (1), a material moving guide block (914) is mounted on the material moving back plate (913), the material moving motor (911) is mounted on the material moving guide block (914), a material moving slider is arranged on the material moving guide block (914), the material moving slider is driven by the material moving motor (911) and can move along the material moving guide block (914), the material moving block (916) is connected with the material moving slider, and the material moving block (916) pushes the packing box.

6. The packing carton rubberizing mechanism of claim 5, characterized by further comprising a weighing moving plate (923) arranged on the frame platform (1), wherein the weighing moving plate (923) is provided with a front baffle moving cylinder (9215), a rear baffle (9216) and a pressing cylinder (9218), the front baffle moving cylinder (9215) is provided with a front baffle moving slider, the front baffle moving cylinder (9215) drives the front baffle moving slider to move, the front baffle moving slider is fixed with a front baffle (9217), the front baffle (9217) is provided with a rubberizing notch, one part of the packing carton exposes the rubberizing notch, the rubberizing cutter (9312) and the rubberizing pressing wheel (9311) are arranged in front of the rubberizing notch, the pressing cylinder (9218) is arranged above the front baffle (9217) and the rear baffle (9216), the piston rod of the pressing cylinder (9218) is provided with a rubberizing pressing plate (9219), the down-pressing cylinder (9218) drives the rubberizing pressing plate (9219) to move, and the front baffle (9217), the rear baffle (9216) and the rubberizing pressing plate (9219) are all attached to the packing box.

7. The packing carton rubberizing mechanism according to claim 6, characterized by further comprising a material passing bottom plate (922) arranged on the rack platform (1), wherein the material passing bottom plate (922) and the weighing moving plate (923) are located on the same plane, two material passing baffle plates (924) are installed on the material passing bottom plate (922), a material passing pressing plate (925) is connected to the top of the material passing baffle plates (924), the packing carton is located between the two material passing baffle plates (924), and the packing carton is pressed by the material passing pressing plate (925);

the material moving block (916) pushes the packaging box, and the packaging box moves to the weighing moving plate (923) from the material passing bottom plate (922).

8. The packing box gluing mechanism according to claim 5, wherein a material moving convex block is further installed on the material moving back plate (913), a material moving slide rail (917) is fixed on the material moving convex block, a material moving sliding guide block is arranged on the material moving slide rail (917), and the material moving block (916) is connected with the material moving sliding guide block.

Images