CN218804321U - Automatic buckle mounting equipment - Google Patents

Abstract

The application relates to the technical field of packaging box production, and discloses automatic buckle mounting equipment which is applied to mounting buckles on paper boxes and comprises a feeding unit, a stock bin unit, a gluing unit and a buckle pasting unit, wherein the stock bin unit is used for storing the paper boxes; the feeding unit comprises an air cylinder, a push plate and a bottom plate, the bottom plate is arranged below the feeding unit, the bin unit, the gluing unit and the buckle pasting unit, the push plate is used for pushing the paper box, and the air cylinder drives the push plate to push the paper box to sequentially paste the paper box on the bottom plate through the bin unit, the gluing unit and the buckle. This application can improve the installation effectiveness and the installation accuracy of installation buckle on the carton.

Description

Automatic buckle mounting equipment

Technical Field

The application relates to the technical field of packaging box production, and more particularly relates to automatic buckle mounting equipment.

Background

Some packing carton need install the buckle, and the buckle can play functions such as carton equipment or packing carton are anti-fake. When installing the buckle on packing carton, traditional installation need be accomplished through the manual work, but can not guarantee the precision of buckle installation when the installation buckle, causes the buckle installation effect not good easily, influences packing carton's product quality. Simultaneously, the installation inefficiency of manual installation buckle influences the production efficiency of packing carton.

SUMMERY OF THE UTILITY MODEL

The purpose of this application embodiment provides a buckle automatic installation equipment, has solved the low and inefficiency technical problem of installation buckle installation accuracy on packing carton, has reached the technological effect who improves the efficiency and the precision of installation buckle on packing carton.

In order to achieve the purpose, the utility model provides an automatic buckle installation device, which is applied to installing a buckle on a paper box and comprises a feeding unit, a stock bin unit, a gluing unit and a buckle pasting unit, wherein the stock bin unit is used for storing the paper box, the gluing unit is used for gluing the paper box, and the buckle pasting unit is used for pasting the buckle on the paper box; the feeding unit comprises an air cylinder, a push plate and a bottom plate, the bottom plate is arranged below the feeding unit, the bin unit, the gluing unit and the buckle pasting unit, the push plate is used for pushing the paper box, and the air cylinder drives the push plate to push the paper box to sequentially paste the paper box on the bottom plate through the bin unit, the gluing unit and the buckle.

In a possible implementation manner, the stock bin unit comprises a first baffle, a second baffle and a stock bin cylinder, the first baffle is fixedly connected to the bottom plate in a vertical mode, the second baffle is connected to the bottom plate in a vertical sliding mode, the stock bin cylinder drives the second baffle to be relatively close to the first baffle or far away from the first baffle, and a discharge baffle parallel to the bottom plate is arranged at the bottom of the second baffle.

In another possible implementation mode, the output end of the air cylinder is connected with a moving track, the moving track is fixedly connected with a plurality of push plate air cylinders, the push plate is fixedly connected to the output end of the push plate air cylinder, and the push plate air cylinder drives the push plate to move up and down.

In another possible implementation manner, a push plate groove for the push plate cylinder and the push plate to move is formed in the bottom plate.

In another possible implementation manner, the gluing unit includes two gluing assemblies, and the buckle pasting unit includes two buckle pasting assemblies and two buckle vibrating disks which respectively supply materials to the buckle pasting units.

In another possible implementation manner, the buckle pasting assembly comprises a first transverse cylinder, a first vertical support, a first vertical cylinder and an inclined cylinder, the buckle sucker is used for adsorbing the buckle, the first vertical cylinder and the inclined cylinder are fixedly connected to the first vertical support, the first transverse cylinder drives the first vertical support, the first vertical cylinder and the inclined cylinder to move transversely, and the inclined cylinder drives the buckle sucker to rotate.

In another possible implementation manner, the buckle pasting unit further includes a buckle suction disc frame, the buckle suction disc is fixedly connected to the buckle suction disc frame, one end of the buckle suction disc frame is hinged to the first vertical support, the inclined cylinder is hinged to the first vertical support, and the other end of the buckle suction disc frame is hinged to the output end of the inclined cylinder.

In another possible implementation, the first transverse cylinder drives the two snap-fit gluing assemblies to move synchronously.

In another possible implementation manner, a pressure plate is arranged above the bottom plate, and a gap is arranged between the pressure plate and the bottom plate.

In another possible implementation manner, the pressure plate is strip-shaped, and the pressure plate extends along the length direction of the bottom plate.

The embodiment of the application provides a buckle automatic installation equipment has following beneficial effect:

the automatic buckle mounting equipment comprises a feeding unit, a stock bin unit, a gluing unit and a buckle pasting unit, wherein the stock bin unit is used for storing paper boxes, the gluing unit is used for gluing on the paper boxes, and the buckle pasting unit is used for pasting buckles on the paper boxes. The feeding unit comprises an air cylinder, a push plate and a bottom plate, the bottom plate is arranged below the feeding unit, the bin unit, the gluing unit and the buckle pasting unit, the bottom plate is used for bearing a paper box, the push plate is used for pushing the paper box to move to a next station, and the air cylinder drives the push plate to push the paper box to sequentially paste the unit through the bin unit, the gluing unit and the buckle on the bottom plate.

When using, the cylinder operation of pay-off unit drives the push pedal and moves along the bottom plate, and the push pedal promotes the carton motion, and then makes the carton move along the bottom plate, and when the carton moved along the bottom plate, the carton can be coated glue to the carton through the rubber coating unit on, then can paste the unit and paste the carton with the buckle through the buckle, the buckle glues to the carton on, can drive the push pedal through driving the cylinder operation and move along the bottom plate, can realize the ejection of compact to the carton. This application realizes the accurate pay-off of carton through push pedal propelling movement carton, can paste the buckle at the high accuracy on the carton, and this application can improve the efficiency and the precision of pasting the buckle on the carton, improves the effect of pasting the buckle on the carton.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

Fig. 1 is a schematic perspective view of an automatic buckle installation device provided in an embodiment of the present application;

fig. 2 is a schematic structural diagram of a bin unit of an automatic buckle mounting device provided by an embodiment of the application;

fig. 3 is a schematic structural diagram of a feeding unit of an automatic buckle installation device provided by an embodiment of the application;

fig. 4 is a schematic structural diagram of a gluing unit and a buckle pasting unit of an automatic buckle installation device provided by an embodiment of the application;

fig. 5 is an exploded schematic structural diagram of a buckle attaching unit of an automatic buckle installation device according to an embodiment of the present disclosure;

in the figures, 100-carton; 110-buckle; 200-a feeding unit; 210-a cylinder; 220-push plate; 230-a backplane; 231-a push plate groove; 240-moving track; 241-a push plate cylinder; 250-a pressure plate; 300-a silo unit; 310-a first baffle; 320-a second baffle; 321-a discharge baffle; 330-a bin cylinder; 400-a gluing unit; 410-a gluing component; 500-a snap-fit attachment unit; 510-a snap-fit attachment assembly; 511-a first transverse cylinder; 512-a first vertical support; 513-a first vertical cylinder; 514-tilt cylinder; 515-snap chuck; 516-a snap chuck holder; 600-buckling vibration plate.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present application clearer, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of and not restrictive on the broad application.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, as used herein, refer to an orientation or positional relationship indicated in the drawings that is solely for the purpose of facilitating the description and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

The embodiment of the application provides an automatic buckle installation device, which is applied to installing a buckle 110 on a paper box 100, wherein the buckle 110 can be a fixed structure or an anti-counterfeiting structure on the paper box 100, and the buckle 110 can be connected on the paper box 100 through viscose. Wherein, the paper box 100 can be made of paper and the buckle 110 can be a plastic buckle.

The automatic buckle installation apparatus includes a feeding unit 200, a magazine unit 300, a glue applying unit 400, and a buckle attaching unit 500, the magazine unit 300 being used to store the paper box 100, the glue applying unit 400 being used to apply glue to the paper box 100, and the buckle attaching unit 500 being used to attach the buckle 110 to the paper box 100.

As shown in fig. 1, the feeding unit 200 includes an air cylinder 210, a push plate 220 and a bottom plate 230, the bottom plate 230 is disposed below the feeding unit 200, the bin unit 300, the glue applying unit 400 and the buckle pasting unit 500, the bottom plate 230 is used for carrying the paper carton 100, the push plate 220 is used for pushing the paper carton 100 to move to a next station, and the air cylinder 210 drives the push plate 220 to push the paper carton 100 to sequentially pass through the bin unit 300, the glue applying unit 400 and the buckle pasting unit 500 on the bottom plate 230.

When the glue applying device is used, the air cylinder 210 of the feeding unit 200 operates to drive the push plate 220 to move along the bottom plate 230, the push plate 220 is abutted against one side edge of the paper box 100, so that the push plate 220 can push the paper box 100 to move, and further the paper box 100 moves along the bottom plate 230, when the paper box 100 moves along the bottom plate 230, glue can be applied to the paper box 100 through the glue applying unit 400, then the buckle 110 can be pasted to the paper box 100 through the buckle pasting unit 500, the buckle 110 is adhered to the paper box 100, the push plate 220 can be driven to move along the bottom plate 230 through the operation of the driving air cylinder 210, and the discharging of the paper box 100 can be realized.

In some implementations, as shown in fig. 2, the bin unit 300 includes a first baffle 310, a second baffle 320, and a bin cylinder 330, the first baffle 310 is vertically and fixedly connected to the bottom plate 230, the first baffle 310 can position a first side of the paper carton 100, the second baffle 320 is vertically and slidably connected to the bottom plate 230, the second baffle 320 can position a second side of the paper carton 100, and the paper carton 100 can be positioned by the first baffle 310 and the second baffle 320 cooperating with each other.

In use, the paper cassettes 100 are unfolded to form a sheet-like structure, and the first flap 310 and the second flap 320 obliquely position the plurality of paper cassettes 100 so that the plurality of paper cassettes 100 can smoothly slide downward between the first flap 310 and the second flap 320 after being tilted, thereby feeding the paper cassettes 100.

Specifically, the bin cylinder 330 drives the second baffle 320 to be relatively close to the first baffle 310 or far away from the first baffle 310, the bottom of the second baffle 320 is provided with a discharge baffle 321 parallel to the bottom plate 230, the thickness of the stop baffle 321 may be the same as the thickness of one paper carton 100, when the bin cylinder 330 drives the second baffle 320 to be relatively far away from the first baffle 310, when the distance between the second baffle 320 and the first baffle 310 is greater than or equal to the width of the paper carton 100, the paper carton 100 at the bottom in the area between the second baffle 320 and the first baffle 310 can fall under the action of gravity, the discharge baffle 321 moves laterally under the driving of the bin cylinder 330, and then the paper carton 100 at the bottom can be pushed to the position where the push plate 220 can push the paper carton, so that the paper carton 100 can be pushed by the push plate 220 subsequently to realize the feeding of the paper carton 100.

Specifically, the final position of the movement of the bin cylinder 330 driving the second baffle 320 may coincide with the trajectory of the movement of the push plate 220 pushing the paper carton 100, so that the paper carton 100 is pushed by the second baffle 320 to the trajectory of the movement of the paper carton 100 driven by the push plate 220, and the feeding of the paper carton 100 is smoothly realized.

In some implementations, a moving rail 240 is connected to the output end of the cylinder 210, a plurality of push plate cylinders 241 are fixedly connected to the moving rail 240, the push plate 220 is fixedly connected to the output end of the push plate cylinder 241, the moving rail 240 is used for fixing the push plate 220 through the plurality of push plate cylinders 241, and the push plate cylinder 241 drives the push plate 220 to move up and down.

Specifically, when the paper box 100 is pushed by the push plate 220, the push plate 220 can move upward under the driving of the push plate cylinder 241 to abut against the side edge of the paper box 100, and then the plurality of push plate cylinders 241 are driven to move forward by the pushing moving track 240 of the cylinder 210, so that the paper box 100 is pushed. After the push plate 220 pushes the paper box 100 along the processing direction of the paper box 100, when the push plate needs to move backwards, the push plate 220 can move downwards under the driving of the push plate cylinder 241 to be separated from the side edge of the paper box 100, so that the push plate 220 can return to the original position, when the paper box 100 needs to be pushed forwards subsequently, the push plate 220 can move upwards under the driving of the push plate cylinder 241 to be abutted against the side edge of the paper box 100 again, the repeating cylinder 210 pushes the moving track 240 to drive the plurality of push plate cylinders 241 to move forwards, the paper box 100 is pushed, and the paper box 100 can be pushed repeatedly in the subsequent process. According to the embodiment of the application, the paper box 100 is pushed through the push plate 220, so that the movement precision of the paper box 100 can be improved, the precision of sticking the buckle 110 on the paper box 100 is improved, and the installation precision and the installation efficiency of installing the buckle 110 are improved. After the paper box 100 is pasted with the buckle 110, the paper box 100 can be continuously pushed by the push plate 220, and the smooth discharging of the paper box 100 is further realized.

In some implementation manners, the bottom plate 230 is provided with a push plate groove 231 for allowing the push plate cylinder 241 and the push plate 220 to move, and the push plate groove 231 is used for accommodating the push plate cylinder 241 and the push plate 220, so that the push plate cylinder 241 and the push plate 220 can smoothly move in the push plate groove 231, and the carton 100 can be smoothly pushed.

In some implementations, the glue applying unit 400 includes two glue applying assemblies 410, and the two glue applying assemblies 410 can apply glue to two buckle positions on the paper box 100 to achieve two buckles 110 stuck on the paper box 100 at a time.

In some implementations, the clip affixing unit 500 includes two clip affixing assemblies 510, the two clip affixing assemblies 510 capable of affixing a clip 110 to two clip locations on the paper carton 100 to enable affixing two clips 110 on the paper carton 100 at a time.

In some implementations, the present embodiment further includes two buckle vibrating trays 600 respectively feeding the buckle pasting unit 500, and the two buckle vibrating trays 600 enable the apparatus to be fed with two buckles 110 at the same time, so as to paste two buckles 110 on the paper box 100 at a time.

In some implementations, the clip adhering assembly 510 includes a first transverse cylinder 511, a first vertical bracket 512, a first vertical cylinder 513, and an inclined cylinder 514, the clip sucker 515 is used for sucking the clip 110, the first vertical cylinder 513 and the inclined cylinder 514 are fixedly connected to the first vertical bracket 512, the first transverse cylinder 511 drives the first vertical bracket 512, the first vertical cylinder 513 and the inclined cylinder 514 to move transversely, and the inclined cylinder 514 drives the clip sucker 515 to rotate.

Specifically, the output end of the first transverse cylinder 511 is fixedly connected with the first vertical cylinder 513 to drive the first vertical cylinder 513 to move transversely, the output end of the first vertical cylinder 513 is fixedly connected with the first vertical support 512, the inclined cylinder 514 is fixedly connected to the first vertical support 512, the buckle 110 can be adsorbed on the buckle sucker 515, when the inclined cylinder 514 drives the buckle sucker 515 to rotate, the buckle 110 on the buckle sucker 515 rotates along with the buckle sucker 515, so that when the first vertical cylinder 513 drives the first vertical support 512 to move up and down, one side edge of the buckle 110 on the buckle sucker 515 can be in contact with the adhering position of the buckle 110 first, and then the buckle sucker 515 is controlled to rotate, so that the buckle 110 gradually rotates to the position of adhering to the whole buckle 110, complete contact between the buckle 110 and the paper box 100 is realized, smooth adhesion of the buckle 110 is realized, the contact uniformity between the glue solution on the paper box 100 and the buckle 110 is improved, and the adhesion strength of the buckle 110 on the paper box 100 can be improved.

In some implementations, the buckle pasting unit 500 further includes a buckle suction cup holder 516, the buckle suction cup holder 516 is used for installing and fixing the buckle suction cup 515, the buckle suction cup 515 is fixedly connected to the buckle suction cup holder 516, one end of the buckle suction cup holder 516 is hinged to the first vertical bracket 512, the tilt cylinder 514 is hinged to the first vertical bracket 512, and the other end of the buckle suction cup holder 516 is hinged to the output end of the tilt cylinder 514, so that when the tilt cylinder 514 operates, the buckle suction cup holder 516 can be driven to rotate, and smooth rotation of the buckle suction cup 515 is realized. Wherein, be equipped with the air supply pipe with buckle sucking disc 515 intercommunication on the buckle sucking disc frame 516, and then make buckle sucking disc 515 can realize the absorption to buckle 110 under the drive of atmospheric pressure.

In some implementations, the structure of the glue applying unit 400 may be similar to that of the above-described clip bonding unit 500, and the working unit of the clip bonding unit 500 is a glue applying head for pneumatically controlling glue discharging, and the glue applying head may smoothly apply glue on the paper box 100 by pneumatically controlling the glue discharging of the glue applying head.

The embodiment of the application further comprises a controller and a sensor, wherein the controller is used for controlling various electronic devices to be in working states in a centralized manner, the sensor can be a photoelectric sensor, the photoelectric sensor can detect the positions of the paper box 100 and the buckle 110, so that the positions of the paper box 100 and the buckle 110 can be detected through the photoelectric sensor, the working unit is controlled to convey the paper box 100, the buckle 110 is moved to the paper box 100, and the buckle 110 is pasted on the paper box 100.

In some implementations, the first transverse cylinder 511 drives the two buckle pasting assemblies 510 to move synchronously, so that one cylinder can realize the synchronous driving of the two buckle pasting assemblies 510, and can smoothly and synchronously paste the two buckles 110 on the paper box 100 more accurately, thereby improving the pasting precision of the buckles 110.

In some implementations, as shown in fig. 3, a pressing plate 250 is disposed above the bottom plate 230, the pressing plate 250 is mounted on the bottom plate 230 through a mounting frame, a gap is disposed between the pressing plate 250 and the bottom plate 230, the paper box 100 moves in the gap between the pressing plate 250 and the bottom plate 230, the pressing plate 250 can position the paper box 100, the paper box 100 is prevented from jumping on the bottom plate 230, and the accuracy of adhering the buckle 110 on the paper box 100 is improved.

In some implementations, as shown in fig. 3, the pressing plate 250 is in a strip shape, and the pressing plate 250 extends along the length direction of the bottom plate 230, so that the pressing plate 250 can keep positioning the paper box 100 at any time, and the positioning accuracy of the paper box 100 is improved.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (10)

1. The automatic buckle mounting equipment is applied to mounting a buckle (110) on a paper box (100), and comprises a feeding unit (200), a bin unit (300), a gluing unit (400) and a buckle pasting unit (500), wherein the bin unit (300) is used for storing the paper box (100), the gluing unit (400) is used for coating glue on the paper box (100), and the buckle pasting unit (500) is used for pasting the buckle (110) on the paper box (100); the feeding unit (200) comprises an air cylinder (210), a push plate (220) and a bottom plate (230), the bottom plate (230) is arranged below the feeding unit (200), the bin unit (300), the gluing unit (400) and the buckle pasting unit (500), the push plate (220) is used for pushing the paper box (100), and the air cylinder (210) drives the push plate (220) to push the paper box (100) to sequentially pass through the bin unit (300), the gluing unit (400) and the buckle pasting unit (500) on the bottom plate (230).

2. The automatic buckle mounting device according to claim 1, wherein the bin unit (300) comprises a first baffle plate (310), a second baffle plate (320) and a bin cylinder (330), the first baffle plate (310) is vertically and fixedly connected to the bottom plate (230), the second baffle plate (320) is vertically and slidably connected to the bottom plate (230), the bin cylinder (330) drives the second baffle plate (320) to be relatively close to the first baffle plate (310) or far away from the first baffle plate (310), and a discharge baffle plate (321) parallel to the bottom plate (230) is arranged at the bottom of the second baffle plate (320).

3. The automatic buckle installation device according to claim 1, wherein a moving rail (240) is connected to an output end of the cylinder (210), a plurality of push plate cylinders (241) are fixedly connected to the moving rail (240), the push plate (220) is fixedly connected to an output end of the push plate cylinder (241), and the push plate cylinder (241) drives the push plate (220) to move up and down.

4. The automatic buckle mounting device according to claim 3, wherein the bottom plate (230) is provided with a push plate groove (231) for moving the push plate cylinder (241) and the push plate (220).

5. The automatic snap fastener mounting device according to claim 1, wherein the glue applying unit (400) comprises two glue applying assemblies (410), the snap fastener applying unit (500) comprises two snap fastener applying assemblies (510), and further comprises two snap fastener vibrating disks (600) respectively feeding the snap fastener applying units (500).

6. The automatic buckle mounting device as claimed in claim 5, wherein the buckle pasting assembly (510) comprises a first transverse air cylinder (511), a first vertical support (512), a first vertical air cylinder (513) and an inclined air cylinder (514), the buckle sucking disc (515) is used for sucking the buckle (110), the first vertical air cylinder (513) and the inclined air cylinder (514) are fixedly connected to the first vertical support (512), the first transverse air cylinder (511) drives the first vertical support (512), the first vertical air cylinder (513) and the inclined air cylinder (514) to move transversely, and the inclined air cylinder (514) drives the buckle sucking disc (515) to rotate.

7. The automatic buckle mounting device according to claim 6, wherein the buckle pasting unit (500) further comprises a buckle suction disc frame (516), the buckle suction disc (515) is fixedly connected to the buckle suction disc frame (516), one end of the buckle suction disc frame (516) is hinged to the first vertical bracket (512), the tilting cylinder (514) is hinged to the first vertical bracket (512), and the other end of the buckle suction disc frame (516) is hinged to the output end of the tilting cylinder (514).

8. The automatic snap fastener mounting device according to claim 6, wherein the first transverse cylinder (511) drives the two snap fastener applying assemblies (510) to move synchronously.

9. The automatic buckle mounting device according to claim 1, wherein a pressure plate (250) is arranged above the bottom plate (230), and a gap is arranged between the pressure plate (250) and the bottom plate (230).

10. The automatic buckle mounting device as claimed in claim 9, wherein the pressure plate (250) is in the shape of a strip, and the pressure plate (250) extends along the length direction of the bottom plate (230).

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