CN216968830U - Packing carton apparatus for producing - Google Patents

Packing carton apparatus for producing Download PDF

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Publication number
CN216968830U
CN216968830U CN202220076624.1U CN202220076624U CN216968830U CN 216968830 U CN216968830 U CN 216968830U CN 202220076624 U CN202220076624 U CN 202220076624U CN 216968830 U CN216968830 U CN 216968830U
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China
Prior art keywords
lower cover
upper cover
box body
flanging
folding
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Active
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CN202220076624.1U
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Chinese (zh)
Inventor
胡纯军
周劲
高杰
曹宏勋
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Sinotecho Wuhan Intelligent Technology Co Ltd
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Sinotecho Wuhan Intelligent Technology Co Ltd
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Priority to CN202220076624.1U priority Critical patent/CN216968830U/en
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Abstract

The utility model discloses a packaging box production device, which comprises: the glue coating mechanism is used for coating glue solution into the flanging grooves of the upper cover incoming material and/or the lower cover incoming material; the edge folding mechanism is used for taking the edge folding inner die as a support and folding and molding the upper cover supplied material and the lower cover supplied material along the outer surface of the edge folding inner die; and the corner pasting mechanism is used for pasting an adhesive tape on the edge of the box body formed by folding the upper cover supplied material and the lower cover supplied material. According to the utility model, the idea of molding the surrounding strip is abandoned, the edge-folding inner die is used as a support, the upper cover supplied material and the lower cover supplied material are molded along the edge-folding outer surface of the edge-folding inner die, the molded upper cover and the molded lower cover are directly assembled together without being assembled after being molded separately, the processing efficiency can be greatly improved, the outward resilience force of the edge can be overcome by coating the glue solution in the edge-folding groove, the adhesive tape is pasted on the edge of the molded box body through the corner pasting mechanism, the rebound of the edge can be further prevented, and the structural stability of the molded box body can be ensured.

Description

Packing carton apparatus for producing
Technical Field
The utility model relates to the technical field of packaging box processing, in particular to a packaging box production device.
Background
The full-open small box comprises an upper cover and a lower cover, wherein a connecting part auxiliary turnover cover is arranged between the upper cover and the lower cover. In the existing solutions, an inner box is generally prepared by an inner die, then an outer box is formed by wrapping paper, and finally the outer paper is cut into three sides, and a box cover is opened to take out the inner die.
As shown in fig. 1, the upper and lower cover incoming materials 100 and 200, which have a large area and a large thickness when unfolded, are prepared in advance, and have a hemming groove 300 on the inner surface thereof to facilitate hemming according to the hemming groove when formed.
When the box is prepared by the existing equipment, the phenomenon that the folded edge rebounds and is difficult to maintain frequently occurs in the process of forming the inner box. It is therefore necessary to develop a new pack producing apparatus for such a pack type.
SUMMERY OF THE UTILITY MODEL
The utility model mainly aims to provide a packaging box production device, and aims to solve the technical problems that the device in the prior art is complex and the production efficiency is low.
In order to achieve the above object, the present invention provides a packing box producing apparatus, comprising:
the glue coating mechanism is used for coating glue solution into the flanging groove of the upper cover incoming material and/or the lower cover incoming material;
the edge folding mechanism is used for taking the edge folding inner die as a support and folding and forming the upper cover supplied material and the lower cover supplied material along the outer surface of the edge folding inner die;
and the corner pasting mechanism is used for pasting an adhesive tape on the edge of the box body formed by folding the upper cover supplied material and the lower cover supplied material.
Further, the rubber coating mechanism includes:
the carrying and moving assembly is used for carrying the box body incoming material and driving the box body incoming material to move;
the gluing component is used for applying glue liquid to the inside of the flanging groove on the incoming material of the box body.
Further, the carrying and moving assembly comprises:
the bearing part is used for bearing the incoming materials of the box body;
the driving part is used for driving the bearing part to move;
and the limiting component is used for forming limiting fit with the box body supplied materials on the bearing component when the bearing component moves so as to limit the moving path of the box body supplied materials.
Further, the hem mechanism is including the carrier that is used for bearing the weight of the material and removes the material and set up the processing station at the carrier stop point, be provided with lower cover hem external mold on the carrier, processing station includes at least:
the lower cover upper die station is used for placing the lower cover incoming materials on the lower cover flanging outer die;
the lower cover flanging station is used for placing the flanging inner die on the lower cover supplied material and pressing down to flange and form the lower cover supplied material;
the upper cover upper die station is used for placing the upper cover incoming material on the flanging inner die;
and the upper cover flanging station is used for placing the upper cover flanging external die on the upper cover supplied material and pressing down the upper cover supplied material to flange and form the upper cover supplied material.
Further, the carrier is a rotary table, and the processing stations are sequentially arranged along the circumferential direction of the carrier.
Furthermore, four lower cover flanging outer dies are arranged on the carrier, and can be parked at the positions of the lower cover upper die station, the lower cover flanging station, the upper cover upper die station and the upper cover flanging station in a one-to-one correspondence manner.
Furthermore, a plurality of convex columns used for positioning the lower cover feeding materials and the upper cover feeding materials are arranged on the lower cover flanging outer die.
Further, the corner pasting machine further comprises a conveying mechanism which is arranged below the corner pasting mechanism and used for outputting materials.
Further, the automatic feeding device comprises a lower cover feeding mechanism and an upper cover feeding mechanism, wherein the lower cover feeding mechanism is used for providing lower cover incoming materials for the gluing mechanism or the edge folding mechanism, and the upper cover feeding mechanism is used for providing upper cover incoming materials for the gluing mechanism or the edge folding mechanism.
Further, the inner die feeding mechanism is used for supplying the flanging inner die to the flanging mechanism.
The utility model has the beneficial effects that:
according to the utility model, the glue solution is coated in the edge folding groove, so that after the box body is subjected to edge folding and forming, two corresponding side edges of the edge folding groove can be adhered to generate inward pulling force, thus the outward resilience force of the edge folding can be overcome, the edge folding resilience can be further prevented by adhering the adhesive tape to the edge of the formed box body, and the structural stability of the formed box body in the processing and manufacturing process is ensured.
Drawings
Fig. 1 is a schematic view of a prior art molding method.
FIG. 2 is a schematic top view of the apparatus for producing a packing box according to one embodiment of the present invention;
FIG. 3 is a schematic perspective view of a gluing mechanism in the apparatus for producing a packing box according to an embodiment of the present invention;
FIG. 4 is a schematic side view of a gluing mechanism in the apparatus for producing a packing box according to an embodiment of the present invention;
FIG. 5 is a schematic perspective view of a folding mechanism in the apparatus for producing a packing box according to an embodiment of the present invention;
FIG. 6 is a schematic side view of a folding mechanism in the apparatus for producing a packing box according to an embodiment of the present invention;
FIG. 7 is a diagram illustrating a process of changing a state of a processing material of a folding mechanism in the apparatus for manufacturing a packing box according to an embodiment of the present invention;
fig. 8 is a schematic perspective view of a box body passage in the packing box manufacturing apparatus according to an embodiment of the present invention.
Description of reference numerals:
1, a gluing mechanism;
11 carrying components, 111 bearing components, 112 driving components, 113 limiting tables, 114 sliding grooves, 115 flanges, 116 bases and 117 sliding tables; 12 gluing components, 121 support frames, 122 glue dispensers and 123 glue collecting cups;
2, a folding mechanism;
201, a lower cover upper die station, 202 a lower cover flanging station, 203 an upper cover upper die station and 204 an upper cover flanging station; the device comprises a 21-edge folding inner die, a 22-lower-cover-edge folding outer die, a 23-upper-cover-edge folding outer die, a 24-carrier, a 25-manipulator, a 26-adsorption component, a 221-carrying platform, a 222-forming groove, a 223-notch, a 224-convex column, a 231-pressing platform, a 232-shovel plate, a 251-rotating mechanism, a 252-transverse support and a 253 air cylinder;
3, a corner pasting mechanism;
31 box body channel, 311 position-giving opening and 312 limit groove;
4, a lower cover feeding mechanism;
5, covering a feeding mechanism;
6, an inner die feeding mechanism;
7 a conveying mechanism;
100 upper cover incoming materials, 200 lower cover incoming materials and 300 flanging grooves.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. The embodiments and features of the embodiments in the present application may be combined with each other without conflict. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
It should be noted that, if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative positional relationship between the components, the movement situation, and the like in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indications are changed accordingly.
In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is 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 at least one such feature. In addition, the meaning of "and/or" appearing throughout includes three juxtapositions, exemplified by "A and/or B" including either A or B or both A and B. In addition, "a plurality" means two or more. In addition, technical solutions between various embodiments can be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be nonexistent.
Referring to fig. 2 to 8:
the utility model relates to a device for producing a packing box, which comprises
The glue coating mechanism 1 is used for coating glue solution into the flanging groove 300 of the upper covering material 100 and/or the lower covering material 200;
the hemming mechanism 2 is used for using the hemming inner die 21 as a support to hem and form the upper cover incoming material 100 and the lower cover incoming material 200 along the outer surface of the hemming inner die 21;
and the corner attaching mechanism 3 is used for attaching adhesive tapes to the edges of the box body formed by flanging the upper cover incoming material 100 and the lower cover incoming material 200.
Although the hem groove can reduce a part of resilience of the hem of the formed box body, for the packing boxes made of certain box types or materials, the resilience (or called stress) of the hem which is opened outwards is still not enough to be eliminated.
See fig. 3 and 4:
in one embodiment, the glue applying mechanism 1 includes:
the carrying and moving assembly 11 is used for carrying the box body incoming materials and driving the box body incoming materials to move;
and the gluing component 12 is used for applying glue to the folding groove on the box body incoming material.
When gluing is carried out on the box body supplied materials (namely the upper cover supplied materials or the lower cover supplied materials) in the flanging groove, the gluing component is fixed, the carrying and moving component is used as a conveying component to carry the box body supplied materials to pass through the gluing component on one hand, so that glue extruded by the gluing component is filled into the flanging groove, and on the other hand, the box body supplied materials coated with the glue are conveyed to the next station.
Through this rubber coating mechanism at the hem inslot coating glue solution, after the box body supplied materials hem shaping like this, the both sides limit that the hem groove corresponds can be pasted, produces inward pulling force to can overcome the outside resilience force of hem, guarantee the structural stability of shaping box body.
In one embodiment, the load shift assembly 11 includes:
the bearing part 111 is used for bearing the box body incoming material;
the driving part 112 is used for driving the bearing part 111 to move;
and the limiting component is used for forming limiting fit with the box body supplied materials on the bearing component 111 when the bearing component 111 moves so as to limit the moving path of the box body supplied materials.
During the rubber coating, carry the box body supplied materials and remove the main problem that needs to solve and guarantee the removal route accuracy nature of box body supplied materials, otherwise the glue solution can't accurate entering hem groove, if for example carry the subassembly that moves, the box body supplied materials produces the displacement very easily on the conveyer belt, just can't guarantee the accurate rubber coating subassembly of aiming at.
According to the utility model, the bearing part and the driving part are matched to carry the box body supplied materials to move, and the limiting part and the box body supplied materials form limiting matching in the moving process of the box body supplied materials, so that the moving path of the box body supplied materials can be limited, and the gluing accuracy is ensured. The design idea of the utility model is not to firmly fix the box body incoming material on the bearing part, but to limit the position of the box body incoming material through the limiting part, thus, a fastener is not needed to be additionally arranged on the bearing part to firmly fix the box body incoming material, and the box body incoming material is convenient to transfer when the subsequent operation is carried out on the box body incoming material.
In one embodiment, the bearing member 111 is a suction cup or a clamp. The sucking disc can adsorb fixed box body supplied materials, and anchor clamps can the centre gripping box body supplied materials, and the design like this can guarantee to stably carry the box body supplied materials and remove.
In an embodiment, the driving member 112 is a timing belt mechanism, the bearing member 111 is slidably connected to the base 116 through a sliding table 117, and the timing belt mechanism is disposed on the base 116 and connected to the bearing member 111. The driving range of the synchronous belt mechanism is longer and stable, and the synchronous belt mechanism is more reasonable to be matched with the bearing part for conveying.
In an embodiment, the limiting component includes a limiting table 113, a sliding groove 114 for forming a sliding fit with the bearing component 111 is formed on the limiting table 113, and flanges 115 for forming a limiting fit with the box body supplied materials on the bearing component 111 are respectively arranged on two sides of the limiting table 113 located on the sliding groove 114. Spacing platform plays on the one hand and sets up the spout and form sliding fit with bearing part, prescribes a limit to the effect of bearing part sliding path, and on the other hand also plays the effect that supports the box body supplied materials, and the spout both sides flange encloses into the passageway with box body supplied materials adaptation, can accurately prescribe a limit to the removal route of box body supplied materials.
In one embodiment, the glue applying assembly 12 includes a support frame 121 and a glue dispenser 122 mounted on the support frame 121. The point gum machine is current common rubber coating equipment, can stabilize output slender glue solution, is applicable to the hem groove rubber coating, and the effect is reliable. The number and position of the dispensing machines 122 are not particularly limited, and are designed according to the number and position of the folding grooves to be coated with the glue.
Preferably, the dispenser 122 is mounted on the supporting frame 121 in a position-adjustable manner. The gluing position can be adjusted according to different box types through the design, and the application range is wider.
In one embodiment, the glue dispensing assembly 12 further includes a glue collecting cup 123 for receiving leaked glue from the glue dispenser 122. The leaked glue drops on the related equipment to influence the use of the equipment, so that the design of setting the glue collecting cup to receive and collect the leaked glue is more reasonable.
In specific implementation, the glue collecting cup 123 can be installed at the bottom of the limiting table 113, and a relief opening 311 is formed at a position of the limiting table 113 corresponding to the glue collecting cup 123.
In specific implementation, the glue coating mechanism can be provided with one glue coating mechanism for performing flanging groove glue coating on the lower cover supplied material or the upper cover supplied material, or can be provided with two glue coating mechanisms for performing flanging groove glue coating on the lower cover supplied material and the upper cover supplied material respectively. The present invention is not particularly limited.
For a common cuboid box body, an upper cover incoming material and a lower cover incoming material are designed to comprise a bottom plate and four side plates, two long side folding grooves and two wide side folding grooves are cut in the box body incoming material during cutting, and glue is coated in the two long side folding grooves and/or the wide side folding grooves of the box body incoming material during gluing.
Referring to fig. 5 to 7:
in one embodiment, the hemming mechanism 2 includes a carrier 24 for carrying and moving the material, and a processing station disposed at a stop point of the carrier 24, the carrier 24 is provided with a lower cover hemming outer die 22, and the processing station at least includes:
a lower cover upper die station 201 for placing the lower cover incoming material 200 on the lower cover flanging outer die 22;
a lower cover hemming station 202 for placing the hemming inner mold 21 on the lower cover incoming material 200 and pressing down to hem and form the lower cover incoming material 200;
an upper cover upper die station 203 for placing the upper cover incoming material 100 on the hemming inner die 21;
and an upper cover hemming station 204 for placing the upper cover hemming outer die 23 on the upper cover incoming material 100 and pressing down to hem and form the upper cover incoming material 100.
The lower cover flanging external mold is matched with the external shape of the molded lower cover, the upper cover flanging external mold is matched with the external shape of the molded upper cover, the flanging internal mold is matched with the internal shapes of the molded lower cover and the molded upper cover, and the flanging internal mold and the flanging external mold are extruded in opposite directions to form the incoming material in a flanging mode.
The utility model abandons the idea of molding the surrounding strip, realizes the molding of the side edge of the supplied material by the mutual extrusion of the inner and outer molds of the edge folding, and uses the same inner mold to mold the lower cover at the lower part and the upper cover at the upper part, and the molded upper cover and the molded lower cover are directly assembled together without being assembled after being molded separately, thereby greatly improving the processing efficiency, shortening the production period and having reliable molding effect.
The upper cover and the lower cover of the utility model can be taken as the ground cover of the box body and the upper cover of the box body from the operation angle, or the lower cover and the upper cover of the box body can be taken as the top cover of the box body and the upper cover of the box body respectively.
According to the forming mode, when the upper cover supplied materials are subjected to rubber coating, the upper cover supplied materials can be fed in a mode that the edge folding grooves face upwards, and are overturned downwards after being subjected to rubber coating by the rubber coating mechanism, and then the upper cover supplied materials are attached to the top of the edge folding inner die.
In one embodiment, the carrier 24 is a rotating disk, and the processing stations are arranged in sequence along the circumference of the carrier 24. Design like this, the carousel can carry the material circulation to remove in proper order to each processing station on, not only convenient operation, through the setting of carousel, can change the material trend moreover, shortens to produce line length, makes equipment concentration higher, improves production space and utilizes the rationality.
In an embodiment, four lower cover flanging external dies 22 are arranged on the carrier 24, and the four lower cover flanging external dies 22 can be parked at the positions of the lower cover upper die station 201, the lower cover flanging station 202, the upper cover upper die station 203 and the upper cover flanging station 204 in a one-to-one correspondence manner. By the design, each station can continuously and continuously process, and the processing efficiency is higher.
In one embodiment, the lower cover flanging outer die 22 comprises a carrier 221 and a forming groove 222 arranged on the carrier 221. The shaping groove is matched with the external shape of the lower cover after shaping, and when the flanging internal mold is pressed down, the lower cover supplied materials can be extruded into the shaping groove, so that the side edge of the lower cover supplied materials is bent upwards.
In one embodiment, the lower cover flanging external die 22 is provided with a plurality of protruding columns 224 for positioning the lower cover incoming material 100 and the upper cover incoming material 200. Design like this, the projection plays limiting displacement to lower cover supplied materials and upper cover supplied materials from the supplied materials side, and the lower cover supplied materials produces the skew with the upper cover supplied materials when can preventing to process to guarantee the hem precision.
For a box body of a common cuboid box type, the lower cover incoming material and the upper cover incoming material are generally designed to include a bottom plate and four side plates, and for the box type, preferably, 4 rectangular convex columns 224 are provided for being respectively clamped into four concave corners of the lower cover incoming material and the upper cover incoming material. Design like this, the projection is followed all directions and is covered the supplied materials and go up to cover the supplied materials from all directions and fix a position, and every projection all can be covered two sides of supplied materials and upper cover supplied materials down and carry on spacingly, and the positioning effect is more reliable.
In one embodiment, a robot 25 is disposed at the processing station, and the robot 25 is provided with an operating member. The mechanical arm is used for processing operation, and the structure is simple and the operation is convenient.
The robot 25 of the present invention may be used directly with a prior art RZ robot or equivalent module. The RZ manipulator has the functions of rotating and lifting, and comprises a rotating mechanism 251 and two transverse supports 252 connected with the rotating mechanism 251, wherein the rotating mechanism 251 drives the transverse supports 252 to rotate around the axis in the vertical direction; and the device also comprises two groups of cylinders 253 which are arranged longitudinally, wherein the cylinders which are arranged longitudinally drive the transverse brackets 252 to move up and down along the axis of the vertical direction, and the two transverse brackets 252 are respectively provided with the operating parts.
In one embodiment, the operation components on the upper lower cover mold station 201, the lower cover flanging station 202 and the upper cover mold station 203 are suction components 26. When the device is used, the mechanical arm descends to enable the adsorption part to suck the lower cover feeding or the flanging inner die or the upper cover incoming material, then the mechanical arm ascends and rotates to enable the lower cover feeding or the flanging inner die or the upper cover incoming material to be located above the lower cover flanging outer die, and finally the mechanical arm descends to achieve machining of corresponding stations.
The suction member 26 may be selected according to the actual conditions such as the type of the material, for example, as shown in the figure, for the plate-shaped upper cover material and the plate-shaped lower cover material, the suction member may be selectively composed of a plurality of suction cups, and for the block-shaped hemming inner mold, the suction member may be a suction block with a hollow structure capable of generating negative pressure to form vacuum suction.
In an embodiment, the operating component at the upper cover folding station 204 is the upper cover folding outer die 23, and the upper cover folding outer die 23 includes a pressing table 231 and a shovel 232 for folding edges, which is disposed on the pressing table 231. The shape enclosed by the inner side surfaces of the shovel plates is matched with the outer shape of the formed upper cover, and the shovel plates can bend the side edges of the supplied materials of the upper cover downwards in the descending process of the upper cover flanging outer die. Preferably, to facilitate demolding, the width of the shovel plate is smaller than the width of the side edge to be folded.
After the upper cover is formed, the formed upper and lower covers need to be removed from the carrier, and in order to facilitate the formed upper and lower covers to be removed synchronously, in an embodiment, a notch 223 for abdicating the shovel plate 232 is formed on a groove wall of the forming groove 222. By the design, when the supplied materials of the upper cover are flanged, the shovel plate can enter the notch downwards and clamp the outer part of the molded lower cover, after the flanging is finished, the manipulator lifts the molded upper cover and the molded lower cover to be taken out from the flanging outer die of the lower cover, and then the molded upper cover and the molded lower cover are conveyed to the corner pasting mechanism through mechanical backward rotation.
The corner fitting mechanism 3 of the present invention may use an existing corner fitting device, such as the one disclosed in chinese utility model patent CN 214083141U.
Referring to fig. 8:
in one embodiment, a limiting groove 312 is formed at the inlet of the box body channel 31 of the corner fitting mechanism 3, and is used for forming a limiting fit with the shovel plate 232 of the upper cover edge folding outer mold 23 to limit the distance for the gripping mechanism 35 to feed the box body into the box body channel 31. The spacing groove can make the box body get into the longer distance of box body passageway on the one hand, and on the other hand, when upper cover hem external mold removed to contradict with the spacing groove, the box body got into the distance and is got injectedly to the position of control box body that can be more accurate in follow-up operation.
The box body is intermittently impelled by the follow-up box body in the box body channel 31, the tape cutting mechanism is arranged at the fixed height of the box body channel 31, when the box body reaches the height, the cutter of the tape cutting mechanism cuts out one section of adhesive tape and is attached on the edge of the box body at the height, so that the lower cover and the upper cover on the high edge of the box body are covered by one section of adhesive tape, and the effect of preventing the rebound of the two covers can be achieved (the tape cutting mechanism can be the tape cutting mechanism disclosed in the Chinese utility model patent of CN214083141U, and can also be the existing corner pasting machine, such as the corner pasting machine disclosed in the Chinese utility model patent with the authorization bulletin number of CN 203766116U).
In an embodiment, the box channel 31 is provided with a relief opening 311 for allowing a shifting piece to enter the box channel 31 to shift the box. Design like this, can come the position of single box body of independent adjustment in the box body passageway through the plectrum that sets up in addition, can make lower cover and upper cover aim at in proper order and cut the belting, because cut the belting and can't change the rubberizing height at will, consequently, highly making the upper cover and the lower cover of box body move in proper order through the adjustment box body and aim at and cut the belting, attached one section sticky tape respectively, two lid hems are prevented that the rebound effect is better like this.
In one embodiment, the box channel 31 of the corner fitting mechanism 3 is configured to form a tight fit with the box 01 in the box channel 31. By the design, the box body can not freely slide in the box body channel, and the position of the box body can be adjusted only through the position adjusting mechanism, so that the adhesive tape can be attached to a specific position.
In one embodiment, the device further comprises a conveying mechanism 7 which is arranged below the box body channel 31 and used for outputting materials. The box body that gets into the box body passageway at the back can promote the box body in the front forward in proper order, pushes out the box body from the export of box body passageway and falls on conveying mechanism, and conveying mechanism can use the conveyer belt.
In one embodiment, a lower cover feeding mechanism 4 for supplying the lower cover supply 200 to the glue applying mechanism 1 or the folding mechanism 2, and an upper cover feeding mechanism 5 for supplying the upper cover supply 100 to the glue applying mechanism 1 or the folding mechanism 2 are further included. The positions of the lower cover feeding mechanism 4 and the upper cover feeding mechanism 5 are selected according to whether corresponding glue coating mechanisms are configured or not, as shown in fig. 1, for the lower cover supplied materials with the glue coating mechanisms, the lower cover feeding mechanism 4 is arranged at the position of the glue coating mechanisms, the lower cover supplied materials are supplied to the glue coating mechanisms, and for the upper cover supplied materials without glue coating, the upper cover feeding mechanism 5 is configured at the position of the edge folding mechanism to supply the upper cover supplied materials to the edge folding mechanism.
In one embodiment, the inner die feeding mechanism 6 is further included for supplying the hemming inner die 21 to the hemming mechanism 2. So as to facilitate continuous production.
Lower cover feed mechanism 4, upper cover feed mechanism 5 and centre form feed mechanism 6 all can use current charging equipment, and the principle is for absorbing the supplied materials through adsorption element generally, drives adsorption element reciprocating motion between the station through removing the module, does not do the perplexing here.
The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. Packing carton apparatus for producing, its characterized in that includes:
the glue coating mechanism is used for coating glue solution into the flanging groove of the upper cover incoming material and/or the lower cover incoming material;
the edge folding mechanism is used for taking the edge folding inner die as a support and folding and forming the upper cover supplied material and the lower cover supplied material along the outer surface of the edge folding inner die;
and the corner pasting mechanism is used for pasting an adhesive tape on the edge of the box body formed by folding the upper cover supplied material and the lower cover supplied material.
2. The packaging box producing apparatus according to claim 1, wherein the glue applying mechanism includes:
the carrying and moving assembly is used for carrying the box body incoming material and driving the box body incoming material to move;
the gluing component is used for applying glue liquid to the inside of the flanging groove on the incoming material of the box body.
3. The package producing apparatus as claimed in claim 2, wherein said carriage assembly comprises:
the bearing part is used for bearing the incoming materials of the box body;
the driving part is used for driving the bearing part to move;
and the limiting component is used for forming limiting fit with the box body supplied materials on the bearing component when the bearing component moves so as to limit the moving path of the box body supplied materials.
4. The apparatus for producing a packing box according to claim 1, wherein the hemming mechanism comprises a carrier for carrying the material and moving the material, and a processing station provided at a stop point of the carrier, the carrier being provided with a lower cover hemming outer mold, the processing station comprising at least:
the lower cover upper die station is used for placing the lower cover incoming materials on the lower cover flanging outer die;
the lower cover flanging station is used for placing the flanging inner die on the lower cover incoming material and pressing down the flanging inner die so as to flange and form the lower cover incoming material;
the upper cover upper die station is used for placing the upper cover incoming materials on the flanging inner die;
and the upper cover flanging station is used for placing the upper cover flanging external die on the upper cover supplied material and pressing down the upper cover flanging external die so as to flange and form the upper cover supplied material.
5. The apparatus for producing a packing box according to claim 4, wherein the carrier is a turntable, and the processing stations are arranged in sequence along a circumferential direction of the carrier.
6. The apparatus for producing a packing box according to claim 5, wherein four lower cover flanging outer dies are provided on the carrier, and the four lower cover flanging outer dies can be parked at the lower cover upper die station, the lower cover flanging station, the upper cover upper die station and the upper cover flanging station in a one-to-one correspondence.
7. The apparatus for producing a packing box according to claim 4, wherein the lower cover folding outer die is provided with a plurality of bosses for positioning the lower cover supply and the upper cover supply.
8. The apparatus for producing a packing box according to claim 7, further comprising a conveying mechanism for discharging the material disposed below the corner-attaching mechanism.
9. The apparatus for producing a packing box according to any one of claims 1 to 8, further comprising a lower cover feeding mechanism for supplying a lower cover supply to the gluing mechanism or the folding mechanism, and an upper cover feeding mechanism for supplying an upper cover supply to the gluing mechanism or the folding mechanism.
10. The apparatus for producing a packing box according to any one of claims 1 to 8, further comprising an inner die feed mechanism for feeding the hemming inner die to the hemming mechanism.
CN202220076624.1U 2022-01-12 2022-01-12 Packing carton apparatus for producing Active CN216968830U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202220076624.1U CN216968830U (en) 2022-01-12 2022-01-12 Packing carton apparatus for producing

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Application Number Priority Date Filing Date Title
CN202220076624.1U CN216968830U (en) 2022-01-12 2022-01-12 Packing carton apparatus for producing

Publications (1)

Publication Number Publication Date
CN216968830U true CN216968830U (en) 2022-07-15

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CN202220076624.1U Active CN216968830U (en) 2022-01-12 2022-01-12 Packing carton apparatus for producing

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