CN217373640U - Automatic feeding, edge folding and edge covering mechanism for paperboards - Google Patents

Abstract

The utility model discloses an automatic feed hem mechanism of borduring of cardboard, it is including carrying the material seat and setting up in the hem mechanism of carrying material seat one side, hem mechanism includes hem driving source and hem board, the hem board has a hem guide surface that sets up for carrying the slope of material seat, when external cardboard material loading to carrying the material seat, the adhesion is contradicted on the hem guide surface of hem board and the perk at the facial tissue in the cardboard outside, and hem driving source drive hem board removes towards carrying the material seat, utilize the crowded facial tissue that pushes away the perk of hem guide surface to make the facial tissue cladding on the core paper of cardboard. Such structural design is ingenious, can accomplish two processes of cardboard material loading and cardboard bordure simultaneously, eliminates the action time difference of two processes, optimizes the production efficiency of packing carton assembly line.

Description

Automatic feeding, edge folding and edge covering mechanism for paperboards

Technical Field

The utility model belongs to the technical field of cardboard former technique and specifically relates to an automatic feed hem mechanism of borduring of cardboard is related to.

Background

The feeding station and the edge folding station of a traditional packaging box forming production line are usually separated, a paperboard is fed into the feeding station through a manipulator or manually, and then the paperboard is moved into the edge folding station from the feeding station through the manipulator to be subjected to edge folding, so that the production efficiency of the process flow is low, and improvement is necessary.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims at providing an automatic feed hem mechanism of borduring of cardboard accomplishes cardboard material loading and cardboard simultaneously and bordures two processes, eliminates the action time difference of two processes, optimizes the production efficiency of packing carton assembly line.

In order to realize the purpose, the utility model discloses the technical scheme who adopts is: the utility model provides an automatic feed hem mechanism of borduring of cardboard, it is including carrying the material seat and setting up in the hem mechanism of carrying material seat one side, hem mechanism includes hem driving source and hem board, the hem board has a hem guide surface that sets up for carrying the material seat slope, when cardboard material loading in the external world is to carrying the material seat, the adhesion is contradicted on the hem guide surface of hem board and the perk at the facial tissue in the cardboard outside, and hem driving source drive hem board removes towards carrying the material seat, utilize the crowded facial tissue that pushes away the perk of hem guide surface to make the facial tissue cladding on the core paper of cardboard.

In a further technical scheme, the end part of the folded plate is provided with a flexible inward folded part, and the folded plate pushes the facial tissue through the flexible inward folded part.

In a further technical scheme, the flexible inward-folding part is a soft brush or an elastic sponge strip attached to the folding plate.

In a further technical scheme, the flanging driving source comprises a connecting rod transmission assembly and a translation driving source, and the connecting rod transmission assembly is matched with the translation driving source to drive the flanging plates to move in an arc shape.

In a further technical scheme, the connecting rod transmission assembly comprises a transmission base, a transmission assembly and a hem swing arm, wherein the transmission assembly is inserted into a transmission shaft of the transmission base, the hem swing arm is arranged on the transmission shaft in a rotating mode through the transmission shaft and the transmission base, the hem plate is fixedly arranged on the hem swing arm, the translation driving source is a linear driving cylinder which is connected to the transmission base in a driving mode, and the transmission base is in sliding fit with the material loading base.

In a further technical scheme, the connecting rod transmission assembly further comprises a linkage rod, two ends of the linkage rod are respectively connected with the flanging swing arm and the material loading seat in a rotating mode, and the rotation axes of the linkage rod and the flanging swing arm, the rotation axes of the linkage rod and the material loading seat, and the rotation axes of the flanging swing arm and the transmission base are arranged in parallel at intervals.

In a further technical scheme, the material carrying seat is concavely formed with a plurality of mounting groove positions, and a vacuum negative pressure suction nozzle for adsorbing the paper board is embedded in each mounting groove position.

After the structure is adopted, compared with the prior art, the utility model the advantage that has is:

when an external paperboard is fed to the material carrying seat, the facial tissue adhered to the outer side of the paperboard is folded upwards along the folding guide surface of the folding plate, and the folding driving source drives the folding plate to transmit and/or drive the folding plate to move towards the material carrying seat, so that the folding guide surface is turned inwards relatively to fold the facial tissue inwards and coat the outer wall of the paperboard. Such structural design is ingenious, can accomplish two processes of cardboard material loading and cardboard bordure simultaneously, eliminates the action time difference of two processes, optimizes the production efficiency of packing carton assembly line.

Drawings

The present invention will be further described with reference to the accompanying drawings and examples.

FIG. 1 is a schematic view of the present invention;

fig. 2 is a schematic structural view of another view angle of the present invention.

Detailed Description

The following are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1 to 2, the utility model provides a pair of automatic feed hem mechanism of cardboard, it is including carrying material seat 20 and setting up in the hem mechanism 21 of carrying material seat 20 one side, hem mechanism 21 includes hem driving source and hem board 210, hem board 210 has a hem guide surface that sets up for carrying material seat 20 slope, hem board 210 is the rhombus post of vertical bar roughly, when external cardboard material loading is to carrying material seat 20 on, the adhesion is contradicted at the facial tissue in the cardboard outside and is pasted and establish on the hem guide surface of hem board 210 and automatic perk, then hem driving source drive hem board 210 removes towards the direction that is close to carrying material seat 20, utilize the crowded facial tissue that pushes away the perk of hem guide surface to make the facial tissue cladding paste establish on the core paper of cardboard, realize the automatic hem operation of borduring of cardboard. Such structural design is ingenious, can accomplish two processes of cardboard material loading and cardboard bordure simultaneously, eliminates the action time difference of two processes, optimizes the production efficiency of packing carton assembly line.

Specifically, the end of the folded plate 210 is provided with a flexible inward folded portion 211, the folded plate 210 pushes the facial tissue through the flexible inward folded portion 211, and when the folded plate 210 pushes the facial tissue of the cardboard, the flexible structure of the flexible inward folded portion 211 can play a role of not scratching the cardboard.

More specifically, the flexible inward folded portion 211 is a soft brush (e.g., a toothbrush head structure) or an elastic sponge strip attached to the folded plate 210, and when the folded plate 210 contacts the tissue of the paper board, a plurality of soft bodies of the soft brush directly contact the tissue of the paper board.

Specifically, the folding driving source comprises a connecting rod transmission assembly 212 and a translation driving source 213, and the translation driving source 213 is used for driving the folding plate 210 to translate and rotate via the connecting rod transmission assembly 212, so that the surface paper of the paper pressing plate is coated and attached on the core paper of the paper plate.

Specifically, the link transmission assembly 212 includes a transmission base 2120, a transmission shaft 2122 inserted into the transmission base 2120, and a hemming swing arm 2123 fixed on the transmission shaft 2122, the hemming swing arm 2123 is rotatably disposed with the transmission base 2120 via the transmission shaft 2122, the hemming plate 210 is fixedly mounted on the hemming swing arm 2123, the translation driving source 213 is a linear driving cylinder drivingly connected to the transmission base 2120, the transmission base 2120 is slidably disposed on a guide rail of the material loading seat 20, and the hemming plate 210 and the material loading seat 20 are rotatably disposed. The straight line drives the air cylinder to drive the folding plate 210 to translate and rotate through the connecting rod transmission assembly 212, so that the moving track of the folding plate 210 is arc-shaped, and the folding and edge covering of the facial tissue of the paper board are realized by means of the arc-shaped track movement of the folding plate 210.

In this embodiment, the link transmission assembly 212 further includes a linkage rod, two ends of the linkage rod are respectively rotatably connected to the folding swing arm 2123 and the material loading seat 20, the linkage rod is substantially a straight strip, and the rotation axes of the linkage rod and the folding swing arm 2123, the rotation axes of the linkage rod and the material loading seat 20, and the rotation axes of the folding swing arm 2123 and the transmission base 2120 are spaced and parallel to each other.

Specifically, the material loading seat 20 is concavely formed with a plurality of mounting slots, each mounting slot is embedded with a vacuum negative pressure suction nozzle 214 for adsorbing a paperboard, the vacuum negative pressure suction nozzles 214 of the mounting slots respectively suck different parts of the same paperboard, and the structural design can ensure that the situation of deviation of the paperboard can not occur when the folding edge pushes a film.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (7)

1. The utility model provides an automatic feed hem mechanism of borduring of cardboard which characterized in that: including carrying material seat (20) and setting up in carrying hem mechanism (21) of material seat (20) one side, hem mechanism (21) are including hem driving source and hem board (210), hem board (210) have one for carrying the hem guide surface that material seat (20) slope set up, when external cardboard material loading to carrying material seat (20), the facial tissue of adhesion in the cardboard outside is contradicted on the hem guide surface of hem board (210) and is perk, and hem driving source drive hem board (210) move towards carrying material seat (20), utilize the crowded facial tissue that pushes away the perk of hem guide surface to make the facial tissue cladding paste establish on the core paper of cardboard.

2. An automatic feed hemming and hemming mechanism for a paperboard according to claim 1 wherein: the end part of the folding plate (210) is provided with a flexible inward folding part (211), and the folding plate (210) pushes the facial tissue through the flexible inward folding part (211).

3. An automatic feed hemming and hemming mechanism for a paperboard according to claim 2 wherein: the flexible inward-folded part (211) is a soft brush or an elastic sponge strip attached to the folded plate (210).

4. An automatic feed hemming and hemming mechanism for a paperboard according to claim 1 wherein: the flanging driving source comprises a connecting rod transmission assembly (212) and a translation driving source (213), and the connecting rod transmission assembly (212) is matched with the translation driving source (213) to be used for driving the flanging plate (210) to move in an arc shape.

5. An automatic feed hemming and hemming mechanism for a paperboard according to claim 4 wherein: the connecting rod transmission assembly (212) comprises a transmission base (2120), a transmission shaft (2122) and a folding swing arm (2123), wherein the transmission shaft (2122) is inserted into the transmission base (2120), the folding swing arm (2123) is arranged on the transmission shaft (2122) in a rotating mode, the folding swing arm (2123) is arranged on the transmission base (2120) through the transmission shaft (2122) in a rotating mode, the folding plate (210) is fixedly installed on the folding swing arm (2123), the translation driving source (213) is a linear driving cylinder which is connected to the transmission base (2120) in a driving mode, and the transmission base (2120) is in sliding fit with the material loading seat (20).

6. An automatic feed hemming and hemming mechanism for a paperboard according to claim 5 wherein: the connecting rod transmission assembly (212) further comprises a linkage rod, two ends of the linkage rod are respectively and rotatably connected with the flanging swing arm (2123) and the material loading seat (20), and the rotation axes of the linkage rod and the flanging swing arm (2123), the rotation axes of the linkage rod and the material loading seat (20), and the rotation axes of the flanging swing arm (2123) and the transmission base (2120) are mutually spaced and arranged in parallel.

7. An automatic feed hemming and hemming mechanism for a paperboard according to claim 1 wherein: the material loading seat (20) is concavely formed with a plurality of mounting groove positions, and a vacuum negative pressure suction nozzle (214) for adsorbing a paperboard is embedded in each mounting groove position.

Images