CN220785016U

CN220785016U - Leather shell iron sheet paster structure

Info

Publication number: CN220785016U
Application number: CN202322532058.8U
Authority: CN
Inventors: 梅秀安; 范玮麟
Original assignee: Dongguan Chengda Machinery Technology Co ltd
Current assignee: Dongguan Chengda Machinery Technology Co ltd
Priority date: 2023-09-18
Filing date: 2023-09-18
Publication date: 2024-04-16
Anticipated expiration: 2033-09-18

Abstract

The utility model discloses a leather shell iron sheet pasting structure which comprises a frame, a leather shell conveying material channel and a pasting unit assembled on one side of the frame, wherein the pasting unit comprises a first base connected to the frame, an iron sheet storage mechanism, an iron sheet discharging mechanism and a pasting manipulator, wherein the iron sheet storage mechanism, the iron sheet discharging mechanism and the pasting manipulator are respectively arranged on the first base, the iron sheet storage mechanism is provided with a vertical material channel extending longitudinally, the iron sheet discharging mechanism is provided with at least one material stirring rod extending into the vertical material channel and capable of sliding up and down, the sliding material stirring rod pushes out iron sheets in the vertical material channel one by one, and the pasting manipulator is used for picking up the iron sheets and pasting the iron sheets on leather shells in the leather shell conveying material channel. According to the utility model, the iron sheets are fed one by one through the cooperation of the vertically sliding material shifting rod and the longitudinally extending vertical material groove, so that the structure design is simpler, the cost is lower, the stability is better, and the feeding can be taken away by the surface mounting manipulator even if each iron sheet is pushed out, the response speed is faster, and the production efficiency of the whole machine is higher.

Description

Leather shell iron sheet paster structure

Technical Field

The utility model relates to the technical field of packaging box assembly equipment, in particular to a leather shell iron sheet patch structure.

Background

Along with the gradual improvement of the living standard of people, the user has high requirements on the appearance design of the gift box, and the conventional gift box mainly comprises the following types: aircraft boxes, drawer boxes, fenestration boxes, heaven and earth boxes, hand-held boxes, book-shaped gift boxes, and the like.

The production process of the book-shaped gift box generally comprises the following steps: and feeding the leather shell, and sequentially attaching patches and lining paper on the leather shell. The structural design of traditional gift box make-up machine is unreasonable, if iron sheet material loading structure adopts shake charging tray and material way cooperation to use and go on the material to the iron sheet, and this structural design easily causes the material that links, and just is unsuitable for getting two iron sheets once, or iron sheet material loading structure's structure is complicated and the loading rate is slow, and an iron sheet in the iron sheet storehouse is accepted and is released through accepting the platform to the paster feed mechanism that chinese patent (patent number is CN114683617 a) provided, and this structure needs to be got again after reciprocating promotion plummer ejection of compact, and its continuity is poor, and the action length is long to the structure is redundant, and equipment cost is high, consequently, is necessary to improve.

Disclosure of Invention

Aiming at the defects existing in the prior art, the utility model aims to provide a leather shell iron sheet patch structure.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: the utility model provides a skin shell iron sheet paster structure, it includes the frame, locate the skin shell transmission material way of frame and assemble the paster unit in frame one side, the paster unit is including connecting in the first base of frame, and locate iron sheet storage mechanism, iron sheet discharge mechanism and the paster manipulator of first base respectively, iron sheet storage mechanism has the vertical silo that is vertical extension, iron sheet discharge mechanism disposes at least one and stretches into vertical silo and can upper and lower gliding driving lever, gliding driving lever is with the iron sheet in the vertical silo release one by one, the paster manipulator is used for picking up the iron sheet and pastes the iron sheet to establish on the skin shell in the skin shell transmission material way.

In a further technical scheme, the paster unit further comprises a glue supply mechanism arranged at the discharge end of the vertical trough, and the paster manipulator picks up the iron sheet at the inner part of the vertical trough and passes over the glue supply mechanism, and the iron sheet with the glue automatically adheres to the leather shell in the leather shell conveying channel.

In a further technical scheme, the surface mounting manipulator comprises an iron sheet pickup piece for picking up the iron sheet, an overglue driving source for driving the iron sheet pickup piece to slide from the vertical trough to the glue feeding mechanism, and a surface mounting driving source for driving the iron sheet pickup piece to transfer the iron sheet to the leather shell conveying material channel.

In a further technical scheme, the glue supply mechanism comprises a glue supply base fixedly arranged on the first base, a glue passing roller rotationally assembled on the glue supply base and a glue passing motor for driving the glue passing roller to rotate, wherein the glue supply base is provided with a glue storage groove, and the glue in the glue storage groove is automatically carried out by the glue passing roller in a rotating manner.

In a further technical scheme, the iron sheet pick-up piece comprises a pick-up seat, a pick-and-place driving source fixedly assembled on the pick-up seat, a pick-up cross rod connected with the pick-and-place driving source in a driving mode and a plurality of iron sheet suckers assembled on the pick-up cross rod at intervals.

In a further technical scheme, the paster driving source includes that fixed mounting is in the straight line lead screw module of first base and the pay-off slide of being connected with straight line lead screw module transmission, the rubberizing driving source includes that fixed mounting is in the rubberizing cylinder spare of pay-off slide and drive connection are in the rubberizing slide of rubberizing cylinder spare, iron sheet picks up piece fixed mounting in the rubberizing slide.

In a further technical scheme, the iron sheet storage mechanism comprises an upper cross rod arranged on the upper portion of the first base, a lower cross rod arranged on the lower portion of the first base and at least one storage bin assembled on the upper cross rod and the lower cross rod, wherein each storage bin comprises an upper head seat fixedly assembled on the upper cross rod, a lower head seat fixedly assembled on the lower cross rod and a charging barrel assembled on the upper head seat and the lower head seat, the charging barrel is provided with a vertical trough and a material hole communicated with the vertical trough, and the stirring rod stretches into the vertical trough through the material hole.

In a further technical scheme, the number of the storage bins is configured to be at least two.

In a further technical scheme, the iron sheet discharging mechanism comprises a stirring driving source fixedly assembled on the first base and a stirring sliding seat slidably installed on the first base and in driving connection with the stirring driving source, the stirring rod is fixedly installed on the stirring sliding seat, and the stirring driving source is used for driving the stirring sliding seat to intermittently move upwards so that the stirring rod moves upwards to push out the iron sheets in the vertical trough one by one.

In a further technical scheme, the stirring driving source comprises a stirring motor fixedly mounted on the first base, a stirring screw rod longitudinally extending and rotatably assembled on the first base, and a lifting slide block assembled on the stirring screw rod in a transmission manner, and the stirring slide seat is fixedly connected with the lifting slide block.

By adopting the structure, compared with the prior art, the utility model has the following advantages:

according to the utility model, the iron sheets are fed one by one through the cooperation of the vertically sliding stirring rod and the longitudinally extending vertical trough, compared with the traditional mode of adopting a vibration tray or a vibration bin for discharging, the structure is simpler in design, lower in cost, better in stability, and higher in response speed, the surface mounting mechanical arm can take away and feed each iron sheet when being pushed out, and the whole machine production efficiency is higher; secondly, the patch unit is arranged to be modularized, so that workshop staff can quickly assemble the patch unit to the rack or disassemble the patch unit for later maintenance.

Drawings

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of the structure of the present utility model;

fig. 2 is a schematic structural view of the patch unit of the present utility model;

fig. 3 is a schematic structural view of an iron sheet storage mechanism, an iron sheet discharge mechanism and a glue supply mechanism of the patch unit;

fig. 4 is a schematic structural view of the patch manipulator of the present utility model.

Detailed Description

The following are only preferred embodiments of the present utility model, and are not intended to limit the scope of the present utility model.

As shown in fig. 1 to 4, the present utility model provides a patch structure for iron sheet of leather shell, which comprises a frame 1, a leather shell conveying channel 2 arranged on the frame 1, and a patch unit 3 assembled on one side of the frame 1, wherein the patch unit 3 comprises a first base 30 connected to the frame 1, an iron sheet storage mechanism 31, an iron sheet discharging mechanism 32 and a patch manipulator 33 respectively arranged on the first base 30, the iron sheet storage mechanism 31 is provided with a vertical trough 3123 extending longitudinally, and the iron sheet discharging mechanism 32 is provided with at least one stirring rod 323 extending into the vertical trough 3123 and capable of sliding up and down. The sliding material-shifting rod 323 pushes out the iron sheets in the vertical material groove 3123 one by one, and the surface-mounting mechanical arm 33 is used for picking up the iron sheets and pasting the iron sheets on the leather-shell in the leather-shell conveying material channel 2.

The utility model realizes the feeding of iron sheets one by one through the cooperation of the vertically sliding material shifting rod 320 and the longitudinally extending vertical material groove 3123, compared with the traditional mode of adopting a material vibrating tray or a material vibrating bin for discharging, the utility model has the advantages of simpler structural design, lower cost, no material connection, better stability, quicker response speed and higher production efficiency of the whole machine, and the paster manipulator 33 can take out the feeding even if each iron sheet is pushed out; secondly, the patch unit is arranged to be modularized, so that workshop staff can quickly assemble the patch unit to the rack or disassemble the patch unit for later maintenance.

In this embodiment, the patch unit 3 further includes a glue feeding mechanism 34 disposed at the discharge end of the vertical trough 3123, and the patch manipulator 33 picks up the iron sheet located in the vertical trough 3123 and passes over the glue feeding mechanism 34, and attaches the iron sheet with glue automatically to the leather shell in the leather shell conveying channel 2.

Wherein the sheet sticking manipulator 33 includes an iron sheet pickup 330 for picking up an iron sheet, an over-glue driving source 331 for driving the iron sheet pickup 330 to slide from the vertical trough 3123 to the glue feeding mechanism 34, and a sheet sticking driving source 332 for driving the iron sheet pickup 330 to transfer the iron sheet to the leather-shell conveying chute 2.

In specific operation, iron sheets are stacked up and down in the vertical trough 2123, the material stirring rod 320 slides up and down to push the iron sheets out of the vertical trough 3123 one by one, then the picking member 330 takes the pushed iron sheets out, the glue passing driving source 331 drives the picking member 330 to pass through the glue feeding mechanism 34, so that the iron sheets clamped by the picking member 330 automatically adhere to glue and pass through the glue feeding mechanism 34 in advance, and then the adhesive sheet driving source 332 drives the picking member 330 to move to the position of the leather shell conveying material channel 2, so that the glued iron sheets are automatically adhered on the leather shells, and full-automatic discharging, feeding and pasting procedures of the iron sheets are realized.

In this embodiment, the glue supply mechanism 34 includes a glue supply base 340 fixedly mounted on the first base 30, a glue passing roller 341 rotatably mounted on the glue supply base 340, and a glue passing motor 342 for driving the glue passing roller 341 to rotate, where the glue supply base 340 has a glue storage groove, and the glue in the glue storage groove is automatically carried out by the glue passing roller 341, so that the structure design is simpler, the glue is automatically attached in the material moving process, and the structure is simpler, the action time is shorter, and the efficiency is higher, compared with the mode of dispensing glue by using a dispensing head.

In this embodiment, the iron sheet picking member 330 includes a picking base 3300, a pick-and-place driving source 3301 fixedly mounted on the picking base 3300, a picking rail 3302 drivingly connected to the pick-and-place driving source 3301, and a plurality of iron sheet suction cups 3303 mounted on the picking rail 3302 at intervals.

Specifically, the pick-and-place driving source 3301 is preferably a cylinder member, and the cylinder member can push the pick-up cross bar 3302 to move up and down, so that the iron sheet sucker 3303 takes or discharges materials.

In this embodiment, the patch driving source 332 includes a linear screw module 3320 fixedly mounted on the first base 30 and a feeding slide 3321 in transmission connection with the linear screw module 3320, the glue passing driving source 331 includes a glue passing cylinder member fixedly mounted on the feeding slide 3321 and a glue passing slide drivingly connected to the glue passing cylinder member, and the iron sheet pick-up member 330 is fixedly mounted on the glue passing slide.

In this embodiment, the iron sheet storage mechanism 31 includes an upper rail 310 mounted on an upper portion of the first base 30, a lower rail 311 mounted on a lower portion of the first base 30, and at least one storage bin 312 mounted on the upper rail 310 and the lower rail 311, each storage bin 312 includes an upper header 3120 fixedly mounted on the upper rail 310, a lower header 3121 fixedly mounted on the lower rail 311, and a barrel 3122 mounted on the upper header 3120 and the lower header 3121, the barrel 3122 is formed with the vertical trough 3123 and a material hole 3124 communicating with the vertical trough 3123, and the material stirring rod 323 extends into the vertical trough 3123 through the material hole 3124.

More specifically, the number of the storage bins 312 is configured to be at least two, that is, the user can select the number of the storage bins 312 according to actual demands, so as to realize one-time feeding of a plurality of iron sheets.

In this embodiment, the iron sheet discharging mechanism 32 includes a stirring driving source 320 fixedly mounted on the first base 30 and a stirring sliding seat 321 slidably mounted on the first base 30 and drivingly connected to the stirring driving source 320, the stirring rod 323 is fixedly mounted on the stirring sliding seat 321, and the stirring driving source 320 is used for driving the stirring sliding seat 321 to intermittently move upwards so that the stirring rod 323 moves upwards to push out the iron sheets in the vertical trough 3123 one by one.

In this embodiment, the material stirring driving source 320 includes a material stirring motor 3200 fixedly mounted on the first base 30, a material stirring screw 3201 extending longitudinally and assembled on the first base 30 in a rotating manner, and a lifting slide block 3202 assembled on the material stirring screw 3201 in a transmission manner, wherein the material stirring slide seat 321 is fixedly connected with the lifting slide block 3202; more specifically, the material-stirring motor 3200 may be a stepper motor, so as to improve the sliding accuracy.

The foregoing is merely exemplary of the present utility model, and those skilled in the art should not be considered as limiting the utility model, since modifications may be made in the specific embodiments and application scope of the utility model in light of the teachings of the present utility model.

Claims

1. A skin shell iron sheet paster structure, its characterized in that: including frame (1), locate skin and shell transmission material way (2) of frame (1) and assemble in paster unit (3) of frame (1) one side, paster unit (3) are including connecting in first base (30) of frame (1), and locate iron sheet feed mechanism (31) of first base (30) respectively, iron sheet discharge mechanism (32) and paster manipulator (33), iron sheet feed mechanism (31) have vertical silo (3123) that are vertical extension, iron sheet discharge mechanism (32) are furnished with at least one and stretch into vertical silo (3123) and can gliding driving lever (323) from top to bottom, gliding driving lever (323) is released the iron sheet in vertical silo (3123) one by one, paster manipulator (33) are used for picking up the iron sheet and paste the iron sheet and establish on the skin and shell in skin and shell transmission material way (2).

2. A skin iron sheet patch structure according to claim 1, wherein: the patch unit (3) further comprises a glue supply mechanism (34) arranged at the discharge end of the vertical trough (3123), and the patch manipulator (33) picks up the iron sheet at the inner part of the vertical trough (3123) and passes over the glue supply mechanism (34) and attaches the iron sheet with glue automatically to the leather shell in the leather shell conveying material channel (2).

3. A skin iron sheet patch structure in accordance with claim 2 wherein: the chip mounting manipulator (33) comprises an iron chip pick-up piece (330) for picking up the iron chip, an overglue driving source (331) for driving the iron chip pick-up piece (330) to slide from the vertical trough (3123) to the glue feeding mechanism (34), and a chip mounting driving source (332) for driving the iron chip pick-up piece (330) to transfer the iron chip to the leather shell conveying material channel (2).

4. A skin iron sheet patch structure in accordance with claim 2 wherein: the glue supply mechanism (34) comprises a glue supply base (340) fixedly arranged on the first base (30), a glue passing roller (341) rotatably assembled on the glue supply base (340) and a glue passing motor (342) used for driving the glue passing roller (341) to rotate, the glue supply base (340) is provided with a glue storage groove, and the glue in the glue storage groove is automatically carried out by the glue passing roller (341) which rotates.

5. A skin iron sheet patch structure according to claim 3 wherein: the iron sheet pickup member (330) comprises a pickup base (3300), a pick-and-place driving source (3301) fixedly assembled on the pickup base (3300), a pickup cross rod (3302) connected with the pick-and-place driving source (3301) in a driving mode, and a plurality of iron sheet suckers (3303) assembled on the pickup cross rod (3302) at intervals.

6. A skin iron sheet patch structure according to claim 3 wherein: the surface mount device driving source (332) comprises a linear screw rod module (3320) fixedly mounted on the first base (30) and a feeding sliding seat (3321) in transmission connection with the linear screw rod module (3320), the glue passing driving source (331) comprises a glue passing air cylinder part fixedly mounted on the feeding sliding seat (3321) and a glue passing sliding seat in driving connection with the glue passing air cylinder part, and the iron sheet pick-up part (330) is fixedly mounted on the glue passing sliding seat.

7. A skin iron sheet patch structure according to claim 1, wherein: the iron sheet storage mechanism (31) comprises an upper cross rod (310) arranged on the upper portion of the first base (30), a lower cross rod (311) arranged on the lower portion of the first base (30) and at least one storage bin (312) assembled on the upper cross rod (310) and the lower cross rod (311), each storage bin (312) comprises an upper head seat (3120) fixedly assembled on the upper cross rod (310), a lower head seat (3121) fixedly assembled on the lower cross rod (311) and a feed cylinder (3122) assembled on the upper head seat (3120) and the lower head seat (3121), the feed cylinder (3122) is formed with a vertical trough (3123) and a feed hole (3124) communicated with the vertical trough (3123), and the stirring rod (323) stretches into the vertical trough (3123) through the feed hole (3124).

8. The iron sheet patch structure of claim 7, wherein: the number of storage bins (312) is configured to be at least two.

9. A skin iron sheet patch structure according to claim 1, wherein: the iron sheet discharging mechanism (32) comprises a stirring driving source (320) fixedly assembled on the first base (30) and a stirring sliding seat (321) slidably installed on the first base (30) and in driving connection with the stirring driving source (320), a stirring rod (323) is fixedly installed on the stirring sliding seat (321), and the stirring driving source (320) is used for driving the stirring sliding seat (321) to intermittently move upwards so that the stirring rod (323) moves upwards to push out the iron sheets in the vertical trough (3123) one by one.

10. The iron sheet patch structure of claim 9, wherein: the stirring driving source (320) comprises a stirring motor (3200) fixedly mounted on the first base (30), a stirring screw rod (3201) longitudinally extending and rotatably assembled on the first base (30) and a lifting sliding block (3202) assembled on the stirring screw rod (3201) in a transmission mode, and the stirring sliding seat (321) is fixedly connected with the lifting sliding block (3202).