CN106938556B

CN106938556B - Automatic bonding and forming equipment for top-quality inner box

Info

Publication number: CN106938556B
Application number: CN201710339243.1A
Authority: CN
Inventors: 章贤德
Original assignee: Dongguan Mys Environmental Protection and Technology Co Ltd
Current assignee: Dongguan Mys Environmental Protection and Technology Co Ltd
Priority date: 2017-05-15
Filing date: 2017-05-15
Publication date: 2023-08-15
Anticipated expiration: 2037-05-15
Also published as: CN106938556A

Abstract

The invention discloses automatic bonding and forming equipment for a top-quality inner box, which comprises a machine table, wherein a forming die is arranged on the machine table, a stamping device is arranged above the forming die, the forming die comprises a uncut corner folding block, a first side folding block and a second side folding block, the top of the uncut corner folding block is higher than the top of the first side folding block, and the top of the uncut corner folding block is higher than the top of the second side folding block. The punching device presses the raw material paper board downwards, the uncut corner on the raw material paper board is bent by the cut corner folding block jack-up, the cut corner is bent to a certain angle after the raw material paper board moves downwards by a certain distance, then the first side on the raw material paper board is bent by the first side folding block jack-up and drives the cut corner connected with the first side to move towards the direction close to the center of the raw material paper board, the second side is bent by the second side folding block jack-up and contacts with the cut corner, and the second side is connected with the cut corner through silk-screen glue arranged on the cut corner, so that the automatic bonding and forming of the top-quality inner box are realized.

Description

Automatic bonding and forming equipment for top-quality inner box

Technical Field

The invention relates to the field of automatic equipment, in particular to automatic bonding and forming equipment for a top-quality inner box.

Background

With the rapid development of electronic products, the demand for a top-quality box as a packaging material is becoming more remarkable. In particular, for the inner case portion of the top-quality inner case, the top-quality inner case is often used for packaging accessories and additional products of electronic products, such as adapters, data lines, headphones, and instructions, etc. The inner box of the fine product for packaging is generally finished by a folding card box, while the existing automatic card box pasting machine is only suitable for making a tubular card box, the three-dimensional pasting card box can be finished by a large amount of manual operation, but the labor cost is rapidly increased along with the development of economy, and the cost of first-line manual operators in the packaging industry is obviously increased, so that the three-dimensional pasting card box which is required to be pasted and formed by manual operation is difficult to be applied to the inner box of the fine product in a large quantity.

Meanwhile, factors such as the proficiency of staff on work and personal emotion directly affect the quality of the product, so that enterprises need to pay more management cost for the products. The three-dimensional adhesive card box has good user experience, and is difficult to popularize due to the pressure limited by mass production level and cost.

Disclosure of Invention

The invention aims to provide automatic bonding and forming equipment for a top-quality inner box, which can automatically bond and form a raw paperboard.

To achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a box automatic bonding former in fine product, includes the board, be equipped with the moulded die on the board, the top of moulded die is equipped with stamping device, the moulded die includes the folding piece of pu angle, first side folding piece and second side folding piece, the top of pu angle folding piece is higher than the top of first side folding piece, the top of pu angle folding piece is higher than the top of second side folding piece.

Specifically, the raw material paperboard is a flat paperboard comprising a first side edge, a uncut and flat corners, a second side edge, a bottom edge and a top edge, folds are formed between different parts so as to carry out bending operation, adhesive substances are arranged on the uncut and flat corners, and the uncut and flat corners are connected with the first side edge. The raw material paperboard is pressed downwards by the stamping device through contact with the bottom edge, the uncut and flat corners on the raw material paperboard are firstly contacted with the uncut and flat corner folding blocks and are jacked by the uncut and flat corner folding blocks to be bent, the raw material paperboard moves downwards for a certain distance and is bent to a certain distance, then the first side edge on the raw material paperboard is jacked by the first side edge folding blocks to be bent and drive the uncut and flat corners connected with the first side edge to move towards the direction close to the center of the raw material paperboard, meanwhile, the second side edge is jacked by the second side edge folding blocks to be bent and finally contacted with the uncut and flat corners, and the second side edge is connected with the cut and flat corners through adhesive substances such as silk-screen glue arranged on the cut and flat corners.

Preferably, the top of the first side folding block is higher than the top of the second side folding block.

Specifically, after the first side edge is contacted with the first side edge folding block, the second side edge is contacted with the second side edge folding block, namely, the first side edge is jacked up by the first side edge folding block to be bent and drive the uncut corner connected with the first side edge to move in the direction close to the center of the raw material paperboard, and then the second side edge is jacked up by the second side edge folding block to be bent, so that the first side edge is guaranteed to be bent by 90 degrees, and after the uncut corner is driven to be completely contacted with the bottom edge, the second side edge is bent by 90 degrees again to be contacted with the uncut corner and is bonded and connected through bonding substances such as silk-screen glue arranged on the uncut corner.

Preferably, the top of the first side folding block is flush with the top of the second side folding block.

Specifically, the first side edge is in contact with the first side edge folding block, the second side edge is in contact with the second side edge folding block, namely, the first side edge is jacked up by the first side edge folding block to be bent and drive a uncut corner connected with the first side edge to move in a direction close to the center of the raw material paperboard, and the second side edge is jacked up by the second side edge folding block to be bent, so that the first side edge is bent by 90 degrees to drive the uncut corner to be completely in contact with the bottom edge, and the second side edge is just completed to be bent by 90 degrees and is in contact with the uncut corner and bonded and connected through bonding substances such as silk-screen printing glue arranged on the cut corner.

Preferably, the forming die further comprises a positioning block and a supporting plate, and a first spring is arranged between the supporting plate and the machine table.

Specifically, by placing the top edge of the raw material paperboard on the positioning block, the purposes that the uncut and flat corners are positioned right above the uncut and flat corner folding blocks, the first side edge is positioned right above the first side edge folding blocks, and the second side edge is positioned right above the second side edge folding blocks are achieved. The supporting plate is located under the bottom edge of the raw material paper board, the stamping device is retracted upwards after the stamping action is completed to achieve the fact that the raw material paper board is bonded and formed to obtain a formed box body, the first spring jacks up the supporting plate upwards to drive the formed box body to be separated from the forming die to reach the upper surface of the forming die, and follow-up operation is facilitated.

Preferably, the machine table is provided with a support, the stamping device comprises a fixing plate, a first cylinder and a stamping block, the fixing plate is connected with the support, the stamping block is located on one side, close to the machine table, of the fixing plate, and the stamping block is connected with a piston rod of the first cylinder. Specifically, the first cylinder drives the stamping block to move up and down through the telescopic action of the piston rod to complete stamping action.

Preferably, the device further comprises a limiting plate, a guiding and positioning rod and a second cylinder, wherein the guiding and positioning rod is connected with the limiting plate, the guiding and positioning rod is connected with the fixing plate in a sliding mode, the limiting plate is connected with a piston rod of the second cylinder, and a yielding hole corresponding to the size of the stamping block is formed in the middle of the limiting plate.

Further, because the shaping box body that obtains after the bonding shaping exists the condition of parcel on the punching press piece, in order to be convenient for separate shaping box body and punching press piece, set up the height that the limiting plate is used for restricting shaping box body upward movement, if shaping box body gets into the limiting plate or pass the limiting plate through the hole of stepping down after the punching press piece upward movement certain height, and the shaping box body of cladding outside punching press piece is blocked unable follow the punching press piece and continues upward movement by the bottom of limiting plate, and then realizes separating shaping box body and punching press piece. The second cylinder is used for adjusting the height of the limiting plate, and production requirements of products with different specifications are met.

Preferably, the machine is further provided with a pressing device corresponding to the second side folding block.

Further, in order to enhance the bonding effect of the second side edge and the uncut corner, the pressing device is used for applying pressure to the second side edge after the second side edge and the uncut corner are completely contacted and bonded, and the application of the force is set to about 1.5 seconds so as to ensure the bonding forming effect between the second side edge and the uncut corner. The pressing device specifically comprises a pressing cylinder and a pressing plate connected with a piston rod of the pressing cylinder, and the pressing cylinder applies force to the second side through the pressing plate.

Preferably, the stamping device further comprises a clamping plate and a second spring, wherein the second spring is located between the stamping block and the clamping plate.

Further, in order to strengthen the effect and the speed of separating shaping box body and punching press piece, set up splint and second spring, if shaping box body cladding is on the punching press piece and along with punching press piece upward movement time, the second spring exerts decurrent power and then drives splint to the direction motion of keeping away from the punching press piece to the splint, splint and then exert the force of keeping away from the punching press piece direction to the bottom of shaping box body, finally realize shaping box body cladding and follow punching press piece upward movement's in-process splint with shaping box body and punching press piece top break away from.

Preferably, the machine is provided with a fixed block and an air pipe inlet, the fixed block is provided with an air tap, and the air tap is communicated with the air pipe inlet.

Further, the air tap is communicated with the air pump through the air pipe inlet, and the air tap blows out air to form air flow so as to bring the forming box body positioned on the upper surface of the forming die away from the machine.

Preferably, the machine table is further provided with a guide chute, the guide chute and the air tap are respectively located at two opposite sides of the forming die, one end of the guide chute, which is far away from the forming die, is provided with a production line table, and the production line table is provided with a conveying belt.

Specifically, the air tap blows the formed box body into the guide chute and slides into the assembly line table, and finally, the formed box body is transferred to a processing position of the next process by a conveyor belt on the assembly line table.

The invention has the beneficial effects that: the punching device presses the raw material paper board downwards, the uncut corner on the raw material paper board is firstly contacted with the uncut corner folding block and is jacked by the uncut corner folding block to be bent, the raw material paper board moves downwards for a certain distance and then is bent to a certain angle, then the first side edge on the raw material paper board is jacked by the first side edge folding block to be bent and drive the uncut corner connected with the first side edge to move towards the direction close to the center of the raw material paper board, meanwhile, the second side edge is jacked by the second side edge folding block to be bent and finally contacted with the uncut corner, and the second side edge is connected with the uncut corner through bonding substances such as silk-screen glue arranged on the uncut corner, so that the automatic bonding forming of the fine inner box is realized.

Drawings

FIG. 1 is a schematic view of the overall structure of an automatic bonding molding apparatus;

FIG. 2 is a schematic diagram of a side view of an automated bonding molding apparatus;

FIG. 3 is a schematic view of the structure of a raw paperboard;

FIG. 4 is a schematic view of the structure of a forming box produced by an automatic bonding forming device;

FIG. 5 is a schematic view of the structure of the automatic bonding apparatus in the front view direction;

FIG. 6 is a schematic top view of an automated bonding molding apparatus;

in the figure:

1. a machine table; 101. a bracket; 102. a fixed block; 103. a gas pipe inlet; 1021. an air tap;

2. forming a mold; 201. a flat angle folding block; 202. a first side folding block; 203. a second side folding block; 204. a positioning block; 205. a supporting plate; 206. a first spring;

3. a punching device; 301. a fixing plate; 302. a first cylinder; 303. stamping blocks; 304. a limiting plate; 305. a guide positioning rod; 306. a second cylinder; 307. a second spring; 308. a clamping plate;

4. a pressing device;

5. a guide chute; 501. a pipeline stage; 502. a conveyor belt;

6a, raw material paper board; 6b, forming a box body; 601. a first side; 602. the uncut corners, 603 and the second side edges; 604. a bottom edge; 605. a top edge.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

As shown in fig. 1-6, an automatic bonding and forming device for a top-quality inner box comprises a machine 1, wherein a forming die 2 is arranged on the machine 1, a stamping device 3 is arranged above the forming die 2, the forming die 2 comprises a uncut corner folding block 201, a first side folding block 202 and a second side folding block 203, the top of the uncut corner folding block 201 is higher than the top of the first side folding block 202, and the top of the uncut corner folding block 201 is higher than the top of the second side folding block 203.

Specifically, the raw material cardboard 6a is a flat cardboard including a first side 601, a uncut corner 602, a second side 603, a bottom side 604 and a top side 605, folds are formed between different parts so as to perform bending operation, an adhesive substance is disposed on the uncut corner 602, and the uncut corner 602 is connected with the first side 601. The bonding and molding process is that the punching device 3 presses down the raw material paperboard 6a by contacting with the bottom edge 604, the uncut corner 602 on the raw material paperboard 6a is firstly contacted with the uncut corner folding block 201 and is jacked up by the uncut corner folding block 201 to bend, the raw material paperboard 6a moves downwards for a certain distance and then the uncut corner 602 is bent to a certain distance, then the first side 601 on the raw material paperboard 6a is jacked up by the first side folding block 202 to bend and drive the uncut corner 602 connected with the first side 601 to move towards the direction close to the center of the raw material paperboard 6a, meanwhile, the second side 603 is jacked up by the second side folding block 203 to bend and finally contacts with the uncut corner 602, and the second side 603 is connected with the cut corner 602 through bonding materials such as silk-screen glue arranged on the cut corner 602. The machine 1 is also provided with a start button and an emergency stop button.

In this embodiment, the top of the first side folding block 202 is higher than the top of the second side folding block 203.

Specifically, after the first side 601 contacts with the first side folding block 202, the second side 603 contacts with the second side folding block 203, that is, after the first side 601 is lifted by the first side folding block 202 to bend and drive the uncut corner 602 connected with the first side 601 to move in a direction close to the center of the raw material paperboard 6a, the second side 603 is lifted by the second side folding block 203 to bend, so that the first side 601 is ensured to bend by 90 degrees to drive the cut corner 602 to be completely contacted with the bottom side 604, and after the second side 603 is further bent by 90 degrees to contact with the cut corner 602 and be bonded and connected by adhesive substances such as silk-screen glue arranged on the cut corner 602.

Of course, in other embodiments, the top of the first side folding block 202 may also be disposed flush with the top of the second side folding block 203. Specifically, the first side 601 is in contact with the first side folding block 202 and the second side 603 is in contact with the second side folding block 203, that is, the first side 601 is lifted by the first side folding block 202 to bend and drive the uncut corner 602 connected with the first side 601 to move in a direction close to the center of the raw material paperboard 6a, and the second side 603 is lifted by the second side folding block 203 to bend, so that the first side 601 bends by 90 degrees to drive the cut corner 602 to be completely in contact with the bottom edge 604, and the second side 603 just completes 90-degree bending to be in contact with the cut corner 602 and is bonded and connected by adhesive substances such as silk-screen glue arranged on the cut corner 602.

In this embodiment, the forming mold 2 further includes a positioning block 204 and a supporting plate 205, and a first spring 206 is disposed between the supporting plate 205 and the machine 1.

Specifically, by placing the top edge 605 of the raw material cardboard 6a on the positioning block 204, it is achieved that the uncut corner 602 is located directly above the uncut corner folding block 201, the first side 601 is located directly above the first side folding block 202, and the second side 603 is located directly above the second side folding block 203. The supporting plate 205 is located under the bottom edge 604 of the raw material paper board 6a, the stamping device 3 is retracted upwards after the stamping action is completed to achieve the bonding and forming of the raw material paper board 6a to obtain the formed box body 6b, the supporting plate 205 is jacked upwards by the first spring 206 to drive the formed box body 6b to be separated from the forming die 2 to reach the upper surface of the forming die 2, and subsequent operation is facilitated.

In this embodiment, the machine 1 is provided with a support 101, the stamping device 3 includes a fixing plate 301, a first cylinder 302 and a stamping block 303, the fixing plate 301 is connected to the support 101, the stamping block 303 is located on one side of the fixing plate 301 near the machine 1, and the stamping block 303 is connected to a piston rod of the first cylinder 302. Specifically, the first cylinder 302 drives the punch block 303 to move up and down to complete the punching action through the telescopic action of the piston rod.

In this embodiment, the device further includes a limiting plate 304, a guiding and positioning rod 305 and a second cylinder 306, the guiding and positioning rod 305 is connected with the limiting plate 304, the guiding and positioning rod 305 is slidably connected with the fixing plate 301, the limiting plate 304 is connected with a piston rod of the second cylinder 306, and a yielding hole corresponding to the size of the punching block 303 is arranged in the middle of the limiting plate 304.

Further, because the formed box body 6b obtained after bonding and forming is wrapped on the punching block 303, in order to facilitate separation of the formed box body 6b from the punching block 303, a limiting plate 304 is provided to limit the upward movement height of the formed box body 6b, if the formed box body 6b moves upward along with the punching block 303 by a certain height, the punching block 303 enters the limiting plate 304 or passes through the limiting plate 304 through a relief hole, and the formed box body 6b wrapped outside the punching block 303 is blocked by the bottom of the limiting plate 304 and cannot move upward along with the punching block 303, so that separation of the formed box body 6b from the punching block 303 is realized. The second air cylinder 306 is used for adjusting the height of the limiting plate 304, so as to meet the production requirements of products with different specifications.

In this embodiment, the machine 1 is further provided with a pressing device 4 corresponding to the second side folding block 203.

Further, in order to enhance the adhesion effect between the second side 603 and the uncut corner 602, the pressing device 4 is configured to apply pressure to the second side 603 after the second side 603 and the uncut corner 602 are completely contacted and adhered, and the application of the applied force is set at about 1.5 seconds to ensure the adhesion molding effect between the second side 603 and the uncut corner 602. The pressing device 4 specifically includes a pressing cylinder and a pressing plate connected to a piston rod of the pressing cylinder, and the pressing cylinder applies a force to the second side 603 through the pressing plate.

In this embodiment, the stamping device 3 further includes a clamping plate 308 and a second spring 307, and the second spring 307 is located between the stamping block 303 and the clamping plate 308.

Further, in order to enhance the effect and the speed of separating the forming box 6b from the punching block 303, the clamping plate 308 and the second spring 307 are provided, if the forming box 6b is coated on the punching block 303 and moves upwards along with the punching block 303, the second spring 307 applies a downward force to the clamping plate 308 to drive the clamping plate 308 to move away from the punching block 303, the clamping plate 308 further applies a force to the bottom of the forming box 6b away from the punching block 303, and finally, the forming box 6b is coated on the punching block 303 and is separated from the punching block 303 by the clamping plate 308 in the process of moving upwards along with the punching block 303.

In this embodiment, the machine 1 is provided with a fixed block 102 and an air pipe inlet 103, the fixed block 102 is provided with an air nozzle 1021, and the air nozzle 1021 is communicated with the air pipe inlet 103.

Further, the air nozzle 1021 is communicated with the air pump through the air pipe inlet 103, and the air nozzle 1021 blows air to form air flow to bring the forming box body 6b positioned on the upper surface of the forming die 2 out of the machine 1.

In this embodiment, the machine 1 is further provided with a guiding chute 5, the guiding chute 5 and the air nozzle 1021 are respectively located at two opposite sides of the forming die 2, one end of the guiding chute 5 away from the forming die 2 is provided with a pipeline stage 501, and the pipeline stage 501 is provided with a conveyor belt 502.

Specifically, the nozzle 1021 blows the molded box 6b into the guide chute 5 and slides onto the line table 501, and is finally transferred to the processing position of the next process by the conveyor 502 on the line table 501.

The terms "first" and "second" are used herein for descriptive purposes only and are not intended to have a particular meaning.

It is to be understood that the above examples of the present invention are provided for clarity of illustration only and are not limiting of the embodiments of the present invention. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the invention are desired to be protected by the following claims.

Claims

1. The automatic bonding and forming equipment for the top-quality inner box is characterized by comprising a machine table, wherein a forming die is arranged on the machine table, a stamping device is arranged above the forming die, the forming die comprises a uncut-corner folding block, a first side folding block and a second side folding block, the top of the uncut-corner folding block is higher than the top of the first side folding block, and the top of the uncut-corner folding block is higher than the top of the second side folding block; the top of the first side folding block is higher than the top of the second side folding block;

the machine table is provided with a support, the stamping device comprises a fixed plate, a first cylinder and a stamping block, the fixed plate is connected with the support, the stamping block is positioned on one side, close to the machine table, of the fixed plate, and the stamping block is connected with a piston rod of the first cylinder;

the automatic bonding and forming equipment further comprises a limiting plate, a guiding and positioning rod and a second air cylinder, wherein the guiding and positioning rod is connected with the limiting plate, the guiding and positioning rod is in sliding connection with the fixed plate, the limiting plate is connected with a piston rod of the second air cylinder, and a yielding hole corresponding to the stamping block is formed in the middle of the limiting plate;

the second air cylinder is used for adjusting the height of the limiting plate and meeting the production requirements of products with different specifications;

after the forming box body moves upwards by a certain height along with the stamping block, the stamping block enters the limiting plate or passes through the limiting plate through the abdicating hole, and the forming box body coated outside the stamping block is blocked by the bottom of the limiting plate and cannot move upwards along with the stamping block, so that the forming box body is separated from the stamping block;

the stamping device further comprises a clamping plate and a second spring, wherein the second spring is positioned between the stamping block and the clamping plate; when the forming box body is coated on the stamping block and moves upwards along with the stamping block, the second spring applies downward force to the clamping plate so as to drive the clamping plate to move in the direction away from the stamping block, the clamping plate further applies force away from the stamping block to the bottom of the forming box body, and the forming box body is coated on the stamping block and is separated from the stamping block by the clamping plate in the process of moving upwards along with the stamping block.

2. The automated bonding molding apparatus of claim 1, wherein a top of the first side folding block is flush with a top of the second side folding block.

3. The automated bonding molding apparatus of claim 1, wherein the molding die further comprises a positioning block and a pallet, a first spring being disposed between the pallet and the platen.

4. The automatic bonding and molding device according to claim 1, wherein the machine is further provided with a pressing device corresponding to the second side folding block.

5. The automatic bonding and molding device according to claim 1, wherein a fixed block and an air pipe inlet are arranged on the machine table, an air tap is arranged on the fixed block, and the air tap is communicated with the air pipe inlet.

6. The automatic bonding and molding device according to claim 5, wherein the machine is further provided with a guide chute, the guide chute and the air tap are respectively located at two opposite sides of the molding die, one end of the guide chute, which is far away from the molding die, is provided with a production line stage, and the production line stage is provided with a conveyor belt.