CN113211853A

CN113211853A - Intelligent environment-friendly manufacturing assembly line and process for gift box

Info

Publication number: CN113211853A
Application number: CN202110409381.9A
Authority: CN
Inventors: 杨基宾
Original assignee: Zhangzhou Haowang Arts & Crafts Co ltd
Current assignee: Xiamen Yimeite Industry and Trade Co Ltd
Priority date: 2021-04-16
Filing date: 2021-04-16
Publication date: 2021-08-06
Anticipated expiration: 2041-04-16
Also published as: CN113211853B

Abstract

The invention discloses an intelligent environment-friendly manufacturing assembly line for gift boxes, which comprises a packaging body placing device, a box body placing device, a folding device, at least two limiting bodies, a first clamping and placing device, a second clamping device and heating devices, wherein the heating devices extend into the limiting bodies to be heated; the spacing body is hot melt material, and its automation level is high, and production efficiency is high. An intelligent environment-friendly manufacturing process of gift boxes comprises the following steps: the box body is placed on the packaging body; folding the packaging body to the side wall of the box body; the box body transferring component clamps and places the box body and the packaging body on a second conveyor belt, and the first clamping and placing device places at least two limiting bodies into the inner cavity of the box body; a first clamping and placing device is used for placing a partition plate between two limiting bodies of the box body; heating device heats the spacing body, and the spacing body melts and bonds baffle and box inner chamber, and it is bonded through setting up the spacing body and tentatively spacing postheating to the baffle, and the ingenious machining efficiency of structure is high.

Description

Intelligent environment-friendly manufacturing assembly line and process for gift box

Technical Field

The invention relates to the field of decorative box processing machinery, in particular to an intelligent environment-friendly gift box manufacturing assembly line and a process thereof.

Background

The gift box is a decoration commonly used in our lives, such as moon cake package, tea package, etc.; present gift box packagine machine all carries out the extranal packing to the box body through mechanical structure, if the gift box need separate the region in inside, all put into the baffle by the manual work or put into at the bottom of a plastics check and separate, place not only that production efficiency is low but also the baffle can take place the skew when the gift box removes through the manual work and collapse even.

In view of the above, the applicant has made an intensive study on the above-mentioned defects in the prior art, and has made this invention.

Disclosure of Invention

The invention mainly aims to provide an intelligent environment-friendly gift box manufacturing assembly line which is high in automation level and production efficiency.

Its two gift box intelligence environmental protection manufacturing process, it is through setting up the spacing body and tentatively spacing postheating the baffle and bond, and the ingenious machining efficiency of structure is high.

In order to achieve the above purpose, the solution of the invention is:

an intelligent environment-friendly manufacturing assembly line for gift boxes comprises a packaging body placing device, a glue dispensing device for dispensing glue to the packaging body, a box body placing device for placing a box body on the packaging body, a folding device for folding the packaging body to the periphery of the box body, at least two limiting bodies, a first clamping and placing device for placing at least two limiting bodies into the inner cavity of the box body at equal intervals, a second clamping device for placing a partition plate between the adjacent limiting bodies, and a heating device extending into each limiting body for heating; the limiting body is made of hot melt materials.

Further, the device also comprises a transportation mechanism; the conveying mechanism comprises a first conveying belt and a second conveying belt; the output end of the first conveying belt is connected with the input end of the folding device, and the input end of the second conveying belt is connected with the output end of the folding device.

Further, the material of the limiting body is hot-melt resin.

Furthermore, the limiting body is cylindrical; a groove is formed in the upper surface of the limiting body.

Further, the first clamping and placing device comprises a third conveying belt for conveying a plurality of limiting bodies and a first clamping and placing assembly for clamping the limiting bodies on the third conveying belt into the box body.

Further, the first clamping and placing assembly comprises a first clamping and bearing frame, a first moving block, a first telescopic body and a first clamping body, wherein the first moving block is connected to the lower surface of the first clamping and bearing frame in a sliding mode; the first clamping carrier covers the third conveyor belt output, the first clamping carrier straddles the second conveyor belt.

Further, a first guide rail is formed on the lower surface of the first clamping bearing frame, and a first sliding groove matched with the first guide rail is formed on the lower surface of the first moving block.

Further, the first telescopic body comprises a first telescopic fixed seat fixed on the lower surface of the first moving block and a first telescopic sliding seat moving up and down on the side surface of the first telescopic fixed seat.

Further, the first clamping body comprises a first clamping connecting plate fixedly connected with the output end of the first telescopic body and an adsorption heating head stretching into the limiting body for adsorption; the adsorption heating heads are connected to the surface, facing downwards, of the clamping connecting plate, and the quantity of the adsorption heating heads is consistent with that of the limiting bodies.

Furthermore, a clamping limit frame is formed on the first clamping connecting plate; the inner diameter of the clamping limiting frame is the same as the outer diameter of the limiting body; the number of the clamping limiting frames is consistent with that of the limiting bodies.

Further, the second clamping and placing device comprises a vertical conveying belt for conveying the partition plate, a partition plate cutting assembly positioned on the vertical conveying belt, and a second clamping and placing assembly for clamping the partition plate to an adjacent limiting body; the number of the vertical conveying belt, the partition plate cutting assemblies and the second clamping and placing assemblies is the same as that of the partition plates.

Further, the vertical conveying belts comprise a fourth conveying belt and a fifth conveying belt; the fourth conveying belt and the fifth conveying belt are arranged in a vertical opposite mode.

Further, the clapboard cutting assembly comprises a clapboard limiting body, a clapboard cutting knife and a cutting knife driving body; the partition limiting body is provided with a through hole for the partition to pass through, and the side face of the partition limiting body is provided with a cutting abdicating groove for the partition cutting knife to stretch into.

Further, the second clamping and placing assembly comprises a second clamping and bearing frame, a second moving block connected to the lower surface of the second clamping and bearing frame in a sliding manner, a second telescopic body connected to the lower surface of the second moving block, and a second clamping body connected to the output end of the second telescopic body; the second clamping carrier covers the output ends of the third and fourth conveyor belts, the second clamping carrier straddles the second conveyor belt.

Further, a second guide rail is formed on the lower surface of the second clamping bearing frame, and a second sliding groove matched with the second guide rail is formed on the lower surface of the second moving block.

Further, the second telescopic body comprises a second telescopic fixed seat fixed on the lower surface of the second moving block and a second telescopic sliding seat moving up and down on the side surface of the second telescopic fixed seat.

Further, the second clamping body comprises a second clamping connecting plate connected to the output end of the second telescopic body, a clamping fixed block, a clamping moving block and a clamping driving body for driving the clamping moving block to move; the clamping fixed block is connected to the lower surface of the second clamping connecting plate; the clamping driving body is connected to the lower surface of the second clamping connecting plate, and the output end of the clamping driving body faces towards the clamping fixing block; the clamping moving block is connected to the output end of the clamping driving body.

Further, the folding device comprises a folding bearing platform, a box body placing telescopic seat, a box body pressing assembly, four pressing rollers and a box body transferring assembly for transporting the box body; the box body placing telescopic seat is connected to the folding bearing platform, and the box body pressing component is positioned above the folding bearing platform; the four pressing rollers are respectively positioned on the periphery of the box body placing telescopic seat; the shape enclosed by the four pressing rollers is consistent with the projection shape of the horizontal plane of the box body; the projection shape of the horizontal plane of the box body accommodating telescopic seat is consistent with that of the horizontal plane of the box body.

Further, box body pressing assembly includes the box body pressing head that stretches into box body inner chamber and drive the pressing head driving body of box body pressing head.

Further, the box body transfer component comprises a transfer guide rail arranged along the conveying direction of the first conveying belt, a transfer moving body in sliding connection with the transfer guide rail, a transfer fixing seat connected to the transfer moving body and facing one surface of the first conveying belt, a transfer sliding body in vertical sliding connection with the transfer fixing seat, and a transfer clamping component in sliding connection with the lower surface of the transfer sliding body.

Further, the transfer clamping assembly comprises a transfer left clamping portion, a transfer right clamping portion and a transfer clamping portion driving body for driving the transfer left clamping portion and the transfer right clamping portion to be close to or far away from each other.

Further, the heating device comprises a heating portal frame which stretches across the second conveying belt and is positioned at the rear end of the second conveying belt, and a heating assembly which is positioned on one surface, facing the second conveying belt, of the heating portal frame.

Further, the heating assembly comprises a heating head, and a heating telescopic driving body which drives the heating head to extend into the limiting body; the heating heads are connected to the output end of the heating telescopic driving body, the number of the heating heads is the same as that of the limiting bodies, and the arrangement of the heating heads corresponds to that of the limiting bodies.

An intelligent environment-friendly manufacturing process of gift boxes comprises the following steps:

(1) the packaging body placing device places the packaging body on the first conveying belt;

(2) the glue dispensing device is used for coating glue on the packaging body;

(3) the box body placing device places a box body in the middle of the packaging body;

(4) the box body transferring component clamps the box body and the packaging body and places the box body and the packaging body on the box body placing telescopic seat;

(5) the box body pressing component presses the inner cavity of the box body downwards for pressing, and the pressing roller upwards overturns the packaging box positioned around the box body to be attached to the side wall of the box body;

(6) the box body transferring component clamps and places the box body and the packaging body on a second conveyor belt, and the first clamping and placing device places at least two limiting bodies into the inner cavity of the box body;

(7) a first clamping and placing device is used for placing a partition plate between two limiting bodies of the box body;

(8) the heating device heats the limiting body, and the limiting body melts to bond the partition board with the inner cavity of the box body.

After adopting the structure, the intelligent environment-friendly manufacturing assembly line for the gift boxes, which is disclosed by the invention, at least has the following beneficial effects:

1. firstly, a packaging body placing device places a packaging body on a plane, a glue dispensing device coats glue on the packaging body, a box body placing device places a box body at a position, corresponding to the lower surface of the box body, of the packaging body for preliminary bonding, and a folding device folds the packaging body around the box body, so that other parts of the packaging body are attached to the periphery of the box body to complete preliminary packaging of the whole box body; the first clamping device puts into the internal chamber of box with two at least spacing bodies, and second clamping device puts into the baffle between two adjacent spacing bodies, and two adjacent spacing bodies carry out preliminary location to the baffle, prevent that the baffle from falling in the internal chamber of box when putting into, stretch into spacing internally through heating device at last and heat and melt the spacing body, and spacing body links together baffle and box body when melting, forms a complete gift box.

2. Through setting up the adsorption heating head, after the adsorption heating head adsorbs the spacing body and puts into the box body inner chamber, the adsorption heating head stops adsorbing and heats the bottom of spacing body, and heating temperature is less than spacing body melting temperature, heats two seconds and makes spacing body bottom and box body bottom tentatively adhere and prevent that the aversion of spacing body leads to the unable normal putting into in follow-up transportation.

Its two gift box intelligence environmental protection manufacturing process, its automatic level is high, carries on spacingly earlier to the baffle in the gift box through spacing body, carries out hot melt adhesive afterwards, shortens the preparation time of whole gift box for produce more high-efficient.

Drawings

Fig. 1 is a schematic perspective view of an intelligent environment-friendly manufacturing assembly line for gift boxes according to the present invention.

Fig. 2 is a schematic perspective view of the folding device of the present invention.

Fig. 3 is a schematic perspective view of the first clamping and placing device of the present invention.

Fig. 4 is a schematic perspective view of a first clamping body according to the present invention.

Fig. 5 is a schematic perspective view of a second clamping and placing device according to the present invention.

Fig. 6 is a schematic perspective view of a second clamping body according to the present invention.

Fig. 7 is a schematic perspective view of a heating device according to the present invention.

Fig. 8 is a schematic perspective view of the package and the case of the present invention.

Fig. 9 is a schematic perspective view of the case and the partition plate according to the present invention.

In the figure: a folding device 1; folding the carrying platform 11; the box body is provided with a telescopic seat 12; a box body pressing component 13; a pressing roller 14; a cassette transfer assembly 15; a transfer guide 151; a transfer moving body 152; a transfer holder 153; a transfer slide 154; transfer left grip 155; transfer left grip 156;

a position limiting body 2;

a first holding and placing device 3; a third conveyor belt 31; a first clamp placement assembly 32; a first clamp carrier 321; a first moving block 322; a first telescopic body 323; a first clamping body 324; a first clamping connecting plate 3241; a clamping limit frame 32411; an adsorption heating head 3242;

a second holding and placing device 4; a vertical conveying belt 41; a fourth conveyor belt 411; a fifth conveyor belt 412; a separator cutting assembly 42; a separator stopper 421; a spacer cutter 422; a cutter driving body 423; a second clamp placement assembly 43; a second clamp carrier 431; a second moving block 432; a second telescopic body 433; a second clamping body 434; a second clamping connection plate 4341; a holding fixing block 4342; a holding moving block 4343; a clamping drive body 4344;

a heating device 5; heating the gantry 51; a heating head 52; a heating telescopic driving body 53;

a transport mechanism 6; a first conveyor belt 61; a second conveyor belt 62; a package body 7; a box body 8; a partition 9.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following specific examples.

As shown in fig. 1 to 9, the present invention relates to an intelligent environment-friendly manufacturing assembly line for gift boxes, which comprises a packaging body placing device, a glue dispensing device for dispensing glue to a packaging body 7, a box body placing device for placing a box body 8 on the packaging body 7, a folding device 1 for folding the packaging body 7 to the periphery of the box body 8, at least two limiting bodies 2, a first clamping and placing device 3 for placing at least two limiting bodies 2 into an inner cavity of the box body 8 at equal intervals, a second clamping device for placing a partition board 9 between adjacent limiting bodies 2, and a heating device 5 extending into each limiting body 2 for heating; the limiting body 2 is made of hot melt material. Firstly, a packaging body placing device places a packaging body 7 on a plane, a glue dispensing device coats glue on the packaging body 7, a box body placing device places a box body 8 at a position, corresponding to the lower surface of the packaging body 7 and the lower surface of the box body 8, for preliminary bonding, and a folding device 1 folds the packaging body 7 around the box body 8, so that other parts of the packaging body 7 are attached to the periphery of the box body 8, and preliminary packaging of the whole box body 8 is completed; first clamping device puts into 8 inner cavities of box body with two at least spacing bodies 2, second clamping device puts into between two adjacent spacing bodies 2 baffle 9, two adjacent spacing bodies 2 carry out preliminary location to baffle 9, prevent that baffle 9 from falling in 8 inner cavities of box body when putting into, stretch into spacing body 2 through heating device 5 at last and heat and melt spacing body 2, spacing body 2 links together baffle 9 and box body 8 when melting, form a complete gift box.

Preferably, a transport mechanism 6 is also included; the transport mechanism 6 comprises a first conveyor belt 61 and a second conveyor belt 62; the output end of the first conveying belt 61 is connected with the input end of the folding device 1, and the input end of the second conveying belt 62 is connected with the output end of the folding device 1. The whole gift box processing line is more automated by the first conveyor belt 61 and the second conveyor belt 62.

Preferably, the material of the limiting body 2 is hot-melt resin, so that the method is more reasonable and has low cost.

Preferably, the limiting body 2 is cylindrical; the upper surface of the limiting body 2 is provided with a groove, the wall thickness of the limiting body 2 is 2mm, and the manufacturing cost of the limiting body 2 is saved under the condition that the limiting function is not lost.

Preferably, the first clamping and placing device 3 comprises a third conveying belt 31 for conveying a plurality of limiting bodies 2 and a first clamping and placing assembly 32 for clamping the limiting bodies 2 on the third conveying belt 31 to the box body 8, and is more reasonable.

Preferably, the first clamping and placing assembly 32 comprises a first clamping carrier 321, a first moving block 322 slidably connected to the lower surface of the first clamping carrier 321, a first telescopic body 323 connected to the lower surface of the first moving block 322, and a first clamping body 324 connected to the output end of the first telescopic body 323; the first clamping carrier 321 covers the output end of the third conveyor belt 31, the first clamping carrier 321 spans the second conveyor belt 62, the movement between the third conveyor belt 31 and the second conveyor belt 62 is realized through the movement of the first moving block 322, and the clamping and placing of the limiting body 2 are realized through the cooperation of the first telescopic body 323 and the first clamping body 324.

Preferably, a first guide rail is formed on the lower surface of the first clamping bearing frame 321, and a first sliding groove matched with the first guide rail is formed on the lower surface of the first moving block 322, so that the movement is more stable and smooth.

Preferably, the first telescopic body 323 comprises a first telescopic fixing seat fixed on the lower surface of the first moving block 322 and a first telescopic sliding seat moving up and down on the side surface of the first telescopic fixing seat, which is more reasonable.

Preferably, the first clamping body 324 comprises a first clamping connection plate 3241 fixedly connected with the output end of the first telescopic body 323 and an adsorption heating head 523242 extending into the limiting body 2 for adsorption; the adsorption heating heads 523242 are connected on the downward surface of the clamping connection plate, the number of the adsorption heating heads 523242 is the same as the number of the limiting bodies 2, the lower surface of the adsorption heating head 523242 is provided with an adsorption port, the adsorption heating head 523242 is internally provided with a vent groove communicated with the adsorption port, the adsorption is realized by connecting the air pipe with the vent groove, the bottom surface of the adsorption heating head 523242 is made of metal rings with strong heat conductivity and is heated by an electric heating mode, by arranging the adsorption heating head 523242, after the adsorption heating head 523242 adsorbs the spacing body 2 and puts into the inner cavity of the box body 8, the adsorption heating head 523242 stops adsorbing and heats the bottom of the spacing body 2, the heating temperature is lower than the melting temperature of the spacing body 2, and the bottom of the spacing body 2 and the bottom of the box body 8 are preliminarily bonded by heating for two seconds to prevent the partition board 9 from being placed normally due to the displacement of the spacing body 2 in the subsequent transportation.

Preferably, the first clamping connecting plate 3241 is further formed with a clamping limiting frame 32411; the inner diameter of the clamping limiting frame 32411 is the same as the outer diameter of the limiting body 2; the number of the clamping limiting frames 32411 is the same as that of the limiting bodies 2. The outer diameter frame column of the limiting body 2 is prevented from being displaced in the transportation process by clamping the limiting frame 32411.

Preferably, the second clamping and placing device 4 comprises a vertical conveying belt 41 for conveying the partition board 9, a partition board cutting assembly 42 positioned on the vertical conveying belt 41, and a second clamping and placing assembly 43 for clamping the partition board 9 to the adjacent limiting body 2; the number of the vertical conveying belts 41, the partition plate cutting assemblies 42 and the second clamping placing assemblies 43 is the same as that of the partition plates 9, a roll of partition plate 9 is placed at the input end of each vertical conveying belt 41, and the narrow face of each partition plate 9 faces upwards, so that the partition plate 9 is vertically coiled through the vertical conveying belts 41 to be conveyed, and subsequent cutting and clamping are facilitated.

Preferably, the vertical conveyor belt 41 comprises a fourth conveyor belt 411 and a fifth conveyor belt 412; the fourth conveying belt 411 and the fifth conveying belt 412 are arranged in a vertical opposite direction, a gap between the fourth conveying belt 411 and the fifth conveying belt 412 is the thickness of the partition board 9, the partition board 9 is rolled up to be primarily flattened in the conveying process, and the partition board 9 is prevented from falling off the fourth conveying belt 411 and the fifth conveying belt 412.

Preferably, the partition cutting assembly 42 includes a partition stopper 421, a partition cutter 422 and a cutter driving body 423; the spacing body 421 of baffle is formed with the through hole that supplies baffle 9 to pass, the spacing body 421 side of baffle is formed with the confession the cutting that baffle cutting knife 422 stretched into steps down the groove for cutting process is more smooth and easy, is provided with infrared detector in the spacing body 421 of baffle, controls the length that the cutting was rolled up to baffle 9 through infrared detector.

Preferably, the second clamping and placing assembly 43 comprises a second clamping carrier 431, a second moving block 432 slidably connected to the lower surface of the second clamping carrier 431, a second telescopic body 433 connected to the lower surface of the second moving block 432, and a second clamping body 434 connected to the output end of the second telescopic body 433; the second clamping carrier 431 covers the output ends of the third conveyor belt 31 and the fourth conveyor belt 411, and the second clamping carrier 431 spans across the second conveyor belt 62, which is more reasonable. .

Preferably, a second guide rail is formed on the lower surface of the second clamping carrier 431, and a second sliding groove matched with the second guide rail is formed on the lower surface of the second moving block 432, so that the movement is more stable and smooth.

Preferably, the second telescopic body 433 comprises a second telescopic fixed seat fixed on the lower surface of the second moving block 432 and a second telescopic sliding seat moving up and down on the side surface of the second telescopic fixed seat, which is more reasonable.

Preferably, the number of the second clamping bodies 434 is the same as that of the partition plates 9, and the second clamping bodies 434 include a second clamping connection plate 4341 connected to the output end of the second telescopic body 433, a clamping fixed block 4342, a clamping moving block 4343, and a clamping driving body 4344 driving the clamping moving block 4343 to move; the clamping fixed block 4342 is connected to a lower surface of the second clamping connection plate 4341; the clamping driving body 4344 is connected to a lower surface of the second clamping connection plate 4341 and an output end thereof faces the clamping fixing block 4342; the clamping moving block 4343 is connected to an output end of the clamping driving body 4344, and the clamping moving block 4343 is driven to move by the clamping driving body 4344, so that the clamping moving block 4343 is close to or far from the clamping fixed block 4342 to realize clamping and placing.

Preferably, the folding device 1 comprises a folding bearing platform 11, a box body placing telescopic seat 12, a box body pressing component 13, four pressing rollers 14 and a box body transferring component 15 for transporting the box body 8; the box body placing telescopic seat 12 is connected to the folding bearing platform 11, and the box body pressing component 13 is positioned above the folding bearing platform 11; the four pressing rollers 14 are respectively positioned on the periphery of the box body placing telescopic seat 12; the shape enclosed by the four pressing rollers 14 is consistent with the projection shape of the horizontal plane of the box body 8; the box body is placed flexible seat 12 horizontal plane projection shape with the projection shape at 8 horizontal planes of box body is unanimous, through box body transfer unit 15 with box body 8 on the first conveyer belt 61 take packing body 7 place the box body place flexible seat 12 on the back, box body pressing component 13 impresses the inner chamber of box body 8 and continues pressfitting down, 8 packing body 7 all around of box body support and push up the upset of pressfitting roller 14 upwards, realize the folding bonding of packing body 7 around box body 8 through glue bonding, on transferring to second conveyer belt 62 through box body transfer unit 15.

Preferably, box body pressing component 13 is including stretching into the 8 pressfitting heads of box body of 8 inner chambers of box body and drive the pressfitting head driving body of 8 pressfitting heads of box body, and is more reasonable, and the pressfitting driving body is the cylinder.

Preferably, the cassette transfer assembly 15 includes a transfer guide 151 disposed along the conveying direction of the first conveying belt 61, a transfer moving body 152 slidably connected to the transfer guide 151, a transfer fixing seat 153 connected to a surface of the transfer moving body 152 facing the first conveying belt 61, a transfer sliding body 154 slidably connected to the transfer fixing seat 153 up and down, and a transfer clamping assembly slidably connected to a lower surface of the transfer sliding body 154, which is more reasonable.

Preferably, the transfer clamping assembly comprises a transfer left clamping portion 155, a transfer right clamping portion 156 and a transfer clamping portion driving body for driving the transfer left clamping portion 155 and the transfer right clamping portion 156 to approach or separate from each other, the transfer clamping driving body 4344 is a cylinder for respectively connecting the left clamping portion and the right clamping portion, the cylinder is used for driving the left clamping portion and the right clamping portion to move away from or approach each other, and the structure is simple and easy to replace.

Preferably, the heating device 5 comprises a heating gantry 51 which spans the second conveyor belt 62 and is located at the rear end of the second conveyor belt 62, and a heating assembly located on the side of the heating gantry 51 facing the second conveyor belt 62.

Preferably, the heating assembly comprises a heating head 52, a heating telescopic driving body 53 for driving the heating head 52 to extend into the limiting body 2; the heating heads 52 are connected to the output end of the heating telescopic driving body 53, the number of the heating heads 52 is the same as that of the limiting body 2, the arrangement of the heating heads 52 corresponds to that of the limiting body 2, and the heating heads can conveniently extend into the limiting body 2 to melt.

(1) the package placement device places the packages 7 on the first conveyor belt 61;

(2) the glue dispensing device is used for coating glue on the packaging body 7;

(3) the box body placing device places a box body 8 in the middle of the packaging body 7;

(4) the box body transfer component 15 clamps the box body 8 and the packaging body 7 and places the box body on the box body placing telescopic seat 12;

(5) the box body pressing component 13 presses the inner cavity of the box body 8 downwards for pressing, and the pressing roller 14 turns upwards the packaging boxes positioned around the box body 8 and is attached to the side wall of the box body 8;

(6) the box body transfer component 15 clamps the box body 8 and the packaging body 7 on the second conveying belt 62, and the first clamping and placing device 3 places at least two limiting bodies 2 into the inner cavity of the box body 8;

(7) the first clamping and placing device 3 places a partition plate 9 between the two limiting bodies 2 of the box body 8;

(8) the heating device 5 heats the limiting body 2, and the limiting body 2 is melted to bond the partition board 9 with the inner cavity of the box body 8. Its automatic level is high, carries on spacingly through spacing body 2 baffle 9 in to the gift box earlier, carries out the hot melt bonding after, shortens the preparation time of whole gift box for produce more high-efficient.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications thereof by those skilled in the art should be considered as not departing from the scope of the present invention.

Claims

1. An intelligent environment-friendly manufacturing assembly line for gift boxes comprises a packaging body placing device, a glue dispensing device for dispensing glue to the packaging body, a box body placing device for placing a box body on the packaging body, and is characterized by further comprising a folding device for folding the packaging body to the periphery of the box body, at least two limiting bodies, a first clamping and placing device for placing at least two limiting bodies into the inner cavity of the box body at equal intervals, a second clamping device for placing a partition plate between the adjacent limiting bodies, and a heating device extending into each limiting body for heating; the limiting body is made of hot melt materials.

2. The intelligent and environment-friendly gift box manufacturing line of claim 1, further comprising a transportation mechanism; the conveying mechanism comprises a first conveying belt and a second conveying belt; the output end of the first conveying belt is connected with the input end of the folding device, and the input end of the second conveying belt is connected with the output end of the folding device.

3. A gift box intelligent environmental protection manufacturing assembly line of claim 1, wherein the material of said spacing body is hot melt resin.

4. A gift box intelligent environment-friendly manufacturing assembly line of claim 2, wherein the limiting body is cylindrical; a groove is formed in the upper surface of the limiting body.

5. The intelligent environment-friendly gift box manufacturing line of claim 2, wherein the first clamping and placing device comprises a third conveyor belt for transporting a plurality of limiting bodies and a first clamping and placing assembly for clamping the limiting bodies on the third conveyor belt into the gift box.

6. The intelligent and environment-friendly gift box manufacturing line of claim 5, wherein the first clamping placement assembly comprises a first clamping bearing frame, a first moving block slidably connected to a lower surface of the first clamping bearing frame, a first telescopic body connected to a lower surface of the first moving block, and a first clamping body connected to an output end of the first telescopic body; the first clamping carrier covers the third conveyor belt output, the first clamping carrier straddles the second conveyor belt.

7. A gift box intelligent environment-friendly manufacturing assembly line as claimed in claim 6, wherein a first guide rail is formed on a lower surface of the first clamping bearing frame, and a first sliding groove matched with the first guide rail is formed on a lower surface of the first moving block.

8. A gift box intelligent environment-friendly manufacturing assembly line as claimed in claim 6, wherein the first telescopic body comprises a first telescopic fixing seat fixed on a lower surface of the first moving block and a first telescopic sliding seat moving up and down on a side surface of the first telescopic fixing seat.

9. A gift box intelligent environment-friendly manufacturing assembly line as claimed in claim 6, wherein the first clamping body comprises a first clamping connecting plate fixedly connected with the output end of the first telescopic body and an adsorption heating head extending into the limiting body for adsorption; the adsorption heating heads are connected to the surface, facing downwards, of the clamping connecting plate, and the quantity of the adsorption heating heads is consistent with that of the limiting bodies.

10. A gift box intelligent environment-friendly manufacturing assembly line of claim 9, wherein the first clamping connection plate is further formed with a clamping limit frame; the inner diameter of the clamping limiting frame is the same as the outer diameter of the limiting body; the number of the clamping limiting frames is consistent with that of the limiting bodies.