CN103010547B - Packing box and manufacture method thereof - Google Patents

Abstract

A kind of packing box, comprise box body, box body has some sidewalls, these sidewalls enclose the space forming accommodating object, this packing box also comprises the ridge be connected on the sidewall of box body, sidewall forms through hole, and this ridge comprises the Part I being positioned at this sidewall side, the Part II being positioned at this sidewall opposite side and the connecting bridge through this through hole, and this connecting bridge connects this Part I and Part II.The present invention also provides a kind of manufacture method of above-mentioned packing box.The present invention, by forming ridge on the sidewall of packing box, can make three-dimensional moulding, to promote visual effect according to particular demands to packing box.Adopt this kind of production method formed package box not need manufacturing line, the cost of the cost of the thousands of product of production and production single product can be made cheap equally, thus effectively cut the waste, reduce the demand to material.

Description

Packing box and manufacture method thereof

Technical field

The present invention relates to the manufacture method of a kind of packing box and this packing box.

Background technology

At present, packing box as gift box or paper-extracting box, shape and material more single.People, in order to increase the aesthetic property of packing box, can design different patterns in box face, or process box surface, make box body present stereoeffect.If application number is 200910108567.X, denomination of invention is the Chinese patent data of " a kind of surface treatment and finishing process of packaging box ", open one, by containing material molds pressurization, heating also heat-insulation pressure keeping, material forms abundant multi-level pattern and the processing technology of texture.For another example application number is 200480003821.5, denomination of invention is the Chinese patent data of " decorative film, carton and preparation method thereof ", disclose and a kind of the mould with Fresnel lens to be placed into form the method for 3-D view near pattern, thus be made into ornamental strong carton.But these processing technologys are not complicated, are exactly that the cycle is long or qualification rate is low, make manufacturing cost larger.Moreover, the shape of these boxes that technique that product is processed significantly is not changed package, packing box entirety remains and is rendered as cuboid or square, and those seem the surface with 3-D view or stereoscopic visual effect, remain on the whole in plane.

Summary of the invention

The present invention aims to provide a kind of manufacture method of packing box, to address the aforementioned drawbacks.

A manufacture method for above-mentioned packing box, the step of this manufacture method comprises:

Form box body, a sidewall of this box body forms through hole;

Utilize computer aided design to go out the three-dimensional stereo model of required ridge, and carry out slicing delamination to this space model, obtain the shaping information of every layer, this ridge comprises Part I, Part II and connects the connecting bridge of first, second part; Wherein, the size of this connecting bridge is less than the size of through hole, and the size of this Part I and this connecting bridge junction is greater than the size of through hole, and the size of this Part II and this connecting bridge junction is greater than the size of through hole;

The basis material of the formation ridge meeting demand is provided; And

Shaping information is inputted rapidform machine, utilizes rapidform machine layering shaping, and first form the connecting bridge of ridge in through hole, then form Part I and Part II respectively in the both sides of connecting bridge.

Compared to the prior art, the present invention, by forming ridge on the sidewall of packing box, can make three-dimensional moulding, to promote visual effect according to particular demands to packing box.What is more important, manufacturer can to design a package box according to the demand of client, and also can design packing box on computers, shaping multiple sample is put on market.By the feedback of early stage customer, the product after can improving at any time, thus reduce the risk and cost attempting new product.Adopt this kind of production method formed package box not need manufacturing line, the cost of the cost of the thousands of product of production and production single product can be made cheap equally, thus effectively cut the waste, reduce the demand to material.

With reference to the accompanying drawings, the invention will be further described in conjunction with specific embodiments.

Accompanying drawing explanation

Fig. 1 is the perspective view of the packing box of one embodiment of the invention.

Fig. 2 is the view when the packing box shown in working chart 1.

Fig. 3 is the part-structure schematic diagram of the packing box shown in Fig. 2.

Main element nomenclature

Box body 10

Sidewall 11

Through hole 110

Paper taking port 12

Ridge 30

Part I 31

Part II 32

Connecting bridge 33

Carrying platform 40

Space 41

Following detailed description of the invention will further illustrate the present invention in conjunction with above-mentioned accompanying drawing.

Detailed description of the invention

As shown in Figure 1, packing box provided by the invention comprises box body 10 and is arranged on the ridge 30 on box body 10 1 side.

This box body 10 comprises some sidewalls 11, and these sidewalls 11 enclose the space formed for accommodating object jointly.In the present embodiment, this box body 10, as the carton of accommodating paper handkerchief, therefore also offers paper taking port 12 on one of them sidewall 11 of box body 10.Being appreciated that packing box provided by the invention is not limited to splendid attire paper handkerchief, also can be for other objects of splendid attire, such as can as gift box etc.This box body 10 can be made by common material, such as, can be the scraps of paper, cardboard, plastics etc.

This ridge 30 is arranged on one of them sidewall 11.Please also refer to Fig. 3, this corresponding sidewall 11 forms through hole 110.This ridge 30 has the Part I 31 being positioned at this sidewall 11 side, the Part II 32 being positioned at this sidewall 11 opposite side and the connecting bridge 33 through this through hole 110, and this connecting bridge 33 connects Part I 31 and Part II 32.The size of this connecting bridge 33 is less than the size of through hole 110, and thus connecting bridge 33 can pass through through hole 110.This Part I 31 and the size of connecting bridge 33 junction are greater than the size of through hole 110, Part II 32 is greater than the size of through hole 110 with the size of connecting bridge 33 junction, and thus Part I 31 and Part II 32 can be fixed on through hole 110 place of sidewall 11 by this connecting bridge 33.

This ridge 30 can as ornament, to increase the interest of packing box and ornamental.The shape of ridge 30 can be various.Such as, toy, cartoon figure etc.This ridge 30 can also around through hole 110 rotary motion, to change posture.While as ornament, do not discharge this ridge 30 and there is certain function affect yet, such as this ridge 30 can also be designed to the structure with ring-type, thus the handle of this packing box can be served as, for extracting this packing box for user, therefore the quantity of the quantity of this through hole 110 and connecting bridge 33, Part I 31 and the Part II 32 contained by ridge 30 can make different designs as required.

The material of this ridge 30 can be identical with the material of box body 10, also can be different.This ridge 30 is formed on this box body 10 by rapid shaping technique.

Adopt rapid shaping technique to form object and generally comprise following steps.

First, utilize computer aided design to go out the three-dimensional stereo model of required object, and slicing delamination is carried out to this space model, obtain the shaping information of every layer.

Wherein set up space model, by specific software, can be formed after the design parameter of required object input computing machine.Or can reverse-engineering be adopted, measure the dimensional parameters of existing object and input computing machine to set up space model.The modeling software that specific software can adopt Pro-E, Solidworks etc. to be familiar with in the industry.

For current rapid forming equipment, run specific document format to process mostly, therefore space model being inputted before rapidform machine processes, needing to carry out slicing delamination to this space model, obtaining the shaping information of every layer needed for running.The shaping information of every layer comprises the geometric data of the pattern for embodying stratiform, the profile, boundary position parameter etc. of such as this layer.Usual layering is thinner, more, more accurate during generation product, but time-consuming more.And layering is thicker, fewer, then stepped more obvious, the product of generation is more coarse.

Meanwhile, the basis material of the formation object meeting demand is provided.The kind of basis material and state are determined according to concrete quick molding method type, also need to decide in conjunction with embody rule situation.With regard to kind, even if the quick molding method of certain type itself does not get rid of the application of this kind of material, but also may be limited to embody rule environment and can not use.Such as, when the box body 10 in the present invention adopts paper material, if so formation ridge 30 adopts the fusion sediment method in quick molding method, although fusion sediment method itself does not get rid of the use of metallic material, but because for now applicable its fusing point of most metals material all than the height of paper material, so obviously, adopt during dystectic this ridge 30 of metal material moulding and can destroy box body 10 itself, metallic material higher than the material melting point making box body 10 itself thus just should not as the material of shaping ridge 30.With regard to state, basis material can be in molten condition or solid powder.

Then, shaping information is inputted rapidform machine, utilize rapidform machine layering this object shaping.

Following first for laminated solid mass manufacturing process this ridge 30 shaping, set forth the production process of packing box of the present invention.

The manufacturing process of packing box of the present invention first forms box body 10, then on box body 10, forms ridge 30.Therefore first need to provide a box body 10, this box body 10 has some sidewalls 11, the through hole 110 that quantity of formation is suitable at least one sidewall 11.How many sidewalls 11 are formed how many through holes 110 and depends on the quantity of the ridge 30 that will be formed and the quantity with sidewall 11 binding site.

Molding mode and the material of this box body 10 are not restricted.Can be formed by quick molding method equally, also can be formed by additive method.But the selecting of the material of box body 10 should consider the material forming rapid shaping mode that ridge 30 adopts and can adopt, and both can be formed to arrange in pairs or groups and also can complete the combination of the shaping of ridge 30 and ridge 30 and box body 10 smoothly.

Laminated solid mass manufacturing equipment generally comprises laser and forming room, and forming room comprises can the carrying platform of vertical lift and milling roller up and down.As shown in Figure 2, the carrying platform 40 in forming room is provided with a space 41, and this carrying platform 40 also comprises the sub-carrying platform (not shown) that is positioned at position, space 41.

Utilize the shaping space model that first will obtain the ridge 30 formed on packing box of the present invention of laminated solid mass manufacturing equipment, and the space model of this ridge 30 is resolved into the very thin cross section of some layers, and obtain shaping required two-dimensional signal, be also the shaping information of every layer.Remake certain sequential organization to the shaping information of every layer, also namely preset in the next step, laminated solid mass manufacturing equipment specifically operates from the shaping information of which layer.Such as the present invention, after obtaining every formable layer information of the Part I 31 of this ridge 30, Part II 32 and connecting bridge 33, make first shaping connecting bridge 33, then the order arrangement of shaping Part I 31 and Part II 32.

Then, provide the thin layer formed by basis material, and the single surface of layer material is coated with the very thin heat-sensitive material of one deck, is generally hot melt adhesive.During the shaping information of the thickness of thin layer with every layer of acquisition, corresponding layer thickness is consistent.Laser cuts layer material according to the shaping information of this layer again, and non-part part is diced, to remove clout.Then according to the sequencing of shaping information, new one deck layer material is superimposed on last layer layer material again, is also heated itself and last layer layer material are bonded by milling roller.The shaping information of laser this layer again corresponding to new one deck layer material, one deck layer material new to this cuts, and so repeats to pile up, cutting, until the ridge 30 of solid needed for generating is on the sidewall 11 of box body 10.

When this ridge 30 shaping, please also refer to Fig. 3, utilize this sub-carrying platform, first at the connecting bridge 33 of the shaping ridge 30 in through hole 110 place of sidewall 11.Also the shaping information of 33 is namely divided according to corresponding connection parts, first shaping connecting bridge 33.After treating the Part I 31 of stacked shaping at least one layer, this sub-carrying platform can remove, then utilize the sidewall 11 of box body 10 itself as carrier, simultaneously at the shaping ridge 30 of both direction, namely stacked shaping Part I 31 is continued by connecting bridge 33 towards the direction of Part I 31, and by the direction stacked shaping Part II 32 of connecting bridge 33 towards Part II 32.Fig. 2 and Fig. 3 only illustrates completed state, and certain shaping ridge 30 can also be other states.Such as the box body 10 in Fig. 2 is inverted, sub-carrying platform is made to stretch into box body 10 inner space, then stacked formation connecting bridge 33 on sub-carrying platform, until after the Part II 32 of stacked shaping at least one layer, this sub-carrying platform can remove, then utilize the sidewall 11 of box body 10 itself as carrier, simultaneously at the shaping ridge 30 of both direction, namely by the direction stacked shaping Part I 31 of connecting bridge 33 towards Part I 31, and stacked shaping Part II 32 is continued by connecting bridge 33 towards the direction of Part II 32.Be appreciated that if shaping according to this order, also should do corresponding order arrangement when the two-dimensional signal needed for shaping every layer of above-mentioned acquisition.

Be understandably, originally by the movement of carrying platform 40, can change over and be moved by corresponding milling roller, also namely the box body 10 shown in Fig. 2, carrying platform 40 all do not move, but according to the stacked quantity of the ridge 30 formed, milling roller is done corresponding mobile.

Shaping ridge 30 be positioned at the Part I 31 of box body 10 time, the sidewall 11 of box body 10 opposite side can be opened wide, facilitate laser, (or sub-carrying platform, if the need arises) etc. mechanism enters box body 10 inner space to milling roller.

Below again for this ridge 30 shaping of the three-dimensional printing technology in rapid shaping technique, exemplary explanation is done to the manufacturing process of packing box provided by the invention.

Three-dimensional printing technology is also the principle adopting the common layering processing of rapid shaping technique, superposition shaping, prints required three-dimensional objects.3 D-printing equipment at least comprises pressed powder delivery system, powder, powder spreading system, liquid memory, liquid conveying system and forming room, and forming room comprises can the printing carrying platform of vertical lift up and down.Powder spreading system, liquid conveying system all have multiple moveable shower nozzle to be emitted into shaped material at diverse location for shaping.Equally, as shown in Figure 2, carrying platform 40 still arranges space 41, and sub-carrying platform (not shown) is set at space 41 place.

Equally, manufacture this packing box and remain first formation box body 10, and then form ridge 30 on box body 10.The manufacturing process of box body 10 this do not describe in detail, three-dimensional printing technology both can have been adopted to be formed, other traditional molding modes also can be adopted to be formed.Three-dimensional printing technology how is adopted to form ridge 30 on box body 10 detailed description below.

First, obtain the space model of the ridge 30 that packing box of the present invention is formed, and the space model of this ridge 30 is resolved into the very thin cross section of some layers, to generate the two-dimensional signal of shower nozzle movement.Need the arrangement two-dimensional signal of shower nozzle movement corresponding to each thin layer cross section being carried out to sequencing, 3 D-printing equipment is namely according to each layer of this first aftershaping of order afterwards, finally to form ridge 30 simultaneously.For the present invention, the shaping two-dimensional signal arrangement of the connecting bridge 33 of corresponding ridge 30 formerly, and after the shaping two-dimensional signal of the Part I 31 of corresponding ridge 30 and Part II 32 is arranged in.

In addition, in powder, deposit the powdered matrix material formed needed for ridge 30, as ABS resin powder, in liquid memory, deposited liquid-containing binder, as silica gel.

As shown in Figure 2, box body 10 is placed on carrying platform 40, and through hole 110 is exposed to space 41 place, sub-carrying platform is carried on through hole 110 place simultaneously.Then according to the cross section two-dimensional signal of space model, that is the shaping information of every layer, the shower nozzle of powder spreading system moves in the horizontal plane at through hole 110 place, and on sub-carrying platform, form the powder bed of a thickness uniformly, the shower nozzle of liquid conveying system also moves in horizontal plane, selectable ejection adhesive agent, for the dusty material at the selected position that bonds.After one deck bonding, carrying platform and sub-carrying platform decline the distance of a thickness simultaneously, in type aspect lays one deck powder bed again, so repeatedly carries out, until form the Part I 31 of connecting bridge 33 and at least one deck.

Now, sub-carrying platform can remove, then utilize the sidewall 11 of box body 10 itself as carrier, simultaneously at the shaping ridge 30 of both direction, namely by the direction stacked shaping Part I 31 of connecting bridge 33 towards Part I 31, and by the stacked shaping Part II 32 in direction of connecting bridge 33 towards Part II 32.Similar, also sub-carrying platform first can be placed in box body 10 inner, until the Part II 32 of formation connecting bridge 33 and at least one deck, then remove sub-carrying platform, and utilize the sidewall 11 of box body 10 itself as carrier, continue the shaping of Part II 32 and Part I 31.

Be understandably, when forming the Part I 31 of connecting bridge 33 and at least one deck, originally by the movement of carrying platform 40 and sub-carrying platform, also can change over and be moved by corresponding shower nozzle, also namely the box body 10 shown in Fig. 2, carrying platform 40 all do not move, but according to the stacked quantity of the ridge 30 formed, shower nozzle is done corresponding mobile, forms each lamination of ridge 30 in different horizontal surfaces.

Below again for the fusion sediment method in rapid shaping technique, exemplary explanation is done to the manufacturing process of packing box provided by the invention.

Fusion sediment method is also mold required product by the principle that layering processing, superposition are shaping.Corresponding former at least comprises material delivery system, solid material storeroom, solid material melting place, shower nozzle and can the carrying platform of vertical lift.Equally, as shown in Figure 2, carrying platform 40 still arranges space 41, and sub-carrying platform (not shown) is set at space 41 place.This shower nozzle can do two dimensional motion in the horizontal direction.

Equally, manufacture this packing box and remain first formation box body 10, and then form ridge 30 on box body 10.

First, the space model of ridge 30 is resolved into the very thin cross section of some layers, and generate the two-dimensional signal of shower nozzle movement.In addition, the two-dimensional signal of shower nozzle movement corresponding to each thin layer cross section is carried out to the arrangement of sequencing, former is namely according to each layer of this first aftershaping of order afterwards, finally to form ridge 30.For the present invention, the shaping two-dimensional signal arrangement of the connecting bridge 33 of corresponding ridge 30 formerly, and after the shaping two-dimensional signal of the Part I 31 of corresponding ridge 30 and Part II 32 is arranged in.

The basis material for shaping ridge 30 is deposited in solid material storeroom simultaneously, and the fusing point of basis material lower than the fusing point of box body 10, just should can not destroy in type box body 10 thus when shaping ridge 30.When basis material enters solid material melting place, it is molten condition that high temperature makes basis material in a disguised form, and the temperature of general solid material melting place controls the temperature at higher than the fusing point of solid material one degree Celsius.After two-dimensional signal being inputed to this former, former controls the horizontal in-plane moving of corresponding shower nozzle at through hole 110 place, the basis material of melting is coated on sub-carrying platform, form a layer cross section of the connecting bridge 33 of this ridge 30 after cooling, then carrying platform 40 and sub-carrying platform vertically move down the height of a layer simultaneously, carry out lower one deck coating, so repeatedly, until the Part I 31 of formation connecting bridge 33 and at least one deck.

Now, sub-carrying platform can remove, then utilize the sidewall 11 of box body 10 itself as carrier, simultaneously at the shaping ridge 30 of both direction, namely by the direction stacked shaping Part I 31 of connecting bridge 33 towards Part I 31, and by the stacked shaping Part II 32 in direction of connecting bridge 33 towards Part II 32.Similar, also sub-carrying platform first can be placed in box body 10 inner, until the Part II 32 of formation connecting bridge 33 and at least one deck, then remove sub-carrying platform, and utilize the sidewall 11 of box body 10 itself as carrier, continue the shaping of Part II 32 and Part I 31.

Be understandably, when forming the Part I 31 of connecting bridge 33 and at least one deck, originally by the movement of carrying platform 40 and sub-carrying platform, also can change over and be moved by corresponding shower nozzle, also namely the box body 10 shown in Fig. 2, carrying platform 40 all do not move, but according to the stacked quantity of the ridge 30 formed, shower nozzle is done corresponding mobile, forms each lamination of ridge 30 in different horizontal surfaces.

The method of not auspicious other rapid shapings illustrated to the greatest extent of the present invention can with reference to existing quick molding method and in conjunction with the above-mentioned exemplary explanation of the present invention to implement the manufacture method of the packing box that the invention provides.

Claims (2)

1. a manufacture method for packing box, the step of this manufacture method comprises:

Form box body, a sidewall of this box body forms through hole;

Utilize computer aided design to go out the three-dimensional stereo model of required ridge, and carry out slicing delamination to this space model, obtain the shaping information of every layer, this ridge comprises Part I, Part II and connects the connecting bridge of first, second part; Wherein, the size of this connecting bridge is less than the size of through hole, and the size of this Part I and this connecting bridge junction is greater than the size of through hole, and the size of this Part II and this connecting bridge junction is greater than the size of through hole;

The basis material of the formation ridge meeting demand is provided; And

Shaping information is inputted rapidform machine, utilizes rapidform machine layering shaping, and first form the connecting bridge of ridge in through hole, then form Part I and Part II respectively in the both sides of connecting bridge.

2. the manufacture method of packing box as claimed in claim 1, it is characterized in that: at least one deck of Part I is by after shaping, carry out other layers of Part I and the stacked shaping of Part II more simultaneously, or at least one deck of Part II is by after shaping, then carry out other layers stacked shaping of Part I and Part II simultaneously.