CN108284589A - 3D printing last forming method - Google Patents

Abstract

The invention discloses a 3D printing last forming method, which comprises the steps of downloading a needed last model and modifying a data format; step two, outputting the shoe tree data to a 3D printer and printing out the needed shoe tree; selecting a middle sole and a heat insulation film with corresponding sizes, sleeving the heat insulation film on a shoe tree, and nailing the middle sole at the bottom of the shoe tree; step four, sleeving the upper into a shoe tree, and fixing the upper on the shoe tree and the insole by using nails; step five, the upper is trimmed by a hammer, then the middle sole and the upper are bonded by glue, and the nails are pulled out; and sixthly, putting the combination of the shoe tree, the middle sole and the upper into a microwave oven for heating and shaping. According to the invention, the shoe can be made by the last printed by the 3D printer through microwave oven heating and shaping, the heating and shaping time is greatly reduced, the shoe last is not heated and is not expanded or melted because the shoe last is only heated by the microwave oven selective heating characteristic, and the shaped upper is more accurate.

Description

A kind of 3D printing shoe last forming method

Technical field

The present invention relates to a kind of method for making sample making shoe tree using 3D printing rapid shaping technique, more particularly, to one kind The method for making sample shaped by microwave.

Background technology

With the development of technology, more and more footwear designers begin to use computer software, designers that can pass through Computer software is designed the format of shoe last.Although computer data takes advantage of the version there are high efficiency, low cost, design Teacher when exporting shoe last still virtual shoe last file give shoe last factory and by the numerical control machine of shoe last factory carve come.Carve single It is relatively high to material cost and the artificial apparatus requirement of shoe last factory to design last carving.

As technology develops, come into vogue 3D printing rapid shaping technique both at home and abroad, and 3D printing rapid shaping technique is not only The cost of material is low, and equipment is also relatively cheap, it is not necessary to which many costs of labor, are the auxiliary tools of designer's favor.Designer Even can to print self-designed footwear parts by 3D printer include shoe last at home.

All it is heat-shaping to be carried out to the shoes of forming by the method for oven heat in present shoe-making process, that The shoe last exported under existing 3D printing rapid shaping technique is, together in oven heat, 3D printing material is got with shoe last surface Shoe last can because heating and melt, to which the effect of sizing be not achieved.To which 3D printing rapid shaping technique cannot be led into Shoe last produces the sample designed by designer.

Invention content

In view of the deficiencies of the prior art, the present invention intends to provide a kind of 3D printing shoe last forming method, keep away Exempt from shoe tree in sizing to melt.

To achieve the above object, the present invention provides following technical solutions：A kind of 3D printing shoe last forming method, including

Step 1 downloads the shoe last model of needs, changes the data of shoe last model with graphics software and by shoe last model Data conversion is at the format needed for 3D printer；

Shoe tree data are exported to 3D printer and print required shoe tree by step 2；

Step 3 chooses the midsole and thermal isolation film of corresponding size, and thermal isolation film is set on shoe tree and follows closely midsole in the shoes Last carving bottom；

Upper of a shoe is inserted in shoe tree by step 4, and upper of a shoe is fixed on shoe tree and midsole using nail；

Step 5 is repaiied along upper of a shoe with hammer, then bonds the help foot of middle sole and upper with glue and again pull out nail；

The association of shoe tree, middle sole and upper is put into micro-wave oven heat-shaping by step 6；

Step 7 selects sole, and stereotyped upper of a shoe is closed sole, sole edge line is drawn on upper of a shoe and to upper of a shoe Carry out polishing fluffing；

Fluffing part upper of a shoe is carried out brush coating processing, glue is activated using hair-dryer after waiting glue to air-dry by step 8；

Step 9, upper of a shoe, shoe tree association and the sole bonding pressure that inorganic agent and glue will be brushed and heat-activated is crossed It is real；

Shoe tree is detached from upper of a shoe and metal button member is mounted on upper of a shoe by step 10.

As a further improvement on the present invention, the 3D printer in step 1 includes pedestal, supporting rack, nozzle, forming surface Plate, the X driving mechanisms that driving nozzle moves along the x-axis, the Z driving mechanisms for driving nozzle to be moved along Z axis, driving molding panel are along Y The Y driving mechanisms driving of axis movement, is molded panel and Y driving mechanisms is set on the base, X driving mechanisms, the setting of Z driving mechanisms On supporting rack, nozzle includes chassis, forming shell, heating device and feed device, chassis and X driving mechanisms and Z driving mechanisms Connection, forming shell setting offer interconnected feeding passage and melt channel, feed device packet on chassis, on forming shell Feeding motor, driving gear, driven gear, drive roll, driven voller are included, drive roll and driven voller are arranged the two of feeding passage Side, feeding motor are fixed on forming shell, and driving gear is coaxially fixed in the shaft of feeding motor, driven gear setting at It being engaged on shell and with driving gear, drive roll is coaxially fixed with driven gear, and feeding motor rotation drives driving gear rotation, Driven gear rotation is driven, drive roll rotation is driven, to drive the wire rod being clipped between drive roll and driven voller to enter melt channel, Heating device is arranged on forming shell and is arranged close to melt channel, and one end of the direction molding panel of melt channel is provided with out Material mouth.

As a further improvement on the present invention, X driving mechanisms include X-motor, X lead screws and X guide rods, the rotation setting of X lead screws On supporting rack, X-motor is fixed on supporting rack and is connect with X screw rod transmissions, and driving X lead screws rotation, Z driving mechanisms include base Frame, Z motors, Z lead screws and Z guide rods offer X threaded holes, X guide holes on pedestal, and X guide rods are threaded through in X guide holes, X threaded holes and X Wire rod thread connects, and with when X lead screws rotates, pedestal is driven to offer Z threaded holes and Z guide holes in X-axis sliding, chassis, Z Bar is rotatably arranged on pedestal, and Z motors are fixed on pedestal and are connect with Z screw rod transmissions, and driving Z lead screws rotation, Z guide rods are worn In Z guide holes, Z threaded holes are connect with Z wire rod threads, when Z lead screws rotate, chassis to be driven to be slid along Z axis.

As a further improvement on the present invention, Y driving mechanisms include Y-motor, Y guide rods and Y lead screws, the rotation setting of Y lead screws On pedestal, Y-motor is fixed on the base and is connect with Y screw rod transmissions, driving Y lead screws rotation, and offering Y on molding panel leads Hole and Y threaded holes, Y guide rods are threaded through in Y guide holes, and Y lead screws are threadedly coupled with Y threaded holes, are molded with being driven when Y lead screws rotate Panel is moved along Y-axis.

As a further improvement on the present invention, supporting rack is arranged on one side of pedestal, and supporting rack direction is molded the one of panel The charge wheel for placing wire rod is provided on face.

As a further improvement on the present invention, the side of forming shell is provided with fan, is provided between forming shell and chassis Air duct, fan are arranged towards air duct, and feeding motor is fixed on the side in air duct and part and is arranged in air duct.

As a further improvement on the present invention, the thermal isolation film in step 3, which uses, has the plastic material of heat insulation to be made.

As a further improvement on the present invention, the midsole in step 3 is the midsole made using gluing technique.

Beneficial effects of the present invention：Sample preparation is carried out using above method, simple and quick, designer passes through 3D printer Printing shoe tree can allow designer's stand-alone development to change shoe tree, and the modification and making of shoe tree need not be completed in shoe last factory, to Efficiency is improved, cost is reduced；The shoe last printed by 3D printer can be allow to make by micro-wave oven heat-shaping Shoes are possibly realized and greatly reduce the heat-shaping time, and micro-wave oven selectivity heat characteristic only heats upper of a shoe without heating Shoe tree will not cause shoe tree to expand or melt, to keep the upper after sizing more accurate.According to above method, equipment is cheaply small Ingeniously and designer can be allowed to be detached from factory to which designing and producing for works can be completed at home.Finally obtained sample and design Teacher designs wish matching degree height, and easy to operate, and the time used is few, reduces time cost and labour cost；Reduce design The development cost expense of teacher.

Description of the drawings

Fig. 1 is the overall structure figure of 3D printer；

Fig. 2 is the structure chart of nozzle；

Fig. 3 is the structure chart at another visual angle of nozzle.

Specific implementation mode

The present invention is described in further detail below in conjunction with the embodiment given by attached drawing.

Shown in Fig. 3, a kind of 3D printing shoe last forming method of the present embodiment, including

Step 1 downloads the shoe last model of needs, changes the data of shoe last model with graphics software and by shoe last model Data conversion is at the format needed for 3D printer；

Shoe tree data are exported to 3D printer and print required shoe tree by step 2；

Step 3 chooses the midsole and thermal isolation film of corresponding size, and thermal isolation film is set on shoe tree and follows closely midsole in the shoes Last carving bottom；

Upper of a shoe is inserted in shoe tree by step 4, and upper of a shoe is fixed on shoe tree and midsole using nail；

Step 5 is repaiied along upper of a shoe with hammer, then bonds the help foot of middle sole and upper with glue and again pull out nail；

The association of shoe tree, middle sole and upper is put into micro-wave oven heat-shaping by step 6；

Step 7 selects sole, and stereotyped upper of a shoe is closed sole, sole edge line is drawn on upper of a shoe and to upper of a shoe Carry out polishing fluffing；

Fluffing part upper of a shoe is carried out brush coating processing, glue is activated using hair-dryer after waiting glue to air-dry by step 8；

Step 9, upper of a shoe, shoe tree association and the sole bonding pressure that inorganic agent and glue will be brushed and heat-activated is crossed It is real；

Shoe tree is detached from upper of a shoe and metal button member is mounted on upper of a shoe by step 10.

Sample preparation is carried out using above method, simple and quick, designer can allow by 3D printer printing shoe tree and set It counts teacher's stand-alone development and changes shoe tree, the modification and making of shoe tree need not be completed in shoe last factory to be reduced to improve efficiency Cost；It can make it possible that the shoe last printed by 3D printer makes shoes and greatly by micro-wave oven heat-shaping Big to reduce the heat-shaping time, micro-wave oven selectivity heat characteristic only heats upper will not cause shoe tree swollen without heating shoe tree Swollen or thawing, to keep the upper after sizing more accurate.According to above method, equipment is cheap small and exquisite and designer can be allowed de- From factory to which designing and producing for works can be completed at home.Finally obtained sample and designer design wish matching degree Height, and it is easy to operate, the time used is few, reduces time cost and labour cost；Reduce the development cost expense of designer.

As a kind of improved specific implementation mode, the 3D printer in step 1 include pedestal 1, supporting rack 2, nozzle 3, Molding panel 4, driving nozzle 3 move along the x-axis X driving mechanisms, driving nozzle 3 moved along Z axis Z driving mechanisms, driving at The Y driving mechanisms driving that type panel 4 is moved along Y-axis, is molded panel 4 and Y driving mechanisms are arranged on pedestal 1, X driving mechanisms, Z Driving mechanism is arranged on supporting rack 2, and nozzle 3 includes chassis 31, forming shell 32, heating device and feed device, chassis 31 and X Driving mechanism is connected with Z driving mechanisms, and forming shell 32 is arranged on chassis 31, and interconnected feeding is offered on forming shell 32 Channel t1 and melt channel t2, feed device includes feeding motor 33, driving gear 34, driven gear 35, drive roll 36, driven Roller 37, drive roll 36 and driven voller 37 are arranged in the both sides of feeding passage t1, and feeding motor 33 is fixed on forming shell 32, actively Gear 34 is coaxially fixed in the shaft of feeding motor 33, and driven gear 35 is arranged on forming shell 32 and is nibbled with driving gear 34 It closes, drive roll 36 is coaxial fixed with driven gear 35, and the rotation of feeding motor 33 drives driving gear 34 to rotate, and drives driven gear 35 rotations, drive drive roll 36 to rotate, and to drive the wire rod being clipped between drive roll 36 and driven voller 37 to enter melt channel t2, add Thermal is arranged on forming shell 32 and close to melt channel t2 setting, and one end of the direction molding panel 4 of melt channel t2 is set It is equipped with discharge port.

When making shoe tree, after the shoe tree data importing 3D printer that designer completes design, 3D printer is debugged.3D is beaten Print machine drives nozzle 3 to be mutually shifted with molding panel 4 by X driving mechanisms, Y driving mechanisms, Z driving mechanisms, thus will be from spray First 3 wire rods sprayed are stacked into the pattern of designed shoe tree.The course of work of nozzle 3 is：Wire rod is clipped in actively by designer Between roller 36 and driven voller 37, feeding motor 33 drives driving gear 34 to rotate, and driven gear 35 is driven to rotate, and drives active stock Rotation, to drive wire rod to enter melt channel t2 from feeding passage t1, melt channel t2 is heated to wire rod and melted by heating device Temperature needed for changing, wire rod melt after entering melt channel t2, are sprayed from discharge port.The present invention passes through driving gear 34 and driven Gear 35 transmits the kinetic energy of feeding motor 33, and driving drive roll 36 rotates, transmission efficiency, and is easy to control the feeding speed of wire rod Degree, to make the feed speed of wire rod and the discharging speed of discharge port match, avoids in discharge port fracture and forming shell 32 The case where wire rod of melting overflows.It, will by the way that interconnected feeding passage t1 and melt channel t2 is arranged on forming shell 32 Feeding passage t1 and melt channel t2 are wholely set, and by feeding passage t1 and melt channel t2 seamless connections, make the entirety of nozzle 3 Structure is more stablized, it is not easy to generate offset deviation, to ensure 3 accurate material spray of nozzle, keep molding model quality more steady It is fixed.

As a kind of improved specific implementation mode, X driving mechanisms include X-motor 51, X lead screws 52 and X guide rods 53, X Bar 52 is rotatably arranged on supporting rack 2, and X-motor 51 is fixed on supporting rack 2 and is sequentially connected with X lead screws 52, driving X lead screws 52 Rotation, Z driving mechanisms include pedestal 61, Z motors 62, Z lead screws 63 and Z guide rods 64, offer X threaded holes on pedestal 61, X is led Hole, X guide rods 53 are threaded through in X guide holes, and X threaded holes are threadedly coupled with X lead screws 52, when X lead screws 52 rotate, to drive pedestal 61 It is slid along X-axis, Z threaded holes and Z guide holes is offered on chassis 31, Z lead screws 63 are rotatably arranged on pedestal 61, and Z motors 62 are fixed It is sequentially connected on pedestal 61 and with Z lead screws 63, driving Z lead screws 63 rotate, and Z guide rods 64 are threaded through in Z guide holes, Z threaded holes and Z Lead screw 63 is threadedly coupled, when Z lead screws 63 rotate, chassis 31 to be driven to be slid along Z axis.

X-motor 51 drives X lead screws 52 to rotate, and drives pedestal 61 to be slid along X guide rods 53, is transported in X direction to control nozzle 3 It is dynamic；Z motors 62 drive Z lead screws 63 to rotate, and drive chassis 31 to be slid along Z guide rods 64, are moved along Z-direction to control nozzle 3.This Invention drives nozzle 3 to move by X-motor 51, X lead screws 52, Z motors 62 and Z lead screws 63, simple in structure.And it can be by controlling X The turnning circle of motor 51 and Z motors 62 controls the displacement distance of nozzle 3, accurately controls the displacement of nozzle 3.

As a kind of improved specific implementation mode, Y driving mechanisms include Y-motor 71, Y guide rods 72 and Y lead screws 73, Y Bar 73 is rotatably arranged on pedestal 1, and Y-motor 71 is fixed on pedestal 1 and is sequentially connected with Y lead screws 73,73 turns of driving Y lead screws It is dynamic, it is molded on panel 4 and offers Y guide holes and Y threaded holes, Y guide rods 72 are threaded through in Y guide holes, Y lead screws 73 and Y threaded hole screw threads Connection, to drive molding panel 4 to move along Y-axis when Y lead screws 73 rotate.

Y-motor 71 drives Y lead screws 73 to rotate, and pedestal 61 is driven to be slid along Y guide rods 72, is transported along Y-direction to control nozzle 3 It is dynamic；The present invention drives nozzle 3 to move by Y-motor 71 and Y lead screws 73, simple in structure.And the rotation of control Y-motor 71 can be passed through The number of turns controls the displacement distance of nozzle 3, accurately controls the displacement of nozzle 3.

As a kind of improved specific implementation mode, supporting rack 2 is arranged on one side of pedestal 1, and supporting rack 2 is towards forming surface The charge wheel 8 for placing wire rod is provided in the one side of plate 4.

The setting of charge wheel 8 facilitates designer to place wire rod.Charge wheel 8 is arranged with molding panel 4 in the same side, thus So that charge wheel 8 is right against same observation visual angle with molding panel 4, facilitates designer while observing the making situation and wire rod of sample Amount and delivery situation, in time find sample making when sample and wire rod abnormal conditions.

As a kind of improved specific implementation mode, the side of forming shell 32 is provided with fan 9, forming shell 32 and chassis 31 Between be provided with air duct t3, fan 9 is arranged towards air duct t3, and feeding motor 33 is fixed on the side of air duct t3 and part setting exists In the t3 of air duct.

The setting of fan 9 can help to control the temperature of forming shell 32, avoid the temperature of forming shell 32 excessively high, to avoid line The melting excessive velocities of material, and can avoid damage of the high temperature to parts.And by above-mentioned setting, fan 9 can help electricity simultaneously Machine radiates.

As a kind of improved specific implementation mode, the thermal isolation film in step 3 is using the plastic material system for having heat insulation At.

Shoe tree and upper of a shoe are thermally isolated when heating sizing for thermal isolation film, can prevent the curved surface of last of shoe tree from melting, to curved surface of last Play the role of smooth-going.

As a kind of improved specific implementation mode, the midsole in step 3 is the midsole made using gluing technique.

Metal parts is free of in the midsole that gluing technique makes, to prevent the metal parts in microwave stove heat from discharging, The case where damage midsole and shoe tree, occurs.

The above is only the preferred embodiment of the present invention, protection scope of the present invention is not limited merely to above-described embodiment, All technical solutions belonged under thinking of the present invention all belong to the scope of protection of the present invention.It should be pointed out that for the art For those of ordinary skill, several improvements and modifications without departing from the principles of the present invention, these improvements and modifications are also answered It is considered as protection scope of the present invention.

Claims (8)

1. a kind of 3D printing shoe last forming method, it is characterised in that：Including

Step 1 downloads the shoe last model of needs, changes the data of shoe last model with graphics software and by the data of shoe last model It is converted into the format needed for 3D printer；

Shoe tree data are exported to 3D printer and print required shoe tree by step 2；

Step 3 chooses the midsole and thermal isolation film of corresponding size, and thermal isolation film is set on shoe tree and follows closely midsole at the shoe tree bottom Portion；

Upper of a shoe is inserted in shoe tree by step 4, and upper of a shoe is fixed on shoe tree and midsole using nail；

Step 5 is repaiied along upper of a shoe with hammer, then bonds the help foot of middle sole and upper with glue and again pull out nail；

The association of shoe tree, middle sole and upper is put into micro-wave oven heat-shaping by step 6；

Step 7 selects sole, and stereotyped upper of a shoe is closed sole, and sole edge line is drawn on upper of a shoe and is carried out to upper of a shoe Polishing fluffing；

Fluffing part upper of a shoe is carried out brush coating processing, glue is activated using hair-dryer after waiting glue to air-dry by step 8；

The upper of a shoe, shoe tree association and the sole bonding that brush inorganic agent and glue and heat-activated is crossed are compacted by step 9；

Shoe tree is detached from upper of a shoe and metal button member is mounted on upper of a shoe by step 10.

2. a kind of 3D printing shoe last forming method according to claim 1, it is characterised in that：3D described in step 1 is beaten Print machine includes pedestal (1), supporting rack (2), nozzle (3), molding panel (4), the X driving machines for driving nozzle (3) to move along the x-axis The Y driving mechanisms driving that structure, the Z driving mechanisms for driving nozzle (3) to be moved along Z axis, driving molding panel (4) are moved along Y-axis, institute It states molding panel (4) and Y driving mechanisms is arranged on pedestal (1), the X driving mechanisms, Z driving mechanisms are arranged in supporting rack (2) on, the nozzle (3) includes chassis (31), forming shell (32), heating device and feed device, and the chassis (31) is driven with X Motivation structure is connected with Z driving mechanisms, and the forming shell (32) is arranged on chassis (31), and phase is offered on the forming shell (32) Intercommunicated feeding passage (t1) and melt channel (t2), the feed device include feeding motor (33), driving gear (34), Driven gear (35), drive roll (36) and driven voller (37), the drive roll (36) and driven voller (37) are arranged in feeding passage (t1) both sides, the feeding motor (33) are fixed on forming shell (32), and the driving gear (34) is coaxially fixed on feeding In the shaft of motor (33), the driven gear (35) is arranged on forming shell (32) and is engaged with driving gear (34), described Drive roll (36) and driven gear (35) are coaxial fixed, and feeding motor (33) rotation drives driving gear (34) to rotate, drive from Moving gear (35) rotates, and drive roll (36) is driven to rotate, with drive be clipped in wire rod between drive roll (36) and driven voller (37) into Enter melt channel (t2), the heating device is arranged on forming shell (32) and is arranged close to melt channel (t2), the melting One end of the direction molding panel (4) in channel (t2) is provided with discharge port (38).

3. a kind of 3D printing shoe last forming method according to claim 2, it is characterised in that：The X driving mechanisms include X Motor (51), X lead screws (52) and X guide rods (53), the X lead screws (52) are rotatably arranged on supporting rack (2), the X-motor (51) it is fixed on supporting rack (2) and is sequentially connected with X lead screws (52), driving X lead screws (52) rotate, the Z driving mechanisms packet Pedestal (61), Z motors (62), Z lead screws (63) and Z guide rods (64) are included, X threaded holes, X guide holes are offered on the pedestal (61), The X guide rods (53) are threaded through in X guide holes, and the X threaded holes are threadedly coupled with X lead screws (52), to be rotated in X lead screws (52) When, it drives pedestal (61) to be slid along X-axis, Z threaded holes and Z guide holes, Z lead screws (63) rotation is offered on the chassis (31) It is arranged on pedestal (61), the Z motors (62) are fixed on pedestal (61) and are sequentially connected with Z lead screws (63), drive Z lead screws (63) it rotates, the Z guide rods (64) are threaded through in Z guide holes, and the Z threaded holes are threadedly coupled with Z lead screws (63), in Z lead screws (63) when rotating, chassis (31) is driven to be slid along Z axis.

4. a kind of 3D printing shoe last forming method according to claim 3, it is characterised in that：The Y driving mechanisms include Y Motor (71), Y guide rods (72) and Y lead screws (73), the Y lead screws (73) are rotatably arranged on pedestal (1), the Y-motor (71) It is fixed on pedestal (1) and is sequentially connected with Y lead screws (73), driving Y lead screws (73) rotate, and are opened up on the molding panel (4) There are Y guide holes and Y threaded holes, the Y guide rods (72) to be threaded through in Y guide holes, the Y lead screws (73) are threadedly coupled with Y threaded holes, with Molding panel (4) is driven to be moved along Y-axis when Y lead screws (73) rotate.

5. a kind of 3D printing shoe last forming method according to Claims 2 or 3 or 4, it is characterised in that：Support frame as described above (2) setting is provided on one side of pedestal (1), the one side of support frame as described above (2) direction molding panel (4) for placing wire rod Charge wheel (8).

6. a kind of 3D printing shoe last forming method according to claim 5, it is characterised in that：The one of the forming shell (32) Side is provided with fan (9), is provided with air duct (t3) between the forming shell (32) and chassis (31), and the fan (9) is towards wind Road (t3) is arranged, and the feeding motor (33) is fixed on the side in air duct (t3) and part setting is in air duct (t3).

7. a kind of 3D printing shoe last forming method according to claim 1, it is characterised in that：It is heat-insulated described in step 3 Film, which uses, has the plastic material of heat insulation to be made.

8. a kind of 3D printing shoe last forming method according to claim 1, it is characterised in that：Midsole described in step 3 For the midsole for using gluing technique to make.