CN205651627U - Intelligent 3D prints with wire rod material plastifying single line apparatus for producing - Google Patents

Abstract

The utility model discloses an intelligent 3D prints with wire rod material plastifying single line apparatus for producing, including the extrusion moulding machine, the cooling body, ejection of compact drive mechanism and cutting mechanism, extrusion moulding machine messenger plastic granules is stirred with even by heating and melting in getting into the extrusion chamber, extruded from the discharge gate of die head at last, the wire rod of being extruded is pull the cooling bath that passes the cooling body under ejection of compact drive mechanism's effect, make the wire rod cooled off the design, the transmissive hole who is passed cutting mechanism by the wire rod of cooling design twines on the wind -up roll, and when the wire rod that passes transmissive hole reaches required length, the cutting knife cuts off the wire rod, accomplish the production and the rolling of a wire rod, use the utility model discloses the time, the production process process of wire rod is simple, great improvement production efficiency to because real time control and coordination are carried out through the controller to the production process of whole wire rod, degree of automation and wire rod precision improve by a wide margin, and feasible wire rod colour of producing is even, monochromatic effectual simultaneously, and the outward appearance is pleasing to the eye.

Description

Intelligent 3D prints with wire rod material plasticizing single line process units

Technical field

This utility model relates to a kind of plasticizing injection machine, particularly relates to the intelligent 3D printing wire rod material plasticizing single line process units that a kind of production efficiency is high.

Background technology

Injection mo(u)lding is the main forming method of plastics, is characterized in that production efficiency is high, strong to the flexibility (adaptability) of operation of various plastics, and energy forming shape injection wire rod complicated, accurate in size, application is extensive.Its production process is: first the solid plastics of granular (or powdery) is plastified into and has the plastic melt that the plasticity of uniform density, viscosity and composition is good, make this kind of plastic melt possess certain flow rate by the certain pressure of applying again and inject in the die cavity entering molding die, after plastic melt cooling and shaping, the just available plastic consistent with the mold cavity shapes got to know；But, existing injection machine is complicated due to device structure so that complex operation, and a lot of link needs to rely on workman by virtue of experience to carry out Artificial Control, and intelligence degree is low so that production efficiency and wire rod precision are low.

Therefore, the intelligent 3D printing wire rod material plasticizing single line process units that a kind of operation is simple, production efficiency is high and automaticity is high is needed badly.

Utility model content

The purpose of this utility model is to provide the intelligent 3D printing wire rod material plasticizing single line process units that a kind of operation is simple, production efficiency is high, monochromatic and automaticity is high.

nullFor achieving the above object，This utility model provides a kind of intelligent 3D printing wire rod material plasticizing single line process units，For being 3D printing wire rod by plastic grain extrusion forming，Wherein，Described intelligent 3D printing wire rod material plasticizing single line process units includes an extrusion shaping machine、Cooling body、Discharging traction mechanism and cutting mechanism，Described extrusion shaping machine includes support、Motor、Extruding screw、Barrel、Die head、Heating member、Hopper and controller，Described motor is installed on described support，The output shaft of described motor is connected with described extruding screw，Described barrel is installed on described support and in hollow structure，Described hollow structure forms extrusion chamber，Described extruding screw is horizontally set in described extrusion chamber，Described die head offers the adjustable die cavity of size，Described die cavity be level run through described die head，Described die head is docking of level with described barrel，And described die cavity is docked and connected with described extrusion chamber，The free end opening of described die cavity forms the discharging opening of extrusion of wire，Described heating member is installed on described barrel and heats described extrusion chamber，Described hopper is installed on described support and is positioned at above described barrel，Described hopper is used for keeping in plastic grain and connects with described extrusion chamber，Described controller is electrically connected with described motor and heating member respectively；Described cooling body includes cooling bath and circulating slot, the discharging opening of described cooling bath and described die head is just to setting, some spray heads it are provided with in described cooling bath, when the wire rod of the discharging opening extrusion of described die head is through described cooling bath, the water sprayed by described spray head carries out cooling and shaping to wire rod, described spray head is connected with described circulating slot by water pipe, being additionally provided with the transverse-roller of some horizontally sets in described cooling bath, described transverse-roller carries in being articulated in described cooling bath and transmits the wire rod extruded from described discharging opening；Described discharging traction mechanism includes fixed mount and the upper motor being arranged on described fixed mount, lower motor, upper rotating belt and lower rotating belt, described upper rotating belt is positioned at the surface of described lower rotating belt and gap therebetween and forms traction passage, described upper motor drives described upper rotating belt uniform rotation clockwise, described lower motor drives described lower rotating belt uniform rotation counterclockwise, the slewing rate of described upper rotating belt is identical with the slewing rate of described lower rotating belt, described wire rod is sandwiched in described traction passage and is pulled out by upper rotating belt and the rotation of lower rotating belt；Described cutting mechanism includes bracing frame and the meter counter being installed on support frame as described above, cutter and winder, support frame as described above is provided with the transmission hole matched with wire rod profile, described cutter are arranged in described transmission hole, described meter counter detects wire rod in real time and by the length of described transmission hole and controls described cutter and cut, described winder includes wind-up roll and rolling motor, described rolling motor is fixed on support frame as described above and is electrically connected with described controller, described wind-up roll is dismountable to be articulated on support frame as described above and is connected with the output shaft of described rolling motor, described rolling motor drives the rotation of described wind-up roll that the wire rod through described transmission hole is carried out rolling.

It is preferred that described die head includes upper die and lower die and mould bases, described upper mold is with lower mold in sliding up and down and parallel being arranged on described mould bases, and described lower mold is positioned at the underface of described upper mold, and the space between described upper mold and described lower mold forms described die cavity.

Preferably, some vertically arranged vertical rollers it are additionally provided with in described cooling bath, described in adjacent two, the space between vertical roller forms guide channel, and the wire rod extruded from described discharging opening passes described guide channel, and described transverse-roller is positioned at the bottom of described guide channel.

nullCompared with prior art，Owing to motor and the real-time of heating member are controlled by this utility model intellectuality 3D printing extrusion shaping machine of wire rod material plasticizing single line process units by controller，Make stable the entering extrusion chamber from hopper of plastic grain，And heated melted in extrusion chamber smoothly and uniform stirring，Finally it is extruded from its discharging opening under the die cavity effect of die head，The wire rod being extruded under the effect of discharging traction mechanism by the cooling bath being drawn across cooling body linearly，When through cooling bath，Wire rod is cooled down by the water that spray head is ejected，Finally make wire temperature consistent with room temperature thus be finalized，The water wherein ejected from spray head is flowed into be recovered circulating slot again after cooling down wire rod to be recycled，The wire rod being finalized is sent in cutting mechanism under the upper rotating belt of discharging traction mechanism with the effect of lower rotating belt uniform rotation，So that wire rod is at the uniform velocity by the sprocket hole of bracing frame，By the wire rod of sprocket hole by the rolling of wind-up roll institute，The wire rod length by transmission hole is detected in real time due to meter counter，When meter counter detects that controlling cutter when wire rod reaches demand by the length of transmission hole cuts wire rod，Thus wind-up roll completes a rolling，Thus complete the production of volume 3D printing wire rod；Simultaneously, due also to controller is also electrically connected with upper motor, lower motor and rolling motor, make the hauling speed giving wire rod with lower rotating belt at the effect speed of wind-up roll rolling wire rod of controller, the upper rotating belt of bottom discharge haulage gear and the speed of wire rod 1 extruded from discharging opening consistent, whole wire rod is made to keep concordance in transmission speed, it is ensured that the continuous production of wire rod and Mass accuracy；In summary, when using this utility model intellectuality 3D to print with wire rod material plasticizing single line process units, the production process operation of wire rod is simple, it is greatly improved production efficiency, and owing to the production process of whole wire rod is controlled and coordination in real time by controller, automaticity and wire rod precision are greatly improved, and also save cost and further increase the production efficiency of wire rod, make produced wire color uniform so that wire rod monochrome is effective, appearance looks elegant simultaneously.

Accompanying drawing explanation

Fig. 1 is the structural representation of this utility model intellectuality 3D printing wire rod material plasticizing single line process units.

Fig. 2 is the structural representation of the extrusion shaping machine of this utility model intellectuality 3D printing wire rod material plasticizing single line process units.

Fig. 3 is the structural representation of die head in Fig. 2.

Fig. 4 is another angled arrangement schematic diagram of die head in Fig. 3.

Fig. 5 is the structural representation of the cooling body of this utility model intellectuality 3D printing wire rod material plasticizing single line process units.

Fig. 6 is the structural representation of the discharging traction mechanism of this utility model intellectuality 3D printing wire rod material plasticizing single line process units.

Fig. 7 is the structural representation of the cutting mechanism of this utility model intellectuality 3D printing wire rod material plasticizing single line process units.

Detailed description of the invention

With reference now to accompanying drawing, describing embodiment of the present utility model, element numbers similar in accompanying drawing represents similar element.

As shown in Figure 1, intelligent 3D printing wire rod material plasticizing single line process units 500 of the present utility model, including an extrusion shaping machine 100, cooling body 200, discharging traction mechanism 300 and cutting mechanism 400, described extrusion shaping machine 100 is used for plastic grain extrusion forming being 3D printing wire rod 1, this wire rod 1 is solid construction, the wire rod 1 that extrusion shaping machine 100 is extruded carries out cooling and shaping through cooling body 200, discharging traction mechanism 300 provides the pull strength that the wire rod 1 from extrusion shaping machine 100 extrusion moves forward, under the traction of discharging traction mechanism 300, the wire rod 1 being finalized is cut into, through cutting mechanism 400, the wire rod 1 needing length, and the wire rod 1 that this cuts off is by 45 rollings of wind-up roll.Below in conjunction with Fig. 1-Fig. 7, this utility model intellectuality 3D printing wire rod material plasticizing single line process units 500 is described in further detail:

nullShown in Fig. 1-Fig. 4，The extrusion shaping machine 100 of this utility model intellectuality 3D printing wire rod material plasticizing single line process units 500 includes support 10、Motor 11、Extruding screw 12、Barrel 13、Heating member 14、Hopper 16、Controller 17 and die head 18，Described motor 11 is installed on described support 10，The output shaft of described motor 11 is connected with described extruding screw 12，Described barrel 13 is installed on described support 10 and in hollow structure，Described hollow structure forms extrusion chamber 131，Described extruding screw 12 is horizontally set in described extrusion chamber 131，Described die head 18 offers the adjustable die cavity of size 181，Described die cavity 181 runs through described die head 18 in level，Described die head 18 and described barrel 13 docking in level，And described die cavity 181 is docked and connected with described extrusion chamber 131，The free end opening of described die cavity 181 forms the discharging opening 182 of extrusion of wire，Owing to the size of die cavity 181 is adjustable，Therefore in advance the size of die cavity 181 is regulated to consistent with the wire size of required production，Thus enter into the molten plastic in die cavity 181 under the constraint and restriction of die cavity 181 from extrusion chamber 131，Just the wire rod of required production with required die cavity 181 consistent size is formed again when the discharging opening 182 of die cavity 181 is extruded；Described heating member 14 is installed on described barrel 13 and heats described extrusion chamber 131, and specifically heating member 14 typically uses resistance wire or resistor rod energising to heat, and so heating is fast and heating-up temperature is stable；Described hopper 16 is installed on described support 10 and is positioned at above described barrel 13, and described hopper 16 connects with described extrusion chamber 131 so that loads and can enter directly under gravity in extrusion chamber 131 with the plastic grain in hopper 16；Described controller 17 is electrically connected with described motor 11 and heating member 14 respectively, realizes the rotation to motor 11 by controller 17, the heating of extrusion chamber 131 is controlled by heating member 14 in real time；During work, motor 11 is driven across the extruding screw 12 of extrusion chamber 131 under the control action of controller 17 and rotates in extrusion chamber 131, the plastic grain loaded in hopper 16 enters in extrusion chamber 131 by pipeline, enter the plastic grain in extrusion chamber 131 melted under the heat effect of heating member 14, and being stirred uniformly under the effect that extruding screw 12 rotates, last wire rod 1 is extruded from discharging opening 182.

In conjunction with Fig. 1 and Fig. 5 Suo Shi, described cooling body 200 include cooling bath 21 and circulating slot 22, the discharging opening 182 of described cooling bath 21 and described die head 18 is just to setting, some spray heads 23 it are provided with in described cooling bath 21, when the wire rod 1 that the discharging opening 182 of described die head 18 is extruded passes described cooling bath 21, the water sprayed by described spray head 23 carries out cooling and shaping to wire rod 1, described cooling bath 21 is positioned at above described circulating slot 22 and the two mutual water pipe 24 connects so that the water that spray head 23 is sprayed is collected by circulating slot 22 by water pipe 24；Described spray head 23 connects with described circulating slot 22 by having the water pipe 26 of suction pump 25, and the water that suction pump 25 extracts in circulating slot 22 flows to spray head 23 by water pipe 26, so that the water that spray head 23 is sprayed is recycled, effectively saves water resource；The transverse-roller 27 of some horizontally sets it is additionally provided with in described cooling bath 21, described transverse-roller 27 carries in being articulated in described cooling bath 21 and transmits the wire rod 1 from described discharging opening 182 extrusion, described transverse-roller 27, on the one hand wire rod 1 is made to have object that it is carried when by long and narrow cooling bath 21, avoid wire rod to occur bending and deformation because of gravity, on the other hand make to carry wire rod 1 thereon by the pivot joint of transverse-roller 27, sliding friction (advance of wire rod 1 drives transverse-roller 27 to rotate) is there is when advancing, it is greatly reduced the transverse-roller 27 abrasion to wire rod 1, ensure that the quality of wire rod 1.

nullShown in Fig. 1 and Fig. 6，Described discharging traction mechanism 300 includes fixed mount 31 and is arranged at the upper motor 32 on described fixed mount 31、Upper rotating belt 33、Lower motor 34 and lower rotating belt 35，Described upper rotating belt 33 is positioned at the surface of described lower rotating belt 35 and gap therebetween and forms traction passage，Described upper motor 32 is electrically connected with described controller 17 respectively with described lower motor 34，Specifically，Upper rotating belt 33 is wound on upper roller 36，Upper motor 32 drives upper roller 36 to rotate，Rotating of upper roller 36 drives upper rotating belt 33 wound on it to rotate，Lower rotating belt 35 is wound on bottom roller 37，Lower motor 34 drives bottom roller 37 to rotate，Rotating of bottom roller 37 drives lower rotating belt 35 wound on it to rotate，Described upper motor 32 drives described upper rotating belt 33 uniform rotation clockwise，Described lower motor 34 drives described lower rotating belt 35 uniform rotation counterclockwise，The upper rotating belt 33 that under the control action of described controller 17, motor 32 drives is identical with the slewing rate of the lower rotating belt 35 that lower motor 34 drives，Pulled out in wire rod 1 is sandwiched in traction passage and by upper rotating belt and the rotation of lower rotating belt.

nullShown in Fig. 1 and Fig. 7，Described cutting mechanism 400 includes bracing frame 41 and the meter counter 42 being installed on support frame as described above 41、Cutter 43 and winder，Support frame as described above 41 is provided with the transmission hole 44 matched with wire rod 1 profile，Described cutter 43 are arranged in described transmission hole 44，Described meter counter 42 detects wire rod 1 in real time and by the length of described transmission hole 44 and controls described cutter 43 and cut，Described winder includes wind-up roll 45 and rolling motor 46，Described rolling motor 46 is fixed on support frame as described above 41 and is electrically connected with described controller 17，Described wind-up roll 45 is dismountable to be articulated on support frame as described above 41 and is connected with the output shaft 46a of described rolling motor 46，Specifically，One belt 47 is wound on the power transmission shaft 45a that the output shaft 46a of rolling motor 46 and wind-up roll 45 protrude out，Thus described rolling motor 46 can drive described wind-up roll 45 to rotate，Rotating of wind-up roll 45 realizes the wire rod 1 through described transmission hole 44 is carried out rolling，When being issued to length by the wire rod 1 of transmission hole 44 in the meter record of meter counter 42，Cutter 43 cut off wire rod 1，Thus wind-up roll 45 completes a rolling；Under the wind-up roll 45 completing rolling is dismantled from bracing frame 41, change the new wind-up roll not being wound with wire rod, thus start rolling next time；The wind-up roll 45 being wound with wire rod 1 is supplied to the unreeling machine of 3D printer simultaneously, thus can be that 3D printer provides 3D printing wire rod.

nullShown in Fig. 1 and Fig. 5，Preferably，Some vertically arranged vertical rollers 28 it are additionally provided with in described cooling bath 21，Described in adjacent two, the space between vertical roller 28 forms guide channel，From the wire rod 1 of described discharging opening 182 extrusion through described guide channel，Described transverse-roller 27 is positioned at the bottom of described guide channel，Described vertical roller 28，On the one hand wire rod 1 is made to have object left to it when by long and narrow cooling bath 21、Right flank carries out spacing load，Avoid wire rod 1 to offset in transmitting procedure，And make wire rod 1 occur bending and deformation，On the other hand make to carry wire rod 1 thereon by the pivot joint of vertical roller 28，Sliding friction (advance of wire rod 1 drives vertical roller 28 to rotate) is there is when advancing，It is greatly reduced the abrasion to wire rod 1 of the vertical roller 28，Ensure that the quality of wire rod 1；Simultaneously because the bottom of guide channel that transverse-roller 27 is formed by vertical roller 28, make transverse-roller 27 and vertical roller 28 that the direction that wire rod advances has been carried out omnibearing spacing guide effect, wire rod 1 is made to remain straight ahead, it is ensured that being normally carried out and improve wire quality of subsequent handling.

Shown in Fig. 1-Fig. 4, preferably, described die head 18 includes upper mold 18a, lower mold 18b and mould bases 183, described upper mold 18a with lower mold 18b in sliding up and down and parallel being arranged on described mould bases 183, described lower mold 18b is positioned at the underface of described upper mold 18a, and the space between described upper mold 18a and described lower mold 18b forms described die cavity 181；The regulation of the size to die cavity 181 can be realized by slip upper mold 18a and lower mold 18b quickly and easily, use the die head 18 of this structure to install, safeguard and regulate equal simple and fast, there is stronger practicality.

Shown in Fig. 1 and Fig. 5, it is notable that in the embodiment shown in this utility model Fig. 1, spray head 23 is set to four, certain spray head 23 may be alternatively provided as two, three, five, six, seven etc.；In embodiment shown in this utility model Fig. 1, transverse-roller 27 is set to six, and certain transverse-roller 27 may be alternatively provided as two, three, four, five, seven, eight etc.；In embodiment shown in this utility model Fig. 1, vertical roller 28 is set to two, and certainly vertical roller 28 may be alternatively provided as three, four, five, six etc., is preferably arranged to even number；Above-mentioned put forward spray head 23, transverse-roller 27 and the particular number of vertical roller 28 related to, those skilled in the art are on the premise of technical scheme provided by the utility model, demand according to practical situation, it is not necessary to any performing creative labour can make one's options, and no longer describes in detail at this.

nullShown in Fig. 1-Fig. 7，Owing to motor 11 and the real-time of heating member 14 are controlled by this utility model intellectuality 3D printing extrusion shaping machine 100 of wire rod material plasticizing single line process units 500 by controller 17，Make stable the entering extrusion chamber 131 from hopper 16 of plastic grain，And heated melted in extrusion chamber 131 smoothly and uniform stirring，Finally the die cavity 181 at die head 18 is extruded under acting on from its discharging opening 182，The wire rod 1 being extruded under the effect of discharging traction mechanism 300 by the cooling bath 21 being drawn across cooling body 200 linearly，When through cooling bath 21，Wire rod is cooled down by the water that spray head 23 is ejected，Finally make wire rod 1 temperature consistent with room temperature thus be finalized，The water wherein ejected from spray head 23 is flowed into be recovered circulating slot 22 again after cooling down wire rod 1 to be recycled，The wire rod 1 being finalized is sent in cutting mechanism 400 under the upper rotating belt 33 of discharging traction mechanism 200 and the effect of lower rotating belt 35 uniform rotation，So that wire rod 1 is at the uniform velocity by the sprocket hole 44 of bracing frame 41，By the wire rod 1 of sprocket hole 44 by 45 rollings of wind-up roll，The wire rod 1 length by transmission hole 44 is detected in real time due to meter counter 42，When meter counter 42 detects that controlling cutter 43 when wire rod 1 reaches demand by the length of transmission hole 44 cuts wire rod 1，Thus wind-up roll 45 completes a rolling，Thus complete the production of volume 3D printing wire rod 1；Simultaneously, due also to controller 17 is also electrically connected with upper motor 32, lower motor 34 and rolling motor 46, make the hauling speed giving wire rod 1 with lower rotating belt 35 at the effect speed of wind-up roll 45 rolling wire rod 1 of controller 17, the upper rotating belt 33 of bottom discharge haulage gear 300 and the speed of wire rod 1 extruded from discharging opening 182 consistent, whole wire rod 1 is made to keep concordance in transmission speed, it is ensured that the continuous production of wire rod 1 and Mass accuracy；In summary, when using this utility model intellectuality 3D to print with wire rod material plasticizing single line process units 500, the production process operation of wire rod is simple, it is greatly improved production efficiency, and owing to the production process of whole wire rod is controlled and coordination in real time by controller 17, automaticity and wire rod precision are greatly improved, and also save cost and further increase the production efficiency of wire rod, make produced wire color uniform so that wire rod monochrome is effective, appearance looks elegant simultaneously.

Separately, motor 11, heating member 14, controller 17, suction pump 25, upper motor 32, lower motor 34, meter counter 42 and rolling motor 46 involved by this utility model are existing product, its operation principle and concrete structure, it is well known to those of ordinary skill in the art, is no longer described in detail at this.

Above disclosed it is only preferred embodiment of the present utility model, certainly can not limit the interest field of this utility model, the equivalent variations therefore made according to this utility model claim with this, still belong to the scope that this utility model is contained.

Claims (3)

1. an intelligent 3D printing wire rod material plasticizing single line process units, being used for plastic grain extrusion forming is 3D printing wire rod, it is characterised in that described intelligent 3D printing wire rod material plasticizing single line process units includes:

nullOne extrusion shaping machine，Described extrusion shaping machine includes support、Motor、Extruding screw、Barrel、Die head、Heating member、Hopper and controller，Described motor is installed on described support，The output shaft of described motor is connected with described extruding screw，Described barrel is installed on described support and in hollow structure，Described hollow structure forms extrusion chamber，Described extruding screw is horizontally set in described extrusion chamber，Described die head offers the adjustable die cavity of size，Described die cavity be level run through described die head，Described die head is docking of level with described barrel，And described die cavity is docked and connected with described extrusion chamber，The free end opening of described die cavity forms the discharging opening of extrusion of wire，Described heating member is installed on described barrel and heats described extrusion chamber，Described hopper is installed on described support and is positioned at above described barrel，Described hopper is used for keeping in plastic grain and connects with described extrusion chamber，Described controller is electrically connected with described motor and heating member respectively；

Cooling body, described cooling body includes cooling bath and circulating slot, the discharging opening of described cooling bath and described die head is just to setting, some spray heads it are provided with in described cooling bath, when the wire rod of the discharging opening extrusion of described die head is through described cooling bath, the water sprayed by described spray head carries out cooling and shaping to wire rod, described cooling bath is positioned at above described circulating slot and the two is interconnected, described spray head connects with described circulating slot by having the water pipe of suction pump, the transverse-roller of some horizontally sets it is additionally provided with in described cooling bath, described transverse-roller carries in being articulated in described cooling bath and transmits the wire rod extruded from described discharging opening；

Discharging traction mechanism, described discharging traction mechanism includes fixed mount and the upper motor being arranged on described fixed mount, lower motor, upper rotating belt and lower rotating belt, described upper rotating belt is positioned at the surface of described lower rotating belt and gap therebetween and forms traction passage, described upper motor is electrically connected with described controller respectively with described lower motor, described upper motor drives described upper rotating belt uniform rotation clockwise, described lower motor drives described lower rotating belt uniform rotation counterclockwise, the slewing rate of described upper rotating belt is identical with the slewing rate of described lower rotating belt, described wire rod is sandwiched in described traction passage and is pulled out by upper rotating belt and the rotation of lower rotating belt；And

Cutting mechanism, described cutting mechanism includes bracing frame and the meter counter being installed on support frame as described above, cutter and winder, support frame as described above is provided with the transmission hole matched with wire rod profile, described cutter are arranged in described transmission hole, described meter counter detects wire rod in real time and by the length of described transmission hole and controls described cutter and cut, described winder includes wind-up roll and rolling motor, described rolling motor is fixed on support frame as described above and is electrically connected with described controller, described wind-up roll is dismountable to be articulated on support frame as described above and is connected with the output shaft of described rolling motor, described rolling motor drives the rotation of described wind-up roll that the wire rod through described transmission hole is carried out rolling.

2. intelligent 3D as claimed in claim 1 prints with wire rod material plasticizing single line process units, it is characterized in that, described die head includes upper die and lower die and mould bases, described upper mold with lower mold in sliding up and down and parallel being arranged on described mould bases, described lower mold is positioned at the underface of described upper mold, and the space between described upper mold and described lower mold forms described die cavity.

3. intelligent 3D as claimed in claim 1 prints with wire rod material plasticizing single line process units, it is characterized in that, some vertically arranged vertical rollers it are additionally provided with in described cooling bath, described in adjacent two, the space between vertical roller forms guide channel, the wire rod extruded from described discharging opening passes described guide channel, and described transverse-roller is positioned at the bottom of described guide channel.