CN205522381U - Quick shaping material plastifying double -line production system of intelligent 3D - Google Patents

Abstract

The utility model discloses a quick shaping material plastifying double -line production system of intelligent 3D, including extrusion moulding machine, cooling body, ejection of compact drive mechanism, spiral mechanism, cutting mechanism and detection module, two sets of material processing mechanisms, a crosspeen and a die head are drawn together to the extrusion moulding press packed bale, and each material processing mechanism includes hopper, feed cylinder, die head and heating cabinet, and the heating cabinet is equipped with heating member and fan on locating the feed cylinder in the heating cabinet, the cooling body is equipped with a plurality of shower heads, wire rod after ejection of compact drive mechanism will cool off is carried to spiral mechanism and is deposited, detection module includes material temperature sensor and cooling temperature sensor, the material temperature sensor detect in the heating cabinet the feed cylinder temperature and with predetermine the controlled temperature scope relatively with the control fan, wire rod temperature after the cooling temperature sensor determine cooling and with predetermine the controlled temperature relatively with the control section shower head, thereby the temperature of automatic control plastics heating and the size of cooling water, production efficiency is high and the product quality is good.

Description

Intelligent 3D rapid shaping material plasticizing two-wire production system

Technical field

This utility model relates to material plasticizing device, particularly relate to a kind of become the high material plasticizing two-wire production system of flat rate.

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 plastic complicated, accurate in size, application is extensive.Its production process is: from hopper, solid plastics is sent into barrel, the helical screw agitator rotated while heating in barrel is advanced into die head, the solid plastics of granular (or powdery) will plastify into there is 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 of die head.But, existing material plasticizing device must masterful technique work work according to the heater needing regulation barrel at the scene in real time, waste of manpower and cost, and the heating-up temperature regulation of material is caused not in time, and heating-up temperature is too high affects quality and finished product or because heating-up temperature not substandard products occurs.

Utility model content

The purpose of this utility model is to provide a kind of material heating system based on material plasticizing device, can automatically control temperature and the size of cooling water of plastic heating, production efficiency height and wire rod quality better.

nullIn order to there be purpose on realizing，The utility model discloses a kind of intelligent 3D rapid shaping material plasticizing two-wire production system，For being double-colored 3D printing wire rod by plastic grain extrusion forming，Including extrusion shaping machine、Cooling body、Discharging traction mechanism、Winding mechanism、Cutting mechanism and detection module，Described extrusion shaping machine includes two groups of material treatment mechanism、One cross-peen and a die head，Material treatment mechanism described in each group includes support、Motor、Extruding screw、Hopper、Barrel、Heating member、Add hot tank and fan，Described motor is installed on described support，The output shaft of described motor is connected with described extruding screw，Described extruding screw is horizontally set in described barrel，The described hot tank that adds is located on described barrel，Described heating member have several and be respectively arranged on described barrel add in hot tank and on die head so that described barrel and die head are heated，Described fan adds in hot tank described in being installed on，Plastic grain is delivered to barrel by described hopper，Described plastic grain is heated by described barrel、Plastic conveying and plastic after stirring and melting is to described cross-peen，Described cross-peen is delivered to described die head after the plastics of material treatment mechanism conveying merge described in two，Plastics after described die head will merge carry out shaping to make wire rod；Described cooling body is positioned at the discharge outlet of described die head and is provided with some spray heads to cool down the wire rod made；Described discharging traction mechanism is positioned at the end of described cooling body and the wire rod after cooling is delivered to winding mechanism；Winding mechanism is wound around the wire rod that described discharging traction mechanism is delivered to.Cutting mechanism is between described discharging traction mechanism and winding mechanism and cuts described wire rod.Described detection module adds the temperature of charge sensor of detection barrel temperature in hot tank and is installed at cooling body the chilling temperature sensor of wire temperature after detection cooling described in including being installed on, described temperature of charge sensor is connected with the switch of described fan and controls the switch of described fan when described barrel temperature is higher than control temperature range set in advance and opens, the switch controlling described fan when described barrel temperature is less than control temperature range set in advance cuts out, described chilling temperature sensor is connected with the switch of part spray head in some described spray heads, and wire temperature is opened beyond control part described spray head during control temperature range set in advance after the cooling period, wire temperature is less than controlling the closedown of part described spray head during control temperature range set in advance after the cooling period.

Compared with prior art, owing to the temperature of barrel is controlled by the extrusion shaping machine of this utility model intellectuality 3D rapid shaping material plasticizing two-wire production system in real time, 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, when the wire rod being extruded is pulled through cooling body under the effect of discharging traction mechanism, wire rod is effectively cooled down by the water that spray head is ejected, finally make wire temperature consistent with room temperature thus be finalized, the wire rod quality better made.On the other hand also the injection flow rate of spray head is controlled in real time due to this utility model, when not only making the chilling temperature of wire rod inadequate, strengthen the water yield of spray head, improve cooling effectiveness, and when making the water yield of spray head excessive, reduce the water yield of spray head in time so that the wire rod made will not be lowered the temperature too much to be affected quality and save the water yield.

Preferably, described barrel be provided with several described in add hot tank, add described in several hot tank along described barrel arrange and each described in add hot tank and be respectively equipped with a described heating member and a described fan, described temperature of charge sensor have several and be respectively arranged on each described in add in hot tank, what several described heating casees included at least two grade adds hot tank, corresponding one of the hot tank that adds of each grade controls temperature, each described in open or close controlling the fan of correspondence when adding the more corresponding temperature adding hot tank of the temperature of charge sensor ratio in hot tank and corresponding controls temperature.This programme, by several hot tank progressive solution plastics that add, homogeneous heating, saves the energy.

Specifically, described cross-peen, die head are provided with at least two heating member, described detection module also includes being installed on detection cross-peen, the transverse mode temperature sensor of die head temperature at cross-peen, die head, described transverse mode temperature sensor is connected with the part heating member at described cross-peen, die head, and the switch of the control described heating member of part cuts out when described die head temperature is higher than control temperature range set in advance, the switch controlling the described heating member of part when described cross-peen, die head temperature are less than control temperature range set in advance is opened.

Preferably, described intelligent 3D rapid shaping material plasticizing two-wire production system also includes the operation display panel being connected with described detection module, described operation display panel includes temperature control knob, motor control knob, display window, operate the regulation of described temperature control knob and control Temperature numerical, operating described motor control knob and regulate the velocity of rotation of described motor, described display window shows signal, control temperature and the revolution speed that described detection module detects in real time.The program makes operator can regulate setup parameter voluntarily according to the difference of the different current environment of plastic material.

Preferably, 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 described spray heads are located on described cooling bath, when the product 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 product, 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 carrier of some horizontally sets it is additionally provided with in described cooling bath, described carrier carries described wire rod.The water ejected from spray head is flowed into be recovered corresponding circulating slot again after cooling down wire rod and is recycled, and saves energy.

nullSpecifically，Described circulating slot includes the first circulating slot、Second circulating slot、3rd circulating slot，Some described spray heads include several first spray head、Several second spray heads and several 3rd spray head，And described first spray head、Second spray head and the 3rd spray head arrange with a determining deviation from front to back along described cooling bath respectively，Described cooling body also includes the first water tank、Second water tank and three-tank，Described first water tank、The cooling water with the first chilling temperature it is correspondingly provided with respectively in second water tank and three-tank、There is cooling water and the cooling water of room temperature of the second cooling water temperature，Described first spray head、Second spray head and the 3rd spray head respectively with described first water tank、Second water tank and three-tank are connected，And lay respectively at described first circulating slot、Second circulating slot、Above 3rd circulating slot and the two is interconnected，And described first water tank、Second water tank and three-tank are respectively by having the water pipe of suction pump and described first circulating slot、Second circulating slot and the connection of the 3rd circulating slot correspondence，Described first chilling temperature is higher than described second chilling temperature，Described second chilling temperature is higher than room temperature，Described chilling temperature sensor first spray head described with part respectively、The switch of described second spray head of part threeth spray head described with part is connected.The program makes cooling body gradually can lower the temperature wire rod, prevents wire rod from becoming fragile owing to lowering the temperature too fast.

Specifically, described carrier is formed with the bearing groove corresponding with described wire shape so that described wire rod to be guided and shaping, improves the quality of wire rod further.

Preferably, 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.

Preferably, described cutting mechanism includes bracing frame and the meter counter being installed on support frame as described above and cutter, support frame as described above is provided with the transmission hole matched with wire rod profile, described cutter are arranged in described transmission hole, and described meter counter detects wire rod in real time and by the length of described transmission hole and controls the driving cylinder action of described cutter when described wire rod is by preset length to cut wire rod.

Accompanying drawing explanation

Fig. 1 is the structural representation of intelligent 3D rapid shaping material plasticizing two-wire production system described in the utility model.

Fig. 2 a is the structural representation of extrusion shaping machine described in the utility model.

Fig. 2 b is the structural representation of another angle of extrusion shaping machine described in the utility model.

Fig. 3 is the structural representation of operation control panel described in the utility model.

Fig. 4 is the part-structure block diagram of intelligent 3D rapid shaping material plasticizing two-wire production system described in the utility model.

Fig. 5 is the structural representation of cooling body described in the utility model.

Fig. 6 is the structural representation of cooling body described in another preferred embodiment of this utility model.

Detailed description of the invention

By describing technology contents of the present utility model, structural feature in detail, being realized purpose and effect, below in conjunction with embodiment and coordinate accompanying drawing to be explained in detail.

With reference to Fig. 1 and Fig. 4, the utility model discloses a kind of intelligent 3D rapid shaping material plasticizing two-wire production system 100, for being double-colored 3D printing wire rod by plastic grain extrusion forming, including extrusion shaping machine 1, cooling body 2, discharging traction mechanism 3, winding mechanism 7, cutting mechanism 4 and detection module.

nullWith reference to Fig. 2 a、Fig. 2 b，Described extrusion shaping machine 1 includes two groups of material treatment mechanism 200、One cross-peen 17 and a die head 15，Described in each group, material treatment mechanism 200 includes support 11、Motor 12、Extruding screw (not shown)、Hopper 13、Barrel 14、Heating member 31、Add hot tank 20 and fan 25，Described motor 12 is installed on described support 11，The output shaft of described motor 12 is connected with described extruding screw，Described extruding screw is horizontally set in described barrel 14，The described hot tank 20 that adds is located on described barrel 14，Described heating member 31 have several and be respectively arranged on described barrel 14 add hot tank 20 in and die head 15 on so that described barrel 14 and die head 15 are heated，Described fan 25 adds in hot tank 20 described in being installed on，Plastic grain is delivered to barrel 14 by described hopper 13，Described plastic grain is heated by described barrel 14、Plastic conveying and plastic after stirring and melting is to cross-peen 16，The plastics that material treatment mechanism described in two 200 is carried by described cross-peen 16 are delivered to described die head 15 after merging，Plastics after described die head 15 will merge carry out shaping to make wire rod 60.With reference to Fig. 4, described detection module adds the temperature of charge sensor 32 of detection barrel 14 temperature in hot tank 20 described in including being installed on, described temperature of charge sensor 32 is connected with the switch of described fan 25 and controls the switch of described fan 25 when described barrel 14 temperature is higher than control temperature range set in advance and opens, and the switch controlling described fan 25 when described barrel 14 temperature is less than control temperature range set in advance cuts out.With reference to Fig. 4, temperature of charge sensor 32 connects a comparison circuit 301, and this comparison circuit 301 compares the detection temperature of the temperature of charge sensor 32 control temperature corresponding with adding hot tank 20 and works to control fan 25.Wherein, in comparison circuit 301 may be located at temperature of charge sensor 32, it is also possible to for independent component.

With reference to Fig. 1 and Fig. 5, described cooling body 2 is positioned at the discharge outlet of described die head 15 and is provided with some spray heads 41 to cool down the wire rod 60 made.Described detection module includes being installed at cooling body 2 the chilling temperature sensor 33 of wire temperature after detection cooling, described chilling temperature sensor 33 is connected with the switch of part spray head 41 in some described spray heads 41, and wire temperature is opened beyond the control described spray head of part 41 during control temperature range set in advance after the cooling period, wire temperature is closed less than the control described spray head of part 41 during control temperature range set in advance after the cooling period.With reference to Fig. 4, chilling temperature sensor 32 connects a comparison circuit 302, and this comparison circuit 302 compares the detection temperature of the chilling temperature sensor 32 control temperature corresponding with spray head 41 and switchs with control part spray head 41 and open or close.Wherein, in comparison circuit 302 may be located at chilling temperature sensor 32, it is also possible to for independent component.

With reference to Fig. 1, described discharging traction mechanism 3 is positioned at the end of described cooling body 2 and the wire rod after cooling is delivered to winding mechanism 7.Winding mechanism 7 is wound around the wire rod that described discharging traction mechanism 3 is delivered to.Cutting mechanism 4 is between described discharging traction mechanism 3 and winding mechanism 7 and cuts described wire rod.

nullPreferably，With reference to 2b，Described barrel 14 be provided with several described in add hot tank 20，Add described in several hot tank 20 along described barrel 14 arrange and each described in add hot tank 20 and be respectively equipped with a described heating member 31 and a described fan 25，Described temperature of charge sensor 32 have several and be respectively arranged on each described in add in hot tank 20，Add hot tank 20 described in several and include at least two grade，The most individual，The described hot tank 20 that adds includes that first adds hot tank 21、Second adds hot tank 22 and Acanthopanan trifoliatus (L.) Merr. hot tank 24，The first control temperature adding hot tank 22 is 240 degree，The second control temperature adding hot tank 23 is 245 degree，The control temperature of Acanthopanan trifoliatus (L.) Merr. hot tank 24 is 250 degree，First adds hot tank 21、Second adds and opens or closes controlling the fan 25 of correspondence when the temperature of charge sensor 32 in hot tank 22 and Acanthopanan trifoliatus (L.) Merr. hot tank 24 is respectively compared its detection temperature and corresponding controls temperature.

Specifically, with reference to Fig. 4, described cross-peen 16, die head 15 is provided with at least two heating member 31, described detection module also includes being installed on cross-peen 16, cross-peen 16 is detected at die head 15, the transverse mode temperature sensor 33 of die head 15 temperature, described transverse mode temperature sensor 33 and described cross-peen 16, part heating member 31 at die head 15 is connected, and at described cross-peen 16, die head 15 temperature is closed higher than the switch controlling the described heating member of part 31 during control temperature range set in advance, at described cross-peen 16, die head 15 temperature is opened less than the switch controlling the described heating member of part 31 during control temperature range set in advance.With reference to Fig. 4, described transverse mode temperature sensor 33 connects a comparison circuit 303, and the control temperature that comparison circuit 303 compares the detection temperature of transverse mode temperature sensor 33 and cross-peen 16, die head 15 is corresponding works with control heating member 31.Wherein, in comparison circuit 303 may be located at die head temperature sensor 33, it is also possible to for independent component.

Preferably, described intelligent 3D rapid shaping material plasticizing two-wire production system 100 also includes the operation display panel 5 being connected with described detection module, described operation display panel 5 includes temperature control knob 503, motor control knob 504, display window, operate the regulation of described temperature control knob 503 and control Temperature numerical, operate described motor control knob 504 and regulate the velocity of rotation of described motor 12, described display window 502 shows the signal that described detection module detects in real time, display window 501 display controls the numerical value of temperature, display window 505 shows the velocity of rotation of motor 12.The program makes operator can regulate setup parameter voluntarily according to the difference of the different current environment of plastic material.

With reference to Fig. 5, described cooling body 2 also includes cooling bath 42 and circulating slot 43, the discharging opening of described cooling bath 42 and described die head 15 is just to setting, some spray heads 41 are located on described cooling bath 42, when the wire rod of the discharging opening extrusion of described die head 15 is through described cooling bath 42, the water sprayed by described spray head 41 carries out cooling and shaping to wire rod 60, described cooling bath 42 is positioned at above described circulating slot 43 and the two is interconnected, described spray head 41 connects with described circulating slot 43 by having the water pipe of suction pump 44, the carrier 45 of some horizontally sets it is additionally provided with in described cooling bath 42, described carrier 45 carries described wire rod.Preferably, described carrier 45 is formed with the bearing groove corresponding with described wire rod 60 shape to guide described wire rod 60 and shaping.

With reference to Fig. 1, described discharging traction mechanism 3 includes fixed mount and the upper motor 62 being arranged on described fixed mount, lower motor 63, upper rotating belt 64 and lower rotating belt 65, described upper rotating belt 64 is positioned at the surface of described lower rotating belt 65 and gap therebetween and forms traction passage, described upper motor 62 drives described upper rotating belt 64 uniform rotation clockwise, described lower motor 63 drives described lower rotating belt 65 uniform rotation counterclockwise, the slewing rate of described upper rotating belt 64 is identical with the slewing rate of described lower rotating belt 65, described wire rod is sandwiched in described traction passage and is pulled out by upper rotating belt 64 and the rotation of lower rotating belt 65.

With reference to Fig. 1, described cutting mechanism 4 includes bracing frame and the meter counter being installed on support frame as described above and cutter, support frame as described above is provided with the transmission hole matched with wire rod profile, described cutter are arranged in described transmission hole, and described meter counter detects wire rod in real time and by the length of described transmission hole and controls the driving cylinder action of described cutter when described wire rod is by preset length to cut wire rod.

Wherein, described meter counter is also connected with an alarm device, and sends alarm signal when described wire rod is by preset length to described alarm device so that described alarm device sends alarm.Preferably, described meter counter is also connected with extrusion shaping machine 1, cooling body 2, the pause switch of discharging traction mechanism, and control the pause switch action of described extrusion shaping machine 1, cooling body 2, discharging traction mechanism when described wire rod is by preset length, so that the pause switch of described extrusion shaping machine 1, cooling body 2, discharging traction mechanism suspends.

nullPreferably，With reference to Fig. 6，In another preferred embodiment of this utility model，Described circulating slot includes the first circulating slot 72、Second circulating slot 73、3rd circulating slot 74，Some described spray heads 41 include several first spray head 411、Several second spray heads 412 and several 3rd spray head 413，And described first spray head 411、Second spray head 412 and the 3rd spray head 413 arrange with a determining deviation from front to back along described cooling bath 42 respectively，Described cooling body 2 also includes the first water tank (not shown)、Second water tank (not shown) and three-tank (not shown)，Described first water tank、The cooling water with the first chilling temperature it is correspondingly provided with respectively in second water tank and three-tank、There is cooling water and the cooling water of room temperature of the second cooling water temperature，Described first spray head 411、Second spray head 412 and the 3rd spray head 413 respectively with described first water tank、Second water tank and three-tank are connected，And lay respectively at described first circulating slot 72、Second circulating slot 73、Above 3rd circulating slot 74 and the two is interconnected，And described first water tank、Second water tank and three-tank are respectively by having the water pipe 75 of suction pump、76、77 with described first circulating slot 72、Second circulating slot 73、The corresponding connection of 3rd circulating slot 74，Described first chilling temperature is higher than described second chilling temperature，Described second chilling temperature is higher than room temperature，Described chilling temperature sensor 33 first spray head 41 described with part respectively、The switch of described second spray head 41 of part threeth spray head 41 described with part is connected.The program makes cooling body 2 gradually can lower the temperature wire rod, prevents wire rod from becoming fragile owing to lowering the temperature too fast.

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 (9)

1. an intelligent 3D rapid shaping material plasticizing two-wire production system, being used for plastic grain extrusion forming is double-colored 3D printing wire rod, it is characterised in that including:

nullExtrusion shaping machine，Including two groups of material treatment mechanism、One cross-peen and a die head，Material treatment mechanism described in each group includes support、Motor、Extruding screw、Hopper、Barrel、Heating member、Add hot tank and fan，Described motor is installed on described support，The output shaft of described motor is connected with described extruding screw，Described extruding screw is horizontally set in described barrel，The described hot tank that adds is located on described barrel，Described heating member have several and be respectively arranged on described barrel add in hot tank and on die head so that described barrel and die head are heated，Described fan adds in hot tank described in being installed on，Plastic grain is delivered to barrel by described hopper，Described plastic grain is heated by described barrel、Plastic conveying and plastic after stirring and melting is to described cross-peen，Described cross-peen is delivered to described die head after the plastics of material treatment mechanism conveying merge described in two，Plastics after described die head will merge carry out shaping to make wire rod；

Cooling body, is positioned at the discharge outlet of described die head and is provided with some spray heads to cool down the wire rod made；

Discharging traction mechanism, is positioned at the end of described cooling body and the wire rod after cooling is delivered to winding mechanism；

Winding mechanism, is wound around the wire rod that described discharging traction mechanism is delivered to

Cutting mechanism, between described discharging traction mechanism and winding mechanism and cut described wire rod；

Detection module, including adding the temperature of charge sensor of detection barrel temperature in hot tank described in being installed on and being installed at cooling body the chilling temperature sensor of wire temperature after detection cooling, described temperature of charge sensor is connected with the switch of described fan and controls the switch of described fan when described barrel temperature is higher than control temperature range set in advance and opens, the switch controlling described fan when described barrel temperature is less than control temperature range set in advance cuts out, described chilling temperature sensor is connected with the switch of part spray head in some described spray heads, and wire temperature is opened beyond control part described spray head during control temperature range set in advance after the cooling period, wire temperature is less than controlling the closedown of part described spray head during control temperature range set in advance after the cooling period.

2. intelligent 3D rapid shaping material plasticizing two-wire production system as claimed in claim 1, it is characterized in that, described barrel be provided with several described in add hot tank, add described in several hot tank along described barrel arrange and each described in add hot tank and be respectively equipped with a described heating member and a described fan, described temperature of charge sensor have several and be respectively arranged on each described in add in hot tank, what several described heating casees included at least two grade adds hot tank, corresponding one of the hot tank that adds of each grade controls temperature, open or close with the fan that control is corresponding when adding the more corresponding temperature adding hot tank of the temperature of charge sensor ratio in hot tank and corresponding control temperature described in each.

3. intelligent 3D rapid shaping material plasticizing two-wire production system as claimed in claim 1, it is characterized in that, described cross-peen, die head is provided with at least two heating member, described detection module also includes being installed on cross-peen, cross-peen is detected at die head, the transverse mode temperature sensor of die head temperature, described transverse mode temperature sensor and described cross-peen, part heating member at die head is connected, and the switch closedown of the described heating member of part is controlled when described die head temperature is higher than control temperature range set in advance, the switch controlling the described heating member of part when described die head temperature is less than control temperature range set in advance is opened.

4. intelligent 3D rapid shaping material plasticizing two-wire production system as claimed in claim 1, it is characterized in that, also include the operation display panel being connected with described detection module, described operation display panel includes temperature control knob, motor control knob, display window, operate the regulation of described temperature control knob and control Temperature numerical, operating described motor control knob and regulate the velocity of rotation of described motor, described display window shows signal, control temperature and the revolution speed that described detection module detects in real time.

5. intelligent 3D rapid shaping material plasticizing two-wire production system as claimed in claim 1, it is characterized in that, 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 described spray heads are located on described cooling bath, when the product 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 product, 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 carrier of some horizontally sets it is additionally provided with in described cooling bath, described carrier carries described wire rod.

null6. intelligent 3D rapid shaping material plasticizing two-wire production system as claimed in claim 5，It is characterized in that，Described circulating slot includes the first circulating slot、Second circulating slot、3rd circulating slot，Some described spray heads include several first spray head、Several second spray heads and several 3rd spray head，And described first spray head、Second spray head and the 3rd spray head arrange with a determining deviation from front to back along described cooling bath respectively，Described cooling body also includes the first water tank、Second water tank and three-tank，Described first water tank、The cooling water with the first chilling temperature it is correspondingly provided with respectively in second water tank and three-tank、There is cooling water and the cooling water of room temperature of the second cooling water temperature，Described first spray head、Second spray head and the 3rd spray head respectively with described first water tank、Second water tank and three-tank are connected，And lay respectively at described first circulating slot、Second circulating slot、Above 3rd circulating slot and the two is interconnected，And described first water tank、Second water tank and three-tank are respectively by having the water pipe of suction pump and described first circulating slot、Second circulating slot and the connection of the 3rd circulating slot correspondence，Described first chilling temperature is higher than described second chilling temperature，Described second chilling temperature is higher than room temperature，Described chilling temperature sensor first spray head described with part respectively、The switch of described second spray head of part threeth spray head described with part is connected.

7. intelligent 3D rapid shaping material plasticizing two-wire production system as claimed in claim 5, it is characterised in that be formed with the bearing groove corresponding with described wire shape on described carrier so that described wire rod to be guided and shaping.

8. intelligent 3D rapid shaping material plasticizing two-wire production system as claimed in claim 1, it is characterized in that, 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.

9. intelligent 3D rapid shaping material plasticizing two-wire production system as claimed in claim 1, it is characterized in that, described cutting mechanism includes bracing frame and the meter counter being installed on support frame as described above and cutter, support frame as described above is provided with the transmission hole matched with wire rod profile, described cutter are arranged in described transmission hole, and described meter counter detects wire rod in real time and by the length of described transmission hole and controls the driving cylinder action of described cutter when described wire rod is by preset length to cut wire rod.