CN205219754U - Fused deposition modeling device - Google Patents
Fused deposition modeling device Download PDFInfo
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- CN205219754U CN205219754U CN201521002206.4U CN201521002206U CN205219754U CN 205219754 U CN205219754 U CN 205219754U CN 201521002206 U CN201521002206 U CN 201521002206U CN 205219754 U CN205219754 U CN 205219754U
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- Processing And Handling Of Plastics And Other Materials For Molding In General (AREA)
Abstract
The utility model provides a fused deposition modeling device, is applicable to the fused deposition modeling machine, contains: macromolecular material, container, shower nozzle, print drive platform and computery, be equipped with the heater in the container, supply the macromolecular material leading -in to by the heater to its heating and melting, the shower nozzle has the orifice, sets up in container one end, and fused macromolecular material is extruded by the orifice in messenger's container, the print drive platform is used and is constructed on it for nozzle holder to carry out three axial displacements, the computery includes IC interface control system and data transmission platform, and the data transmission platform carries out the operation of eager layer according to operating instruction and produces the print data to the system to IC interface control of transmitting, and the IC interface control system includes control panel controls the function of drive print drive platform for the user, with the three -dimensional shaping operation of carrying out fused deposition modeling device.
Description
[technical field]
The utility model is that espespecially one has computer system about a kind of fused glass pellet device, and is applicable to the fused glass pellet device of fused glass pellet machine.
[background technology]
Three-dimensionally shaped technology, also rapid shaping (RapidPrototyping is called, RP) technology, because rapid shaping technique has automatically, directly and fast, accurately design philosophy can be changed into the prototype with certain function and maybe can manufacture the part or finished product that directly use, thus can assess fast product design, amendment and function test, greatly shorten the construction cycle of product, thus make 3 D-printing forming technique extensively be favored.
In right rapid shaping technique, there is a kind of fused glass pellet (FusedDepositionModeling, FDM) technology, its be conveying moulding material by heater, fused solution is heated into moulding material, then extrude fused solution moulding material by an extrusion and cool stacking go out three-dimensionally shaped thing.This fused glass pellet technology can accurately form very complicated product, and assisting without the need to mould in shaping process, more can complete some special shape products that traditional handicraft cannot complete, therefore fused glass pellet technology has been widely deployed in three-dimensionally shaped mechanism on the market.
In general, traditional fused glass pellet machine must by the link with external computer system, three-dimensionally shaped thing for molding can be carried out cutting a layer layout image analysing computer operation, in image data input fused glass pellet machine after again these being analyzed, to carry out corresponding 3 D-printing operations for forming, so these operations need carry out associative operation by user in external computer system end, and this external computer system also needs the associated drives and the operation program that set fused glass pellet machine, to operate and not convenient.
In addition, when carrying out 3 D-printing operations for forming with fused glass pellet technology, when heating the moulding material of input, molten condition is formed in order to make moulding material, the temperature of heater is usually quite high, thus, too high temperature and heat energy can make the assembly of heater periphery also with influenced and easily produce damage, if therefore cannot effectively dispel the heat to the heat energy that heater produces, then the whole service life of the assembly of its periphery and fused glass pellet machine all may be limited.
In view of this, the utility model provides a kind of fused glass pellet device, in it, tool computer system can carry out the layer computing mutually deeply concerned of stereo object to be printed, and have more can the container of withstand high temperatures, and in container, have more multiple heat conduction, radiator structure, outwards transmit so as to the auxiliary heat energy that heater is produced, with efficiently radiates heat, and the service life of fused glass pellet machine can be extended.
[utility model content]
Main purpose of the present utility model is that providing a kind of is applicable to a fused glass pellet machine with fused glass pellet device, need be connected with external computer system in order to do the known fused glass pellet device of solution, the disappearances such as the inconvenience causing user to use.
Another object of the present utility model is to provide a kind of fused glass pellet device, and being had by it can the container of withstand high temperatures, and has more the structure of multiple heat conduction, heat radiation in container, in order to do the technical bottleneck of poor heat radiation that can solve current fused glass pellet machine.
For reaching above-mentioned purpose, of the present utility model one comparatively broad sense implement aspect for providing a kind of fused glass pellet device, be applicable to a fused glass pellet machine, comprise: at least one macromolecular material; At least one container, is provided with a heater in it, this at least one macromolecular material imports in this at least one container, by this heater to this at least one macromolecular material heating and melting; At least one shower nozzle, has a spray orifice, is arranged at one end of this at least one container, and this macromolecular material in this container after melting is extruded by this spray orifice; One prints driving platform, with for this at least one shower nozzle framework thereon, to carry out three-shaft displacement; And a computer system, comprise an interface control system and a data transfer platform, this data transfer platform carries out all layer of computing according to an operational order and produces a print data, wherein this is cut layer computing and is and converts all layer of routine data of a stereo object for molding to a two dimension and cut a layer layout image data, and transfer to this interface control system, and this interface control system comprises a control panel, control to drive this printing to drive platform in operation, to carry out the three-dimensionally shaped operation of this fused glass pellet device for a user.
This data transfer platform of this computer system is by a universal serial bus coffret, a layer layout image data is cut to receive this two dimension, and the action that layer layout image data carries out decipher and layout is cut to this two dimension, preposition work is driven to complete, transmit a signal again to this interface control system, to control and to drive this printing to drive platform displacement, to carry out the three-dimensionally shaped operation of this fused glass pellet device.
This universal serial bus coffret comprise a layout system and an image data processor at least one of them.
This macromolecular material is a thermoplastic macromolecule material, this thermoplastic macromolecule material be a polyvinyl chloride, a polyethylene, a polystyrene, a polyurethanes, a polyamide, a polyformaldehyde, cellulosic plastics, a polytetrafluoroethylene (PTFE), a polyimides, a polyphenylene sulfide, a polycarbonate one of them.
This macromolecular material is a thermoplastic macromolecule material, this thermoplastic macromolecule material is a PLA (PLA), one acrylonitrile-butadiene-styrene (ABS) (ABS), one butadiene-styrene (BS), one acrylonitrile-styrene (AS), one policapram (PA), one nylon 6, one nylon66 fiber, one polymethyl methacrylate (PMMA), monochlor(in)ate polyethylene (CPE), one cellulose acetate, one PET (PETE or PET), one polyvinyl chloride (PVC), one polypropylene (PP), one polybutyl terapthalate (PBT), one of them of the polychloride dimethyl benzene of one upgrading (m-PPE).
This fused glass pellet machine more comprises a material casket and a feeder, and this at least one macromolecular material is a shape wire, and store in this material casket, and is inputed in this at least one container with supply by the driving of this feeder.
The diameter of this shape wire is between 0.01mm to 2.0mm.
The diameter of this shape wire is between 0.1mm to 1.0mm.
This at least one container is made by a metal material.
This at least one container has more an instlated tubular, and is communicated with this spray orifice, is provided with this at least one macromolecular material to be sent to this spray orifice.
This heater is arranged at the bottom of this at least one container, and adjacent with this instlated tubular, and this at least one macromolecular material is sent to this heater place through this instlated tubular, namely by this heater heating and melting, then extrudes this macromolecular material after melting by this spray orifice.
This heater be for a thermal resistance heater, a laser heater one of them.
This injection diameter is 0.05 ~ 0.2mm.
This at least one container has more at least one passage of heat, and the heat energy being provided with this heater to give out gives heat transfer.
This at least one container has more a heat transfer fin, is provided with passage of heat at least one with this and is communicated with, to implement heat exchange action.
This at least one container has more a fan, is provided with strengthening this heat transfer fin and implements heat exchange action.
The beneficial effects of the utility model are:
Fused glass pellet device of the present utility model is cut layer computing to stereo object for molding mainly through the computer system arranged in it with direct and produce print data, and without the need to connecting the extra computer system arranged separately, in addition, more macromolecular material feeding is made to be delivered in container by the driving wheel of fused glass pellet machine and feeder, and the heating and melting made by heater, relend the liquid macroimolecule material being exported melting by spray orifice, instlated tubular simultaneously more by arranging in container, passage of heat, the assemblies such as heat transfer fin and fan are with the heat exchange operation of Reinforced container, in order to do can effectively dispel the heat, so as to extending the service life of container and fused glass pellet machine.
[accompanying drawing explanation]
Fig. 1 is the schematic diagram of the fused glass pellet machine of the utility model preferred embodiment.
Fig. 2 is the container of fused glass pellet device shown in Fig. 1 and the structural representation of shower nozzle.
Fig. 3 is the configuration diagram of the computer system of the fused glass pellet device shown in Fig. 1.
[symbol description]
1: fused glass pellet machine
10: fused glass pellet device
11: macromolecular material
11 ': liquid macroimolecule material
12: container
121: the first openings
122: heater
123: fan
124: heat transfer fin
125: instlated tubular
126: passage of heat
127: the second openings
13: shower nozzle
131: spray orifice
14: computer system
141: interface control system
1411: control panel
142: data transfer platform
15: print and drive platform
16: material casket
17: driving wheel
18: feeder
19: carrier
2: three-dimensionally shaped thing
[detailed description of the invention]
Some exemplary embodiments embodying the utility model feature & benefits describe in detail in the explanation of back segment.Be understood that the utility model can have various changes in different aspects, it neither departs from scope of the present utility model, and explanation wherein and to be shown in be use when explain in essence, and nand architecture is in restriction the utility model.
Be the schematic diagram of the fused glass pellet machine of the utility model preferred embodiment please refer to Fig. 1 and Fig. 3, Fig. 1, Fig. 3 is the configuration diagram of the computer system of the fused glass pellet device shown in Fig. 1.As shown in Figure 1, fused glass pellet device 10 of the present utility model is applicable in a fused glass pellet machine 1, and fused glass pellet device 10 comprises: at least one macromolecular material 11, at least one container 12, at least one shower nozzle 13, computer system 14 and printing drive platform 15, wherein be provided with heater 122 in container 12, macromolecular material 11 imports in container 12, by heater 122 pairs of macromolecular material 11 heating and meltings; Shower nozzle 13 has spray orifice 131, and is arranged at one end of container 12, and the liquid macroimolecule material 11 ' in container 12 after melting is extruded by spray orifice 131; Print and drive platform 15 with for shower nozzle 13 framework thereon, to carry out three-shaft displacement; And as shown in Figure 3, computer system 14 comprises interface control system 141 and data transfer platform 142, data transfer platform 142 according to an operational order to carry out all layer of computing, and produce a print data, wherein this is cut layer computing and is a layer routine data of cutting for stereo object 2 for molding is converted to two dimension and cut a layer layout image data, and transfer to interface control system 141, and interface control system 141 comprises control panel 1411, controlling to drive to print for user drives platform 15 to operate, to carry out the three-dimensionally shaped operation of fused glass pellet device 10.
Please continue and consult Fig. 1, in the present embodiment, fused glass pellet machine 1 more comprises material casket 16 and feeder 18, but not as limit, wherein material casket 16 is in order to store macromolecular material 11, and this macromolecular material 11 is the guiding drivings by driving wheel 17 and feeder 18, and then to be delivered to container 12.In some embodiments, driving wheel 17 and feeder 18 also can be the driving feed arrangement integrated, the use of feeding conveying is carried out mainly as process auxiliary drive macromolecular material 11, and its kenel be can according to actual apply situation and appoint execute change, be not limited with illustrative two individual device of the utility model.
Again in the present embodiment, as shown in Figure 1, macromolecular material 11 can be but not be limited to a shape wire, is a trickle thread like body, such as: trickle plastic coated wire, but not as limit.And for the present embodiment, the diameter of macromolecular material 11 is between 0.01mm to 2.0mm, and its preferred values is then between 0.1mm to 1.0mm.
In some embodiments, this macromolecular material 11 material can be but not be limited to a thermoplastic macromolecule material, and this thermoplastic macromolecule material more can be but is not limited to plastic material and backing material, and for example, macromolecular material 11 is a polyvinyl chloride, one polyethylene, one polystyrene, one polyurethanes, one polyamide, one polyformaldehyde, one cellulosic plastics, one polytetrafluoroethylene (PTFE), one polyimides, one polyphenylene sulfide, the thermoplastic macromolecule material of at least one of them or its mixture of one polycarbonate using as plastic material, but not as limit, or is that macromolecular material 11 can be a PLA (PLA), one acrylonitrile-butadiene-styrene (ABS) (ABS), one butadiene-styrene (BS), one acrylonitrile-styrene (AS), one policapram (PA), one nylon 6, one nylon66 fiber, one poly-sour methyl esters (PMMA), monochlor(in)ate polyethylene (CPE), one celluloid, one PET (PETE or PET), one polyvinyl chloride (PVC), polypropylene (PP), one polybutyl terapthalate (PBT), the thermoplastic macromolecule material of at least one of them or its mixture of the polychloride dimethyl benzene of one upgrading (m-PPE), using as backing material, but not as limit.
Please refer to Fig. 1 and Fig. 2, Fig. 2 is the container of fused glass pellet device shown in Fig. 1 and the structural representation of shower nozzle, as shown in Figures 1 and 2, the utility model only illustrates with single container 12, right at least one container 12 of the present utility model can be made up of multiple container 12, import in each container 12 respectively with for multiple macromolecular material 11, in other words, the quantity of container 12 of the present utility model and be to apply situation according to actual and appoint and execute change, not as limit in conjunction with kenel.Again, as shown in the figure, container 12 is a shell structure, and the housing of each container 12 can be but not be limited to made by metal material, or can made by the material of withstand high temperatures by other, not as limit, it is mainly for making container 12 can withstand high temperatures and unlikely generation distortion or structural damage.
Please continue and consult Fig. 2, as shown in the figure, the top of container 12 and bottom have the first opening 121 and the second opening 127 respectively, guided in input pod 12, and be output in outside container 12 by the second opening 127 with for linear macromolecular material 11 by the first opening 121.In some embodiments, the bore of the first opening 121 and the second opening 127 is the wire diameters slightly larger than macromolecular material 11, but not as limit.Shower nozzle 13 is arranged at the bottom of container 12, and correspondence is arranged at the second opening 127 place of container 12, and be connected in the second opening 127, in the present embodiment, shower nozzle 13 can be but not be limited to the conical hollow structure of a convergent, and in the end of shower nozzle 13, there is a spray orifice 131, be provided with the macromolecular material 11 ' after exporting melting.In some embodiments, the diameter of spray orifice 131 is 0.05 ~ 0.2mm, but not as limit.Again in the present embodiment, container 12 inside has more instlated tubular 125 and heater 122, instlated tubular 125 is a tubular structure, be arranged between the first opening 121 and the second opening 127, and be connected with the first opening 121, second opening 127, be provided with assistant high molecular material 11 to carry in container 12, and instlated tubular 125 is more connected with the spray orifice 131 of shower nozzle 13, in order to do macromolecular material 11 being sent to spray orifice 131 place by the second opening 127.
In the present embodiment, heater 122 is arranged at container 12 inside, and be arranged at the bottom section of container 12, and it is adjacent with instlated tubular 125, when macromolecular material 11 is delivered to heater 122 place via the guiding of instlated tubular 125, then by the heating and melting of heater 122, what make becomes liquid condition, again the liquid macroimolecule material 11 ' after melting is delivered to spray orifice 131 place of shower nozzle 13 downwards, with the macromolecular material 11 ' of dispensing liquid.In some embodiments, heater 122 can be but not be limited to one of them of heater of a thermal resistance heater, a laser heater, other structure.
And in the present embodiment, container 12 has heat conduction and the radiating subassemblies such as at least one passage of heat 126 and heat transfer fin 124, but not as limit; Wherein, this at least one thermal conduction path 126 can be but not be limited to the hollow channel structure around being arranged at instlated tubular 125 periphery, and in some embodiments, it to be arranged between heat transfer fin 124 and heater 122, but not as limit, mainly give heat transfer in order to the heat energy distributed by heater 122, and heat energy is passed to heat transfer fin 124 place be connected with this thermal conduction path 126, implement heat exchange action to make heat energy in heat transfer fin 124 place; Even, in other embodiments, container 12 has more fan 123, and fan 123 is be arranged at heat transfer fin 124 upper, but not as limit, in order to brush heat transfer fin 124, can more quickly heat energy be passed with this heat transfer fin 124 auxiliary, namely this fan 124 can strengthen heat transfer fin 124 to implement heat exchange action, and then to reach the object of efficiently radiates heat.
Please refer to Fig. 1 and Fig. 3, in the present embodiment, computer system 14 is arranged in fused glass pellet machine 1, in other words, and computer system 14 of the present utility model be in be built in fused glass pellet machine 1, therefore user is without the need to connecting the computer system of a circumscribed more separately; And computer system 14 of the present utility model is electrically connected with mechanisms such as the container 12 of fused glass pellet machine 1, material casket 16, driving wheel 17 and feeders 18, but not as limit.And in some embodiments, interface control system 141 has control panel 1411, directly can manipulate on control panel 1411 with for user, and then can control and drive printing to drive platform 15 to carry out displacement, in order to do the three-dimensionally shaped operation carrying out fused glass pellet device 10.In other embodiments, a processor (not shown) more can be possessed in the data transfer platform 142 of computer system 14, but not as limit, in order to cut a layer computing to stereo object 2 for molding, so that a layer routine data of cutting for this stereo object 2 for molding is converted to two dimension and cut a layer layout image data, and transfer to interface control system 141.
In addition, in other embodiments, the data transfer platform 142 of computer system 14 is more by a universal serial bus (USB) coffret, to receive this, layer layout image data is cut to the two dimension of stereo object 2 for molding, but not as limit, and by the processor in data transfer platform 142, the action that layer layout image data carries out decipher and layout is cut to this two dimension, preposition work is driven to complete, transmit a signal again to interface control system 141, and then with control and drive print drive platform 15 with displacement, and the print data that shower nozzle 13 is sent according to interface control system 141 and print command, to carry out the three-dimensionally shaped operation of fused glass pellet device 10.Again in some embodiments, this universal serial bus (USB) coffret comprise a layout system (PrintFormHostApplication) and an image data processor (ImageDataProcessor) at least one of them, and not as limit.
Please refer to 1st ~ 3 figure, as previously mentioned, fused glass pellet machine 1 comprises the assemblies such as fused glass pellet device 10, material casket 16, driving wheel 17, feeder 18 and carrier 19.Wherein, fused glass pellet device 10 comprises: at least one macromolecular material 11, at least one container 12, at least one shower nozzle 13, computer system 14 and printing drive platform 15, this printing drives platform 15 to be portable platform, carrying container 12 and shower nozzle 13 on it, and printing drives platform 15 to drive mainly through a driving element (not shown), to carry out up and down or the displacement of the XYZ of left and right tri-axle.In the present embodiment, user is by universal serial bus (USB) coffret of the data transfer platform 142 of computer system 14, input in computer system 14 the two dimension of stereo object for molding to be cut a layer layout image data, and by the processor (not shown) in data transfer platform 142, a layer layout image data is cut to inputted two dimension and cut a layer computing, so that a layer routine data of cutting for this stereo object 2 for molding is converted to two dimension and cut a layer layout image data, and transfer to interface control system 141; Now, user is again by the control panel 1411 of computer system 14, to manipulate fused glass pellet machine 1, and make this printing drive platform 15 to be first moved to a print position, and this print position is can relative to a carrier 19, but not as limit, now framework container 12 thereon and shower nozzle 13 namely be moved to this print position, be beneficial to the three-dimensionally shaped operation carrying out stereo object for molding.Thereafter, after print command obtained by fused glass pellet machine 1, then macromolecular material 11 can be exported by material casket 16, by the Driving guide of driving wheel 17 and feeder 18, and make macromolecular material 11 input in container 12 by the first opening 121 of container 12, and be arranged in the instlated tubular 125 of container 12, heater 122 place is delivered to downwards by the driving of driving wheel 17 and feeder 18, make heater 122 pairs of macromolecular material 11 heating and meltings, to form liquid macroimolecule material 11 ', and be extruded on carrier 19 by the spray orifice 131 of the shower nozzle 13 be arranged under container 12, and carry out stacking according to the section figure that every one deck is different, and along with the natural cooling curing of liquid macroimolecule material 11 ', sequentially stacking shaping, and then go out a three-dimensionally shaped thing 2 with stacked in multi-layers.In carrying out in this three-dimensionally shaped operation process, by assemblies such as the thermal conduction path 126 in container 12, heat transfer fin 124 and fans 123, the heat energy produced during so as to being operated by heater 122 upwards transmits, and pass through the pressure heat extraction of fan 123, to make heat energy can be passed by heat transfer fin 124, and then reach the object of efficiently radiates heat.
Fused glass pellet device of the present utility model is cut layer computing to stereo object for molding mainly through the computer system arranged in it with direct and produce print data, and without the need to connecting the extra computer system arranged separately, in addition, more macromolecular material feeding is made to be delivered in container by the driving wheel of fused glass pellet machine and feeder, and the heating and melting made by heater, relend the liquid macroimolecule material being exported melting by spray orifice, instlated tubular simultaneously more by arranging in container, passage of heat, the assemblies such as heat transfer fin and fan are with the heat exchange operation of Reinforced container, in order to do can effectively dispel the heat, so as to extending the service life of container and fused glass pellet machine.
The utility model must be appointed by person familiar with the technology and executed craftsman and to think and for modifying as all, so neither de-if attached claim institute is for Protector.
Claims (16)
1. a fused glass pellet device, is applicable to a fused glass pellet machine, it is characterized in that, comprise:
At least one macromolecular material;
At least one container, is provided with a heater in it, this at least one macromolecular material imports in this at least one container, by this heater to this at least one macromolecular material heating and melting;
At least one shower nozzle, has a spray orifice, is arranged at one end of this at least one container, and this macromolecular material in this container after melting is extruded by this spray orifice;
One prints driving platform, with for this at least one shower nozzle framework thereon, to carry out three-shaft displacement; And
One computer system, comprise an interface control system and a data transfer platform, this data transfer platform carries out all layer of computing according to an operational order and produces a print data, this is cut layer computing and is and converts all layer of routine data of a stereo object for molding to a two dimension and cut a layer layout image data, and transfer to this interface control system, and this interface control system comprises a control panel, control to drive this printing to drive platform in operation, to carry out the three-dimensionally shaped operation of this fused glass pellet device for a user.
2. fused glass pellet device as claimed in claim 1, it is characterized in that, this data transfer platform of this computer system is by a universal serial bus coffret, a layer layout image data is cut to receive this two dimension, and the action that layer layout image data carries out decipher and layout is cut to this two dimension, preposition work is driven to complete, transmit a signal again to this interface control system, to control and to drive this printing to drive platform displacement, to carry out the three-dimensionally shaped operation of this fused glass pellet device.
3. fused glass pellet device as claimed in claim 2, is characterized in that, this universal serial bus coffret comprise a layout system and an image data processor at least one of them.
4. fused glass pellet device as claimed in claim 1, it is characterized in that, this macromolecular material is a thermoplastic macromolecule material, this thermoplastic macromolecule material be a polyvinyl chloride, a polyethylene, a polystyrene, a polyurethanes, a polyamide, a polyformaldehyde, cellulosic plastics, a polytetrafluoroethylene (PTFE), a polyimides, a polyphenylene sulfide, a polycarbonate one of them.
5. fused glass pellet device as claimed in claim 1, it is characterized in that, this macromolecular material is a thermoplastic macromolecule material, this thermoplastic macromolecule material is a PLA, one acrylonitrile-butadiene-styrene (ABS), one butadiene-styrene, one acrylonitrile-styrene, one policapram, one nylon 6, one nylon66 fiber, one polymethyl methacrylate, monochlor(in)ate polyethylene, one cellulose acetate, one PET, one polyvinyl chloride, one polypropylene, one polybutyl terapthalate, one of them of the polychloride dimethyl benzene of one upgrading.
6. fused glass pellet device as claimed in claim 1, it is characterized in that, this fused glass pellet machine more comprises a material casket and a feeder, this at least one macromolecular material is a shape wire, and store in this material casket, and inputed in this at least one container with supply by the driving of this feeder.
7. fused glass pellet device as claimed in claim 6, it is characterized in that, the diameter of this shape wire is between 0.01mm to 2.0mm.
8. fused glass pellet device as claimed in claim 6, it is characterized in that, the diameter of this shape wire is between 0.1mm to 1.0mm.
9. fused glass pellet device as claimed in claim 1, it is characterized in that, this at least one container is made by a metal material.
10. fused glass pellet device as claimed in claim 1, it is characterized in that, this at least one container has more an instlated tubular, and is communicated with this spray orifice, is provided with this at least one macromolecular material to be sent to this spray orifice.
11. fused glass pellet devices as claimed in claim 10, it is characterized in that, this heater is arranged at the bottom of this at least one container, and it is adjacent with this instlated tubular, this at least one macromolecular material is sent to this heater place through this instlated tubular, namely by this heater heating and melting, then this macromolecular material after melting is extruded by this spray orifice.
12. fused glass pellet devices as claimed in claim 1, is characterized in that, this heater be for a thermal resistance heater, a laser heater one of them.
13. fused glass pellet devices as claimed in claim 1, is characterized in that, this injection diameter is 0.05 ~ 0.2mm.
14. fused glass pellet devices as claimed in claim 1, it is characterized in that, this at least one container has more at least one passage of heat, and the heat energy being provided with this heater to give out gives heat transfer.
15. fused glass pellet devices as claimed in claim 14, it is characterized in that, this at least one container has more a heat transfer fin, is provided with passage of heat at least one with this and is communicated with, to implement heat exchange action.
16. fused glass pellet devices as claimed in claim 15, it is characterized in that, this at least one container has more a fan, is provided with strengthening this heat transfer fin and implements heat exchange action.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201521002206.4U CN205219754U (en) | 2015-12-07 | 2015-12-07 | Fused deposition modeling device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201521002206.4U CN205219754U (en) | 2015-12-07 | 2015-12-07 | Fused deposition modeling device |
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| Publication Number | Publication Date |
|---|---|
| CN205219754U true CN205219754U (en) | 2016-05-11 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201521002206.4U Expired - Fee Related CN205219754U (en) | 2015-12-07 | 2015-12-07 | Fused deposition modeling device |
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| Country | Link |
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| CN (1) | CN205219754U (en) |
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106041087A (en) * | 2016-07-28 | 2016-10-26 | 西安交通大学 | Low-melting metal fusion deposition 3D printing method based on continuous fiber traction |
| CN106853674A (en) * | 2015-12-07 | 2017-06-16 | 研能科技股份有限公司 | Fused glass pellet device |
| CN106863770A (en) * | 2017-01-12 | 2017-06-20 | 南京航空航天大学 | The preparation method of the structural circuit unitary member based on fusion sediment forming technique |
| CN112477133A (en) * | 2020-08-28 | 2021-03-12 | 中科院广州电子技术有限公司 | Mixed continuous fiber reinforced material 3D printing extrusion system |
-
2015
- 2015-12-07 CN CN201521002206.4U patent/CN205219754U/en not_active Expired - Fee Related
Cited By (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106853674A (en) * | 2015-12-07 | 2017-06-16 | 研能科技股份有限公司 | Fused glass pellet device |
| CN106041087A (en) * | 2016-07-28 | 2016-10-26 | 西安交通大学 | Low-melting metal fusion deposition 3D printing method based on continuous fiber traction |
| CN106041087B (en) * | 2016-07-28 | 2018-03-16 | 西安交通大学 | Low-melting-point metal fusion sediment 3D printing method based on continuous fiber traction |
| CN106863770A (en) * | 2017-01-12 | 2017-06-20 | 南京航空航天大学 | The preparation method of the structural circuit unitary member based on fusion sediment forming technique |
| CN106863770B (en) * | 2017-01-12 | 2018-10-19 | 南京航空航天大学 | The production method of structural circuit unitary member based on fusion sediment forming technique |
| CN112477133A (en) * | 2020-08-28 | 2021-03-12 | 中科院广州电子技术有限公司 | Mixed continuous fiber reinforced material 3D printing extrusion system |
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