CN206953585U - A kind of resistant to elevated temperatures 3D printing ejecting device - Google Patents

Abstract

The utility model discloses a kind of resistant to elevated temperatures 3D printing ejecting device, described device includes pedestal, pedestal is provided with mounting hole, it is sequentially provided with feed module, radiating module, heating module and nozzle from top to bottom on pedestal, the feed module includes stepper motor and extruder, extruder upper end is provided with charging aperture, and extruder lower end is provided with a passage, and passage after heating module by connecting nozzle；A heat insulation module is provided between feed module and radiating module, the heat insulation module stacks including X to sliding block and Y-direction sliding block, two groups of sliding block cross top-bottom cross, and every group of sliding block includes two unit sliding blocks arranged side by side；The heat insulation module bottom is additionally provided with a heat-insulated contiguous block；A transport module is additionally provided between heat insulation module and heating module, the transport module includes a trunnion and connecting seat, and the trunnion is located between passage and nozzle, is fitted close between trunnion and nozzle.Jet element uses stagewise disassembly design, is easy to simple and quick maintenance.

Description

A kind of resistant to elevated temperatures 3D printing ejecting device

Technical field

The utility model belongs to 3D printer field, more particularly to a kind of resistant to elevated temperatures 3D printing ejecting device.

Background technology

3D printer is also known as three-dimensional printer, is a kind of a kind of machine of accumulation manufacturing technology, i.e. RP technique, it Based on being a kind of mathematical model file, with metal or plastic or other material can jointing material, pass through the bonding of printing from level to level Material come manufacture three-dimensional object.Typical FDM printers are mainly made up of radiating block, trunnion, heat block, nozzle, printhead By the use of frictional force as power, the material that rear is not melted is pushed ahead, so as to which the material that leading portion melts be extruded from nozzle. Because throat inner radius is more than silk material diameter, in printing such as trunnion radiating not in time, the material of leading portion fusing not only can be from nozzle Extrusion, it will also be formed and flow backwards in the gap of trunnion and silk material, so that the frictional force increase between silk material and trunnion, is even resulted in Material overflows from trunnion rear end, causes not wire vent.

Because what is relied on when silk material is extruded from nozzle is the thrust of the non-melted material in rear forward, with the increasing of time-write interval Long, if the temperature of trunnion rear end reaches more than material glass temperature, silk material softening, thrust forward diminishes, then spinning amount subtracts It is small, silk material extrusion narrowed width so that element precision reduces.Particularly with the high performance polymer such as PEEK, polyimides, a side Plane materiel material viscosity is big, and tolerable gap flows backwards distance and is inherently shorter than ABS, PLA, and material melting point is high in addition, nozzle print Temperature typically more than 350 DEG C, the radiating of traditional radiating block be difficult to make trunnion rear end temperature be reduced to material glass temperature with Under, therefore usually there is " plug " phenomenon.For the high-melting-points such as PEEK, polyimides, high viscosity material, existing printhead knot Structure can not meet the cooling requirements of trunnion, it is impossible to realize that the long-time of such material continuously finely prints.

The content of the invention

In order to solve the above problems, the utility model provides a kind of resistant to elevated temperatures 3D printing ejecting device, can orient every Heat, the gap improved in high temperature print procedure are flow backwards, so as to keep stable printing precision in continuous print procedure for a long time.

Adopted the following technical scheme that for this：A kind of resistant to elevated temperatures 3D printing ejecting device, described device include pedestal, base Seat is provided with mounting hole, is sequentially provided with feed module, radiating module, heating module and nozzle from top to bottom on pedestal, described Feed module includes stepper motor and extruder, and extruder upper end is provided with charging aperture, and extruder lower end is provided with a passage, guide Pipe connects nozzle after passing through heating module；It is characterized in that：A heat insulation module, institute are provided between feed module and radiating module State heat insulation module to stack to sliding block and Y-direction sliding block, two groups of sliding block cross top-bottom cross including X, every group of sliding block includes two side by side Unit sliding block, the passage be located at X to the side of sliding block and positioned at Y-direction sliding block two unit sliding blocks between；It is described heat-insulated Module bottom is additionally provided with a heat-insulated contiguous block；A transport module, the transmission are additionally provided between heat insulation module and heating module Module includes a trunnion and connecting seat, and the trunnion is located between passage and nozzle, is fitted close between trunnion and nozzle；The company The heat-insulated contiguous block of joint chair is connected by screw；The heating module includes a heat block, and the trunnion passes through spiral shell with heat block Silk connection；Heating module side is provided with radiating module, and the radiating module includes fan and fan thermal conductivity groove.

Further, the surface of the extruder is provided with several heat emission holes.

Further, the unit sliding block is linear slider, and its material is polyether-ether-ketone.

Further, the trunnion is stainless steel, and the central aperture surface finish of trunnion is 0.2.

Further, the material of the contiguous block is boron nitride ceramics.

Further, the heat block is heated aluminum block.

Further, the nozzle uses full tungsten material.

By this programme, X to and the sliding blocks of two groups of polyether-ether-ketone materials of Y-direction can ensure backlass in print procedure Precision, it can also be used to high-speed mobile；Polyetheretherketonematerials materials machining property itself is superior, and good in insulation effect, can avoid Motor temperature is too high and conducts heat to throat section, is allowed to soften.The heat-insulated contiguous block of boron nitride ceramics material have every Hot function, can be completely heat-insulated by the heat that head point is heated below, and boron nitride ceramics lubrication is excellent, is avoided in consumptive material guide hole part Frictional resistance；And boron nitride mechanical process capacity is good, available for common in-vehicle, Milling Machining.The spray of the trunnion of stainless steel and full tungsten Tight-lipped close fit, by screw connection, the contiguous block of trunnion and boron nitride ceramics passes through screw connection, protects for trunnion and heated aluminum block Card material is not spilt in print procedure, heat indiffusion.The central aperture surface finish of stainless steel trunnion is 0.2 so that is beaten Print the big material of viscosity not plug.The nozzle uses full tungsten material, ensures to wear during printed material long-term use, It is resistant to ultra-high temperature.Jet element uses stagewise disassembly design, is easy to simple and quick maintenance, and human oriented design is more convenient to be used Family.

Brief description of the drawings

Fig. 1 is schematic diagram of the present utility model.

Fig. 2 is side view of the present utility model.

Fig. 3 is A-A faces of the present utility model sectional view.

Embodiment

Referring to accompanying drawing.The present embodiment includes pedestal 1, and pedestal is provided with mounting hole, is sequentially provided with from top to bottom on pedestal Feed module, radiating module, heating module and nozzle, the feed module include stepper motor 2 and extruder 3, extruder Surface is provided with several heat emission holes 4, and extruder upper end is provided with charging aperture 5, and extruder lower end is provided with a passage 6, and passage leads to Nozzle 7 is connected after crossing heating module；A heat insulation module 8, the heat insulation module bag are provided between feed module and radiating module Include X to stack to sliding block 9 and Y-direction sliding block 10, two groups of sliding block cross top-bottom cross, every group of sliding block includes two units arranged side by side and slided Block, the unit sliding block are linear slider, and its material is polyether-ether-ketone；The passage is located at X to the side of sliding block and is located at Y To between two unit sliding blocks of sliding block；The heat insulation module bottom is additionally provided with the heat-insulated contiguous block 11 of borazon ceramic material； A transport module is additionally provided between heat insulation module and heating module, the transport module includes a trunnion 12 and connecting seat 13, The trunnion is stainless steel, and the central aperture surface finish of trunnion is 0.2；The trunnion 12 is located at passage 6 and nozzle 7 Between, it is fitted close between trunnion and nozzle；The connecting seat 13 is connected with heat-insulated contiguous block 11 by screw；The heating module Including a heated aluminum block 14, the trunnion passes through screw connection with heated aluminum block；Heating module side is provided with radiating module, described Radiating module includes fan 15 and fan thermal conductivity groove 16；The material of the nozzle 7 is full tungsten material.

Claims (7)

1. a kind of resistant to elevated temperatures 3D printing ejecting device, described device includes pedestal, and pedestal is provided with mounting hole, on pedestal from Top to bottm is sequentially provided with feed module, radiating module, heating module and nozzle, and the feed module includes stepper motor and extrusion Machine, extruder upper end are provided with charging aperture, and extruder lower end is provided with a passage, and passage after heating module by connecting nozzle； It is characterized in that：A heat insulation module is provided between feed module and radiating module, the heat insulation module includes X to sliding block and Y To sliding block, two groups of sliding block cross top-bottom cross stack, and every group of sliding block includes two unit sliding blocks arranged side by side, and the passage is located at X is to the side of sliding block and between two unit sliding blocks of Y-direction sliding block；The heat insulation module bottom is additionally provided with a heat-insulated connection Block；A transport module is additionally provided between heat insulation module and heating module, the transport module includes a trunnion and connecting seat, institute State trunnion to be located between passage and nozzle, be fitted close between trunnion and nozzle；The heat-insulated contiguous block of connecting seat passes through screw phase Connection；The heating module includes a heat block, and the trunnion passes through screw connection with heat block；Heating module side, which is provided with, to be dissipated Thermal modules, the radiating module include fan and fan thermal conductivity groove.

2. according to a kind of resistant to elevated temperatures 3D printing ejecting device described in claim 1, it is characterised in that：The table of the extruder Face is provided with several heat emission holes.

3. according to a kind of resistant to elevated temperatures 3D printing ejecting device described in claim 1, it is characterised in that：The unit sliding block is Linear slider, its material are polyether-ether-ketone.

4. according to a kind of resistant to elevated temperatures 3D printing ejecting device described in claim 1, it is characterised in that：The trunnion is stainless Steel material, the central aperture surface finish of trunnion is 0.2.

5. according to a kind of resistant to elevated temperatures 3D printing ejecting device described in claim 1, it is characterised in that：The material of the contiguous block Matter is boron nitride ceramics.

6. according to a kind of resistant to elevated temperatures 3D printing ejecting device described in claim 1, it is characterised in that：The heat block is to add Hot aluminium block.

7. according to a kind of resistant to elevated temperatures 3D printing ejecting device described in claim 1, it is characterised in that：The nozzle is using complete Tungsten material.