RU179144U1 - Device for the manufacture of three-dimensional prototypes using highly filled reinforced polymeric materials - Google Patents

Abstract

The utility model relates to the field of three-dimensional prototyping, in particular to devices for the manufacture of three-dimensional prototypes. The purpose of the proposed utility model is to eliminate these drawbacks, namely: the creation of a device for the manufacture of three-dimensional prototypes, capable of creating three-dimensional prototypes using filled and highly filled polymer compositions as a consumable material with the possibility of introducing a continuous reinforcing filler into the polymer and including creation of three-dimensional prototypes of the mechanism of forced blocking of the polymer melt exit. The features of the device for the manufacture of three-dimensional prototypes is carried out in such a way that the device for the manufacture of three-dimensional prototypes contains a heat chamber, a positioning device in three-dimensional coordinates, a heating platform, a microcontroller control unit, which contains a polymer extrusion and reinforcement device. The polymer extrusion and reinforcement device includes a reinforcing filament bobbin, a polymer granulate hopper, a screw extruder stepper motor, a screw extruder reducer, an extruder cylinder, a polymer melt forced blocking mechanism, a reinforcing filament feed device, an extruder thermoplank, a nozzle, a reinforcing filing line , and the stepper motor of the bobbin of the reinforcing thread. The polymer extrusion and reinforcement device allows the use of polymers, filled and highly filled polymer compositions, as a polymer material for creating three-dimensional prototypes.

Description

The utility model relates to the field of three-dimensional prototyping, in particular to devices for creating three-dimensional prototypes.

A known device for the manufacture of three-dimensional prototypes, including a polymer and reinforcing filament feed device that moves in three-dimensional coordinates according to a predetermined algorithm [US patent No. 9579851, class. B29C 67/00, B29C 70/20, B29L 9/00; publ. 07/17/2014].

The disadvantages of this device for the manufacture of three-dimensional prototypes include the impossibility of constructing three-dimensional prototypes using highly filled polymeric materials and the absence of a system for blocking the exit of the polymer melt.

The closest in technical essence and the achieved effect is a device for the manufacture of three-dimensional prototypes, based on the technology of poltrusion - the formation of reinforced polymer materials. Reinforced polymeric materials are obtained by filling the polymer melt with continuous reinforcing fibers, and forming three-dimensional prototypes from the filled melt [US patent No. 9616623, class. В29С 70/52, В29С 51/14, В29С 51/20, В29С 51/26, В29С 51/42, В29С 51/46, Е04В 1/32, G05B 19/4099; publ. 04/11/2017].

The disadvantage of this device for the manufacture of three-dimensional prototypes is the lack of a mechanism for forcibly blocking the exit of the polymer melt, which significantly impairs the quality of the final three-dimensional prototypes, as well as the inability to reinforce highly filled polymeric materials.

The purpose of the proposed utility model is to eliminate these drawbacks, namely: the creation of a device for the manufacture of three-dimensional prototypes, capable of creating three-dimensional prototypes using filled and highly filled polymer compositions as a consumable material with the possibility of introducing a continuous reinforcing filler into the polymer composition and incorporating into the composition of the device creation of three-dimensional prototypes mechanism of forced blocking of the polymer melt exit.

This goal is achieved in that the device for the manufacture of three-dimensional prototypes contains a heat chamber, a positioning device in three-dimensional coordinates, a heating platform, a microcontroller control unit that contains a polymer extrusion and reinforcement device. A special polymer extrusion and reinforcement device includes a reinforcing filament reel, a hopper for polymer granulate, a screw extruder stepper motor, a screw extruder reducer, an extruder cylinder, a polymer melt forced blocking mechanism, a reinforcing filament feed device, an extruder thermoplank, a nozzle, a reinforcing feed line threads, and the stepper motor of the reinforcing thread bobbin. The polymer extrusion and reinforcement device allows the use of polymers, filled and highly filled polymer compositions, as a polymer material for creating three-dimensional prototypes.

In FIG. 1 shows a device for manufacturing three-dimensional prototypes (isometry); FIG. 2 - device for extrusion and reinforcement of the polymer; FIG. 3 - algorithm for generating a G-code; tab. 1 is a list of polymers, polymer compositions and continuous reinforcing materials that are processed using a three-dimensional prototyping device.

A device for manufacturing three-dimensional prototypes includes a heat chamber - 1, a positioning device in three-dimensional coordinates - 2, a heating platform - 3, a reinforcing thread spool - 4, a microcontroller control unit - 5, a hopper for polymer granulate - 6.

A device for the manufacture of three-dimensional prototypes (Fig. 1) works as follows. The G-code is loaded into the microcontroller control unit 5, according to which the positioning device in three-dimensional coordinates 2 moves the heating platform 3, on which the construction of polymer three-dimensional prototypes is carried out. The construction of three-dimensional prototypes is carried out by introducing into the melt composition of filled and highly filled polymer compositions, continuous reinforcing threads from a bobbin of reinforcing threads 4.

The polymer extrusion and reinforcement device (Fig. 2) includes a hopper for polymer granulate - 6, a stepper screw extruder motor - 7, a screw extruder reducer - 8, an extruder cylinder - 9, a polymer melt forced blocking mechanism, 10, a reinforcing feed device filaments - 11, extruder thermoplank - 12, nozzle - 13, reinforcing filament feed line - 14, reinforcing filament spool - 4, stepper motor of the reinforcing filament bobbin - 15, melting area of the screw extruder - 16.

The polymer extrusion and reinforcing device operates as follows: when a screw extruder 7 is fed into the hopper for polymer granulate 6, the step motor of the screw extruder 7 transfers the polymer granulate from the hopper for polymer granulate 6 to the melting zone of the screw extruder 16. The molten polymer granulate (polymer melt ) passes through the thermoplane of the extruder 12, where the polymer melt is reinforced. The reinforcing thread from the bobbin for the reinforcing thread 4 is programmatically fed through the feed line of the reinforcing thread 14 to the feed device of the reinforcing thread 11. The feed device of the reinforcing thread programmably doses the reinforcing thread to the polymer melt located in the thermoplank 12. Next, the polymer melt, including the reinforcing thread, enters the nozzle 13. The polymer melt in the process of building three-dimensional prototypes is periodically blocked to prevent non-programmable exit from the nozzle using the mechanism 10.

The algorithm for generating the G-code (Fig. 3) in the software environment proceeds as follows. A 3D model is loaded into a specially designed software shell, for which the conditions for creating a three-dimensional prototype are specified: geometric characteristics of a three-dimensional prototype; print speed; print quality, etc. The program shell has a function to enable or disable the introduction of a reinforcing thread into the polymer melt. Further, in accordance with the specified conditions, a G-code is generated, which is transmitted to the microcontroller control unit.

Thus, the device for the manufacture of three-dimensional prototypes contains, a heat chamber - 1, a positioning device in three-dimensional coordinates - 2, a heating platform - 3, a microcontroller control unit - 5, which contains a polymer extrusion and reinforcement device. The polymer extrusion and reinforcing device includes a reinforcing filament bobbin - 4, a hopper for polymer granulate - 6, a screw extruder stepper motor - 7, a screw extruder reducer - 8, an extruder cylinder - 9, a polymer melt forced blocking mechanism - 10, a feed device reinforcing filament — 11, extruder thermoplank — 12, nozzle — 13, reinforcing filament feed line — 14, and reinforcing filament bobbin stepper motor — 15. The polymer extrusion and reinforcement device allows use as a polymer material to create three-dimensional prototypes of polymers, filled and highly filled polymer compositions.

Compared with the closest analogue, the use of the proposed device, including the mechanism of forced blocking of the polymer melt exit, for the manufacture of three-dimensional prototypes allows the construction of three-dimensional prototypes using filled and highly filled polymer compositions as a consumable with the possibility of introducing filled and highly filled polymer material into the melt reinforcing thread.

Claims (1)

A device for the manufacture of three-dimensional prototypes containing a vented heat chamber, a heating platform connected to a positioning device in three-dimensional coordinates, connected to a microcontroller control unit, characterized in that it contains a polymer extrusion and reinforcing device, including a reinforcing filament spool, a hopper for polymer granulate, screw extruder stepper motor, screw extruder gearbox, extruder cylinder, forced melt blocking mechanism pa, reinforcing yarn feeding device termoplanku extruder, nozzle, supply line reinforcing yarn bobbin stepper motor reinforcing strands and allows use as a polymer material to create a three-dimensional prototype polymers, filled and highly filled polymer compositions.

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