KR101808661B1 - Syringe for Containing Polymer - Google Patents

Abstract

The present invention relates to a syringe for receiving a molten polymer used in an apparatus for three-dimensionally printing a polymer, comprising: a syringe body for containing a molten polymer; A nozzle unit provided at an end of the syringe body and through which the molten polymer passes and is discharged; A first heating unit heating the syringe body to melt the polymer; And a second heating unit provided on the nozzle unit side and heating to a temperature higher than the heating temperature of the first heating unit.

Description

Syringe for Containing Polymer

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a polymer receiving syringe, and more particularly, to a polymer receiving syringe using a polymer in a molten state in a three-dimensional printing apparatus using a polymer.

A technique of forming an object having a desired shape by injecting a polymer in a molten state using a three-dimensional printing apparatus is known. The polymer discharged through the nozzle in a molten state is cured and is formed into a predetermined shape.

In order to melt the polymer material, the polymer material must be heated. As shown in FIG. 1, the heating unit 130 is provided on the printing head 50 on which the syringe body 10 accommodating the polymer 100 is mounted, Melted. The heating unit 130 is heated to a melting point or more of the polymer material to be melted. However, in general, the heating unit 130 heats the syringe body 10 at a temperature higher than the heating temperature, thereby facilitating the spraying through the nozzle, because the polymer can be in a molten state even if heated only at the melting point .

However, in the case of a polymer, changes in physical properties of the polymer are accompanied by a decrease in molecular weight and a decrease in viscosity depending on heating temperature and heating time.

Changes in material properties such as molecular weight and viscosity cause changes in the printing tendency, so that changes in material properties must be minimized to achieve a consistent printing tendency.

The object of the present invention is to provide a polymer receiving syringe of a three-dimensional printing apparatus capable of solving the problems of the above-described prior art and capable of remarkably reducing changes in physical properties of polymer while facilitating injection of polymer in a molten state through a nozzle do.

The present invention relates to a syringe for receiving a molten polymer used in an apparatus for three-dimensionally printing a polymer, comprising: a syringe body for containing a molten polymer; A nozzle unit provided at an end of the syringe body and through which the molten polymer passes and is discharged; A first heating unit heating the syringe body to melt the polymer; And a second heating unit provided on the nozzle unit side and heating to a temperature higher than the heating temperature of the first heating unit.

A heat insulating member may be provided inside the syringe body, and the heat insulating member may be provided at a boundary between the first heating unit and the second heating unit.

The heat insulating member may be provided to extend downward toward the nozzle portion. In this case, the molten polymer material is easily moved downward.

The heat insulating member is preferably an annular member provided with a passage through which the molten polymer can pass.

A molten polymer containing syringe according to another embodiment of the present invention comprises a syringe body for containing molten polymer; A nozzle unit provided at an end of the syringe body and through which the molten polymer passes and is discharged; And a heating unit for heating the syringe body to melt the polymer, and at the nozzle unit side to a temperature higher than a heating temperature for melting the polymer.

The heating unit may have a temperature gradient in which the heating temperature increases from the upper portion of the syringe body to the nozzle portion side.

According to the polymer syringe according to the present invention, since the polymer material is not heated to a temperature higher than the melting point for a long time, changes in physical properties such as a decrease in molecular weight and a decrease in viscosity are remarkably reduced, thereby providing an extremely advantageous effect in the printing process.

1 is a cross-sectional view of a polymer-containing syringe body according to the prior art.
2 is a sectional view of a polymer containing syringe body according to a first embodiment of the present invention.
3 is a sectional view of a polymer containing syringe body according to a second embodiment of the present invention.
4 is a cross-sectional view of a polymer containing syringe body according to a third embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

2 is a cross-sectional view of a polymer receiving syringe 1 according to a first embodiment of the present invention.

2, the polymer receiving syringe 1 includes a syringe body 10 for receiving the molten polymer 100 and a printing head 50 on which the syringe body 10 is mounted. The nozzle unit 20 is provided at the end of the syringe body 10 through which the molten polymer 100 passes and is discharged. The printing head 50 is provided with a first heating part 30 for heating the syringe body 10 to melt the polymer and a second heating part 30 provided on the nozzle part 20 side for heating the syringe body 10 to a temperature higher than the heating temperature of the first heating part 30 A second heating part 40 for heating the syringe body 10 with a temperature is provided. The term "nozzle side" in this specification includes not only the side of the nozzle unit 20 but also the outlet side of the syringe body 10 through which the molten polymer material 100 flowing into the nozzle unit 20 passes . The term "nozzle side" means "nozzle side and / or outlet side of syringe body 10 ".

The first heating unit 30 and the second heating unit 40 may be provided in other forms, not provided in the printing head 50. For example, it may be provided as an independent heating unit without the printing head 50, it may take the form of a heating wire directly surrounding the syringe body 10, or may be provided with a heating part itself, The present invention is not to be construed as limited to the scope of the present invention.

3 and 4 are cross-sectional views of a polymer receiving syringe body according to another embodiment of the present invention. 3 and 4, the heat insulating members 60 and 65 are provided in the syringe body 10. It is preferable that the heat insulating members 60 and 65 are provided at the boundary between the first heating unit 30 and the second heating unit 40. The heat insulating members 60 and 65 prevent the heat generated by the second heating unit 50, which heats the polymer material 100 at a higher temperature, from being transferred to the polymer material of the upper layer. It is preferable that the heat insulating members 60 and 65 are annular members that can be mounted inside the syringe body 10 and have passages 61 and 66 through which the molten polymer material 100 can pass. The heat insulating member 65 shown in FIG. 4 has a shape in which the polymer material 100 in a molten state extends downward toward the nozzle side so as to move downward more smoothly.

According to the present invention, the entire polymer material accommodated in the syringe body 10 is not heated up to a temperature favorable for injection above the melting point, but only the nozzle portion side is heated to that temperature immediately before the polymer material is discharged. Therefore, when heated at a high temperature for a long time, the change in physical properties of the polymer material of the device according to the prior art, that is, the decrease in the molecular weight and the viscosity decrease phenomenon are remarkably reduced.

According to another embodiment of the present invention, it is possible to implement one heating section, not a heating section physically separated by the first heating section and the second heating section.

A single heating unit as in the prior art of FIG. 1 may be used, but the heating unit may be heated to a temperature at which the polymer can be melted at the upper part of the heating part and heated to a temperature higher than that at the nozzle part side. The syringe body 10 may have a temperature gradient such that the heating temperature increases from the upper side of the syringe body 10 toward the nozzle side. The heating temperature difference between the upper part and the nozzle part can be realized by another technique capable of arranging the heating wire or adjusting the heating temperature.

While the present invention has been described with reference to the accompanying drawings, it is to be understood that the scope of the present invention is defined by the claims that follow, and should not be construed as limited to the above-described embodiments and / or drawings. It is to be expressly understood that improvements, changes and modifications that are obvious to those skilled in the art are also within the scope of the present invention as set forth in the claims.

10: syringe body
20:
30: first heating section
40: second heating section
50: Printing head
60, 65: a heat insulating member

Claims (6)

In a molten polymer receiving syringe used in an apparatus for three-dimensionally printing a polymer,
A syringe body for containing the molten polymer,
A nozzle unit provided at an end of the syringe body and through which the molten polymer passes and is discharged;
A first heating unit for heating the syringe body to a molten state to melt the polymer,
And a second heating unit provided to surround at least a part of the nozzle side on the downstream side of the first heating unit and heating to a temperature higher than the melting temperature of the polymer,
A heat insulating member is provided inside the syringe body at a boundary between the first heating part and the second heating part,
Wherein the heat insulating member is provided with a passage through which the molten polymer passes,
Polymer storage syringe.
delete The method according to claim 1,
Wherein the heat insulating member is provided to extend downward toward the nozzle portion,
Polymer storage syringe.
delete In a molten polymer receiving syringe used in an apparatus for three-dimensionally printing a polymer,
A syringe body for containing the molten polymer,
A nozzle unit provided at an end of the syringe body and through which the molten polymer passes and is discharged;
And a heating unit for heating the syringe body to a melting temperature of the polymer to melt the polymer and to heat the polymer to a temperature higher than the melting temperature on the nozzle unit side,
In the interior of the syringe body, a heat insulating member is provided at the boundary between the nozzle side and the syringe body,
Wherein the heat insulating member is provided with a passage through which the molten polymer passes,
Polymer storage syringe.
The method of claim 5,
Wherein the heating portion has a temperature gradient in which the heating temperature increases from the upper portion of the syringe body to the nozzle portion side,
Polymer storage syringe.

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