KR102398372B1 - Nozzle assembly for 3D printer with clay as the main material - Google Patents

Abstract

The present invention relates to a nozzle assembly for a 3D printer using clay as a main material, which can form ceramics with a 3D printer using clay,
A discharge screw 60 for pushing the blended clay into the injection hole is built-in, and when the discharge screw 60 is rotated, a clay injection hole 11 through which the blended clay is sprayed is formed, and at the upper end, at least one or more clay is introduced. The nozzle tube body 10 on which the clay inlet tube 12 is formed, the position is fixed on the outer peripheral surface of the nozzle tube body 10, and the air inlet tube 21 through which external air is introduced is connected and fixed to allow ventilation, and the clay An air injection tube 20 having an air injection hole 22 formed at the lower end so as to inject air into the clay that is sprayed from the injection hole 11 and is 3D printed, the nozzle tube body 10 and the air injection tube 20 ) is arranged and fixed between the rotational inductors 30 to be injected into the air injection holes 22 while rotating the air introduced through the air inlet pipe 21 .

Description

Nozzle assembly for 3D printer with clay as the main material

The present invention relates to a nozzle assembly for a 3D printer using clay as a main material, and more particularly, to a nozzle assembly for a 3D printer using clay as a main material, which can mold ceramics with a 3D printer using clay.

In general, a 3D printer is a 3D printer that uses 3D data about an object to mold the object as it is. It started with modeling or sample production before mass production and some industrial applications, and its application range gradually expanded to medical, household, educational, etc. It is in a growing trend.

The additive method and the cutting method are mainly used for the molding method of this 3D printer, and the additive method is a method of forming a target object (molding product) in a two-dimensional planar shape while laminating it in three dimensions and melting and attaching it, and the cutting method The method of cutting a solid material as if engraving it to make a shape, but the method to be mainly dealt with in the present invention can be said to be a part of the addition method.

More specifically, in the additive method, a wire or filament made of thermoplastic is supplied through a supply reel and a moving roll, and the supplied filament is mounted on a three-dimensional moving mechanism that is positioned relative to the workbench in three X, Y, and Z directions. It relates to a filament melt lamination molding method in which a two-dimensional planar molded product is made by melting and discharging it from a carrier, and stacking it by sequentially stacking it to shape an object in three dimensions.

As a prior art for a 3D printer to which the additive method is applied as described above, Patent Registration No. 10-1451794 (Title of the Invention: Composite 3D Printer and its Control Method) can be cited.

The patent registration No. 10-1451794 has a simple structure and can mold molded products with more than 256 full-color colors, can mix materials with different properties in a 3D printer, and is innovative in terms of precision and molding speed. Not only that, even if the product is molded by mixing materials with different physical properties, the seam is smooth and the product is not damaged or the integrity is not weakened due to the complete mixing of materials with different properties.

In addition, in Patent Registration No. 10-1430582 (Title of the invention: a three-dimensional printer device consisting of an extruder composed of a multi-feeder and a rotary multi-nozzle and a driving method thereof), a body forming the exterior of a three-dimensional printer; Multi-feeder that is controlled by one motor and accommodates a plurality of filaments; In order to move the filament supplied through the multi-feeder to the following rotary multi-nozzle, a tube connecting the multi-feeder and the rotary multi-nozzle; a rotary multi-nozzle for spraying the filament supplied through the multi-feeder; an X-axis moving unit installed at one side of the rotary multi-nozzle to move the rotary multi-nozzle in the X-axis; a Y-axis moving unit installed to be movable in the Y-axis of the rotating multi-nozzle installed X-axis moving unit; a bed to which a sculpture in which a filament is sprayed and laminated from the rotary multi-nozzle is attached; a bed moving unit supporting the bed to be movable up and down; The configuration is disclosed, and in Korean Patent Registration No. 10-1346704 (title of the invention: a three-dimensional printer apparatus consisting of an extruder composed of a multi-feeder and a rotary multi-nozzle, and a driving method thereof), X disposed on the upper part of the frame a heater nozzle mounted on the linear movement mechanism and the Y linear movement mechanism and positioned in the X and Y directions; It is mounted on a Z linear motion mechanism that is positioned relative to the heater nozzle in the Z direction.

bench; a plurality of filament moving parts disposed on one side of the frame and each moving a plurality of thermoplastic filaments in the form of wires to the heater nozzle; a nozzle body having a plurality of introduction holes into which the plurality of filaments are individually introduced into the heater nozzle; a nozzle head in which a single discharge hole through which the plurality of introduction holes are merged into a single passage to be discharged; a controller for individually controlling the position adjustment of the X, Y, and Z phases of the heater nozzle assembly and the movement operation of the plurality of filament moving parts; There is disclosed a technology related to a 3D printer device comprising a.

The prior invention as described above is different from the clay of the present invention in that the 3D printing material is limited to the filament, and in the prior invention, a heater for melting the filament is configured, but the 3D printer nozzle assembly for the clay of the present invention requires a heater No, it is intended to mold ceramics as shown in FIG. 1 with a 3D printer.

1. Patent Registration No. 10-1451794 (Title of the invention: composite 3D printer and its control method) 2. Republic of Korea Patent Registration No. 10-1430582 (Title of the invention: 3D printer device consisting of a multi-feeder and an extruder composed of a rotary multi-nozzle and a driving method thereof) 3. Republic of Korea Patent Registration No. 10-1346704 (Title of the invention: a three-dimensional printer device consisting of an extruder composed of a multi-feeder and a rotary multi-nozzle and a driving method thereof)

In the present invention, it was conceived to meet the recognition and necessity of the above problems, and it is possible to play a role in increasing added value by molding ceramics using clay as the main material, and enabling industrial mass production while emphasizing practicality and aesthetics. An object of the present invention is to provide a nozzle assembly for a 3D printer using clay as a main material.

Another object of the present invention is to allow a plurality of ceramic creations to be molded, rather than one handmade ceramic creation.

In the nozzle assembly (S) for a 3D printer using clay as a main material of the present invention for achieving the above object, a discharge screw 60 for pushing the blended clay into a spray hole is built-in, and the rotation of the discharge screw 60 The nozzle tube body 10 is formed with one or more clay inlet tubes 12 through which clay is introduced at the upper end, and the outer peripheral surface of the nozzle tube body 10 is formed with clay spray holes 11 through which the blended clay is sprayed during operation. The air inlet pipe 21 through which external air is introduced is connected and fixed to allow ventilation, and air is sprayed at the lower end of the clay spray hole 11 so that air can be sprayed into the 3D printed clay. The air injection tube 20 having the hole 22 formed therein and the nozzle tube body 10 and the air injection tube 20 are fixedly disposed and fixed to rotate the air introduced through the air inlet tube 21 while rotating the air injection hole ( 22) characterized in that it is configured to include a rotating inductor 30 to be sprayed.

At this time, the air injection tube 20 is characterized in that the screw line 40 is formed on the outer peripheral surface of the nozzle tube body 10 to be easily attached and detached, respectively, and is coupled and fixed.

In addition, the rotational inductor 30 is characterized in that it is composed of an integral or separate type with the nozzle tube body (10).

In addition, it is characterized in that a pneumatic regulator 50 is configured on one side of the air inlet pipe 21 so that the user can arbitrarily adjust the air pressure according to the type of clay and the moisture content.

The nozzle assembly for a 3D printer using clay as a main material of the present invention having the above characteristics is significant in that it enables industrial mass production while emphasizing practicality and aesthetics while molding ceramics using clay as a main material by 3D printing. It is effective, and furthermore, it has an effect that can play a part in increasing added value.

1 is an example of ceramics to be 3D printed using clay
2 is a front cross-sectional view showing a preferred embodiment of the present invention;

Hereinafter, a nozzle assembly (S) for a 3D printer using clay as a main material provided by the present invention according to the accompanying drawings and preferred embodiments will be described.

First, the nozzle assembly (S) for a 3D printer using clay as a main material provided by the present invention has a large discharge screw built-in as shown in FIG. 2, and a nozzle tube body 10 that guides the clay to be introduced and discharged to the injection hole. ) and the air injection tube 20 that injects air into the injection hole 11, and the rotational inductor 30 that adjusts the injection speed without direct injection of air is the main core, and the clay is injected It is 3D printed and at the same time drying and humidity can be easily controlled by air spraying, which suppresses bubble formation and prevents defects during plastic processing.

More specifically, the nozzle tube body 10 is formed in the shape of a tube (pipe) so that the clay can be sprayed into the spray hole 11, and a discharge screw 60 that discharges the clay into the spray hole is rotatable inside. do.

In addition, one or more clay inlet pipes 12 through which clay is introduced may be configured on one upper side of the nozzle tube body 10 , and it is preferable that the clay introduced into the clay inlet pipe is in a state of quantitative mixing with water.

As shown in FIG. 2, the air inlet tube 21 is connected and fixed to the outer peripheral surface of the nozzle tube body 10 so that air can be introduced into the air injection tube 20, and the lower end is 3D An air injection hole 22 is formed so that air can be injected into the printed clay.

In addition, the air injection tube 20 is coupled to the nozzle tube body 10 and screw lines 40 are formed for easy attachment and detachment, respectively, and on one side of the air inlet tube 21 according to the type of clay and moisture content The pneumatic regulator 50 is configured so that the user can arbitrarily adjust the air pressure.

And between the nozzle tube body 10 and the air injection tube 20, while rotating the air introduced through the air inlet tube 21, the rotational inductor 30 to be injected into the air injection hole 22 is arranged and fixed. , it is possible to prevent direct injection of air by the rotational inductor 30 , thereby facilitating stable multilayer 3D printing.

The nozzle assembly (S) for a 3D printer using clay as a main material of the present invention having the above characteristics is not a one-time molding of a ceramic product of the design as shown in FIG. 1 by a craftsman, but through 3D printing technique By facilitating industrial production, it has the effect of creating added value and molding even extremely difficult ceramics with 3D printing technique.

Although the embodiments of the present invention have been described, those of ordinary skill in the art can improve the present invention by adding, changing, deleting or adding components within the scope that does not depart from the spirit of the present invention described in the claims. Various modifications and changes may be made, and this will also be included within the scope of the present invention.

S: Nozzle assembly for 3D printers with clay as the main material
10: nozzle tube body 11: clay spray hole
12: clay inlet pipe 20: air jet pipe
21: air inlet pipe 22: air blowing ball
30: rotation inductor 40: screw wire
50: pneumatic regulator 60: discharge screw

Claims (4)

A discharge screw 60 for pushing the blended clay into the injection hole is built-in, and when the discharge screw 60 is rotated, a clay injection hole 11 through which the blended clay is sprayed is formed, and at the upper end, at least one or more clay is introduced. Nozzle tube body (10) formed with clay inlet tube (12); Wow,
It is fixed in position on the outer peripheral surface of the nozzle body 10, and the air inlet pipe 21 through which external air is introduced is connected and fixed to allow ventilation, and air is injected from the clay spray hole 11 to 3D printed clay. An air injection tube 20 having an air injection hole 22 formed at the lower end to be injected; class,
a rotational inductor 30 disposed and fixed between the nozzle tube body 10 and the air injection tube 20 to be injected into the air injection hole 22 while rotating the air introduced through the air inlet tube 21;
Consists of including,
Clay as the main material, characterized in that the rotating inductor 30 is integrally or separated from the nozzle tube body 10 so that direct injection of air can be prevented by the rotating inductor 30 and thus stable stacked 3D printing is facilitated Nozzle assembly for 3D printers.
According to claim 1,
The air jet tube 20 is a nozzle assembly for a 3D printer using clay as a main material, characterized in that each screw line 40 is formed and fixed to the outer peripheral surface of the nozzle tube body 10 for easy attachment and detachment. delete According to claim 1,
A nozzle assembly for a 3D printer using clay as a main material, characterized in that a pneumatic regulator 50 is configured on one side of the air inlet pipe 21 so that a user can arbitrarily adjust the air pressure according to the type of clay and the moisture content.

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