KR20160064475A - a reinforcement material attaching 3d printer's bulid platform for 3D printing - Google Patents

Abstract

The present invention relates to a three dimensional printer reinforcement material attached on a build platform of a three dimensional printer. The three dimensional printer reinforcement material of the present invention is attached to a build platform of the three dimensional printer, so the breakaway of an output sculpture in a molding process of the three dimensional printer is prevented by molding the output sculpture of the three dimensional printer in the three dimensional printer reinforcement material; a finished output sculpture after finishing the molding process of the three dimensional printer can be easily removed; and the build platform flatness of the three dimensional printer can be maintained.

Description

A 3D printer prime mover attached to a 3D printer build platform is a 3D printer's bulid platform for 3D printing.

The present invention provides a 3D printer stiffener to be mounted on a build platform, which is a part where a 3D printer is produced, when a 3D printer of various types is operated, and the result of the 3D printer is attached to a 3D printer stiffener, To a method for improving the quality of a molding and greatly improving the output success probability of a 3D printer and a 3D printer reinforcement.

Today 3D printers are one of the most promising areas. There are various methods such as EBDM, SLS, DLP, SLA and FDM (FFF) for 3D printers. The common point of these various types of 3D printers is to form a three-dimensional three-dimensional sculpture.

The place where these three-dimensional sculptures are formed is called the build platform. It is the principle of most 3D printers to build the output of an overall 3D printer by stacking layers of the plastic objects to be printed on this build platform horizontally.

In this case, an important factor for obtaining the output result desired by the 3D printer is that, during the process of shaping the output result of the 3D printer, the output platform must be well attached to the build platform, I need to be able to easily remove the output artifacts that were created on the build platform from the build platform.

To explain this in more detail, most of the various 3D printer methods recognize a molding object to be printed as a horizontally split layer, and form an output artwork by molding the split layer. The entire output artwork is formed by forming a first layer on a build platform where the output artwork is formed, forming a second layer on the first layer formed, and forming a third layer on the second layer formed .

It is important to note that the first layer of the 3D printer that is built into the build platform until the end of the entire output process is tightly attached to the build platform. If it is not attached and the first layer deviates from the build platform, the next layer formed after the first layer is formed at an undesired position, so that the desired output image can not be obtained. In addition, Can be degraded.

Also, after the 3D printer has finished molding, it should be easy to remove the finished output sculpture from the build platform. If the output sculpture formed on the build platform is too tightly attached to the build platform and is difficult to remove, there is a possibility of damage to the 3D printer or damage to the output sculpture in the process of removing the output sculpture from the build platform.

There are two factors for raising the quality of the output sculpture of the 3D printer described above, that is, the build platform where the output sculpture is to be formed and the layer constituting the output sculpture must be firmly attached, and after the output process of the 3D printer is completed, Various methods are currently being used to satisfy the requirement that the finished output sculpture can be easily removed from the platform.

In order to facilitate the description of the present invention, various 3D printer methods will be described based on the FDM method. This is an example for explaining the invention, and it goes without saying that the present invention can be used in another type of 3D printer method.

The FDM method, which is the most widely used method among various 3D printer methods at present, is a method of forming an output sculpture by dissolving an actual material in a heat and discharging it onto a build platform to form a layer. In this FDM method, a variety of methods are used to ensure that the build platform and the output sculpture adhere well to the output process, and the output process is finished and the output sculpture is well removed from the build platform.

One method is to dilute the materials used in the 3D printer with acetone and apply it to the build platform. Applying diluted acetone to the build platform and heating the build platform, the acetone will evaporate and only the 3D printer material will remain in the form of fine powder on the build platform. The problem with this method using the property of attaching the same material is that the user inhaling the acetone in vapor form during the evaporation of the acetone is not very good for the user's health, There is a drawback in that it is very difficult to remove the output sculpture from the build platform.

Another commonly used method is to start the output after applying a solid glue, such as glue, onto the build platform before activating the 3D printer. This method of using the adhesive strength of the solid type adhesive is the best method currently used, but when the solid type adhesive hardens, the output is not attached to the build platform until the output process of the 3D printer is completed Most cases are not. In addition, when one 3D output is finished and the 3D output is started again, it is troublesome to directly remove the solid adhesive applied to the build platform.

In addition, there is a method of forming an output sculpture on a stiffener by installing another stiffener directly on the build platform without molding the output sculpture on the build platform. This method is mainly used in this method which facilitates the removal of the output molding from the build platform after the molding process of the 3D printer is finished by not allowing the output molding to be molded into a build platform that is part of the 3D printer but by molding the output molding to another stiffener As the reinforcing material, glass, plastic plate or the like is used. This method is advantageous in that the completed output sculpture can be easily removed and can be removed without damaging the 3D printer. However, in order to adhere the stiffener and the 3D sculpture forming the output sculpture well, And it is difficult to secure the flatness, which is an important factor for improving the quality of the 3D sculpture.

Various methods are being used and a variety of products are available, but there are still no satisfactory methods and products.

The present invention relates to a 3D printer, and more particularly, to a 3D printer, which is an important factor for enhancing the quality of an output sculpture as a result of a 3D printer and obtaining a desired output sculpture, The present invention relates to a method for easily separating a 3D sculpture from a build platform when a 3D printer completes a sculpture, and a 3D printer stiffener that makes it possible to increase the adhesion of a build platform on which a sculpture is formed.

While the 3D printer is modeling the output artifact, if the output artifact is deviated from the build platform by any amount, the layer of the output artifact is not stacked in the correct position, and the output artifact is destroyed. In addition, if the output sculpture is strongly stuck to the build platform, the materials used in the 3D printer are stacked on the build platform, and the deformation of the sculpture caused by the environmental change such as the temperature change, .

In addition, after the 3D printer completes the output sculpture, the output of the 3D printer can be easily removed from the build platform, thereby completing the output process of the 3D printer without damaging the device or damaging the resultant product.

Accordingly, the present invention is directed to a 3D printer reinforcement using a nonwoven fabric, a PET film, and an aluminum film to solve the above-described problems and improve the quality of a 3D printer. More specifically,

A 3D printer stiffener in the form of a thin film form aluminum film adhered to one side of the PET film and a nonwoven fabric on the opposite side of the PET film on which the aluminum film is adhered is mounted on a build platform, Output of the 3D printer is formed on the fabric of the nonwoven fabric at the top of the 3D printer reinforcement of the present invention so that the molding is firmly attached to the correct position throughout the molding process of the 3D printer, The completed output sculpture can be simply removed.

At this time, the output molding of the 3D printer is formed on the nonwoven fabric, and the output molding is firmly attached during the outputting process of the 3D printer. In addition, the 3D printer can also use the thin film aluminum to uniformly and quickly transfer the heat of the build platform and achieve the strength.

It is possible to improve the quality of the output sculpture of the 3D printer and increase the completion success rate by outputting the 3D sculpture of the 3D printer after the 3D printer stiffener described above is mounted on the 3D platform and the build platform.

 Therefore, users using 3D printers can operate 3D printers more easily and conveniently, and even if a low-priced 3D printer is used, high-quality output images can be obtained.

In addition, there is no need to apply a separate material such as acetone, solid type adhesive, etc., which dissolves the output material to the build platform, so that the output sculpture adheres well to the build platform. It is possible to greatly reduce the possibility of a failure of the 3D printer when removing such a separate material.

In addition, after the output process of the 3D printer is completed, the completed output image can be easily removed without affecting the damage or quality of the apparatus.

In order to smoothly describe the present invention in which the 3D printer molding is formed on the 3D printer stiffener by attaching the 3D printer stiffener according to the present invention to the build platform of the 3D printer, an FDM-type 3D printer among the various 3D printer methods, Explain. This is an example for smooth description of the present invention, and it goes without saying that the present invention can be used for 3D printers other than the FDM method.
Further, it should be understood that the exemplary embodiments of the present invention used in the description of the present invention are examples for a smooth description of the present invention, and can be applied to other forms.
1 is a build platform in which output sculptures are formed in FDM 3D printers and 3D printers.
Fig. 2 is an exemplary view and a part of an example of the 3D printer reinforcement according to the present invention.
3 is a view showing a 3D printer stiffener according to the present invention mounted on an FDM-type 3D printer.
4 is a configuration diagram of a 3D printer stiffener according to the present invention.
5 is a cross-sectional view of a 3D printer stiffener according to the present invention.

The present invention relates to a 3D printer reinforcement which can be mounted on a build platform on which a molding of a 3D printer is molded to improve the quality of an output molding of a 3D printer and minimize damage to a 3D printer.

For a better description of the present invention, the FDM method will be exemplified among various 3D printer methods. It is to be understood that the present invention is applicable to other types of 3D printers and can be used for a smooth description of the present invention.

The 3D printer reinforcing material of the present invention

A non-woven fabric in which the 3D printer output sculpture is molded and the output sculpture is prevented from being detached or deformed;

A PET film for adhering a non-woven fabric and an aluminum film;

An aluminum film that evenly distributes the heat generated by the build platform and reinforces the strength of the 3D printer reinforcement;

Lt; / RTI >

This will be described in detail with reference to the drawings

FIG. 1 is a view of a typical FDM 3D printer 5 and a highlighted portion of the build platform 10 on which a 3D printer prime mover 30 is mounted and an output sculpture of a 3D printer is molded.

Fig. 2 is a view of the entire 3D printer stiffener 30 of the present invention and a part of the 3D printer stiffener. It is to be understood that the present invention can be applied to other forms as exemplified for explaining the present invention.

2,

Reference numeral 20 denotes a joined product 20 in which a non-woven fabric, a PET film, and an aluminum film are combined among components of the 3D printer reinforcement according to the present invention. A 3D printer stiffener 30 of the present invention is used in such a manner that a combination 20 made of such a thin film form is attached to a build platform 10 of a 3D printer.

FIG. 3 is a view showing a 3D printer stiffener 30 according to the present invention mounted on a build platform 10 of a 3D printer. In this manner, the output sculpture of the 3D printer is molded on the 3D printer stiffener 30 mounted above the build platform 10. At this time, the method of mounting the 3D printer stiffener 30 of the present invention to the build platform 10 of the 3D printer uses a pressure-sensitive adhesive 400. The pressure sensitive adhesive 400 used in this case can be applied to various kinds of applications.

4 is a configuration diagram of a 3D printer stiffener 30 according to the present invention.

The 3D printer stiffener 30 is composed of a nonwoven fabric 100, a PET film 200, an aluminum film 300, and an adhesive 400.

To explain this in more detail,

The nonwoven fabric 100 is positioned at the top of the 3D printer stiffener 30 and the output molding of the 3D printer is molded to the nonwoven fabric 100. Here, the nonwoven fabric 100 refers to a sheet-like fabric bonded to each other by using adhesiveness of the adhesive or the fibers themselves or entanglement of the fibers without appropriately arranging the fibers in the loom, Of the present invention can be applied to the present invention. The non-woven fabric 100 functions to make the output sculpture stick to the 3D printer stiffener 30 during the output process of the 3D printer. When the output process of the 3D printer is completed, the 3D printer stiffener 30 Thereby facilitating the removal of the output sculpture. This non-woven fabric 100 is attached to the PET film 200.

The aluminum film 300 can uniformly disperse the heat emitted from the build platform 10 on the front surface of the 3D printer stiffener 30 to enhance the quality of the 3D output molding material, And serves to strengthen the strength of the bonded object 20 of the aluminum film 300. This aluminum film 300 is attached to the PET film 200, which is attached in the opposite direction to which the fabric 100 in the form of a nonwoven fabric is attached.

The PET film 200 serves to attach the nonwoven fabric 100 and the aluminum film 300 to each other and maintains the shape of the nonwoven fabric and the combination 20 of the PET film and the aluminum film.

The nonwoven fabrics 100, the PET film 200 and the aluminum film 300 described above are adhered to each other in the form of a thin film as shown in FIG. 2, And is attached to the top of the build platform 10 of the printer 5.

It is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. It is a matter of course that the pressure-sensitive adhesive 400 described in this description can use various kinds of pressure-sensitive adhesives.

5 is a cross-sectional view of the 3D printer stiffener 30 of the present invention.

In more detail,

The 3D printer stiffener 30 of the present invention comprises a nonwoven fabric 100, a PET film 200 and an aluminum film 300 and is attached to the build platform 10 of the 3D printer 5 by a pressure- Respectively. Various types of pressure-sensitive adhesives can be used as the pressure-sensitive adhesive 400 used at this time.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes may be made and equivalents may be resorted to without departing from the scope of the appended claims.

5- 3D Printer
10 - Build Platform
20-bond
30 - 3D Printer Stiffener
100 - Non-woven fabric
200 - PET film
300 - Aluminum film
400 - Adhesive

Claims (4)

The 3D printer reinforcing material of the present invention, which is attached to the build platform of the 3D printer to improve the quality of the output image of the 3D printer and increase the probability of completion and improve the performance of the 3D printer,

A nonwoven fabric fabric positioned at the top of the 3D printer stiffener and having an output sculpture of the 3D printer molded;
An aluminum film that evenly transfers the heat of the 3D printer's build platform to the 3D printer stiffener and ensures the strength of the 3D printer stiffener;
A PET film serving as a coupling agent between a non-woven fabric and an aluminum film;
A pressure-sensitive adhesive for bonding the fabric of the above-described nonwoven fabric, the combination of the aluminum film and the PET film to the build platform of the 3D printer;

The 3D printer reinforcement is mounted on a build platform of a 3D printer to enhance the quality of an output sculpture of the 3D printer.
A method for constructing a 3D printer stiffener which is formed in a thin film form by adhering a non-woven fabric and an aluminum film on both sides of a PET film to a PET film to be attached to a build platform of a 3D printer through an adhesive, A method for improving output quality and 3D printer performance by forming an output molding of a 3D printer on a non-woven fabric in accordance with claim 1 A method for enhancing thermal conduction of a build platform of a 3D printer by including an aluminum film according to claim 1

Images