KR101958700B1 - Base including cooling function for 3D printer - Google Patents

Abstract

The inner molding is laminated on the upper surface in a hollow box shape so that the molded molding can be easily and easily separated from the base by selectively heating or cooling according to the material of the molding to be formed on the base, A base including a cooling function for a 3D printer including a Peltier element capable of cooling can be provided.
Accordingly, it is possible to easily perform the separation without damage or breakage in the separation according to the material of the molding formed on the base.

Description

Base including cooling function for 3D printer Base includes cooling function for 3D printer

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a base of a 3D printer, and more particularly, to a 3D printer, which is capable of easily and easily separating a molded product from a base by selectively heating or cooling the product, Quot; function "

A 3D printer refers to a device for stacking layers of a small thickness while sequentially injecting predetermined materials based on a three-dimensional drawing and outputting a three-dimensional shape of a real object.

A typical 3D printer includes a cavity for forming a molding inside a case, an extrusion portion for extruding a raw material to be molded in the cavity, a carriage having the extrusion portion, a moving portion for moving the carriage, And a base on which the molding is molded while a raw material extruded from the extrusion portion is stacked on the cavity.

The main raw materials used in 3D printers are mainly synthetic resin as well as metal. In some cases, raw materials such as chocolate, which is a type of food, are also used.

Accordingly, the extruding portion is usually provided with a heating means and a cooling means for discharging the raw material.

In addition, the base also has a heating means for separating the molding material formed by the raw material, in particular, a molding material formed of synthetic resin, so as to be easily separated.

In the case of a molded product formed of a raw material such as a hanger, a chocolate, etc., cooling is required due to the characteristics of the material. In the conventional 3D printer, the heating means is provided at the base but the cooling means is not provided. , It is troublesome and inconvenient that the operator has to forcibly remove it from the base using a tool such as a knife or the like.

Background Art [0002] Prior art related to conventional 3D printers includes Korean Patent Laid-Open Publication No. 10-2013-0099865 (hereinafter referred to as "Prior Art Document 1") and Korean Patent Publication No. 10-2016-0021540 (hereinafter referred to as "Prior Art Document 2" (Hereinafter referred to as " Prior Art Document 3 ") and Korean Patent Publication No. 10-1760832 (hereinafter referred to as " Prior Art Document 4 ")), Korean Patent Publication No. 10-2016-0111578 There is a bar.

Korean Patent Publication No. 10-2013-0099865 Korean Patent Publication No. 10-2016-0021540 Korean Patent Publication No. 10-2016-0111578 Korean Patent Registration No. 10-1760832

However, the prior art document 1 has a structure in which heating and cooling fluids are circulated in a molding tool constituting a molding assembly, and the structure is complicated, and it is not suitable for application to a 3D printer for molding a molding by ordinary compression I have.

The prior art documents 2 to 4 have disadvantages in that they are not suitable for application to the base on which the raw material to be extruded is formed because the extruding means in which the raw material is extruded is provided with the cooling portion.

According to an aspect of the present invention, there is provided a method of manufacturing a molded product, comprising: forming a base on a base; And a base including a cooling function for a printer.

Another specific object of the present invention is to enable direct cooling of a molding to be formed on a base.

According to an aspect of the present invention, there is provided a 3D printer comprising: a base which is formed so that a raw material extruded from an extrusion portion of a 3D printer is stacked and formed into a molding, And a Peltier element which can be heated or cooled according to the material of the molding to be formed while being stacked on the upper surface.

And a door that is opened and closed to allow the Peltier element to be drawn out on one side of the base or the bottom surface of the base.

The base further includes a cool air supply portion for supplying the cool air to the upper side of the base upon cooling by the Peltier element.

The cool air supply unit includes a connection pipe connected to the cooler to supply cool air to the upper portion of the base, and an injection nozzle provided at an end of the connection pipe, and a blower Includes a fan.

The connection tube is formed to have flexibility in the form of a double tube.

According to the present invention, it is possible to easily and easily separate the formed molding from the base by selectively heating or cooling the molding according to the material of the molding to be formed on the base, so that it is damaged or broken when separated according to the material of the molding formed on the base So that it is possible to easily perform the separation without the need.

In addition, by directly cooling the molding to be formed on the base, the molding efficiency of the molding can be further improved in a short time, and more precise molding can be achieved.

1 is a partial cross-sectional view for explaining the present invention,
FIG. 2 is a sectional view for explaining a use state according to FIG. 1,
3 is a cross-sectional view for explaining another embodiment of the present invention,
4 is a cross-sectional view for explaining a use state according to FIG.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. The present invention is not limited to the embodiments.

FIG. 1 is a partial cross-sectional view for explaining the present invention, and FIG. 2 is a sectional view for explaining a use state according to FIG.

As shown in the figure, a base 100 provided in a known 3D printer is a component that is formed so that raw materials extruded from the extrusion unit 200 are laminated and molded into a molding material.

Here, a typical 3D printer has a known technical structure, and includes a cavity, which is a space for forming a molding inside a case (not shown), an extrusion portion in which the material to be molded is extruded in the cavity, A control unit for controlling the extruding unit and the moving unit, and a base on which the molding material is molded while the raw materials extruded from the extrusion unit are stacked on the cavity.

In addition, raw materials used in 3D printers are not only metals and synthetic resins, but also chocolates, which are food raw materials.

Accordingly, a heating means is provided in a conventional base of the 3D printer, and if the raw material of the molding to be molded is a synthetic resin, the molding completed can be easily separated.

However, after the molding material is molded using a raw material such as chocolate, which is one of the foods, cooling is required to separate the molding from the base.

The present invention provides a simple and easy separation of a molding from a base by selectively heating or cooling the molding according to the material of the molding to be formed on the base.

The base 100 provided in the 3D printer according to the present invention includes a Peltier element 10 that can be heated or cooled depending on the material of the molding 110 to be molded while being stacked on the upper surface in a hollow box shape, And includes the built-in.

The filter element 10 can be installed on a conventional bracket, a spacer or a guide rail inside the base 100, and is preferably provided on a guide rail so as to be easily carried out. .

As is well known, the Peltier element 10 uses a phenomenon in which a temperature difference is maintained at both ends of a conductive material layer when an electric current is applied. When a hot portion on the opposite side requiring low-temperature cooling is forcibly cooled, . The principle of conservation of energy is that one side gets cold and the other gets hot.

In other words, the basic principle is that electrons need energy to move between two metals with potential difference, and the energy that is needed here is taken from the energy of the metal. By changing the direction of current flow, The flow of holes is reversed, and as a result, the side that emits / absorbs heat also reverses.

The base 10 is preferably made of a metal material having excellent thermal conductivity, and ceramic or the like may be used if necessary. At this time, a known one-way check valve (not shown) is provided on either one of the upper surface and the side surface of the base so that when the inside of the base is heated or cooled to a set temperature or more, the discharge can be easily performed to the outside. In addition, a conventional temperature sensor capable of sensing the internal temperature of the base may be provided in the base.

It is preferable to include a door 102 which is opened or closed by a known method so that the Peltier element 10 can be drawn out on one side surface or the bottom surface of the base 10, Do. That is, when an abnormality occurs in the Peltier element incorporated in the base, the door is provided so that it can be easily and easily replaced.

According to the present invention, the raw material extruded from the extruding part is sequentially laminated on the upper surface of the base by the basic process of the 3D printer, and the extruded part is moved along the input shape to form a required molding.

When the molding of the molding in the shape required for the base is completed in this manner, depending on the material of the molding completed, that is, when the molding is made of synthetic resin, the upper surface of the base is heated by using a Peltier element provided inside the base So that the molded product is smoothly separated from the upper surface of the base.

In addition, when the molding formed on the upper surface of the base requires cooling such as chocolate, which is a kind of food, the upper surface of the base is cooled by using the Peltier element provided inside the base, And separation of the molded molding can be smoothly performed.

Here, the Peltier element can be turned ON / OFF in a known manner by a manual operation of an operator, and can be connected to a controller of a 3D printer to enable heating or cooling by an automatic method depending on the material of the molding to be formed .

Thus, according to the present invention, since the Peltier element capable of being heated and cooled can be built in the basic technical structure, that is, the base can be heated or cooled depending on the material of the molding to be formed on the upper surface of the base It is possible to further enhance the ease of use and to have an excellent efficiency in that the molding formed on the upper surface of the base can be safely and easily separated without being damaged or damaged.

FIG. 3 is a cross-sectional view for explaining another embodiment of the present invention, and FIG. 4 is a cross-sectional view for explaining a use state according to FIG.

As shown in the drawings, the present invention also provides a technical structure that makes it easier to mold a molding when molding a molding using a raw material such as chocolate, which is food.

The base 100 further includes a cool air supply portion 20 for supplying the cool air to the upper side of the base 100 when cooled by the Peltier element 10. [

The cold air supply unit 20 includes a connection pipe 24 including an on-off valve 22 on the side of the base 100 and connected to supply cool air to the upper portion of the base 100, And an air blowing fan 28 for supplying cold air to the inside of the base 100. The connecting tube 24 is formed to have flexibility in the form of a double tube. That is, the connection pipe 24 is composed of a supply tube 24A to which cool air is supplied, and a general corrugated pipe or a bellows type protective tube 24B surrounding the outer circumferential surface of the supply tube 24A .

The cooling air is supplied through the injection nozzle 26 provided at the end of the connection pipe 24 which is the cool air supply part 20 when the molding is to be molded by the chocolate as a kind of food which is a material of the molding object 110 to be molded, It is possible to supply the cool air to the molding objects 110 which are to be formed by the molding process.

In other words, the chocolate raw material to be compressed in the extruding part must be rapidly cooled and simultaneously formed as a result of being extruded in a powdery or liquid state, and continuously formed to be laminated. In this case, By satisfying one condition, it is possible to achieve a condition in which a more rapid and precise molding can be achieved in a short time.

In order to allow the connector to have flexibility, the connection pipe is also allowed to have fluidity freely according to the molding position of the molding, so that cold supply to the exact position required can be achieved. Accordingly, the position of the injection nozzle provided at the end of the connection pipe can be positioned at an accurate position according to the molding position, so that the cooling can be performed quickly.

10: Peltier element 20: cold air supply part
22: opening / closing valve 24: connecting pipe
24A: Supply tube 24B: Protection tube
26: injection nozzle 28: blowing fan
100: Base 102: Door
110: molding 200: extruding part

Claims (5)

A base provided so that raw materials extruded from an extruded portion of a 3D printer can be laminated and molded into a molding,
Wherein the base includes a Peltier element that can be heated or cooled depending on the material of the molding to be molded while being stacked on the upper surface in the form of a hollow box inside,
And a door which is opened and closed so as to be able to be withdrawn when any abnormality of the Peltier element occurs on either one of a side surface and a bottom surface of the base,
Wherein the base further includes a cool air supply portion for supplying the cool air to the molding on the upper side of the base when cooling by the Peltier element,
Wherein the cool air supply unit includes a supply tube for supplying cool air to the inside of the base so as to supply cool air to the upper portion of the base and a metal protective tube surrounding the outer circumference of the supply tube, And a cooling fan for the 3D printer, the cooling fan including a spray nozzle provided at an end of the connection pipe and a blower fan for supplying cool air to the inside of the base.
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