KR200486725Y1 - Bed for 3D Printer - Google Patents

Abstract

A 3D printer bed, comprising: a heating substrate member horizontally installed in a 3D printer; A support plate disposed on an upper surface of the heating substrate member so as to stably support a molded product formed in the 3D printer; A magnetic plate disposed on an upper surface of the support plate so as to be detachable from the support plate; And a separating member detachably adhered to the upper surface of the magnetic plate member. The separating member can be easily peeled off and separated by a peeling member adhered to the bed. In the case of a molded product having a large weight, the magnet plate is separated from the supporting plate, The molded article can be separated more safely according to the weight of the molded article and the molded article molded by the magnet plate or peeling member can be safely separated without damaging or damaging it if necessary.

Description

{Bed for 3D Printer}

The present invention relates to a bed for a 3D printer, and more particularly, to a bed for a 3D printer, which not only separates a molded product molded in a bed by a separating member but also separates the product smoothly without being damaged or broken To a bed for a 3D printer.

Generally, 3D printing is a process of stacking various materials such as plastic, metal, and ceramics using a three-dimensional design scheme.

3D printers are classified according to the method of outputting the material, such as SLS (Selective Laser Sintering) method of laser-sintering the powdered material, SLA (Stereolithography) method of hardening the material by light, Fused Deposition Modeling) method is widely used.

1 shows a 3D printer of the FDM type. The 3D printer using the FDM method comprises a transfer head 100 moving in the X-Y axis, an extruder 200 mounted on the transfer head, and a bed 500.

A filament (F) is supplied to the extruder. In the FDM method, filaments are discharged to form a designed shape while sequentially stacking from the bottom of the bed.

Referring to the drawings, filaments are wound on a supply reel and are guided from a pair of drive wheels (DW) mounted on a transfer head and supplied to an extruder. The melted filaments discharged from the nozzles formed in the extruder are sequentially stacked on the top of the bed.

3D printers which melt and laminate filaments mainly use thermoplastic plastic materials such as ABS or PLA as filaments.

ABS is relatively stronger than PLA and is not only heat-resistant but also low-cost. However, there is a disadvantage in that the shrinkage due to heat during printing causes deformation of the molding.

On the other hand, PLA is deformable due to thermal contraction due to heat shrinkage, which enables precise molding, but it has a disadvantage of low durability and high cost.

In recent years, PLA-only products that do not use ABS have been introduced due to deformation caused by heat shrinkage.

However, as the size of the sculpture increases, the problem of thermal deformation still remains. For example, thermal deformation may occur during lamination, resulting in warping of the molding or separation of the molding from the platform.

In order to solve such a problem, a heating element is mounted on a bed of a 3D printer and heated. When the bed is heated, the thermal difference between the upper side and the lower side of the molding product is reduced during the lamination, thereby preventing the molding from being separated from the platform.

However, such a method has a problem in that the user may burn during the lamination and wait until the temperature of the bed is lowered in order to separate the molding after the finishing is completed.

On the other hand, in order to improve the accuracy of the printed material, a heat bad is installed under the output space, but it is difficult to produce precise printed matter. A printer with a Heated Build Chamber (HBC) is used to solve the problem, but a printer with a sealed chamber is too expensive.

In order to prevent heat shrinkage, it is necessary to maintain the output space of the printed material at a high temperature. However, in case of a sealed type, since it can cause mechanical defects due to high temperature such as PCB, stepping motor and timing belt, There was a difficult problem to maintain.

For example, Patent Document 1 below discloses a " 3D printer bed and 3D printing provided with the bed. &Quot;

A 3D printer bed according to the following Patent Document 1 and a 3D printer equipped with the 3D printer bed are provided with a platform having a through hole spaced apart at regular intervals, a bed installed at a lower portion of the platform, A lift having a projection, and an air pump provided under the lift.

And the lift is heated and the heat is transmitted to the protrusion formed on the lift, and the heat radiated from the protrusion is transmitted to the protrusion formed on the upper part of the protrusion And the foreign matter remaining in the upper portion of the platform and the through holes is removed by the flow of air generated in the through holes by the air pump before or after printing.

The following patent document 2 discloses a " turning bed for 3D printer ".

The turning bed for a 3D printer according to the following Patent Document 2 is mounted on the upper side of the 3D printer self bed and is mounted integrally with a nut housing constituted by the elevating means and elevating means for elevating the first and second turning portions within a predetermined section A first turning unit configured to rotate the bed of the first turning unit and the bed of the second turning unit by rotating the bed of the first turning unit in the X axis direction by a predetermined angle in a state of being lifted and lowered simultaneously with the ascending and descending of the nut housing, A second turning part which is fixed to the upper side of the bed of the first turning part and is fixed to the side surface of the bed of the second turning part to rotate the bed in the Y axis direction by a constant angle motor; And a pair of ball bushes penetrating the left and right sides of the nut housing and fixed to the self bed.

Korean Patent Publication No. 10-2016-0022532 Korean Patent Publication No. 10-2017-0108906 Korean Patent Publication No. 10-2015-0129261

It is an object of the present invention to provide a 3D printer bed capable of easily separating a molded product from a 3D printer in order to solve the above problems.

Another object of the present invention is to provide a 3D printer bed which can easily separate a molded product by attaching a capstone tape to the top surface of the bed.

Another object of the present invention is to provide a bed for a 3D printer which heats a bed to a predetermined temperature so as to more easily separate molded products on the top surface of the bed.

In order to achieve the above object, a 3D printer bed according to the present invention is a 3D printer, comprising: a heating substrate member horizontally installed in a 3D printer; A support plate disposed on an upper surface of the heating substrate member so as to stably support a molded product formed in the 3D printer; A magnetic plate disposed on an upper surface of the support plate so as to be detachable from the support plate; And a peeling member detachably adhered to the upper surface of the magnetic plate.

And a temperature sensor for measuring a temperature of the heating substrate member is mounted on the heating substrate member.

The peeling member is a tape detachably adhered to the upper surface of the magnet plate so as to smoothly separate the molded product from the 3D printer, which has heat resistance, cold resistance, insulation, insulation, and chemical resistance.

The magnet plate material is a silicon magnet which is magnetically attached to the support plate and flexibly flexes to smoothly separate the molded product from the upper surface of the peeling member.

And a fixing member for stably fixing the heating substrate member to the bed plate.

Wherein the fixing member comprises: a fixing bolt having a predetermined length; An upper washer nut closely attached to a bottom surface of the heating substrate member; A lower washer nut closely attached to an upper surface of the bed plate; A spring installed between the upper washer nut and the lower washer nut; And a butterfly nut fastened to the fixing bolt.

As described above, in the 3D printer bed according to the present invention, the molded article can be easily separated and separated by the peeling member adhered to the bed, and when the molded article is heavy, the magnetic plate material is separated from the receiving plate material, The molded article can be more safely separated according to the weight of the molded article and the molded article molded by the magnet plate or peeling member can be safely separated without damage or damage as necessary.

1 schematically shows a 3D printer,
2 is a perspective view of a 3D printer bed according to a preferred embodiment of the present invention;
3 is an exploded perspective view showing a bed for a 3D printer according to a preferred embodiment of the present invention,
FIG. 4 is an exploded perspective view showing a state in which a bed for a 3D printer is installed on a bed plate according to a preferred embodiment of the present invention;
FIG. 5 is a three-dimensional view showing a state in which a bed for a 3D printer according to a preferred embodiment of the present invention is installed on a bed plate,
6 is a three-dimensional view showing a state in which a bed for a 3D printer according to a preferred embodiment of the present invention is installed.

Hereinafter, a 3D printer bed according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

A 3D printer bed 1 according to a preferred embodiment of the present invention is a 3D printer including a heating substrate member 10 horizontally installed in a 3D printer, a support plate member 10 mounted on the upper surface of the heating substrate member 10 A magnet plate 40 installed on the upper surface of the receiving plate 30 and a peeling member 50 adhered to the upper surface of the magnet plate 40.

A bed (1) for a 3D printer according to an embodiment of the present invention makes it possible to more easily separate molded products formed on the top surface of a bed. In addition, when the molded product is separated, the molded product can be easily separated by the peeling member 50 so that the molded product can be separated.

FIG. 2 is a perspective view showing a 3D printer bed according to a preferred embodiment of the present invention, and FIG. 3 is an exploded perspective view showing a 3D printer bed according to a preferred embodiment of the present invention.

2 and 3, the 3D printer bed 1 according to the present invention includes a heating substrate member 10 formed to a predetermined size, a support plate member (not shown) provided on the upper surface of the heating substrate member 10, A magnetic plate 40 installed on the upper surface of the receiving plate 30 and a peeling member 50 adhered to the upper surface of the magnet plate 40.

The heating substrate member 10 is formed of a flat plate having a predetermined size and is made of a rigid material so as to stably support the load of the molding. In addition, a heating wire (not shown) is installed on the heating substrate member 10 so as to be heated to a predetermined temperature according to the type of the 3D printer.

These heating lines enable the heating substrate member 10 to be heated to a desired temperature, and a heating wire (not shown) is provided to heat the heating substrate member 10 to a temperature of 0 to 130 ° C.

That is, when the 3D printer is PLA, the temperature of the heating substrate member 10 is maintained at about 50 to 70 ° C while maintaining the nozzle temperature at about 210 to 220 ° C so that the seating of the molded product is stably performed shall.

On the other hand, when the 3D printer is made of ABS, the temperature of the heating substrate member 10 should be maintained at about 100 to 120 ° C while maintaining the temperature of the nozzle at about 220 to 260 ° C for stable seating of the molding.

The heating substrate member 10 is formed to have a predetermined size. A temperature sensor (not shown) is mounted on the heating substrate member 10 to measure the temperature of the heating substrate member 10.

A fixing hole 11 is formed in the heating substrate member 10 so that the fixing member 20 is installed. It goes without saying that these fixing holes 11 may be formed in each of the corners.

On the other hand, the heating substrate member 10 includes a fixing member 20 for fixing the fixing member 20 stably installed inside the 3D printer.

The fixing member 20 has a fixing bolt 21 having a predetermined length, an upper washer nut 22 which is in close contact with the bottom surface of the heating substrate member 10, and an upper washer nut 22 which is in close contact with the upper surface of the bed plate 60 A spring 24 provided between the upper washer nut 22 and the lower washer nut 23 and a butterfly nut 25 fastened to the fixing bolt 21. The lower washer nut 23,

The fixing bolt 21 is formed to have a predetermined length and an upper washer nut 22 is provided so that the heating substrate member 10 can be stably fixed.

The upper washer nut 22 is formed to have a larger size than the fixing hole 11 so as to be in close contact with the bottom surface of the heating substrate member 10. And a lower washer nut 23 which is in close contact with the bottom surface of the bed plate 60 is provided.

The fixing member 20 is provided with a spring 24 for elastically supporting the heating substrate member 10 and a butterfly nut 25 fastened to the fixing bolt 21.

On the upper surface of the heating substrate member 10, a support plate 30 having a predetermined thickness is provided to firmly support the molding. The support plate 30 is made of a metal material so that it can be supported regardless of the weight of the molding.

A magnet plate 40 is installed on the upper surface of the support plate 30 and the magnet plate 40 is formed to have the same size as the support plate 30. The magnetic plate 40 is attached to the support plate 30 by a magnetic force.

The peeling member 50 is adhered to the upper surface of the magnetic plate 40. The peeling member 50 is detachably attached to the upper surface of the magnetic plate 40.

On the other hand, the peeling member 50 has heat resistance, cold resistance, insulation, insulation, and chemical resistance, and is detachably adhered to the upper surface of the magnet plate 40 so as to smoothly separate the molded product from the 3D printer And a polyamide tape.

The polyamide tape is a tape obtained by sticking a heat resistant silicone adhesive to a polyamide film, and has excellent electrical insulation at high temperature and low temperature, and is excellent in heat resistance.

The peeling member 50 can remarkably reduce the possibility of short-circuiting occurring in the heating substrate member 10, and has thermal or chemical stability.

Next, a coupling relationship of a 3D printer bed according to a preferred embodiment of the present invention will be described.

FIG. 4 is an exploded perspective view showing a state in which a bed for a 3D printer according to a preferred embodiment of the present invention is installed on a bed plate, FIG. 5 is a view showing a state in which a bed for a 3D printer according to a preferred embodiment of the present invention is installed on a bed plate Fig.

4 and 5, in the 3D printer bed 1 according to the embodiment of the present invention, chipsets, condensers, resistors, and the like necessary for driving the 3D printer are disposed on the heating substrate member 10, A plurality of fixing holes 11 are formed in the substrate member 10.

On the upper surface of the heating substrate member 10, a support plate 30 is fixed so as to firmly support the molding to be formed in the 3D printer. The support plate 30 is made of a metal material having rigidity so as to securely support the molding to be molded.

A fixing hole 31 corresponding to the fixing hole 11 of the heating substrate member 10 is formed in the support plate member 30. A magnetic plate (40) is installed on the upper surface of the receiving plate member (30).

The support plate 30 is made of a metal so that the magnet plate 40 can be attached by magnetic force as well as rigidity to support the molded article.

A peeling member (50) is adhered to the upper surface of the magnetic plate member (40). The peeling member 50 is adhered to be separated from the magnetic plate 40. That is, the peeling member 50 is made of a silicone tape coated with an adhesive.

The heating plate member 10 and the receiving plate member 30 are fixed to the bed plate 60 by a fixing member 20 and the magnet plate member 40 is magnetically attached to the upper surface of the receiving plate member 30, The peeling member 50 is adhered to the upper surface of the magnetic plate 40.

These magnet plate members 40 are detachably magnetically attached to the support plate member 30, and the peeling member 50 is removably adhered to the magnet plate member 40.

The heating plate member 30, the magnetic plate member 40 and the peeling member 50 are fixed to the bed plate 60 with the fixing member 20 as shown in FIG.

A method of operating a 3D printer bed according to a preferred embodiment of the present invention will now be described with reference to FIGS. 2 to 6. FIG.

6 is a three-dimensional view showing a state in which a bed for a 3D printer according to a preferred embodiment of the present invention is installed.

As shown in Figs. 2 to 6, the 3D printer bed of the present invention is formed with a molded product of a desired shape and material on the top surface of the bed 1 under the control of the heating substrate member 10. These moldings are formed into a laminate on the upper surface of the bed 1.

When the molding of the molded product is completed, the molded product is maintained in a molded state on the upper surface of the bed 1, and is discharged to the outside after being cured.

The release of such a molded article can be easily separated by separating the peeling member 50 attached to the magnetic plate 40.

That is, since the peeling member 50 is adhered to the upper surface of the magnetic plate 40, the peeling member 50 can be easily separated from the bed 1 by separating the peeling member 50 from the magnetic plate 40 .

On the other hand, the discharge of the molded product can be also separated by the peeling member 50, but the magnetic plate 40 may be separated when the load of the molded product is relatively heavy.

That is, when the molded product is heavy, the molded product can be separated from the bed 1 by separating the magnet plate member 40 magnetically attached to the supporting plate member 30.

As described above, in the 3D printer bed 1 according to the embodiment of the present invention, the forming material can be separated from the bed 1 by removing the peeling member 50 in a state where the molding of the molded product is completed, It is possible to separate the molded article by separating the attached magnetic plate member 40.

Although the embodiments of the present invention have been described in detail with reference to the above embodiments, it is to be understood that the present invention is not limited to the above embodiments and that various changes and modifications may be made without departing from the spirit and scope of the invention.

10: Heating substrate member 11: Fixing hole
20: fixing member 21: fixing bolt
22: upper washer nut 23: lower washer nut
24: spring 25: butterfly nut
30: Support plate 40: Magnet plate
50: peeling member 60: bed plate

Claims (6)

As a 3D printer,
A heating substrate member having a rigid material for supporting a load of a molded product and having fixing holes formed at corners thereof, the heating substrate being provided with a hot wire so as to be heated horizontally to a temperature of 0 to 130 ° C while being horizontally installed inside the 3D printer;
A support plate having a predetermined thickness for supporting a molding object to be molded in the 3D printer and having a fixing hole corresponding to a fixing hole of the heating substrate member formed on each of the edges, the metal plate being installed on an upper surface of the heating substrate member;
A magnet plate made of a silicon magnet which is installed on an upper surface of the support plate so as to be detachable by the magnetic force on the support plate and flexibly bent;
A separating member having heat resistance, cold resistance, insulation, insulation, chemical resistance, and detachably adhered to the upper surface of the magnetic plate so that the molded product can be smoothly separated; Lt; / RTI >
Wherein the peeling member is a polyamide tape detachably adhered to the upper surface of the magnetic plate so that the molded product formed in the 3D printer can be smoothly separated,
Wherein the magnet plate material is a silicon magnet which is magnetically attached to the support plate member and flexibly flexes to smoothly separate the molded product from the upper surface of the peeling member,
A fixing member for stably fixing the heating substrate member to the bed plate; Further comprising:
A separating member detachably attached to the magnet plate is separated according to the weight of the molded product when the molded product is laminated on the top surface of the bed to separate the molded product or the magnet plate member detachably and magnetically attached to the receiving plate is separated And the mold is separated from the mold.
The method according to claim 1,
Wherein the heating substrate member is mounted with a temperature sensor for measuring the temperature of the heating substrate member. delete delete delete The method according to claim 1,
Wherein the fixing member comprises: a fixing bolt having a predetermined length;
An upper washer nut closely attached to a bottom surface of the heating substrate member;
A lower washer nut closely attached to an upper surface of the bed plate;
A spring installed between the upper washer nut and the lower washer nut;
And a butterfly nut fastened to the fixing bolt.

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