KR-102963732-B1 - New concept text channel using 3D printer

Abstract

The present invention relates to a novel character channel using a 3D printer. A channel body with an open top is formed by combining a side plate, extruded from aluminum and equipped with a guide portion at the inner bottom, along the outer surface of a bottom plate made in the shape of a character. A plurality of fixing clips are attached at equal intervals to the inner surface of the side plate. A strip frame is formed that is detachably attached to the top of the fixing clips and secures a light-transmitting plate to the upper surface of the channel body. Since the strip frame is manufactured using a 3D printer to form a closed loop in the shape of a character, it facilitates the production of character channels of various sizes, such as small to medium, while significantly reducing production costs. Furthermore, because the light-transmitting plate is detachably attached to the upper surface of the channel body using the strip frame manufactured by the 3D printer, maintenance costs for the character channel can be significantly reduced. Additionally, a light-transmitting portion is formed on the strip frame along the same vertical line as the strip body or is formed on the strip frame in a direction inclined upward toward the inside, so that light from the light source is simultaneously projected outward through the front of the character channel via the light-transmitting plate and the light-transmitting portion. Because it emits light, the character channel can produce a sense of luxury and aesthetics, and a photometric frame is further combined with the inner lower part of the side plate constituting the channel body so that the light from the light source can be emitted outward through the lower side of the character channel via the photometric frame.

Inventors

• 이설규

Dates

Publication Date

20260511

Application Date

20230912

Claims (4)

1. A light source (100) is mounted on the upper surface, and a base plate (20) made in the shape of a character, and A channel body (10) comprising a side plate (21) extruded from aluminum material, having a lower guide portion (22) coupled to the outer surface of a bottom plate (20) provided at the inner lower end; Fixing clips (30) that are attached to the side plate (21) at equal intervals; It is composed of a strip frame (50) that is detachably coupled to the top of a fixing clip (30) and fixes a light-transmitting plate (70) to the upper surface of a channel body (10); The above strip frame (50) is, A strip body (60) made in the shape of a character using a 3D printer to form a closed loop corresponding to the channel body (10); A fitting protrusion (61) formed on the lower part of a strip body (60) to be coupled to the upper part of a fixing clip (30); A new concept character channel using a 3D printer, characterized by being composed of a support coupling part (62) formed on the upper part of the strip body (60) corresponding to the insertion protrusion part (61) and to which a light-transmitting plate (70) is coupled.
2. In claim 1, A light-emitting part (63)(63a) that emits light from a light source (100) to the outside is further formed on the body (60) of the strip, The light-emitting part (63) is formed to extend in a straight line so as to be located on the same vertical line as the strip body (60), or A new concept character channel using a 3D printer, characterized in that the light-emitting part (63a) is formed to be inclined upward inward from the strip body (60).
3. In claim 1, A connecting part (24) is further formed at the bottom of the side plate (21), and A plurality of light sources (100a) are mounted on the bottom surface of the base plate (20), and A novel character channel using a 3D printer, characterized by configuring a photometric frame (80) to be coupled to the inner side of a coupling part (24) so that light emitted from a light source (100a) is emitted to the outside through the lower side of a channel body (10) by the photometric frame (80).
4. In claim 1, the fixing clip (30) is, A clip body (40) coupled to the inner surface of the channel body (10); A lower coupling part (41) formed at the lower part of the clip body (40) and coupled to the inner bottom surface of the channel body (10); It is composed of a fitting coupling part (42) formed curvedly on the upper end of the clip body (40) so that a fitting projection (61) is fitted and coupled thereto, and A new concept character channel using a 3D printer, characterized by having a guide portion (44) formed at the top of the fitting joint portion (42) in an upwardly inclined manner to guide the fitting protrusion portion (61) into the inner side of the fitting joint portion (42).

Description

(Type A) New concept text channel using 3D printer { New concept text channel using 3D printer } **New concept text channel using 3D printer }** The present invention relates to a novel character channel using a 3D printer, and more specifically, to a channel body with an open top formed by combining a side plate, which is extruded from aluminum and equipped with a guide portion at the inner bottom, along the outer surface of a bottom plate made in the shape of a character, and to a plurality of fixing clips are attached at equal intervals to the inner surface of the side plate, and to form a strip frame that is detachably attached to the top of the fixing clips and fixes a light-transmitting plate to the upper surface of the channel body. Since the strip frame is manufactured using a 3D printer to form a closed loop in the shape of a character, it is easy to manufacture character channels of various sizes, such as small to medium, while significantly reducing manufacturing costs. Furthermore, since the light-transmitting plate is detachably attached to the upper surface of the channel body using the strip frame manufactured by the 3D printer, maintenance costs for the character channel can be significantly reduced. Additionally, a light-transmitting portion is formed on the strip frame along the same vertical line as the strip body or is formed with an upwardly inclined portion in the inward direction, so that the light from the light source simultaneously [transmits] the character channel through the light-transmitting plate and the light-transmitting portion. The present invention relates to a novel character channel using a 3D printer, wherein the character channel can produce a sense of luxury and aesthetics because the light is emitted outward through the front, and a photometric frame is further combined and configured on the inner lower part of the side plate constituting the channel body so that the light of the light source can be emitted outward through the lower side of the character channel through the photometric frame. Generally, a text channel is installed in a building and used to advertise the name of a company or business. However, conventional character channels consist of a body manufactured in the shape of a character and a light-transmitting plate attached to and detached from the upper surface of the body. However, since conventional character channels are manufactured using extrusion-molded channel bodies, a problem has arisen in that it is not easy to produce character channels of various sizes, such as small to medium sizes. In addition, conventional character channels directly attach a light-transmitting plate to the upper surface of a body manufactured in the shape of a character. Consequently, it is not easy to separate the light-transmitting plate from the body for maintenance of the character channel, which leads to the problem of increased maintenance costs. Furthermore, a light source is installed inside the channel body, which is manufactured in the shape of a letter. However, since the light from the source is emitted outward through a light-transmitting plate, it fails to produce an aesthetic appeal or a premium look for the letter channel. Consequently, a problem has arisen in which the effectiveness of advertising company or business names using the letter channel is diminished. FIG. 1 is an exploded perspective view illustrating a first embodiment of a novel character channel using a 3D printer of the present invention. FIG. 2 is an exploded perspective cross-sectional view illustrating a first embodiment of a novel character channel using a 3D printer of the present invention. FIG. 3 is a combined cross-sectional view of a first embodiment of a novel character channel using a 3D printer of the present invention. FIG. 4 is a cross-sectional view illustrating the installed state of a first embodiment of a novel character channel using a 3D printer of the present invention. FIG. 5 is a cross-sectional view of a second embodiment of a novel character channel using a 3D printer of the present invention. FIG. 6 is a cross-sectional view illustrating the installed state of a second embodiment of a novel character channel using a 3D printer of the present invention. FIG. 7 is a cross-sectional view illustrating another form of the second embodiment of the present invention. FIG. 8 is a cross-sectional view illustrating an installed state of another form of the second embodiment of the present invention. FIG. 9 is a cross-sectional view illustrating the installed state of a third embodiment of a novel character channel using a 3D printer of the present invention. FIG. 10 is a cross-sectional view illustrating the installed state of a third embodiment of a novel character channel using a 3D printer of the present invention. Hereinafter, a preferred embodiment of the present invention will be described using the attached FIGS. 1 to 10. According to the drawings above, the pres