KR-20260066909-A - Driven lighting system

Abstract

The present invention relates to a driven lighting system with a conveniently improved structure that expands the range of applications to include mushroom cultivation, plant cultivation, as well as traffic signs and advertising signboards, comprising: a sheet portion composed of a flexible material and structure, having a predetermined width and length, and configured to be wound in a roll form; One or more grooves arranged parallel to each other along the length direction, spaced apart at a predetermined interval in the width direction of the surface of the sheet portion; A side-emitting optical fiber having a plurality of light-emitting grooves, one side of which is fitted and fixed by applying pressure to one side of the above-mentioned groove; A light-emitting body that seals one end of the above-mentioned side-emitting optical fiber and irradiates artificial light; and One or more wheels fixed to the upper part of the above seat; A rail installed at a position higher than the wheel mentioned above; A driven lighting system characterized by mounting the wheel on the rail and driving it.

Inventors

• 기승철

Assignees

• 기승철

Dates

Publication Date

20260512

Application Date

20241105

Claims (10)

1. A sheet portion composed of a flexible material and structure, having a predetermined width and length and configured to be wound in a roll form: One or more grooves arranged parallel to each other along the length direction, spaced apart at a predetermined interval in the width direction of the surface of the sheet portion; A side-emitting optical fiber having a plurality of light-emitting grooves, one side of which is fitted and fixed by applying pressure to one side of the above-mentioned groove; A light-emitting body that seals one end of the above-mentioned side-emitting optical fiber and irradiates artificial light; and One or more wheels fixed to the upper part of the above seat; A rail installed at a position higher than the wheel mentioned above; A driven lighting system characterized by mounting the wheel on the rail and driving it.
2. In paragraph 1, A driven lighting system characterized by using a flexible fabric for the sheet portion, wherein both ends corresponding to the width direction of the fabric intersect each other, and both sides of the ends are joined or sewn to form an internal space.
3. In paragraph 1, A driven lighting system characterized in that the rail is configured in the form of an endless track, and the wheel travels by repeatedly running along the same section of the rail.
4. In paragraph 1, A driving lighting system characterized in that the above rail is configured in a single direction, and the wheel travels by starting from the starting point of the rail, arriving at the end point, and then returning to the starting point in reverse.
5. In paragraph 1, A driving lighting system characterized by having a motor equipped with a gearbox mounted on one side of the wheel to rotate the wheel.
6. In paragraph 5, A driven lighting system characterized by the above motor including a control module that controls rotation, rotational speed control, stopping, and reverse rotation wirelessly.
7. In paragraph 6, A driven lighting system characterized by including a remote controller that transmits and receives and controls the above-mentioned control module at a predetermined distance.
8. In Paragraph 7, A driven lighting system characterized in that the above-mentioned control module and remote controller comprise a circuit section including voice recognition software.
9. In paragraph 5, A driven lighting system characterized by a string member having a plurality of metal ring-shaped holes formed therein being connected to one side of the lower part of the wheel or one side of the lower part of the motor, and a plant cultivation device having a mushroom substrate inoculated with mushroom spawn or a plant planted in a pot being arranged and installed in the holes of the string member.
10. In Paragraph 9, A driven lighting system characterized by a spring balance selected from one side of the lower part of the wheel or one side of the lower part of the motor, which moves up and down using spring tension, and a string member fastened to the lower part of the spring balance.

Description

Driven lighting system {omitted} **Omitted} The present invention relates to a driven lighting system with a conveniently configured structure and an expanded range of applications, including mushroom cultivation, plant cultivation, as well as traffic signs and advertising signboards. Recently, due to improvements in dietary culture for health and a decrease in agricultural production caused by an aging population, the prices of leafy, fruit, and root vegetables consumed daily are gradually rising, leading to growing interest in easy and convenient plant cultivation for everyone at home. However, when cultivating plants at home, the installation of artificial light sources (LED lights) for photosynthesis—one of the essential elements for plant growth—is mandatory. Yet, LED lights and other artificial light sources consume a large amount of electricity, making electricity costs burdensome. In particular, artificial light sources generate significant heat, posing a problem when used to induce photosynthesis in close proximity to plant leaves. Furthermore, there is a problem of excessive electricity consumption due to the use of large amounts of artificial light sources (LEDs) in traffic signs, advertising signs, etc. FIG. 1 is a conceptual diagram of a driven lighting system according to one embodiment of the present invention. FIG. 2 is a structural diagram of a side-emitting optical fiber according to one embodiment of the present invention. The present invention will be described in detail below with reference to the attached drawings. First, the embodiments described below are suitable for explaining the technical features of the driving lighting system (100) of the present invention. However, the present invention is not limited to the embodiments described below, nor are the technical features of the present invention limited by the described embodiments; various modifications are possible within the technical scope of the present invention. FIGS. 1 and 2 illustrate a driving lighting system according to embodiments of the present invention. A driving lighting system (100) according to embodiments of the present invention comprises, first, a sheet portion (300) which is composed of a flexible material and structure, has a predetermined width and length, and is configured to be wound in a roll shape; one or more groove portions (500) which are arranged parallel to each other along the length direction while spaced apart at a predetermined interval in the width direction of the surface of the sheet portion (300); a side-emitting optical fiber (460) which has a plurality of light-emitting grooves (620) into which one side is fitted and fixed by applying pressure to one side of the groove portion (500); a light-emitting body (630) which seals one end of the side-emitting optical fiber (460) and irradiates artificial light; one or more wheels (480) which are fixed to the upper part of the sheet portion (300); a rail (not shown) which is installed at a position higher than the wheel (480); and the wheel (480) which is mounted on the rail () to enable driving. First, the sheet portion (300) may be a flexible material, and may be made of a synthetic resin material that can be wound in a roll shape, a synthetic fiber material woven from yarn, a non-woven fabric made by spinning synthetic resin, or a composite material in which synthetic resin and a metallic film are combined. In addition, the sheet portion (300) may be formed by using a flexible fabric, such that both ends corresponding to the width direction of the fabric intersect each other, and both sides of the ends are joined or sewn together to form an internal space. Additionally, the groove portion (500) may be configured continuously along the surface length direction of the sheet portion (300) or divided at predetermined intervals, with the upper part open in a "∪" shape and the groove formed downward to fix the side-emitting optical fiber (460). Meanwhile, the structure and function of the side-emitting optical fiber (460) used in the present invention can be defined as follows: first, the material of the side-emitting optical fiber (460) is a plastic-based material, preferably PMMA, but there are no restrictions on the use of various materials with flexibility of the plastic-based material. In particular, the structure includes a core layer (600) for the movement of an incident artificial light source, a clad layer (610) that surrounds the entire outer circumference of the core layer (600), and a light-emitting groove (620) formed on the outer circumference of the clad layer (610) so that the artificial light source incident on the core layer (600) emits light in multiple sides. Additionally, the side-emitting optical fiber (460) can be defined as including a light-emitting body (630) with a sealed structure for irradiating an artificial light source at one end. That is, light is emitted from the surface layer of the sheet portion (300) to the side