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KR-102961185-B1 - Illumination Bottle and Making Method of the Same

KR102961185B1KR 102961185 B1KR102961185 B1KR 102961185B1KR-102961185-B1

Abstract

The present invention relates to a container for storing liquids such as alcohol or oil, and more specifically, to an illuminated container in which a reflective material is applied to the container and illuminated to improve aesthetics.

Inventors

  • 신현홍

Assignees

  • 주식회사 알피지랩

Dates

Publication Date
20260508
Application Date
20230414

Claims (10)

  1. External disease; An inner bottle provided on the inner side of the outer bottle so as to form a filling space on the inner side of the outer bottle; A filling material filled in the above-mentioned filling space; and It includes a lighting module provided in the outer bottle to illuminate the filling space, The above outer and inner bottles are formed such that the upper diameter is smaller than the lower diameter, and The lower part of the outer bottle is open, and the upper part includes an upper cover configured to seal the upper part of the outer bottle and allow the central part to pass through. A lighting container comprising: an upper portion of the inner bottle that seals the upper portion of the inner bottle and is coupled with a removable auxiliary cover; and a lower portion that seals the lower portion of the inner bottle and is formed to extend radially outwardly from the inner bottle so as to also seal the lower side of the filling space.
  2. In Article 1, The above-mentioned filling material is, A lighting container characterized by comprising a plurality of reflective materials that are reflected by lighting, and being a viscous fluid having a certain viscosity so that the plurality of reflective materials are evenly distributed.
  3. In Paragraph 2, The above lighting container is, A lighting container characterized in that the outer bottle is made of a transparent material and the inner bottle is made of an opaque material so that the reflective material is observed in various forms through the outer bottle by the illumination of the lighting module.
  4. In Article 1, The above lighting module is, A lighting container further comprising a wavelength adjustment module capable of changing the color of light.
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  7. In Article 1, The above external disease is, It further includes a receiving ridge formed extending downward from the lower circumference of the above outer bottle, and The above lighting module is, A lighting container that is accommodated in a module receiving space formed at the bottom of the outer bottle through the above receiving ledge.
  8. In Article 7, The above lighting module is, A lighting container further comprising an adhesive member to be adhesively fixed to the bottom of the lighting container.
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  10. In the method for manufacturing the lighting container of claim 1, An outer bottle placement step (S210) in which an outer bottle is placed upside down, with the top sealed by an upper cover and the bottom open; A filling material injection step (S220) of injecting a filling material into an outer bottle through the lower opening of the outer bottle located on the upper side; An inner bottle coupling step (S230) in which an inner bottle, with its lower part sealed by a lower cover and its upper part sealed by an auxiliary cover, is placed upside down and then coupled to the outer bottle filled with a filling material; A lighting module installation step (S240) for connecting a lighting module for illuminating the above-mentioned filling material to the lower cover; and A step of forming an injection port (S250) that penetrates the central part of the upper cover and removes the auxiliary cover; A method for manufacturing a lighting container comprising

Description

Illumination Bottle and Making Method of the Same The present invention relates to a container for storing liquids such as alcohol or oil, and more specifically, to an illuminated container in which a reflective material is applied to the container and illuminated to improve aesthetics. Light-emitting diodes, which are one type of lighting device, are semiconductors made from materials such as Ga (gallium), P (phosphorus), and As (arsenic), and possess diode characteristics. When current flows through them, they emit light in red, green, or yellow. In addition, light-emitting diodes have the advantages of a longer lifespan compared to light bulbs, a faster response speed (the time from when current flows until light is emitted), and the ability to be made into various shapes. Therefore, they are widely used in fixtures and devices that require lighting. Conventionally, technology has been disclosed for implementing a light-emitting container by simply illuminating the container with such light-emitting diodes, or for using UV light-emitting diodes that emit ultraviolet rays in a container to purify, purify, or sterilize the material inside the container. Recently, in line with the era of individualism and uniqueness, there is a demand for the development of lighting containers that go beyond simply illuminating containers and further enhance aesthetics, in order to satisfy the needs of diverse users with strong subjectivity based on their individual personalities and tastes. FIG. 1 is an overall perspective view of a lighting container according to an embodiment of the present invention. FIG. 2 is a cross-sectional view of a lighting container according to an embodiment of the present invention. FIG. 3 is a partially enlarged cross-sectional view of a lighting container according to a first embodiment of the present invention. FIG. 4 is a partially enlarged cross-sectional view of a lighting container according to a second embodiment of the present invention. Hereinafter, an embodiment of the present invention as described above will be explained in detail with reference to the drawings. FIG. 1 shows an overall perspective view of a lighting container (100) according to one embodiment of the present invention, and FIG. 2 shows a cross-sectional view of a lighting container (100) according to one embodiment of the present invention. As described above, the lighting container (100) may be formed in the shape of a container having an open top and containing a liquid inside, and may include an outer bottle (110) forming an outer wall and an inner bottle (120) forming an inner wall, and a filling space may be formed between the outer bottle (110) and the inner bottle (120). A filling material (190) containing a reflective material may be contained in the filling space. The filling material (190) may be a transparent fluid having a certain viscosity so that a plurality of reflective materials can be evenly distributed between the outer bottle (110) and the inner bottle (120). For example, it may be a viscous fluid. Additionally, the outer bottle (110) further includes an upper cover (170) that can seal the open space between the outer bottle (110) and the inner bottle (120) on the upper side, and the lower side may be formed open. Additionally, the inner bottle (120) is formed with an open upper side and further includes a lower cover (130) that seals the lower part of the lighting container (100) on the lower side, wherein the lower cover (130) may be configured to extend radially outward from the inner bottle (120) to seal the lower open surface of the filling space. Meanwhile, a lighting module (150) for lighting may be provided at the bottom of the lighting container (100). The lighting module (150) may be an LED module that emits light by supplying electricity to a conventional light-emitting diode. To this end, the lighting container (100) may be configured to include a receiving ledge (140) that is formed along the bottom perimeter and extends downward so that a module receiving space (145) is formed at the bottom of the lighting container (100). Additionally, it may be configured to further include a module cover (160) to seal the bottom opening of the module receiving space (145). FIG. 3 shows a partially enlarged cross-sectional view of a lighting container (100) according to a first embodiment of the present invention. A lighting container (100) with the above configuration can be constructed by receiving and fixing a lighting module (150) in a module receiving space (145) and then sealing the lower open surface of the module receiving space (145) through a module cover (160). When a reflective material dispersed in a filling material (190) between an outer bottle (110) and an inner bottle (120) is illuminated through the lighting module (150), the container can be configured to enable a Milky Way-shaped lighting effect through the reflection of the reflective material. FIG. 4 shows a partially enlarge