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KR-102960495-B1 - PREFABRICATED CABINET

KR102960495B1KR 102960495 B1KR102960495 B1KR 102960495B1KR-102960495-B1

Abstract

A modular storage unit is disclosed in which magnets are installed on two sides of a cuboid storage module and iron plates to which the magnets are attached are installed on two other sides, so that the cuboid storage modules can be easily and continuously arranged in various forms in a modular fashion in the left-right and up-down directions by utilizing the adhesive force of the magnets.

Inventors

  • 이용원
  • 김철영

Assignees

  • 영원우드엔스틸 주식회사

Dates

Publication Date
20260513
Application Date
20231024

Claims (4)

  1. A storage module is formed by being a cuboid with an open front, wherein a magnet is installed on a top plate and one side plate adjacent to the top plate, and an iron plate to which the magnet is attached is installed on a bottom plate and another side plate adjacent to the bottom plate, and the magnet and the iron plate are attached to each other by being arranged continuously from left to right and stacked continuously from top to bottom so that the magnet and the iron plate are attached to each other. The magnets installed on the upper plate and one of the side plates adjacent to the upper plate are installed in multiple numbers in the horizontal and vertical directions, and the magnets are arranged with a constant spacing between the magnet centers, and the iron pieces installed on the lower plate and another side plate adjacent to the lower plate are installed in multiple numbers in the horizontal and vertical directions, and the iron pieces are arranged concentrically with the magnets so that the magnets are attached. A modular storage cabinet using magnets, characterized in that the iron piece is formed with a larger diameter than the magnet so that the position where the magnet is attached to the iron piece can be adjusted, so that even if the sizes of each storage module are different, they can be connected to each other in a modular fashion.
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  4. In paragraph 1, A modular storage unit using magnets, characterized in that some of the above-mentioned storage modules are spaced apart from the wall surface, and the degree to which each storage module protrudes relative to the wall surface is arranged differently.

Description

Prefabricated Cabinet using magnets The present invention relates to a modular storage unit using magnets, and more specifically, to a modular storage unit in which magnets are installed on two sides of a cuboid storage module and iron plates to which the magnets are attached are installed on two other sides, so that the cuboid storage modules can be easily and continuously arranged in a modular fashion in the left-right and up-down directions by utilizing the adhesive force of the magnets. Generally, a storage cabinet is a piece of furniture that forms internal storage spaces in horizontal and vertical directions by assembling left and right side panels with top and bottom panels, and stores various items within these spaces. However, conventional storage cabinets have the problem of being difficult to transport and store because the left and right panels and the top and bottom panels are assembled as a single unit at furniture factories and then sold and distributed. Furthermore, they cannot be modified into various sizes or shapes. To solve these problems, the applicant introduced a modular storage unit that allows consumers to assemble it in various sizes and shapes in Korean Registered Patent No. 10-2474820. However, the above storage unit has the disadvantage that its complex structure increases manufacturing costs, and since the storage modules protrude to the same degree, it is difficult to create a three-dimensional aesthetic, making it unsuitable for use as interior furniture. FIG. 1 is a perspective view of a storage module of a modular storage cabinet using magnets according to the present invention, and FIG. 2 is a cross-sectional view of FIG. 1, and FIGS. 3 to 7 are assembly cross-sectional views of a prefabricated storage cabinet using magnets according to the present invention. The present invention will be described in detail below with reference to the attached drawings. The attached FIG. 1 is a perspective view of a storage module of a modular storage cabinet using magnets according to the present invention, and FIG. 2 is a cross-sectional view of FIG. 1. The present invention includes a storage module (M). The storage module (M) is a cuboid with an open front and an open or closed rear. A magnet (150) is installed on the top plate (110) of the storage module and on one of the side plates (120) adjacent to the top plate, for example, the left plate, and an iron plate (160) to which the magnet is attached is installed on the bottom plate (130) and on another side plate (140) adjacent to the bottom plate, for example, the right plate. The above storage module (M) is formed in various sizes. That is, multiple modules are prepared with different widths and heights, and consumers can design a modular storage unit by selecting these storage modules, arranging them left and right, and stacking them vertically. The magnet (150) may be formed in a groove in the top plate (110) and the side plate (120) and embedded in the groove, or magnet paint may be applied to the groove, and various methods may be adopted in which the magnet does not protrude from the top plate and the side plate. These magnets (150) are installed in multiple numbers in the horizontal and vertical directions, and the magnets are arranged such that the distance between the magnet centers is constant. In addition, the iron piece (160) can also be installed by forming grooves in the bottom plate (130) and the side plate (140) and embedding the iron piece (160) in the grooves, and various methods can be adopted in which the iron piece does not protrude from the top plate and the side plate. These iron pieces (160) are installed in multiple numbers in the horizontal and vertical directions, and are arranged concentrically with the magnet so that the magnet is attached. As shown in FIG. 3, the storage module configured in this way can be assembled by arranging the storage module (M) left and right so that its rear is in close contact with the wall, and by attaching the magnets and iron pieces arranged at equal intervals to each other. Additionally, the iron piece (160) is formed with a larger diameter than the magnet (150) so as to allow the position where the magnet (150) is attached to the iron piece (160) to be adjusted. Through this, each storage module can be connected to each other in an assembled manner even if they differ in size. FIGS. 4 and 5 illustrate a state in which various storage modules of different sizes are stacked vertically and assembled. Referring to the drawing above, the storage modules are assembled vertically in such a way that a magnet (150) installed in the storage module (M) and an iron piece (160) installed in an adjacent storage module (M) are attached. At this time, because the width and height of the storage modules (M) are different, even if the magnet and the iron piece are installed at regular intervals in the storage modules, the positions of the magnet and the iron piece do not match, so the magn