JP2017089202A - Storage shelf structure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To stably install a shelf board on an indoor wall surface, without impairing design of a storage shelf.SOLUTION: A storage shelf structure 1 comprises an installing plate 2 installed on an indoor wall surface, a support member 5 detachably installed on the installing plate 2, and a shelf board 10 supported by the support member 5 and installed on the installing plate 2. The support member 5 comprises a bracket part 6 installed on the installing plate 2, a rod-like support part 8 integrally provided in the bracket part 6 and projecting forward, and a permanent magnet 9 (a first holding part) fixed to the tip of the support part 8. The shelf board 10 comprises a bottomed fitting-in hole 19 provided on a rear end surface so as to extend forward from the rear end surface and fitting in the support part 8, and a first metal plate 21 (a second holding part) provided on the bottom side of the fitting-in hole 19 and attracted to/held by the permanent magnet 9.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a storage shelf structure.

  Conventionally, a storage shelf structure is known in which a shelf plate is supported and fixed to an indoor wall surface such as a mounting plate using a support member attached to the indoor wall surface. As such a storage shelf structure, for example, structures such as Patent Documents 1 and 2 have been proposed.

  In Patent Document 1, a shelf board support member having a shelf board insertion groove and a shelf board support portion is attached to a wall portion such as a mounting plate, and the shelf board fitted in the shelf board insertion groove is connected to the shelf board support portion from below. The shelf board support structure in which the shelf board is fixed to the mounting board is disclosed.

  Patent Document 2 includes a cylindrical shelf receiving rod that protrudes forward of a wall panel, a support that is slidable in a horizontal direction along a rail that is fixed to the wall panel, and a front surface of the wall panel. A storage shelf structure is disclosed that includes a shelf plate that extends forward from a rear end surface facing the wall and is provided with an insertion hole into which a shelf receiving rod is inserted.

JP 2008-206751 A Japanese Patent No. 2817459

  The shelf support structure of Patent Document 1 has an advantage that the shelf is firmly supported by the shelf support member. However, since the shelf support member (especially the shelf support) is exposed to the outside and is easily visually recognized, there is a problem that the design as a storage shelf is greatly impaired.

  On the other hand, in the storage shelf structure of Patent Document 2, the shelf support rod is exposed to the outside because the shelf support rod is inserted into the insertion hole of the shelf plate and the shelf plate is fixed to the indoor wall surface such as the mounting plate. And the design as a storage shelf is not impaired. However, on the other hand, the storage shelf structure of Patent Document 2 does not have a structure in which the shelf board is directly fixed to the shelf support bar. That is, in the storage shelf structure of Patent Document 2, the support state of the shelf board is unstable. For this reason, when a comparatively heavy thing was mounted on the shelf board, there existed concern that a shelf board inclines below or a shelf board will remove | deviate from a shelf receiving rod easily.

  This invention is made | formed in view of such a point, The objective is to make a shelf board stably install in a wall surface in a room, without impairing the design property of a storage shelf.

  In order to achieve the above object, a storage shelf structure according to a first aspect of the present invention includes a mounting plate provided on a wall surface in a room, a support member detachably mounted on the mounting plate, and a support member supported by the support member. And a shelf that is installed on the mounting plate, the support member being detachably attached to the mounting plate, the bracket portion being provided integrally with the bracket portion, and protruding forward It has a rod-shaped support part and a first holding part made of a permanent magnet or a ferromagnetic metal member fixed to the tip of the support part. The shelf board is provided on the rear end surface so as to extend forward from the rear end surface, is provided with a bottomed insertion hole into which the support portion is inserted, and on the bottom side of the insertion hole, and is sucked and held by the first holding portion. And a second holding part made of a ferromagnetic metal member or a permanent magnet.

  In the first embodiment, the support member is not visually recognized from the outside in a state where the shelf is installed on the mounting plate (that is, the wall surface in the room) by inserting the support portion into the insertion hole. The design of the storage shelf structure can be prevented from being impaired. Further, the second holding portion provided on the bottom side of the insertion hole is in a state of being sucked and held by the first holding portion provided at the tip of the support portion in a state where the support portion is inserted into the insertion hole. That is, the shelf plate is maintained in a state of being supported by the support member by the second holding portion sucked and held by the first holding portion. For this reason, in the 1st form, a shelf board can be stably installed in an attachment board (namely, indoor wall surface) in the state in which the shelf board was firmly supported by the support member. Moreover, it is also possible to remove the second holding part from the first holding part by pulling the shelf board from the support member with a certain force. That is, in this storage shelf structure, the second holding part is not completely fixed to the first holding part, and the support part can be attached and detached from the insertion hole. It can be changed afterwards or the shelf can be easily replaced or repaired.

  The second form is characterized in that, in the first form, the first holding part is made of a permanent magnet, and the second holding part is made of a ferromagnetic first metal plate that forms the bottom of the insertion hole. .

  In the second embodiment, the first metal plate (second holding portion) that forms the bottom portion of the insertion hole is a permanent magnet (first magnet) provided at the tip of the support portion in a state where the support portion is inserted into the insertion hole. 1 holding part). For this reason, similarly to the first embodiment, the shelf board can be stably installed on the mounting plate in a state where the shelf board is firmly supported by the support member. Moreover, since the support part is detachable from the insertion hole as in the first embodiment, the mounting position of the shelf board can be changed afterwards, or the shelf board can be easily replaced or repaired. Can do.

  The third form is characterized in that, in the first form, a ferromagnetic second metal plate is provided on the front end side of the shelf board.

  In the third embodiment, since the ferromagnetic second metal plate is provided on the front end side of the shelf board, a magnet holder (that is, a storage shelf structure) that holds, for example, a note paper or the like at an appropriate position on the front end surface of the shelf board. It is possible to use the storage shelf structure more conveniently in daily life.

  The fourth form is the core of the first form, wherein the first holding part is made of a permanent magnet, and the second holding part is made of a ferromagnetic prism or square tube provided on the front side of the shelf. It is characterized by that.

  In the fourth embodiment, the core material itself provided on the bottom side of the insertion hole is attracted and held by a permanent magnet (first holding portion) provided at the tip of the support portion as a ferromagnetic material itself. For this reason, the shelf board can be installed on the mounting plate in a state where the shelf board is firmly supported by the support member, and the core material disposed on the front side of the shelf board is provided with the function of the second holding portion. The number of members of the shelf structure can be reduced. In addition, since the front end surface of the core material itself is made of a ferromagnetic material, it is possible to attach and detach a magnet holder that holds, for example, memo paper at an appropriate position on the front end surface of the shelf board, making the storage shelf more convenient in daily life. It can be used for.

  As described above, according to the present invention, the shelf board can be stably attached to the mounting plate (that is, the indoor wall surface) in a state where the shelf board is firmly supported by the support member without impairing the design of the storage shelf. Can be installed. Further, the mounting position of the shelf board can be changed afterwards, or the shelf board can be easily replaced or repaired.

FIG. 1 is a perspective view showing a storage shelf structure according to the first embodiment of the present invention. 2 is a cross-sectional view taken along line II-II in FIG. 3 is a cross-sectional view taken along line III-III in FIG. FIG. 4 is a view corresponding to FIG. 3 showing a storage shelf structure according to Modification 1 of the first embodiment. FIG. 5 is a view corresponding to FIG. 2 showing a storage shelf structure according to the second embodiment. FIG. 6 is a view corresponding to FIG. 3 showing a storage shelf structure according to the second embodiment.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. The following description of each embodiment is merely illustrative in nature, and is not intended to limit the present invention, its application, or its use.

[First Embodiment]
1-3, the storage shelf structure 1 which concerns on 1st Embodiment of this invention is shown. This storage shelf structure 1 is used as a storage shelf installed on the indoor wall surface of a building, for example. As shown in FIGS. 1 to 3, the storage shelf structure 1 includes a mounting plate 2 that is attached to an indoor wall surface. The mounting plate 2 is made of, for example, MDF, plywood, LVL, LVS, particle board, and other woody materials. 2 and 3, the mounting plate 2 is not hatched for convenience of illustration.

  In addition, a pair of left and right shelf columns 3 and 3 for installing later-described shelf plates 10, 10,... Are embedded in the front surface of the mounting plate 2. The shelf columns 3 and 3 are made of, for example, a metal member such as iron or a resin member, and are formed in an elongated rectangular tube shape extending vertically. In the front surface of the shelf columns 3 and 3, rectangular locking holes 4, 4,... Provided in a single line at regular intervals are provided so as to penetrate the wall portions of the shelf columns 3 and 3. .

  Next, as shown in FIGS. 2 and 3, the storage shelf structure 1 includes support members 5 and 5 that are detachably attached to the attachment plate 2. The support member 5 has a bracket portion 6 attached to the shelf column 3 of the attachment plate 2. The bracket portion 6 is formed in a plate shape that is L-shaped in plan view, and at its rear end portion, two claw-shaped hook portions 7 and 7 facing downward in a side view are vertically spaced at a certain interval. Each is provided in the space. That is, the support member 5 is attached to the attachment plate 2 in a state where the hook portions 7 and 7 are locked in the locking holes 4, 4. When the mounting position of the support member 5 is changed, the hook portions 7, 7 are once removed from the locking holes 4, 4,... And the hook portions 7, 7 are reattached to the desired locking holes 4, 4,. It only has to be locked.

  Further, a support portion 8 for installing a later-described shelf board 10 on the mounting plate 2 is provided on the front side portion of the bracket portion 6. The support portion 8 is formed in a rod shape protruding forward, specifically, extending forward to the vicinity of the rear end surface 12b of the front outer peripheral core member 12 described later. The support portion 8 has a rear end portion integrally joined to the bracket portion 6 by welding or the like, for example.

  Further, as shown in FIGS. 2 and 3, a permanent magnet 9 (first holding portion) for holding a shelf plate 10 to be described later is fixed to the tip of the support portion 8. The permanent magnet 9 is made of, for example, an alnico magnet, a ferrite magnet, a neodymium magnet or the like formed in a columnar or prismatic shape, and is fixed to the tip of the support portion 8 with an adhesive or the like.

  Next, as shown in FIG. 1, the storage shelf structure 1 includes flat shelf plates 10, 10,... Installed on the mounting plate 2. As shown in FIG. 2, the outer peripheral part of the shelf board 10 is comprised by the three-way frame 11 which combined the three core materials. The three-way frame 11 has a front outer peripheral core member 12 disposed on the front side of the shelf board 10 and left and right outer peripheral core members 13 and 13 fixed to both sides of the front outer peripheral core member 12. . In addition, a four-side frame 14 in which four core members are combined is provided inside the three-side frame 11 (that is, the inner peripheral portion of the shelf board 10). The four-sided frame 14 includes a front inner core member 15 fixed to the rear end surface 12b of the front outer core member 12, and a rear inner core member facing the front inner core member 15 and disposed on the rear side of the shelf board 10. 16 and left and right inner peripheral core members 17 and 17 fixed to the left and right sides of the front inner peripheral core member 15 and the rear inner peripheral core member 16, respectively. These core materials are composed of, for example, MDF, plywood, LVL, LVS, particle board, and other woody materials.

  As shown in FIGS. 2 and 3, thin plates 18 as decorative surface materials of the shelf board 10 are provided on the upper and lower surfaces, the front end face, and the left and right end faces of the shelf board 10. The thin plate 18 is preferably an MDF thin plate formed to have a thickness of about 0.5 to 2.0 mm, for example. Further, the thin plate 18 has a plurality of V grooves processed at positions corresponding to the respective corner portions of the shelf plate 10 by a so-called V-cut manufacturing method. Then, the thin plate is bent so that each V-groove is along each of the corner portions, covers the entire skeleton of the shelf plate 10 constituted by the three-sided frame 11 and the four-sided frame 14, and in this state, the three-sided frame 11 is covered with an adhesive. And affixed to the four-sided frame 14. 2 and 3, the thin plate 18 is not hatched for convenience of illustration.

  As shown in FIGS. 2 and 3, bottomed insertion holes 19 for inserting the support portions 8 are formed in the left and right end portions of the rear end surface of the shelf board 10. The insertion hole 19 is provided so as to extend forward from the rear end surface of the shelf board 10. Specifically, the insertion hole 19 is configured as a space between the left and right outer peripheral core members 13 and 13 and the left and right inner peripheral core members 17 and 17 and surrounded by thin plates 18 disposed on the upper and lower surfaces. And by the support part 8 being inserted in the insertion hole 19, in the state by which the shelf board 10 was installed in the attachment board 2 (namely, wall surface in a room), the support member 5 is not visually recognized from the outside, The design of the storage shelf structure 1 is not impaired.

  Further, a flat plate-like first metal plate 21 (second holding portion) extending to the left and right is fixed to the rear end surface 12b of the front outer peripheral core member 12 by an adhesive or screwing. The first metal plate 21 is made of a ferromagnetic metal material (for example, iron, cobalt, nickel, etc.) and forms the bottoms of the fitting holes 19, 19. Further, on the front end surface 12a of the front outer peripheral core member 12 (that is, the front end side of the shelf plate 10), like the first metal plate 21, a flat plate-like second metal plate 22 made of a ferromagnetic metal material is bonded with an adhesive or It is fixed by screwing or the like.

  In this embodiment, as shown in FIGS. 2 and 3, the first metal plate 21 that forms the bottom of the insertion hole 19 is attached to the tip of the support portion 8 in a state where the support portion 8 is inserted into the insertion hole 19. It will be in the state attracted and held by the permanent magnet 9 provided. That is, the shelf plate 10 is kept supported by the support member 5 by the first metal plate 21 attracted and held by the permanent magnet 9. As described above, in the storage shelf structure 1, the shelf board 10 is attached to the mounting plate 2 (that is, the indoor wall surface) in a state where the shelf board 10 is firmly supported by the support member 5 without impairing the design of the storage shelf. It can be installed stably.

  Further, the first metal plate 21 can be detached from the permanent magnet 9 by pulling the shelf plate 10 from the support member 5 in a direction (forward) by the user with a certain amount of force. That is, the first metal plate 21 is not completely fixed to the permanent magnet 9, and the support portion 8 is detachable from the insertion hole 19. It can be changed or the shelf 10 can be easily replaced or repaired.

  Further, in the storage shelf structure 1, the ferromagnetic second metal plate 22 is provided on the front end surface 12 a (the front end side of the shelf plate 10) of the front outer peripheral core member 12. As indicated by a chain line, a magnet holder M that holds, for example, a memo paper or the like is detachable at an appropriate position on the front end surface of the shelf board 10, and the storage shelf structure 1 can be used more conveniently in daily life. Similarly, a vertically long panel P (see FIG. 1) having magnets fixed at two upper and lower positions on the back surface can be attached to the front end surfaces of the shelf boards 10 and 10.

[First Modification of First Embodiment]
In this embodiment, although the 1st and 2nd metal plates 21 and 22 showed all the forms formed in flat form, it is not restricted to this form. As shown in FIG. 4, the first and second metal plates 21 and 22 may be formed in an L shape in cross section, for example. In short, the first metal plate 21 is attracted and held by the permanent magnet 9, and the second metal plate 22 is provided on the front end surface of the shelf plate 10, so that the magnet holder M, the panel P, etc. that hold the memo paper etc. Any form that can be attached to and detached from the front end face is acceptable.

[Modification 2 of the first embodiment]
In this embodiment, the first holding part fixed to the tip of the support part 8 is the permanent magnet 9, and the second holding part attracted and held by the first holding part provided on the bottom side of the fitting hole 19 is ferromagnetic. Although it was set as the 1st metal plate 21, it is not restricted to this form. For example, the permanent magnet 9 may be fixed to the rear end surface 12 b of the front outer peripheral core member 12 facing the front end of the support portion 8 with an adhesive or a double-sided tape. In this case, it is only necessary that a member made of a ferromagnetic metal material is provided at the tip of the support portion 8. Alternatively, the support portion 8 itself may be made of a ferromagnetic metal material (for example, an iron bar).

[Second Embodiment]
5 and 6 show the storage shelf structure 1 according to the second embodiment of the present invention. In this embodiment, the configuration of the front outer peripheral core material 12 made of the wood material of the first embodiment and the first and second metal plates 21 and 22 fixed thereto is replaced with a core material of another configuration. is there. The other configuration of the storage shelf structure 1 according to this embodiment is the same as the configuration of the storage shelf structure 1 according to the first embodiment. For this reason, in the following description, the same code | symbol is attached | subjected about the same part as FIGS. 1-4, and the detailed description is abbreviate | omitted.

  As shown in FIGS. 5 and 6, in this embodiment, a core material made of a rectangular tube provided on the front side of the shelf board 10 is used as the front outer peripheral core material 12. The front outer peripheral core material 12 is made of a ferromagnetic metal material (for example, iron, cobalt, nickel, etc.). That is, the rear end surface 12 b of the front outer peripheral core member 12 itself becomes a ferromagnetic body, becomes the bottom of the insertion holes 19, 19, and is a permanent magnet 9 (first holding portion) provided at the tip of the support portion 8. It is comprised as a member (namely, 2nd holding | maintenance part) sucked and held by. Accordingly, in this embodiment, as in the first embodiment, the shelf board 10 can be installed on the mounting plate 2 in a state where the shelf board 10 is firmly supported by the support member 5, and the front outer peripheral core member 12 is the first outer core 12. By providing the function of the two holding portions, the number of members in the storage shelf structure 1 can be reduced.

  Further, since the front end surface 12a of the front outer peripheral core member 12 is also made of a ferromagnetic material, similarly to the first embodiment, for example, a magnet holder M or a panel for holding a memo paper or the like at an appropriate position on the front end surface of the shelf board 10. P and the like can be attached and detached, and the storage shelf can be used more conveniently in daily life.

  Furthermore, in this embodiment, since the upper and lower surfaces of the front outer peripheral core member 12 are also ferromagnetic, for example, a hook member F (see FIG. 6) having a magnet fixed on the upper surface is provided on the lower surface of the front outer peripheral core member 12. It is possible to attach a household item or the like to the hook member F by attaching.

[Modification 1 of the second embodiment]
In this embodiment, a core material made of a square tube provided on the front side of the shelf board 10 is used as the front outer peripheral core material 12, but is not limited to this configuration. For example, the front outer peripheral core material 12 may be a core material made of a hollow prism.

[Modification 2 of the second embodiment]
In this embodiment, the permanent magnet 9 (first holding portion) is provided at the tip of the support portion 8, but the present invention is not limited to this configuration. For example, the permanent magnet 9 may be fixed to the rear end surface 12 b of the front outer peripheral core member 12 facing the front end of the support portion 8 with an adhesive or a double-sided tape. In this case, it is only necessary that a member made of a ferromagnetic metal material is provided at the tip of the support portion 8. Alternatively, the support portion 8 itself may be made of a ferromagnetic metal material (for example, an iron bar).

[Other Embodiments]
In each of the above embodiments, each V groove processed into the thin plate 18 (MDF thin plate) is bent along each of the corner portions of the shelf plate 10 by the V-cut manufacturing method, so that the thin plate 18 is the three-sided frame 11 and the four-sided frame 14. However, the present invention is not limited to this form. For example, the thin plate MDF is attached to the upper and lower surfaces of the skeleton of the shelf board 10 constituted by the three-side frame 11 and the four-side frame 14 by a so-called flash manufacturing method, and 0.5-2. The form which affixed about 0 mm resin-made edge materials may be sufficient. Or the form which affixes the sheet | seat material as a surface decoration material on the whole frame | skeleton of the shelf board 10 comprised by the three-sided frame 11 and the four-sided frame 14 by the lapping manufacturing method by vacuum suction may be sufficient.

  In the storage shelf structure 1 according to each of the above embodiments, the shelf board 10 includes the four-sided frame 14 (the front inner peripheral core member 15, the rear inner peripheral core member 16, the left and right inner peripheral core members 17, 17). Not limited. That is, without forming the four-sided frame 14, only the left and right inner peripheral core members 17, 17 are directly attached to the rear end surface 12 b of the front outer peripheral core member 12, and between the left and right outer peripheral core members 13, 13 and the left and right inner peripheral core members 17, 17. The insertion hole 19 may be formed.

  Further, in the storage shelf structure 1 according to each of the above embodiments, the form in which the shelf boards 10, 10,... Are installed on the mounting plate 2 is shown, but the invention is not limited to this form. For example, the storage shelf structure 1 may have a form in which box-like suspension shelves provided with left and right side plates, a top plate, a bottom plate, and a back plate are installed on the mounting plate 2.

  As mentioned above, although embodiment about this invention was described, this invention is not limited only to the above-mentioned embodiment, A various change is possible within the scope of the invention.

  INDUSTRIAL APPLICABILITY The present invention can be used industrially as a storage shelf installed on the indoor wall surface of a building.

1: Storage shelf structure 2: Mounting plate 3: Shelf column 4: Locking hole 5: Support member 6: Bracket portion 7: Hook portion 8: Support portion 9: Permanent magnet 10: Shelf plate 11: Three-sided frame 12: Front outer periphery Core material 12a: Front end surface 12b: Rear end surface 13: Left and right outer peripheral core material 14: Four-sided frame 15: Front inner peripheral core material 16: Rear inner peripheral core material 17: Left and right inner peripheral core material 18: Thin plate 19: Insertion hole 21: First metal plate 22 : Second metal plate H: Magnet holder

Claims (4)

A storage shelf structure comprising: a mounting plate provided on a wall surface in a room; a support member detachably attached to the mounting plate; and a shelf plate supported by the support member and installed on the mounting plate.
The support member is
A bracket portion detachably attached to the mounting plate;
A rod-like support portion provided integrally with the bracket portion and protruding forward;
A first holding part made of a permanent magnet or a ferromagnetic metal member fixed to the tip of the support part,
The shelf board is
A bottomed insertion hole that is provided on the rear end surface so as to extend forward from the rear end surface;
A storage shelf structure comprising: a second holding part that is provided on the bottom side of the insertion hole and is made of a ferromagnetic metal member or a permanent magnet that is attracted and held by the first holding part. The storage shelf structure according to claim 1,
The first holding part is made of a permanent magnet,
The said 2nd holding | maintenance part is a storage shelf structure which consists of a ferromagnetic 1st metal plate which forms the bottom part of the said insertion hole. The storage shelf structure according to claim 2,
A storage shelf structure in which a ferromagnetic second metal plate is provided on the front end side of the shelf plate. The storage shelf structure according to claim 1,
The first holding part is made of a permanent magnet,
The second holding part is a storage shelf structure that is a core member made of a ferromagnetic prism or square tube provided on the front side of the shelf board.

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