JP3226130U - Storage rack - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an assembling type storage shelf which has a small member size, can be easily assembled by one person, and can be formed in a relatively large size. A storage shelf (100) having a plurality of vertical plates (101) and a plurality of horizontal plates (102) and having a first part (110) and a second part (120) combined with the first part, wherein a plurality of vertical plates constituting the first part. Each of the plates and each of the plurality of vertical plates forming the second part are one connection plate 130 which is one of the plurality of horizontal plates and a connection member which is inserted into a hole provided in the connection plate. It is connected via 131. [Selection diagram] Figure 2

Description

  The present invention relates to a storage shelf. More specifically, the present invention relates to an assembling storage shelf that can be assembled from relatively small members.

  As a storage device configured by a combination of a vertical plate and a horizontal plate that are arranged side by side, a storage device disclosed in Patent Document 1 is known. Each of the vertical and side-by-side vertical plates that constitute this storage device is formed by a single plate-shaped body.

JP, 2013-183922, A

  In the storage device disclosed in Patent Document 1 in which the vertical plate is composed of a single plate-shaped body, when the storage device is large, each member (particularly the vertical plate) requires a large space for transportation. It will be necessary and it is considered undesirable from the viewpoint of transportation cost. In addition, since a large and single vertical plate is used as a member, a large amount of labor is required in assembling the storage device, and it may be difficult for a relatively weak person to assemble it alone. An accident may occur during the assembly work, which is not preferable from the viewpoint of safety.

  In view of such problems, the present invention is capable of keeping each member relatively small, is advantageous from the viewpoint of transportation cost, is easy to assemble by one person, and can be formed into a relatively large storage rack. The purpose is to provide.

  The storage rack of the present invention is a storage rack having a plurality of vertical plates and a plurality of horizontal plates and having a first part and a second part to be combined with the first part, and the plurality of vertical plates constituting the first part. Each of the plates and each of the plurality of vertical plates forming the second portion are inserted into one connecting plate which is one of the plurality of horizontal plates and a hole provided in the connecting plate. They are connected via a connecting member.

  Further, the hole penetrates the connecting plate, one end of the connecting member inserted into the hole is connected to the vertical plate forming the first portion, and the other end of the connecting member is connected. It is preferable that the portion is connected to the vertical plate that constitutes the second portion.

  The second portion preferably includes a back plate attached to the connection plate.

  The height of the storage shelf is 1800 mm or more, the length corresponding to the direction of the height in each of the plurality of vertical plates is less than 1800 mm, and the length in each of the plurality of vertical plates, The total width and thickness is desirably less than 2600 mm.

  According to the storage shelf of the present invention, each of the members constituting the storage shelf can be suppressed to a relatively small size, and the space can be efficiently used during transportation. In addition, even one person can safely assemble it with little effort, and a sturdy storage shelf can be provided.

It is a schematic perspective view which shows an example of the storage shelf of this invention. It is a schematic perspective view of the state which isolate | separated the 1st part and 2nd part of the storage shelf of FIG. FIG. 3 is an exploded view showing an example of a connection structure in the combination of the first part and the second part of the storage shelf of the present invention. FIG. 6 is an exploded view showing another example of the connection structure in the combination of the first part and the second part of the storage shelf of the present invention. FIG. 7 is an exploded view showing still another example of the connection structure in the combination of the first part and the second part of the storage shelf of the present invention. It is a front view showing an example of arrangement of a backboard of a storage shelf of the present invention. FIG. 5 is an exploded view showing an example in which a back plate is further connected to the connection structure shown in FIG. 4.

  Hereinafter, the storage shelf of the present invention will be described with reference to the drawings. In the drawings referred to, the precise proportions of the respective components are not intended to be shown, and the features of the present invention are drawn for easy understanding. The following embodiment is merely an example, and the storage rack of the present invention is not limited to the following embodiment.

  FIG. 1 is a schematic perspective view showing a storage rack 100 which is an example of the storage rack according to the embodiment of the present invention. FIG. 2 is a schematic perspective view showing a state where the lower shelf portion (first portion 110) and the upper shelf portion (second portion 120) of the storage shelf 100 shown in FIG. 1 are separated. It is a figure.

  As shown in FIG. 1, the storage shelf 100 of the present embodiment has a plurality of vertical plates 101 arranged side by side in the horizontal direction (X direction, width W direction) and a vertical direction (Z direction, height H). Direction) and a plurality of horizontal plates 102 arranged in parallel. The storage rack 100 is an assembly-type storage device formed by assembling a plurality of vertical plates 101 and a plurality of horizontal plates 102 as members. The storage rack 100 can be used, for example, as a wall storage rack by arranging the storage rack 100 so that its rear surface side (the Y direction, the rear side in the direction of the depth D) contacts an indoor wall surface.

  Note that the term “storage” here does not limit the purpose of use of the storage rack 100, but has a broad meaning including placement of articles on the horizontal plate 102 such as placement, display, and storage. used. Therefore, the “storage shelf” here means a multi-tiered shelf configured by a plurality of vertical plates 101 and a plurality of horizontal plates 102 in which articles can be arranged on the horizontal plate 102. Further, the terms “vertical plate” and “horizontal plate” mean that the plate surfaces of the vertical plate 101 and the horizontal plate 102 extend strictly in the vertical direction (X direction) and the horizontal direction (Y direction). The vertical plate 101 and the horizontal plate 102 may include those whose plate surface extends at an arbitrary angle with respect to the vertical direction and the horizontal direction.

  In the example shown in FIG. 1, the storage space partitioned by the vertical plate 101 and the horizontal plate 102 is formed in seven columns in the vertical direction and five rows in the horizontal direction. The arrangement is not limited to that shown. For example, a total of 15 accommodating spaces may be formed with 5 rows in the vertical direction and 3 rows in the horizontal direction. The number, shape, and size of the storage spaces can be arbitrarily designed by combining the vertical plate 101 and the horizontal plate 102. Although the storage rack 100 of FIG. 1 is not provided with a top plate, the storage rack 100 may be provided with a top plate.

  Wood may be mainly used for members constituting the storage rack 100 such as the vertical plate 101 and the horizontal plate 102. For example, as the vertical plate 101 and the horizontal plate 102, a decorative plate in which plywood is coated may be used. A solid material may be used, and a resin plate or a metal plate may be used.

  The illustrated storage rack 100 has, for example, a height H of 2400 mm, a width W of 1715 mm, and a depth D of 250 mm. Such a relatively large storage rack 100 having a height H larger than the height of a general person is used as one member of a single vertical plate (in this case, a vertical plate having a length of 2400 mm). When attempting to assemble, as described above, due to the large size of the members, a large amount of labor is required for the assembly, and safety is a concern. Further, for example, there is a possibility that it may be difficult to carry at a bend in a narrow transportation route, and the transportation route is limited, which is not preferable from the viewpoint of transportation cost.

  In view of such a problem, in the present embodiment, as will be described in detail below, the relatively large storage rack 100 is configured to be composite by combining relatively small members. Specifically, as shown in FIG. 1, the first portion 110 that constitutes a lower portion in the vertical direction and the second portion 120 that constitutes an upper portion in the vertical direction are combined (concatenated) for storage. The shelf 100 is configured.

  The first part 110 is combined with the second part 120 via a single connection plate 130, which is one of the plurality of horizontal plates 102 forming the storage shelf 100. The exploded view of FIG. 2 schematically shows the connection structure of this combination with the first part 110 and the second part 120 separated. The combination of the first part 110 and the second part 120 is that the connection member 131 attached to the connection plate 130 on the second part 120 side is connected to the plurality of vertical plates 101 forming the second part 120. Has been realized. Also on the first portion 110 side of the connection plate 130 (not shown), the connection member 131 is connected to the plurality of vertical plates 101 forming the first portion 110. That is, each of the plurality of vertical plates 101 forming the first part 110 is connected to each of the plurality of vertical plates 101 forming the second part 120 by the connecting member 131 via the connecting plate 130.

  In the example shown in FIG. 2, the plurality of vertical plates 101 forming the first part 110 are fixed by being integrally connected by a single connecting plate 130 at the end part on the side closer to the second part 120. Has been done. At this time, as will be described later in detail, with respect to the vertical plate 101 and the connection plate 130 of the first portion 110, one end portion of the connection member 131 inserted into the hole formed in the connection plate 130 is the first portion. It is fixed by being embedded and connected in the hole formed in the vertical plate 101 of 110. On the second portion 120 side of the connection plate 130, the ends of the connection members 131 protruding from the connection plate 130 toward the second portion 120 side are connected by being embedded in the holes formed in the vertical plate 101 of the second portion 120. It As the connecting member 131, for example, a wooden dowel is used, and the vertical plate 101 of the first part 110, the connecting plate 130, and the vertical plate 101 of the second part 120 are connected by a so-called dowel joint.

  As described above, in the storage rack 100 having the height H (for example, 1800 mm or more) larger than the height of a general person, the first part 110 and the second part 120 are combined as separate units. This makes it possible to reduce the size of each of the individual members (particularly the vertical plate 101) that form the storage shelf 100. For example, as described above, when the height H of the storage rack 100 is 2400 mm, the height H1 of the first portion 101 can be 1720 mm and the height H2 of the second portion 120 can be 665 mm. As a result, in the present embodiment, the maximum length corresponding to the height H direction of one vertical plate 101 is suppressed to 1720 mm. In this case, the vertical plate 101 and the horizontal plate 102 have a thickness of 15 mm.

  In the present embodiment, since the first portion 110 and the second portion 120 are combined via the connection plate 130, each of the plurality of vertical plates 101 of the first portion 110 and each of the plurality of vertical plates of the second portion 120 are combined. Compared with the case where the combination of the first part 110 and the second part 120 is realized by directly connecting and extending each of the 101, the end parts of the plurality of vertical plates 101 are fixed by the connection plate 130 and stabilized. Therefore, the first part 110 and the second part 120 can be stably combined. Therefore, it is possible to obtain the storage rack 100 in which the respective members are accurately combined and the number of defects such as distortion is small.

  Each of the vertical plate 101 and the horizontal plate 102, which are members that form the storage shelf 100, preferably has a maximum dimension of any one of length, width, and thickness of 1800 mm or less, and the length, width, and Also, it is preferable that the total thickness dimension is 2600 mm or less from the viewpoint of enhancing the convenience of transportation and suppressing the transportation cost.

  Next, the connection structure in the combination of the first part 110 and the second part 120 will be described in more detail with reference to the drawings. FIG. 3 shows an exploded view of a partial connection structure of the combination of the first part 110 and the second part 120. As shown in FIG. 3, the connection structure of the first part 110 and the second part 120 has a vertical plate 101 that constitutes the first part 110, a vertical plate 101 that constitutes the second part 120, and a first part 110. It is composed of a connection plate 130 and a connection member 131 arranged between the second part 120 and the second part 120.

  In the connection plate 130, a hole 131h through which the connection member 131 is inserted is formed as a through hole. A hole 101h into which the end of the connecting member 131 is inserted is formed at a position corresponding to the through hole 131h in the vertical plate 101 of the first portion 110 and the vertical plate 101 of the second portion 120. The connecting member 131 is inserted into a through hole 131h formed in the connecting plate 130, and one end of the connecting member 131 protruding from the through hole 131h enters the hole 101h of the vertical plate 101 of the first portion 110, and the other end Ends of the second part 120 enter the holes 101h of the vertical plate 101 of the second part 120 to connect the vertical plate 101 of the first part 110, the connection plate 130, and the vertical plate 101 of the second part 120. An adhesive may be used for this connection to reinforce the strength of the connection.

  In the illustrated example, in one connection portion (a portion where one of the plurality of vertical plates 101 of the first part 110 and one of the plurality of vertical plates 101 of the second part 120 are connected) The connection is realized by the two connecting members 131 arranged. The number used for one connecting portion of the connecting member 131 is not particularly limited, but it is preferably two or more from the viewpoint of strength. When the thickness of the vertical plate 101 and the connecting plate 130 is 15 mm, the wooden dowel used as the connecting member 131 has, for example, a diameter of 8 mm and a length of 40 mm, and one hole 101h is 12. It is formed to have a depth of 5 mm. The shape and size of the connecting member 131 used can be appropriately changed according to the thickness of the connecting plate 130 and the vertical plate 101.

  In the procedure of combining the second part 120 with the first part 110, first, the first part 110 in which the vertical plate 101 and the horizontal plate 102 have been assembled is prepared. Next, one end of the connecting member 131 is embedded in the hole 101h provided in the end of the vertical plate 101 of the first part 110 on the second part 120 side. Next, the connection plate 130 is attached to the first portion 110 from the second portion 120 side (the upper side in the drawing) so that the connection member 131 protruding from the vertical plate 101 of the first portion 110 enters the through hole 131h. As a result, a state before the second portion 120 is attached to the storage rack 100 is formed, which is shown as the lower portion of FIG.

  By attaching the connecting plate 130 to the first portion 110, the ends of the plurality of vertical plates 101 of the first portion 110 are structurally integrated. With this integrated structure, the stress applied to the vertical plate 101 can be distributed to a plurality of vertical plates 101 without being concentrated on one vertical plate 101. That is, on the side of the second portion 120 of the first portion 110, a structure having high rigidity and firmness can be obtained.

  Subsequently, the vertical plate 101 forming the second portion 120 is attached to the connection plate 130 such that the tip of the connection member 131 protruding from the connection plate 130 toward the second portion 120 side enters the hole 101h. The attachment of the vertical plates 101 of the second portion 120 to the connection plate 130 may be realized by attaching the vertical plates 101 to the connection plate 130 one by one. At this time, since the first portion 110 and the connection plate 130 are fixed and have a strong structure, compared with the case where the vertical plate 101 of the second portion 120 is directly connected to the vertical plate 101 of the first portion 110. It is easy to attach the vertical plate 101.

  The procedure for combining the first part 110 and the second part 120 is not limited to the above order. The vertical plate 101 forming the second part 120 is attached to the connection plate 130 after the vertical plate 101 and the horizontal plate 102 of the second part 120 are assembled, that is, in the upper part of FIG. The assembly of the first part 110 and the second part 120 may be realized by attaching the second part 120 to the connection plate 130 after the assembly of the two parts 120.

  In order to further strengthen the connection between the connection plate 130 and the first part 110 and stabilize the structure, the first part 110 and the connection plate 130 may be connected by an additional connection member. FIG. 4 shows a structure in which the connection plate 130 and the vertical plate 101 forming the first portion 110 are connected by the connection member 132 in addition to the connection member 131. The connection member 132 reinforces the connection between the connection plate 130 and the first portion 110 by the connection member 131 at any connection portion among the plurality of connection portions between the first portion 110 and the second portion 120.

  As the connecting member 132, for example, a metal joint connector bolt is used. A through hole 132h through which the connecting member 132 is inserted is formed in the connecting plate 130, and a hole 101j into which the tip of the connecting member 132 is embedded is formed at a position corresponding to the through hole 132h of the vertical plate 101 of the first portion 110. Has been formed. The through hole 132h is provided with a recessed portion having a countersunk hole so that the head portion of the joint connector bolt does not protrude outward from the surface of the connection plate 130. The connection member 132 is inserted into the through hole 132h, and the tip of the connection member 132 is inserted into the hole 101j formed in the vertical plate 101 of the first portion 110 to reinforce the connection between the connection plate 130 and the first portion 110.

  In the above-described connection structure, the connection member 131 penetrates the connection plate 130, and both ends thereof are connected to the vertical plate 101 of the first portion 110 and the vertical plate 101 of the second portion 120. However, separate connecting members may be used on the first part 110 side and the second part 120 side without the connecting member penetrating the connecting plate 130. FIG. 5 shows an example in which the connection plate 130 and the vertical plate 101 are connected by separate connection members on the first part 110 side and the second part 120 side.

  In the example shown in FIG. 5, two holes 133h are formed on the first portion 110 side and the second portion 120 side of one connection portion of the connection plate 130, respectively. The connection between the vertical plate 101 and the connecting plate 130 of the first part 110 and the connection between the vertical plate 101 and the connecting plate 130 of the second part 120 are performed by connecting the connecting member 133 inserted into the hole 133h to the hole of the vertical plate 101. It is realized by being embedded in 101h. The connecting member 133 is connected to the vertical plate 101 at two locations on the first portion 110 side and two locations on the second portion 120 side, for a total of four locations. The two locations on the second portion 120 side are arranged at corresponding positions between the two locations on the first portion 110 side. However, the number and positional relationship of the connecting members 133 are not limited to the illustrated example.

  A back plate that closes one of the storage spaces may be provided on the back surface of the storage shelf 100. FIG. 6 shows a state where the back plate 103 is attached to the back surface of the storage shelf 100. In the illustrated example, the back plate 103 is attached to the back surface of a part of the plurality of storage spaces included in the storage shelf 100, and the back plate 103 is attached to six storage spaces of the 35 storage spaces. The position at which the back plate 103 is attached is not limited to the illustrated example, and the number of the back plate 103 and the attachment position can be designed arbitrarily.

  The back plate 103 is arranged in an appropriate pattern designed from the viewpoint of preventing the articles arranged in the storage space from falling, from the viewpoint of aesthetics, and from the viewpoint of improving the rigidity of the storage rack 100. In particular, from the viewpoint of improving the rigidity of the storage rack 100, it is desirable that the back plate 103 is provided at least immediately above the connection plate 130, that is, on the back surface of the storage space closest to the connection plate 130 of the second portion 120.

  FIG. 7 shows an example in which the back plate 103 is further connected to the connection plate 130 in the connection structure shown in FIG. In the illustrated example, the back plate 103 is connected to the connection plate 130 by the connection member 134 that is inserted into the through hole 134h formed in the connection plate 130 from the first portion 110 side and enters the hole 103h formed in the back plate 103. Fixed to. The connecting member 134 is, for example, a joint connector bolt similar to the connecting member 132. The back plate 103 is fixed to the adjacent vertical plates 101 by any connecting means (dowel splicing, bolting, engagement, etc.), and the structure of the second portion 120 can be made rigid and strong.

  By providing the back plate 103 on the back surface of the storage space of the second portion 120 closest to the connection plate 130, the attachment of the second portion 120 to the connection plate 130 may be facilitated. For example, one back plate 103 and two adjacent vertical plates 101 are assembled into a U-shape by an arbitrary connecting means, and a procedure for attaching this U-shaped unit to the connection plate 130 is described. As a result, a more stable assembly work is realized as compared with the case where only the vertical plates 101 are attached to the connection plate 130 one by one.

  6 and 7 described above show an example in which the back plate 103 is provided in a part of the storage space of the storage shelf 100, but the back plate 103 may be provided in all of the storage shelves 100 as necessary. It may be provided on the back surface of the storage space.

  The storage rack of the embodiment is not limited to the structure illustrated in each drawing or the structure and materials illustrated in the present specification. The storage rack 100 may have a third part that is further combined in addition to the first part 110 and the second part 120. The first part and the second part are configured to be combined in the horizontal direction, and may be combined with one vertical plate interposed as a connecting plate.

100 Storage Shelf 101 Vertical Plate 101h, 101j, 103h Hole 102 Horizontal Plate 103 Back Plate 110 First Part 120 Second Part 130 Connection Plate 131, 132, 133, 134 Connection Member 131h, 132h, 134h Hole (Through Hole)
133h Hole H Height H1 Part 1 height H2 Part 2 height W Width D Depth

Claims (4)

A storage shelf comprising a plurality of vertical plates and a plurality of horizontal plates and having a first part and a second part combined with the first part,
Each of the plurality of vertical plates forming the first portion and each of the plurality of vertical plates forming the second portion are one connection plate which is one of the plurality of horizontal plates and the connection. A storage shelf that is connected through a connecting member that is inserted into a hole provided in a plate.   The hole penetrates the connection plate, one end of the connection member that is inserted into the hole is connected to the vertical plate that constitutes the first portion, and the other end of the connection member is The storage shelf according to claim 1, which is connected to the vertical plate that constitutes the second portion.   The said 2nd part is a storage shelf of Claim 1 or 2 provided with the back plate attached to the said connection board.   The height of the storage shelf is 1800 mm or more, the length corresponding to the direction of the height in each of the plurality of vertical plates is less than 1800 mm, and the length in each of the plurality of vertical plates, The storage rack according to any one of claims 1 to 3, wherein the total of the width and the thickness is less than 2600 mm.

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