JP2023081014A - Reinforced shelf board - Google Patents

Abstract

To provide a reinforced shelf board having improved strength.SOLUTION: A reinforced shelf board 5B comprises: a shelf board body 50 including a groove part 51 formed at one surface to extend in a longitudinal direction; and a reinforcing material 7 including an insertion part 73 provided to extend in the longitudinal direction and being inserted in the groove part 51, and a pair of planar contact surfaces 70 provided along the insertion part 73 in both sides thereof, with the insertion part 73 interposed therebetween and coming into one surface of the shelf board body 50. Preferably, the insertion part 73 is formed by folding a metal plate into two.SELECTED DRAWING: Figure 10A

Description

The present disclosure relates to reinforcing shelves.

Conventionally, in order to reinforce the deflection of the shelf board, a reinforced shelf board has been proposed in which a groove is formed in the back surface of the shelf board and a reinforcing member is placed in the groove to reinforce the shelf board (see, for example, Patent Document 1).

JP 2013-188296 A

When a groove is formed in a shelf board, the portion of the shelf board main body where the groove is formed becomes thin, so there is a concern that cracks may be formed from the groove.

The present disclosure includes a shelf board body having a groove formed on one surface thereof so as to extend in the longitudinal direction, an insertion portion provided extending in the longitudinal direction and inserted into the groove, and the The present invention relates to a reinforcing shelf board comprising a reinforcing member having a pair of planar contact surface portions provided along an insertion portion and contacting one surface of the shelf board main body.

It is a figure which shows the frame housing|casing body of this embodiment. It is the figure which looked the base unit and connection unit of this embodiment from the back side. FIG. 4 is a plan view of the position where the first vertical bar and the second vertical bar of the embodiment are connected; It is a side view of the frame storage body of this embodiment. It is a sectional side view of the unevenness adjustment structure of this embodiment. FIG. 3 is a perspective view of a horizontal beam having the unevenness adjusting structure of the embodiment; It is the perspective view which looked at the connection metal fittings of this embodiment from the back side. It is a perspective view of the fixing structure of the shelf board of this embodiment. It is a bottom view of the shelf board of this embodiment. FIG. 8B is a cross-sectional view taken along the line AA of FIG. 8A; It is a perspective view of the shelf board receiving member which has an extension part of this embodiment. It is a bottom view of the shelf board which has the stiffener of this embodiment. FIG. 10B is a cross-sectional view taken along the line BB of FIG. 10A; It is a perspective view of the connection metal fittings which concern on other embodiment. It is the perspective view which looked at the frame housing|casing body which concerns on other embodiment from the bottom.

Hereinafter, embodiments of the present disclosure will be described in detail with reference to the drawings. As shown in FIG. 1, the frame storage body 1 includes a frame unit 10 having a substantially U-shaped plan view formed by assembling vertical beams 2 and horizontal beams 3 to be described later. 82, etc., is configured by arranging a storage portion having an arbitrary function. The frame storage body 1 can be changed in size and shape by connecting a plurality of frame-shaped units according to the place where it is installed, such as a kitchen or a study. The frame storage body 1 has a plurality of vertical beams 2, a plurality of horizontal beams 3, and connecting fittings 4.

In this specification, left and right directions when the frame unit 10 is viewed from the front side are referred to as left and right directions, and directions perpendicular to the left and right directions and the up and down directions from the front side are referred to as depth directions. In the depth direction, the front side, the front side, and the back side are referred to as the rear side.

The frame unit 10 is used for the frame storage body 1 and is a frame-shaped framework before attaching the shelf board 5, the drawer 81, and the like. The frame unit 10 has a base unit 110 and a connecting unit 120 .

FIG. 2 is a view of the base unit 110 and the connecting unit 120 as the second frame extracted and arranged from the frame unit 10 of FIG. be. Each of the base unit 110 and the connecting unit 120 has a vertical beam 2 extending in the vertical direction, a horizontal beam 3 extending in a direction orthogonal to the vertical direction, and a side reinforcing beam 37 extending in the depth direction. The base unit 110 is constructed such that four vertical beams 2 are arranged as pillars and horizontal beams 3 connect between the vertical beams 2 so that the base unit 110 can stand up.

The vertical bar 2 of the base unit 110 has a rear side vertical bar 211 and a front side vertical bar 212 . The back-side vertical bar 211 is arranged on the back side of the frame container 1 . A pair of rear-side vertical bars 211 are provided on the rear side of the base unit 110 and are arranged substantially parallel to each other with a gap in the left-right direction. A pair of front-side vertical bars 212 are provided on the front side of the base unit 110 and are arranged substantially parallel to each other with a gap in the left-right direction.

The crosspiece 3 of the base unit 110 is the first crosspiece 31 . The first horizontal beam 31 is arranged on the back side of the frame housing 1 . The first horizontal beam 31 is fixed to the rear surface of the rear vertical beam 211 and connects between the pair of rear vertical beams 211 of the base unit 110 . Three first horizontal beams 31 are arranged with a space therebetween in the vertical direction.

The side reinforcing bar 37 connects the rear side vertical bar 211 and the front side vertical bar 212 in the depth direction. The side reinforcing bar 37 is configured by fixing the ends of a rectangular cylindrical shaped member to the back side vertical bar 211 and the front side vertical bar 212 .

The connection unit 120 is a unit connectable to the base unit 110 . As shown in FIG. 2, the connecting unit 120 lacks one of the vertical beams 2 in the left and right direction, and is configured to stand up by connecting to the base unit 110 using the vertical beams 2 of the base unit 110 as pillars. As shown in FIGS. 1 and 3, the connection unit 120 can be connected not only to the adjacent base unit 110 but also to the vertical beams 2 of other connection units 120 as pillars. As shown in FIGS. 2 and 3, when the connection unit 120 is connected to the base unit 110 or the adjacent connection unit 120, one vertical beam 2 is arranged between the adjacent base units 110 or the connection units 120. be.

The vertical beams 2 of the connection unit 120 each have one back side vertical beam 221 and one front side vertical beam 222 . The back side vertical bar 221 of the connection unit 120 is arranged on the back side of the frame container 1, and is arranged at a position spaced from the back side vertical bar 211 of the base unit 110 in the left-right direction. The front side vertical bar 222 of the connection unit is arranged on the front side of the rear side vertical bar 221 .

The crosspiece 3 of the connection unit 120 is the second crosspiece 32 . As shown in FIG. 3 , only one end of the second horizontal beam 32 is fixed to the rear side of the rear vertical beam 221 . The other end of the second horizontal beam 32 is connected to the rear vertical beam 211 of the base unit 110 on the rear side of the rear vertical beam 211 of the base unit 110 . Three second horizontal beams 32 are arranged with a space therebetween in the vertical direction.

The side reinforcing bar 37 has the same configuration as that of the base unit 110, and connects the back side vertical bar 221 and the front side vertical bar 222 in the depth direction.

As shown in FIG. 3 , a pair of horizontal beams 3 are connected to each other on the rear side of the vertical beams 2 . FIG. 3 is a plan view of the vertical beam 2 and the horizontal beam 3 cut slightly above the position where the connecting unit 120 is connected to the base unit 110 . The connection unit 120 is connected to the base unit 110 by connecting the second horizontal beam 32 of the connection unit 120 to the rear vertical beam 211 of the base unit 110 on the rear side of the rear vertical beam 211 . The connection fitting 4 that connects the base unit 110 and the connection unit 120 will be described in detail later.

In both the base unit 110 and the connection unit 120, the vertical beam 2 has a hollow rectangular tubular shape. Of the vertical bars 2 , the front side vertical bars 212 and 222 have a receiving member contact surface 23 , a locking surface 24 and a locking groove 25 . The front side vertical beams 212 and 222 are formed so as to be able to engage the shelf board receiving member 6 described later.

As shown in FIGS. 1, 6 and 7, the receiving member abutment surface 23 is a surface on the side to which the shelf board 5 described later is attached, and is a pair of vertical beams 2 arranged with a gap in the left-right direction. They are inner faces facing each other. A side surface portion 61 of the shelf plate receiving member 6 to be described later abuts on the receiving member contact surface 23 .

The locking surface 24 is a surface orthogonal to the receiving member contact surface 23, as shown in FIGS. The locking surfaces 24 are formed on the surfaces of the front side vertical bars 212 and 222 on the side of the rear side vertical bars 211 and 221 facing each other, and the shelf plate receiving members 6 described later are locked. The locking surface 24 is located on the back side of the vertical beam 2 that is not visible from the front.

The locking groove 25 is a square through groove formed in the locking surface 24 . Two locking grooves 25 are formed in parallel in the width direction perpendicular to the longitudinal direction of the locking surface 24 . As shown in FIG. 2, the locking grooves 25 are arranged in the vertical direction of the vertical beam 2 at predetermined intervals for arranging the shelf boards 5 described later, and the shelf board receiving members 6 are locked. is a groove.

Of the vertical bars 2 , both the rear side vertical bars 211 and 221 and the front side vertical bars 212 and 222 have receiving member contact surfaces 23 . A screw hole 26 for inserting a screw 64a, which will be described later, is formed in the receiving member contact surface 23 of the back-side vertical bars 211 and 221 . The screw holes 26 are arranged at intervals in the vertical direction corresponding to the locking grooves 25 . The locking grooves 25 are not formed on the surfaces of the back-side vertical bars 211 and 221 perpendicular to the receiving member contact surfaces 23 .

The first horizontal beam 31 and the second horizontal beam 32 of the horizontal beam 3 are arranged on the back side of the frame housing 1 and adjacent to each other in the left-right direction. As shown in FIG. 4, the horizontal beam 3 is fixed with screws to a wall surface 200 where the frame unit 10 is installed. The horizontal beam 3 is, for example, a mounting member used for the frame storage body 1, and has a body portion 30 and a body portion through-hole 30a, as shown in FIG. 5B.

When there is a gap between the horizontal beam 3 and the wall surface 200, unevenness with respect to the wall surface 200 is adjusted by the unevenness adjusting structure 300. - 特許庁The unevenness adjusting structure 300 has a male thread body 33 , a female thread body 34 and a fixture 35 .

The body portion 30 is a rectangular cylindrical outer portion of the first horizontal beam 31 and the second horizontal beam 32, and is a casing having a female screw body 34 therein.

The body portion through-hole 30a penetrates the body portion 30 in the thickness direction, and since the inside of the body portion 30 is hollow, circular holes are formed on both the back side and the front side of the body portion 30. It consists of being Both a male threaded body 33 and a fixture 35, which will be described later, can be inserted through the main body portion through-hole 30a.

The female threaded body 34 is specifically a tubular nut having a female thread groove 34d formed on its inner peripheral surface. The female threaded body 34 is arranged inside the body portion 30 of the horizontal beam 3 which is a mounting member. The female threaded body 34 engages with the surface of the male threaded body 33, which will be described later, and is arranged so as to be able to move forward and backward while being screwed with the male thread groove of the male threaded body 33. As shown in FIG. The female screw body 34 has a small diameter portion 34a and a large diameter portion 34b. As shown in FIG. 5A, the small-diameter portion 34a engages with the inner periphery of the body portion through-hole 30a arranged on the back side (wall surface 200 side) of the body portion 30 . The large-diameter portion 34 b expands in diameter from the small-diameter portion 34 a and is arranged inside the main body portion 30 . A step 34c is formed at the junction between the small-diameter portion 34a and the large-diameter portion 34b. are in agreement. The large-diameter portion 34b prevents the female threaded body 34 from slipping out of the body portion 30. As shown in FIG.

The male threaded body 33 is a separate member separated from the body portion 30 . As shown in FIG. 5A , the male threaded body 33 has a shaft portion 331 , a flange portion 332 , a through hole 333 and a hexagonal inner peripheral portion 334 .

The shaft portion 331 is a substantially cylindrical portion that can be inserted into the body portion through hole 30 a of the body portion 30 . A through hole 333 is formed inside the shaft portion 331 so as to extend therethrough in the axial direction. Axial portion 331 has one end arranged so as to be able to contact wall surface 200 , and the other end extending in a direction away from wall surface 200 . A male screw groove 331 a is formed on the outer peripheral surface of the shaft portion 331 .

The flange portion 332 is arranged at the end of the shaft portion 331 and is a disc-shaped portion having an outer diameter larger than that of the shaft portion 331 . The flange portion 332 has a flat surface that can come into contact with the wall surface 200 . The outer diameter of the flange portion 332 is larger than the diameter of the main body portion through-hole 30 a formed on the back side of the main body portion 30 . Since the male threaded body 33 is screwed into the female threaded body 34, the flange portion 332 prevents the female threaded body from coming off from the front side of the body portion through hole 30a.

The hexagonal inner peripheral portion 334 is formed on a part of the inner peripheral surface of the shaft portion 331 inside the shaft portion 331 . The hexagonal inner peripheral portion 334 has a peripheral surface in which the inner peripheral surface of the shaft portion 331 is formed in a substantially hexagonal shape in plan view, and a hollow portion communicating with the through hole 333 inside the peripheral surface. (not shown) can be inserted.

The fixture 35 is a screw inserted into the through hole 333 . The fixture 35 has a shaft portion 351 that can be inserted into the through hole 333, and a head portion 352 having an outer diameter larger than the outer diameter of the body portion through hole 30a.

A method for adjusting and fixing unevenness of the main body 30 in the unevenness adjusting structure 300 will be described. The flange portion 332 of the male screw body 33 is brought into contact with the wall surface 200 at a position facing the body portion through hole 30a. The shaft portion 331 of the male screw body 33 is inserted into the body portion through hole 30a. When the male threaded body 33 is inserted into the main body through hole 30a, it is lightly engaged with the female threaded body 34 arranged inside the main body through hole 30a. Therefore, by inserting a hexagonal wrench into the hexagonal inner circumferential portion 334 of the shaft portion 331 from the front side of the body portion through-hole 30a and operating it, the male threaded body 33 is rotated. As the male threaded body 33 rotates, the female threaded body 34 engages with the male threaded groove 331a formed on the surface of the male threaded body 33 and moves back and forth. By rotating the hexagonal wrench and moving the female threaded body 34 toward the flange part 332 side, the body part 30 on which the female threaded body 34 is arranged approaches the wall surface 200 . The position of the female threaded body 34 is adjusted by operating the hexagonal wrench while the flange portion 332 of the male threaded body 33 is in contact with the wall surface 200. As a result, unevenness between the main body portion 30 and the wall surface 200 is adjusted. be. That is, by adjusting the screwing position of the male thread groove 331a and the female thread groove 34d to change the axial relative position of the male thread body 33 and the female thread body 34, the unevenness of the body portion 30 with respect to the wall surface 200 is adjusted. After the unevenness is adjusted, the fixture 35 is inserted from the main body through hole 30 a to the through hole 333 , and the wall 200 is drilled to fix the main body 30 to the wall 200 .

The connecting fitting 4 is a fitting that connects the first horizontal beam 31 of the base unit 110 and the second horizontal beam 32 of the connecting unit 120, as shown in FIG. FIG. 6 shows the part where the base unit 110 and the connection unit 120 are connected from the rear side. The connecting metal fittings 4 are fixed to the upper surfaces of the first horizontal beam 31 and the second horizontal beam 32 that form a pair, thereby connecting the pair of the first horizontal beam 31 and the second horizontal beam 32 . The connecting fitting 4 is a flat plate having a width narrower than the width of the upper surface of the horizontal beam 3 and a length shorter than that of the horizontal beam 3 . It is fixed to the upper surface of the crosspiece 32 . The connecting fitting 4 has a first fixing portion 41 , a second fixing portion 42 and a third fixing portion 43 . The first fixing portion 41 is fixed to the upper surface of the first horizontal beam 31 with screws. The second fixing portion 42 is fixed to the upper surface of the second horizontal beam 32 with screws. The third fixing portion 43 is arranged between the first fixing portion 41 and the second fixing portion 42 and is fixed to the rear surface of the rear vertical beam 211 . Since the third fixing portion 43 is disposed over the reinforcing metal fittings 44 that connect the vertical beams 2 and the horizontal beams 3 , the third fixing portion 43 is bent upwardly in a substantially central portion in the longitudinal direction of the connecting metal fittings 4 . there is

As shown in FIG. 7, when the top plate 59 is arranged on the upper end of the frame unit 10, the connecting fittings 4 may be fixed to the lower surface of the horizontal beam 3 instead of the upper surface thereof.

A method for fixing the base unit 110 and the connection unit 120 will be described. First, the first horizontal beam 31 of the base unit 110 is fixed to the wall surface 200 at the installation position. Next, the connecting unit 120 is moved next to the base unit 110, and the positions of the rear vertical beam 221 and the second horizontal beam 32 of the connecting unit 120 are aligned with the rear vertical beam 211 and the first horizontal beam 31 of the base unit 110. . Then, the first fixing portion 41 of the connecting fitting 4 is fixed to the upper surface of the first horizontal beam 31 of the base unit 110 , and the second fixing portion 42 is fixed to the upper surface of the second horizontal beam 32 of the connecting unit 120 . Finally, the connection unit 120 is fixed to the wall surface 200 while adjusting the unevenness of the cross beam 3 with the unevenness adjusting structure 300 . As shown in FIG. 4, since the horizontal beams 3 are connected to the back side of the vertical beams 2, even if the baseboard 201 is arranged on the wall surface 200, the frame unit 10 can be attached to the wall surface 200 while avoiding the baseboard 201. Fixed.

Next, a fixing structure 400 for the shelf board 5 attached to the frame unit 10 will be described. A fixing structure 400 for the shelf board 5 includes a vertical bar 2 , a shelf board 5 , a shelf board receiving member 6 and a positioning member 55 .

The shelf board 5 is a plate material that is arranged substantially horizontally on the frame unit 10 and on which any article can be placed. A user can arrange a desired number of the plurality of shelf boards 5 at a desired position. The shelf board 5 may be made of, for example, medium-density fiberboard, but the material is not limited. As shown in FIG. 1 , the shelf board 5 may be made of a plate material whose depth dimension is substantially the same as that of the frame unit 10 , and which is shorter than the frame unit 10 . It may be a plate material. From the viewpoint of attachment to the frame unit 10, the horizontal dimension of the shelf board 5 is preferably the same as the horizontal dimension of the base unit 110 or the connecting unit 120, but is not limited thereto.

The shelf board receiving members 6 are attached to the left and right ends of the shelf board 5 and support the shelf board 5 . The shelf plate receiving member 6 is a metal fitting that connects between the vertical beams 2 (back side vertical beams 211 and 221 and front side vertical beams 212 and 222) and is locked and fixed to the vertical beams 2. As shown in FIG. The shelf board receiving member 6 is an elongated member, and the longitudinal direction of the shelf board receiving member 6 is arranged along the depth direction of the frame unit 10 . The shelf board receiving member 6 has a side surface portion 61 , a support surface portion 62 , a locking piece 63 , an extension portion 66 and a positioning engagement hole 65 .

The side surface portion 61 is a surface capable of coming into contact with the receiving member contact surfaces 23 of the pair of vertical bars 2 . The side surface portion 61 has a vertically long shape, and has a width direction along the vertical direction of the vertical beams 2 and a longitudinal direction along the depth direction of the shelf board 5 . extending between the front vertical bars 212, 222). The side surface portion 61 has a fixing piece 64 that continuously extends upward from the end portion on the side of the back-side vertical bars 211 and 221 . The upward extension length of the fixed piece 64 is not limited, but may be, for example, approximately the same as the vertical dimension of the extension portion 66 described later. The fixing piece 64 abuts on the receiving member abutment surface 23 of the back-side vertical beams 211 and 221 and is fixed by a screw 64a.

The support surface portion 62 is a surface orthogonal to the lower end of the side surface portion 61 and supporting the shelf board 5 from below. The support surface portion 62 and the side surface portion 61 are arranged in a substantially L-shaped cross section. As shown in FIG. 8A , the support surface portion 62 has a substantially rectangular shape, and is arranged such that its short side extends along the horizontal direction of the frame unit 10 and its long side extends along the depth direction of the shelf board 5 . The width dimension of the support surface portion 62 is larger than the width dimension of the side surface portion 61 . The support surface portion 62 has a positioning engagement hole 65 which will be described later.

The locking piece 63 is provided on one side of the side portion 61 , that is, on the upper portion of the end portion on the side of the vertical beams 212 and 222 on the front side. The locking piece 63 is bent so as to be folded back from the side of the vertical bars 211 and 221 on the back side to the side of the vertical bars 212 and 222 on the front side. The locking piece 63 is continuous with the upper end of the extending portion 66, which will be described later, and forms a substantially U shape in a plan view. As shown in FIG. 7, the locking piece 63 extends from the back side toward the locking surface 24 of the front vertical beams 212 and 222 and is inserted into the locking groove 25 and locked.

The extending portion 66 is a portion that extends upward from the upper end of the one end side of the side portion 61, as shown in FIG. 8B. The extending portion 66 is received between the end of the side portion 61 on the front side vertical bars 212 and 222 and the locking piece 63 and extends vertically. The extending portion 66 is a short portion in which a metal plate surface continuous from the side portion 61 extends toward the locking piece 63 above.

The positioning engagement hole 65 is preferably formed at a position of the support surface portion 62 spaced forward from the end of the shelf board receiving member 6 on the back side. As shown in FIG. 8A , the positioning engagement hole 65 is a gourd-shaped through hole having a large width portion 651 and a narrow portion 652 . The large width portion 651 is a nearly circular hole having a diameter larger than the maximum outer diameter of the positioning member 55, which will be described later. The narrow portion 652 is a hole having a substantially U-shaped outer edge that is smaller than the large width portion 651 and has a diameter smaller than the maximum outer diameter of the positioning member 55 to be described later. The wide portion 651 and the narrow portion 652 are continuous at adjacent peripheral edges.

The positioning member 55 is provided so as to protrude downward from the bottom surface of the shelf board 5 . The positioning member 55 is specifically a shoulder screw. As shown in FIGS. 7 and 8B, the positioning member 55 has a screw shaft portion 551 and a screw head portion 552 . The screw shaft portion 551 is a substantially cylindrical body with a thread groove formed on its surface, and is fastened and fixed to the bottom surface of the shelf plate 5 . The screw head 552 has a head large diameter portion 552a and a head small diameter portion 552b. The small-diameter portion 552b of the head portion is a circumferential portion whose diameter is increased from the end portion of the screw shaft portion 551 . The head small-diameter portion 552b is arranged on the screw shaft portion 551 side of the positioning member 55, is positioned between the screw shaft portion 551 and the head large-diameter portion 552a, and is smaller than the head large-diameter portion 552a. It is larger than the narrow portion 652 of the joint hole 65 . The large-diameter head portion 552a is disposed on the distal end side of the positioning member 55 and is the upper surface of a substantially disk-shaped screw having an outer diameter larger than that of the small-diameter head portion 552b. The maximum diameter of the head large-diameter portion 552 a is smaller than the large-width portion 651 of the positioning engagement hole 65 and larger than the narrow-width portion 652 .

The positioning member 55 is inserted through the large-width portion 651 of the positioning engagement hole 65 while being fixed to the bottom surface of the shelf plate 5 , and the small-diameter portion 552 b of the head portion moves toward the narrow-width portion 652 of the positioning engagement hole 65 . be moved. The small-diameter head portion 552b is located between the bottom surface of the shelf board 5 and the lower surface of the support surface portion 62 of the shelf board receiving member 6, and engages with the positioning engagement hole 65. As shown in FIG. Since the head large-diameter portion 552a has a larger diameter than the narrow portion 652 of the positioning engagement hole 65 and does not come off, the positions of the shelf board receiving member 6 and the shelf board 5 are determined. The shelf board receiving member 6 is arranged along the depth direction of the frame unit 10, but even if it is connected to the vertical beam 2 on the back side or the front side, the position may swing in the horizontal direction. When the shelf board receiving member 6 moves left and right, it becomes difficult to find a position to fix the shelf board 5 to an appropriate position on the shelf board receiving member 6.例文帳に追加Therefore, by projecting downward from the shelf board 5 together with the positioning member 55 and inserting the positioning member 55 into the positioning engagement hole 65, the positions of the shelf board 5 and the shelf board receiving member 6 are easily determined. In addition, since the positioning engagement hole 65 has a substantially gourd shape with a large width portion 651 and a narrow width portion 652, the positioning engagement hole 65 absorbs dimensional errors that occur during construction and assembly. do.

In the shelf board receiving member 6A shown in FIG. 9, since the upward extension length of the extending portion 66A of the locking piece 63 and the fixed piece 64 is long, the position downward from the locking groove 25 is This is the position of the shelf board 5 . According to this, as shown in FIG. 1, it is implement|achieved that the pitch of the shelf board 5 comrades adjacent to an up-down direction is narrowed. In this way, by using the shelf board fixing structure 400 provided with the plurality of shelf board receiving members 6, 6A having extensions 66, 66A with different vertical dimensions in the frame storage body 1, the shelf boards 5 can be fixed to each other. The vertical spacing can be changed.

In the shelf board receiving member 6A shown in FIG. 9, since the upward extension length of the extending portion 66A of the locking piece 63 and the fixed piece 64 is long, the position downward from the locking groove 25 is This is the position of the shelf board 5 . According to this, as shown in FIG. 1, it is implement|achieved that the pitch of the shelf board 5 comrades adjacent to an up-down direction is narrowed. Thus, by using the shelf board receiving member set 60 including a plurality of shelf board receiving members 6, 6A with different vertical dimensions of the extensions 66, 66A in the shelf board fixing structure 400, the shelf board 5 You can change the vertical spacing between them.

10A and 10B show a reinforcing shelf 5B provided with reinforcing members 7. FIG. The reinforcing shelf board 5B is used when it is desired to prevent the shelf board 5 from bending, for example, when placing a heavy article such as a microwave oven. The reinforcing shelf board 5</b>B has a shelf board main body 50 and a reinforcing material 7 .

The shelf board main body 50 has a thin, substantially rectangular parallelepiped plate shape similar to the shelf board 5 , and has a groove 51 extending in the longitudinal direction on the back surface, which is one side surface of the shelf board main body 50 . As shown in FIG. 10B, the groove 51 has a depth that does not reach the surface, which is the surface on the other side of the shelf board main body 50 . The grooves 51 extend in the longitudinal direction from both ends of the shelf board main body 50 in the longitudinal direction at positions inside by the width of the support surface parts 62 of the shelf board receiving members 6 . The groove portion 51 is formed on the front side of, for example, about 1/4 in the width direction of the shelf board main body 50 . By avoiding the position of the groove portion 51 in the central portion in the lateral direction, concentration of stress can be avoided and breakage of the shelf board main body 50 can be prevented.

The reinforcing member 7 is a metal plate member to be inserted into the groove 51, and is formed by bending a single metal plate member. The reinforcing member 7 has an insertion portion 73 and a pair of contact surface portions 70 . As shown in FIG. 10B, the insertion portion 73 is formed by folding a plate material into a mountain fold and stacking the plate material in a double layer. The insertion portion 73 is provided extending in the longitudinal direction of the reinforcing shelf plate 5B and is inserted into the groove portion 51 . The insertion portion 73 is configured such that the height from the back surface of the shelf board main body 50 fits inside the groove portion 51 .

Each of the pair of contact surface portions 70 has a first contact portion 71 and a second contact portion 72 each having an elongated, substantially rectangular shape and a planar shape. The first contact portion 71 and the second contact portion 72 are provided along the insertion portion 73 on both sides of the insertion portion 73 . A pair of contact surface parts 70 contact the back surface which is one surface of the shelf board main body.

According to this embodiment, the following effects are achieved. A shelf plate main body 50 having a groove portion 51 formed to extend in the longitudinal direction on one surface of a reinforcing shelf plate 5B, an insertion portion extending in the longitudinal direction and inserted into the groove portion 51, and the insertion portion sandwiched and a reinforcing member having a pair of planar contact surface portions provided on both sides along the insertion portion and contacting one surface of the shelf board main body. An insertion part inserted into the groove part and a pair of planar contact surface parts 70 are arranged on both sides of the insertion part, and contact with the back surface of the shelf board main body 50, so that the area to be reinforced is enlarged. Therefore, concentration of stress can be avoided, and the strength of the reinforcing shelf board can be further improved.

According to this embodiment, the insertion portion 73 is formed by folding a metal plate into two. By doubling the insertion portion 73, the strength can be increased.

According to this embodiment, the reinforcing member 7 is formed by bending a single metal plate. This facilitates installation of the reinforcing member 7 on the shelf board main body 50 .

The present disclosure is not limited to the above-described embodiments, and includes modifications, improvements, and the like within a range that can achieve the purpose of the present disclosure. In the above-described embodiment, the connecting fitting 4 is described as a flat plate-like member that connects the upper surfaces of the horizontal beams 3, but it is not limited to this. FIG. 11 shows another embodiment of a connecting fitting 4C for connecting the horizontal beams 3 to each other. As shown in FIG. 11, the connecting metal fitting 4C is inserted into the inside of the cross beam 3 in the shape of a rectangular tube near the end. The connecting fitting 4C is formed in an I-shape when viewed in cross section, and has an elongated plate-like portion 401 along the horizontal beam 3 in the rectangular hollow portion of the horizontal beam 3, and the vertical ends of this plate-like portion. , a top surface portion 402 and a bottom surface portion 403 having a thickness dimension larger than that of the plate-like portion 401 . The connecting fitting 4 has a rectangular thick portion 404 at a portion where the adjacent horizontal beams 3 abut against each other, and the thick portion 404 has a dimension not to be accommodated inside the horizontal beams 3 . It imitates the end cap of the rung 3 when it is attached. The connecting fittings 4</b>C and the adjacent horizontal beams 3 are overlapped toward the wall surface 200 and fastened with screws so as to penetrate the horizontal beams 3 , thereby connecting the horizontal beams 3 together and fixing them to the wall surface 200 .

FIG. 12 shows an example of a frame unit 10D having another shape. In the above-described embodiment, an example in which the shelf board 5 and the shelf board 5A are arranged on the frame obtained by assembling the vertical bars 2 and the horizontal bars 3 has been described. However, it is not limited to this. For example, not only the shelf board 5, but also a drawer 81, a storage shelf 82, a plate-shaped home appliance slider 83 from which home appliances can be pulled out, and the like may be arranged. As shown in FIG. 12, the connecting unit 120D may be configured to have different widths in the horizontal direction as appropriate.

In the above embodiment, the frame unit 10 is described as one in which the connection unit 120 is connected to the base unit 110 . However, a plurality of connection units 120 may be connected to the connection unit 120 as long as there is one base unit 110 . Also in connection between the connection units 120, the back side cross bar of one adjacent connection unit and the back side cross bar of the other connection unit can be connected at the back side of one vertical bar. The number and arrangement of the vertical beams 2 and horizontal beams 3 can be arbitrarily changed and are not particularly limited.

In the above embodiment, the unevenness adjustment structure 300 for fixing the horizontal beam 3 to the wall surface 200 has been described, but the surface to be fixed may not be the wall surface 200, and the mounting member is used for the frame container 1. , and may not be the horizontal beam 3 . The unevenness adjustment structure is a concept widely used when attaching parts to a fixed surface.

In the above-described embodiment, the positioning engagement hole 65 of the shelf board receiving member 6 has a gourd shape and is formed near the approximate center in the depth direction. However, the position and shape of the positioning engagement hole 65 can be designed according to the type of the shelf board 5 and the installation location. The positioning engagement portion may be formed at a corner on the near side or the far side of the shelf board receiving member 6 . Further, the positioning engaging portion 65</b>D does not have to be a through hole formed in the support surface portion 62 as is used in the household appliance slider 83 and the lowermost stage of the drawer 81 . A portion of the outer edge of the support surface portion 62 may be bent in a U shape, and the positioning member 55 may be engaged with the U-curved portion. may be formed by

In the above embodiment, the upwardly extending fixed piece 64 of the side portion 61 is fixed to the receiving member contact surface 23 . However, the side portion 61 may be formed in a substantially rectangular shape without the fixing piece 64, and the end portion on the back side may be fixed with the screw 64a.

7 reinforcing member 5B reinforcing shelf plate 50 shelf plate main body 51 groove portion 70 pair of contact surface portions 73 insertion portion

Claims (3)

a shelf board body having a groove extending longitudinally on one surface;
An insertion portion extending in the longitudinal direction and inserted into the groove portion, and a pair of planar abutments provided along the insertion portion on both sides of the insertion portion and in contact with one surface of the shelf board main body. and a stiffener having a facing portion. 2. The reinforcing shelf board according to claim 1, wherein said insertion portion is formed by folding a metal plate into two. The reinforcing shelf board according to claim 1 or 2, wherein the reinforcing member is formed by bending a single metal plate.

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