Hang standard and storage system including the hang standard

Abstract

A hang standard, for mounting vertically and connecting with cantilevered brackets, is elongated and has an approximately U-shaped cross-section with a front portion and two rearwards extending leg portions. The front portion comprises a plurality of slots located in a recess between first and second protruding portions, which are located on first and second side of the slots. The recess is laterally continuous from the first to the second protruding portion and over two columns of slots.

Description

RELATED APPLICATIONS

This application claims priority to Swedish Application No. 2050499-9, filed Apr. 30, 2020, which is incorporated herein in its entirety for all purposes.

FIELD OF INVENTION

The present invention relates to a hang standard for mounting vertically in a storage system and connecting with cantilevered brackets and the like, the standard being elongated and having an approximately U-shaped cross-section with a front portion and two rearwards extending leg portions, the front portion comprising a plurality of slots as connection points and being located in a recess between first and second protruding portions, located on first and second side of the slots, respectively.

BACKGROUND

WO2019/083632 A1 discloses a wall-mounted storage system, which comprises a plurality of hang standards for vertical mounting on a wall or the like. The hang standards provide a support for cantilevered brackets, which in their turn support various storage components, such as shelves, baskets, drawers, etc. Each of the brackets utilizes slots in a single column of slots in the hang standard for inserting hooks to hang a bracket therein. The hang standard has a cross-section where each column of slots on a front face of the hang standard is recessed to obtain a visually attractive appearance, the slots being at least partly obscured by protruding portions. Brackets with attachment hooks arranged in parallel, which have been known and widely used for many years, are not compatible with such hang standards.

SUMMARY

Disclosed are representative examples of hang standards that are compatible with brackets with parallel attachment hooks and embody various aspects that can be used alone or in various combinations to provided improved hang standards solving various problems in the prior art.

According to one aspect, a hang standard has protruding portions on opposite sides of a two or more columns of slots, defining between them a recess that is laterally continuous over the two columns of slots. It may work well with different brackets for shelves, drawers, and the like, that have been sold and used for several years. Hence the disclosed hang standard is combinable with components that the end customer may already have or with components that are already available for purchase.

This arrangement allows, optionally, the points at which the connection of brackets to a hang standard or connection points to be located within the recess, between the protruding portions. This allows the connection points and connections between brackets and the hang standard to be at least partially covered or made less conspicuous, thereby resulting in a more visually pleasing appearance when installed.

In another aspect, the bending stiffness of a hang standard with protruding portions is increased by a transition portion extending into a protruding portion which has an outer lateral wall facing away from the front portion and an inner lateral wall faces towards the front portion, and the outer and inner lateral walls together comprising a double layer of the sheet metal. This provides an increased second moment of area. The high bending stiffness results a high load-carrying ability while maintaining the shape of the hang standard, both as seen in its longitudinal direction and in its cross section.

According to yet another, an outwardly extending longitudinal flange at a rear end of each of two leg portions that extend rearwardly from the front of a hang standard can be used to increase the bending stiffness of the hang standard. Additionally, the flanges may, optionally, be arranged to be parallel with, and bear against, a wall on which the hang standard may be mounted, thus avoiding contacting the wall sharp edges that could damage the surface of the wall, for example paint or wallpaper.

In another aspect, a section of the rearward extending leg portions may be made narrower than the width of a front of a hang standard with protruding portions, thereby forming a ledge at the transition portion between each leg portion and each protruding portion. One advantage of this feature is that a covering screen or board may, optionally, be attached between two hang standards by sliding, clamping, or snapping it behind the longitudinal ledge on the respective hang standard.

Furthermore, in embodiments with the protruding portions, the front portion and protruding portions can be, optionally, made to form an undercut recess. The undercut recess can be used to conceal the connection point from view, but also for snap fastening of various components included in the storage system. In one embodiment of such a recess, an inner lateral wall of each protruding portion is slanted to create the undercut recess. In a further embodiment each inner lateral wall is arranged with angle of less than 15° to a respective outer lateral wall of the protruding portion. With a limited angle between the outside and inside lateral walls of the protruding portion, the bending stiffness of the hang standard as a whole is increased e.g. in comparison with a hang standard without protruding portions. In some preferred embodiments the angle is 3-12°, and preferably 10°.

In another embodiment, a longitudinal rib is provided in the bottom part of the recess between the columns of slots. Hereby the fit of pre-existing brackets in the disclosed hang standard may be exact or at least improved. The disclosed hang standard may be manufactured in a sheet metal with a limited thickness, and the provision of a longitudinal rib between the columns of slots may set the distance between the back side and the front side of the front portion longer than the actual thickness of the sheet metal. From back side at the bottom of the slots, on the one hand, to the front side of the front portion at the longitudinal rib on the other, the distance will be greater than the actual thickness of the metal. The difference will be approximately equal to the height of the rib. Hence it is possible to make the thickness of a thinner plate appear as a thicker plate that was used previously in connection with pre-existing brackets. The longitudinal rib may, for example, be embossed in the front portion between the columns of slots. Alternatively, the longitudinal rib can be created by parallel bends of the front portion of the hang standard, between the columns of slots.

The hang standards with one or more the described aspects can be, optionally, manufactured from a single sheet of folded metal.

Various options for mounting a hang standard according to any one or more of these aspects in an upright position on a wall may be provided, in addition to the prior art option of arranging fixing means, such as a screw, through the front portion, as well as engagement devices that are arranged at the rearwards extending leg portions for cooperation means for mounting the hang standard on, for example, a wall.

A hang standard with any of these aspects or features may be used or sold for use in a storage system that includes a plurality of hang standards, mounting means for interaction with each of the standards that are arranged on a wall, a plurality of brackets connected with the standards, and storage components supported by the brackets.

It is noted that combinations of one or more of the foregoing aspects may be embodied by a hang standard and are not limited to the representative embodiments that are illustrated.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a diagrammatic view in perspective of a hang standard;

FIG. 2 is a planar view of the hang standard according to FIG. 1;

FIG. 3A is a side view of the hang standard according to FIG. 1 mounted on a wall, with a bracket supporting a load;

FIG. 3B is a diagrammatic view in perspective of a rail for mounting the hang standard of FIG. 1 on a wall;

FIG. 4 is a cross sectional view of the hang standard according to FIG. 1;

FIG. 5A is a diagrammatic view in perspective of another embodiment of the hang standard;

FIG. 5B is a planar view of the hang standard according to FIG. 5A; and

FIG. 5C is a cross sectional view of the hang standard according to FIG. 5A.

All the figures are schematic, not necessarily to scale, and generally only show parts which are necessary to elucidate the embodiments, wherein other parts may be omitted.

DETAILED DESCRIPTION

In the following description, like numbers refer to like elements.

The present disclosure relates generally to improvements to a hang standard for mounting vertically in a storage system and connecting with cantilevered brackets and the like, the standard being elongated and having an approximately U-shaped cross-section with a front portion and two rearwards extending leg portions, the front portion comprising a plurality of slots as connection points and being located in a recess between first and second protruding portions, located on first and second side of the slots, respectively. However, such improvements may also be embodied in a hang standard for mounting vertically in a storage system and connecting with cantilevered brackets and the like, the standard being elongated and having an approximately U-shaped cross-section, formed in a single piece from a strip of sheet metal, with a front portion and two rearwards extending leg portions, the front portion comprising a plurality of slots as connection points, wherein between the front portion and each of the leg portions there is provided a transition portion. One or more of the improvements may also be embodied in a hang standard for mounting vertically in a storage system and connecting with cantilevered brackets and the like, the standard being elongated and having an approximately U-shaped cross-section, with a front portion and two rearwards extending leg portions, the front portion comprising a plurality of slots as connection points for cantilevered brackets located in a recess.

FIG. 1 illustrates a representative, non-limiting example of a hang standard 1 embodying several features. The hang standard 1 may be comprised as one among many components in a storage system. Several hang standards 1 may be arranged side by side, at suitable distances from one another, vertically, e.g. on a wall. The hang standards 1 are designed to interact with brackets, which in their turn carry loads and/or other components in the storage system, or directly with other components of the storage system.

The hang standard 1 has a generally U-shaped cross-section with a forwardly facing front portion 2 and two rear leg portions 3, as seen when the hang standard 1 is mounted vertically on a wall. The hang standard 1 may be formed from a single piece of sheet metal by punching and bending, in several steps, thereof.

The front portion 2 is provided with a plurality of connection points for brackets at different heights, to allow for a selection of the connection point for each bracket used in the system. In the embodiment shown in FIG. 1, the connection points are slots 4 arranged in two columns next to one another. Alternatively, a single column of slots could be substituted and still allow the hang standard to incorporate one or more of the features described below. One of the columns is not visible in FIG. 1 but is clearly shown in FIG. 2. Each slot 4 is arranged next to an identical slot 4 in the other column, thereby providing that the slots 4 are arranged in pairs at different heights. The shown hang standard is rather short for illustrative purposes, having only six slots in each column. Usually hang standards have tens of slots in each column.

The front portion 2, with the columns of slots 4, is arranged in a recess 5, which is surrounded by protruding portions 6 on each side of the front portion 2. The protruding portions 6 extend forwards from the leg portions 3 via a connecting transition portion 7 on each side of the hang standard 1.

The protruding portions 6 extend slightly outwards from the leg portions 3 at the transition portions 7. In other words, the outer transversal dimension of the hang standard 1 is wider at the protruding portions 6 than at the leg portions 3. Each protruding portion 6 has, in the illustrated embodiment, an outer wall and an inner wall. The double wall can, for example, be formed by bending of the sheet metal making up the hang standard 1.

An optional longitudinal rib 8, best seen in FIG. 2, is provided between the two columns of slots 4. The rib 8 is a narrow area, slightly raised from the surface of the front portion 2. It may be provided by embossing, stamping, bending, etc. of the sheet metal forming the front portion 2. Alternatively, an additional metal strip may be added to make up the rib, which can be, for example, attached by gluing or welding. The forming of the longitudinal rib 8 may take place before the formation of the hang standard 1 by bending or as an intermediate step in the formation process.

One function of the longitudinal rib 8 is to make the front portion 2 thicker for the purpose of connecting brackets designed to be used with hand standards fabricated from thicker sheets of metal. Brackets that were originally designed to fit on hang standards manufactured from a thicker sheet metal may have a correct fit, without play, thanks to the provision of the rib 8. The material thickness in the illustrated case is typically in the range from 1.2-1.8 mm, preferably about 1.6 mm.

A bracket is connected to the hang standard 1 by insertion of hooks into the slots 4. The hooks each open downwards with a width of the opening closely corresponding to the thickness of the sheet metal. Hence, they will come into contact with the outer face of the front portion 2, between the columns of slots 4, as well as with the rear side of the front portion 2, at the lower end region of the slots 4. In the absence of a rib 8, the distance between the outer face and the inner side of the front portion 2, at the respective areas of contact, will correspond to the thickness of the sheet metal. If the thickness of the sheet metal closely matches the opening width of the hook, the fit will be good without play. If the sheet metal is thinner, the distance between the outer face and the inner side of the front portion 2, at the respective areas of contact, may be too small and the bracket may appear loose. In this case, the addition of rib 8 provides a sufficient elevation for matching the distance between the two areas of contact on the hang standard 1 with the width of the hook opening on the bracket.

In at least one position, as shown in the schematic view of FIG. 1, the leg portions 3 may be provided with an engagement device 9. The engagement device 9 disclosed in FIG. 1 is a series of sockets, that are shaped to correspond with a horizontally arranged rail, which will be disclosed in further detail below in connection with FIG. 3B. The sockets 9 will allow the hang standard 1 to be hung from a rail and to be slid sideways into any exact, desired position, when the storage system is mounted.

FIG. 3A shows a side view of the hang standard 1 hanging from a horizontal rail 13, which is mounted on a wall 10. The cross-section of the rail 13 correspond with the shape of the sockets 9, and the hang standard 1 is hanging vertically. A load carrying, cantilevered bracket 11 is attached to at least one of the connection points provided on the front portion 2. A load 12, e.g. a basket or a drawer, is arranged to be supported by the cantilevered bracket 11. Since the size of the load is unpredictable within reasonable limits, and the distribution of the load in the box is unpredictable as well, the load is symbolized by the arrow L in FIG. 3A, which is drawn from an arbitrary center of mass=at a distance from the connection point of the bracket 11 in the hang standard 1. Taking into account a distance between the mass center and the connection point in the hang standard 1, the hang standard 1 is subject to a torque which will tend to bend the standard, with the consequence that the hang standard may not hang snugly against the wall. The hang standard may be made stiffer to resist bending. At the same time, a low weight and a limited material consumption are desirable. The disclosed design of the hang standard 1 stiffens the hand standard, making it more resistant to bending under high loads, without have to resort to thicker and heavier materials.

FIG. 3B shows the rail 13 in perspective. As seen in FIG. 3A, it is intended for horizontal mounting on a wall 10. As seen in the mounted position, it has an upper 14a and a lower 14b flange. The upper flange 14a is provided with at least one pair of notches 15. The notches 15 are separated by a distance which corresponds to the distance between the leg portions 3 on the hang standard 1. Screw holes 16 are provided for the arrangement of fixing means therein. At each outer end of the rail 13 there is an end tab 17.

The hang standard 1 may be mounted on the horizontal rail 13 by lowering in a vertical direction at the position of the notches 15. The leg portions 3 will each slide in a notch 15, until the lower flange 14b has reached its position in the engagement device 9. At this point, the hang standard 1 may be slid in the horizontal direction, so that the upper flange 14a enters the engagement device 9 sideways. When both the upper 14a and the lower 14b flanges are in their respective positions, the hang standard 1 cannot be accidentally dismounted, even when it is subjected to an upwards or outwards directed force. The end tabs 17 will act as stops to keep the hang standard 1 from sliding off the rail 13 sideways.

FIG. 4 discloses the cross section of the hang standard 1 in detail. The leg portions 3 are straight and extend rearwards towards the wall, as seen in a mounted position. The distance between the leg portions 3 approximately correspond to the width of the front portion 2, thereby providing the hang standard 1 with an approximately U-shaped cross-section, comprising the front portion 2 and the leg portions 3. At the forward end of the respective leg portion 3, as seen in a mounted position, there is a transition portion 7. From each transition portion 7 a protruding portion 6 extends forward, together framing the front portion 2 on both sides thereof.

Each protruding portion 6 has an outer wall 19 and an inner wall 20. In the example of FIG. 4, the outer wall 19 is approximately parallel with the leg portions 3, but preferably arranged at a distance therefrom, so that the hang standard 1 is wider when measured across the protruding portions 6 than across the leg portions 3.

In a representative example of this embodiment, each inner wall 20 is arranged at an angle to the adjacent outer wall 19. The angle is sharp, preferably no more than 15°, more preferably in the range of 3-12°, and in the example shown in the figures the angle is approximately 10°. The slanting inner walls 20 form the recess 5 with the front portion 2. The recess 5 will hereby be slightly undercut, which may make it suitable for snap fastening of various components in the storage system. If brackets 11 of a conventional type are connected to the hang standard 1, the slanting inner walls 20 may also contact the lateral sides of the brackets 11, thereby providing additional stability to the mounted brackets.

In addition, the small angle between the outer 19 and the inner 20 walls may make the protruding portion 6 perform as if it were double walled. This may provide the hang standard 1 with properties like those of an I-beam. Its flexural rigidity and bending stiffness will be greater than those of a hang standard with a basic U-shape found the prior art.

In the middle of the front portion 2, the longitudinal rib 8 is arranged between the columns of slots 4 (not shown in FIG. 4), as described above. In FIG. 4 it is clearly visible that the rib 8 comprises two parallel bends 21 of the sheet metal, resulting in the raised, longitudinal rib 8.

At each transition portion 7 between the leg portion 3 and the outer wall 19 of the protruding portion 6, a ledge 18 is formed due to the protruding portion 6 extending laterally outwards to a higher degree than the leg portion 3. The ledge 18 may be utilized for holding a screen or board in place between two hang standards 1 that are arranged next to one another, for instance. The screen or board may be slid in place from above or it may be snapped into its position by a slight bending thereof. As another alternative, the screen or board may be held in its position with one lateral edge next to a first hang standard 1, while a second hang standard 1 is slid sideways, along a rail 13, into its final position next to the other lateral edge of the screen or board. If needed, the screen or board may be utilized for covering the rails 13, other rails, electricity wires, pipes for water or heating etc.

FIGS. 5A-5C discloses another embodiment 1a of the hang standard. Like the embodiment described above, the hang standard 1a has a front portion 2a, forming an inner surface of a recess 5a. The front portion is provided with slots 4a, which are rectangular in the embodiment shown in FIG. 5A.

The outer 19a and inner 20a walls of the protruding portions 6a are similar to those of the previously described embodiment, and transition portions 7a are provided between the protruding portions 6a and leg portions 3a. Ledges 18a are formed at the transition portions 7a. Engagement devices 9a, in the form of sockets, for engagement with a (not shown) horizontal rail are provided in the leg portions 3a, as described above, as seen in FIG. 5C.

In the embodiment of FIG. 5A, the leg portions 3a are provided with longitudinal flanges 22 at their rear ends, for abutment against a wall, when the hang standard 1a is arranged in its mounted position. The longitudinal flanges 22 extend laterally outwards from the centre of the hang standard 1a. When the hang standard 1a is mounted, they may bear or rest against the wall. With potentially no sharp edges in contact with the wall, the risk of damage to the surface of the wall is reduced.

Further, the provision of the longitudinal flanges 22 may increase the flexural rigidity of the hang standard 1a, so that higher loads may be carried by the hang standard 1a without the risk of damage thereto. The increased strength of the hang standard 1a may be due to having a cross-section like that of an I-beam.

In FIG. 5B, it may be clearly seen that the slots 4a are rectangular, meaning that they have a lower edge 23 extending along a straight line. When a bracket 11 etc. is mounted in such a slot 4a, the load 12 carried by the bracket 11 may be distributed over all of the lower edge 23 thereby increasing the load carrying capabilities of each slot 4a and minimizing the risk of deformation thereof. The risk of deformation of the hang standard 1a as a whole may also be reduced. As a further embodiment, rectangular slots 4a may be provided in the hang standard 1 described above in connection with FIGS. 1 to 4.

It may also be seen in FIG. 5B that there is no rib 8 between the columns of slots 4a. The provision of a rib 8 may be seen as optional and depending on the thickness of the sheet metal used for the manufacture of the hang standard 1a. In some embodiments a thinner sheet metal may be used, and a rib 8 may be provided as a feature in hang standards 1a, which otherwise have the rest of the features of the embodiment shown in FIGS. 5A-5C. If a rib 8 is provided, a sheet metal with the thickness of 1.2-1.5 mm may be used, whereas if a sheet metal with the thickness of 1.6 mm and over is used, the rib 8 may be dispensed with.

To fully illustrate the disclosed embodiment, a cross sectional view is shown in FIG. 5C. Some features distinguishing between this embodiment and the embodiment of FIG. 4 include, as mentioned above, the longitudinal flanges 22 and the absence of the rib 8 in FIG. 5C. These distinguishing features may be separated from their respective embodiments and may be freely combined with the other features in the explicitly disclosed embodiments to form further embodiments.

As illustrated in FIG. 5C, the protruding portions may protrude a distance “df” in front of the front portion 2a. Typically, this distance may be in the range 4-10 mm, in the illustrated case 6.5 mm. The longitudinal flanges 22 may extend a distance “dl” laterally, typically in the range 2-6 mm, and in the illustrated case about 3.0 mm. The depth “dr” of the hang standard between the front portion 2a and the wall or the like may typically be 14-22 mm, in the illustrated case about 19 mm. This gives a sufficient strength with some margins in the case where the goods thickness of the sheet metal is about 1.6 mm.

The foregoing description is of exemplary and preferred embodiments. The invention, as defined by the appended claims, is not limited to the described embodiments. The embodiments are, unless otherwise noted, non-limiting examples of one or more inventive features. Alterations, modifications, and substitutions can be made to the disclosed embodiments by persons of ordinary skill in the art without departing from the invention as defined by the appended patent claims.

The meaning of the terms used in this specification are, unless stated otherwise, intended to have their ordinary and customary meaning to those in the art and are not intended to be limited to specific implementations that may be described. In the claims, the word “comprising” does not exclude other elements or steps, and the indefinite article “a” or “an” does not exclude a plurality.

Claims

1. A hang standard made of metal for mounting vertically in a storage system and connecting with cantilevered brackets, the standard being elongated and having an approximately U-shaped cross-section with a front portion and two rearward extending leg portions, the front portion comprising a plurality of slots arranged into two columns that comprise connection points for a cantilevered bracket and are located in a recess between first and second protruding portions located on first and second gi-de sides of the slots, respectively; wherein, each of the first and second protruding portions comprises an inner lateral wall and an outer lateral wall;the recess is laterally continuous between the inner lateral wall of the first protruding section and the inner lateral wall of the second protruding portion, over the two columns of slots; andthe recess has undercuts formed by the inner lateral walls of the first and second protruding portions, wherein the inner lateral walls slant inwardly toward each other as they extend outwardly from the front portion.

2. The hang standard according to claim 1, wherein the connection points are arranged between the protruding portions.

3. The hang standard according to claim 1, wherein each slanted inner lateral wall of each protruding section is arranged with an angle of less than 15° to the outer lateral wall of the protruding portion.

4. The hang standard according to claim 1, wherein a longitudinal rib is provided in a bottom part of the recess between the columns of slots.

5. The hang standard according to claim 4, wherein the longitudinal rib is embossed in the front portion between the columns of slots.

6. The hang standard according to claim 4, wherein the longitudinal rib is provided by parallel bends to the front portion between the columns of slots.

7. The hang standard according to claim 1, wherein the hang standard is manufactured from a single sheet of folded metal.

8. The hang standard according to claim 1, wherein engagement devices are arranged at the rearwards extending leg portions for cooperation with mounting means.

9. The hang standard according to claim 1, wherein, between the front portion and each of the leg portions there is provided a transition portion that extends into one of the first and the second protruding portions, andthe outer and inner lateral walls together comprising a double layer of sheet metal.

10. The hang standard according to claim 9, wherein the front portion, the two rearward extending leg portions, and the first and second protruding portions are folded from a single piece of sheet metal.

11. A storage system comprising: a plurality of metal hang standards, each of the plurality of hang standards being elongated and having an approximately U-shaped cross-section with a front portion and two rearwards extending leg portions, the front portion comprising a plurality of slots arranged into two columns that comprise connection points for a cantilevered bracket and are located in a recess between first and second protruding portions located on first and second sides of the slots, respectively, wherein the recess is laterally continuous from the first protruding portion to the second protruding portion and over the two columns of slots and has undercuts formed by slanted inner lateral walls of the first and second protruding portions that slant inwardly toward each other as they extend outwardly from the front portion;a plurality of cantilevered brackets for connection with the front portions of the plurality of hang standards; andstorage components supported by the cantilevered brackets.

12. The storage system according to claim 11, wherein a section of the rearward extending leg portions is narrower than the front portion, thereby forming a ledge between each leg portion and each protruding portion.

13. The storage system according to claim 11, wherein the front portion, the two rearward extending leg portions, and the first and second protruding portions are folded from a single piece of sheet metal.

14. The storage system according to claim 11, wherein, between the front portion and each of the leg portions there is provided a transition portion extending into one of the first and second protruding portions, andeach of the first and second protruding portions further comprises an outer lateral wall, the outer and inner lateral walls together comprising a double layer of the sheet metal.