Patent Description:
<CIT> discloses a stagger stacked flowerpot and stereo greening wall space formed by combining of flowerpots in stagger stacked mode.

<CIT> discloses a stagger stacked flowerpot, comprising a flowerpot body provided with at least a cavity for holding a seedling pot having a bottom hole or a soil baffle having a pervious hole, wherein the bottom of the cavity is a water storage space, a drain hole with an upward opening is arranged at the bottom of the flowerpot body, the drain hole is approximately as high as the maximum water level in the water storage space, the water in the water storage space overflows out from the drain hole and then flows into the water storage space of the lower body below the current flowerpot body, a bracing edge and a bracing position are arranged at the top of the flowerpot body, a snap groove is set at the bottom of the flowerpot body, and the bracing edge and bracing position of the current flowerpot body are configured to be snapped into the snap groove of the upper body above the flowerpot body, so that the flowerpot bodies of the adjacent two layers are combined in the stagger-stacking mode and a front bracing and a rear bracing are arranged in the cavity and configured to brace the seedling pot or the soil baffle.

The stagger stacked flowerpot in <CIT> is characterized in that the horizontal position of the bottom hole of the seedling or the pervious hole of the soil baffle in the cavity is lower than the drain hole, and the top part of the cavity leans out with a dip angle α, so that the barycenter P of the seedling pot in the cavity is within the range of the bottom diameter of the seedling pot.

Embodiments of the invention seek to at least partially overcome or ameliorate any one or more of the abovementioned disadvantages or provide the consumer with a useful or commercial choice.

According to a first aspect of the invention there is provided a pot assembly for a vertical garden, the pot assembly comprising:.

Providing a pot assembly with these features results in creation of a circuitous flow path for liquid entering the pot assembly which effectively captures liquid to feed a plant in the at least one pot holder.

According to a second aspect of the invention there is provided a stagger stacked pot system for a vertical garden, the system comprising two or more pot assemblies, at least some of the pot assemblies comprising:.

The liquid (typically water) entering the pot assembly, normally from a similar pot assembly located above in a staggered pattern, will collect initially in the water collection reservoir until the water collection reservoir fills up with water to the level of the overflow weir. Once at this level, the liquid overflows into the angled volume of the at least one flowerpot holder to water a plant in a pot in the at least one flowerpot holder. The liquid will then build up in the angled volume of the at least one flowerpot holder, with the level rising until it reaches the drain sump entry located in the angled base wall whereupon the liquid enters the drain sump. Once in the drain sump, the liquid can exit the pot assembly via the drain opening, typically into a lower, offset pot assembly.

The pot assembly will normally be used in concert with other pot assemblies having the same features. In particular, multiple pot assemblies can be used to create a vertical or wall garden. The pot assembly and/or system can be scaled up or down in size to adapt to larger and smaller plants, or more or fewer plants.

Typically, the pot assembly will be mounted relative to a vertical or near vertical surface. The pot assembly may be positioned above (or below) one or more other pot assemblies to allow liquid, typically water (but possibly nutrients or fertiliser or the like) to drain under gravity through the pot assembly, watering/feeding plants on the way and into one or more lower pot assemblies.

Where provided in multiples, the pot assemblies will preferably be offset laterally (horizontally) from one another. The pot assemblies may be provided in one or more rows. An upper pot assembly is typically supported on one or more lower pot assemblies. An upper pot assembly is typically supported directly on one or more lower pot assemblies. One or more support assemblies, formations or members may be provided to support an upper pot assembly relative to one or more lower pot assemblies.

An upper pot assembly may attach to or relative to one or more lower pot assemblies and one or more corresponding attachment or engagement formations may be provided on the upper pot assembly, the one or more lower pot assemblies or both.

The pot assembly will normally be mounted relative to a surface to hang. Normally, the pot assembly will hang substantially vertically. A rear wall of the pot assembly may be substantially vertical.

The drain opening may be through a base wall which is substantially horizonal. The pot assembly may be provided hung at an angle to the surface. This may assist with retention of the drain opening may be substantially vertically.

The pot assembly typically includes at least one pot holder provided with at least an angled volume for holding a pot and an angled base wall.

Any number of pot holders may be provided in a pot assembly. Normally between <NUM> and <NUM> will be provided on the pot assembly, with three or four pot holders being preferred. The pot holders are preferably spaced evenly over the length of the pot assembly. The pot holders are normally separated at least partially through the provision of at least one sidewall.

The pot assembly will normally have a rear wall. The rear wall may be planar. The rear wall will typically extend over the length of the pot assembly regardless of the number of pot holders provided. The rear wall may have at least one, and typically multiple attachment openings or assemblies provided thereon to allow the pot assembly to be mounted relative to a surface. One or more bracing or strengthening configurations may be provided on the rear wall.

Each pot holder is typically defined at least partially by a portion of the rear wall and at least one shaped wall. A forwardly extending wall may extend from the rear wall to connect the rear wall to the at least one shaped wall for the pot holders at respective ends of the pot assembly. The forwardly extending wall is typically planar.

An arcuate transition is generally provided between a forward end of the forwardly extending wall and the at least one shaped wall.

The at least one shaped wall may have any shape. The at least one shaped wall may be arcuate to define a forward part of the pot holder. In one form, the at least one shaped wall may be semi-circular.

The at least one shaped wall may be provided as an upper wall part and a lower wall part. The lower wall part is normally oriented at an angle to the rear wall. The lower wall part is typically cylindrical. Transition portions may be provided between the ends of the typically cylindrical lower wall part and the forwardly extending wall and/or the typically cylindrical lower wall part of an adjacent pot holder. The typically cylindrical lower wall part normally extends between the base wall of the pot holder and the upper wall part.

The upper wall part may be provided at an angle relative to the typically cylindrical lower wall part. This will normally create a divergent upper wall part. Providing a divergent upper wall part may allow more liquid to be caught for example if a spray applicator is used and will typically also allow a user to more easily insert a pot into the pot holder.

The at least one shaped wall (both upper wall part and lower wall part, if provided), will normally arc rearwardly from a forward side toward the rear wall but be spaced therefrom. On the ends of the pot assembly, the at least one shaped wall will normally be spaced from the rear wall by the forwardly extending wall. For any at least one shaped walls between the ends of the pot assembly, the respective ends of the at least one shaped walls will normally be linked by a return part.

Normally, the return part is at least partially arcuate but one or more transition parts may be provided.

Each pot holder will normally have a central axis which is angled relative to the rear wall. This typically creates an angled volume for holding a pot which in turn promotes drainage of any liquid in the pot and/or pot holder, toward a lower, forward side of the pot and/or pot holder.

In an embodiment, a drain opening is provided between adjacent pot holders in a pot assembly. Normally, the drain opening is provided in a rear portion of the pot assembly, closer to the rear wall. Normally, there is one fewer drain opening provided than the number of pot holders.

The angled base wall of the at least one pot holder is preferably angled relative to the rear wall. Typically, the angled base wall is approximately perpendicular to the angled volume (defined at least partly by the at least one shaped wall). The angled base wall will normally extend downwardly at an angle less than <NUM>° to the plane of the rear wall (or to the surface relative to which the pot assembly is mounted) but greater than <NUM>°. The angle will normally be between approximately <NUM>° and <NUM>°, more preferably between <NUM>° and <NUM>°.

The angled base wall will normally be shaped. The angled base wall is preferably substantially planar with one or more openings or cut outs formed thereinto for the drain sump and/or the drain sump entry for example. The angled base wall will preferably provide a surface to guide any liquid within the pot holder, forwardly and downwardly toward the front side of the pot assembly.

In one embodiment, the angled base wall may have a central portion and a pair of lateral wing portions separated at least partially from the central portion by portions of the drain sump. All portions of the angled base wall are preferably coplanar.

The pot assembly typically includes a drain sump with a drain opening through which liquid exits the pot assembly and a drain sump entry located in the angled base wall, the drain opening in the drain sump located below the drain sump entry.

The drain sump will normally be provided in a rear portion of the pot assembly. The drain sump will typically be provided between a pair of adjacent pot holders. The drain sump will preferably extend between the pair of adjacent pot holders. The drain sump will normally have the drain opening located therein, typically at a low point.

The drain sump is preferably shaped. In an embodiment, the drain sump may be arcuate when viewed in plan. A preferred shape for the drain sump is crescent shaped when viewed in plan. The respective tapered ends of the preferred crescent-shaped drain sump will normally extend at least partially into each of a pair of pot holders.

The drain sump will normally have a base or floor which typically tapers downwardly to a low point, at or in which the drain opening will normally be located. The drain opening may be located approximately centrally in the drain sump.

The drain sump entry will normally be located at the respective tapered ends of the preferred crescent-shaped drain sump, which normally extend to or into the angled base wall of the pot holder. The drain sump entry may be a ramp entry from the angled base wall of the pot holder.

A rear side of the preferred crescent-shaped drain sump may be provided with a raised dividing wall. The dividing wall will preferably at least partially define the water collection reservoir between the rear side of the or each drain sump and the rear wall of the pot assembly. The raised dividing wall will normally form the water collection reservoir, preferably together with the overflow weir.

The pot assembly typically includes a water collection reservoir located above the drain sump entry and provided with an overflow weir over which liquid flows into the angled volume of the at least one pot holder.

The raised dividing wall will typically separate the water collection reservoir, preferably together with the overflow weir from the drain sump. The bottom or base wall of the pot located in the pot holder will normally extend rearwardly in the pot holder, above the raised dividing wall.

The raised dividing wall will typically correspond in shape to the shape of a portion of the drain sump. In an embodiment in which the drain sump is crescent shaped in plan, the raised dividing wall is also typically crescent shaped in plan. At least a portion of the raised dividing wall will normally separate the water collection reservoir from the drain sump and the drain sump entries (although the wall may be lower in height in the part which is adjacent to the drain sump entries).

The bottom wall of the water collection reservoir will typically be substantially planar. The bottom wall of the water collection reservoir is located below the level of the top of the raised dividing wall.

When the pot assembly is mounted relative to a wall or surface, the bottom wall of the water collection reservoir will normally be substantially horizontal. The bottom wall of the water collection reservoir will preferably be positioned above the drain sump entry. Liquid overflowing the overflow weir will normally flow down the angled base wall of the pot holder and either directly into the drain sump entry, or more preferably, will flow downwardly over the angled base wall of the pot holder to accumulate until the level reaches the drain sump entry.

The overflow weir is typically associated with one or more raised dividing wall to at least partially define an exit from the water collection reservoir. Usually, an overflow weir is provided for each pot holder. The overflow weir is normally provided substantially centrally relative to a pot holder.

The ends of the raise dividing wall preferably extend forwardly of the overflow weir to form a guide for the liquid and to minimise the entry of any liquid directly into the drain sump entry.

Normally, where more than one pot holder is provided in a pot assembly, an overflow weir is typically located between a pair of raised dividing walls.

An upper portion of the overflow weir may have a crenelated configuration.

One or more baffle members may be provided in the drain sump. Normally, the one or more baffle members are located extending upwardly from the base of the drain sump. The baffle members may be located closer to the drain sump entry than to the drain opening. A plurality of baffle members is provided in an embodiment, spaced apart from one another to form a circuitous flow path between the drain sump entry and the drain opening.

The drain opening is typically provided in the drain sump. The drain opening may be provided with an upstand surrounding the opening. The upstand may have any shape but, if provided, will normally be cylindrical. An upper end of the upstand is preferably closed. One or more opening will normally be provided in a sidewall of the upstand. A lower end of the one or more opening may be spaced above the base of the drain sump. Normally, a plurality of openings are provided, spaced about the circumference of the upstand and through which liquid passes to access the drain opening.

The drain opening may be provided with a downcomer on an outer, lower side of the drain opening. The downcomer may direct any liquid exiting the pot assembly.

The downcomer and/or the upstand may be removable from the pot assembly.

One or more mounting formations may be provided into or through the rear wall of the pot assembly. Typically, a plurality of openings are provided, spaced across the rear wall. The periphery of the openings may be reinforced or strengthened or enlarged.

A catch member may be provided at a forward underside of one or more of the pot holders to releasably engage with a latching surface provided on a corresponding pot assembly on the preferably arcuate return part between the at least one shaped walls of adjacent pot holders. The catch member is preferably resiliently deformable and biased into an engaged position.

One or more support members may extend downwardly from an underside of the pot assembly. One or more tab members may be provided at a rear side of the pot assembly. One or more opening may be provided at an upper side of the rear wall. In use, when used in a multiple pot assembly system, one or more tabs on an upper pot assembly may be received into one or more openings on an upper side of the rear wall of a lower pot assembly to secure the pot assemblies relative to one another.

One or more shaped configurations may be provided on the rear wall. The shaped configurations may be provided in the form of one or more depressions into the rear wall. Each one or more depression may converge from the bottom to the top. A basewall may be provided in the depression which is substantially parallel to the plane of the rear wall. At least one pair of opposed sidewalls may be provided. The sidewalls in each at least one pair of sidewalls may be angled toward each other from bottom to top of the depression.

Each depression may be provided with a lower convergent portion and an upper convergent portion. The upper convergent portion may be smaller than the lower convergent portion. A step may be provided in each sidewall between the lower convergent portion and an upper convergent portion.

At least a portion of each depression will typically receive a part of a mounting clip if the pot assembly is used with a mounting assembly. Typically, a part of the upper convergent portion will correspond to a part of a mounting clip to receive the part of a mounting clip therein and suspend the pot assembly. The part of the mounting clip to be received in the upper convergent portion may correspond (in taper) to the taper of the upper convergent portion.

The pot assembly may be mounted relative to a surface using a mounting assembly. The mounting assembly may include a rail to be fastened relative to the surface and at least one clip or similar to attach to the pot assembly and mount to the rail. As mentioned briefly above, the at least one clip or similar may engage with a shaped configuration provided on the rear wall of the pot assembly.

The rail will typically be elongate with at least one and typically more than one pot assembly mounted relative thereto. When more than one pot assembly is mounted relative to a single rail, the pot assemblies will normally be provided beside one another in a line.

The rail will normally be linear, having a constant cross-section over its length.

The rail may include a mounting body. The mounting body may have a rear abutment plane to abut the surface. One or more fasteners will typically be provided extending through the mounting body to mount the rail relative to the surface.

An upper flange may be provided relative to the mounting body of the rail. The upper flange is preferably spaced from the rear abutment plane of the rail. The upper flange typically extends upwardly. The upper flange preferably terminates with a free end over which a hook provided on a clip or similar is placed. A snap fit portion or assembly with an abutment shoulder may be provided at or adjacent to the free end.

A lower flange may be provided relative to the mounting body of the rail. The lower flange is preferably spaced from the rear abutment plane of the rail. The lower flange typically extends downwardly. The lower flange preferably terminates with a free end over which a hook provided on a clip or similar is placed. A snap fit portion or assembly with an abutment shoulder may be provided at or adjacent to the free end.

The upper flange and lower flange may be coplanar. Angled transitions may be provided on the upper flange and/or lower flange.

The free end of the upper flange and the free end of the lower flange are spaced apart typically to correspond to the separation distance between an upper hook and a lower hook provided on a clip of an embodiment.

According to an embodiment, the clip will normally have a body portion and an upper hook. The upper hook is normally L-shaped with a rearwardly extending part, extending away from the body and a downwardly extending part.

A lower hook may be provided. The lower hook is normally L-shaped with a rearwardly extending part, extending away from the body and an upwardly extending part. An outer portion of the upwardly extending part may be tapered. An abutment catch surface may be provided on an inner side of the upwardly extending part.

The downwardly extending part of the upper hook may be longer than the upwardly extending part of the lower hook.

At least one part of the upper hook and/or lower hook may be deformable to allow the upper hook and/or lower hook to be snap fit to the rail.

The upper hook and lower hook, where provided, are typically provided on the same side of the body, typically extending rearwardly or toward the surface (and the rail) relative to which the pot assembly is to be mounted.

The body may be hollow. The body may have a substantially U-shaped cross-section when viewed in plan. In an embodiment, the body is tapered in shape from a wider dimension at the bottom to a narrower dimension at the top.

A main wall is typically provided relative to which the upper hook and the lower hook are provided. A pair of sidewalls normally extend from the main wall at an angle on the opposite side of the main wall to the upper hook and lower hook. The sidewalls may extend perpendicularly and parallel to one another. The sidewalls will typically be located one on each lateral side of the main wall. The sidewalls each typically have an abutment edge to abut a rear side of the rear wall of the pot assembly, typically the basewall of the upper convergent portion of a shaped configuration. The sidewalls each typically have a lateral abutment surface to abut a sidewall of the upper convergent portion of a shaped configuration.

The upper end of the main body may have at least one tab. The at least one tab may extend above the upper hook. The at least one tab will normally be received under an overhanging lip at an upper end of a shaped configuration on the rear wall of a pot assembly.

The clip will normally be seated in the upper convergent portion of a shaped configuration of a pot assembly creating a space between the main wall of the body of the clip and a portion of the rear wall of the pot assembly into which a lip on an upper juxtaposed pot assembly can be received in use.

With reference to the accompanying figures, a pot assembly <NUM> for a vertical garden is illustrated. The pot assembly <NUM> illustrated in the Figures comprises three pot holders <NUM>, each pot holder provided with an angled volume for holding a pot (which is not shown) and an angled base wall <NUM>. Two drain sumps <NUM> are illustrated, each with a drain opening <NUM> through which liquid exits the pot assembly <NUM> and a pair of drain sump entries <NUM> located in the angled base wall <NUM> of one of the pot holders <NUM>(the central pot holder includes a pair of drain sump entries). The drain opening <NUM> in each drain sump <NUM> is located below the drain sump entries <NUM>. A water collection reservoir <NUM> is located above the drain sump entries <NUM>. The water collection reservoir <NUM> is provided with three overflow weirs <NUM> over which liquid flows into the angled volume of the respective pot holder <NUM>.

The liquid (typically water) entering the pot assembly <NUM>, normally from a similar pot assembly <NUM> located above in a staggered pattern, will collect initially in the water collection reservoir <NUM> until the water collection reservoir <NUM> fills up with water to the level of the overflow weir <NUM>. Once at this level, the liquid overflows into the angled volume of the pot holder <NUM> to water a plant in a pot in the pot holder. The liquid will then build up in the angled volume of the pot holder <NUM>, with the level rising until it reaches the drain sump entry <NUM> located in the angled base wall <NUM> whereupon the liquid enters the drain sump <NUM>. Once in the drain sump <NUM>, the liquid can exit the pot assembly <NUM> via the drain opening <NUM>, typically into a lower, offset pot assembly <NUM>.

Although not shown in the Figures, the pot assembly <NUM> will normally be used in concert with other pot assemblies having the same features. In particular, multiple pot assemblies can be used to create a vertical or wall garden.

Typically, the pot assembly <NUM> is mounted relative to a vertical or near vertical surface. The pot assembly10 may be positioned above (or below) one or more other pot assemblies to allow liquid, typically water (but possibly nutrients or fertiliser or the like) to drain under gravity through the pot assembly, watering/feeding plants on the way and into one or more lower pot assemblies.

The drain opening <NUM> may be through a base wall which is substantially horizonal. The pot assembly <NUM> may be provided hung at an angle to the surface. This may assist with retention of the drain opening <NUM> substantially vertically.

Any number of pot holders <NUM> may be provided in a pot assembly <NUM>. Normally between <NUM> and <NUM> will be provided on the pot assembly. The pot assembly illustrated has three pot holders <NUM> spaced evenly over the length of the pot assembly <NUM>. The pot holders <NUM> are separated at least partially by at least a portion of a shaped wall which forms the pot holder as explained further below.

The pot assembly <NUM> has a rear wall <NUM> which as shown, is normally substantially planar. The rear wall <NUM> as shown extends over the length of the pot assembly <NUM>. The rear wall <NUM> has multiple attachment openings <NUM> provided thereon to allow the pot assembly <NUM> to be mounted relative to a surface.

One or more shaped configurations <NUM> may be provided on the rear wall <NUM>.

Each pot holder <NUM> is typically defined at least partially by a portion of the rear wall <NUM> and at least one shaped wall <NUM>. In the illustrated embodiment, a forwardly extending wall <NUM> extends from the rear wall <NUM> to connect the rear wall <NUM> to the at least one shaped wall <NUM> for the pot holders <NUM> at respective ends of the pot assembly <NUM>. The forwardly extending wall <NUM> is typically planar.

An arcuate transition is generally provided between a forward end of the forwardly extending wall <NUM> and the at least one shaped wall <NUM> and between the forwardly extending wall <NUM> and the rear wall <NUM>.

The shaped wall <NUM> may have any shape. The at least one shaped wall <NUM> illustrated is arcuate to define a curved forward part of the pot holder. In one form, the at least one shaped wall may be semi-circular.

In the illustrated embodiment, the shaped wall <NUM> is provided as an upper wall part <NUM> and a lower wall part <NUM>. The lower wall part <NUM> is normally oriented at an angle to the rear wall <NUM>. The lower wall part <NUM> is generally cylindrical. Transition portions are provided between the ends of the generally cylindrical lower wall part <NUM> and the forwardly extending wall <NUM> and/or the generally cylindrical lower wall part <NUM> of an adjacent pot holder <NUM>. The typically cylindrical lower wall part <NUM> normally extends between the base wall <NUM> of the pot holder <NUM> and the upper wall part <NUM>.

The upper wall part <NUM> is provided at an angle relative to the typically cylindrical lower wall part <NUM>. As shown in the Figures, this creates a divergent upper wall part <NUM>. Providing a divergent upper wall part <NUM> may allow more liquid to be caught for example if a spray applicator is used and will typically also allow a user to more easily insert a pot into the pot holder <NUM>.

The shaped wall <NUM> (both upper wall part <NUM> and lower wall part <NUM>, if provided), will normally arc rearwardly from a forward side toward the rear wall <NUM> but be spaced therefrom. On the ends of the pot assembly <NUM>, the shaped wall <NUM> is spaced from the rear wall <NUM> by the forwardly extending wall <NUM>. For any shaped walls <NUM> between the ends of the pot assembly <NUM>, the respective ends of the shaped walls <NUM> will normally be linked by a linking return part <NUM> as best illustrated in <FIG>.

Normally, the linking return part <NUM> is at least partially arcuate but one or more transition parts may be provided to link the respective lower walls <NUM> of adjacent pot holders <NUM> and respective upper walls <NUM> of adjacent pot holders <NUM>.

Each pot holder <NUM> will normally have a central axis which is angled relative to the rear wall <NUM>. This creates an angled volume for holding a pot (not shown) which in turn promotes drainage of any liquid in the pot and/or pot holder <NUM>, toward a lower, forward side of the pot and/or pot holder <NUM>.

In an embodiment, a drain opening <NUM> is provided between adjacent pot holders <NUM> in a pot assembly <NUM>. Normally, the drain opening <NUM> is provided in a rear portion of the pot assembly <NUM>, closer to the rear wall <NUM>. Normally, there is one fewer drain opening <NUM> provided than the number of pot holders <NUM>.

The angled base wall <NUM> of each pot holder <NUM> is preferably angled relative to the rear wall <NUM>. Typically, the angled base wall <NUM> is approximately perpendicular to the axis of the angled volume (defined at least partly by the shaped wall <NUM>). The angled base wall <NUM> will normally extend downwardly at an angle less than <NUM>° to the plane of the rear wall <NUM> (or to the surface relative to which the pot assembly <NUM> is mounted) but greater than <NUM>°. The angle will normally be between approximately <NUM>° and <NUM>°, more preferably between <NUM>° and <NUM>°.

The angled base wall <NUM> is normally shaped. The angled base wall <NUM> is preferably substantially planar with one or more openings or cut outs formed thereinto for the drain sump <NUM> and/or the drain sump entry <NUM> for example. The angled base wall <NUM> will preferably provide a surface to guide any liquid within the pot holder <NUM>, forwardly and downwardly toward the front side of the pot assembly <NUM>.

In the embodiment illustrated, the angled base wall <NUM> has a central portion and a pair of lateral wing portions separated at least partially from the central portion by portions of the drain sump <NUM>. All portions of the angled base wall <NUM> are preferably coplanar.

The drain sump <NUM> will normally be provided in a rear portion of the pot assembly <NUM>. The drain sump <NUM> will typically be provided extending between a pair of adjacent pot holders <NUM>. The drain opening <NUM> is located in the drain sump <NUM>, typically at a low point.

As best illustrated in <FIG>, the drain sump <NUM> is preferably shaped. In this embodiment, the drain sump <NUM> is crescent shaped when viewed in plan. As shown, the respective tapered ends of the crescent-shaped drain sump <NUM> extend at least partially into each of a pair of pot holders <NUM>.

The drain sump <NUM> has a base or floor which typically tapers downwardly to a low point, at or in which the drain opening <NUM> will normally be located. The drain opening <NUM> may be located approximately centrally in the drain sump <NUM>.

The drain sump entry <NUM> will normally be located at the respective tapered ends of the crescent-shaped drain sump <NUM>, which normally extend to or into the angled base wall <NUM> of the pot holder <NUM>. The drain sump entry <NUM> of the embodiment is a ramp entry from the angled base wall <NUM> of the pot holder <NUM>.

A rear side of the crescent-shaped drain sump <NUM> is provided with a raised dividing wall <NUM>. The dividing wall <NUM> will preferably at least partially define the water collection reservoir <NUM> between the rear side of each drain sump <NUM> and the rear wall <NUM> of the pot assembly <NUM>. The raised dividing wall <NUM> will normally form the water collection reservoir <NUM> together with the overflow weir <NUM>.

The bottom or base wall of the pot located in the pot holder <NUM> will normally extend rearwardly in the pot holder <NUM>, above the raised dividing wall <NUM>.

The raised dividing wall <NUM> will typically correspond in shape to the shape of a portion of the drain sump <NUM>. In the illustrated embodiment in which the drain sump <NUM> is crescent shaped in plan, the raised dividing wall <NUM> is also typically crescent shaped in plan. At least a portion of the raised dividing wall <NUM> will normally separate the water collection reservoir <NUM> from the drain sump <NUM> and the drain sump entries <NUM> (although the raised dividing wall <NUM> may be lower in height in the part which is adjacent to the drain sump entries <NUM>).

The bottom wall of the water collection reservoir <NUM> will typically be substantially planar. The bottom wall of the water collection reservoir <NUM> is located below the level of the top of the raised dividing wall <NUM> to form a reservoir.

When the pot assembly <NUM> is mounted relative to a wall or surface, the bottom wall of the water collection reservoir <NUM> will normally be substantially horizontal. The bottom wall of the water collection reservoir <NUM> will preferably be positioned above the drain sump entry <NUM>. Liquid overflowing the overflow weir <NUM> will normally flow down the angled base wall <NUM> of the pot holder <NUM> and preferably then flow downwardly over the angled base wall <NUM> of the pot holder <NUM> to accumulate in a lower, forward part of the pot holder <NUM> until the level reaches the drain sump entry <NUM>.

The overflow weir <NUM> is typically associated with one or more raised dividing wall <NUM> to at least partially define an exit from the water collection reservoir <NUM>. Usually, an overflow weir <NUM> is provided for each pot holder <NUM>. The overflow weir <NUM> is normally provided substantially centrally relative to a pot holder <NUM>.

Normally, where more than one pot holder <NUM> is provided in a pot assembly <NUM> as shown in the Figures, an overflow weir <NUM> is typically located between a pair of raised dividing walls <NUM>.

An upper portion of the overflow weir <NUM> may have a crenelated configuration as shown in <FIG>.

One or more baffle members <NUM> may be provided in the drain sump <NUM>. Normally, the one or more baffle members <NUM> are located extending upwardly from the base of the drain sump <NUM>. The baffle members <NUM> may be located closer to the drain sump entry <NUM> than to the drain opening <NUM>. A plurality of baffle members <NUM> is provided in an embodiment, spaced apart from one another to form a circuitous flow path between the drain sump entry <NUM> and the drain opening <NUM>.

The drain opening <NUM> is typically provided in the drain sump <NUM>. The drain opening <NUM> may be provided with an upstand <NUM> surrounding the opening <NUM>. The upstand <NUM> may have any shape but, if provided, will normally be cylindrical as shown in <FIG>. An upper end of the upstand <NUM> is preferably closed. A plurality of openings are provided, spaced about the circumference of the upstand <NUM> and through which liquid passes to access the drain opening. A lower end of the openings is spaced above the base of the drain sump <NUM>.

A catch member <NUM> may be provided at a forward underside of one or more of the pot holders <NUM> to releasably engage with a latching surface <NUM> provided on a corresponding pot assembly <NUM> on the preferably arcuate return part between the shaped walls <NUM> of adjacent pot holders <NUM>. The catch member <NUM> is preferably resiliently deformable and biased into an engaged position.

One or more support members <NUM> may extend downwardly from an underside of the pot assembly.

As illustrated in <FIG>, a number of shaped configurations <NUM> are provided on the rear wall <NUM>. In the illustrated embodiment, the shaped configurations <NUM> are provided in the form of depressions into the rear wall <NUM>. Each depression converges from the bottom to the top. A basewall may be provided in the depression which is substantially parallel to the plane of the rear wall. At least one pair of opposed sidewalls may be provided. The sidewalls in each at least one pair of sidewalls are angled toward each other from bottom to top of the depression.

Each depression is provided with a lower convergent portion <NUM> and an upper convergent portion <NUM>. The upper convergent portion <NUM> is smaller (in both height and width) than the lower convergent portion <NUM>. A step is provided in each sidewall between the lower convergent portion <NUM> and the upper convergent portion <NUM>.

As illustrated in <FIG> and <FIG>, the upper convergent portion <NUM> of each depression receives a part of a mounting clip <NUM> if the pot assembly is used with a mounting assembly. Typically, a part of the upper convergent portion <NUM> will correspond to a part of a mounting clip <NUM> such as that illustrated in <FIG> to receive the part of the mounting clip <NUM> therein and suspend the pot assembly. The part of the mounting clip <NUM> to be received in the upper convergent portion <NUM> may correspond (in taper) to the taper of the upper convergent portion <NUM>.

The pot assembly may be mounted relative to a surface using a mounting assembly. As shown in <FIG>, the mounting assembly may include a rail <NUM> to be fastened relative to the surface and at least one clip <NUM> to attach to the pot assembly <NUM> and mount to the rail <NUM>.

The rail <NUM> is normally elongate as shown in <FIG> with at least one and typically more than one pot assembly <NUM> mounted relative thereto. When more than one pot assembly <NUM> is mounted relative to a single rail <NUM>, the pot assemblies <NUM> will normally be provided beside one another in a line.

The illustrated rail includes a mounting body <NUM> with a rear abutment plane to abut the surface. One or more fasteners (not shown) will typically be provided extending through the mounting body <NUM> to mount the rail relative to the surface.

An upper flange <NUM> may be provided relative to the mounting body <NUM> of the rail <NUM>. The upper flange <NUM> is preferably spaced from the rear abutment plane of the rail <NUM>. The upper flange <NUM> extends upwardly. The upper flange <NUM> terminates with a free end over which a hook provided on a clip <NUM> or similar is placed. A snap fit portion or assembly with an abutment shoulder may be provided at or adjacent to the free end.

A lower flange <NUM> may be provided relative to the mounting body <NUM> of the rail <NUM>. The lower flange <NUM> is preferably spaced from the rear abutment plane of the rail <NUM>. The lower flange <NUM> typically extends downwardly. The lower flange <NUM> preferably terminates with a free end over which a hook provided on a clip <NUM> or similar is placed. A snap fit portion or assembly with an abutment shoulder may be provided at or adjacent to the free end.

As shown in <FIG>, the upper flange <NUM> and lower flange <NUM> are coplanar. Angled transitions are provided on the upper flange <NUM> and/or lower flange <NUM>.

The free end of the upper flange <NUM> and the free end of the lower flange <NUM> are spaced apart typically to correspond to the separation distance between an upper hook and a lower hook provided on a clip <NUM>.

In the illustrated embodiment, particularly <FIG>, the clip <NUM> has a body portion <NUM> and an upper hook <NUM>. The upper hook <NUM> is normally L-shaped with a rearwardly extending part, extending away from the body and a downwardly extending part. An example is shown in <FIG>.

In the illustrated embodiment, a lower hook <NUM> is also provided. The lower hook <NUM> is normally L-shaped with a rearwardly extending part, extending away from the body and an upwardly extending part. An outer portion of the upwardly extending part is tapered. An abutment catch surface is provided on an inner side of the upwardly extending part of the lower hook <NUM>. An example is shown in <FIG>.

The downwardly extending part of the upper hook <NUM> is longer than the upwardly extending part of the lower hook <NUM>.

At least one part of the upper hook <NUM> and/or lower hook <NUM> is deformable to allow the upper hook <NUM> and/or lower hook <NUM> to be snap fit to the rail <NUM>.

The upper hook <NUM> and lower hook <NUM> are provided on the same side of the body <NUM>, typically extending rearwardly or toward the surface (and the rail <NUM>) relative to which the pot assembly <NUM> is to be mounted as shown in <FIG>.

The body <NUM> has a substantially U-shaped cross-section when viewed in plan. In an embodiment, the body <NUM> is tapered in shape from a wider dimension at the bottom to a narrower dimension at the top.

A main wall <NUM> is typically provided relative to which the upper hook <NUM> and the lower hook <NUM> are provided. A pair of sidewalls <NUM> normally extend from the main wall <NUM> at an angle on the opposite side of the main wall <NUM> to the upper hook <NUM> and lower hook <NUM>. The sidewalls <NUM> extend perpendicularly and parallel to one another in the illustrated embodiment. The sidewalls <NUM> are located one on each lateral side of the main wall <NUM>. The sidewalls <NUM> each typically have an abutment edge to abut a rear side of the rear wall of the pot assembly <NUM>, typically the basewall of the upper convergent portion of a shaped configuration. The sidewalls <NUM> each typically have an outer lateral abutment surface to abut a sidewall of the upper convergent portion of a shaped configuration.

The upper end of the body <NUM> has at least one tab <NUM>. The tabs <NUM> extend above the upper hook <NUM>. The tabs <NUM> will normally be received under an overhanging lip at an upper end of a shaped configuration on the rear wall of a pot assembly <NUM>.

The clip <NUM> will normally be seated in the upper convergent portion <NUM> of a shaped configuration <NUM> of a pot assembly <NUM> creating a space between the main wall <NUM> of the body <NUM> of the clip <NUM> and a portion of the rear wall <NUM> of the pot assembly <NUM> into which a lip <NUM> on an upper juxtaposed pot assembly <NUM> can be received, in use.

Claim 1:
A pot assembly (<NUM>) for a vertical garden, the pot assembly (<NUM>) comprising:
a. at least one pot holder (<NUM>) provided with at least an angled volume for holding a pot and an angled base wal (<NUM>);
b. a drain sump (<NUM>) with a drain opening (<NUM>) through which liquid exits the pot assembly (<NUM>) and a drain sump entry (<NUM>) located in the angled base wall, (<NUM>) the drain opening (<NUM>) in the drain sump (<NUM>) located below the drain sump entry (<NUM>) ; and
c. a water collection reservoir (<NUM>) located above the drain sump entry (<NUM>) and provided with an overflow weir (<NUM>) over which liquid flows into the angled volume of the at least one pot holder. (<NUM>)