Abstract:
A rollable five-device-in-one flower container and umbrella stand comprises: a container having multiple walls and a bottom, water-regulating channels formed in the bottom, two wheel wells formed in the bottom, anti-rolling claws formed in the bottom for digging into the ground on a slope to prevent the five-device-in-one flower container and umbrella stand from sliding down the slope, an umbrella-pole receiver screwed on the bottom, U-shaped and J-shaped spring clamps hooked on the umbrella-pole receiver for creating a clamping force therebetween, two wheels partially hidden in the two wheel wells, a tubular double-wall water reservoir having spiral water-distributing tubes and spiral water-regulating foams for spirally and timely discharging the water, and spiral water-circulating slides spirally welded or molded to the walls for spirally creating multiple spiral tractions, multiple spiral layers, multiple spiral travel distances for soil and water to create multiple spiral root growths and multiple spiral nutrition absorptions.

Description:
REFERENCE TO PREVIOUSLY FILED PROVISIONAL PATENT APPLICATION 
       [0001]    Provisional Patent Application No. 62,344,100 was filed on Jun. 1, 2016. 
     
    
     1. FIELD OF THE INVENTION 
       [0002]    The present invention relates to a flower container, which is cheap to produce, is easy to ship as one unit, can be quickly and easily assembled, and can be quickly and easily used. Particularly, the present invention relates to a unique rollable five-device-in-one system, comprising:
       1) Rollable clawed-foot flower-container-and-umbrella-stand system,   2) Rollable adjustable-umbrella-pole-receiver system,   3) Rollable receiver-diameter-adjusting automatically-umbrella-pole-centering spring-bracket system,   4) Two wheel and axle systems,   5) Rollable water-reservoir-and-water-regulating irrigation system, and   6) Rollable water-circulating system.       
 
       2. DESCRIPTION OF THE PRIOR ART 
       [0009]    A number of flower containers have been introduced. 
         [0010]    U.S. Pat. No. 3,800,471, issued Apr. 2, 1974 to Alfred Adams, describes a flower pot which comprises an upwardly open container having a closed, watertight bottom wall and upright side walls. A plurality of apertures are spaced about the side walls at a predetermined elevation above the bottom. A reservoir basically comprising an H-shaped channel is supported in the bottom of the pot with the cross member or top of the channel at approximately the same level as the apertures in the side wall. The reservoir provides a space in the bottom of the pot void of soil and, because of apertures formed in its walls and top, allows free passage of water into and out of the space. 
         [0011]    U.S. Pat. No. 4,160,342, issued Jul. 10, 1979 to Grant M. Dryer, details a pot for growing plants, wherein an outer pot has an upwardly facing interior annular shoulder therearound which is disposed below a downwardly facing exterior annular shoulder of an inner pot fitted within the outer pot. The inner pot has an inwardly projecting vertical sidewall formation which provides a channel through which water may be introduced into the bottom of the outer pot. The bottom of the inner pot is spaced above the bottom of the outer pot, and the inner pot has a downwardly extending well at its center which is spaced closely above the bottom of the outer pot, and which extends below the surface of the water in the bottom of the outer pot. 
         [0012]    U.S. Pat. No. 4,268,994, issued May 26, 1981, to Muneharu Urai, reveals a three-dimensional decorative planter having a frame for securing a vertically disposed cultivation body and having a liquid reservoir and conduit for liquid from the reservoir to the cultivation body. The frame also has a trough for collecting excess liquid. The cultivation body includes culture material and filler in arrangements necessary to secure the culture material and provide watering, drainage and ventilation. 
         [0013]    U.S. Pat. No. 4,356,665, issued Nov. 2, 1982, to Nenzito de Oliveira, describes a container for living plants, characterized by nesting pots, the upper pot of which defines a reservoir and the second of which rests within the first to contain a nutrient soil, the second, defining with the first, a water input and the second also having plural ducts extending downward into the reservoir, the ducts each having horizontal channels at respective bottoms with a vertical water flow passageway therein, allowing the flow of water from the reservoir by capillary action, the second pot also having drain holes located within the bottom of the pot, intermediate the respective ducts. 
         [0014]    U.S. Pat. No. 4,597,221, issued Jul. 1, 1986, to Brenda A. Adair, refers to a plant receptacle for use with an umbrella-type table having a generally horizontal table top and an umbrella mounted to an umbrella supporting member extending generally vertically through an aperture located in said table top is disclosed. The receptacle comprises a first, outer container, a second, inner container and a central sleeve. The first container is generally saucer shaped and has a side wall and a bottom wall. 
         [0015]    U.S. Pat. No. 5,363,594, issued Nov. 15, 1994, to Kenneth W. Davis, demonstrates a garden structure disclosed for producing a vertically oriented garden. It comprises a series of vertical, self contained, individual plant or crop growing containers, with growing orifices located on the exterior of a hexagonal shaped stock, with a hollow bore in the center containing a soilless, organic growth medium. The growing orifices are separated by a series of aeration holes. The plants or crop roots are inserted into the bore through the growth orifices and imbedded in the organic growth medium. 
         [0016]    U.S. Pat. No. 5,446,994, issued Sep. 5, 1995, to Wen S. Chou, details a flower pot including a pot body having an annular water reservoir disposed at the top, a water supply regulator consisting of a base block disposed in the annular water reservoir, a water guiding strap having a leading end dipped in water in the annular water reservoir and an opposite end extended into the pot body to guide water from the annular water reservoir into the pot body by capillary action, and an adjusting block moved in a vertical sliding slot on the base block to adjust the elevation of the leading end of the water guiding strap in water; and a locating device fastened to the pot body to hold down the water guiding strap. 
         [0017]    U.S. Pat. No. 5,555,676, issued Sep. 17, 1996, to John F. Lund, describes a vertical planter for supporting a plurality of plants vertically. The planter includes a hollow column mounted vertically on a water reservoir. The hollow column is fabricated from one or more column modules which are filled with a planting medium. A plurality of planting ports are formed in the wall of the hollow column to provide access for plants to be planted in the planting medium. Planter inserts can also be attached to the planting ports, the planter inserts supporting a body of the planting medium on the external surface of the hollow column. 
         [0018]    U.S. Pat. No. 5,960,587, issued Oct. 5, 1999, to John J. Brasseur Jr., describes a planter adapted for circling an umbrella pole and resting upon a patio table top includes a large pot divided into two halves of identical geometry, and a drip tray similarly divided into two halves of identical geometry. Features are provided to lock each drip tray half into a corresponding pot half. Additional features allow each pot half to interlock to another, thereby forming a complete planter. The planter halves are separable and may be interchanged with other planter halves of the same geometry. 
         [0019]    U.S. Pat. No. 6,070,359, issued Jun. 6, 2000, to Shan Pu Liu, outlines a flower pot structure with a natural water supply system including a pot body, a main water storage region, an upper cover, a central soil region, and a water supply device. The main water storage region is annular and located in an upper position of the pot body. The pot body and the main water storage region are adhered as a whole with the upper cover. The circumference of the main water storage region receives the water supply device. 
         [0020]    U.S. Pat. No. 6,161,333, issued Dec. 19, 2000, to Rebecca Ann Poston, refers to a flower pot system for use on a patio table having an umbrella pole projecting upwardly form the center thereof. The flower pot system provides two flower pot members that together form a tubular passageway through which an umbrella pole is positionable. The two flower pot members are easily installable and removable from around an umbrella pole without lifting the umbrella pole from the patio table. A pair of drip trays are provided to hold the two flower pot members together and to provide a fluid pathway between the two flower pot members. 
         [0021]    U.S. Pat. No. 6,381,902, issued May 7, 2000, to Abeer Batshon, defines a pot holder for use with posts including a pot portion having a generally cylindrical configuration. The pot portion has an open upper end, a closed lower end, and a surrounding side wall therebetween. The pot portion has an elongated cylinder positioned centrally therein. The elongated cylinder has an open upper end positioned within the open upper end of the pot portion. The elongated cylinder has an open lower end extending through the closed lower end of the pot portion. The elongated cylinder is dimensioned for receiving the post therethrough. 
         [0022]    U.S. Pat. No. 6,615,542, issued Sep. 9, 2003, to Larry A. Ware, relates to the field of plant growth units, and more particularly pertains to an apparatus for plant cultivation which conserves horizontal space and utilizes vertical space, while providing for the growth of plants which are cultivated in an indoor environment. The plant growth unit includes a plurality of growth sites, means for supporting the growth sites, and means for establishing a liquid nutrient flow. 
         [0023]    U.S. Pat. No. 6,782,659, issued Aug. 31, 2004, to Guy V. Van Laere, pertains to a flower pot assembly for keeping at least one plant temporarily alive without having to water it, includes a pot permeable to water in which the plant is potted with the required amount of soil, and a container impermeable to water in which the pot is received, so that a space is formed between the pot and the container. A gel formed of a water-absorbing polymer and water at least partially fills the space between the pot and the container. The container and gel are used as a packaging for the potted plant in order to keep this plant alive without having to water it during transport and when put on display for sale. 
         [0024]    U.S. Pat. No. 7,055,282, issued Jun. 6, 2006, to Morris Bryan III, outlines a hydroponic system with modules having a hollow interior, a bottom wall with drain holes, and an open top end. A module conduit in each module carried by the bottom wall for channeling fluid through the hollow interior. The bottom wall of each module adapted to engage a top end of an adjacent module for stacking the modules in an end-to-end arrangement to form a planting column. A conduit receiving slot formed in the bottom wall of each module to engage a top portion of a conduit from an adjacent lower module when the modules are stacked end-to-end to provide a continuous fluid passageway through the planting column. 
         [0025]    U.S. Pat. No. 7155,860, issued Jan. 2, 2007, to George W. Ferguson, defines an umbrella mountable flower pot apparatus which includes a container that has a bottom wall and a perimeter wall that is attached to and extends upwardly from the bottom wall. The container has a hemispherical shape. A dividing wall is attached to and extends across the container. An aperture extends upwardly through the bottom wall and through the dividing wall. The container has a break therein so that the first portion is separable from the second portion and a pair of dividing walls is defined. A coupling apparatus is attached to the first and second portions and is configured to secure the first and second portions together and to a post extending through the aperture. 
         [0026]    U.S. Pat. No. 7,171,783, issued Feb. 6, 2007, to Giampiero Fidotti, defines a container (1) for the cultivation of plants is described, the container (1) comprising an inner container (2) for housing a plant cultivation medium (C), an outer container (3) fixed around the inner container (2) and provided with a bottom wall (5) arranged at a predetermined distance (d.sub.f) from the bottom wall (5) of the inner container (2), the outer container (3) defining with the inner container (2) an airspace (7) substantially sealed in a fluid-tight manner, wherein a storage zone (A) of an irrigation liquid (L) is defined, and an elongated element (10) for the capillary upwelling of the irrigation liquid (L) towards said cultivation medium (C). The container (1) of the invention enables to provide the plant housed in the cultivation medium (C) with the proper quantity of irrigation liquid (L) as a function of the plant needs. 
         [0027]    U.S. Pat. No. 7,516,574, issued Apr. 4, 2009, to John Gottlieb, refers to a vertical garden including a reservoir containing a nutrient rich liquid. A stack of modular planters are nested together above the reservoir. A vertically extending tubular pipe passes through central openings in the modular planters. The tubular pipe communicates with a manifold within the reservoir. An air pump located outside of the reservoir has an outlet hose terminating in an air inlet port in the manifold. Compressed air flows from the air pump into the manifold and flows up through the pipe to a diffuser plate at the top. 
         [0028]    U.S. Pat. No. 8,065,834, issued Nov. 29, 2011, to Karl Eckert, outlines a two part plant container that includes an outer tub part having a series of step indentations around its perimeter forming horizontal rest surfaces within the outer part which are located above a lower region forming a water reservoir space. The inner part has a bottom wall areas resting on the surfaces with the inner part nested within an upper region of the outer part. 
         [0029]    U.S. Pat. No. 8,381,441, issued Feb. 26, 2013, to George Altendorfer, details an insertable watering device for a standard bucket comprising, a circular planar base member, central chamber, plurality of wicks, fill tube, and support legs. The insertable device provides support for soil and allows for the watering of plants contained in the soil by capillary action using a wick through the transfer of water below the base member and into the soil layer. 
         [0030]    U.S. Pat. No. 8,528,252, issued Sept. 10, 2013, to Arthur F. Briebel, describes this self-watering planter comprises a wick, reservoir, wick-housing running between the soil/soil substitute and the reservoir, and a tight fitting cap to maintain a vacuum seal within the reservoir. The water or liquid mixture is maintained at a constant level across the wick by the vacuum that is created. This prevents water from flowing upwards into the soil when the soil is already wet. Liquid is only draw from the wick by osmosis when the soil is dry. 
         [0031]    U.S. Pat. No. 9,010,021, issued Apr. 21, 2015, to Robert E. Rettger II, refers to an adjustable water retention device for a plant pot has a plant container nesting in a second outer pot, with a facilitated flow of water communicating between the second outer pot and the plant container, wherein the second outer pot rests on a base. 
         [0032]    U.S. Pat. No. 9,043,962, issued Jun. 2, 2015, to Danielle K. Trofe, pertains to a self-irrigating planter system that waters vegetation on a regular schedule using hollow upright supports to convey the water from a pump and reservoir to multiple organic-shaped pods that are attached to the upright supports in a tiered manner, and which uses gravity to deliver water so as to provide sustained plant growth and a healthier living environment with reduced energy usage. 
         [0033]    U.S. Pat. No. 9,060,472, issued Jun. 23, 2015, to Ali Li, describes a plant container which includes a container body and an automate watering arrangement, wherein the automate watering arrangement includes a reserve unit and a plurality of watering units. Each of the watering units includes a guiding element and a watering element, wherein one end of the guiding element is communicated with the reserve unit, and another end of the guiding element is coupled with the watering element end-to-end. 
         [0034]    U.S. Pat. No. 9,101,099, issued Aug. 11, 2015, to Bryce D. Nagels, demonstrates an indoor plant growing system and a method of using the same system which includes a base defining an interior compartment, a mast extending upwardly from the base, a first arm extending outwardly from the mast, a cable hanging downwardly from the first arm, one or more pots engaged on the cable, and a water delivery system connecting a water supply and the uppermost pot. The water supply preferably is a reservoir disposed inside the base&#39;s compartment. 
         [0035]    U.S. Pat. No. D723,884, issued Mar. 10, 2015, to Mathew Buquoi, depicts the ornamental design for a planter circle reservoir, as shown and described. 
         [0036]    U.S. Patent No 20020134017, issued Sep. 26, 2002, to Gerald E. Gibbs, relates to a post planter, which is constructed of two identical parts with the parts being constructed to be located around a square shaped or rectangular post. The post planter includes an interior chamber the lower portion of which is to contain water and the upper portion of which is to contain a plant growing medium. The two parts are to be connected together by fasteners forming a single unit. There is a post receiving opening formed within the planter and this post receiving opening is size adjustable. 
         [0037]    U.S. Patent No 20060150486, issued Jul. 13, 2006, to Adedamola Andu, details a self-watering apparatus (1) comprising: (i) a filling tube (2) with an opening (3) at high level, said tube (2) being in fluid communication with a delivery tube (5) located at low level; (ii) a main water holding reservoir (4) adapted, in use, to receive water from said delivery tube (5), said reservoir (4) being in fluid communication with a second delivery tube (11); (iii) at least one storage chamber (10) a having a discharge orifice (13), said storage chamber (10) being adapted, in use, to receive water from the main water holding reservoir (4) by means of a second delivery tube (11) which optionally may have a capillary plug; (iv) optionally, one or more further storage chambers (16) having further discharge orifices (14) at least one of the further storage chambers (16) being in fluid communication with said chamber (10) and a pressure relieving tube (20), and (v) an outlet tube (18) with an opening (19) at high-level within said reservoir (4) through which air can be drawn into the apparatus under the control of a moisture-sensitive valve (17). 
       DISADVANTAGES OF THE PRIOR ART 
       [0038]    The prior art have failed to solve many problems associated with such flower containers, as follows:
   1) No prior art mention or disclose any flower container, having
       rollable spirally-disposed spirally-water-circulating slides.   Therefore, the prior art of flower container:
           a) Can not create spiral traction for soil to stay on,
               to prevent the soil from being washed downwards   ( FIGS. 1, 4, 5, 15, and 20 );   
               b) Can not create spiral traction for soil to stay on,
               to prevent the soil from being washed away   ( FIGS. 1, 4, 5, 15, and 20 );   
               c) Can not create spiral traction for soil to stay on,
               to allow the soil to gradually move downwards spirally   ( FIGS. 1, 4, 5, 15, and 20 );   
               d) Can not create spiral traction for soil to stay on,
               to allow the soil to gradually move away spirally   ( FIGS. 1, 4, 5, 15, and 20 );   
               
           
       2) No prior art mention or disclose any flower container, having
       rollable spirally-disposed spirally-water-circulating slides.   Therefore, the prior art of flower container:
           a) Can not spirally redirect the moisture,
               to be distributed over a larger surface area   ( FIGS. 1, 4, 5, 15, and 20 );   
               b) Can not provide the moisture sufficient opportunity to osmotically distribute throughout soil within the container,
               to evenly moisten the soil from top to bottom   ( FIGS. 1, 4, 5, 15, and 20 );   
               c) Can not slowly disperse moisture,
               to reduce the gravitational influence affecting the moisture   ( FIGS. 1, 4, 5, 15, and 20 );   
               d) Can not utilize the moisture more effectively and efficiently,
               to require less water, thereby lowering water costs   ( FIGS. 1, 4, 5, 15, and 20 ); and   
               e) Can not utilize the moisture more effectively and efficiently,
               to require less water, thereby being more environmentally responsible   ( FIGS. 1, 4, 5, 15, and 20 ).   
               
           
       3) No prior art mention or disclose any flower container, having
       rollable four water-regulating channels.   Therefore, the prior art of flower container:
           a) Can not force water collection at flower-container-and-umbrella-base bottom,
               to stimulate absorption into soil   ( FIGS. 3, and 16 );   
               b) Can not act as a raceway to spread collected water through flower-container-and-umbrella-base bottom,
               to evenly distribute moisture to plant root system   ( FIGS. 3, and 16 );   
               c) Can not provide a network of cavities in which the plant root system will cluster and nest,
               to enable root system to more affectively metabolize nutrients   ( FIGS. 3, and 16 ); and   
               d) Can not furnish a network of cavities in which the plant root system will cluster and nest,
               to provide greater surface area and therefore greater stability for the root system   ( FIGS. 3, and 16 ).   
               
           
       4) No prior art mention or disclose any flower container, having
       two wheel hiding wells.   Therefore, the prior art of flower container:
           a) Can not enable larger circumference wheels, while axel height being vertically higher than flower-container-and-umbrella-base bottom,
               to result in a lower center of gravity   ( FIGS. 1, 2, 3, 4, 5   11 , and  12 );   
               b) Can not enable larger circumference wheels, while axel height being vertically higher than flower-container-and-umbrella-base bottom,
               to result in an easier and more convenient movement of rollable clawed-foot flower-container-and-umbrella-stand system   ( FIGS. 1, 2, 3, 4, 5   11 , and  12 );   
               c) Can not provide larger circumference wheels, while axel height being vertically higher than flower-container-and-umbrella-base bottom,
               to contain and safely, rollably transport a relatively heavier umbrella, flag pole, artificial tree, sign post, etc.   ( FIGS. 1, 2, 3, 4, 5   11 , and  12 ); and   
               d) Can not provide larger circumference wheels, while axel height being vertically higher than flower-container-and-umbrella-base bottom,
               to contain and safely, rollably transport a relatively taller umbrella, flag pole, artificial tree, sign post, etc.   ( FIGS. 1, 2, 3, 4, 5   11 , and  12 ).   
               
           
       5) No prior art mention or disclose any flower container, having
       a rollable receiver-diameter-adjusting automatically-umbrella-pole-center spring-bracket system.   Therefore, the prior art of flower container:
           a) Can not provide a convenient self-centering opposing-spring clamp,
               to accommodate umbrella poles, flag poles, artificial trees, sign posts, etc. and self-center when inserted   ( FIGS. 6, 7A, 7B, 9A, 9B, 10A, 10B, 13, 17, 18A and 18B );   
               b) Can not provide a convenient diameter-adjusting opposing-spring clamp,
               to secure a large range of diameters of umbrella poles, flag poles, artificial trees, sign posts, etc.   ( FIGS. 6, 7A, 7B, 9A, 9B, 10A, 10B, 13, 17, 18A and 18B );   
               c) Can not provide a multi-functional opposing-spring pole clamp,
               to adjust to a variety of different diameters without requiring any tools   ( FIGS. 6, 7A, 7B, 9A, 9B, 10A, 10B, 13, 17, 18A and 18B ); and   
               d) Can not provide a self-storage system for auxiliary components,
               to instantly store an adjustable u-shaped spring clamp and a fixed J-shaped automatically-umbrella-pole-centering spring clamp, when not in use   ( FIGS. 6, 7A, 7B, 9A, 9B, 10A, 10B, 13, 17, 18A and 18B ).   
               
           
       6) No prior art mention or disclose any flower container, having
       a rollable water-reservoir-and-water-regulating irrigation system.   Therefore, the prior art of flower container:
           a) Can not operate independently and is self-contained,
               to be used in locations where there is no water spigot available   ( FIGS. 8, 9A, 9B, 10A, 10B, 13, 14, 15, and 19 );   
               b) Can not operate independently without a hose leading to a rollable clawed-foot flower-container-and-umbrella-stand system,
               to be used in public places without posing a danger to pedestrians, from a hose being an obstacle and a tripping hazard, such as a restaurant patio, a sidewalk, a park, etc.   ( FIGS. 8, 9A, 9B, 10A, 10B, 13, 14, 15, and 19 );   
               c) Can not function discretely while hidden by surrounding plants,
               to be aesthetically pleasing while displayed in public areas   ( FIGS. 8, 9A, 9B, 10A, 10B, 13, 14, 15, and 19 ); and   
               d) Can not fully function discretely without a water hose attached,
               to be aesthetically pleasing while displayed in public areas   ( FIGS. 8, 9A, 9B, 10A, 10B, 13, 14, 15, and 19 ).   
               
           
         7 ) No prior art mention or disclose any flower container, having
       a tubular water reservoir, spirally-disposed irrigation tubes, and water-regulating foam cylinder.   Therefore, the prior art of flower container:
           a) Can not distribute moisture to soil within a flower-container-and-umbrella-base bottom,
               to evenly moisten the soil from side to side   ( FIGS. 14, 15, and 19 );   
               b) Can not distribute moisture to soil within a flower-container-and-umbrella-base bottom,
               to evenly moisten the soil from top to bottom   ( FIGS. 14, 15, and 19 );   
               c) Can not sequentially distribute water in a spiral pattern within a flower-container-and-umbrella-base bottom,
               to evenly moisten the soil from top to bottom   ( FIGS. 14, 15, and 19 );   
               d) Can not sequentially distribute water in a spiral pattern within a flower-container-and-umbrella-base bottom,
               to evenly moisten the soil from side to side   ( FIGS. 14, 15, and 19 ); and   
               e) Can not provide a structure of perforated tubes in which the plant root system will attach,
               to enable root system to bind with soil and container more affectively   ( FIGS. 14, 15, and 19 ).   
               
               8) No prior art mention or disclose any flower container, having
       two anti-rolling feet and four anti-rolling claws.   Therefore, the prior art of flower container:
           a) Can not provide unique self-adjusting, pliable, multi-angled-surface friction blocks,
               to resist movement thereby stabilizing rollable clawed-foot flower-container-and-umbrella-stand system when standing level on a concrete surface   ( FIGS. 2, 3, 4, 5, 12, 13, and 17 );   
               b) Can not provide unique self-adjusting, pliable, multi-angled-surface friction blocks,
               to resist movement thereby stabilizing rollable clawed-foot flower-container-and-umbrella-stand system when standing level on a gravel surface   ( FIGS. 2, 3, 4, 5, 12, 13, and 17 );   
               c) Can not provide unique self-adjusting, pliable, multi-angled-surface friction blocks,
               to resist movement thereby stabilizing rollable clawed-foot flower-container-and-umbrella-stand system when standing level on a sandy surface   ( FIGS. 2, 3, 4, 5, 12, 13, and 17 );   
               d) Can not provide unique self-adjusting, pliable, multi-angled-surface friction blocks,
               to resist movement thereby stabilizing rollable clawed-foot flower-container-and-umbrella-stand system when standing level on a tile surface   ( FIGS. 2, 3, 4, 5, 12, 13, and 17 ); and   
               e) Can not provide unique self-adjusting, pliable, multi-angled-surface friction blocks,
               to resist movement thereby stabilizing rollable clawed-foot flower-container-and-umbrella-stand system when standing level on a slick surface   ( FIGS. 2, 3, 4, 5, 12, 13, and 17 ).   
               
           
       
 
       OBJECTS AND ADVANTAGES OF THE INVENTION 
       [0168]    The present invention substantially departs from the conventional concepts and designs of the prior art. In doing so, the present invention provides a unique rollable five-device-in-one system (having: a) Rollable claw-foot flower container, b) Rollable adjustable-receiver umbrella stand, c) Rollable water reservoir, d) Rollable water-regulating irrigation system, and e) Rollable water-circulating system) having many unique and significant features, functions, and advantages, which overcome all the disadvantages of the prior art, as follows:
   1) It is an object of the new invention to provide
       a unique rollable five-device-in-one system, having   rollable spirally-disposed spirally-water-circulating slides.   Therefore, the unique rollable five-device-in-one system:
           a) Can create spiral traction for soil to stay on,
               to prevent the soil from being washed downwards   ( FIGS. 1, 4, 5, 15, and 20 );   
               b) Can create spiral traction for soil to stay on,
               to prevent the soil from being washed away   ( FIGS. 1, 4, 5, 15, and 20 );   
               c) Can create spiral traction for soil to stay on,
               to allow the soil to gradually move downwards spirally   ( FIGS. 1, 4, 5, 15, and 20 );   
               d) Can create spiral traction for soil to stay on,
               to allow the soil to gradually move away spirally   ( FIGS. 1, 4, 5, 15, and 20 );   
               
           
       2) It is another object of the new invention to provide
       a unique rollable five-device-in-one system, having   rollable spirally-disposed spirally-water-circulating slides.   Therefore, the unique rollable five-device-in-one system:
           a) Can spirally redirect the moisture,
               to be distributed over a larger surface area   ( FIGS. 1, 4, 5, 15, and 20 );   
               b) Can provide the moisture sufficient opportunity to osmotically distribute throughout soil within the container,
               to evenly moisten the soil from top to bottom   ( FIGS. 1, 4, 5, 15, and 20 );   
               c) Can slowly disperse moisture,
               to reduce the gravitational influence affecting the moisture   ( FIGS. 1, 4, 5, 15, and 20 );   
               d) Can utilize the moisture more effectively and efficiently,
               to require less water, thereby lowering water costs   ( FIGS. 1, 4, 5, 15, and 20 ); and   
               e) Can utilize the moisture more effectively and efficiently,
               to require less water, thereby being more environmentally responsible   ( FIGS. 1, 4, 5, 15, and 20 ).   
               
           
       3) It is still another object of the new invention to provide
       a unique rollable five-device-in-one system, having   rollable four water-regulating channels.   Therefore, the unique rollable five-device-in-one system:
           a) Can force water collection at flower-container-and-umbrella-base bottom,
               to stimulate absorption into soil   ( FIGS. 3, and 16 );   
               b) Can act as a raceway to spread collected water through flower-container-and-umbrella-base bottom,
               to evenly distribute moisture to plant root system   ( FIGS. 3, and 16 );   
               c) Can provide a network of cavities in which the plant root system will cluster and nest,
               to enable root system to more affectively metabolize nutrients   ( FIGS. 3, and 16 ); and   
               d) Can furnish a network of cavities in which the plant root system will cluster and nest,
               to provide greater surface area and therefore greater stability for the root system   ( FIGS. 3, and 16 ).   
               
           
       4) It is a further object of the new invention to provide
       a unique rollable five-device-in-one system, having   two wheel hiding wells.   Therefore, the unique rollable five-device-in-one system:
           a) Can enable larger circumference wheels, while axel height being vertically higher than flower-container-and-umbrella-base bottom,
               to result in a lower center of gravity   ( FIGS. 1, 2, 3, 4, 5   11 , and  12 );   
               b) Can enable larger circumference wheels, while axel height being vertically higher than flower-container-and-umbrella-base bottom,
               to result in an easier and more convenient movement of rollable clawed-foot flower-container-and-umbrella-stand system   ( FIGS. 1, 2, 3, 4, 5   11 , and  12 );   
               c) Can provide larger circumference wheels, while axel height being vertically higher than flower-container-and-umbrella-base bottom,
               to contain and safely, rollably transport a relatively heavier umbrella, flag pole, artificial tree, sign post, etc.   ( FIGS. 1, 2, 3, 4, 5   11 , and  12 ); and   
               d) Can provide larger circumference wheels, while axel height being vertically higher than flower-container-and-umbrella-base bottom,
               to contain and safely, rollably transport a relatively taller umbrella, flag pole, artificial tree, sign post, etc.   ( FIGS. 1, 2, 3, 4, 5   11 , and  12 ).   
               
           
       5) It is an even further object of the new invention to provide
       a unique rollable five-device-in-one system, having   a rollable receiver-diameter-adjusting automatically-umbrella-pole-center spring-bracket system.   Therefore, the unique rollable five-device-in-one system:
           a) Can provide a convenient self-centering opposing-spring clamp,
               to accommodate umbrella poles, flag poles, artificial trees, sign posts, etc. and self-center when inserted   ( FIGS. 6, 7A, 7B, 9A, 9B, 10A, 10B, 13, 17, 18A and 18B );   
               b) Can provide a convenient diameter-adjusting opposing-spring clamp,
               to secure a large range of diameters of umbrella poles, flag poles, artificial trees, sign posts, etc.   ( FIGS. 6, 7A, 7B, 9A, 9B, 10A, 10B, 13, 17, 18A and 18B );   
               c) Can provide a multi-functional opposing-spring pole clamp,
               to adjust to a variety of different diameters without requiring any tools   ( FIGS. 6, 7A, 7B, 9A, 9B, 10A, 10B, 13, 17, 18A and 18B ); and   
               d) Can provide a self-storage system for auxiliary components,
               to instantly store an adjustable u-shaped spring clamp and a fixed J-shaped automatically-umbrella-pole-centering spring clamp, when not in use   ( FIGS. 6, 7A, 7B, 9A, 9B, 10A, 10B, 13, 17, 18A and 18B ).   
               
           
       6) It is still another object of the new invention to provide
       a unique rollable five-device-in-one system, having   a rollable water-reservoir-and-water-regulating irrigation system.   Therefore, the unique rollable five-device-in-one system:
           a) Can operate independently and is self-contained,
               to be used in locations where there is no water spigot available   ( FIGS. 8, 9A, 9B, 10A, 10B, 13, 14, 15, and 19 );   
               b) Can operate independently without a hose leading to rollable clawed-foot flower-container-and-umbrella-stand system,
               to be used in public places without posing a danger to pedestrians, from a hose being an obstacle and a tripping hazard, such as a restaurant patio, a sidewalk, a park, etc.   ( FIGS. 8, 9A, 9B, 10A, 10B, 13, 14, 15, and 19 );   
               c) Can function discretely while hidden by surrounding plants,
               to be aesthetically pleasing while displayed in public areas   ( FIGS. 8, 9A, 9B, 10A, 10B,13, 14, 15, and 19 ); and   
               d) Can fully function discretely without a water hose attached,
               to be aesthetically pleasing while displayed in public areas   ( FIGS. 8, 9A, 9B, 10A, 10B, 13, 14, 15, and 19 ).   
               
           
       7) It is yet another object of the new invention to provide
       a unique rollable five-device-in-one system, having   a tubular water reservoir, spirally-disposed irrigation tubes, and water-regulating foam cylinder.   Therefore, the unique rollable five-device-in-one system:
           a) Can distribute moisture to soil within a flower-container-and-umbrella-base bottom,
               to evenly moisten the soil from side to side   ( FIGS. 14, 15, and 19 );   
               b) Can distribute moisture to soil within a flower-container-and-umbrella-base bottom,
               to evenly moisten the soil from top to bottom   ( FIGS. 14, 15, and 19 );   
               c) Can sequentially distribute water in a spiral pattern within a flower-container-and-umbrella-base bottom,
               to evenly moisten the soil from top to bottom   ( FIGS. 14, 15, and 19 );   
               d) Can sequentially distribute water in a spiral pattern within a flower-container-and-umbrella-base bottom,
               to evenly moisten the soil from side to side   ( FIGS. 14, 15, and 19 ); and   
               e) Can provide a structure of perforated tubes in which the plant root system will attach,
               to enable root system to bind with soil and container more affectively   ( FIGS. 14, 15, and 19 ).   
               
           
       8) It is still yet an even further object of the new invention to provide
       a unique rollable five-device-in-one system, having   two anti-rolling feet and four anti-rolling claws.   Therefore, the unique rollable five-device-in-one system:
           a) Can provide unique self-adjusting, pliable, multi-angled-surface friction blocks,
               to resist movement thereby stabilizing rollable clawed-foot flower-container-and-umbrella-stand system when standing level on a concrete surface   ( FIGS. 2, 3, 4, 5, 12, 13, and 17 );   
               b) Can provide unique self-adjusting, pliable, multi-angled-surface friction blocks,
               to resist movement thereby stabilizing rollable clawed-foot flower-container-and-umbrella-stand system when standing level on a gravel surface   ( FIGS. 2, 3, 4, 5, 12, 13, and 17 );   
               c) Can provide unique self-adjusting, pliable, multi-angled-surface friction blocks,
               to resist movement thereby stabilizing rollable clawed-foot flower-container-and-umbrella-stand system when standing level on a sandy surface   ( FIGS. 2, 3, 4, 5, 12, 13, and 17 );   
               d) Can provide unique self-adjusting, pliable, multi-angled-surface friction blocks,
               to resist movement thereby stabilizing rollable clawed-foot flower-container-and-umbrella-stand system when standing level on a tile surface   ( FIGS. 2, 3, 4, 5, 12, 13, and 17 ); and   
               e) Can provide unique self-adjusting, pliable, multi-angled-surface friction blocks,
               to resist movement thereby stabilizing rollable clawed-foot flower-container-and-umbrella-stand system when standing level on a slick surface   ( FIGS. 2, 3, 4, 5, 12, 13, and 17 ).
 
Other objects and advantages of the present invention will become apparent from the consideration of the accompanying drawings and ensuing description.
   
               
           
       
 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0306]      FIGS. 1 and 2  illustrate top-perspective and bottom-perspective views of a unique rollable five-device-in-one system, comprising rollable clawed-foot flower container, rollable adjustable-receiver umbrella stand, rollable water reservoir, rollable water-regulating irrigation system, and rollable water-circulating system. 
           [0307]      FIGS. 3, 4, and 5  illustrate top, side, and front views of the unique rollable five-device-in-one system, comprising rollable clawed-foot flower container, rollable adjustable-receiver umbrella stand, rollable water reservoir, rollable water-regulating irrigation system, and rollable water-circulating system. 
           [0308]      FIG. 6  illustrates a perspective view of a rollable adjustable-umbrella-pole-receiver system. 
           [0309]      FIGS. 7A and 7B  illustrate perspective views of a rollable receiver-diameter-adjusting automatically-umbrella-pole-centering spring-bracket system. 
           [0310]      FIG. 8  illustrates a perspective view of a rollable receiver-diameter-adjusting automatically-umbrella-pole-centering spring-bracket system, a rollable water-reservoir-and-water-regulating irrigation system, and a rollable water-circulating system. 
           [0311]      FIGS. 9A, 9B, 10A, and 10B  illustrate top and cross-sectional views of a rollable receiver-diameter-adjusting automatically-umbrella-pole-centering spring-bracket system and a rollable water-reservoir-and-water-regulating irrigation system. 
           [0312]      FIG. 11  illustrates a perspective view of two wheel and axle systems. 
           [0313]      FIGS. 12 and 13  illustrate perspective and front views of two wheel and axle systems and how they are rotatably connected to the unique rollable five-device-in-one system. 
           [0314]      FIGS. 14 and 15  illustrate perspective views of how a rollable water-reservoir-and-water-regulating irrigation system and a rollable water-circulating system are connected to a rollable adjustable-umbrella-pole-receiver system. 
           [0315]      FIG. 16  illustrates a top view of how four water-regulating channels regulate the flow directions of irrigation water, expand the travel areas of irrigation water, and lengthen the travel distances of irrigation water. 
           [0316]      FIG. 17  illustrates a front view of how four anti-rolling claws dig into the ground when the unique rollable five-device-in-one system sits on a slope or is pushed to lock the unique rollable five-device-in-one system in place to prevent it from moving. 
           [0317]      FIGS. 18A and 18B  illustrate perspective views of how a rollable receiver-diameter-adjusting automatically-umbrella-pole-centering spring-bracket system automatically and springably centers multiple umbrella poles of different diameters, springably adapts to multiple umbrella poles of different diameters, and springably clamps multiple umbrella poles of different diameters. 
           [0318]      FIG. 19  illustrates an internal view of how a rollable water-reservoir-and-water-regulating irrigation system stores and regulates water for irrigation inside the unique rollable five-device-in-one system. 
           [0319]      FIG. 20  illustrates an internal view of how a rollable water-circulating system spirally circulates and spirally regulates water for irrigation inside the unique rollable five-device-in-one system. 
           [0320]      FIGS. 21 and 22  illustrate equivalent variations of the unique rollable five-device-in-one system. 
       
    
    
     SUMMARY OF THE INVENTION 
       [0321]    A rollable five-device-in-one flower container and umbrella stand comprises: a container having multiple walls and a bottom, water-regulating channels formed in the bottom, two wheel wells formed in the bottom, anti-rolling claws formed in the bottom for digging into the ground on a slope to prevent the five-device-in-one flower container and umbrella stand from sliding down the slope, an umbrella-pole receiver screwed on the bottom, U-shaped and J-shaped spring clamps hooked on the umbrella-pole receiver for creating a clamping force therebetween, two wheels partially hidden in the two wheel wells, a tubular double-wall water reservoir having spiral water-distributing tubes and spiral water-regulating foams for spirally and timely discharging the water, and spiral water-circulating slides spirally welded or molded to the walls for spirally creating multiple spiral tractions, multiple spiral layers, multiple spiral travel distances for soil and water to create multiple spiral root growths and multiple spiral nutrition absorptions. 
       DETAILED DESCRIPTION OF THE INVENTION 
     Component 
       [0322]    A unique rollable five-device-in-one system comprises:
       1) Rollable clawed-foot flower-container-and-umbrella-stand system,   2) Rollable adjustable-umbrella-pole-receiver system,   3) Rollable receiver-diameter-adjusting automatically-umbrella-pole-centering spring-bracket system,   4) Two wheel and axle systems,   5) Rollable water-reservoir-and-water-regulating irrigation system, and   6) Rollable water-circulating system.       
 
         [0329]    Referring to  FIGS. 1, 2, 3, 4, 5, 6, 7A, 7B, 8, 9A, 9B, 10A, 10B, 11, 12, 13, 14, and 15 , the unique rollable five-device-in-one system comprises:
   1) Rollable clawed-foot flower-container-and-umbrella-stand system  101 , comprising:   2) Four flower-container-and-umbrella-base walls  102 ,   3) A flower-container-and-umbrella-base bottom  103   a,  
       Four water-regulating channels  103   b,      
       4) Four bottom-strengthening umbrella legs  104 ,   5) A base-connecting bottom dome  105 ,   6) Four base-connecting bottom holes  106 ,   7) Four internally-threaded base-connecting bottom towers  107 ,   8) Water-drainage bottom holes  108 ,   9) Two wheel-hiding wells  109 ,   10) Two anti-rolling feet  110   a, and
       Four anti-rolling claws  110   b;      
       11) Rollable adjustable-umbrella-pole-receiver system  111 , comprising:   12) A umbrella-pole receiver  112 ,   13) A threaded knob-screw hole  113 ,   14) A pole-locking knob-screw  114 ,   15) An umbrella-pole-receiver base  115 ,   16) Four threaded base holes  116 ,   17) Four base screws  117 , and   18) Four base-screw washers  118 ;   19) Rollable receiver-diameter-adjusting automatically-umbrella-pole-centering spring-bracket system  119 , comprising:   20) An adjustable U-shaped spring clamp  120 , and   21) A fixed J-shaped automatically-umbrella-pole-centering spring clamp  121 ;   22) Two wheel and axle systems  122 , each comprising:   23) A threaded wheel axle  123   a,  
       An axle washer  123   b,      An axle nut  123   c,      
       24) An inner axle spacer  124 ,   25) An outer axle spacer  125 ,   26) A flower-container-and-umbrella-base wheel  126   a,  and
       Wheel-spacer-locking circular ridge  126   b;      
       27) Rollable water-reservoir-and-water-regulating irrigation system  127 , comprising:   28) A tubular water reservoir  128 ,   29) Water-distributing holes  129 ,   30) Spirally-disposed irrigation tubes  130 ,   31) Irrigation-tube holes  131 ,   32) Water-regulating foam cylinder  132 , and   33) Rollable water-circulating system  133 , comprising:   34) Spirally-disposed spirally-water-circulating slides  134 .   
 
       Material 
       [0369]    Referring to  FIGS. 1, 2, 3, 4, 5, 6, 7A, 7B, 8, 9A, 9B, 10A, 10B, 11, 12, 13, 14, and 15 :
   1) Rollable clawed-foot flower-container-and-umbrella-stand system  101  is made of the combined materials of its components.   2) Four flower-container-and-umbrella-base walls  102  each are made of metallic material.   3) Flower-container-and-umbrella-base bottom  103   a  is made of metallic material.
       Four water-regulating channels  103   b  each are made of metallic material.   
       4) Four bottom-strengthening umbrella legs  104  each are made of metallic material.   5) Base-connecting bottom dome  105  is made of metallic material.   6) Four base-connecting bottom holes  106  each are made of empty space.   7) Four internally-threaded base-connecting bottom towers  107  each are made of metallic material.   8) Water-drainage bottom holes  108  each are made of empty space.   9) Two wheel-hiding wells  109  each are made of metallic material.   10) Two anti-rolling feet  110   a  each are made of metallic material.
       Four anti-rolling claws  110   b  each are made of metallic material.   
       11) Rollable adjustable-umbrella-pole-receiver system  111  is made of the combined materials of its components.   12) Umbrella-pole receiver  112  is made of metallic material.   13) Threaded knob-screw hole  113  is made of empty space.   14) Pole-locking knob-screw  114  is made of metallic and plastic material.   15) Umbrella-pole-receiver base  115  is made of metallic material.   16) Four threaded base holes  116  each are made of empty space.   17) Four base screws  117  each are made of metallic material.   18) Four base-screw washers  118  each are made of metallic material.   19) Rollable receiver-diameter-adjusting automatically-umbrella-pole-centering spring-bracket system  119  is made of the combined materials of its components.   20) Adjustable U-shaped spring clamp  120  is made of metallic material.   21) Fixed J-shaped automatically-umbrella-pole-centering spring clamp  121  is made of metallic material.   22) Two wheel and axle systems  122  each are made of the combined materials of its components.   23) Threaded wheel axle  123   a  is made of metallic material.
       Axle washer  123   b  is made of metallic material.   Axle nut  123   c  is made of metallic material.   
       24) Inner axle spacer  124  is made of plastic material.   25) Outer axle spacer  125  is made of plastic material.   26) Flower-container-and-umbrella-base wheel  126   a  is made of rubber and plastic material.
       Wheel-spacer-locking circular ridge  126   b  is made of plastic material.   
       27) Rollable water-reservoir-and-water-regulating irrigation system  127  is made of the combined materials of its components.   28) Tubular water reservoir  128  is made of plastic or nylon material.   29) Water-distributing holes  129  each are made of empty space.   30) Spirally-disposed irrigation tubes  130  each are made of plastic or nylon material.   31) Irrigation-tube holes  131  each are made of empty space.   32) Water-regulating foam cylinder  132  is made of foamy material.   33) Rollable water-circulating system  133  is made of the combined materials of its components.   34) Spirally-disposed spirally-water-circulating slides  134  each are made of metallic material.   
 
       Shape 
       [0409]    Referring to  FIGS. 1, 2, 3, 4, 5, 6, 7A, 7B, 8, 9A, 9B, 10A, 10B, 11, 12, 13, 14, and 15 :
   1) Rollable clawed-foot flower-container-and-umbrella-stand system  101  has the combined shapes of its components.   2) Four flower-container-and-umbrella-base walls  102  each have a square shape.   3) Flower-container-and-umbrella-base bottom  103   a  has a square shape.
       Four water-regulating channels  103   b  each have a zigzagged shape with a letter-C cross-section.   
       4) Four bottom-strengthening umbrella legs  104  each have an elongated rectangular shape.   5) Base-connecting bottom dome  105  has a cubical shape.   6) Four base-connecting bottom holes  106  each have a round shape.   7) Four internally-threaded base-connecting bottom towers  107  each have a tubular shape.   8) Water-drainage bottom holes  108  each have a round shape.   9) Two wheel-hiding wells  109  each have a half-pie shape.   10) Two anti-rolling feet  110   a  each have a half-pie shape.
       Four anti-rolling claws  110   b  each have a clawlike shape.   
       11) Rollable adjustable-umbrella-pole-receiver system  111  has the combined shapes of its components.   12) Umbrella-pole receiver  112  has a tubular shape.   13) Threaded knob-screw hole  113  has a round shape.   14) Pole-locking knob-screw  114  has a starlike-knob-and-screw shape.   15) Umbrella-pole-receiver base  115  has a square shape.   16) Four threaded base holes  116  each have a round shape.   17) Four base screws  117  each have a screw shape.   18) Four base-screw washers  118  each have a doughnut shape.   19) Rollable receiver-diameter-adjusting automatically-umbrella-pole-centering spring-bracket system  119  has the combined shapes of its components.   20) Adjustable U-shaped spring clamp  120  has a letter-U shape.   21) Fixed J-shaped automatically-umbrella-pole-centering spring clamp  121  has a letter-J shape.   22) Two wheel and axle systems  122  each have the combined shapes of its components.   23) Threaded wheel axle  123   a  has a screw shape.
       Axle washer  123   b  has a doughnut shape.   Axle nut  123   c  has a hexagonal shape.   
       24) Inner axle spacer  124  has a tubular shape.   25) Outer axle spacer  125  has a tubular shape.   26) Flower-container-and-umbrella-base wheel  126   a  has a doughnut shape.
       Wheel-spacer-locking circular ridge  126   b  has a ring shape.   
       27) Rollable water-reservoir-and-water-regulating irrigation system  127  has the combined shapes of its components.   28) Tubular water reservoir  128  has a double-tubular shape.   29) Water-distributing holes  129  each have a round shape.   30) Spirally-disposed irrigation tubes  130  each have a tubular shape.   31) Irrigation-tube holes  131  each have a round shape.   32) Water-regulating foam cylinder  132  has a cylindrical shape.   33) Rollable water-circulating system  133  has the combined shapes of its components.   34) Spirally-disposed spirally-water-circulating slides  134  each have an elongated rectangular shape.   
 
       Connection 
       [0449]    Referring to  FIGS. 1, 2, 3, 4, 5, 6, 7A, 7B, 8, 9A, 9B, 10A, 10B, 11, 12, 13, 14, and 15 :
   1) Rollable clawed-foot flower-container-and-umbrella-stand system  101  has the combined connections of its components.   2) Four flower-container-and-umbrella-base walls  102  respectively are molded to flower-container-and-umbrella-base bottom  103   a.      3) Flower-container-and-umbrella-base bottom  103   a  is molded to four flower-container-and-umbrella-base walls  102 .
       Four water-regulating channels  103   b  respectively are welded to flower-container-and-umbrella-base bottom  103   a.      
       4) Four bottom-strengthening umbrella legs  104  respectively are welded to flower-container-and-umbrella-base bottom  103   a.      5) Base-connecting bottom dome  105  is thermoformed in flower-container-and-umbrella-base bottom  103   a.      6) Four base-connecting bottom holes  106  respectively are drilled in flower-container-and-umbrella-base bottom  103   a.      7) Four internally-threaded base-connecting bottom towers  107  respectively are welded to flower-container-and-umbrella-base bottom  103   a.      8) Water-drainage bottom holes  108  respectively are drilled in flower-container-and-umbrella-base bottom  103   a.      9) Two wheel-hiding wells  109  respectively are thermoformed in in flower-container-and-umbrella-base bottom  103   a.      10) Two anti-rolling feet  110   a  respectively are thermoformed in flower-container-and-umbrella-base bottom  103   a.  
       Four anti-rolling claws  110   b  respectively are thermoformed on two anti-rolling feet  110   a.      
       11) Rollable adjustable-umbrella-pole-receiver system  111  has the combined connections of its components.   12) Umbrella-pole receiver  112  is welded to umbrella-pole-receiver base  115 .   13) Threaded knob-screw hole  113  is threadedly drilled through umbrella-pole receiver  112 .   14) Pole-locking knob-screw  114  is screwed through threaded knob-screw hole  113 .   15) Umbrella-pole-receiver base  115  is attached to base-connecting bottom dome  105 .   16) Four threaded base holes  116  respectively are drilled in umbrella-pole-receiver base  115 .   17) Four base screws  117  respectively are screwed through four threaded base holes  116 , through four base-connecting bottom holes  106 , and into four internally-threaded base-connecting bottom towers  107 .   18) Four base-screw washers  118  respectively are slid on four base screws  117 .   19) Rollable receiver-diameter-adjusting automatically-umbrella-pole-centering spring-bracket system  119  has the combined connections of its components.   20) Adjustable U-shaped spring clamp  120  is adjustably screwed on umbrella-pole receiver  112 .   21) Fixed J-shaped automatically-umbrella-pole-centering spring clamp  121  is hooked on umbrella-pole receiver  112 .   22) Two wheel and axle systems  122  respectively have the combined connections of its components.   23) Threaded wheel axle  123   a  is attached to one of two wheel-hiding wells  109 .
       Axle washer  123   b  is slid on threaded wheel axle  123   a.      Axle nut  123   c  is screwed on threaded wheel axle  123   a.      
       24) Inner axle spacer  124  is slid on threaded wheel axle  123   a.      25) Outer axle spacer  125  is slid on threaded wheel axle  123   a.      26) Flower-container-and-umbrella-base wheel  126   a  is slid on threaded wheel axle  123   a , between inner axle spacer  124  and outer axle spacer  125 .
       Wheel-spacer-locking circular ridge  126   b  is molded to flower-container-and-umbrella-base wheel  126   a.      
       27) Rollable water-reservoir-and-water-regulating irrigation system  127  has the combined connections of its components.   28) Tubular water reservoir  128  is slid around umbrella-pole receiver  112 .   29) Water-distributing holes  129  respectively are formed on tubular water reservoir  128 .   30) Spirally-disposed irrigation tubes  130  respectively are attached to tubular water reservoir  128 .   31) Irrigation-tube holes  131  respectively are formed on spirally-disposed irrigation tubes  130 .   32) Water-regulating foam cylinders  132  respectively are inserted into spirally-disposed irrigation tubes  130 .   33) Rollable water-circulating system  133  has the combined connections of its components.   34) Spirally-disposed spirally-water-circulating slides  134  respectively are spirally welded to four flower-container-and-umbrella-base walls  102 .   
 
       Function 
       [0489]    Referring to  FIGS. 16, 17, 18A, 18B, 19, and 20 :
   1) Rollable clawed-foot flower-container-and-umbrella-stand system  101  is for performing the combined functions of its components.   2) Four flower-container-and-umbrella-base walls  102  respectively are for:
       Holding soil and water therebetween to grow plants;   Holding sand therebetween to stabilize umbrella-pole receiver  112  and an umbrella pole when inserted therein; and   Functioning (together with lower-container-and-umbrella-base bottom  103   a ) as a flower container.   
       3) Flower-container-and-umbrella-base bottom  103   a  is for:
       Holding soil and water thereon to grow plants;   Holding sand thereon to stabilize umbrella-pole receiver  112  and an umbrella pole when inserted therein; and   Functioning (together with four flower-container-and-umbrella-base walls  102 ) as both a flower container and an umbrella base at the same time.   
       Four water-regulating channels  103   b  respectively are for:
       Regulating the zigzag flow directions of water,
           in the directions of arrows  135   a ,  135   b , and  135   c      ( FIG. 16 ),   to keep water in rollable clawed-foot flower-container-and-umbrella-stand system  101  longer to allow multiple plan roots to absorb more water;   
           Expanding the travel areas of water
           to distribute water to multiple plan roots; and   
           Lengthening the travel distances of water
           to distribute water to multiple plan roots.   
           
       4) Four bottom-strengthening umbrella legs  104  respectively are for:
       Strengthening flower-container-and-umbrella-base bottom  103   a ; and   Stabilizing umbrella-pole-receiver base  115  and umbrella-pole receiver  112 ;   Functioning (together with umbrella-pole-receiver base  115  and umbrella-pole receiver  112 ) as an umbrella stand.   
       5) Base-connecting bottom dome  105  is for:
       Supporting umbrella-pole-receiver base  115 .   
       6) Four base-connecting bottom holes  106  respectively are for:
       Inserting base screws  117  therethrough.   
       7) Four internally-threaded base-connecting bottom towers  107  respectively are for:
       Supporting base-connecting bottom dome  105 .   
       8) Water-drainage bottom holes  108  respectively are for:
       Draining excess water from rollable clawed-foot flower-container-and-umbrella-stand system  101 .   
       9) Two wheel-hiding wells  109  respectively are for:
       Housing and concealing two wheel and axle systems  122 .   
       10) Two anti-rolling feet  110   a  respectively are for:
       Providing stability to rollable clawed-foot flower-container-and-umbrella-stand system  101 .   
       Four anti-rolling claws  110   b  respectively are for:
       Digging into the ground when rollable clawed-foot flower-container-and-umbrella-stand system  101  sits on a slope or is pushed
           in the directions of arrows  136   a  and  136   b  ( FIG. 17 ),   to lock rollable clawed-foot flower-container-and-umbrella-stand system  101  in place to prevent it from moving.   
           
       11) Rollable adjustable-umbrella-pole-receiver system  111  is for performing the combined functions of its components.   12) Umbrella-pole receiver  112  is for:
       Receiving an umbrella pole   Functioning (together with four bottom-strengthening umbrella legs  104  and umbrella-pole-receiver base  115 ) as an umbrella stand.   
       13) Threaded knob-screw hole  113  is for:
       Screwing pole-locking knob-screw  114  therethrough.   
       14) Pole-locking knob-screw  114  is for:
       Locking an umbrella pole inside umbrella-pole receiver  112 .   
       15) Umbrella-pole-receiver base  115  is for:
       Attaching umbrella-pole receiver  112  to flower-container-and-umbrella-base bottom  103   a  and four bottom-strengthening umbrella legs  104 .   
       16) Four threaded base holes  116  respectively are for:
       Screwing four base screws  117  therethrough.   
       17) Four base screws  117  respectively are for:   
 
         [0541]    Locking umbrella-pole-receiver base  115  to flower-container-and-umbrella-base bottom  103   a.  
   18) Four base-screw washers  118  respectively are for:
       Being slid on four base screws  117 .   
       19) Rollable receiver-diameter-adjusting automatically-umbrella-pole-centering spring-bracket system  119  is for performing the combined functions of its components.   20) Adjustable U-shaped spring clamp  120  is for:
       Springably adapting to multiple umbrella poles of different diameters,
           in the directions of arrow  137   a      ( FIG. 18A ); and   
           Springably clamping multiple umbrella poles of different diameters.   
       21) Fixed J-shaped automatically-umbrella-pole-centering spring clamp  121  is for:
       Automatically and springably centering multiple umbrella poles of different diameters;   Springably adapting to multiple umbrella poles of different diameters,
           in the directions of arrow  137   b      ( FIG. 18B ); and   
           Springably clamping multiple umbrella poles of different diameters.   
       22) Two wheel and axle systems  122  respectively are for performing the combined functions of its components.   23) Threaded wheel axle  123   a  is for:
       Rotatably attaching flower-container-and-umbrella-base wheel  126   a  to one of two wheel-hiding wells  109 .   
       Axle washer  123   b  is for:
       Being slid on threaded wheel axle  123   a.      
       Axle nut  123   c  is for:
       Securing threaded wheel axle  123   a  to one of two wheel-hiding wells  109 .   
       24) Inner axle spacer  124  is for:
       Preventing flower-container-and-umbrella-base wheel  126   a  from touching one of two wheel-hiding wells  109 .   
       25) Outer axle spacer  125  is for:
       Preventing flower-container-and-umbrella-base wheel  126   a  from sliding away from one of two wheel-hiding wells  109 .   
       26) Flower-container-and-umbrella-base wheel  126   a  is for:
       Providing mobility to the unique rollable five-device-in-one system.   
       Wheel-spacer-locking circular ridge  126   b  is for:
       Centering flower-container-and-umbrella-base wheel  126   a  between inner axle spacer  124  and outer axle spacer  125 .   
       27) Rollable water-reservoir-and-water-regulating irrigation system  127  is for performing the combined functions of its components.   28) Tubular water reservoir  128  is for:
       Storing water for irrigation;   Spirally and evenly distributing water to spirally-disposed irrigation tubes  130 ;   Spirally and evenly distributing water to multiple soil areas inside rollable clawed-foot flower-container-and-umbrella-stand system  101 
           to keep water in rollable clawed-foot flower-container-and-umbrella-stand system  101  longer to allow multiple plan roots in multiple soil areas to absorb more water;   
           Spirally and evenly distributing water to multiple soil layers inside rollable clawed-foot flower-container-and-umbrella-stand system  101 
           to keep water in rollable clawed-foot flower-container-and-umbrella-stand system  101  longer to allow multiple plan roots in multiple soil layers to absorb more water;   
           Regulating the spiral distributions of water
           to keep water in rollable clawed-foot flower-container-and-umbrella-stand system  101  longer to allow multiple plan roots in multiple soil areas to absorb more water; and   
           Regulating the spiral distributions of water
           to keep water in rollable clawed-foot flower-container-and-umbrella-stand system  101  longer to allow multiple plan roots in multiple soil layers to absorb more water.   
           
       29) Water-distributing holes  129  respectively are for:
       Spirally and evenly distributing water to spirally-disposed irrigation tubes  130  and soil,
           in the directions of arrows  138   a      ( FIG. 19 );   
           Spirally and evenly distributing water to multiple soil areas inside rollable clawed-foot flower-container-and-umbrella-stand system  101 ,
           in the directions of arrows  138   a      ( FIG. 19 )   to keep water in rollable clawed-foot flower-container-and-umbrella-stand system  101  longer to allow multiple plan roots in multiple soil areas to absorb more water;   
           Spirally and evenly distributing water to multiple soil layers inside rollable clawed-foot flower-container-and-umbrella-stand system  101 
           in the directions of arrows  138   a      ( FIG. 19 )   to keep water in rollable clawed-foot flower-container-and-umbrella-stand system  101  longer to allow multiple plan roots in multiple soil layers to absorb more water;   
           Regulating the spiral distributions of water
           to keep water in rollable clawed-foot flower-container-and-umbrella-stand system  101  longer to allow multiple plan roots in multiple soil areas to absorb more water; and   
           Regulating the spiral distributions of water
           to keep water in rollable clawed-foot flower-container-and-umbrella-stand system  101  longer to allow multiple plan roots in multiple soil layers to absorb more water.   
           
       30) Spirally-disposed irrigation tubes  130  respectively are for:
       Spirally and evenly distributing water to multiple soil areas inside rollable clawed-foot flower-container-and-umbrella-stand system  101 ,
           in the directions of arrows  138   b ,  138   c ,  138   d , and  138   e      ( FIG. 19 ),   to keep water in rollable clawed-foot flower-container-and-umbrella-stand system  101  longer to allow multiple plan roots in multiple soil areas to absorb more water;   
           Spirally and evenly distributing water to multiple soil layers inside rollable clawed-foot flower-container-and-umbrella-stand system  101 ,
           in the directions of arrows  138   b,    138   c,    138   d , and  138   e      ( FIG. 19 ),   to keep water in rollable clawed-foot flower-container-and-umbrella-stand system  101  longer to allow multiple plan roots in multiple soil layers to absorb more water;   
           Regulating the spiral distributions of water
           to keep water in rollable clawed-foot flower-container-and-umbrella-stand system  101  longer to allow multiple plan roots in multiple soil areas to absorb more water;   
           Regulating the spiral distributions of water
           to keep water in rollable clawed-foot flower-container-and-umbrella-stand system  101  longer to allow multiple plan roots in multiple soil layers to absorb more water.   
           Expanding the travel areas of water
           to distribute water to multiple plan roots; and   
           Lengthening the travel distances of water
           to distribute water to multiple plan roots.   
           
       31) Irrigation-tube holes  131  respectively are for:
       Spirally and evenly distributing water to multiple soil areas inside rollable clawed-foot flower-container-and-umbrella-stand system  101 ,
           in the directions of arrows  138   b ,  138   c ,  138   d , and  138   e  ( FIG. 19 )   to keep water in rollable clawed-foot flower-container-and-umbrella-stand system  101  longer to allow multiple plan roots in multiple soil areas to absorb more water;   
           Spirally and evenly distributing water to multiple soil layers inside rollable clawed-foot flower-container-and-umbrella-stand system  101 ,
           in the directions of arrows  138   b ,  138   c ,  138   d , and  138   e      ( FIG. 19 )   to keep water in rollable clawed-foot flower-container-and-umbrella-stand system  101  longer to allow multiple plan roots in multiple soil layers to absorb more water;   
           Regulating the spiral distributions of water
           to keep water in rollable clawed-foot flower-container-and-umbrella-stand system  101  longer to allow multiple plan roots in multiple soil areas to absorb more water; and   
           Regulating the spiral distributions of water
           to keep water in rollable clawed-foot flower-container-and-umbrella-stand system  101  longer to allow multiple plan roots in multiple soil layers to absorb more water.   
           
       32) Water-regulating foam cylinders  132  respectively are for:
       Spirally and evenly absorbing and storing water inside spirally-disposed irrigation tubes  130  in multiple soil areas;   Spirally and evenly absorbing and storing water inside spirally-disposed irrigation tubes  130  in multiple soil layers;   Gradually, spirally, and evenly distributing water in multiple soil areas,
           in the directions of arrows  138   b ,  138   c ,  138   d , and  138   e      ( FIG. 19 ),   to irrigate multiple plan roots;   
           Gradually, spirally, and evenly distributing water in multiple soil layers,
           in the directions of arrows  138   b ,  138   c ,  138   d , and  138   e      ( FIG. 19 ),   to irrigate multiple plan roots;   
           Regulating the spiral distributions of water
           to keep water in rollable clawed-foot flower-container-and-umbrella-stand system  101  longer to allow multiple plan roots in multiple soil areas to absorb more water;   
           Regulating the spiral distributions of water
           to keep water in rollable clawed-foot flower-container-and-umbrella-stand system  101  longer to allow multiple plan roots in multiple soil layers to absorb more water.   
           Expanding the travel areas of water
           to distribute water to multiple plan roots; and   
           Lengthening the travel distances of water
           to distribute water to multiple plan roots.   
           
       33) Rollable water-circulating system  133  is for performing the combined functions of its components.   34) Spirally-disposed spirally-water-circulating slides  134  respectively are for:
       Spirally and evenly circulating water to multiple soil areas inside rollable clawed-foot flower-container-and-umbrella-stand system  101 ,
           in the directions of arrows  139   a ,  139   b ,  139   c , and  139   d      ( FIG. 20 )   to keep water in rollable clawed-foot flower-container-and-umbrella-stand system  101  longer to allow multiple plan roots in multiple soil areas to absorb more water;   
           Spirally and evenly circulating water to multiple soil layers inside rollable clawed-foot flower-container-and-umbrella-stand system  101 
           to keep water in rollable clawed-foot flower-container-and-umbrella-stand system  101  longer to allow multiple plan roots in multiple soil layers to absorb more water;   
           Regulating the spiral distributions of water
           to keep water in rollable clawed-foot flower-container-and-umbrella-stand system  101  longer to allow multiple plan roots in multiple soil areas to absorb more water;   
           Regulating the spiral distributions of water
           to keep water in rollable clawed-foot flower-container-and-umbrella-stand system  101  longer to allow multiple plan roots in multiple soil layers to absorb more water.   
           Expanding the travel areas of water
           to distribute water to multiple plan roots; and   
           Lengthening the travel distances of water
           to distribute water to multiple plan roots before draining water,   in the directions of arrows  140   a ,  140   b , and  140   c      ( FIG. 19 ).   
           
       
 
         [0665]    Variation 
         [0666]    Any component of the unique rollable five-device-in-one system can have any shape and size. Any component of the unique rollable five-device-in-one system can be made of any material or any combination of any materials. Any component of the unique rollable five-device-in-one system can be made of any flexible, semi-flexible, bendable, semi-bendable, rigid, or semi-rigid material(s). For example,  FIGS. 21 and 22  illustrate equivalent variations of the unique rollable five-device-in-one system. Each of equivalent variations can be built with or without base-connecting bottom dome  105 , with or without two anti-rolling feet  110   a , with or without four anti-rolling claws  110   b , with or without four water-regulating channels  103   b , or at least two of the above. For another example, four water-regulating channels  103   b  can be thermoformed on flower-container-and-umbrella-base bottom  103   a . For another example, the unique rollable five-device-in-one system can contain soil, sand, the like, or the equivalent. The unique rollable five-device-in-one system can be made of metal, plastic, or composite. The unique rollable five-device-in-one system can have a round, square, rectangular, hexagonal, or any geometric shape. 
       MAJOR ADVANTAGES OF THE INVENTION 
       [0667]    The present invention substantially departs from the conventional concepts and designs of the prior art. In doing so, the present invention provides a unique rollable five-device-in-one system (having: a) Rollable claw-foot flower container, b) Rollable adjustable-receiver umbrella stand, c) Rollable water reservoir, d) Rollable water-regulating irrigation system, and e) Rollable water-circulating system) having many unique and significant features, functions, and advantages, which overcome all the disadvantages of the prior art, as follows:
   1) It is an object of the new invention to provide
       a unique rollable five-device-in-one system, having   rollable spirally-disposed spirally-water-circulating slides.   Therefore, the unique rollable five-device-in-one system:
           a) Can create spiral traction for soil to stay on,
               to prevent the soil from being washed downwards   ( FIGS. 1, 4, 5, 15, and 20 );   
               b) Can create spiral traction for soil to stay on,
               to prevent the soil from being washed away   ( FIGS. 1, 4, 5, 15, and 20 );   
               c) Can create spiral traction for soil to stay on,
               to allow the soil to gradually move downwards spirally   ( FIGS. 1, 4, 5, 15, and 20 );   
               d) Can create spiral traction for soil to stay on,
               to allow the soil to gradually move away spirally   ( FIGS. 1, 4, 5, 15, and 20 );   
               
           
       2) It is another object of the new invention to provide
       a unique rollable five-device-in-one system, having   rollable spirally-disposed spirally-water-circulating slides.   Therefore, the unique rollable five-device-in-one system:
           a) Can spirally redirect the moisture,
               to be distributed over a larger surface area   ( FIGS. 1, 4, 5, 15, and 20 );   
               b) Can provide the moisture sufficient opportunity to osmotically distribute throughout soil within the container,
               to evenly moisten the soil from top to bottom   ( FIGS. 1, 4, 5, 15, and 20 );   
               c) Can slowly disperse moisture,
               to reduce the gravitational influence affecting the moisture   ( FIGS. 1, 4, 5, 15, and 20 );   
               d) Can utilize the moisture more effectively and efficiently,
               to require less water, thereby lowering water costs   ( FIGS. 1, 4, 5, 15, and 20 ); and   
               e) Can utilize the moisture more effectively and efficiently,
               to require less water, thereby being more environmentally responsible   ( FIGS. 1, 4, 5, 15, and 20 ).   
               
           
       3) It is still another object of the new invention to provide
       a unique rollable five-device-in-one system, having   rollable four water-regulating channels.   Therefore, the unique rollable five-device-in-one system:
           a) Can force water collection at flower-container-and-umbrella-base bottom,
               to stimulate absorption into soil   ( FIGS. 3, and 16 );   
               b) Can act as a raceway to spread collected water through flower-container-and-umbrella-base bottom,
               to evenly distribute moisture to plant root system   ( FIGS. 3, and 16 );   
               c) Can provide a network of cavities in which the plant root system will cluster and nest,
               to enable root system to more affectively metabolize nutrients   ( FIGS. 3, and 16 ); and   
               d) Can furnish a network of cavities in which the plant root system will cluster and nest,
               to provide greater surface area and therefore greater stability for the root system   ( FIGS. 3, and 16 ).   
               
           
       4) It is a further object of the new invention to provide
       a unique rollable five-device-in-one system, having   two wheel hiding wells.   Therefore, the unique rollable five-device-in-one system:
           a) Can enable larger circumference wheels, while axel height being vertically higher than flower-container-and-umbrella-base bottom,
               to result in a lower center of gravity   ( FIGS. 1, 2, 3, 4, 5   11 , and  12 );   
               b) Can enable larger circumference wheels, while axel height being vertically higher than flower-container-and-umbrella-base bottom,
               to result in an easier and more convenient movement of rollable clawed-foot flower-container-and-umbrella-stand system   ( FIGS. 1, 2, 3, 4, 5   11 , and  12 );   
               c) Can provide larger circumference wheels, while axel height being vertically higher than flower-container-and-umbrella-base bottom,
               to contain and safely, rollably transport a relatively heavier umbrella, flag pole, artificial tree, sign post, etc.   ( FIGS. 1, 2, 3, 4, 5   11 , and  12 ); and   
               d) Can provide larger circumference wheels, while axel height being vertically higher than flower-container-and-umbrella-base bottom,
               to contain and safely, rollably transport a relatively taller umbrella, flag pole, artificial tree, sign post, etc.   ( FIGS. 1, 2, 3, 4, 5   11 , and  12 ).   
               
           
       5) It is an even further object of the new invention to provide
       a unique rollable five-device-in-one system, having   a rollable receiver-diameter-adjusting automatically-umbrella-pole-center spring-bracket system.   Therefore, the unique rollable five-device-in-one system:   
       
 
         [0739]    a) Can provide a convenient self-centering opposing-spring clamp,
               to accommodate umbrella poles, flag poles, artificial trees, sign posts, etc. and self-center when inserted   ( FIGS. 6, 7A, 7B, 9A, 9B, 10A, 10B, 13, 17, 18A and 18B );       b) Can provide a convenient diameter-adjusting opposing-spring clamp,
               to secure a large range of diameters of umbrella poles, flag poles, artificial trees, sign posts, etc.   
                       
 
       (FIGS.  6 ,  7 A,  7 B,  9 A,  9 B,  10 A,  10 B,  13 ,  17 ,  18 A and  18 B); 
       [0000]    
       
         
           
             
               
                 c) Can provide a multi-functional opposing-spring pole clamp,
               to adjust to a variety of different diameters without requiring any tools   ( FIGS. 6, 7A, 7B, 9A, 9B, 10A, 10B, 13, 17, 18A and 18B ); and   
             
                 d) Can provide a self-storage system for auxiliary components,
               to instantly store an adjustable u-shaped spring clamp and a fixed J-shaped automatically-umbrella-pole-centering spring clamp, when not in use   ( FIGS. 6, 7A, 7B, 9A, 9B, 10A, 10B, 13, 17, 18A and 18B ).   
             
               
             
           
         
         6) It is still another object of the new invention to provide
       a unique rollable five-device-in-one system, having   a rollable water-reservoir-and-water-regulating irrigation system.   Therefore, the unique rollable five-device-in-one system:
           a) Can operate independently and is self-contained,
               to be used in locations where there is no water spigot available   ( FIGS. 8, 9A, 9B, 10A, 10B, 13, 14, 15, and 19 );   
               b) Can operate independently without a hose leading to rollable clawed-foot flower-container-and-umbrella-stand system,
               to be used in public places without posing a danger to pedestrians, from a hose being an obstacle and a tripping hazard, such as a restaurant patio, a sidewalk, a park, etc.   ( FIGS. 8, 9A, 9B, 10A, 10B, 13, 14, 15, and 19 );   
               c) Can function discretely while hidden by surrounding plants,
               to be aesthetically pleasing while displayed in public areas   ( FIGS. 8, 9A, 9B, 10A, 10B, 13, 14, 15, and 19 ); and   
               d) Can fully function discretely without a water hose attached,
               to be aesthetically pleasing while displayed in public areas   ( FIGS. 8, 9A, 9B, 10A, 10B, 13, 14, 15, and 19 ).   
               
           
     
         7) It is yet another object of the new invention to provide
       a unique rollable five-device-in-one system, having   a tubular water reservoir, spirally-disposed irrigation tubes, and water-regulating foam cylinder.   Therefore, the unique rollable five-device-in-one system:
           a) Can distribute moisture to soil within a flower-container-and-umbrella-base bottom,
               to evenly moisten the soil from side to side   ( FIGS. 14, 15, and 19 );   
               b) Can distribute moisture to soil within a flower-container-and-umbrella-base bottom,
               to evenly moisten the soil from top to bottom   ( FIGS. 14, 15, and 19 );   
               c) Can sequentially distribute water in a spiral pattern within a flower-container-and-umbrella-base bottom,
               to evenly moisten the soil from top to bottom   ( FIGS. 14, 15, and 19 );   
               d) Can sequentially distribute water in a spiral pattern within a flower-container-and-umbrella-base bottom,
               to evenly moisten the soil from side to side   ( FIGS. 14, 15, and 19 ); and   
               e) Can provide a structure of perforated tubes in which the plant root system will attach,
               to enable root system to bind with soil and container more affectively   ( FIGS. 14, 15, and 19 ).   
               
           
     
         8) It is still yet an even further object of the new invention to provide
       a unique rollable five-device-in-one system, having   two anti-rolling feet and four anti-rolling claws.   Therefore, the unique rollable five-device-in-one system:
           a) Can provide unique self-adjusting, pliable, multi-angled-surface friction blocks,
               to resist movement thereby stabilizing rollable clawed-foot flower-container-and-umbrella-stand system when standing level on a concrete surface   ( FIGS. 2, 3, 4, 5, 12, 13, and 17 );   
               b) Can provide unique self-adjusting, pliable, multi-angled-surface friction blocks,
               to resist movement thereby stabilizing rollable clawed-foot flower-container-and-umbrella-stand system when standing level on a gravel surface   ( FIGS. 2, 3, 4, 5, 12, 13, and 17 );   
               c) Can provide unique self-adjusting, pliable, multi-angled-surface friction blocks,
               to resist movement thereby stabilizing rollable clawed-foot flower-container-and-umbrella-stand system when standing level on a sandy surface   ( FIGS. 2, 3, 4, 5, 12, 13, and 17 );   
               d) Can provide unique self-adjusting, pliable, multi-angled-surface friction blocks,
               to resist movement thereby stabilizing rollable clawed-foot flower-container-and-umbrella-stand system when standing level on a tile surface   ( FIGS. 2, 3, 4, 5, 12, 13, and 17 ); and   
               e) Can provide unique self-adjusting, pliable, multi-angled-surface friction blocks,
               to resist movement thereby stabilizing rollable clawed-foot flower-container-and-umbrella-stand system when standing level on a slick surface   ( FIGS. 2, 3, 4, 5, 12, 13, and 17 ).