Abstract:
Sanitizing Container and Display is an assembly for maintaining and displaying potted plants, cut flowers and flower arrangements in hospitals, home or other environments where immunocompromised patients or those who suffer allergic disease live. This closed plant-holding container is provided with a air filtered ventilation system that establishes adequate air circulation to the plants while filters the chamber out-flow air and clear out any potential harmful microbe, dust, allergen or fumes from chamber out-flow air that would be dangerous for those patients who lacks normal immune protection or are allergic to plant and flower allergens. This enclosed chamber also is provided with an artificial light source for illumination of the plants or flowers. The object of this invention was to create a completely sealed chamber that makes it possible for immunsuppressed patients or those with sever allergic disease to enjoy the loveliness of these natural beauties in their living environment.

Description:
CROSS-REFERENCE TO RELATED APPLICATION  
       [0001]    
       
         
               
               
               
               
               
             
           
               
                   
               
               
                   
               
               
                 Patent 
                 Issued 
                 Inventor(s) 
                 Applicant(s) 
                 Title 
               
               
                   
               
             
             
               
                 U.S. Pat. No. 4597550 
                 July 1986 
                 Rice 
                 None 
                 Potted plant display stand 
               
               
                 U.S. Pat. No. 3973356 
                 October 1976 
                 Schacht 
                 None 
                 Flower caddy 
               
               
                 U.S. Pat. No. 5241781 
                 September 1993 
                 Malczyk 
                 None 
                 House plant hospital 
               
               
                 U.S. Pat. No. 4858381 
                 October 1989 
                 Walton 
                 Smithers-Oasis 
                 Floral container and water 
               
               
                   
                   
                   
                 Co. 
                 reservoir 
               
               
                 U.S. Pat. No. 4543744 
                 October 1985 
                 Royster 
                 None 
                 Plant growing chamber 
               
               
                 U.S. Pat. No. 4850135 
                 July 1989 
                 DeMarco 
                 None 
                 Apparatus for stimulating plant 
               
               
                   
                   
                   
                   
                 growth under controlled 
               
               
                   
                   
                   
                   
                 condition 
               
               
                 U.S. Pat. No. 4250666 
                 February 1981 
                 Rakestraw 
                 None 
                 Supporting structure for plants 
               
               
                 U.S. Pat. No. 4198783 
                 April 1980 
                 Leroux 
                 None 
                 Hydroponic apparatus 
               
               
                 20020136669 
                 September 2002 
                 Marques 
                 None 
                 Air filtering apparatus and 
               
               
                   
                   
                   
                   
                 method for using same 
               
               
                   
               
             
          
         
       
     
       STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT  
       [0002]     Not applicable.  
       REFERENCE TO MICROFICHE APPENDIX  
       [0003]     Not applicable  
       FIELD OF INVENTION  
       [0004]     The present invention relates to an enclosed apparatus for maintaining and displaying potted plants, cut flowers and flower arrangements in hospitals, home or other environments where immunocompromised or allergic patients live. This closed plant-holding container is provided with a ventilation system that establishes adequate air circulation to the plant while outflow air is filtered to clear any potential harmful microbes, allergens (small particles that cause allergy) or chemical fumes that would be dangerous for those patients who lack normal immune protection or are allergic to plant or flower allergens. This enclosed chamber also is provided with an artificial light source for illumination of the enclosed plants or flowers.  
       BACKGROUND OF INVENTION  
       [0005]     The world-wide rising number of severely immunocompromised patients and those who suffer allergic diseases has made the control and prevention of infections and allergic disorders a critical issue. There are several microbes and allergens in the natural habitat of human, which are not harmful in healthy individual but are potentially dangerous to that patient who lack normal immune protection or suffer from severe allergic disorders, respectively. Opportunistic infections are those infectious agents that could cause infection in those who lack normal immune system. Fungal infections and particularly Aspergillosis, one of important member of this group of infectious agents could cause life-threatening infection among immunosuppressed patients and is thought to be primarily airborne and can be transmitted from fresh cut flower or potted plants. In this regard the Center of Disease Control (CDC) in the United States of America set guidelines for preventing opportunistic infection in transplant wards and those medical floor that admit patients with severely depressed immune system. These guidelines include evidence based recommendations regarding ventilation, plants and all other health related issues to reduce the number and severity of infections in those immunocompromised patients. According to these guidelines, “Experts strongly recommend that plants and dried or fresh flowers not be allowed in hospital rooms of transplant patient or those who are candidate for this procedure. This is because Aspergillus specious have been isolated from soil of potted plants, the surface of dried flower arrangements, and fresh flowers” (Reference to CDC guidelines; Emerging Infectious Disease, by Dykewicz A, Hospital infection control in hematopoietic stem cell transplant recipients, Vol 7, No 2, March-April 2001).  
         [0006]     Bringing fresh cut flowers, potted plants or flower arrangement at bedside of an ill person has always been a pleasant tradition and it is not surprising that floral business in or near hospitals is in demand. Bringing flowers and potted plants by visitors for an ill person is not only a symbol of care and concern for the loved one, it also helps the patient to cope better with physical ailment by release of emotional stress and decrease in psychological tensions resulted from closed hospital environment. By creating more natural looking environment for patient who has to spend a lot of his/her time in this closed surroundings, one might be able to decrease the anxiety, fear, depression and other emotional ailment that are associated with physical illness.  
         [0007]     Unfortunately, the limitation that mentioned above result in deprivation of many chronically ill patients to enjoy this very privilege and thus, they are not able to keep and enjoy flowers and potted plants in their environments. This limitation applies to both their temporary environment such as hospital and their permanent residence environment such as home or nursing home.  
         [0008]     The object of this invention is to create a completely sealed chamber that would separate potted plants, cut flowers or flower arrangements from the surrounding environment and make it possible for immunosuppressed patients or those who suffer sever allergic disorders to enjoy the loveliness of these natural beauties in their living environment. Using an electrical air pump, plurality of tubing, air filter assembly that includes set of air filter pads and a check valve, the outflow air from the chamber is cleared out of any potential harmful airborne particles including microbes, allergens or fumes that might be harmful to patients and establishing adequate ventilation for animal respiration inside the chamber. This closed chamber is made totally or in part from transparent material including glass, acrylic or other artifact that makes it possible to see the inside of the chamber. Mean time, using mirror, and other decorative artifact could make this display more attractive for hospital environment and/ or patients&#39; house.  
         [0009]     As is now apparent, there are many different types of illuminated containers and the like for containing, displaying and stimulating plant growth. Neither of these devices has been made for this specific reason that mentioned above. None the less, prior art in this field are addressed below. These prior arts are mainly patents that deal with providing a closed environment for displaying reasons or improving and stimulating plant growth. These patents include:  
         [0010]     1. “Potted plant display stand” U.S. Pat. No. 4,597,550 by Rice Sr. Q in 1986 which proposed a display stand for displaying potted plants at varying angle.  
         [0011]     2. “Flower caddy” U.S. Pat. No. 3,973,356 which proposed by Schacht LL in 1993 which could be used for the display and delivery of cut flowers and house plants.  
         [0012]     3. “House plant hospital” U.S. Pat. No. 5,241,781 by Malczyk TR, in August 1991 which is a closed illuminated container with fluid and nutrient spraying capabilities to provide a suitable environment for potted plant growth.  
         [0013]     4. “Floral Container and water reservoir” U.S. Pat. No. 4,858,381 was proposed by Walton et al in 1989 who proposed a closed reservoir for cut flower.  
         [0014]     5. “Plant growing chamber” U.S. Pat. No. 4,543,744 was another patent proposed by Royster in 1985 for plant growing chamber.  
         [0015]     6. “Apparatus for stimulating plant growth under controlled condition” U.S. Pat. No. 4,850,135 proposed by DeMarco in 1989.  
         [0016]     7. “Supporting structure for plants” U.S. Pat. No. 4,250,666 was patented by Rakestraw in 1981 which was a device for gardening and decorative purposes.  
         [0017]     8. “Hydroponic apparatus” U.S. Pat. No. 4,198,783 proposed by Leroux in 1980 for control of plants nutrient and temperature.  
         [0018]     9. “Air filtering apparatus and method for using same” 20020136669 was an interesting patent application filed by Marques in 2002 which proposed a plant container to be used as an air filter for cleaning the surrounding air in a closed environment.  
         [0019]     All of these patents, incorporated herein by reference, and others, disclose prior art apparatus for containing and displaying potted plants and flowers.  
       BRIEF SUMMARY OF THE INVENTION  
       [0020]     The present invention is a further improvement in potted plant containers and displays that make it possible to maintain and display potted plants, cut flowers and flower arrangements in indwelling environment of immunsuppressed patients or those with sever allergic disease without exposing them to dangerous airborne microbes, allergens or fumes that are associated with potted plants and flowers.  
         [0021]     To reach this, the present invention comprises a closed glass container in which a potted plant, cut flower or flower arrangement may be removably positioned. The side walls of the container are made of transparent artifact including glass, acrylic or combination of any transparent materials. Side walls could also be made of combination of transparent materials and mirror, wood, metal or other decorative artifacts. This makes it possible to see the enclosed potted plants and cut flowers that are positioned inside of the container through removable lid. The contour of the container can be any potential three-dimensional shape including but not limited to hexagonal prism, octagonal prism, triangular prism, cube, rectangular prism, cylinder, dome, sphere, cone, pyramid, diamond, mixed cone &amp; cylinder, curved cylinder or mixture of these shapes. The lid is made in part by glass to make it possible to illuminate inside of the container through an external light source.  
         [0022]     The main object of this container is to isolate the plants environment from its surrounding. Therefore, the container is completely air-tight sealed when the lid is closed and ventilation of the enclosed potted plants or flowers inside the chamber is established only through a ventilating system comprising of an air pump assembly, tubing system, air filter assembly and check valve. This ventilating system permits the exchange of air between inside of the chamber and out side of chamber. This ventilating system permit the chamber outflow air to pass through plurality of special air filter pads inside of air filter assembly, which trap any possible airborne particles including fingal spores, microbes, allergens, chemical fumes and other small particles. 
     
    
     BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING  
       [0023]     Drawing sheet  1 ,  FIG. 1  is a three dimensional view of housing of “Sanitizing Container and Display”. This figure shows a hexagonal prism format of this hosing. This is one of the potential formats of “Sanitizing Container and Display”.  
         [0024]     Drawing sheet  2 ,  FIG. 2  is another three dimensional view of hexagonal prism format of housing of “Sanitizing Container and Display”.  
         [0025]     Drawing sheet  3 ,  FIG. 3  is a three dimensional view of another format of housing of “Sanitizing Container and Display”. This figure shows a cubical format of this housing.  
         [0026]     Drawing sheet  4 ,  FIG. 4  is a three dimensional view of another format of housing of “Sanitizing Container and Display”. This figure shows a rectangular prism format of this housing.  
         [0027]     Drawing sheet  5 ,  FIG. 5  is a three dimensional view of another format of housing of “Sanitizing Container and Display”. This figure shows a cylindrical format of this housing.  
         [0028]     Drawing sheet  6 ,  FIG. 6  is a three dimensional view of another format of housing of “Sanitizing Container and Display”. This figure shows a dome format of this housing.  
         [0029]     Drawing sheet  7 ,  FIG. 7  is a three dimensional view of another format of housing of “Sanitizing Container and Display”. This figure shows a triangular prism format of this housing.  
         [0030]     Drawing sheet  8 ,  FIG. 8  is a three dimensional view of another format of housing of “Sanitizing Container and Display”. This figure shows a spherical format of this housing.  
         [0031]     Drawing sheet  9 ,  FIG. 9  is a three dimensional view of another format of housing of “Sanitizing Container and Display”. This figure shows a pyramidal format of this housing.  
         [0032]     Drawing sheet  10 ,  FIG. 10  is a three dimensional view of another format of housing of “Sanitizing Container and Display”. This figure shows a mixed cylindrical and conical format of this housing.  
         [0033]     Drawing sheet  11 ,  FIG. 11  is a three dimensional view of another format of housing of “Sanitizing Container and Display”. This figure shows a conical format of this housing.  
         [0034]     Drawing sheet  12 ,  FIG. 12  is a three dimensional view of another format of housing of “Sanitizing Container and Display”. This figure shows a curved cylindrical format of this housing.  
         [0035]     Drawing sheet  13 ,  FIG. 13  is an isometric three dimensional view of air pump that ventilate the housing of “Sanitizing Container and Display”.  
         [0036]     Drawing sheet  14 ,  FIG. 14  is a another isometric view of air pump, tubing and air filter assembly that ventilate the housing of “Sanitizing Container and Display”.  
         [0037]     Drawing sheet  15 ,  FIGS. 15A-15F  show multiple views of the air pump, tubing and air filter assembly that ventilate the housing of “Sanitizing Container and Display”.  
         [0038]      FIG. 15A  is a bottom view of the air pump, tubing and air filter assembly.  
         [0039]      FIG. 15B  is a right side view of the air pump, tubing and air filter assembly.  
         [0040]      FIG. 15C  is a top view of the air pump, tubing and air filter assembly.  
         [0041]      FIG. 15D  is an isometric view of the air pump, tubing and air filter assembly.  
         [0042]      FIG. 15E  is a front view of the air pump, tubing and air filter assembly.  
         [0043]      FIG. 15F  is a back view of the air pump, tubing and air filter assembly.  
         [0044]     Drawing sheet  16 ,  FIG. 16  is a three dimensional view of air filter assembly including multiple air filters that are used to ventilate the housing of “Sanitizing Container and Display”.  
         [0045]     Drawing sheet  17 ,  FIGS. 17A-17D  show isometric and sectional views of air filter assembly including air filters that is used to ventilate the housing of “Sanitizing Container and Display”.  
         [0046]      FIG. 17A  is an isometric view of the air filter assembly.  
         [0047]      FIG. 17B  is a longitudinal sectional plan of the air filter assembly.  
         [0048]     Drawing sheet  18 ,  FIG. 18  is a three dimensional view of air check valve assembly that is used to permit one way passage of air into the “Sanitizing Container and Display”.  
         [0049]     Drawing sheet  19 ,  FIGS. 19A-19D  show isometric and sectional views of air check valve assembly that is used to permit one way passage of air into the “Sanitizing Container and Display”.  
         [0050]      FIG. 19A  is an isometric view of the check valve assembly.  
         [0051]      FIG. 19B  is a longitudinal sectional plan of the check valve assembly.  
         [0052]     Drawing sheet  20 ,  FIG. 20  is a three dimensional view of lighting assembly that is used to illuminate the “Sanitizing Container and Display”.  
         [0053]      FIG. 20A  is a top view of the lighting assembly.  
         [0054]      FIG. 20B  is a cross sectional plan of the lighting assembly.  
         [0055]      FIG. 20C  is bottom view of the lighting assembly.  
         [0056]      FIG. 20D  is an isometric front view of the lighting assembly.  
         [0057]     Drawing sheet  21 ,  FIG. 21  is a three dimensional view of the removable lid of the “Sanitizing Container and Display”. This lid is removable and has been designed to make it possible to access inside the container to place and position potted plants, cut flowers and flower arrangements. Using hinges and latches, this lid can be tightly closed. A piece of glass in the middle portion of the lid let the fluorescent light and its cover assembly that are placed on lid illuminate the “Sanitizing Container and Display”.  
         [0058]     Drawing sheet  22 ,  FIG. 22  is a three dimensional view of the top of the “Sanitizing Container and Display”. This view shows the upper frame and the lid assembly. In addition it shows how hinges, latches, fluorescent light and its cover, air pump, air filter and check valve are all secured to the lid of “Sanitizing Container and Display”.  
         [0059]     Drawing sheet  23 ,  FIGS. 23A-231  show multiple views of the top of the “Sanitizing Container and Display”. This view shows different aspect of the upper frame and the lid. In addition it shows how different parts of the assembly that are secured to the lid.  
         [0060]      FIG. 23A  is an isometric view of the upper frame and lid assembly.  
         [0061]      FIG. 23B  is another isometric view of the upper frame and lid assembly.  
         [0062]      FIG. 23C  is a side view of the upper frame and lid assembly.  
         [0063]      FIG. 23D  is another isometric view of the upper frame and lid assembly.  
         [0064]      FIG. 23E  is another isometric view of the upper frame and lid assembly.  
         [0065]      FIG. 23F  is a top view of the upper frame and lid assembly.  
         [0066]      FIG. 23G  is another isometric view of the upper frame and lid assembly.  
         [0067]      FIG. 23H  is another isometric view of the upper frame and lid assembly.  
         [0068]      FIG. 23I  is another isometric view of the upper frame and lid assembly.  
         [0069]     Drawing sheet  24 ,  FIG. 24  is a three dimensional view of the top of the “Sanitizing Container and Display”. This view shows the upper frame and the lid in open position. In addition, it shows the latches, fluorescent light and its cover assembly, air pump, tubing connections and air filter assembly.  
         [0070]     Drawing sheet  25 ,  FIGS. 25A-25I  show multiple views of the top of the “Sanitizing Container and Display”. This view shows different aspect of the upper frame and the lid in open position. In addition it shows how different parts of the assembly that are secured to the lid.  
         [0071]      FIG. 25A  is a side view of the upper frame and lid assembly in open position.  
         [0072]      FIG. 25B  is an isometric view of the upper frame and lid assembly in open position.  
         [0073]      FIG. 25C  is another isometric view of the upper frame and lid assembly in open position.  
         [0074]      FIG. 25D  is a front view of the upper frame and lid assembly in open position.  
         [0075]      FIG. 25E  is a bottom view of the upper frame and lid assembly in open position.  
         [0076]      FIG. 25F  is another isometric view of the upper frame and lid assembly in open position.  
         [0077]      FIG. 25G  is another side view of the upper frame and lid assembly in open position.  
         [0078]      FIG. 25H  is another isometric view of the upper frame and lid assembly in open position.  
         [0079]      FIG. 25I  is another isometric view of the upper frame and lid assembly in open position. 
     
    
     DETAILED DESCRIPTION OF THE INVENTION  
       [0080]     In this respect, before explaining at least one embodiment of the invention in detail, it is to be understood that the invention is not limited in its application to the details of construction and to the arrangements of the components set forth in the following description or illustrated in the drawings. The invention is capable of other embodiments and of being practiced and carried out in various ways. Also, it is to be understood that the phraseology and terminology employed herein are for the purpose of description and should not be regarded as limiting.  
         [0000]     “Sanitizing Container and Display” is made up of several components:  
         [0081]     A—Housing 
        a. Housing structure: As it is depicted in  FIG. 1  (Drawing sheet  1 ), the housing is composed of a closed glass container  2 , which can be placed on a furniture stand  4 . The glass container embodiment could be made in any possible three dimensional shape including but not limited to hexagonal prism ( FIGS. 1-2 ), cube ( FIG. 3 ), Rectangular prism ( FIG. 4 ), cylinder ( FIG. 5 ), dome ( FIG. 6 ), triangular prism ( FIG. 7 ), sphere ( FIG. 8 ), pyramid ( FIG. 9 ), cone ( FIG. 11 ), diamond, octagonal prism, mixed conical and cylindrical ( FIG. 10 ), curved cylindrical ( FIG. 12 ) or mixture of these shapes. Depending on its shape the glass container is composed of one ( FIGS. 5, 6 ,  8 ,  10 ,  11 ,  12 ) or multiple glass walls ( FIGS. 1, 2 ,  3 ,  4 ,  7 ,  9 ). The housing has a removable lid which permits access to housing interior in order to place or position potted plants, cut flowers, vases, or flower arrangements. Based on shape of the housing the features are different, as detailed below: 
            i. Hexagonal prism housing: the hexagonal prism housing is composed of a glass container with hexagonal cross section. It has one frame on the top  1  and one frame on the bottom  3  and can be placed on a furniture stand  4 . The glass container embodiment is composed of six glass walls  2 , a hexagonal floor  5  and a removable hexagonal lid  9 . The walls  2  and floor  5  are glued to each other and together produce an air sealed closed environment when the lid  9  is closed. The removable lid  9  permits access to housing interior  6  in order to place or position potted plants, cut flowers, vases, or flower arrangements.     ii. Cubical housing: the cubical housing is composed of a glass container with square-shaped cross section, which has one frame on the on top  10  and one frame on the bottom  12  and can be placed on a furniture stand  13 . The glass container embodiment is composed of four glass walls  11 , a square-shaped floor  14  and a removable square-shaped lid  16 . The walls  11  and floor  14  are glued to each other and together produce an air sealed closed environment when the lid  16  is closed. The removable lid  16  permits access to housing interior  6 .     iii. Rectangular prism housing: the rectangular prism housing is composed of a glass container with rectangular cross section, which has one frame on the on top  20  and one frame on the bottom  22  and can be placed on a furniture stand  23 . The glass container embodiment is composed of four glass walls  21 , a rectangular floor  24  and a removable rectangular lid  25 . The walls  21  and floor  24  are glued to each other and together produce an air sealed closed environment when the lid  25  is closed. The removable lid  25  permits access to housing interior  6 .     iv. Cylindrical housing: the cylindrical housing is composed of a glass container with circular cross section, which has one frame on the top  31  and one frame on the bottom  33  and can be placed on a furniture stand  34 . The glass container embodiment is composed of a piece of cylindrical glass wall  32 , a circular floor  35  and a removable circular lid  30 . The cylindrical wall  32  and the circular floor  35  are glued to each other and together produce an air sealed closed environment when the lid  30  is closed. The removable lid  30  permits access to housing interior  6 .     v. Dome-shaped housing: the dome-shaped housing is composed of a closed glass container with circular cross section, which is placed on a circular floor  43  and has only one frame on the bottom  41  and can be placed on a furniture stand  42 . The glass container embodiment is composed of a piece of dome-shaped hollow glass  40  which is removable. The dome-shaped glass  40  fits tight on the circular floor  43  and bottom frame  41  and produces an air sealed closed environment. The removable dome-shaped glass  40  permits access to housing interior  6 .     vi. Triangular prism housing: the triangular prism housing is composed of a glass container with triangular cross section, which has one frame on the top  51  and one frame on the bottom  53  and can be placed on a furniture stand  54 . The glass container embodiment is composed of three glass walls  52 , a triangular floor  55  and a removable triangular lid  50 . The walls  52  and the triangular floor  55  are glued to each other and together produce an air sealed closed environment when the lid  50  is closed. The removable lid  50  permits access to housing interior  6 .     vii. Spherical housing: the spherical housing is composed of a closed glass container with circular cross section, which is placed on a circular floor  63  and has only one frame on the bottom  61  and can be placed on a furniture stand  62 . The glass container embodiment is composed of a piece of hollow spherical glass  60  which is removable. The spherical glass  60  fits tight on the circular floor  63  and bottom frame  61  produces an air sealed closed environment. The removable spherical glass  60  permits access to housing interior  6 .     viii. Pyramidal housing: the pyramidal housing is composed of a closed glass container with square-shaped cross section, which is placed on a square-shaped floor  73  and has one frame on the top  77  and one frame on the bottom  71  and can be placed on a furniture stand  72 . The glass container embodiment is composed of four glass walls  70 , glued together to form a pyramid, which is removable. The pyramidal glass embodiment  70  fits tight on square-shaped floor  73  and bottom frame  71  produces an air sealed closed environment. The removable pyramidal glass  70  permits access to housing interior  6 .     ix. Mixed conical and cylindrical housing: the mixed conical and cylindrical housing is composed of a glass container with circular cross section, which has one frame on the top  81  and one frame on the bottom  83  and can be placed on a furniture stand  84 . The glass container embodiment is composed of a piece of mixed conical and cylindrical glass wall  82  and a circular floor  85 , which are glued to each other and together produce an air sealed closed environment when the lid  80  is closed. The removable lid  80  permits access to housing interior  6 .     x. Conical housing: the conical housing is composed of a closed glass container with circular cross section, which is placed on a circular floor  93  and has one frame on the top  97  and one frame on the bottom  91  and can be placed on a furniture stand  92 . The glass container embodiment is composed of a piece of hollow conical glass  90  which is removable. The conical glass  90  fits tight on the circular floor  93  and bottom frame  91  and produces an air sealed closed environment. The removable conical glass  90  permits access to housing interior  6 .     xi. Curved cylindrical housing: the curved cylindrical housing is composed of a glass container with circular cross section, which has one frame on the top  1010  and one frame on the bottom  103  and can be placed on a furniture stand  104 . The glass container embodiment is composed of a piece of curved cylindrical glass wall  102 , a circular floor  105  and a removable circular lid  106 . The curved cylindrical wall  102  and the circular floor  105  are glued to each other and together produce an air sealed closed environment when the lid  106  is closed. The removable lid  106  permits access to housing interior  6 .    
            b. Housing floor: Housing floor is a surface in the bottom sides of the housing where the side walls are positioned. Depending on type of housing, this surface has different shape and could be either glued to the housing walls or be removably mounted to the walls. The detail of each housing floor is mentioned below: 
            i. Hexagonal prism housing: the floor  5  in the hexagonal prism housing ( FIGS. 1-2 ) is composed of a hexagonal surface, which could be made of glass, wood, plastic, metal or other material and is permanently glued to said bottom frame  3  and the bottom part of said six glass housing walls  2 . Inside of the housing  6 , the potted plants, cut flowers, vases, or flower arrangement could be removably placed on top of housing floor  5 .     ii. Cubical housing: the floor  14  in the cubical housing ( FIG. 3 ) is composed of a square shaped surface, which could be made of glass, wood, plastic, metal or other material and is permanently glued to said bottom frame  12  and the bottom part of said four glass housing walls  11 . Inside of the housing  6 , the potted plants, cut flowers, vases, or flower arrangement could be removably placed on top of housing floor  14 .     iii. Rectangular prism housing: the floor  24  in the rectangular prism housing ( FIG. 4 ) is composed of a rectangular surface, which could be made of glass, wood, plastic, metal or other material and is permanently glued to said bottom frame  22  and the bottom part of said four glass housing walls  21 . Inside of the housing  6 , the potted plants, cut flowers, vases, or flower arrangement could be removably placed on top of housing floor  24 .     iv. Cylindrical housing: the floor  35  in the cylindrical housing ( FIG. 5 ) is composed of a circular surface, which could be made of glass, wood, plastic, metal or other material and is permanently glued to the bottom part of said bottom frame  33  and said glass cylindrical housing wall  32 . Inside of the housing  6 , the potted plants, cut flowers, vases, or flower arrangement could be removably placed on top of housing floor  35 .     v. Dome-shaped housing: the floor  43  in the dome-shaped housing ( FIG. 6 ) is composed of a circular surface that is permanently glued to said bottom frame  41  and has a groove  44  with a circular washer  45  which accommodate the dome-shaped glass housing  40 . The bottom part of the dome-shaped glass housing  40  fits tight on the circular floor groove  44  and bottom frame  41  and produces an air sealed closed environment. The removable dome-shaped glass housing  40  permits access to housing interior  6 . In this type of housing the floor  43  is made of two pieces. The rim is made of wood, plastic, metal or other material and is in periphery. The central part  46  is made of a circular glass, which is permanently glued to the rim piece and is a mean through which, the housing interior will be illuminated through an external lighting source  141  that are positioned beneath the housing floor inside the bottom frame  41 . Beside of lighting source  8 , air pump assembly  7 , tubing system  114 ,  116 , air filter assembly  115  and check valve assembly  136  are also placed beneath the housing floor, and are covered by said bottom frame  41 . Inside of the housing  6 , the potted plants, cut flowers, vases, or flower arrangement could be removably placed on top of housing floor  43 .     vi. Triangular prism housing: the floor  55  in the triangular prism housing ( FIG. 7 ) is composed of a triangular surface, which could be made of glass, wood, plastic, metal or other material and is permanently glued to said bottom frame  53  and the bottom part of said three glass housing walls  52 . Inside of the housing  6 , the potted plants, cut flowers, vases, or flower arrangement could be removably placed on top of housing floor  35 .     vii. Spherical housing: the floor  63  in the spherical housing ( FIG. 8 ) is composed of a circular surface that is permanently glued to said bottom frame  61  and has a groove  64  with a circular washer  65  which accommodate the spherical glass housing  60 . The spherical glass housing  60  fits tight on the circular floor groove  64  and bottom frame  61  and produces an air sealed closed environment. The removable spherical glass housing  60  permits access to housing interior  6 . In this type of housing the floor  63  is made of two pieces. The rim is made of wood, plastic, metal or other material and is in periphery. The central part  66  is made of a circular glass, which is permanently glued to the rim piece and is a mean through which, the housing interior will be illuminated through an external lighting source  141  that are positioned beneath the housing floor inside the bottom frame  61 . Beside of lighting source  8 , air pump assembly  7 , tubing system  114 ,  116 , air filter assembly  115  and check valve assembly  136  are also placed beneath the housing floor and are covered by said bottom frame  61 . Inside of the housing  6 , the potted plants, cut flowers, vases, or flower arrangement could be removably placed on top of housing floor  63 .     viii. Pyramidal housing: the floor  73  in the pyramidal housing ( FIG. 9 ) is composed of a square-shaped surface that is permanently glued to said bottom frame  71  and has a groove  74  with a square-shaped washer  75  which accommodate the pyramidal glass housing  70 . The pyramidal glass housing  70  fits tight on the square-shaped floor groove  74  and bottom frame  71  and produces an air sealed closed environment. The removable pyramidal glass housing  70  permits access to housing interior  6 . In this type of housing the floor  73  is made of two pieces. The rim is made of wood, plastic, metal or other material and is in periphery. The central part  76  is made of a circular glass, which is permanently glued to the rim piece and is a mean through which, the housing interior will be illuminated through an external lighting source  141  that are positioned beneath the housing floor inside the bottom frame  71 . Beside of lighting source  8 , air pump assembly  7 , tubing system  114 ,  116 , air filter assembly  115  and check valve assembly  136  are also placed beneath the housing floor and are covered by said bottom frame  71 . Inside of the housing  6 , the potted plants, cut flowers, vases, or flower arrangement could be removably placed on top of housing floor  73 .     ix. Mixed conical and cylindrical housing: the floor  85  in the mixed conical and cylindrical housing ( FIG. 10 ) is composed of a circular surface, which could be made of glass, wood, plastic, metal or other material and is permanently glued to said bottom frame  83  and the bottom part of said mixed conical and cylindrical glass housing wall  82 . Inside of the housing  6 , the potted plants, cut flowers, vases, or flower arrangement could be removably placed on top of housing floor  85 .     x. Conical housing: the floor  93  in the conical housing ( FIG. 11 ) is composed of a circular surface that is permanently glued to said bottom frame  91  and has a groove  94  with a circular washer  95  which accommodate the conical glass housing  90 . The conical glass housing  90  fits tight on the circular floor  93  and bottom frame  91  and produces an air sealed closed environment. The removable conical glass housing  90  permits access to housing interior  6 . In this type of housing the floor  93  is made of two pieces. The rim is made of wood, plastic, metal or other material and is in periphery. The central part  96  is made of a circular glass, which is permanently glued to the rim piece and is a mean through which, the housing interior will be illuminated through an external lighting source  141  that are positioned beneath the housing floor inside the bottom frame  91 . Beside of lighting source  8 , air pump assembly  7 , tubing system  114 ,  116 , air filter assembly  115  and check valve assembly  136  are also placed beneath the housing floor and are covered by said bottom frame  91 . Inside of the housing  6 , the potted plants, cut flowers, vases, or flower arrangement could be removably placed on top of housing floor  93 .     xi. Curved cylindrical housing: the floor  105  in the curved cylindrical housing ( FIG. 12 ) is composed of a circular surface, which could be made of glass, wood, plastic, metal or other material and is permanently glued to said bottom frame  103  and the bottom part of said curved cylindrical glass housing walls  102 . Inside of the housing  6 , the potted plants, cut flowers, vases, or flower arrangement could be removably placed on top of housing floor  105 .    
            c. Upper frame: is a frame-like structure that encases the upper part of the housing walls. It is made of wood, plastic, metal or other material and permanently glued to the upper part of the walls. Depending on type of housing, this structure is different in shape. The detail of each housing upper frame is mentioned below: 
            i. Hexagonal prism housing: the upper frame  1  in the hexagonal prism housing ( FIGS. 1-2 ) is a hexagonal rim, which is permanently glued to the upper borders of said six glass housing walls  2  and encase the upper borders of the housing. It also accommodates the housing lid  9 . Using a pair of hinge joints  150  that connect the said upper frame  1  to the housing lid  9 , said lid  9  could move to open ( FIGS. 24, 25 ). Using a pair of latches  151  on said lid  9  that slide in to slits  152  on said frame  1  the said lid  9  could be tightly closed ( FIG. 22 ) to produce an air sealed closed environment inside the housing  6 . Upper frame  1  also create a potential space on top of housing lid that embodiments including, lighting source  8 , air pump assembly  7 , tubing system  114 ,  116 , air filter assembly  115  and check valve assembly  136  could be placed.     ii. Cubical housing: the upper frame  10  in the cubical housing ( FIG. 3 ) is a square-shaped rim, which is permanently glued to the upper borders of said four glass housing walls  11  and encase the upper borders of the housing. It also accommodates the housing lid  16 . Using a pair of hinge joints  150  that connect the said upper frame  10  to the housing lid  16 , said lid  16  could move to open. Using a pair of latches  151  on said lid  16  that slide in to slits  152  on said frame  10  the said lid  16  could be tightly closed to produce an air sealed closed environment inside the housing  6 . Upper frame  10  also create a potential space on top of housing lid that embodiments including, lighting source  8 , air pump assembly  7 , tubing system  114 ,  116 , air filter assembly  115  and check valve assembly  136  could be placed.     iii. Rectangular prism housing: the upper frame  20  in the rectangular prism housing ( FIG. 4 ) is a rectangular rim, which is permanently glued to the upper borders of said four glass housing walls  11  and encases the upper borders of the housing. It also accommodates the housing lid  25 . Using a pair of hinge joints  150  that connect the said upper frame  20  to the housing lid  25 , said lid  25  could move to open. Using a pair of latches  151  on said lid  25  that slide in to slits  152  on said frame  20  the said lid  25  could be tightly closed to produce an air sealed closed environment inside the housing  6 . Upper frame  20  also create a potential space on top of housing lid that embodiments including, lighting source  8 , air pump assembly  7 , tubing system  114 ,  116 , air filter assembly  115  and check valve assembly  136  could be placed.     iv. Cylindrical housing: the upper frame  31  in the cylindrical housing ( FIG. 5 ) is a circular rim, which is permanently glued to the upper borders of said cylindrical glass housing wall  32  and encase the upper borders of the housing. It also accommodates the housing lid  30 . Using a hinge joint  150  that connect the said upper frame  31  to the housing lid  30 , said lid  30  could move to open. Using a latch  151  on said lid  30  that slide in to a slit  152  on said frame  31  the said lid  30  could be tightly closed to produce an air sealed closed environment inside the housing  6 . Upper frame  31  also create a potential space on top of housing lid that embodiments including, lighting source  8 , air pump assembly  7 , tubing system  114 ,  116 , air filter assembly  115  and check valve assembly  136  could be placed.     v. Dome-shaped housing: does not have upper frame.     vi. Triangular prism housing: the upper frame  51  in the triangular prism housing ( FIG. 7 ) is a triangular rim, which is permanently glued to the upper borders of said four glass housing walls  52  and encases the upper borders of the housing. It also accommodates the housing lid  50 . Using a pair of hinge joints  150  that connect the said upper frame  51  to the housing lid  50 , said lid  50  could move to open. Using a pair of latches  151  on said lid  50  that slide in to slits  152  on said frame  51  the said lid  50  could be tightly closed to produce an air sealed closed environment inside the housing  6 . Upper frame  51  also create a potential space on top of housing lid that embodiments including, lighting source  8 , air pump assembly  7 , tubing system  114 ,  116 , air filter assembly  115  and check valve assembly  136  could be placed.     vii. Spherical housing: does not have upper frame.     viii. Pyramidal housing: the pyramidal housing has a small upper frame  77  which is a pyramidal shape and permanently glued to the upper borders of said four glass housing walls  70 . It is decorative structure and does not have any functional importance.     ix. Mixed conical and cylindrical housing: the upper frame  81  in the mixed conical and cylindrical housing ( FIG. 10 ) is a circular rim, which is permanently glued to the upper borders of said mixed conical and cylindrical glass housing wall  82  and encase the upper borders of the housing. It also accommodates the housing lid  80 . Using a hinge joint  150  that connect the said upper frame  81  to the housing lid  80 , said lid  80  could move to open. Using a latch  151  on said lid  80  that slide in to a slit  152  on said frame  81  the said lid  80  could be tightly closed to produce an air sealed closed environment inside the housing  6 .    
               
 
         [0116]     Upper frame  81  also create a potential space on top of housing lid that embodiments including, lighting source  8 , air pump assembly  7 , tubing system  114 ,  116 , air filter assembly  115  and check valve assembly  136  could be placed. 
            x. Conical housing: the conical housing has a small upper frame  97  which is a conical shape and permanently glued to the upper borders of said conical glass housing wall  90 . It is decorative structure and does not have any functional importance.     xi. Curved cylindrical housing: the upper frame  101  in the curved cylindrical housing ( FIG. 12 ) is a circular rim, which is permanently glued to the upper borders of said curved cylindrical glass housing wall  102  and encase the upper borders of the housing. It also accommodates the housing lid  100 .            
 
         [0119]     Using a hinge joint  150  that connect the said upper frame  101  to the housing lid  100 , said lid  100  could move to open. Using a latch  151  on said lid  100  that slide in to a slit  152  on said frame  101  the said lid  100  could be tightly closed to produce an air sealed closed environment inside the housing  6 . Upper frame  101  also create a potential space on top of housing lid that embodiments including, lighting source  8 , air pump assembly  7 , tubing system  114 ,  116 , air filter assembly  115  and check valve assembly  136  could be placed. 
        d. Bottom frame: is a frame-like structure that encases the housing floor and accommodates either permanently or removably the lower part of the housing walls. It is made of wood, plastic, metal or other material and depending on type of housing, this structure is different in shape. Beneath the housing floor there is a potential space that is surrounded by bottom frame which can accommodate lighting source  8 , air pump assembly  7 , tubing system  114 ,  116 , air filter assembly  115  and check valve assembly  136  in those housings that do not have removable lid. The detail of each housing bottom frame is mentioned below: 
            i. Hexagonal prism housing: the bottom frame  3  in the hexagonal prism housing ( FIG. 1-2 ) is a hexagonal rim, which is permanently glued to the housing floor  5  and the lower borders of said six glass housing walls  2  and encase the lower borders of the housing. This frame  3  bears the weight of the housing and produces a space beneath the housing floor  5  for potential embodiments.     ii. Cubical housing: the bottom frame  12  in the cubical housing ( FIG. 3 ) is a square-shaped rim, which is permanently glued to the housing floor  14  and the lower borders of said four glass housing walls  11  and encase the lower borders of the housing. This frame  12  bears the weight of the housing and produces a space beneath the housing floor  14  for potential embodiments.     iii. Rectangular prism housing: the bottom frame  22  in the rectangular prism housing ( FIG. 4 ) is a rectangular rim, which is permanently glued to the housing floor  24  and the lower borders of said four glass housing walls  21  and encases the lower borders of the housing. This frame  22  bears the weight of the housing and produces a space beneath the housing floor  24  for potential embodiments.     iv. Cylindrical housing: the bottom frame  33  in the cylindrical housing ( FIG. 5 ) is a circular rim, which is permanently glued to the housing floor  35  and the lower borders of said cylindrical glass housing wall  32  and encase the lower borders of the housing. This frame  33  bears the weight of the housing and produces a space beneath the housing floor  35  for potential embodiments.     v. Dome-shaped housing: the bottom frame  41  in the dome-shaped housing ( FIG. 6 ) is a circular rim, which is permanently glued to the housing floor  43 . The bottom part of the dome-shaped glass housing  40  fits tightly on the circular floor groove  44  and bottom frame  41  and produces an air sealed closed environment. This frame  33  bears the weight of the housing and produces a space beneath the housing floor  43  for several embodiments including, lighting source  8 , air pump assembly  7 , tubing system  114 ,  116 , air filter assembly  115  and check valve assembly  136 .     vi. Triangular prism housing: the bottom frame  53  in the triangular prism housing ( FIG. 7 ) is a triangular rim, which is permanently glued to the housing floor  55  and the lower borders of said four glass housing walls  52  and encases the lower borders of the housing. This frame  53  bears the weight of the housing and produces a space beneath the housing floor  55  for potential embodiments.     vii. Spherical housing: the bottom frame  61  in the spherical housing ( FIG. 8 ) is a circular rim, which is permanently glued to the housing floor  63 . The bottom part of the spherical glass housing  60  fits tightly on the circular floor groove  64  and bottom frame  61  and produces an air sealed closed environment. This frame  61  bears the weight of the housing and produces a space beneath the housing floor  63  for several embodiments including, lighting source  8 , air pump assembly  7 , tubing system  114 ,  116 , air filter assembly  115  and check valve assembly  136 .     viii. Pyramidal housing: the bottom frame  71  in the pyramidal housing ( FIG. 9 ) is a square-shaped rim, which is permanently glued to the housing floor  73 . The bottom part of the pyramidal glass housing  70  fits tightly on the square-shaped floor groove  74  and bottom frame  71  and produces an air sealed closed environment. This frame  71  bears the weight of the housing and produces a space beneath the housing floor  73  for several embodiments including, lighting source  8 , air pump assembly  7 , tubing system  114 ,  116 , air filter assembly  115  and check valve assembly  136 .     ix. Mixed conical and cylindrical housing: the bottom frame  83  in the mixed conical and cylindrical housing ( FIG. 11 ) is a circular rim, which is permanently glued to the housing floor  85  and the lower borders of said cylindrical glass housing wall  82  and encase the lower borders of the housing. This frame  83  bears the weight of the housing and produces a space beneath the housing floor  85  for potential embodiments.     x. Conical housing: the bottom frame  91  in the conical housing ( FIG. 9 ) is a circular rim, which is permanently glued to the housing floor  93 . The bottom part of the conical glass housing  70  fits tightly on the circular floor groove  94  and bottom frame  91  and produces an air sealed closed environment. This frame  91  bears the weight of the housing and produces a space beneath the housing floor  93  for several embodiments including, lighting source  8 , air pump assembly  7 , tubing system  114 ,  116 , air filter assembly  115  and check valve assembly  136 .     xi. Curved cylindrical housing: the bottom frame  103  in the curved cylindrical housing ( FIG. 12 ) is a circular rim, which is permanently glued to the housing floor  105  and the lower borders of said cylindrical glass housing wall  102  and encase the lower borders of the housing. This frame  103  bears the weight of the housing and produces a space beneath the housing floor  105  for potential embodiments.    
            e. Housing lid: Housing lid is a movable part of the housing that is positioned on top of the housing and permits access to the housing interior  6  in order to place or position potted plants, cut flowers, vases, or flower arrangements. Depending on the type of housing, this structure is either absent or different in shape as is detailed below: 
            i. Hexagonal prism housing: the lid  9  in the hexagonal prism housing ( FIGS. 1-2 ) is composed of a hexagonal surface.    
               
 
         [0134]     Housing lid  16  is a movable part of the housing and is positioned on top of the housing to permit access to the housing interior  6  to place or position potted plants, cut flowers, vases, or flower arrangements. Using a pair of hinge joints  150  that connect the said upper frame  1  to the housing lid  9 , said lid  9  could move to open ( FIGS. 24, 25 ). Using a pair of latches  151  on said lid  9  that slide in to slits  152  on said frame  1  the said lid  9  could be tightly closed ( FIG. 22 ) to produce an air sealed closed environment inside the housing  6 . The housing lid  9  is made of two pieces. The rim is made of wood, plastic, metal or other material and is in periphery. The central part  152  is made of glass, which is permanently glued to the rim piece and is a mean through which, the housing interior will be illuminated through an external lighting source  8  that are positioned above the housing lid. Beside of lighting source  8 , air pump assembly  7 , tubing system  114 ,  116 , air filter assembly  115  and check valve assembly  136  are also placed above the housing lid. 
            ii. Cubical housing: the lid  16  in the cubical housing ( FIG. 3 ) is composed of a square-shaped surface. Housing lid  16  is a movable part of the housing and is positioned on top of the housing to permit access to the housing interior  6  to place or position potted plants, cut flowers, vases, or flower arrangements. Using a pair of hinge joints  150  that connect the said upper frame  10  to the housing lid  16 , said lid  16  could move to open ( FIGS. 24, 25 ). Using a pair of latches  151  on said lid  16  that slide in to slits  152  on said frame  10  the said lid  9  could be tightly closed ( FIG. 22 ) to produce an air sealed closed environment inside the housing  6 . The housing lid  16  is made of two pieces. The rim is made of wood, plastic, metal or other material and is in periphery. The central part  15  is made of glass, which is permanently glued to the rim piece and is a mean through which, the housing interior will be illuminated through an external lighting source  141  that are positioned above the housing lid. Beside of lighting source  8 , air pump assembly  7 , tubing system  114 ,  116 , air filter assembly  115  and check valve assembly  136  are also placed above the housing lid.     iii. Rectangular prism housing: the lid  25  in the rectangular prism housing ( FIG. 4 ) is composed of a rectangular surface. Housing lid  25  is a movable part of the housing and is positioned on top of the housing to permit access to the housing interior  6  to place or position potted plants, cut flowers, vases, or flower arrangements. Using a pair of hinge joints  150  that connect the said upper frame  20  to the housing lid  25 , said lid  25  could move to open ( FIGS. 24, 25 ). Using a pair of latches  151  on said lid  25  that slide in to slits  152  on said frame  20  the said lid  25  could be tightly closed ( FIG. 22 ) to produce an air sealed closed environment inside the housing  6 . The housing lid  25  is made of two pieces. The rim is made of wood, plastic, metal or other material and is in periphery. The central part  26  is made of glass, which is permanently glued to the rim piece and is a mean through which, the housing interior will be illuminated through an external lighting source  8  that are positioned above the housing lid. Beside of lighting source  8 , air pump assembly  7 , tubing system  114 ,  116 , air filter assembly  115  and check valve assembly  136  are also placed above the housing lid.     iv. Cylindrical housing: the lid  30  in the cylindrical housing ( FIG. 5 ) is composed of a circular surface. Housing lid  30  is a movable part of the housing and is positioned on top of the housing to permit access to the housing interior  6  to place or position potted plants, cut flowers, vases, or flower arrangements. Using a pair of hinge joints  150  that connect the said upper frame  31  to the housing lid  30 , said lid  30  could move to open ( FIGS. 24, 25 ). Using a pair of latches  151  on said lid  30  that slide in to slits  152  on said frame  31  the said lid  30  could be tightly closed ( FIG. 22 ) to produce an air sealed closed environment inside the housing  6 . The housing lid  30  is made of two pieces. The rim is made of wood, plastic, metal or other material and is in periphery. The central part  36  is made of glass, which is permanently glued to the rim piece and is a mean through which, the housing interior will be illuminated through an external lighting source  141  that are positioned above the housing lid. Beside of lighting source  8 , air pump assembly  7 , tubing system  114 ,  116 , air filter assembly  115  and check valve assembly  136  are also placed above the housing lid.     v. Dome-shaped housing: does not have housing lid.     vi. Triangular prism housing: the lid  50  in the triangular prism housing ( FIG. 7 ) is composed of a triangular surface. Housing lid  50  is a movable part of the housing and is positioned on top of the housing to permit access to the housing interior  6  to place or position potted plants, cut flowers, vases, or flower arrangements. Using a pair of hinge joints  150  that connect the said upper frame  51  to the housing lid  50 , said lid  50  could move to open ( FIGS. 24, 25 ). Using a pair of latches  151  on said lid  50  that slide in to slits  152  on said frame  51  the said lid  50  could be tightly closed ( FIG. 22 ) to produce an air sealed closed environment inside the housing  6 . The housing lid  50  is made of two pieces. The rim is made of wood, plastic, metal or other material and is in periphery. The central part  56  is made of glass, which is permanently glued to the rim piece and is a mean through which, the housing interior will be illuminated through an external lighting source  8  that are positioned above the housing lid. Beside of lighting source  8 , air pump assembly  7 , tubing system  114 ,  116 , air filter assembly  115  and check valve assembly  136  are also placed above the housing lid.     vii. Spherical housing: does not have housing lid.     viii. Pyramidal housing: does not have housing lid.     ix. Mixed conical and cylindrical housing: the lid  80  in the mixed conical and cylindrical housing ( FIG. 10 ) is composed of a circular surface. Housing lid  80 is a movable part of the housing and is positioned on top of the housing to permit access to the housing interior  6  to place or position potted plants, cut flowers, vases, or flower arrangements. Using a pair of hinge joints  150  that connect the said upper frame  81  to the housing lid  80 , said lid  80  could move to open ( FIGS. 24, 25 ). Using a pair of latches  151  on said lid  80  that slide in to slits  152  on said frame  81  the said lid  80  could be tightly closed ( FIG. 22 ) to produce an air sealed closed environment inside the housing  6 . The housing lid  80  is made of two pieces. The rim is made of wood, plastic, metal or other material and is in periphery. The central part  86  is made of glass, which is permanently glued to the rim piece and is a mean through which, the housing interior will be illuminated through an external lighting source  141  that are positioned above the housing lid. Beside of lighting source  8 , air pump assembly  7 , tubing system  114 ,  116 , air filter assembly  115  and check valve assembly  136  are also placed above the housing lid.     x. Conical housing: does not have housing lid.     xi. Curved cylindrical housing: the lid  100  in the curved cylindrical housing ( FIG. 12 ) is composed of a circular surface. Housing lid  100  is a movable part of the housing and is positioned on top of the housing to permit access to the housing interior  6  to place or position potted plants, cut flowers, vases, or flower arrangements. Using a pair of hinge joints  150  that connect the said upper frame  101  to the housing lid  100 , said lid  100  could move to open ( FIGS. 24, 25 ). Using a pair of latches  151  on said lid  100  that slide in to slits  152  on said frame  101  the said lid  100  could be tightly closed ( FIG. 22 ) to produce an air sealed closed environment inside the housing  6 . The housing lid  100  is made of two pieces. The rim is made of wood, plastic, metal or other material and is in periphery. The central part  106  is made of glass, which is permanently glued to the rim piece and is a mean through which, the housing interior will be illuminated through an external lighting source  141  that are positioned above the housing lid. Beside of lighting source  8 , air pump assembly  7 , tubing system  114 ,  116 , air filter assembly  115  and check valve assembly  136  are also placed above the housing lid.         f. Housing stand: Housing stand is a piece of furniture that the housing could be placed on that and is mainly decorative part. Although, this part is an optional portion, it makes the container more suitable display. It could also be used as a potential space for containing accessories.        
 
         [0146]     B—Ventilation System  
         [0147]     As it is depicted in  FIGS. 14, 15  (Drawing sheet  14 ,  15 ), the ventilation system is composed of an air pump assembly  7 , tubing system  114 ,  116 , air filter assembly  115  and check valve assembly  136 .  
         [0148]     a. Air pump assembly: As it is depicted in  FIG. 13  (Drawing sheet  13 ), the air pump assembly  7  is composed of a commercially available electrical air pump system (inside the air pump has not been shown), with a housing  7  and has one air inlet  113  and one air out let  111 . The air inlet  113  is connected to a tubing structure  114  that is connected to said housing through housing lid or housing floor and permits the passage of air from housing interior  6  to air pump housing  7 . The air outlet  111  is connected to a tubing structure  116  that is connected to the air inlet  120  of the air filter assembly  115  and permits the passage of air from air pump housing  7  to the air filter assembly  115 . The electrical cord  112  connects air pump housing to the electricity wall outlet.  
         [0149]     b. Tubing system: As it is depicted in  FIGS. 14, 15  (Drawing sheet  14 ,  15 ), the tubing system are composed of two tubing structure  114 ,  116 . Air flows from inside of the housing  6  to air inlet  113  of air pump  7  through a tubing structure  114 . The air then flows from the air outlet  111  of the air pump  7  to air inlet  120  of the air filter assembly  115  through another tubing structure  116 .  
         [0150]     c. Air filter assembly: As it is depicted in  FIGS. 16, 17  (Drawing sheet  16 ,  17 ), air filter assembly  115  is composed of a cylindrical housing  127  with two ends  121 ,  126 . There is an air inlet  120  on one end  121  and an air outlet  125  on the other end  126 . Inside the air filter housing, there are pluralities of air filter pads  122 ,  123 ,  124  that are circular and are placed in parallel position. These air filter pads  122 ,  123 ,  124  are same size and are shaped by a circular cut of various commercially available air filter materials. The air filter pads are designed to absorb dusts, fumes, microbes or allergens based on their substances and thus, eliminate a specific particle from the air that pass through them. As mentioned above, air that exits housing interior  6  enters said air pump assembly  7  and after exiting said air pump assembly  7 , enters said air filter assembly  115 , passes through pluralities of air filter pads  122 ,  123 ,  124  and eventually exits into surrounding environment.  
         [0151]     d. Check valve assembly: As it is depicted in  FIGS. 18, 19  (Drawing sheet  18 ,  19 ), Check valve assembly  136  is composed of a cylindrical housing  132  with two ends  131 ,  134 . There is an air inlet  135  on one end  134  and an air outlet  130  on the other end  131 . Inside of said check valve housing  132 , there is a one way rubber valve  133  that only permits passage of air from air inlet  135  toward air outlet  130 . The Check valve assembly  136  is placed on top of the housing lid or beneath the housing floor and permits air to flow from surrounding environment into the housing interior  6  and prevents any air flow in opposite direction. This Check valve assembly  136  is commercially available.  
         [0152]     C—Lighting Assembly  
         [0153]     As it is depicted in  FIG. 20  (Drawing sheet  20 ), the lighting assembly is composed of a casing  8 ,  141 , electrical lamp  142  and an electrical cord  140 . Depending on the format of the housing the lighting assembly casing  8 ,  141  has different shape. Said lighting assembly casing could have either circular  141  or rectangular  8  cross sections. The circular type  141  could accommodate the glass portion of the housing lid  15 ,  36 ,  86 ,  106  of cubical ( FIG. 3 ), cylindrical ( FIG. 5 ), mixed conical and cylindrical ( FIG. 10 ) and curved cylindrical housings ( FIG. 12 ). The circular type  141  could also accommodate the glass portion of housing floor  46 ,  66 ,  76 ,  96  of dome-shaped ( FIG. 6 ), spherical ( FIG. 8 ), pyramidal ( FIG. 9 ) and conical housings ( FIG. 11 ). Said rectangular lighting assembly casing  8  could accommodate the glass portion of the housing lid  152 ,  25 ,  56  of hexagonal prism ( FIGS. 1-2 ), rectangular prism ( FIG. 4 ) and triangular prism housings ( FIG. 7 ). Inside of the lighting assembly casing  8 ,  141 , the electrical lamp  142  could be any type of electrical lamps  142  including but not limited to fluorescent lamps. The lighting assembly is commercially available.