Patent Document

CROSS-REFERENCE TO RELATED APPLICATIONS 
     This application is a continuation in part (CIP) of U.S. patent application Ser. No. 10/485,731, which is the U.S. National Phase Application under 35 U.S.C. 371 of PCT International Application No. PCT/IL02/00615, which has an international filing date of Jul. 25, 2002, and which claims priority from Israel Patent Application No. 144,749, filed Aug. 6, 2001, each of which is expressly incorporated herein in its entirety by reference thereto. 
    
    
     FIELD OF THE INVENTION 
     The present invention relates to the field of food/drink containers and multimedia systems. More specifically, the present invention relates to a combination of a food/drink container with a multimedia system. 
     BACKGROUND OF THE INVENTION 
     Entertainment methods are widely used for promoting sales of products, especially to promote children food packages. These entertainment methods include adding toys and games to some products, getting the user to participate the user in collecting-games or lottery-games and many other methods. 
     The present invention provides the user an immediate entertainment source while he consumes the product. The present invention provides a container with a combination of a multimedia module with a product, this multimedia module designed to be operate while the content of the container is consumed. 
     SUMMARY OF THE INVENTION 
     The present invention relates to food/drink containers. More specifically, the present invention relates to food/drink containers combined with audio and video capabilities for inducing eating habits as well as for recreational purposes. Hereinafter the term “multimedia” shall include any sound, audio, video, music and the like. 
     Hereinafter the term “multimedia module” shall include any multimedia system and/or equipment capable of producing sound, audio, video, music and the like. 
     Hereinafter the term “fuel reservoir” shall include but will not be limited to a natural or artificial source, storage or collection of fuel and/or energy, a receptacle or chamber for holding a fuel and/or energy sources or a large or extra supply, reserve or stock of a source of energy. 
     According to the teachings of the present invention there is provided, a food/drink container comprising: (a) a closure for closing the container, and (b) a multimedia module responsive to opening the container, the multimedia module including: a speaker, and a projecting unit for projecting an image or a movie viewable from the outside the container. 
     According to further embodiments of the present invention the food/drink container further includes a personal viewer for readily facilitating viewing the image or movie by a single user. 
     According to further embodiments of the present invention the food/drink container further including an IR port for receiving commands from a wireless remote control. 
     According yet further embodiments of the present invention the food/drink container farther including a screen for displaying the image or movie. 
     According to still further embodiments of the present invention the food/drink container further including a cellular module, the cellular module including: (a) a microphone for readily facilitating two-way conversation utilizing the cellular module, and (b) an earphone for readily facilitating two-way conversation utilizing the cellular module. 
     According to further embodiments of the present invention, the container further including a sensor responsive to the closure being partially or totally opened. 
     According to further teachings of the present invention there is provided, a food/drink container including: (a) a closure for closing the container, and (b) a radio responsive to opening the container, the radio including a speaker for facilitating output of sound. 
     According to further embodiments of the present invention, the food/drink container further including an earphone jack for readily accommodating an earphone plug, thereby readily facilitating a user to use earphones with the radio. 
     According to still further embodiments of the present invention, the food/drink container further including an IR port for receiving commands from a wireless remote control. 
     According to yet further embodiments of the present invention, the food/drink container further including a cellular module, the cellular module including: (a) a microphone for readily facilitating two-way conversation utilizing the cellular module, and (b) an earphone for readily facilitating two-way conversation utilizing the cellular module. 
     According to further embodiments of the present invention, the food/drink container further including a sensor responsive to the closure being partially or totally opened. 
     According to yet further embodiments of the present invention, the sensor is a sensor sensitive to light such that the sensor is responsive to light entering the container subsequently to the closure being partially or totally removed. 
     According to further embodiments of the present invention, the food/drink container further including an electrical circuit connected to a power source, such that the power source provides power to a sensor responsive to the closure being opened. 
     According to further teachings of the present invention there is provided, a food/drink container including: (a) a semi flexible floor (b) a closure for closing the container, (c) a multimedia module responsive to opening the container, the multimedia module including: (i) a speaker, and (ii) a projecting unit for projecting an image viewable from the outside the container, and (d) a switch responsive to a spoon being entered into the container and displacing the semi flexible floor, such that the switch activates the multimedia module. 
     According to further embodiments of the present invention, the food/drink container further including a personal viewer for readily facilitating viewing the image or movie by a single user. 
     According to still further embodiments of the present invention, the food/drink container further including an IR port for receiving commands from a wireless remote control. 
     According to yet farther embodiments of the present invention, the food/drink container further including a screen for displaying the image or movie. 
     According to further embodiments of the present invention, the food/drink container further includes a cellular module, the cellular module including: (a) a microphone for readily facilitating two-way conversation utilizing the cellular module, and (b) an earphone for readily facilitating two-way conversation utilizing the cellular module. 
     According to still further teachings of the present invention there is provided, a food/drink container including: (a) a semi flexible floor, (b) a closure for closing the container, (b) a radio responsive to opening the container, the radio including a speaker for facilitating output of sound, and (c) a switch responsive to a spoon being entered into the container and displacing the semi flexible floor, such that the switch activates the radio. 
     According to further embodiments of the present invention, the food/drink container further including an earphone jack for readily accommodating an earphone plug, thereby readily facilitating a user to use earphones with the radio. 
     According to still further embodiments of the present invention, the food/drink container further includes an IR port for receiving commands from a wireless remote control. 
     According to yet further embodiments of the present invention, the food/drink container further including a cellular module, the cellular module including: (a) a microphone for readily facilitating two-way conversation utilizing the cellular module, and (b) an earphone for readily facilitating two-way conversation utilizing the cellular module. 
     According to further embodiments of the present invention, the food/drink container further including an electrical circuit connected to a power source, such that the power source provides power to the switch and the cellular module. 
     According to yet further teachings of the present invention there is provided, a food/drink container including: (a) a closure for closing the container, and (b) an audio device for playing music, which audio device is responsive to opening the container, the audio device module including a speaker. 
     According to further embodiments of the present invention, the food/drink container further including an earphone for readily facilitating listening to the audio device. According to still further embodiments of the present invention, the food/drink container further including a sensor responsive to the closure being partially or totally opened. 
     According to yet further embodiments of the present invention, the food/drink container further including an IR port for receiving commands from a wireless remote control. 
     According to further teachings of the present invention there is provided a food container with a closure including: at least one sensor selected from the group consisting of: a closure sensor responsive to the closure being partially or totally opened, and an insertion sensor responsive to an article being entered into the container or displacing a semi flexible floor situated in the container, and at least one audio device responsive to the at least one sensor. 
     According to further embodiments of the present invention, the food container further includes at least one internet service module responsive to the at least one sensor, wherein the at least one internet service module is configured for readily connecting a mobile device to an internet service provider. 
     According to still further embodiments of the present invention, the at least one audio device further includes at least one of: a multimedia module including a speaker, and a radio device. 
     According to yet further embodiments of the present invention, the food container further includes an energy module for readily providing power to at least one of the at least one audio device or at least one the internet service module. 
     According to further embodiments of the present invention, the energy module is selected from the group consisting of: a chargeable battery connected to a power supply, a fuel cell chargeable by a fuel reservoir, and a solar cell array connected to a chargeable battery. 
     According to still further embodiments of the present invention, the food container further includes a communications module selected from the group consisting of: a cellular communication module, a satellite communication module, a Bluetooth communication module, an RF communication module, a local area network communication module an IR communication module and a wired communication module. 
     According to further teachings of the present invention there is provided a drink container including: a body for accommodating drink, a closure for closing the container, and a communications module. 
     According to further embodiments of the present invention, the communications module further includes an internet service module responsive to opening the drink container, the internet service module configured for connecting a mobile device to an internet service provider. 
     According to still further embodiments of the present invention, the communications module is selected from the group consisting of: a cellular communication module, a satellite communication module, a Bluetooth communication module, an RF communication module, a local area network communication module an IR communication module and a wired communication module. 
     According to still further embodiments of the present invention, the communications module readily facilitates communication with a remote apparatus. 
     According to further embodiments of the present invention, the remote apparatus is selected from the group consisting of: a computer, a PDA, a Cell phone and a vending machine. 
     According to still further teachings of the present invention there is provided a food/drink vending machine including: a plurality of bases for food packages, a plurality of food packages, wherein each of the food packages is associated with a base selected from the plurality of bases, at least one sensor responsive to vending at least one of the plurality of food packages, and a communications module. 
     According to further embodiments of the present invention, the food/drink vending machine further includes a cooling unit for controlling the temperature of the plurality of food packages. 
     According to still further embodiments of the present invention, the food/drink vending machine further includes a module selected from the group consisting of: a multimedia module, a radio module, a biometric module, a cellular module and an internet service modules responsive to activation of the vending machine. 
     According to yet further teachings of the present invention there is provided a drink dispenser for dispensing drinks to individuals, the drink dispenser including: a dispensing mechanism for readily dispensing drinks to individuals, at least one sensor responsive to activation of the drink dispenser, and a communication module selected from the group consisting of: a cellular communication module, a satellite communication module, a Bluetooth communication module, an RF communication module, a local area network communication module an IR communication module and a wired communication module. 
     According to further embodiments of the present invention, the dispensing mechanism further includes a water supply selected from the group consisting of: a water reservoir and a domestic water supply. 
     According to still further embodiments of the present invention, the drink dispenser further includes a module selected from the group consisting of: a multimedia module, a radio module, a cellular module and an internet service modules responsive to activation of the vending machine. 
     According to further teachings of the present invention there is provided a transport container including: a body for accommodating goods, a closure for closing the container, at least one telemetry sensor selected from the group consisting of: a temperature sensor, a humidity sensor, a motion sensor, a security sensor, and an integrity sensor, and a communications module for readily communicating readings of the telemetry sensor, the communications module selected from the group consisting of: a cellular communication module, a satellite communication module, a Bluetooth communication module, an RF communication module, a local area network communication module an IR communication module and a wired communication module. 
     According to further embodiments of the present invention, the transport container further includes a mechanism selected from the group consisting of: a cooling mechanism and an access control biometric mechanism. 
    
    
     
       BRIEF DESCRIPTION OF THE FIGURES 
       The invention is herein described, by way of example only, with reference to the accompanying drawings. With specific reference now to the drawings in detail, it is stressed that the particulars shown are by way of example and for purposes of illustrative discussion of the preferred embodiments of the present invention only, and are presented in the cause of providing what is believed to be the most useful and readily understood description of the principles and conceptual aspects of the invention. In this regard, no attempt is made to show structural details of the invention in more detail than is necessary for a fundamental understanding of the invention, the description taken with the drawings making apparent to those skilled in the art how the several forms of the invention may be embodied in practice. 
       Hereinafter the term “multimedia” shall include any sound, audio, video, music and the like. 
       Hereinafter the term “multimedia module” shall include any multimedia system and/or equipment capable of producing sound, audio, video, music and the like. 
       Hereinafter, the term “transport container” shall include, but will not be limited to, commercial containers for the purpose of transporting by way of sea, air, rail or land as well as containers known as “20 foot containers” and “40 foot containers”. 
       Hereinafter, the term “array” shall include, but will not be limited to, a group, a number, or a quantity of things or a functional arrangement of interrelated objects, devices, components or items of equipment. 
       In the figures: 
         FIG. 1  illustrates a first drink container with a communications module; 
         FIG. 2  illustrates a second drink container with a communications module; 
         FIG. 3  illustrates a food container with an audio device responsive to a sensor; 
         FIG. 4  illustrates an adapter component array for use with preferred embodiments of the present invention; 
         FIG. 5  illustrates a transport container with a telemetry sensor; 
         FIG. 6  illustrates a vending machine with a communication module; 
         FIG. 7  illustrates a first drink dispenser with a communication module; and 
         FIG. 8  illustrates a second drink dispenser with a communication module. 
     
    
    
     DESCRIPTION OF THE PREFERRED EMBODIMENTS 
     The present invention is a food/drink container with a multimedia module. A multimedia module is combined with a food/drink container for sounding voices and/or projecting images or movies in a predetermined condition e.g., when opening the container or when removing a label. The system can be built with the container as a common part or is produced to install with any existing food/drink container as a retrofit. 
     The present invention provides a food/drink container with a multimedia module for providing multimedia, sound and music and/or projecting an image or a movie from inside the container such that the image or movie are readily viewable from the exterior of the container. 
     The music, sound and multimedia are readily audible and/or visible to users by way of a speaker or speakers. The multimedia module preferably includes a laser or light projector for projecting images and/or movies, a speaker or speakers for sounding the music, sound and/or audio, a memory that stores the sound, multimedia and the images and movies, an electronic system for projecting the images via the projector and speakers for providing sound, audio and music capabilities, a sensor or switch for recognizing that the container is being used or/and going to be use. The invention further includes a power source for operating the system and the projected walls are made of a material facilitating viewing from the exterior of the container of images projected inside the container. 
     In a preferred embodiment, the food/drink container can includes either a system for reproducing music or a system for projecting movies and/or images or both. 
     The present invention includes a sensor or switch to recognize a predetermined condition for operating the system, as a switch or sensor to recognize opening of the container or recognize users&#39; action in order to operate the multimedia module. The sensors can include a variety of sensors e.g., a pressure sensor for sensing the pressure of a spoon on the floor of the container or sense the users&#39; pressure on the container walls, a sensor for sensing the removal of a label from the container, a photoelectric cell for sensing light entering the container pursuant to opening the container and/or other switches and sensors for recognizing a condition for activating the multimedia module. 
     The multimedia module is operated by an action of the user e.g., opening the container, removing a label and so on. In the embodiment of music only, the electronic system starts to play a music that is held in a memory and sound the music via a speaker or speakers. In the embodiment of full multimedia, the multimedia module of the present invention has a laser or light projector that project images on the inside walls, in some cases by using mirrors, and the walls are made of a material that enables these images to be seen from the outside while sounds are played via speaker. The voice and the images are stored in a memory and operated by an electronic system that includes a disposal power source. 
     The principles and operation of the food/drink container with a multimedia module, according to the present invention may be better understood with reference to the drawing and the accompanying description. 
     Referring now to the drawing,  FIG. 1  illustrates a drink container  63  with a closure  202 . Drink container  63  preferably includes a multimedia module  62 . Preferably, drink container  63  includes an earphone jack  65  for readily accommodating an earphone plug  66  of an earphone  68  or an earphone set  70 . 
     Preferably, drink container  63  accommodates an electronic and projecting unit  20 . Preferably, drink container  63  includes at least one speaker  16  (two speakers  16  are shown in  FIG. 1 ). When the user uses an opener  72  to open drink container  63 , the opening of drink container  63  is sensed by a sensor  74  and operates electronic and projecting unit  20 . Optionally, a control module  295  uses images and sounds that are held in memory unit  296  to project images on a wall  14  of drink container  63  and sound voices via speakers  16  for a period of time. 
     Preferably, control module  295  is electronically attached to or integrally formed with a radio device  28  facilitating a user to listen to radio device  28  at will. 
     Preferably, radio device  28  is preset to a given station according to the intended consumers of drink  18  contained in drink container  63 . Preferably, drink container  63  includes a cellular module  76  for readily facilitating a user to use drink container  63  as a cellular phone pre-charged with a predetermined value of calls. Thus, cellular module  76  can utilize an earphone jack  78  for readily accommodating an earphone plug  80 , which earphone plug  80  is attached to, or integrally formed with an earphone  82  or earphone set  84 . Preferably earphone  82  or earphone set  84  includes or is integrally formed with a microphone  86  for readily facilitating two-way conversations with cellular module  76 . 
     Preferably, drink container  63  includes an array of photo-electric cells  220  for readily generating power for drink container  63 . 
     Preferably control module  295  controls cellular module  76 . 
     Preferably, drink container  63  includes a component array  250 . Component array  250  includes a drink conduit  230  for readily facilitating flow of drink  18  and/or activation of components within component array  250 . 
     Drink conduit  230  includes an inflow duct  276  for readily facilitating flow of drink  18  subsequently to opening of closure  202 . Drink conduit  230  also preferably includes an outflow duct  208  for readily facilitating flow of liquids into drink container  63 . 
     Outflow duct includes a unidirectional flow control  206  for preventing drink  18  from entering component array through outflow duct  208 . 
     Preferably, a purification filter  224  purifies liquids flowing through outflow duct  208  into drink  18 . 
     For the purpose of sealing drink conduit  230  to a bottom  278  of drink container  63 , drink container  63  further includes a sealer  212 . 
     Drink conduit  230  is preferably secured to drink container  63  by way of a conduit securer  214 . 
     Optionally, outflow of liquids through outflow duct  208  is enhanced by a liquid pump  216 . Liquid pump  216  is powered by a power supply selected from the group consisting of: a main power supply  240 , a fuel cell  280  and photo electric array  220 . 
     Optionally, a fiber optic controller  222  is configured to fiber optically control at least one component of component array  250 . 
     An activator  226  is activated subsequent to opening drink container  63  with opener  72 . 
     Optionally, drink  18  is carbonated and thus a pressure larger than one atmosphere is created in drink container  63 . Subsequently to opening drink container  63  with opener  72 , pressure in drink container  63  drops to the same pressure as the surrounding environment. 
     Thus, the pressure reduction reduces the pressure applied by drink  18  on activator  226  and bias  275  displaces displacement element  273  thereby activating activator  226 . Preferably, activator  226  is selected from the group consisting of: a pressure switch, an electrical switch, an electronic switch, a mechanical switch and an acoustic switch. 
     Optionally, for the purpose of preventing flow of drink  18  out of drink container  63  a seal  288  is attached to or integrally formed with drink conduit  230 . 
     A seal breaker  292  is attached to, or integrally formed with component array  250  such that attaching component array  250  to drink container  63  breaches seal  288  and readily facilitates of drink  18  into drink conduit  230 . 
     Preferably, component array  250  includes a compressed hydrogen container  260  for readily providing hydrogen to fuel cell  280  by way of a gas pipe  232 . Preferably, conduit securer  214  readily secures fuel cell  280  and aligns inflow duct  206  and outflow duct  208 . 
     A pressure valve  261  is attached to, or integrally formed with, compressed hydrogen container  260  for readily controlling the pressure and/or quantities of hydrogen flowing from hydrogen container  260  to fuel cell  280 . 
     Optionally, a hydrogen container securing element  228  is provided for securing hydrogen container  260  to component array  250 . 
     Fuel cell  280  is geared towards an electrochemical conversion. Fuel cell  280  preferably produces electricity from fuel on an anode side  234  and an oxidant on a cathode side  281 , which react in the presence of an electrolyte  244 . The reactants flow into fuel cell  280 , and the reaction products flow out of fuel cell  280  by way of flow pipe  236 , while electrolyte  244  remains within fuel cell  280 . Fuel cell  280  preferably operates substantially continuously as long as the flow to anode side  234  and cathode side  281  is maintained. 
     Fuel cell  280  is selected from the group consisting of an electrochemical cell, at least one battery which at least one battery consumes a reactant from an external source, which must be replenished, a thermodynamically open system, at least one battery storing electrical energy chemically and a thermodynamically closed system. 
     Preferably and as shown in  FIG. 1 , fuel cell  280  is a hydrogen fuel cell including hydrogen as its fuel and oxygen from air as its oxidant. Hydrogen flows from hydrogen container  260  to anode side  234  and comes into contact with oxygen flowing from air flowing from outside drink container  63  through a filtered aperture  268  formed in drink container  63 . Air flowing from filtered aperture  268  formed in drink container  63  travels through air pipe  269  to cathode side  281 , thereby providing the oxygen as the oxidant. 
     Alternatively and by way of example only, other usable fuels instead of hydrogen include hydrocarbons and alcohols. By way of example only, other oxidants can include chlorine and chlorine dioxide. 
     Optionally, a catalyst  242  is situated between anode side  234  and cathode side  281 . 
     Preferably, drink container  63  includes a component array closure  290 . Preferably, component array closure  290  is secured to drink container by locking mechanism  254 . Locking mechanism  254  is geared toward securing and locking component array closure  290  to drink container  63 . Preferably, component array closure  290  is readily removable by the manufacturer or filler of drink  18  for the purpose of access, refueling fuel cell  280  and maintenance of component array  250 . 
     By way of an example only, an electromechanical solenoid  252  includes an electromagnetically inductive coil  256 , wound around a displaceable armature  248 . Electromagnetically inductive coil  256  is shaped such that displaceable armature  248  is readily displaced in and out of the center of electromechanical solenoid  252 , altering inductance of electromagnetically inductive coil  256  and thereby becoming an electromagnet. Displaceable armature  248  is geared towards providing a mechanical force to locking mechanism  254 . 
     The force applied to displaceable armature  248  is proportional to the change in inductance of electromagnetically inductive coil  256  with respect to the change in position of displaceable armature  248 , and the current flowing through electromagnetically inductive coil  256 . The force applied to displaceable armature  248  will displace displaceable armature  248  in a direction that increases the inductance of electromagnetically inductive coil  256 . 
     Component array  250  preferably includes an antenna  270  for transceiving responsively to cellular module  76 . 
     For the purpose of enhancing output and reception levels, antenna  270  is preferably a directional antenna or a horn antenna. 
     Component array  250  preferably includes at least one interface selected from the group consisting of: a USB interface  258 , a PDA interface  262 , a cellular interface  264 , a memory card interface  266 , a computer interface  272  and a control interface  274 . 
     Component array  250  preferably includes a photographic module  299  geared towards capturing still images, clips and video images. 
     Component array  250  preferably includes an omni-directional antenna  298  for low power transmission. 
     Component array preferably utilizes drink  18  for cooling at least one component of component array  250 . 
     Drink  18  flows through a cooling mechanism  286 . Preferably a valve mechanism  284  controls the flow of drink  18  through cooling mechanism  286 . 
     Cooling mechanism is geared towards cooling a management module  294 , control module  295  and memory unit  296 . A cooling exit  297  readily facilitates flow of drink  18  subsequent to drink  18  cooling at least one component of component array  250 . 
     Preferably, a unidirectional valve  285  connects cooling exit  297  and facilitates flow of drink  18  from cooling exit  297  into flow pipe  236 . 
     Preferably, component array  250  is secured to drink container  63  by way of a locking mechanism  231 . Locking mechanism  231  is geared towards fitting, replacing and/or recycling, maintenance and re-use of component array  250  in additional drink containers  63 . 
     Management module  294  preferably manages and controls energy consumption of component array  250 . 
     Optionally memory unit  296  is a “flash” memory unit. 
     For the purpose of sealing an upper surface  282  of component array  250 , drink container  63  further includes a drink conduit  230 . Drink conduit  230  is preferably secured to drink container  63  by way of a conduit securer  214 . 
       FIG. 2  illustrates a bottled drink container  500 . Preferably bottled drink container  500  includes a bottle closure  501 . Like above, bottled drink container  500  preferably includes a multimedia module  62 . Preferably, bottled drink container  500  includes an earphone jack  65  for readily accommodating an earphone plug  66  of an earphone  68  or an earphone set  70 . 
     Preferably, bottled drink container  500  accommodates an electronic and projecting unit  20 . Preferably, bottled drink container  500  includes at least one speaker  16 . When the user uses opens bottle closure  501 , the opening of bottled drink container  500  is sensed by a sensor  74  and operates electronic and projecting unit  20 . Optionally, a control module  295  uses images and sounds that are held in memory unit  296  to project images on a wall  14  of bottled drink container  500  and sound voices via speaker  16  for a period of time. 
     Preferably, control module  295  is electronically attached to or integrally formed with a radio device  28  facilitating a user to listen to radio device  28  at will. 
     Preferably, radio device  28  is preset to a given station according to the intended consumers of drink  18  contained in bottled drink container  500 . Preferably, bottled drink container  500  includes a cellular module  76  for readily facilitating a user to use bottled drink container  500  as a cellular phone pre-charged with a predetermined value of calls. Thus, cellular module  76  can utilize an earphone jack  78  for readily accommodating an earphone plug  80 , which earphone plug  80  is attached to, or integrally formed with an earphone  82  or earphone set  84 . Preferably earphone  82  or earphone set  84  includes or is integrally formed with a microphone  86  for readily facilitating two-way conversations with cellular module  76 . 
     Preferably, bottled drink container  500  includes an array of photo-electric cells  220  for readily generating power for bottled drink container  500 . 
     Preferably control module  295  controls cellular module  76 . 
     Preferably, bottled drink container  500  includes a component array  250 . Component array  250  includes a drink conduit  230  for readily facilitating flow of drink  18  and/or activation of components within component array  250 . 
     For the purpose of sealing an upper surface  282  of component array  250 , drink conduit  230  is preferably secured to bottled drink container  500  by way of a conduit securer  214 . 
     Similarly, drink conduit  230  includes an inflow duct  276  for readily facilitating flow of drink  18  subsequently to opening of bottle closure  501 . Drink conduit  230  also preferably includes an outflow duct  208  for readily facilitating flow of liquids into bottled drink container  500 . 
     Outflow duct includes a unidirectional flow control  206  for preventing drink  18  from entering component array through outflow duct  208 . 
     Preferably, a purification filter  224  purifies liquids flowing through outflow duct  208  into drink  18 . 
     For the purpose of sealing drink conduit  230  to a bottle bottom  503  of bottled drink container  500 , bottled drink container  500  further includes a sealer  212 . 
     Drink conduit  230  is preferably secured to bottled drink container  500  by way of a conduit securer  214 . 
     Optionally, outflow of liquids through outflow duct  208  is enhanced by a liquid pump  216 . Liquid pump  216  is powered by a power supply selected from the group consisting of: a main power supply  240 , a fuel cell  280  and photo electric array  220 . 
     Optionally, a fiber optic controller  222  is configured to fiber optically control at least one component of component array  250 . 
     An activator  226  is activated subsequent to opening bottled drink container  500  with bottle closure  501 . 
     Optionally, drink  18  is carbonated and thus a pressure larger than one atmosphere is created in bottled drink container  500 . Subsequently to opening bottled drink container  500 , pressure in bottled drink container  500  drops to the same pressure as the surrounding environment. 
     Thus, the pressure reduction reduces the pressure applied by drink  18  on activator  226  and bias  275  displaces displacement element  273  thereby activating activator  226 . Preferably, activator  226  is selected from the group consisting of: a pressure switch, an electrical switch, an electronic switch, a mechanical switch and an acoustic switch. 
     Optionally, for the purpose of preventing flow of drink  18  out of bottled drink container  500  a seal  288  is attached to or integrally formed with drink conduit  230 . 
     A seal breaker  292  is attached to, or integrally formed with component array  250  such that attaching component array  250  to bottled drink container  500  breaches seal  288  and readily facilitates of drink  18  into drink conduit  230 . 
     Preferably, component array  250  includes a compressed hydrogen container  260  for readily providing hydrogen to fuel cell  280  by way of a gas pipe  232 . Preferably, conduit securer  214  readily secures fuel cell  280  and aligns inflow duct  206  and outflow duct  208 . 
     A pressure valve  261  is attached to, or integrally formed with, compressed hydrogen container  260  for readily controlling the pressure and/or quantities of hydrogen flowing from hydrogen container  260  to fuel cell  280 . 
     Optionally, a hydrogen container securing element  228  is provided for securing hydrogen container  260  to component array  250 . 
     Fuel cell  280  is geared towards an electrochemical conversion. Fuel cell  280  preferably produces electricity from fuel on an anode side  234  and an oxidant on a cathode side  281 , which react in the presence of an electrolyte  244 . The reactants flow into fuel cell  280 , and the reaction products flow out of fuel cell  280  by way of flow pipe  236 , while electrolyte  244  remains within fuel cell  280 . Fuel cell  280  preferably operates substantially continuously as long as the flow to anode side  234  and cathode side  281  is maintained. 
     Fuel cell  280  is selected from the group consisting of an electrochemical cell, at least one battery which at least one battery consumes a reactant from an external source, which must be replenished, a thermodynamically open system, at least one battery storing electrical energy chemically and a thermodynamically closed system. 
     Preferably and as shown in  FIG. 2 , fuel cell  280  is a hydrogen fuel cell including hydrogen as its fuel and oxygen from air as its oxidant. Hydrogen flows from hydrogen container  260  to anode side  234  and comes into contact with oxygen flowing from air flowing from outside bottled drink container  500  through a filtered aperture  268  formed in bottled drink container  500 . Air flowing from filtered aperture  268  formed in bottled drink container  500  travels through air pipe  269  to cathode side  281 , thereby providing the oxygen as the oxidant. 
     Alternatively and by way of example only, other usable fuels instead of hydrogen include hydrocarbons and alcohols. By way of example only, other oxidants can include chlorine and chlorine dioxide. 
     Optionally, a catalyst  242  is situated between anode side  234  and cathode side  281 . 
     Preferably, bottled drink container  500  includes a component array closure  290 . Preferably, component array closure  290  is secured to drink container by locking mechanism  254 . Locking mechanism  254  is geared toward securing and locking component array closure  290  to bottled drink container  500 . Preferably, component array closure  290  is readily removable by the manufacturer or filler of drink  18  for the purpose of access, refueling fuel cell  280  and maintenance of component array  250 . 
     By way of an example only, an electromechanical solenoid  252  includes an electromagnetically inductive coil  256 , wound around a displaceable armature  248 . Electromagnetically inductive coil  256  is shaped such that displaceable armature  248  is readily displaced in and out of the center of electromechanical solenoid  252  altering inductance of electromagnetically inductive coil  256  and thereby becoming an electromagnet. Displaceable armature  248  is geared towards providing a mechanical force to locking mechanism  254 . 
     The force applied to displaceable armature  248  is proportional to the change in inductance of electromagnetically inductive coil  256  with respect to the change in position of displaceable armature  248 , and the current flowing through electromagnetically inductive coil  256 . The force applied to displaceable armature  248  will displace displaceable armature  248  in a direction that increases the inductance of electromagnetically inductive coil  256 . 
     Component array  250  preferably includes an antenna  270  for transceiving responsively to cellular module  76 . 
     For the purpose of enhancing output and reception levels, antenna  270  is preferably a directional antenna or a horn antenna. 
     Component array  250  preferably includes at least one interface selected from the group consisting of: a USB interface  258 , a PDA interface  262 , a cellular interface  264 , a memory card interface  266 , a computer interface  272  and a control interface  274 . 
     Component array  250  preferably includes a photographic module  299  geared towards capturing still images, clips and video images. 
     Component array  250  preferably includes an omni-directional antenna  298  for low power transmission. 
     Component array preferably utilizes drink  18  for cooling at least one component of component array  250 . 
     Drink  18  flows through a cooling mechanism  286 . Preferably, a valve mechanism  284  controls the flow of drink  18  through cooling mechanism  286 . 
     Cooling mechanism is geared towards cooling a management module  294 , control module  295  and memory unit  296 . A cooling exit  297  readily facilitates flow of drink  18  subsequent to drink  18  cooling at least one component of component array  250 . 
     Preferably, a unidirectional valve  285  connects cooling exit  297  and facilitates flow of drink  18  from cooling exit  297  into flow pipe  236 . 
     Preferably, component array  250  is secured to bottled drink container  500  by way of a locking mechanism  231 . Locking mechanism  231  is geared towards fitting, replacing and/or recycling, maintenance and re-use of component array  250  in additional bottled drink containers  500 . 
     Management module  294  preferably manages and controls energy consumption of component array  250 . 
       FIG. 3  illustrates a food container  10  includes a food  305 . Food container  10  includes a semi flexible floor  50 . Preferably, a user inserts an article such as a spoon  52  for the purpose of consuming food  305 . Preferably, thereafter spoon  52  displaces flexible floor  50  thereby triggering a pressure switch  316 , which pressure switch  316  activates an audio device  54 . Audio device  54  plays music, tones or a voice recording via a speaker  56  substantially during, before or after food  305  is consumed. 
     Preferably, an electronic and projecting unit  20  is electronically attached to or integrally formed with radio device  28  facilitating a user to listen to radio device  28  at will. 
     Preferably, radio device  28  is preset to a given station according to the intended consumers of food  305  contained in food container  10 . 
     Like above, food container  10  includes a cellular module  76  for readily facilitating a user to use food container  10  as a cellular phone pre-charged with a predetermined value of calls. Thus, cellular module  76  can utilizes earphone jack  32  for readily accommodating earphone plug  34 , which earphone plug  34  is attached to, or integrally formed with earphone  36  or earphone set  38 . Preferably earphone  36  or earphone set  38  include or are integrally formed with microphone  40  for readily facilitating two-way conversations with cellular module  76 . Preferably, food container  10  includes food  305  and a communication module  58 . Communication module  58  is preferably selected from the group consisting of, a cellular communication module, a satellite communication module, a Bluetooth communication module, an RF communication module, a local area network communication module an IR communication module and a wired communication module. Communication module  58  preferably readily facilitates communication with a remote apparatus  60 . 
     Preferably, remote apparatus  60  is selected from the group consisting of: a computer, a PDA and a Cell phone. 
     Preferably, a multimedia module  375  is electronically attached to, or integrally formed with food container  10  such that multimedia module  375  can be remotely activated by a user, thereby inducing a child to consume the contents of food container  10 . 
     Food container  10  includes a food closure  310  and accommodates an electronic and projecting unit  20 . When the user uses opens food closure  310  and enters an a article such as spoon  52 , into food container  10  is sensed by an entry sensor  251  and optionally operates electronic and projecting unit  20 . Optionally, a control module  365  uses images and/or sounds held in a memory unit  380  to project images on a wall  318  of food container  10  and sound voices via speaker  56  for a period of time. 
     Preferably, control module  365  is electronically attached to or integrally formed with radio device  28  facilitating a user to listen to radio device  28  at will. 
     Preferably, food container  10  includes an array of photo-electric cells  220  for readily generating power for food container  10 . 
     Preferably control module  365  controls cellular module  76 . 
     Preferably, food container  10  includes a food component array  350 . Food component array  350  includes a plunger  330  for readily facilitating displacement by spoon  52  displacing flexible floor  50  and/or activation of components within food component array  350 . 
     Optionally, remote apparatus  60  controls food component array  350 . 
     For the purpose of sealing plunger  330  to an upper surface  282  of food component array  350 , food container  10  further includes a plunger conduit  340 . Plunger conduit  340  is preferably secured to food container  10  by way of a plunger conduit securer  325 . 
     Optionally, a fiber optic controller  222  is configured to fiber optically control at least one component of food component array  350 . 
     A food activator  316  is activated subsequent to displacing plunger  330 . 
     Preferably, food activator  316  is selected from the group consisting of: a pressure switch, an electrical switch, an electronic switch, a mechanical switch and an acoustic switch. 
     Like above, food component array  350  includes a compressed hydrogen container  260  for readily providing hydrogen to a fuel cell  280  by way of a gas pipe  232 . Preferably, plunger conduit securer  325  readily secures fuel cell  280 . 
     A pressure valve  261  is attached to, or integrally formed with, compressed hydrogen container  260  for readily controlling the pressure and/or quantities of hydrogen flowing from hydrogen container  260  to fuel cell  280 . 
     Optionally, a hydrogen container securing element  228  is provided for securing hydrogen container  260  to food component array  350 . 
     Fuel cell  280  is geared towards an electrochemical conversion. Fuel cell  280  preferably produces electricity from fuel on an anode side  234  and an oxidant on a cathode side  281 , which react in the presence of an electrolyte  244 . The reactants flow into fuel cell  280 , and the reaction products flow out of fuel cell  280  by way of a flow pipe  236 , while electrolyte  244  remains within fuel cell  280 . Fuel cell  280  preferably operates substantially continuously as long as the flow to anode side  234  and cathode side  281  is maintained. 
     Fuel cell  280  is selected from the group consisting of an electrochemical cell, at least one battery which at least one battery consumes a reactant from an external source, which must be replenished, a thermodynamically open system, at least one battery storing electrical energy chemically and a thermodynamically closed system. 
     Preferably and as shown in  FIG. 3  as well, fuel cell  280  is a hydrogen fuel cell including hydrogen as its fuel and oxygen from air as its oxidant. Hydrogen flows from hydrogen container  260  to anode side  234  and comes into contact with oxygen flowing from air flowing from outside food container  10  through a filtered aperture  268  formed in food container  10 . Air flowing from filtered aperture  268  formed in food container  10  travels through an air pipe  269  to cathode side  281 , thereby providing the oxygen as the oxidant. 
     Alternatively and by way of example only, other usable fuels instead of hydrogen include hydrocarbons and alcohols. By way of example only, other oxidants can include chlorine and chlorine dioxide. 
     Optionally, a catalyst  242  is situated between anode side  234  and cathode side  281 . 
     Preferably, food container  10  includes a component array closure  290 . Preferably, component array closure  290  is secured to drink container by a locking mechanism  254 . Locking mechanism  254  is geared toward securing and locking component array closure  290  to food container  10 . Preferably, component array closure  290  is readily removable by the manufacturer or filler of food  305  for the purpose of access, refueling fuel cell  280  and maintenance of food component array  350 . 
     By way of an example only, an electromechanical solenoid  252  includes an electromagnetically inductive coil  256 , wound around a displaceable armature  248 . Electromagnetically inductive coil  256  is shaped such that displaceable armature  248  is readily displaced in and out of the center of electromechanical solenoid  252 , altering inductance of electromagnetically inductive coil  256  and thereby becoming an electromagnet. Displaceable armature  248  is geared towards providing a mechanical force to locking mechanism  254 . 
     The force applied to displaceable armature  248  is proportional to the change in inductance of electromagnetically inductive coil  256  with respect to the change in position of displaceable armature  248 , and the current flowing through electromagnetically inductive coil  256 . The force applied to displaceable armature  248  will displace displaceable armature  248  in a direction that increases the inductance of electromagnetically inductive coil  256 . 
     Food component array  350  preferably includes a multi channel antenna  298  for transceiving responsively to cellular module  76 . 
     Food component array  350  preferably includes at least one interface selected from the group consisting of: a USB interface  258 , a PDA interface  262 , a cellular interface  264 , a memory card interface  266 , a computer interface  272  and a control interface  274 . 
     Food component array  350  preferably includes a photographic module  299  geared towards capturing still images, clips and video images. 
     Preferably, multi channel antenna  298  is an omni-directional antenna for low power transmission. 
     Component array preferably utilizes food  305  for cooling at least one component of food component array  350 . 
     Cellular module  76  is powered by a power supply selected from the group consisting of: a main power supply  240 , a fuel cell  280  and photo electric array  220 . 
     Preferably, food component array  350  is secured to food container  10  by way of a locking mechanism  231 . Locking mechanism  231  is geared towards fitting, replacing and/or recycling, maintenance and re-use of food component array  350  in additional food containers  10 . 
     For the purpose of controlling energy output and energy consumption of food component array  350 , an energy controller  360  is provided. 
     For the purpose of remote control of management of food component array  350 , a remote controller  370  is provided. 
     Optionally, flow pipe  236  has a flow reservoir  390  for collection of output from flow pipe  236 . 
     Food component array  350  preferably includes an antenna  270  for transceiving responsively to cellular module  76 . 
     For the purpose of enhancing output and reception levels, antenna  270  is preferably a directional antenna or a horn antenna. 
       FIG. 4  illustrates array adapter  400  with an audio device  54  geared towards playing music, tunes or voice recordings, via a speaker  56 . 
     Preferably, an electronic and projecting unit  20  is electronically attached to or integrally formed with radio device  28  facilitating a user to listen to radio device  28  at will. 
     Preferably, radio device  28  is preset to a given station. Array adapter  400  includes a cellular module  76  for readily facilitating a user to use array adapter  400  as a cellular phone pre-charged with a predetermined value of calls. Thus, cellular module  76  can utilizes earphone jack  32  for readily accommodating earphone plug  34 , which earphone plug  34  is attached to, or integrally formed with earphone  36  or earphone set  38 . Preferably earphone  36  or earphone set  38  include or are integrally formed with microphone  40  for readily facilitating two-way conversations with cellular module  76 . 
     Preferably, array adapter  400  includes a communication module  58 . Communication module  58  is preferably selected from the group consisting of: a cellular communication module, a satellite communication module, a Bluetooth communication module, an RF communication module, a local area network communication module an IR communication module and a wired communication module. Communication module  58  preferably readily facilitates communication with a remote apparatus  60 . 
     Preferably, remote apparatus  60  is selected from the group consisting of: a computer, a PDA and a Cell phone. 
     Preferably, a multimedia module  375  is electronically attached to, or integrally formed with array adapter  400  such that multimedia module  375  can be remotely activated by a user. 
     Preferably, a control module  365  is electronically attached to or integrally formed with radio device  28  facilitating a user to listen to radio device  28  at will. 
     Preferably control module  365  controls cellular module  76 . 
     Preferably, array adapter  400  includes an adapter component array  450 . Adapter component array  450  includes an external hydrogen supply  430 . 
     For the purpose of sealing external hydrogen supply  430  to an upper surface  282  of adapter component array  450 , array adapter  400  further includes an external supply conduit  444 . External supply conduit  444  is preferably secured to array adapter  400  by way of an external supply conduit securer  414 . 
     Optionally, a fiber optic controller  222  is configured to fiber optically control at least one component of adapter component array  450 . 
     For the purpose of controlling energy output and energy consumption of adapter component array  450 , an energy controller  360  is provided. Energy controller  360  also controls flow of hydrogen through external hydrogen supply  430  by way of a flow controller  428  geared towards controlling flow of hydrogen through external hydrogen supply  430 . Like above, adapter component array  450  includes a compressed hydrogen container  260  for readily providing hydrogen to a fuel cell  280  by way of a gas pipe  232 . Preferably, an external supply conduit securer  414  readily secures fuel cell  280 . 
     A pressure valve  261  is attached to, or integrally formed with, compressed hydrogen container  260  for readily controlling the pressure and/or quantities of hydrogen flowing from hydrogen container  260  to fuel cell  280 . 
     Preferably, energy controller  360  controls opening and closing pressure valve  261  as well as the quantity of hydrogen passing from compressed hydrogen container  260 . 
     Optionally, a hydrogen container securing element  228  is provided for securing hydrogen container  260  to adapter component array  450 . 
     Fuel cell  280  is geared towards an electrochemical conversion. Fuel cell  280  preferably produces electricity from fuel on an anode side  234  and an oxidant on a cathode side  281 , which react in the presence of an electrolyte  244 . The reactants flow into fuel cell  280 , and the reaction products flow out of fuel cell  280  by way of a flow pipe  236 , while electrolyte  244  remains within fuel cell  280 . Fuel cell  280  preferably operates substantially continuously as long as the flow to anode side  234  and cathode side  281  is maintained. 
     Fuel cell  280  is selected from the group consisting of an electrochemical cell, at least one battery which at least one battery consumes a reactant from an external source, which must be replenished, a thermodynamically open system, at least one battery storing electrical energy chemically and a thermodynamically closed system. 
     Preferably and as shown in  FIG. 4  as well, fuel cell  280  is a hydrogen fuel cell including hydrogen as its fuel and oxygen from air as its oxidant. Hydrogen flows from hydrogen container  260  to anode side  234  and comes into contact with oxygen flowing from air flowing from outside adapter component array  450  through a filtered aperture  268  formed in adapter component array  450 . Air flowing from filtered aperture  268  formed in adapter component array  450  travels through an air pipe  269  to cathode side  281 , thereby providing the oxygen as the oxidant. 
     Alternatively and by way of example only, other usable fuels instead of hydrogen include hydrocarbons and alcohols. By way of example only, other oxidants can include chlorine and chlorine dioxide. 
     Optionally, a catalyst  242  is situated between anode side  234  and cathode side  281 . 
     Preferably, adapter component array  450  includes a locking mechanism  254 . Locking mechanism  254  is geared toward securing and locking adapter component array  450  to array adapter  400 . Preferably, a component array closure  290  is readily removable by the manufacturer or a technician of array adapter  400  for the purpose of access, refueling fuel cell  280  and maintenance of adapter component array  450 . 
     By way of an example only, an electromechanical solenoid  252  includes an electromagnetically inductive coil  256 , wound around a displaceable armature  248 . Electromagnetically inductive coil  256  is shaped such that displaceable armature  248  is readily displaced in and out of the center of electromechanical solenoid  252 , altering inductance of electromagnetically inductive coil  256  and thereby becoming an electromagnet. Displaceable armature  248  is geared towards providing a mechanical force to locking mechanism  254 . 
     The force applied to displaceable armature  248  is proportional to the change in inductance of electromagnetically inductive coil  256  with respect to the change in position of displaceable armature  248 , and the current flowing through electromagnetically inductive coil  256 . The force applied to displaceable armature  248  will displace displaceable armature  248  in a direction that increases the inductance of electromagnetically inductive coil  256 . 
     Adapter component array  450  preferably includes a multi channel antenna  298  for transceiving responsively to cellular module  76 . 
     Adapter component array  450  preferably includes at least one interface selected from the group consisting of: a USB interface  258 , a PDA interface  262 , a cellular interface  264 , a memory card interface  266 , a computer interface  272  and a control interface  274 . 
     Adapter component array  450  preferably includes a photographic module  299  geared towards capturing still images, clips and video images. 
     Multi channel antenna  298  is preferably an omni-directional antenna for low power transmission. 
     Cellular module  76  is powered by a power supply selected from the group consisting of: a main power supply  240 , a fuel cell  280  and photo electric array  220 . 
     Preferably, adapter component array  450  is secured to array adapter  400  by way of a locking mechanism  231 . Locking mechanism  231  is geared towards fitting, replacing and/or recycling, maintenance and re-use of adapter component array  450  in additional adapter component arrays  450 . 
     For the purpose of remote control of management of adapter component array  450 , a remote controller  370  is provided. 
     Preferably, array adapter  400  includes a coupler  410  for readily coupling and/or attaching array adapter  400  to electronic equipment, utility items, food containers, drink containers and the like. 
     Preferably, array adapter  400  includes an external power supplier  420  for external power supply to at least one component in adapter component arrays  450 . 
     Preferably, array adapter  400  includes an external control channel  440  for the purpose of wired communicating with external components and equipment as well as electronic equipment, utility items, food containers, drink containers and the like. 
     A unidirectional valve  408  is attached to or integrally formed with external supply conduit  444  for the purpose of controlling flow of hydrogen from external hydrogen supply  430 . External supply conduit  444  optionally includes an attachment element  404  for the purpose of attaching and/or securing external supply conduit  444 , unidirectional valve  408  and/or external hydrogen supply  430 . 
     Preferably, external supply conduit  444  is attached to, or integrally formed with external control channel  440  by way of a conduit attachment  460 . Optionally, external supply conduit  444  includes a control channel link  418  for readily relaying command and control links and/or instructions from external control channel  440  to adapter component array  450 . 
     For the purpose of relaying commands and/instructions to fiber optic controller  222 , a fiber optic attachment  480  is attached to, or integrally formed with external supply conduit  444 . 
     For the purpose of relaying power from external power supply  420  to fiber main power supply  240 , a power attachment  470  is attached to, or integrally formed with external supply conduit  444 . 
     Preferably, external supply conduit  444  includes a power link  448  for readily relaying power from external power supply  420  to adapter component array  450 . Preferably, power link  448  is attached to, or integrally formed with power supply  240  by way of a power attachment  490 . 
     For the purpose of controlling the content of flow reservoir  390  and/or drainage of flow reservoir  390 , a drainage pipe  434  is attached to or integrally formed with flow reservoir  390 . Preferably, drainage from flow reservoir  390  can be readily controlled upon demand or alternatively can readily facilitate drainage of flow reservoir  390  substantially continuously. Preferably, drainage pipe  434  readily facilitates removal of any material to the exterior of adapter component array  450  by way of a drainage aperture  438  formed in adapter component array  450 . Optionally a drainage valve  422  is attached to drainage aperture  438  formed in adapter component array  450  for the purpose of selective drainage of flow reservoir  390 . 
     Optionally, control module  365  uses images and/or sounds held in a memory unit  380 . 
     Preferably, a hydrogen connector  424  connects between unidirectional valve  408  and flow controller  428 . 
       FIG. 5  illustrates a transport container  600  for transporting goods, food, drink and commodities. Preferably, an array adapter  400  of  FIG. 4  is attached to, or integrally formed with, transport container for control and management of transport container  600 . Like above, array adapter  400  includes an audio device  54  of  FIG. 4  geared towards playing music, tunes or voice recordings, via a speaker  56  of  FIG. 4 . 
     Preferably, an electronic and projecting unit  20  is electronically attached to or integrally formed with a display  612  of  FIG. 5  and a radio device  28  of  FIG. 4  facilitating a user to listen to radio device  28  at will. 
     As shown in  FIG. 4 , array adapter  400  includes a cellular module  76  for readily facilitating a user to use array adapter  400  as a cellular phone pre-charged with a predetermined value of calls. Thus, cellular module  76  can utilizes earphone jack  32  for readily accommodating earphone plug  34 , which earphone plug  34  is attached to, or integrally formed with earphone  36  or earphone set  38 . Preferably earphone  36  or earphone set  38  include or are integrally formed with microphone  40  for readily facilitating two-way conversations with cellular module  76 . 
     For the purpose of clarity, array adapter  400  of  FIG. 4  is expressly incorporated herein in its entirety by reference thereto. 
     Energy controller  360  also controls flow of hydrogen through external hydrogen supply  430  by way of flow controller  428  geared towards controlling flow of hydrogen through external hydrogen supply  430 . Like above, adapter component array  450  includes a compressed hydrogen container  260  for readily providing hydrogen to a fuel cell  280  by way of a gas pipe  232 . Preferably, external supply conduit securer  414  readily secures fuel cell  280 . 
     Preferably, an external hydrogen supply  620  is attached to, or integrally formed with transport container  600 . Preferably, an external hydrogen supply valve  605  is controlled by array adapter  400  for controlling the quantity, rate and closure of supply valve  605 . Preferably, an attachment pipe  606  connects between hydrogen supply valve  605  and external hydrogen supply  430 . 
     Preferably, transport container  600  includes a first closure  603  and a second closure  604  similarly to transport containers known in the art. Optionally, second closure  604  includes a command panel  610  for readily controlling and displaying telemetry of transport container  600 . Preferably, transport container  600  includes at least one telemetry sensor  611  selected from the group consisting of: a temperature sensor, a humidity sensor, a motion sensor, a security sensor, and an integrity sensor. Preferably, command panel  610  includes an access control biometric mechanism  608 . 
     For the purpose of readily facilitating transmission and/or receipt of commands from remote sources, an antenna  601  is attached to, or integrally formed with, transport container  600  and responsive to array adapter  400 . 
     By way of example only, array adapter  400  may be retrofitted to transport containers  600  by way of situating array adapter  400  in upper part  607  of transport container  600 . 
     Alternatively, by way of an additional non limiting example only, array adapter  400  may be retrofitted to transport containers  600  by way of situating array adapter  400  in a compartment  602  formed in first closure  603 , thereby readily facilitating retrofitting of transport container  600  by way of replacing first closure  603 . 
       FIG. 6  illustrates a vending machine  88  with a multimedia module  90  for projecting an image or movies viewable on a display  94 . Multimedia module  90  is geared towards producing sound, music and audio by way of a speaker  96 . Vending machine  88  contains at least one food package  98 . Multimedia module  90  is operated according to predetermined criteria e.g., activating vending machine  88 , entering payment to vending machine  88  and the like. An electronic unit  100  and a projecting unit  102  project images  104  such that images  104  are viewable and images  104  can be seen from outside of vending machine  88 . 
     Preferably, substantially contemporaneously with electronic unit  100  playing sounds via speaker  96 , images  104  or a movie, substantially together with audible music and sound are played during consumption of food package  98  by the user. 
     Preferably, electronic unit  100  is electronically attached to or integrally formed with a radio device  106  facilitating a user to listen to the radio at will. 
     Preferably, radio device  106  is preset to a given station according to the intended consumers of the food/drink in vending machine  88 . 
     Preferably, electronic unit  100  is electronically attached to or integrally formed with a radio  106  facilitating a user to listen to radio device  106  at will. 
     Preferably, radio  106  is preset to a given station according to the intended consumers of food package  98  contained in vending machine  88 . 
     Preferably, vending machine  88  includes a cellular vending module  108  for readily facilitating a user to use a cellular phone to pay for food package  98  by billing the account of the user. 
     Preferably, vending machine  88  includes a door shaped closure  110  for closing vending machine  88 . Preferably, vending machine  88  includes a remote control sub-system  113  for readily facilitating remote access to multimedia module  90 , a cooling unit  700  and an array adapter  400 . 
     Preferably, array adapter  400  includes a remote command module  370 . 
     Optionally, a remote apparatus  122  readily controls remote command module  370 . 
     For the purpose of clarity, array adapter  400  of  FIG. 4  is expressly incorporated herein in its entirety by reference thereto. 
     Like above, array adapter  400  includes an adapter component array  450 . Adapter component array  450  includes an external hydrogen supply  430 . 
     Optionally, remote apparatus  122  readily controls array adapter  400  of  FIG. 4 . 
     Preferably, vending machine  88  includes a communication module  120 . Communication module  120  is preferably selected from the group consisting of: a cellular communication module, a satellite communication module, a Bluetooth communication module, an RE communication module, a local area network communication module an IR communication module and a wired communication module. Communication module  120  preferably readily facilitates communication with a remote apparatus  122 . 
     Preferably, remote apparatus  122  is selected from the group consisting of: a computer, a PDA and a Cell phone. 
     Thus, multimedia module  90  is electronically attached to, or integrally formed with such that vending machine  88  can be remotely activated by a user. 
     Preferably, vending machine  88  includes an access control biometric mechanism  608  for the purpose of controlling access and/or replenishing or replacement of food packages  98 . 
     Preferably, multimedia module  90  can be used for projecting an image or movies viewable on an outside wall  92 . Multimedia module  90  is operated according to predetermined criteria e.g., opening vending machine  88 . 
     Preferably, substantially contemporaneously with electronic unit  100  playing sounds via speaker  96 , images  104  or a movie, substantially together with audible music and sound are played during consumption of food package  98  by the user. 
     For the purpose of readily facilitating transmission and/or receipt of commands from remote sources, an antenna  710  is attached to, or integrally formed with, vending machine  88  and responsive to array adapter  400 . 
     Preferably, an adjustable display mount  720  situates and/or displaces display  94  to a pre-set direction. Alternatively, adjustable display mount  720  is responsive to array adapter  400  to readily control displacement of display  94  to a specific angle or substantially continuously displace display  94 . 
     An illumination source  730  is attached to vending machine  88  and responsive to commands from array adapter  400 . By way of a non-limiting example only, illumination source  730  includes and light emitting diodes (LED) matrix  735 . Light emitting diodes (LED) matrix  735  is geared towards providing enhanced energy consumption properties and/or providing a plurality of colored illumination schemes. 
     Door shaped closure  110  preferably includes a handle  740  for readily facilitating of access and/or replenishing or replacement of food packages  98 . 
     A plurality of food package bases  750  are provided for the purpose of situating, storing or securing food packages  98  in vending machine  88 . 
     Preferably, an external vending hydrogen supply  770  is attached to, or integrally formed with vending machine  88 . Preferably, an external hydrogen vending supply valve  780  is controlled by array adapter  400  for controlling the quantity, rate and closure of vending supply valve  780 . Preferably, an attachment vending pipe  790  connects between hydrogen vending supply valve  780  and external hydrogen supply  430 . Optionally, multimedia module  375  is electronically attached to, or integrally formed with vending machine  88  such that multimedia module  375  can be remotely activated by a user, thereby inducing consumption of the contents of vending machine  88 . a control module  365  is electronically attached to or integrally formed with radio device  28  facilitating a user to listen to radio device  28  at will. 
     Preferably control module  365  controls cellular module  76 , projecting; unit  102 , multimedia module  90 , electronic unit  100  and/or radio device  106 . 
       FIG. 7  shows a first drink dispenser  800  which utilizes a drink container  810  for the purpose of dispensing a drink  805 . Preferably, drink container  810  attaches to drink dispenser  800  by way of a drink attachment  820 . Preferably, drink attachment  820  attaches drink container  810  to drink dispenser  800  according to the methods known in the art for attaching drink containers to drink dispensers. 
     Similarly to methods known in the art, a drink pipe  802  is provided for readily facilitating transfer of drink  805  from drink container  810  to a dispensing unit  835 . 
     Here as well, array adapter  400  of  FIG. 4  is expressly incorporated herein in its entirety by reference thereto.  FIG. 7  shows array adapter  400  is preferably connected to dispensing unit  835  for the purpose of controlling and/or supervising dispensing unit  835 . 
     Preferably, a dispensing command panel  850  includes an access control biometric mechanism  608 . Preferably, a temperature controlled outlet  860  is geared towards lowering the temperature of drink  805  to a prerequisite temperature. Preferably, an enhanced temperature outlet  865  is geared towards raising the temperature of drink  805  to a prerequisite temperature. Thus, either heated of cooled drinks  805  are readily dispensed by drink dispenser  800 . 
     A drainage system  870  is provided for draining any overflow or spillage of drink  805  according to methods known in the art. 
     A drainage pipe  804  preferably connects array adapter  400  and drainage system  870 . Namely, drainage valve  422  is attached to drainage aperture  438  formed in adapter component array  450  for the purpose of selective drainage of flow reservoir  390  through drainage pipe  804  to drainage system  870 . 
     Here as well, external vending hydrogen supply  770  of  FIG. 6  is expressly incorporated herein in its entirety by reference thereto. 
     External vending hydrogen supply  770  is attached to, or integrally formed with array adapter  400  for the purpose of providing hydrogen to array adapter  400 . 
     Preferably, drink dispenser  800  includes a plurality of indicators  840  for readily indicating proper function of drink dispenser, dispensing, drink, cooling, heating and proper function of array adapter  400 . 
       FIG. 8  shows a second drink dispenser  900  which utilizes an external drink supply  830  for the purpose of dispensing a drink. Preferably, external drink supply  830  attaches to second drink dispenser  900  by way of an external drink attachment  920 . Preferably, external drink attachment  920  attaches external drink supply  830  to second drink dispenser  800  according to the methods known in the art for attaching external drink supplies to drink dispensers. 
     Similarly to methods known in the art, a second drink pipe  902  is provided for readily facilitating transfer of drink from external drink supply  830  to a dispensing unit  835 . 
     Here as well, array adapter  400  of  FIG. 4  is expressly incorporated herein in its entirety by reference thereto.  FIG. 8  shows array adapter  400  preferably connected to dispensing unit  835  for the purpose of controlling and/or supervising dispensing unit  835 . 
     Here as well, a dispensing command panel  850  includes an access control biometric mechanism  608 . Preferably, a temperature controlled outlet  860  is geared towards lowering the temperature of drink to a prerequisite temperature. Preferably, an enhanced temperature outlet  865  is geared towards raising the temperature of drink to a prerequisite temperature. Thus, either heated of cooled drinks are readily dispensed by second drink dispenser  900 . 
     Similarly, a drainage system  870  is provided for draining any overflow or spillage of drink according to methods known in the art. 
     A second drainage pipe  904  preferably connects array adapter  400  and drainage system  870 . Namely, a drainage valve  422  is attached to drainage aperture  438  formed in adapter component array  450  for the purpose of selective drainage of flow reservoir  390  through second drainage pipe  904  to drainage system  870 . 
     Here as well, external vending hydrogen supply  770  of  FIG. 6  is expressly incorporated herein in its entirety by reference thereto. 
     External vending hydrogen supply  770  is attached to, or integrally formed with array adapter  400  for the purpose of providing hydrogen to array adapter  400 . 
     Preferably, second drink dispenser  900  includes a plurality of indicators  840  for readily indicating proper function of drink dispenser, dispensing, drink, cooling, heating and proper function of array adapter  400   
     Although the invention has been described in conjunction with specific embodiments thereof it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art, accordingly, it is intended to embrace all such alternatives, modifications and variations that fall within the spirit and broad scope of the appended claims.

Technology Category: a