Abstract:
The present invention involves various combinations of new and existing technology to create vending machines with a number of improvements such as, credit and debit card verification in real-time, the incorporation of CDPD technology, multiple vends per one payment, vending of large products, bag dispensing, and the incorporation of microwaves into vending machines.

Description:
TECHNICAL FIELD  
         [0001]    The present invention generally relates to vending machines and payment mechanisms used in vending machines.  
         BACKGROUND  
         [0002]    Vending machines have been around for many years. In the past, vending machines accepted coin money and/or paper money as payment before providing a person with a selected item. Recently, vending machines have incorporated automated technology to process credit and debit card transactions. While this has provided an added convenience to the customer, these machines have been limited to selective real-time processing due to cost considerations. In these machines, validation is only conducted in real-time if the card used by the customer has not previously been used in the machine in a predetermined time period, or if the transaction is above a predetermined amount. Further, systems such as that disclosed in U.S. Pat. No. 5,285,382 to Muehlberger rely on local validation, which includes memory storage of a previously validated card during a predetermined period, as well as rejection of previously invalidated cards during another predetermined period. The disadvantage of a system that does not validate in real-time each time a card is used is that the risk of vending a product in error is greatly increased due to increased credit risk. This risk of error poses a significant problem in vending machines where a large number of transactions are conducted per day.  
           [0003]    Clearly, a vending machine with credit card and/or debit card technology that quickly validates in real-time with each transaction without being cost prohibitive to vending machine operators, would be highly desirable.  
           [0004]    Further, existing vending machines having some type of credit or debit card technology have incorporated this technology in conjunction with cash payment technology. Because these machines also have cash payment technology, these machines incur significant traditional operating costs. For instance, operators of this type of vending machine incur high security costs because of the vandalism associated with machines having cash-based technology. Further, these machines have high labor costs because the cash reserves must be collected, counted, and supplemented when necessary in order to ensure that the machines carry enough change for customers using cash to pay for items. Further, a great deal of labor time is expended insuring that skimming does not occur in the process of cash collection. A number of personnel must be involved in the process to ensure that sufficient checks are in place such that no one person may skim cash from a machine without having other personnel involved in the process being aware of the inconsistency.  
           [0005]    Clearly, it would be desirable to greatly reduce these operating costs by the introduction of cashless vending machines.  
           [0006]    Also, in existing vending machine systems, one item is dispensed for each transaction. That is, these machines provide one item per payment. The vending machine operator incurs transaction costs for each transaction. Thus, in existing systems, vending machine operators incur multiple transaction costs for customers who select more than one item for purchase. Further, making multiple payments inconveniences the customer.  
           [0007]    Clearly, a payment system that allows for multiple selected vends for one payment would be desirable.  
           [0008]    Currently, vending machines that dispense non-beverage items, such as food products, are designed to dispense small items (i.e., items of 12 ounces or less). These vending machines are ill-equipped to vend larger items. One reason that current vending machines are ill-equipped to vend larger items is that the landing area within the vending machine cannot withstand the force caused by the impact of a larger item as it lands on the landing area; and/or the larger non-beverage item is damaged upon impacting the landing area.  
           [0009]    However, there is a need for a vending machine that effectively dispenses larger non-beverage items without damaging the items or the machine. For instance, meal items (e.g., dinner entrees) are generally 16 ounces or greater. Currently, if a customer wants to pick up a frozen family style dinner after work—which is greater than 16 ounces—for feeding his/her family, then the customer must stop at a store to pick it up. This additional time-consuming stop inconveniences the customer.  
           [0010]    Clearly, there is a need for a vending machine that effectively dispenses larger non-beverage items. This type of vending machine would provide a customer with the meal products he/she would desire from a small store, without the inconvenience of having to purchase them there. Placed at the most convenient locations for customers, a vending machine of the present invention would provide a significant time-saving service.  
         SUMMARY  
         [0011]    The present invention involves various combinations of new and existing technology to create vending machines with a number of improvements such as, credit card, debit card, and swipe card verification in real-time, the incorporation of wireless CDPD technology, multiple vends per one payment, vending of large products, vending of frozen products, and the incorporation of microwaves into vending machines.  
           [0012]    For example, a first embodiment of the present invention relates to a vending machine that comprises a card payment mechanism that obtains real-time validation for each credit or debit card transaction regardless of the amount of payment or whether the card has been used previously in the system. The card payment system may include a card acceptor and a processor that includes a credit verification module. The credit verification module in conjunction with a communications unit may be adapted to communicate with a credit verification facility to obtain verification, which includes validation and authorization for the amount of a purchase. This communication may be done via land lines or by wireless systems, such as systems using CDPD wireless technology.  
           [0013]    A second embodiment of the present invention comprises a vending machine with a card payment mechanism in which the vending machine may provide two or more vends for each payment transaction. The second embodiment of the present invention may comprise two or more vending machines controlled by a terminal comprising a processor, a display operably connected to the processor, and software operable on the processor. The software enables multiple vends from the two or more machines in exchange for one payment to cover the cost of all products vended.  
           [0014]    A third embodiment of the present invention comprises a vending machine for dispensing large products (i.e., approximately or greater than 16 ounces). This vending machine enables vending machine operators to provide customers with meal solutions traditionally available only in stores. Further, the vending machine operators may place these machines in places that are convenient to customers yet not practicable locations for traditional store owners to place stores.  
           [0015]    A fourth embodiment of the present invention comprises a cashless vending machine. This cashless embodiment allows vending machine operators to reduce a number of significant operating costs.  
           [0016]    A fifth embodiment of the present invention involves the incorporation of a bag dispenser into a cashless vending machine. This bag dispenser affords customers a convenient way to transport purchased products.  
           [0017]    A sixth embodiment of the present invention involves the incorporation of microwave units into vending machines that store frozen products, such that the products may be heated in the microwave units prior to consumption.  
           [0018]    Systems with the ability to incorporate the technology of the aforementioned embodiments either alone or in combination, i.e. accepting payment by methods other than coin money or paper money, accepting one payment for multiple purchases by methods other than coin money or paper money, dispensing large products, and dispensing bags to carry the products, are able to vend a wide range of products. For example, such systems may vend any type of meal solution food product, such as, but not limited to, frozen food, refrigerated food, and shelf-stabled food, such as cans or boxes of product, etc. and may vend a convenient bag in which the customer may carry the products purchased. Such systems provide customers with a way to conveniently purchase a wide variety of products without having to wait in line at a store or having to worry about arriving at a store during store hours.  
       
    
    
     DESCRIPTION OF THE FIGURES  
       [0019]    [0019]FIG. 1 shows a vending machine of the present invention that is adapted to dispense large products.  
         [0020]    [0020]FIG. 2A shows a side view of one embodiment of the driven gears and the idler gears of the vend mechanism.  
         [0021]    [0021]FIG. 2B shows a front view of one embodiment of the driver gears and the idler gears of the vend mechanism.  
         [0022]    [0022]FIG. 3A shows a front view of a control panel.  
         [0023]    [0023]FIG. 3B shows a side view of a control panel.  
         [0024]    [0024]FIG. 4A shows a front view of a control panel for a vending machine embodiment with a cashless payment system.  
         [0025]    [0025]FIG. 4B shows a side view of a control panel for a vending machine embodiment with a cashless payment system.  
         [0026]    [0026]FIG. 5 is a block diagram illustrating the relationship between a processor, selection mechanism, vend mechanism, payment mechanism, and communications unit.  
         [0027]    [0027]FIG. 6 is a flowchart of acts performed to enable use of credit cards (and debit cards) in vending machines.  
         [0028]    [0028]FIG. 7 shows a dual vending machine configuration with a credit payment system.  
         [0029]    [0029]FIG. 8 shows a vending machine that directly incorporates two microwaves into the vending machine. 
     
    
     DETAILED DESCRIPTION  
       [0030]    [0030]FIG. 1 shows one embodiment of the present invention. FIG. 1 shows a vending machine  10  that includes a product dispensing unit  12  and a control panel  14 . The embodiment shown in FIG. 1 has a housing  36  with a clear panel  38  that allows a customer to see the products  20  for sale. The vending machine  10  shown in FIG. 1 may be used to vend large products.  
       Product Dispensing Unit  
       [0031]    With reference to FIGS. 1, 2A, and  2 B, the product dispensing unit  12  will be described. As shown in FIG. 1, the product dispensing unit  12  may include a plurality of vend trays  16  with each vend tray having several vend helixes or vend coils  18  that hold product  20 , a first storage compartment  22 , a second storage compartment  24 , a vend mechanism  72 , and a delivery bin  26  with a cushioned pad  28 .  
         [0032]    Vend Trays  
         [0033]    Vending machine  10  may have one or more vend trays  16 . Each vend tray  16  may have coils to vend one or more products. In the embodiment shown in FIG. 1, each vend tray  16  is designed to vend three products  20 . Vend trays  16  are slidably connected to the housing. That is, the vend trays  16  may be pulled out of the housing to make loading it with product more convenient. Vend trays  16  are known to those skilled in the art.  
         [0034]    Vend Coils  
         [0035]    As more clearly shown in FIG. 2A, each vend helix  18  is in a generally spiral form. That is, each vend helix  18  is a coil that forms a generally cylindrical shape. Each vend helix  18  comprises a plurality of windings  40 . The space between each of a pair of windings  40  forms a compartment  42  for holding a product  20 . As shown in FIG. 1, each product  20  is held by a dual helix  19 . That is, two vend helixes  18  form a dual helix, whereby compartment  42  of both helixes is used to hold a product  20 . This configuration may be used to vend large products (i.e., approximately or greater than 16 ounces). Vend helixes or vend coils  18  are known to those of ordinary skill in this art.  
         [0036]    Dispensing or Vend Mechanism  
         [0037]    To dispense or vend a product  20 , a vend mechanism  72  (FIGS. 2A, 5) comprising a motor  44  connected to each vend helix  18  via a set of gears is used. As more clearly shown in FIGS. 2A and 2B, a motor  44  is connected to a vend helix  18  via a driven gear  46 . That is, for each dual helix  19  a motor  44  is connected to each vend helix  18  that forms a portion of the dual helix  19 . A driven gear  46  is connected between the motor  44  and the vend helix  18 . Between each of the two driven gears  46  are a pair of idler gears  48 . That is, the driven gears  46  each have a vend motor  44  attached—one that rotates the vend helix clockwise and one that rotates the vend helix counterclockwise. The idler gears  48  ensure that the vend helixes  18  that form the dual helix  19  rotate synchronously. A standard motor used in vending machines may be used with the present invention.  
         [0038]    Cushion Pad In Delivery Bin  
         [0039]    A vending machine  10  shown in FIG. 1 is one embodiment in which large food products may be sold. Large food products are products that are approximately or greater than 16 ounces. In vending such products, care must be taken such that the food product is not damaged when it is dropped to the delivery bin  26 . In one embodiment of the present invention, a cushioned pad  28  is placed on the floor of the delivery bin  26  so that the impact of the product  20  hitting the delivery bin does not damage the product  20 . Moreover, the cushioned pad  28  also serves to protect the delivery bin  26  from being damaged. In one embodiment of the present invention, the cushioned pad  28  is formed by using foam rubber wrapped in a plastic sheet.  
         [0040]    In operation, large products  20  may be placed in each compartment  42  of a vend tray  16  for purchase by customers. The customer pays for the product(s)  20  selected with cash, credit card, or debit card, and upon receiving the payment (or verification that the credit card account may be charged), the vending machine vends the product(s)  20  selected by the customer. The cushion pad  28  absorbs at least a portion of the impact when the selected product lands in the dispensing bin  26 . The customer then removes the vended product from the dispensing bin  26 .  
         [0041]    Bag Dispenser  
         [0042]    While not shown in FIG. 1, the vending machine  10  may include a bag dispenser for dispensing bags. In one embodiment (not shown), a box with bags for customer used are placed in a cashless vending machine. In a cashless vending machines, this bag box may be located where the coin tubes would be located in a machine with coin technology. See e.g., coin tubes  68  in FIG. 3B. A bag may be removed by the customer from a bag dispenser and used to carry product  20  purchased from the vending machine. The same type of coin return slot used on machines with coin technology may be used as the outlet for customers to access and take a bag. These coin return slots are well known in the art. See e.g., coin return slot  86  in FIG. 4A.  
         [0043]    Storage Compartments  
         [0044]    The vending machine shown in FIG. 1 also comprises a first storage compartment  22  and a second storage compartment  24  which may be used to store additional product  20  to be vended.  
         [0045]    Refrigeration Unit  
         [0046]    The vending machine  10  shown in FIG. 1 may be used to dispense large products that require refrigeration. In order to incorporate refrigeration technology into a vending machine, a refrigeration unit may be used. The use of a refrigeration unit is well-known to one of ordinary skill in the art. The vend trays  16  would be slidably attached to the interior of this refrigeration unit. Moreover, the storage compartments  22  and  24  may be formed within this refrigeration unit. Alternatively, the vending machine  10  would not have storage compartments  22  and  24  for storing additional product  20 . Instead, all product  20  would be displayed. The refrigeration unit may have a temperature control that would allow dispensation of either frozen foods or foods that require refrigeration.  
         [0047]    Microwave Units  
         [0048]    The vending machine  10  shown in FIG. 8, may display and/or store frozen or otherwise microwavable food product  20  in either vend trays  16 , storage compartments  22  and  24  or both. The embodiment shown in FIG. 8 shows the use of vend trays  16  for displaying food product  20 . The vending machine  10  may also directly incorporate one or more microwave units  94  for heating the food product  20  upon purchase. These microwave units  94  may have a door accessible to the customer. These microwaves  94  may be traditional microwaves  94  which are set for a period of time selected by the customer. Or, the microwaves  94  may be pre-set to heat food placed into the microwaves  94  for an amount appropriate for the food product displayed in the vending machine. This microwave  94  may start upon the user closing the door or pushing a button. Alternatively, the microwave  94  may have a sensor that senses when food has been placed in the microwave  94  and the door has been closed. In this alternative embodiment, the microwave  94  starts once each of these two events has occurred.  
         [0049]    As shown in FIG. 8, the vending machine may incorporate two microwaves  94  so that the vending machine may service two persons at one time that are waiting to purchase and consume microwavable food.  
       Control Panel  
       [0050]    With reference to FIGS. 1, 3A,  3 B,  4 A,  4 B,  5 , and  6 , an embodiment of a control panel  14  will be described. As shown in FIG. 1, a control panel  14  may include a payment acceptor  32 , a product selection mechanism  30 , and a display  34 , each of which may be operably connected to control circuitry  28 .  
         [0051]    Payment Mechanism  
         [0052]    The vending machine  10  may be designed to accept more than one method of payment via the payment acceptor  32 . The vending machine  10  may have a bill and/or coin payment acceptor  60 ,  62  (see FIGS. 3A and 3B) and/or a card payment acceptor  80  (see FIG. 4A).  
         [0053]    Bill and Coin Payment Mechanism  
         [0054]    With reference to FIGS. 3A and 3B, a payment acceptor  32  that comprises bill and coin money payment acceptors  60 ,  62  will be described. The bill acceptor  60  accepts dollar bills. FIG. 3A shows a front view of a control panel  14  that has a payment acceptor  32  which comprises a bill acceptor  60  and a coin acceptor  62 . The control panel  14  also may include a display  34 , a selection mechanism  30 , a coin return button  64 , a panel lock  66 , and an indicator light  74 . The bill acceptor  60  may be designed to accept one or more denominations of dollar bills. The bill acceptor  60  can detect the denomination of the dollar bill that it receives. Bill acceptor  60  is connected to control circuitry  28 . In one embodiment, the bill acceptor  60  may be designed to accept $1, $5, and $10 bills. Also, the vending machine  10  may be designed with coin tubes  68  to provide the customer with change, if necessary. Bill acceptors  60  are well known in the art, and any bill acceptor  60  may be used with the vending machine of the present invention.  
         [0055]    The coin acceptor  62  accepts coin money or, if desired, may accept any type of coin, including tokens. The coin acceptor  62  will determine the value of a deposited coin. The coin acceptor  62  is connected to the control circuitry  28 . The coin acceptor may be designed to accept any coin. In one embodiment, the coin acceptor mechanism may accept nickels, dimes, and quarters. The coin acceptor also may have coins in tubes  68  for providing change to a customer. Coin payment mechanisms are well known for use with vending machines, and any such coin payment mechanism may be used with the present invention.  
         [0056]    In operation, with respect to use of the bill and coin acceptors as the method of payment, the control circuitry  28  (along with any software used with the circuitry) receives a customer&#39;s payment information via the bill acceptor  60  or the coin acceptor  62 . The control circuitry  28  also receives information from the selection mechanism  30  as to the customer&#39;s selection of items. If the customer pays an amount that covers the cost of the purchase, then the control circuitry  28  controls the vend mechanism  72  and causes the selected products  20  to be delivered.  
         [0057]    Card Payment Mechanism  
         [0058]    As shown in FIG. 4A, the payment acceptor  32  on the control panel  14  of the vending machine  10  may include a card acceptor  80 . The card acceptor  80  may include a card reader  82  and a display. The card reader  82 , of the card acceptor  80 , may be a card reader  82  through which a customer swipes his/her payment card or may be a card reader  82  in which a customer inserts his/her payment card. In one embodiment, a payment card is one of a credit card, debit card, and store-valued card. Promotional store-valued cards set to an amount equal to an item vended by a given vending machine may be given to customers to encourage customers to try a free item from the vending machine. In operation, a customer may use a credit, debit or store-valued card to purchase items from the vending machine  10 .  
         [0059]    In order to implement a credit or debit card payment system with a vending machine  10 , each vending machine  10  may be equipped with a communication unit  90  that communicates with a processor  70  and a remote credit verification facility to conduct the transaction. The processor  70  in conjunction with a communication unit  90  may verify and initiate fund collection from most major credit cards and debit cards, including, for example, Visa and MasterCard.  
         [0060]    Also, each vending machine is equipped with a receipt printer  84  as part of the credit card system. This receipt printer  84  is legally required to be part of the credit card transaction. That is, the law requires the vending machine operator to provide a customer using a credit card with a receipt or to provide the customer with an opportunity to decline the receipt by pressing a button. Preferably, a thermal printer rather than a cutter printer is used for the required receipt, thus avoiding the frequent jamming associated with a cutter printer. The receipt printer  84  may be located on a credit verification module that also has the ability to print a receipt.  
         [0061]    Selection Mechanism  
         [0062]    The vending machine  10  includes a selection mechanism  30 . This mechanism is used by a customer to select a product  20  for purchase. In one embodiment, the selection mechanism  30  may be a keypad. However, any selection mechanism  30  may be used to enable a user to select the product  20  to be purchased.  
         [0063]    The selection mechanism  30  may also be used to enter a pin number in the event that a customer is charging a purchase to an ATM-type of debit card. Alternatively, a separate selection mechanism (not shown) may be used for the entrance of pin numbers for ATM cards. For example, if an adapted VeriFone Tranz 330 is used as a credit verification module, an attached PINpad 1000 available from Diebold may be attached for customer entry of pin numbers.  
         [0064]    The processor  70  is adapted to receive information from the selection mechanism  30 . In one embodiment, the user may be allowed to select more than one product  20  to be vended. The processor  70  may vend the selected product(s)  20  based on one payment transaction via a credit card, debit card, store-valued card and/or bill or coin money.  
         [0065]    Display  
         [0066]    The vending machine  10  also may have a display  34 . The display may be any display device  34 . In one embodiment, the display  34  is a color monitor. The processor  70  may inform the customer of the status of the purchase including informing the customer of when a credit card purchase is being verified by displaying this information on the display  34 .  
       Product Drop Sensor  
       [0067]    The vending machine  10  may also include a product drop sensor (not shown) to inform a processor  70  that the product  20  was delivered. If the product  20  was not delivered, then the processor  70  may be programmed to not accept or authorize the payment, thus reducing the customer&#39;s fear of losing his/her payment. Moreover, with the product drop sensor, multiple vends for one payment may be accomplished. That is, the product drop sensor can determine if the number of products  20  selected have been vended.  
       Communications Unit  
       [0068]    Also, each vending machine  10  may be equipped with a communications unit  90 . The communications unit  90  may be used to contact a credit verification facility to conduct card validation and to authorize payment of funds. Also, the communications unit  90  may be used to transmit reports on the status of the vending machine  10  from the processor  70  to the vending machine operator at all times. For example, the communications unit  90  may be used to automatically call the vending machine operator and report if the machine runs short of product  20  or has mechanical difficulties; i.e. the compressor stalls or quits or the temperature is not being maintained. In addition, this communications unit  90 , if used in a vending machine  10  with a coin acceptor  62 , may be used to let the vending machine operator know that additional change needs to be placed in the machine or that machine tampering is taking place. Further, the communications unit  90  may be used to transmit information regarding sales of particular products  20  and current inventories so that the vending machine operator may continuously re-design his or her stocking strategy.  
         [0069]    Communication technology, such as a cellular modem, any other wireless communication system, and/or a landline communication system may be used. Preferably, a wireless communication system, such as the CDPD wireless communication technology offered by Cellgate, is used to transfer information between the vending machine  10  and a credit verification facility. In order that wireless technology in remote vending machines functions optimally, preferably, an antennae is attached to the back of the vending machine  10  to ensure a better signal for wireless communications.  
         [0070]    CDPD technology may both receive and transmit data quickly and efficiently with minimal error. For example, the total transaction time using CDPD technology is approximately 4-6 seconds, from the time an amount to be validated is sent for verification to the time a product is vended. CDPD technology uses unused cellular channels (in the 800- to 900-MHZ range) to transmit and receive data in packets at a high speed and achieves quicker call set up than other communications technology and better error correction than modems or analog cellular channels. CDPD technology is well suited for short, periodic bursts of information, such as that needed for validation and authorization of payment collection from a credit card. CDPD technology is further well suited for use with vending machines because it is highly secure. CDPD technology is not only encrypted, but also involves channel hopping of the transmission. Further, CDPD technology will allow real-time processing to be less cost prohibitive because pricing plans are generally based on either low flat rates for the transmission of unlimited data or on file size of the data transmitted rather than the duration of the transmission.  
         [0071]    As an alternative to or in addition to a wireless communications unit, a land-line telephone connection may also be used with the vending machine.  
       Control Unit  
       [0072]    [0072]FIG. 5 is a block diagram showing one embodiment of the control circuitry  28 . As shown in FIG. 5, the control circuitry  28  comprises processor  70  operably connected to payment acceptor  32 , which may include a bill acceptor  60 , a coin acceptor  62 , a card acceptor  80 , and a selection mechanism  30 . The processor  70  is also operably connected to vend mechanism  72  and a communication unit  90 . The processor  70  may further comprise a credit verification module (not shown). Control circuitry that is manufactured by Coin Co. may be used for processing coin and bill dependent vending. An ACT A754 credit card acceptor may be used for multi-drop bus (MDB) vending, using, for example, a Diebold D5001 MDB Controller.  
         [0073]    [0073]FIG. 6 is a flow chart that describes the acts performed by the processor  70  to enable the vending machine  10  to use a card payment mechanism in one embodiment of the present invention. Software operable by the processor  70  may be used to control performance of the acts involved in a card payment transaction. At block  100 , a validation amount is determined. This amount may be determined in several ways. For example, the validation amount may be a preset amount. This preset amount may vary depending on whether the card is a credit card or debit card. Alternatively, the amount may be determined based on the total cost of one or more items selected for purchase by a customer. That is, the processor may receive the information relating to the product(s)  20  selected for purchase by a customer, calculate the total cost, confirm the total amount to be charged to the credit card, and then proceed with the acts to obtain validation.  
         [0074]    At block  102 , a credit verification facility is contacted. The control circuitry may make this call via wireless technology, such as CDPD technology, or via land lines. At block  104 , validation that the card may be charged with the amount of the purchase is requested. During validation, a message may be displayed at block  106  informing the customer that validation that the credit card may be charged is being obtained. If validation is not given at block  108 , then, at block  110 , a message may be displayed or a receipt printed informing the customer that the card has been rejected. However, if validation is given, then at block  112 , the product(s)  20  selected by the customer are dispensed. In one embodiment, the total transaction time is approximately or less than thirty (30) seconds, from the time an amount to be validated is sent for verification to the time a product is vended. In another embodiment, the total transaction time is approximately or less than fifteen (15) seconds, from the time an amount to be validated is sent for verification to the time a product is vended. In yet another embodiment, the total transaction time is approximately or less than ten (10) seconds, from the time an amount to be validated is sent for verification to the time a product is vended. In another embodiment, the total transaction time is approximately or less than six (6) seconds, from the time an amount to be validated is sent for verification to the time a product is vended.  
         [0075]    In operation, with respect to use of a credit card as the method of payment, the processor  70  (along with any software operable on the processor  70 ) determines the amount to be charged to the credit card based on a preset amount of based on the purchases to be made. The processor  70  then interacts with the communications unit  90  to contact a credit verification facility to obtain validation. If validation is obtained, then one or more products  20  is selected (if not already selected before verification). As long as the amount of purchase, based on the product(s)  20  selected, is under or equal to the amount verified, the processor  70  interacts with a vend mechanism  72 , such as the VMC Dispenser available from Diebold for dispensing the one or more selected product(s)  20 . The customer then removes the vended product(s)  20  from a product delivery bin  26 .  
         [0076]    In one embodiment, the processor  70  comprises a controller and a credit verification module that interact to process the overall credit or debit card and vending transaction. For example, a Diebold D5001 MDB Controller may be used in conjunction with a credit verification module, such as an adapted Diebold VeriFone Tranz 330, along with software operable by each, in the present invention.  
         [0077]    In such an embodiment, a customer may enter the desire to use a credit or ATM card on a selection pad and place his or her card into or through a card acceptor  80 . The credit verification module in conjunction with the communications unit  90  attempts to validate the customer&#39;s account for the applicable amount. If validation is achieved, then the credit verification module may communicate the validated amount of credit to the controller. If validation is sought and achieved before selections are made, the controller may start a timer that runs a specified amount of time during which the customer may make selections and indicate when he or she is finished. After the customer indicates that no more selections are to be made, after any transaction limit has been reached, or after any time-out period has expired, whichever occurs first, the controller will communicate this information to the credit verification module. The credit verification module will then complete the transaction and queue the amounts to be collected for uploading to a credit verification facility. The processor  70  may then transmit the transaction information, such as amount charged or that any charge or debit was denied, to a receipt printer  84  to be printed for the customer. For example, the Verifone Tranz 330 has the ability to print and cut a receipt using an external printer, such as an Axiohm printer. The receipt printer  84  may also be used by the vending machine operator to print simple reports.  
         [0078]    Preferably, real-time validation occurs with each transaction regardless of the amount of payment or whether the card has previously been used in the system. Final authorization of charge or debit to a card may be made at a specified time each day. Wireless technology, such as CDPD technology, makes it time and cost efficient to validate in real time with each transaction.  
         [0079]    While several payment mechanisms have been described for use with a vending machine  10 , the present invention contemplates vending machines  10  that use a credit or debit card payment system and quickly obtain real-time verification for each card use. Also, the present invention contemplates cashless vending machines that may vend more than one product  20  for one payment transaction. Cashless vending machines offer a number of advantages, including, a decreased need for security because money is not stored in the machine itself and decreased operator costs because the level of change in the machine does not have to be monitored and either collected or supplemented. Finally, any combination of payment systems may be implemented on a vending machine  10  of the present invention.  
       Multiple Vending Machines Connected to One Control Unit  
       [0080]    While the vending machine  10  may be a stand-alone machine, the card payment mechanism may be used on any configuration of a vending machine  10 . One such embodiment is shown in FIG. 7. FIG. 7 shows two vending machines operably connected with one control unit  28 . In particular, FIG. 7 shows a first vending machine  200  and a second vending machine  202 . The first vending machine  200  may be called the “master,” and the second vending machine may be called the “add-on unit.” In a preferred embodiment, the master  200  has one payment acceptor  32 , one selection mechanism  30 , and one control unit  28 . The payment acceptor  32  may include a bill and/or coin payment acceptor  60 ,  62  and a card payment acceptor  80 . Similarly the selection mechanism  30  allows a customer to select items from both of the interconnected vending machines. The control unit  28  controls both vending machines. In this embodiment, the single control unit  28  controls (1) determining if payment for items selected from either or both machines has been made and/or authorized; and (2) dispensing of items selected from either or both vending machines.  
         [0081]    In operation, vending machines of any type may be linked together. For instance, a two vending machine embodiment may be used to sell large family style dinners in one vending machine and sell small single serving dinners in the other vending machine. Another two vending machine embodiment may be used to sell dinner items (e.g., family style dinner entrees or single serving dinner entrees) in one vending machine with beverages being sold in the other vending machine. A further two vending machine embodiment may be used to sell a combination of food and non-food products, such as, food products in one vending machine and memorabilia, such as shirts and caps, in the other vending machine.  
         [0082]    In another embodiment, the vending machine operator provides a microwave which is placed adjacent to the vending machines. The microwave selections may be pre-set to correspond to the product(s)  20  in the machine. For example, if one of the products  20  in a vending machine is lasagna, the microwave may have a selection that when chosen, is pre-set with the appropriate time and power level to cook lasagna. A microwave may be provided with single vending machine embodiments or with multiple vending machine embodiments.  
         [0083]    A further embodiment of the present invention comprises one or more vending machines controlled by a terminal comprising a processor  70 , a display  34  operably connected to the processor  70 , and software operable on the processor  70 . The software enables multiple vends from the two or more machines in exchange for one payment to cover the cost of all the products  20  vended. One embodiment of this terminal may be configured similar to an ATM machine used by banks.  
         [0084]    Any general purpose or specialized processor  70  may be used with the present invention. The software operable on the processor  70  would enable a customer to purchase one or more products  20  from the two or more vending machines that are operably connected to the terminal. The terminal may accept credit or debit cards. Also, such a terminal may be configured to use stored-value cards. The terminal would have a communications unit  90 , operable by the processor  70 , to contact a credit/debit verification facility to authorize a charge to the account of the card used in the terminal.  
         [0085]    The software may be configured to enable the display  34  to show pictures of the products  20  to be vended as well as any special deals being offered. Also, the program may be configured to include tracking of frequent purchasers, and to reward each of these frequent purchasers.  
         [0086]    Also, modifications may be made remotely to the software. That is, prices for products  20  or other modifications may be made remotely to the terminal. The communications unit  90  may be used to load the software changes or a separate modem may be installed in the terminal for this purpose.  
         [0087]    In operation, a customer may approach the terminal, and insert a card (e.g., a credit card or debit card) in a card reader or swipe a card through a card reader  82 . The customer may then select one or more products  20  to purchase from the one or more vending machines connected to the terminal. The selections may be made via a selection mechanism  30 , such as a touch screen on the display  34  or a separate keypad next to the display  34 . After the selections are made, the processor  70  in conjunction with the communications unit  90  in the terminal initiates a call to a credit verification facility to obtain verification that the credit card or debit card may be charged with the amount of the purchase. If validation is received, then the selected product(s)  20  are vended. If validation is denied, the customer is notified that the validation is denied.  
         [0088]    From the foregoing, it will be obvious to those skilled in the art that various modifications in the above described devices can be made without departing from the spirit and scope of the invention. Accordingly, the invention may be embodied in other specific forms without departint from the spirit or essential characteristics thereof. Present embodiments, therefore, are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.