Patent Document

CROSS-REFERENCE TO RELATED APPLICATION  
       [0001]    The present application claims the benefit of U.S. Provisional Patent Application Serial No. 60/415,745 entitled “MICRO-PROCESSOR PROGRAMMABLE AND SELECTABLE VENDING OPTIONS AND CONTROL” filed Oct. 4, 2002. 
     
    
     
       BACKGROUND OF THE INVENTION  
         [0002]    1. Field of the Invention  
           [0003]    In general, the invention is directed to the field of vending or dispensing machines adapted to dispense cylindrical items such as bottles or cans.  
           [0004]    2. Discussion of the Prior Art  
           [0005]    Various vending machines have been proposed in the past to vend articles such as bottles and cans stored in multiple columns located within a cabinet. Typically, in the prior art, various different mechanisms have been proposed to vend a single item at a time from such a storage arrangement. For example, a semi-cylindrical cradle mounted for rotation about an axis under each column of articles has been proposed such that articles enter the cradle and as the cradle rotates the articles are dispensed. The cradle may be segmented so that front or rear articles are vended depending on the rotational angle of the cradle. See for example, U.S. Pat. No. 4,298,138 incorporated herein by reference.  
           [0006]    Alternatively, there has been proposed to use an oscillating bail to selectively release a single article at a time. During an initial swinging motion of the bail, an article will be released from the front or rear of one of the columns in the cabinet and further movement of the bail thereafter releases an article from the other of either the front or rear of the column so that multiple articles can be released from the single column. See for example U.S. Pat. Nos. 4,019,650 and 4,036,400 both of which are incorporated herein by reference.  
           [0007]    Often in prior art vending machines when the cradle or bail has reached a certain position or predetermined vend angle, a product will be dispensed. Typically a switching means provides a signal to the vending machine&#39;s controller to indicate that the dispensing position has been reached. Of course the use of such a switching device to provide a signal to the control unit takes up space in the vending machine and thereby reduces the quantity of articles that the machine is able to hold. Such a educed quantity of articles in the vending machine requires vending machine operators to fill the machines more often and is generally considered less efficient and less desirable. However, in the past such a switching means has been necessary to easily allow an operator to simply change the mechanical switch setting when a new product package becomes available and is placed in the vending machine.  
           [0008]    As can be seen from the above discussion, there exists a need in the art of vending machines for a mechanism to signal the vending machine controller, the vending angle of a cradle or bail for a given product which does not require a sensing switch and is easy to set up when new products are loaded into the vending machine.  
         SUMMARY OF THE INVENTION  
         [0009]    The present invention employs an electronic control unit in a vending machine which may be easily programmed initially with predefined vending angles of a cradle corresponding to existing products or vended items and, additionally, has the option of setting custom vending angles when a new, perhaps previously unknown, product package is to be vended from the machine. The predefined storage angles allow a user to rapidly set-up the machine for existing package types, thereby avoiding wasting time by having to enter custom angle settings for all package types. Also the option of using a custom angle settings when needed solves the problem of requiring a new control program to be loaded whenever a new package type becomes available.  
           [0010]    Specifically, the vending machine control mechanism of the present invention employs a vending machine menu system controller wherein a user can select a certain mode, such as a “package” option, wherein certain settings may be inputted into the machine. Specifically, in the package mode, the user is prompted to select a particular column in the machine for which the package type is going to be changed. The user can either select a single column to be adjusted or select all the columns so that they may all be adjusted at once. Of course selecting all columns decreases the amount of time required to set the package type if the entire machine is dispensing the same type of packages. Upon selecting either the “all” or specific column, the menu then switches to prompt the user to select either a predefined package type, such as, for example, a can or a bottle, or a custom selection. The number and variety of predetermined package types is only limited by the space for the software existing in the memory of the vending machine. If a predefined package type is selected, then the angles needed for the controller are loaded from existing software tables or from algorithms that calculate the dispensing angles. These new settings may be saved and the machine is ready for operation. However, if the user selects a custom setting, the user is prompted to enter the angle of rotation that will cause a product to be dispensed and then the angle for the pre-dispensed position. After entry of these angles or the selection of a predefined setting, the user is then given a save prompt. If the user selects the save prompt, then the changes made by the user are saved. However, the user may also select a cancel operation, in which case the settings are returned to their prior values and the operator is returned to the column selection prompt where the operator can chose to exit to the main level or modify the package type of a different column.  
           [0011]    Additional objects, features and advantages of the present invention will become more readily apparent from the following detailed description when taken in conjunction with the drawings wherein like reference numerals refer to corresponding parts. 
       
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       [0012]    [0012]FIG. 1 is a front plan view of the inside of a vending machine incorporating a vending machine controller according to a preferred embodiment of the present invention;  
         [0013]    [0013]FIG. 2 is a block diagram of the vending machine controller according to a preferred embodiment of the present invention;  
         [0014]    FIGS.  3  is a schematic view showing the dispensing of articles from a column in the vending machine;  
         [0015]    FIGS.  4  is another schematic view showing the dispensing of articles from a column in the vending machine;  
         [0016]    [0016]FIG. 5 is a flow chart showing the overall logic followed during a service mode in the vending machine;  
         [0017]    [0017]FIG. 6 is a flow chart showing a test routine of FIG. 5 in more detail;  
         [0018]    [0018]FIG. 7 is a flow chart showing a set selection depth routine of FIG. 5 in more detail; and  
         [0019]    [0019]FIG. 8 is a flow chart showing a set package type routine of FIG. 5 in more detail. 
     
    
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT  
       [0020]    With initial reference to FIG. 1, a vending machine  2  includes a cabinet frame  4  having top, bottom, side and rear walls  6 - 10  that collectively define a central cavity  14 . In a manner known in the art, a first pair of wheels or casters  16  and  17  are secured to a front edge portion of bottom wall  7  to facilitate the positioning of vending machine  2 . Of course it should be realized that a second pair of wheels (not shown) are also arranged on a rear portion of bottom wall  7 . A door  18  is pivotally mounted to cabinet frame  4  to selectively enable access to central cavity  14  in order to load various product containers or other commodities into vending machine  2 . Door  18  is provided with a locking mechanism, shown in the form of a threaded rod  19 , to retain door  18  in a closed position so as to prevent pilfering of the commodities from central cavity  14 . Door  18  is also provided with an opening  20  to enable a consumer to remove a vended product container or other commodity from vending machine  2 .  
         [0021]    Central cavity  14  includes a storage section  21 , a dispensing section  22 , a delivery section  24  and a lower section  26 . Storage section  21  is provided to hold products in escrow until a vending operation is performed. Towards that end, storage section  21  is provided with a plurality of vertically extending column walls  32 - 36  which, together with side walls  8  and  9 , form a plurality of column or stack areas  40 - 45 . In the embodiment shown in FIG. 1, stack areas  40 - 45  constitute single stack columns. However, it should be understood that the present invention also encompasses vending machines having multi-stack columns. In any event, stack areas  40 - 45  are partitioned by walls  32 - 36  to contain, separate and support a plurality of generally cylindrical product containers  49  which, in the embodiment shown, constitute soda cans.  
         [0022]    As further shown in FIG. 1, dispensing section  22  is provided with a frontal support wall  60  having arranged thereon a plurality of vend motors  65 . Behind support wall  60  are arranged a plurality of bails or cradles, as shown in FIGS. 3 and 4 and discussed below. Actually, each column or stack area  40 - 45  is provided with an associated bail or cradle hereinafter referred to as a cradle operated through a respective one of the plurality of vend motors  65 . Upon selection of a particular product container  49  or other commodity, one of the plurality of vend motors  65  is activated to rotate a respective cradle causing a product container or package  49 , corresponding to the selected product to emerge from vending machine  2 . That is, container  49  is transported to a product delivery chute  70  provided in delivery section  24  which is exposed to opening  20  in door  18 . In order to maintain containers  49  in a refrigerated state, lower section  26  is provided with a cooling system  75 .  
         [0023]    The above description is provided for the sake of completeness and to enable a better understanding of the drawings. The present invention is particularly directed to the incorporation of a vending machine controller into vending machine  2 . Referring now to FIG. 2, there is shown a block diagram depicting an overall vending machine controller  80  for controlling vending machine  2 . In accordance with the most preferred embodiment of the invention, an electronic control unit (ECU)  82  is provided with memory  83 . An input unit  84  has numerous buttons which may be depressed by an operator to provide ECU  82  with information. Specifically provided are up and down buttons  90  and  92  along with an enter button  94  and an abort button  96 . These buttons  90 ,  92 ,  94  and  96  are preferably located on a panel only available to the vending machine owner. Additionally provided are product select buttons, generally indicated at  97 , which will vend a particular product when depressed. Various sensors  98  provide ECU  82  with information regarding vending machine  2 . Signals from input unit  84  and sensors  98  are all sent to ECU  82 . ECU  82  can also send information to a motor control  100  which regulates motor  65 . Additionally, ECU  82  can send signals to the user via a display unit  104 .  
         [0024]    Referring now to FIGS. 3 and 4, there is representatively shown stack area  41  in the form of a rectangular compartment  108  which is located within cabinet frame  4  of vending machine  2 . Compartment  108  includes side walls  32  and  33  that are designed to retain containers  49  in a column like configuration. A cradle  109  is provided on a stub shaft  110  and mounted in a rotatable manner between side wall  32  and side wall  33 . In operation, as cradle  109  rotates, a respective container  49  located between side walls  32  and  33  will drop by the force of gravity into cradle  109  so as to be ready for vending. When a customer deposits money into vending machine  2 , cradle  109  will rotate further so that, at a certain angle of rotation, one container  49  will be dispensed. After container  49  is dispensed, continued rotation of cradle  109  to a certain angle will allow the next consecutive container  49  to be received within cradle  109  and the operation is ready to begin once again upon insertion of additional coins by a customer. Motion of cradle  109  is caused by motor  65  which turns shaft  110  and is controlled by motor control  100  which is actuated by ECU  82 .  
         [0025]    Referring now to FIG. 5, there is depicted a flow chart illustrating the overall operation of controller  80  of vending machine  2  when controller  80  enters a service mode. Initially, vending machine  2  machine operates in a normal mode at step  200 . During this mode, vending machine  2  operates in a generally conventional manner to dispense containers  49  in response to money deposited by customers who desire a product. When vending machine  2  is to be serviced, vending machine  2  is put into a service mode as depicted in step  210 . Once vending machine  2  enters the service mode, the owner or operator can select one of several menu options to either read data registers located within memory unit  83  or program machine configuration information. Service mode  210  might be called a code level because display  104  will operate to display codes of all the possible routines available to the operator. The operator may scroll through the various codes in step  220  by using up button  90  or down button  92 , with the code for each routine is displayed in sequence. While other routines  280  may be made available, an enter test routine  250 , a set selection depth routine  260  and a set package type routine  270  will be discussed here.  
         [0026]    Once the desired routine is presented in display unit  104  by using up and down buttons  90  and  92 , enter button  94  is pressed in order to select that particular routine. Alternatively, abort button  96  may be selected, in which case, controller  80  returns to the normal mode. While up and down buttons  90 ,  92 , along with enter and abort buttons  94 ,  96 , have been mentioned here, any other type of input maybe used to communicate with vending machine controller  80 . For example, a numeric keypad or an alpha numeric keyboard could be used to enter such information.  
         [0027]    Once a particular routine is entered, vending machine controller  80  will show on display unit  104  what particular routine is currently being used. With respect to the test routine having a select test menu  250  as shown in FIG. 6, display  104  will show the first test to be available. For example, the default test could be a column vend test  310  used to determine whether or not a particular compartment or stack area  40 - 45  is vending properly. However, once again the operator may use up or down button  90 ,  92  to scroll through the various available tests, such as a column vend test  310 , a jog test  410 , and a selection switch test  510 . While these three tests have been disclosed here, numerous other tests could also be incorporated into the vend test routine. Once a particular test is selected, enter button  94  is pushed and the particular test will be run. Activation of abort button  96  will return vending machine controller  80  to a service routine menu  220  where the first particular routine is displayed.  
         [0028]    If column vend test  310  is chosen, display unit  104  shows a message indicating that a test vend of compartment  108  of vending machine  2  is to be initiated. Once again, use of up or down button  90 ,  92  will cycle through the available choices. In this case, the routine allows cycling between the various different compartments or stack areas  40 - 45  of vending machine  2 . Once a particular column or stack area  40 - 45  is selected, depression of enter button  94  will initiate the running of a test vend  330  of that displayed compartment. Activation of abort button  96  returns vending machine controller  80  to the select test menu  250  so that other tests may be chosen.  
         [0029]    If jog test  410  is chosen by enter button  94  being activated when the jog prompt is displayed, vending machine controller  80  enters jog test routine  410  and shows a message indicating that the jog test will be conducted on compartment  108  of vending machine  2  on the display  104 . Use of the up or down button  90 ,  92  at this point will cycle through the available compartments which may be tested. Once a particular compartment or column is chosen at step  420 , display  104  will indicate a forward direction message indicating that the test will be done in a forward direction. Using up or down button  90 ,  92 , vending machine controller  80  will sequentially present or scroll through the forward direction, the reverse direction or the prime test at step  430 . Activation of enter button  94  will initiate whatever test  440  was being displayed. During the actual jog test, the direction of travel will remain indicated on display unit  104  and vending machine controller  80  will be activated, and remain activated, until enter button  94  is released. Vending machine controller  80  will continue to cause motor  65  to rotate in the same direction of travel without regard to vend position. During the entire jog test process, the various mechanisms, i.e., motors and switches of vending machine  2 , will be monitored by sensors  98  so that the test may be interrupted before any damage to part of the mechanism could occur.  
         [0030]    During a prime test, a prime test signal will remain indicated on display  104  during the test. Again, vending machine controller  80  will remain activated until the last indicated compartment or stack area  40 - 45  has completed priming. Throughout the entire prime process, sensors  28  will monitor all the mechanisms, motor and switches, and the prime test will be interrupted should continuation of the test potentially damage any part of vending machine  2 .  
         [0031]    In a similar manner, selecting switch test  510  be entered by pressing of enter button  94  when select switch test  510  is indicated in display  104 . When any selection button  97  is depressed, as at step  520 , a run test will be performed at  530  and a corresponding selection number will be displayed on display  104  to indicate that the selection switch is working. The last selection switch will remain on display  104  until a timer expires or abort button  96  is pressed and held for two seconds, at which point vending machine controller  80  will return to test menu  250 .  
         [0032]    Turning now to FIG. 7, set selection depth routine  260  will be discussed in more detail. Once set selection depth routine  260  has been selected, display  104  will show the current setting for the particular product, along with the number of containers  49  that can be loaded and the depth of the particular compartments or stack areas  40 - 45  assigned to that selection. For example, if an “01,01” is presented on display  104 , product type number 1 can be stacked one container deep. If display  104  were to present “03,02”, product number 3 could be stacked two containers 49 deep in each associated stack area  40 - 45 . Using up or down buttons  90 ,  92  will cycle through all the available selections at step  610 . At the end of the last selection, the option of choosing all of the selections will appear. At any time, activation of abort button  96  returns vending machine controller  80  to step  220  with display  104  showing set selection depth routine  260 . When a particular selection change is displayed, the pressing of enter button  94  enables vending machine controller  80  to enter an edit mode at  620 . In edit mode  620 , the up or down buttons  90 ,  92  will be used to increase or decrease the number of containers  49  that are able to be placed in each stack area  40 - 45 . Finally, the new setting is activated by pushing enter button  94  to save the displayed setting within vending machine controller  80 . Activation of abort button  96  while in edit mode  620  simply disables all changes without saving the displayed setting and returns vending machine controller  80  to step  260 .  
         [0033]    Turning now to FIG. 8, there is shown set package type routine  270  in greater detail. If the operator of vending machine  2  requires that vending machine controller  80  know exactly the package size of a particular product loaded into a stack area  40 - 45 , set package type routine  270  must be used. When the set package routine prompt is displayed on display  104  and enter button  94  is activated, vending machine controller  80  enters set package type routine  270 . Upon entry into this routine, display  104  will show the current setting for a selection indicating both the type of package and the particular stack area  40 - 45  in which the package is located. Using up or down buttons  90 ,  92  will sequence through the present settings at step  710  for all the available compartments or stack areas  40 - 45  within vending machine  2 . Additionally, an “all” selection is available so that all compartment settings may be adjusted at one time. Finally, pressing enter button  94  in step  720  saves the displayed setting and exits the edit mode. Activation of abort button  96  while in the edit mode will delete the changes without saving and returns vending machine controller  80  to step  270 .  
         [0034]    The settings for standard products chosen during this edit routine are preprogrammed into vending machine controller  80  based on standard packages to be vended. These settings of the angle required for either an oscillating bail or a rotating cradle are stored in memory  83  of ECU  82 . As can be seen from the above discussion, the loading of preset angles in step  720  for vending and pre-vending enable an operator to quickly set-up vending machine controller  80  to different known packages. However, should a new package be placed in vending machine  2 , selection of a custom setting, as shown in step  730 , must be made so that the angles for the vend position and pre-vend position of cradle  109  may be set.  
         [0035]    Upon entry of the set custom angles routine, the prompt for a first package will be displayed. Use of up or down buttons  90 ,  92  increases or decreases the settings of the angles for the product and a particular number and stack area  40 - 45  can then be entered. Once the desired angle setting has been displayed, enter button  94  may be pressed in step  740  so that the vend angle setting for that product will be known by vending machine controller  80 . Activation of abort button  96  will cause the settings to revert to their default values. After the vend angle has been entered, use of up or down buttons  90 ,  92  adjusts the display of valid hold angles for a product. Again, activation of abort button  96  cancels the selection. However, activation of enter button  94  will cause the current product angle number to be displayed and the current hold angle number to be stored in a temporary location. Once both the angle for the vending and the angle for the hold have been temporarily stored and are correct, activation of enter button  94  will cause all vend angle and hold angle settings to be stored at step  750  in memory  83  so that vending machine  2  may now vend a new product or package of a different non-standard size.  
         [0036]    Based on the above, it should be apparent that the present invention enables the vending machine to control rotation of the output of each of the plurality of vend motors through a desired vend angle, with the desired vend angle being readily established based on the product container to be dispensed. With the electronic control unit including a memory having stored therein various predetermined vend angles corresponding to known product containers, while being easily programmable to retain supplementary vend angles for additional product containers. The programming can be performed on each individual stack area such that the vending machine can be used in connection with dispensing a wide range of differently configured products, or vending information for all of the stack areas can be established simultaneously. In addition, the electronic control unit advantageously enables a series of program routines to be executed, thereby further increasing the overall versatility of the vending machine for present and future use.  
         [0037]    Although described with reference to a preferred embodiment of the invention, it should be readily understood that various changes and/or modifications can be made to the invention without departing from the spirit thereof. For instance, the particular manner in which the programming and option selections are carried out can be varied from the button arrangement described above. For instance, a touch screen could be employed. In addition, the particular programming/selection sequences could be altered, while still performing corresponding functions to that described above. In general, the invention is only intended to be limited by the scope of the following claims.

Technology Category: 3