Vending device

A device for vending articles includes a stack of separator panels, each of which supports a product package, positioned in a storage bin. The bin has separator panel support tabs extending into the bottom thereof, and a pivot plate containing a panel-dislodging detent is located at the bin's bottom. The lowermost panel is dislodged from the support tabs by rotation of a pin forming part of an associated coin mechanism after proper coinage has been inserted into the mechanism and its operating handle has been turned. The pin forces the plate to pivot, causing its detent to press against the separator panel, thereby dislodging the panel from the support tabs, together with its product package. Once dislodged, the separator panel falls from the device, together with the vended article, the article proceeding to an area accessible to the purchaser, and the separator panel being retained on a hanger attached to the bin.

FIELD OF THE INVENTION 
This invention relates to a device for dispensing vendable articles. More 
particularly, this invention relates to a coin-operated vending device in 
which the vended articles are stored on individual panels that rest upon 
supports within the device until their movement from the storage location 
to a location at which the articles become accessible to purchasers 
thereof. Specifically, this invention relates to a device in which the 
vended articles are carried on moveable panels having a flat portion or 
flap which is downwardly pivotal under the weight of the articles carried 
thereon. During the vending process, an operating mechanism engages the 
pivoted flap of the lowest panel, dislodging it from its supported 
position, thereby causing the panel to fall from the device, and the 
article carried by the panel to drop to a location accessible to the 
would-be purchaser. 
BACKGROUND OF THE INVENTION 
Coin-operated machines able to release articles to purchasers thereof have 
long enjoyed great popularity for reasons including the fact that they can 
be left unattended, thereby reducing selling costs, and the fact that they 
are able to make sales continuously, day or night, whenever placed in a 
location open to the purchasing public. 
Among the many different coin-operated vending machines that have been used 
in the past may be mentioned those consisting of a number of 
product-holding compartments disposed one on top of another in vertical 
stacks. Frequently a vending machine will hold a number of such stacks, 
side-by-side. During the vending operation, the bottom of the compartments 
lose their support due to the action of internal operating linkages, 
causing the product located thereon to fall from the machine to an access 
location. 
While the use of such machines is widespread, they have the disadvantage of 
being inflexible with respect to the size of the product package that can 
be accommodated. In this regard, if the package is too large, it will not 
be receivable in a given compartment. On the other hand, if the 
compartment is larger than the product package, valuable vending space 
within the machine is unavailable for use. 
Another type of vending machine commonly employed to sell product 
automatically comprises vertical bins in which product packages are 
stacked directly on top of each other, with no intervening supports. In 
the process of vending, the lowermost package is pushed from the stack 
through an opening and into an area where it is available to a purchaser. 
Machines of the type described have the misfortune of being inflexible in 
that the opening through which the product is dispensed is designed for a 
specific package size, again making it impossible for the machine to vend 
packages of different sizes. 
A still further type of vending machine frequently encountered positions 
product packages between adjacent coils of horizontal, revolving, helical 
spirals. In the dispensing process, the insertion of the proper coinage 
activates the turning of the spirals, moving product packages held thereby 
to a point at which they are discharged from the coils and free to fall to 
a location accessible by purchasers. 
Again, such machines are inflexible in that the space between adjacent 
coils of the spirals determines the size of packages that can be 
accommodated. If a package is too large, it will not fit between the 
coils, while if it is too small, it will not be properly held in the 
coils, and thus will not be correctly propelled to the discharge location. 
In view of the preceding, it is a first aspect of this invention to provide 
a vending device that has the capability of vending different size 
packages. 
A second aspect of this invention is to provide a vending machine able to 
dispense product contained in small packages having variable geometry, 
such as small envelopes containing individual servings of powdered 
beverage concentrates. 
Another aspect of this invention is to provide a vending device that stores 
vendable product in product bins on movable support panels until it is 
delivered to purchasers. 
Another aspect of this invention is to provide a vending device in which 
the product supports are retained on a storage hanger following the 
dispensing process until the device is again reloaded with product. 
An additional aspect of this invention is to provide a vending device in 
which the vending process once activated is operated by the action of 
gravity. 
Yet an additional aspect of this invention is to provide a vending device 
that facilitates product loading procedures. 
Still another aspect of this invention is to provide a vending device that 
has simple operating mechanics, contains few operating components, and is 
easy and inexpensive to construct. 
BRIEF DESCRIPTION OF THE INVENTION 
The preceding and other desirable aspects of the invention, as will be 
evident from the remainder of the specification are achieved in a device 
for vending articles to purchasers comprising housing means and article 
separator means within the housing means for supporting and separating the 
articles. The separator means is movable from a first position in which 
support for the separator means is provided, to a second position in which 
the separator means is unsupported, allowing it and the articles supported 
by it to fall from the housing means. The device also includes support 
means associated with the housing means to support the article separator 
means and product contained thereon, as well as dislodgement means for 
dislodging the separator means from the support means, and means for 
activating the dislodgement means. 
The above and still other aspects of the invention are provided by a device 
for vending articles comprising a bin having an open bottom and a 
plurality of separator panels within the bin, adapted to carry and 
separate vendable articles stored therein. 
The panels include a flap forming a portion thereof that is pivotable 
downwardly when vendable articles rest thereon. The panels are movable 
from a first position in which support for the panels and the bin is 
provided, to a second position in which the panels are unsupported and 
free to fall from the bin, together with the vended articles. Support 
members are provided for supporting the panels within the bin, and a 
dislodgement member is included having a detent extending therefrom, the 
detent being adapted upon activation of the dislodgement member to engage 
the downwardly pivoted flap, causing dislodgement of the panel from the 
support members, and the discharge of articles supported thereby. A 
coin-operated mechanism for activating the dislodgement members also forms 
part of the device.

DETAILED DESCRIPTION OF THE INVENTION 
FIG. 1 is a side elevational view, partially broken away of a product 
dispensing device forming the invention. As shown, the device, generally 
10, comprises a coin mechanism 12 having an operating handle 16 connected 
to an operating cylinder 18 from which extends a coupling pin 20. Upon 
rotation of the operating handle 16 and the consequent rotation of 
operating cylinder 18, the coupling pin 20 activates the dispensing device 
10 by partially rotating pivot plate 22, forcing detent 24 to engage and 
push the lower-most separator 40 to the right, through port 41 and past a 
flexible separator panel-retaining flap 42. As the location of the 
separator panel proceeds beyond a critical point, i.e., the edge of 
separator panel support tabs 30a and 30b, better seen in FIG. 2, the left 
end of the separator panel 40 is free to fall from the device 10, allowing 
the product 44 held by the separator panel to fall from the device. While 
the left end of the separator panels falls from the device, the right-hand 
portion is retained on separator panel storage hanger 36, along which it 
slides to a captive position on the right side of the hanger. 
Following dispensing of product as described, pivot plate spring 28 forces 
detent 24 back into its non-engaging position, and a new separator panel 
with its included product drops downwardly into the lowermost position, 
where it remains available for a dispensing sequence. 
The separator panels 40 comprise a separator panel flap 50, better seen in 
FIG. 4, against which the detent 24 presses when the coin mechanism 12 is 
activated by insertion of the proper coinage and its operating handle 16 
is rotated. The coin mechanism 12 is attached to the dispensing device 14 
by means of a mounting bracket 21, while the separator storage hanger 36 
is connected to the dispensing device by a similar bracket 23, as shown. 
The separator panel flaps 50 are depressed from the plane of the separator 
panels 40 as a consequence of the weight of the product 44 thereon, and 
movement of the separator plates proceeds downwardly in the housing bin 38 
due to their weight, as well as the weight of the product 44 thereon, and 
the pressure exerted by weight plate 46. 
The weight plate 46 has a blocking tab 48 attached to one end thereof which 
jams the mechanism upon the dispensing of the last package of product 44, 
preventing further operation of the dispensing device until it is reloaded 
with product. The separator panels 40 and the product 44 are positioned in 
the housing bin 38, and an orderly descent of the separator panels is 
assured as a consequence of guide flanges 32 and 34, forming part of the 
housing 38, which are received into mating slots in the separator panel, 
better seen in FIG. 4. 
Although a coin mechanism similar to that shown in U.S. Pat. No. 5,188,027 
is illustrated in the Figure, the device is not limited to such a coin 
mechanism, but may be operated by any mechanism capable of displacing the 
lower-most separator panel 40, as described. 
The vending device and its associated dispensing mechanism may include 
dimensions varying within a relatively broad range, depending upon the 
nature of the items to be vended and similar considerations; however, it 
has been found convenient to employ a housing having a width of about 21/2 
to 3 inches, and a length of from about 51/4 to 53/4 inches. The height of 
the housing bin 38 will depend upon the number of product 44 items which 
it is intended to make available for sale. 
Similarly, the configuration of the storage hanger 36 is relatively 
unimportant; however, it is often desirable to employ a hanger having a 
downward tilt of from about 10.degree. to 20.degree. from the horizontal 
to assure movement of the support panels by gravity to the storage 
position shown at the right-hand side of the Figure. Although other 
diameters may be used, a hanger having a diameter of from about 1/4 inch 
to 3/8 inch provides adequate support for hanger storage. The weight plate 
46 will conveniently be heavy enough to assure that the separator panels 
40 and the product packages 44 contained thereon will move easily 
downwardly through the housing 38 by the action of gravity. The dimensions 
of the blocking tab 48 may also be varied, but the use of a tab having a 
height and width of about 1/4 inch has been found to be adequate. 
The separator retaining flap 42 may also take a number of forms; however, 
the use of a flap covering a separator panel exit port 41 at least about 
1/4 inch high is preferred. 
A variety of materials may be employed to fabricate the dispensing device 
14, for example, such as metal or plastic; however, the use of sheet metal 
provides desirable rigidity and strength, and is the material of choice 
for the purpose. 
FIG. 2 is a bottom view of the device shown in FIG. 1. As illustrated, the 
vending device, generally 10, comprises a dispensing device, generally 14, 
connected to a coin mechanism 12, the latter being operated by rotating 
operating handle 16 in order to turn the operating cylinder 18 and its 
included coupling pin 20. As the pin is turned, it forces pivot plate 22 
to rotate in a clockwise direction about pivot pin 26. In so doing, detent 
24 is forced against the flap 50 of lowermost separator panel 40, shown in 
phantom, pushing the panel to the right. In so doing, the separator panel 
40 is pushed off of the support tabs 30a and 30b, due to the action of 
detent 24 against the separator flap 50, the procedure being better 
understood by reference to FIGS. 5A-5C. Simultaneously, the separator 
panel support tab notches 62 of the separator panel 40 become coincident 
with divider support tabs 30c and 30d, allowing the panel to fall from the 
housing 38, being retained by divider storage hanger 36, along which they 
slide to a storage position, better shown in FIG. 1. Following disposal of 
the separator panel 40, as described, pivot plate spring 28 causes pivot 
plate 22 to return to its initial position, allowing a new separator panel 
40 to fall onto divider support tabs 30a, 30b, 30c, and 30d, being 
supported thereby. Although the rectangular separator panel support tabs 
30a-30d shown commonly have dimensions of about 1/2 inch long and 1/2 inch 
wide, support tabs having a different shape or dimensions may also be 
used. 
FIG. 3 is an elevational view, in partial cross-section of the device shown 
in FIG. 1, as taken along line 3--3. In the Figure, separator panels 40 
are shown supporting product 44, with a weight 46 thereon containing a 
blocking tab 48 attached thereto. The separator panels are only shown in 
the upper part of housing 38 so that the detail of the dispensing 
mechanism can be illustrated more clearly. As shown, depression of panel 
flap 50, against which detent 24 presses is clearly evident, as are panel 
support tabs 30aand 30b on which one end of the lowermost separator panel 
40 is supported. The Figure also illustrates how the separator panels are 
guided in their descent by guide flange 34, received in guide flange slot 
56. 
As shown, rotation of the operating handle 16 forces coupling pin 20 
against pivot plate 22 upon the insertion of proper coinage in coin 
mechanism 12, forcing detent 24 to advance and engage a separator panel 
40, not shown. After the product has been dispensed, pivot plate spring 28 
returns the pivot plate 22 to its original position. 
FIG. 4 is a top plan view of a separator panel or member forming an 
important element of the invention. The separator panel, generally 40, 
shown includes a panel separator flap 50 which is depressed under the 
weight of the product to be vended since it is attached to the separator 
panel only in the vicinity of hinge point 52. The separator panel 40 also 
includes a guide flange slot 56, as well as a guide flange slot 58, which 
latter terminates in a cavity 60 which receives the storage hanger 36. 
Separator panel support tab notches 62 are also included in the separator 
40 for the purpose of allowing the support panel to fall free from the 
housing 38. The separator panel flap 50 can be deflected from the plane of 
the separator panel 40, allowing it to be engaged by the detent 24, which 
is slightly bent so that it extends in the neighborhood of a 1/16 inch 
above the plane of the pivot plate 22. 
The dimensions of the separator panels 40 will obviously depend upon the 
dimensions of the housing within which they are contained, as well as upon 
other factors; however, the depth and width of the separator panel support 
tab notches 62 will generally each be about 3/4 inch long, but in any 
event will be larger than separator support tabs 30c and 30d. Guide slot 
56 will conveniently be about 3/4 inch long, by about 1/8 wide, while 
guide flange slot 58 will be about 13/4 inch long with a width varying 
from 1/8 inch to about 3/8 inch to accommodate guide flange 32 in its 
narrowest part, and storage hanger 36 in its widest part. 
The overall separator panel will conveniently have a length of 
approximately 51/4 inches and a width of about 21/2 inches. The diameter 
of the pan portion 54 will normally be about 11/2 inches, while the flap 
50 will be approximately 15/8 inch long, by 5/8 inch wide. 
The panel is conveniently made from plastic materials such as PVC, 
polystyrene, nylon, and the like and is sufficiently flexible so that it 
can be twisted to allow enough distortion of the guide flange slot 58. 
This is necessary when removing the separator panels 40 from the storage 
hanger 36 at such time as it becomes desirable to reinstall the separator 
panels inside housing 38 to support product 44 thereon. 
FIG. 5A-5C are schematic side views illustrating the operation of the 
dispensing device. 
In FIG. 5A, for example, there is shown a separator panel 40 held in a 
proper storage position by support tabs 30a and 30d, having been guided 
into such position by guide flanges 32 and 34, respectively. Attached to 
the rear of the dispersing device 10 is a separator panel storage hanger 
36. Separator flap 50 can be seen in a slightly depressed position 50 as a 
consequence of the weight of other separator panels, product, and the 
weight plate 46, none of such objects being shown. Approaching from the 
left and moving toward the right is pivot plate 22 with its raised detent 
24 in a position to engage separator panel flap 50. 
FIG. 5B illustrates the point in the vending process where detent 24 has 
engaged separator flap 50 and moved the separator panel 40 to the right, 
causing its right end to pass through exit port 41. 
FIG. 5C represents the point where the separator panel 40 has fallen from 
separator support tabs 30a and 30b, while separator panel support tab 
notches 62 have become aligned with separator panel support tabs 30c and 
30d, a condition in which separator panel 40 is free to fall from the 
dispensing device and move to a position in which the separator panel is 
held only by storage hanger 36. It is in this latter condition that the 
product is free to fall from the separator panel. 
While a particular form of dislodgement means has been described entailing 
the action of a coupling pin 20 against a pivotal plate 22, other 
mechanisms for shifting separator panels 40 from their separator panel 
support tabs would be suitable for purposes of the invention. 
Following dispensing of all product held by the support plates and its 
subsequent blocking of plate 22 by blocking tab 48, the machine is 
reloaded by simply removing the separator panels 40, one at a time, by 
twisting them from the storage hanger 36. This is followed by their 
insertion into the top of housing 38, following removal of weight 46, 
placing product on each of the separator panels so loaded, followed 
finally by re-installation of the weight. 
FIG. 6 is a frontal view of a product dispensing machine shown in phantom, 
dot-dash lines, which incorporates the product dispensing device of this 
invention. As shown, the dispensing device 10 is supported inside a 
support pedestal 64, the latter having a product access port 66 located 
therein. As previously described, the dispensing device 10 comprises 
alternating separator panels 40, holding the product to be dispensed 44 
thereon, and holding a weight 46 on top of the product separator panel 
layers disposed beneath it. As the proper coins are inserted into the coin 
mechanism 12 and its operating handle 16 rotated, the separator panels 40 
are pushed from their supported position, one at a time, allowing the 
product 44 to fall from the dispensing device into the access port 66. As 
each article of product is dispensed, the stack of product packages 
supported by separator panels 40 descends in the device, guided by guide 
flanges 32 and 34, respectively. 
As previously stated, the vending device has the unusual capability of 
dispensing product packages having different dimensions from a single 
device, allowing great flexibility in the vending operation. It is also 
useful for vending small articles, even irregularly shaped ones, 
including, for example, packets of drink concentrates, such as coffee, 
tea, and the like. When used as a beverage dispenser, it is particularly 
suitable for location adjacent hot water dispensing sources to enable 
purchasers to prepare and consume their own beverages at the same 
location. 
While in accordance with the patent statutes, a preferred embodiment and 
best mode has been presented, the scope of the invention is not limited 
thereto, but rather is measured by the scope of the attached claims.