[0001] The present invention refers to an automatic vending apparatus for the sale of goods
of various kind that require being stored and preserved under differentiated temperature
conditions. In particular, it refers to an improved cooling system for an automatic
vending apparatus of this kind.
[0002] An automatic vending apparatus has essentially the appearance of a cabinet, in the
interior of which there is arranged a vertical-axis drum that is rotatably driven
by an electric motor. Such a drum carries a plurality of horizontal shelves, which
are in turn subdivided into individual compartments by vertical partitions: the items
stored there for vending, and which require being preserved at adequately low temperatures,
are arranged in such compartments on said shelves. The drum is mounted around a hollow
central column, through which the cooling air is caused to flow upon being cooled
down by a refrigeration arrangement contained in the cabinet and usually installed
in the base thereof. Through proper apertures, the refrigerated air flows from the
hollow space in the central column into the compartments containing the items to be
sold. The return flow of the air towards the refrigeration arrangement is brought
about by such an air being drawn in through appropriate channels defined by vertical
walls provided in the cabinet between the drum and the side walls of the same cabinet.
[0003] An automatic vending apparatus of such a kind is described in the patent publication
US 4,831,841. However, the purpose of the solution described in said patent is to
ensure a uniform product storage temperature in all of the storage compartments of
the apparatus. As a result, such a vending apparatus enables only products of a same
kind, or at most products requiring to be stored under similar temperature conditions,
to be stored there for vending purposes. Furthermore, it should be noticed that the
technical solution described in the above mentioned publication cannot anyway ensure
a uniform temperature throughout the storage compartments of the vending apparatus,
since the flow of the cooling air is actually affected to a considerable extent by
the hindrances it meets with, as represented in particular by the loads of products
that are continuously varying in the various compartments owing to the successive
product withdrawals.
[0004] It would on the contrary be desirable, and it actually is a main purpose of the present
invention, to provide a much more versatile automatic vending machine that is capable
of enabling products of different kinds requiring different storage temperatures to
be sold therethrough. This is for instance the case of various food items, such as
freshly prepared sandwiches or packaged snacks, which are contained in single-dose
packages, and also drinks contained in cans or bottles. For the desired result to
be obtained, the need arises for the possibility to be provided for the temperature
to be adjusted in a differentiated manner in the various compartments of the storage
shelves, or at least in definite, preferably adjustable-volume zones inside the vending
apparatus.
[0005] According to the present invention, this aim is reached in an automatic vending apparatus
of the afore described kind, in which means are provided for adjusting the flow of
refrigeration air, said means being mounted on the central hollow column and being
adapted to create homogeneous, but differentiated temperatures in a plurality of zones
arranged above each other in the storage room of the vending apparatus, as this is
recited in the main appended claim.
[0006] As this will become apparent further on in this description, the basic idea behind
the present invention may be implemented in a variety of different embodiments.
[0007] The features and advantages of the present invention will anyway be more readily
and clearly understood from the description that is given below by way of non-limiting
example with reference to the accompanying drawings, in which
- Figure 1 is a front elevational view of a vending apparatus according to the present
invention;
- Figure 2 is a schematical side cross-sectional view of a first embodiment of the vending
apparatus according to the present invention;
- Figure 3 is an enlarged cross-sectional view along the line III-III of the vending
apparatus illustrated in Figure 2;
- Figure 4 is an enlarged partial view of a detail of the vending apparatus illustrated
in Figures 2 and 3;
- Figures 5A to 5C are schematical cross-sectional views of the detail of Figure 4 as
illustrated in three different operating positions;
- Figure 6 is an enlarged cross-sectional top view of the base of the vending apparatus
illustrated in Figure 2;
- Figure 7 is an enlarged cross-sectional front view of the lower portion of the vending
apparatus illustrated in Figure 2;
- Figure 8 is a cross-sectional side view of a second embodiment of a vending apparatus
according to the present invention;
- Figure 9 is a cross-sectional side view of a third embodiment of a vending apparatus
according to the present invention, in a first operating condition thereof;
- Figure 10 is a cross-sectional side view of the vending apparatus illustrated in Figure
9, in a second operating condition thereof;
- Figure 11 is an enlarged cross-sectional view of the lower portion of the vending
apparatus illustrated in Figures 9 and 10.
[0008] An automatic vending apparatus for the sale of different products, which are usually
contained in packages, cans or the like, is generally constituted by a parallelepiped
cabinet 20 (Figure 1) which defines an inner storage room 50 and a base portion 51
(Figure 2). The storage room 50 is closed on its front side by a door 21, which is
provided with a plurality of clear, ie. see-through glazed wickets 22 to ensure visibility
of the products stored inside the vending apparatus and to enable the same products
to be removed therefrom. On the door 21 there are provided selection means 23 (Figure
1) for the selection of the product to be dispensed, whereas payment means 24 are
preferably arranged on a front panel of the cabinet. These means are of a kind that
is generally known in the art, so that they do not require any further detailed description.
[0009] Inside the storage room 50, the products are arranged on a vertical-axis drum 25
(Figure 2) formed by a plurality of horizontal shelves 26, which are mounted on a
central hollow column 27. The shelves 26 are subdivided into individual compartments
by means of vertical partitions 28 (Figure 3). The drum 25 is rotatable owing to the
action of an electric motor-reduction gear unit 29 (Figures 6 and 7) mounted in the
base of the vending apparatus and provided with an output shaft 30. The latter carries
a pinion 31 that is in gear with a toothed disk 32, which is attached to the lower
end portion of the column 27 and which rests on the bottom 33 of the storage room
by means of wheels 34. As a result, when a product is selected for vending, the motor-reduction
gear unit 29 causes the drum to rotate until the compartment containing said product
is brought into the product dispensing position in correspondence of the respective
wicket 22 (Figure 3).
[0010] In the base 51 of the cabinet 20 there are installed the devices needed for cooling,
ie. refrigerating the air and circulating it inside the vending apparatus to the purpose
of preserving the products stored there at the required temperature. The refrigeration
devices comprise a refrigerating circuit that is normally provided with a compressor
35, an evaporator 36, a condenser 37 and a fan 38 (Figures 6 and 7). The air circulation
is on the contrary brought about by a fan 39 which delivers the air, through an aperture
40 provided in the bottom 33 of the storage room, into the central hollow column 27
of the drum 25. The air rises along the column 27 and distributes radially over the
various shelves 26 by flowing through corresponding arrays of ports provided in the
cylindrical wall of the column. The air then returns to the refrigeration unit in
the base of the vending apparatus by flowing back through the free space comprised
between the periphery of the drum 25 and the inner walls of the storage room 50 (Figure
2).
[0011] In order to adjust the flow of the cooling air in such a manner as to create substantially
homogeneous, but differentiated temperatures in various zones arranged above each
other in the storage room 50, on the hollow central column 27 there are mounted a
plurality of sleeves 60, which are provided with passing-through apertures 61, corresponding
to a plurality of apertures 62 provided in the wall of the column 27 (Figure 4). Each
one of said sleeves 60 is connected by pin-slot coupling means to a lever 63 which
is pivotally hinged on to the wall of the column 27, in such a manner that a rotation
of the lever 63 about its horizontal hinge-on axis translates into a rotation of the
sleeve 60 about its vertical axis coinciding with the axis of the column 27. As a
result, the apertures 61 of each sleeve 60 can take, relative to the corresponding
apertures 62 of the column 27. a position of full closure (Figure 5A), or a position
of partial opening (Figure 5B), or a position of full opening (Figure 5C). To each
one of these positions there corresponds a different condition of the flow of cooling
air, as this is best shown by the arrows in Figures 5A to 5C.
[0012] As an alternative thereto, it can be readily appreciated that the sleeves 60 can
be mounted and actuated so as to slide longitudinally along the column 27, instead
of rotating about the same column. This different mechanical solution can anyway be
easily and readily implemented by anyone skilled in the art.
[0013] The sleeves 60 are actuatable manually and individually, but can clearly be provided
with an automatic actuation system and controlled, for instance, by means of a thermostatic
device. Furthermore, they can also be actuated in clusters or groups, for instance
by connecting a plurality of levers 63 together by means of a bar.
[0014] In a preferred manner, to each such sleeve 60 there is associated an indicating device
64 (Figure 4), which may for instance be constituted by a jumper-type index, or the
like, that is adapted to cooperate with corresponding reference nicks provided on
the edge of the sleeve. The device 64 enables the precise, actual opening or closing
condition of the apertures for the passage of the cooling air on the individual shelves
26 to be most conveniently and readily verified.
[0015] A second, more complete and sophisticated embodiment of the present invention calls
for the addition of an intermediate partitioning diaphragm 42 (Figure 8) inside the
storage room 50 (Figure 8). This diaphragm 42 is preferably constituted by a first
portion attached to the central hollow column 27, and a second portion attached to
the inner wall of the storage room 50. The position of this diaphragm 42 is variable
along the height of the storage room 50 so as to create two distinct zones arranged
above each other and kept at different temperatures. The lower zone may for instance
be used to store fresh products to be kept at a temperature of 3 to 4°C, whereas the
upper zone may be used to store packaged products (ie. the so-called snacks) or drinks
in bottles or cans to be kept at temperatures of anywhere between 8 and 15°C.
[0016] In order to prevent the lower zone to be negatively affected by a return flow of
warm air, it may prove adequate to provide a channel 43, worked out in the wall of
the storage room 50, for directly connecting the upper zone of the storage room with
the refrigeration unit installed in the base 51 of the vending apparatus. Throttling
the flow of cooling air circulating in the storage room 50 keeps of course being made
possible thanks to the presence of the adjustable sleeves 60 mounted on the central
column, in the same way as described afore with reference to the first embodiment.
[0017] The constructional configuration of this embodiment calls for the use of just a single
temperature probe (not shown) to control the more sensitive zone of the storage room,
ie. the lower zone holding the fresh food products.
[0018] This second solution is effective in ensuring that the return flow of the air from
the upper zone of the storage room is fully separated from the flow of air circulating
in the lower zone. This therefore enables a greater stability of the colder temperature,
ie. the storage temperature actually required in the lower zone of the storage room,
to be obtained. This solution is found to be of particular advantage in the case in
which a distinct, clear differentiation is required among the temperatures prevailing
in various zones of the storage room.
[0019] In a third embodiment of the vending apparatus according to the present invention
(Figures 9 and 10), the differentiated-temperature zones in the storage room 50 are
fed separately through at least two distinct channels 44 and 45 provided inside the
central hollow column 27. In a preferred manner, these channels 44 and 45 are co-axial
with the same column. The channel 44 forms the passage of the cooled air towards the
upper zone of the storage room. The channel 45 is plugged on top, in correspondence
of the intermediate diaphragm 42, so as to be able to deliver the cooling air into
the lower zone of the storage room.
[0020] The channels 44 and 45 extend vertically starting from the aperture 40 in the bottom
33 of the storage room 50 and, at the inlet openings thereof, there are provided respective
throttle valves 46 and 47 (Figure 11) that are arranged downstream of the delivery
fan 39. By correspondingly selecting, either manually or by automatic control, the
operating setting of the valves 46 and 47, it is therefore possible to allow for either
the upper zone (Figure 9) or the lower zone (Figure 10) of the storage room 50 to
be refrigerated. In this case, the need arises for two temperature probes (not shown)
to be used to control the two zones at different temperatures.
[0021] Use of the throttling sleeves 60 of the afore described embodiments (not shown in
Figures 9 and 10 for reasons of greater simplicity in the illustration) is made also
in this third embodiment of the present invention. These sleeves make it possible
for the air flow to be more specifically adjusted on the various shelves 26 so as
to create further differentiated zones within each one of said two zones at different
temperature.
[0022] It will of course be appreciated that the above described automatic vending apparatus
may be the subject of a number of further modifications or variants without departing
from the scope of the invention.
1. Automatic vending apparatus for selling different products capable of being stored
at differentiated temperatures, comprising essentially a cabinet (20) that defines
a storage room (50) provided with a door (21), inside this storage room there being
rotatably provided a vertical-axis drum (25) on which there are mounted a plurality
of horizontal shelves (26) containing the products, said drum (25) being provided
with a central hollow column (27) through which a flow of air cooled by refrigeration
means (35-38) contained in the cabinet is circulated, characterized in that means (60-63) for adjusting the flow of cooling air are mounted on said central hollow
column (27) and are capable of creating homogeneous, but differentiated temperatures
in a plurality of zones arranged above each other in the storage room (50).
2. Automatic vending apparatus according to claim 1, characterized in that said means for adjusting the flow of cooling air comprise a plurality of sleeves
(60) provided with apertures (61), corresponding to apertures (62) provided in the
wall of said central hollow column (27), in correspondence of each shelf (26), actuation
means (63) being provided to displace said sleeves so as to throttle the passage of
the cooling air through said apertures (61, 62).
3. Automatic vending apparatus according to claim 2, characterized in that said means provided to actuate each such sleeve (60) are constituted by a lever (63)
pivotally hinged on to said central hollow column (27) and connected by pin-and-slot
coupling means to the respective sleeve.
4. Automatic vending apparatus according to claim 2 or 3, characterized in that said sleeves (60) are associated to indicator means (64) provided to indicate the
extent of throttling of the passage apertures of the flow of cooling air, said means
being constituted by an index attached to the central hollow column and cooperating
with a series of reference marks or nicks provided on the edge of the corresponding
sleeve.
5. Automatic vending apparatus according to any of the preceding claims 1 to 4, characterized in that there are further provided partitioning means (42), whose position is adjustable
along the central hollow column (27), to define at least two zones inside the storage
room (50), each one of them comprising at least one of said shelves (26).
6. Automatic vending apparatus according to claim 5, characterized in that said partitioning means (42) are constituted by at least a horizontal diaphragm including
a first portion attached to the central hollow column (27), and a second portion attached
to the inner wall of the storage room (50).
7. Automatic vending apparatus according to claim 5 or 6, characterized in that the upper zone of the storage room (50), which is held at a higher temperature than
the zone therebelow, is connected to the refrigeration means (35-38), which is installed
in the base (51) of the cabinet (20), through at least a channel (43) provided in
the wall of the storage room (50).
8. Automatic vending apparatus according to any of the preceding claims 5 to 7, characterized in that inside the central hollow column (27) there are provided at least two delivery channels
(44, 45) to separately feed the zones at different temperature of the storage room,
said channels being controlled by means of respective throttle valves (46, 47).