OBJECT OF THE INVENTION
[0001] As expressed in the title of this specification, the present patent of invention
consists of some improvements in coin selectors, which are useful to be included in
all types of automatic machines that operate by inserting coins, in such a way that
upon the coins being inserted the selector validates them, to lead the rejected coins
to the refund box and the accepted coins are led towards the general coin box or to
the refund boxes.
[0002] The coin selector throughout the passage of the coins through it include a series
of mechanisms not only to validate the coins themselves, but also to avoid fraud and
to better obtain the parameters of the coins to be measured.
[0003] In short, its object is to achieve that the measurements of the coins obtained are
as reliable as possible and to prevent fraud from being committed as it is sought
that the selector validate coins as accepted and the coins are not to be finally inserted
in the general coin box or refund boxes and even products and money can be obtained
as change without having inserted the coin towards the general coin box or until the
corresponding container for its subsequent refund.
FIELD OF APPLICATION
[0004] The coin selector is applicable in all types of automatic machines that operate by
inserting coins, and thus it may be applied in vending machines of different products,
and in slot machines giving prizes, in which aside from the product obtained, coins
are refunded and coins are issued when a prize is obtained.
BACKGROUND OF THE INVENTION
[0005] Over the years, coin selectors have been developing, in such a way that in the beginning
the selectors basically referred to carrying out a reading of a series of parameters
of the coins for their validation, for which in the through duct of the coins in the
selector, they faced some sensors that carried out the corresponding readings.
[0006] In this way, if the readings carried out by the sensors were within a range of pre-recorded
values in the selector itself, the coin was validated as acceptable and if said values
were not within the pre-recorded intervals, the coin was validated as unsuitable,
being rejected.
[0007] Later on, coin selectors developed upon including different safety string-proof mechanisms
to prevent coins being tied to strings from being inserted thus activating the coin
acceptance system. The coins where subsequently removed with different results.
[0008] Hence, certain selectors include close to the coin slot, a rotating lever that by
its free end interferes with the beam of a pair of diodes, in such a way that upon
introducing the coin said lever moves and thus the beam is released, in such a way
that until said beam is interfered with again, the system will not definitively accept
the coin, whereby if the coin is tied to a string, this prevents the lever from returning
to its initial position, whereby there is no acceptance of the coin, though it has
been validated as acceptable.
[0009] On the other hand, as the coins fall freely through the coin slot, upon coming in
contact with the base of the through duct opposite the measurement sensors, the coins
bounce forward, which causes when the coins face said sensors that the relative position
of the same is not always the same, thus there is a dispersion of measurements. It
is convenient to make the measurements with the coins always in the same relative
position with regard to the sensors.
[0010] Likewise, we can cite utility models U9402421 and U9500755 of the same owner as the
present application, in such a way that Utility Model U9402421 claims an improved
coin selector which in its coin slot has a rotating lever provided with a projection
in contraposition to the wing placed in the slot, in such as way that upon the passage
of the coins the rotation of said lever causes the rotation of a second lever related
to it, that has an extension placed between the beam of a diode producing the release
of said beam and the subsequent activation of the system.
[0011] On the other hand, in the coin through duct there is a coil-operated strip, in such
a way that if the coin is not accepted as a valid one, it drops through said duct
towards the refund box, while if the coin is accepted as valid, the coil is activated
and the coin comes up against the strip, being deviated towards the final acceptance
channel.
[0012] Upon the passage of the coin towards the final acceptance channel, it comes up against
a safety mechanism that comes up against a lever and a pair of diodes placed below
it, in such a way that for the final acceptance of the coin by the selector and so
that the coin is counted as such, there must be a coin passage sequence opposite said
pair of diodes.
[0013] Utility model U9500755 claims an improved coin selector, which in the coin slot has
a rotating lever provided with an extension that remains fitted between a pair of
projections of a second lever, likewise provided with an extension placed between
a diode, it being provided for that the selector has a new rotating lever, position
in relation to a wall of the through duct of the coins, which is provided with some
projections in position transversal to the through duct, which the coins come up against
upon dropping, bouncing towards a part that damps the fall, with the particularity
that in the free end of the measurement sensors, the free end of the weight sensor
is formed by a pair of gages, having in relation to the final acceptance duct of the
coin a new lever that acts in combination with a pair of diodes.
DESCRIPTION OF THE INVENTION
[0014] The present specification describes some improvements introduced in coin selectors,
which are fundamentally based on the string-proof mechanism, the coin drop damping
mechanism, upon being inserted in the selector and on the measurements of the coin
diameter and weight parameters.
[0015] Hence, the string-proof mechanism or device, comprises a generally L-shaped lever
that remains rotating at its vertex with one of its wings over the coin slot, and
the other considerably longer wing with its free end interposed to a diode, said lever
being activated by a counterweight that tends to move it from its inoperative position,
obturating the beam of the diode upon being between the emitter element and the receiver
of the same.
[0016] Likewise, once the coins have been inserted, they come up against a movable projection
of one of the walls of the through duct to damp the fall on the anvil, while in the
rolling thereof, upon actuating on the cited rotating movable projection, it rises
and leaves free passage to the coins to obtain the parameters to be measured.
[0017] In the through passage, the coins face the diameter measuring device, which comprises
three diodes which by means of a passage sequence allows the obtainment of the diameter
in a very reliable manner.
[0018] Likewise, the coins in the through duct thereof roll over a double gage to measure
the weight, in such a way that said double gage close to its initial end can be provided
with a stop that prevents vibrations or oscillations of the coin in its rolling in
order to make a more reliable measurement.
[0019] In short, it is a question of obtaining the parameters of the coins to be measured
in the most reliable manner possible, as well as preventing fraud when an attempt
is made to insert a coin attached to a thread so that, once the selector has been
activated and the coin has been accepted as valid, the same may be removed again,
recovering not only the coin, but also obtaining the desired product and even the
change.
[0020] In order to complement the description that is going to be made hereinafter, and
for the purpose of providing a better understanding of the features hereof, a diagram
in whose figures, the most significant details of the invention, described in the
present specification, have been represented in an illustrative and non-restrictive
manner, is attached hereto.
BRIEF DESCRIPTION OF THE FIGURES
[0021] Figure 1 shows a detail view of the string-proof device placed in the coin slot of
the selector, which comprises a generally L-shaped lever rotating at its vertex with
a wing inserted in the slot.
[0022] Figure 2 shows a raised view of the selector, in the coin through duct section, wherein
they face the three diodes to measure the diameter and they roll over the double gage,
it being possible to observe the movable projection that sticks out through a recess
of one of the walls of the through duct.
[0023] Figure 3 shows a raised view of the selector in the coin through duct section according
to the inside surface of the wall of the duct corresponding to the previous figure,
where it is possible to see the rotation axis of the rotating movable prqjection as
well as the three diodes.
DESCRIPTION OF A PREFERRED EMBODIMENT
[0024] In view of the cited figures and in accordance with the numbering used, we can see
how the improvements introduced in the coin selectors (1) are based on the string-proof
mechanism, the coin drop damping mechanism in the selector, and on the measurement
of the coin diameter and weight parameters.
[0025] The string-proof mechanism or device comprises a lever (2) rotating with respect
to the shaft (3) of its vertex in such a way that the generally L-shaped lever (2)
has its two wings (4) and (5) of different lengths. Thus, the shorter wing (4) remains
placed over the coin slot (6) of the selector (1) with its free end positioned in
relation to a recess (7) of the opposite wall of the channel (8) upon which it remains.
[0026] On the other hand, the longer wing (5) of lever (2), remains with its free end interposed
to a diode (9) and close to its vertex it has a counterweight (10) that tends to keep
it in the inoperative position, that is to say with wing (4) inserted in the slot
(6) and with the wing (5) interposed to the diode(9).
[0027] In this way, upon inserting the coin in the selector (1), the same comes up against
the wing (4) of lever (2) causing it to rotate with regard to the shaft (3), and the
subsequent movement of the wing (5), releasing the beam of the diode (9), causing
the activation of the system, in such a way that if in a specific amount of time the
coin is not validated, the system is deactivated and the coin is led to the refund
box.
[0028] Thus, if a coin tied to a string has been inserted, since the thread prevents the
positioning of the wing (4) of lever (2), over the recess (7) of the wall opposite
the one of its positioning, lever (2) has not returned to its inoperative position,
the wing (5) not interfering with the beam of the diode (9); which after a specific
amount of time goes by, the selector is deactivated and in no case will the coin be
counted although it has been validated as acceptable.
[0029] On the other hand, the larger wing (5) of the lever (2) has a shape fractured into
three sections, the ends being parallel to each other, so that less space is taken
upon in the rotation thereof.
[0030] The damping mechanism comprises a movable projection rotating with regard to a shaft
(12) which sticks out through a gap of one of the walls of the coin through duct,
in such a way as the coin drops it comes up against said projection (11) and it is
led towards the anvil (14) to damp said drop remaining in its rolling facing the three
diodes that by means of a passage sequence allow the obtainment of the diameter of
the coins in a totally reliable manner.
[0031] When the coins are rolling and come up against the movable projection (11), the projection
rotates rising through the gap (13) and allowing the free passage of the coin without
any problem.
[0032] The coin remains facing the three diodes (15, 16 and 17) in its passage through the
duct (18) in such a way that upon passing in front of them, the knocking of four times
takes place in order to calculate the diameter of the coin, the sequence being the
following:
A) time from when the coin comes out of the diode (15) until it interferes with diode
(16), or else between when it interferes with diode (16) and it comes out of diode
(15).
B) time from when the coin interferes with diode (16) and comes out of the same.
C) time from when the coin interferes with diode (16) and interferes with diode (17).
D) time from when it interferes with diode (17) and it steps interfering with the
same.
[0033] With these four measurements, total reliability in the measurement of the diameter
of the large coins which cause the most difficulties for measurement thereof is obtained,
since the coins with the larger diameter, come up against the outlet wall and the
measurement is not very exact.
[0034] Likewise, once the coin is inserted in the selector and when dropping it comes up
against the movable projection (11) being deviated towards the coin drop damping anvil,
it rolls over the double weight measurement gage (22), which can be provided with
a stop in its initial end to prevent the possible vibrations that cause oscillations
in the weight parameter measurement.
1. Improvements in coin selectors, being of the type of coin selectors, that are inserted
in automatic machines that operate by inserting coins, and that in the passage thereof
through the same, measurements of different parameters are obtained in order to be
able to validate the coins as acceptable, characterized in that the introduced improvements
are based on the string-proof mechanism, the coin drop damping mechanisms and on the
diameter and weight measurements, in such a way that the string-proof mechanism comprises
a generally L-shaped lever with regard to its vertex, its wing (4) being considerably
shorter than its other wing (5), the wing (4) of lever (2) remaining in relation to
the coin slot (6) and its other wing (5) remains with its free end in the inoperative
position, interfering with the beam of a diode (9) said lever (2) being provided with
a counterweight (10) in its wing (5) that tends to keep the lever in its inoperative
position, the end of its larger wing (5) interfering with the diode (9).
2. Improvements in coin selectors, according to claim 1, characterized in that the damping
mechanism comprises a movable projection (11) rotating with respect to the shaft (12)
that sticks out through a gap (13) of one of the walls of the coin through duct, which
deviates the coins toward the anvil (14) while in the rolling of the coins said projection
rises upon turning thus facilitating the free passage of the coins.
3. Improvements in coin selectors, according to claim 1, characterized in that the coin
diameter measuring device comprises three diodes (15), (16) and (17) that allow the
obtainment of the measurement of four times in the passage sequence of the coins opposite
them.
4. Improvements in coin selectors, according to claim 1, characterized in that the coin
weight measuring device comprises a double gage (22) that has in its initial part
close to the anvil (14) a stop that prevents the vibrations of coins when passing
by.