JP2891762B2 - Coin processing equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial applications]

The present invention relates to a coin processing device built in a vending machine, another vending machine, and the like, and more particularly to a coin processing device that can effectively perform coin collection performed in a tallying process.

[Prior art]

FIG. 4 shows a coin processing device built in a conventional automatic ticket vending machine or the like. This conventional coin processing device main body (hereinafter referred to as main body) 1
The check unit a of the coins inserted from the insertion slot 2,
The type (10 yen, 50 yen, 100 yen, 500 yen) is discriminated by the checker 3 and counterfeit or unprocessable coins (1 yen, 5 yen)
) Is sent to the sorting mechanism 4. The sorting mechanism 4 opens a shutter (not shown) corresponding to the type of the inserted coin based on the discrimination or identification signal from the checker 3, and discharges the coin to the return port 5 or the temporary storage unit 6. . That is, fake coins, 1-yen and 5-yen coins are returned to the return port 5 via a transfer route (hereinafter, referred to as a route) 7 'composed of chutes, and 500-, 50-, 10- and 100-yen coins are The depots are transferred to the hoppers 6a to 6d for the respective denominations in the temporary storage section 6 via the paths 7a to 7d, respectively. When the total amount of coins stored in the temporary storage unit 6 satisfies a predetermined amount, if the main body 1 is built in, for example, an automatic ticket vending machine, a predetermined ticket is issued from a ticketing processing device (not shown), and The stored coins are sent to the change hopper 9a for each denomination via the routes 8a to 8d for each denomination of the coin.
(500 yen), 9b (50 yen), 9c (10 yen) and 9d (100 yen). When the total amount of coins stored in the temporary storage unit 6 exceeds a predetermined purchase amount, coins corresponding to the exceeded amount are returned from the change hoppers 9a to 9d to the return port 5 via the routes 10a to 10d and 11. Returned as change. Although not shown, the main body 1 also incorporates a bill processing device such as a 1000-yen bill, and thus has a change hopper for storing 500-yen coins. When the change hoppers 9a to 9d are full during operation of the main body 1, only a predetermined number of coins are left and the path 12a is changed.
Through the storage safes 13a to 13d for the respective denominations, and usually at a predetermined time every day, for example, at a predetermined time when the operation rate of the main body 1 decreases, the change hopper 9a to
Stores coins in each change hopper so that all 9d are empty
The data is collected in 13a to 13d, and a totaling process (accounting process) is performed. When each change hopper 9a to 9d is full, collection
A controller (not shown) which has received a signal from a full sensor (not shown) provided in each of 9a to 9d is provided with a coin discharging device (not shown) provided below the full change hopper. This is done by sending a collection signal. In addition, the controller that receives a signal from a clock device (not shown) incorporated in the main body 1 or a collection signal output by a switch operation of a person in charge collects all change hoppers 9a to 9d. This is performed by sending a collection signal to the coin ejection device. Since change cannot be returned at the time of collection, customer service such as ticketing processing of the main body 1 is stopped. Each change hopper 9a to 9d has a coin storage capacity of around 100 coins, but the change hoppers 9c and 9d of 10 yen and 100 yen store 1000 to 2000 coins in order to prevent change. Supply units 14a and 14b are connected via paths 15a and 15b, respectively. In the drawing, reference numerals 16a and 16b denote supply cassettes with locks for supplying coins to the supply units 14a and 14b, respectively. By the way, since the conventional apparatus has the large supply units 14a and 14b in the main body 1, there is a disadvantage that the manufacturing cost is increased and also that the apparatus is enlarged. Therefore, in order to eliminate such defects, the change hoppers 9c (10 yen) and 9d (100 yen) are increased in size and the supply unit 14 is increased.
A coin processing device in which a and 14b are omitted has been proposed. The coin processing device according to this proposal has a feature that the manufacturing cost can be reduced and the size of the device can be reduced since the coin processing device is also used as a supply unit and a change hopper.

[Problems to be solved by the invention]

However, in the above proposed device, 10 yen and
Since the change hopper of 100 yen is also used as a conventional replenishing unit and has a large size, there is a disadvantage that the collection time is long. Because change hoppers with a large size are usually 1000
This is because the coin hopper has a coin storage capacity of about one coin, and it takes about two minutes to collect all coins from the change hopper. In addition, during the collection time, the customer service such as ticketing processing is stopped, so that a new problem has arisen that the operating rate of automatic ticket vending machines and the like is reduced by the collection time. Therefore, the present inventors have conducted research for the purpose of reducing the collection time as much as possible while taking advantage of the above-described advantages of the large-sized change hopper, and as a result, have completed the present invention. . Accordingly, an object of the present invention is to provide a coin processing apparatus that has a short collection time even for a change hopper having a large size.

[Means for Solving the Problems]

In order to achieve the above object, the apparatus of the present invention receives coins inserted into the main body into a change hopper, and discharges the change coins from the change hopper to a return port when the change needs to be dispensed. In a coin processing device configured to collect all coins stored in the change hopper at the time of predetermined collection, a reference number for setting a reference number smaller than the number of full coins stored in the change hopper by a predetermined number. Number setting means, detecting means for detecting that the number of coins stored in the change hopper has increased by a predetermined number from a set reference number, and detecting the detected increased number of coins, prior to the predetermined collection And a preliminary collecting means for collecting. In addition, prior to the predetermined time at the time of the predetermined collection, there is provided a pre-collection means for collecting coins from the change hopper until the predetermined number is smaller than the reference number.

[Action]

In the above configuration, the detecting means detects a predetermined number of coins increased by the predetermined reference number set by the reference number setting means, and the preliminary collecting means detects the increased predetermined number of coins prior to predetermined collecting. to recover. Further, the pre-collection means collects the coins at predetermined time intervals at the time of the predetermined collection to a predetermined number smaller than the predetermined reference number.

【Example】

Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a schematic configuration diagram of a first embodiment apparatus,
The same components as those of the conventional device are denoted by the same reference numerals. The description of these components will be omitted because they are duplicated, but the change hoppers 9c (10 yen) and 9d (100 yen) are large change hoppers that also serve as conventional supply units, as in the above proposed device. For example, it is configured to have a size capable of storing 1000 coins. Therefore, the apparatus of this embodiment does not have the supply units 14a and 14b of the conventional apparatus. FIG. 2 shows a controller 20 which is incorporated in the main body 1 and comprises a microcomputer for controlling the whole main body 1. The controller 20 carries out each means of the present invention, and the controller 20 includes a collection time setting device including a timer.
21 and a coin quantity setting device 22 composed of a numeric keypad are connected. As will be described later, the coin number setting device 22 is for setting the reference number of change hoppers 9c and 9d and the number of reserves to be collected. Reference numeral 23 in the figure denotes a pre-collection time setting device including a timer used in the second embodiment. The operation of this embodiment will be described with reference to FIG. First, the collection time is set by the collection time setting unit 21. For example, the collection time is set at 3:00 pm. Then, the reference number x of the change hoppers 9c and 9d is set by the coin number setting device 21. The reference number x is set in each change hopper.
The number is set to about 200, which is about 1/5 of the full number of 9c and 9d. Further, the coin number setting unit 22 sets the number of coins that can be collected in about five coins, for example, the number 50 of preliminarily collected coins. Prior to the operation of the main body 1, a change hopper 9a is provided by a staff member.
(500 yen), 80 change coins are put in the change hopper 9b (50 yen), and 150 change coins are inserted and set. Each change hopper 9c (10 yen) and 9d (100 yen) The reference number x (200 sheets) is supplied and set from each of the supply cassettes 16a and 16b. Then, when the main body 1 is operated, coins are started to be inserted from the insertion slot 2. The case where the coin to be inserted is a 100-yen coin will be described as an example. The 100-yen coin is, as shown in FIG. 3 (a), the reference number x (200) initially filled in the change hopper 9d. Rather than increasing over time. In this figure, for the sake of simplicity, the tendency is shown to simply increase in proportion to time. However, the actual increase curve draws a complicated curve because the number of coins returned to the return port 5 as change is larger than the number of coins received and may be lower than the reference number x. Therefore, since it shows an increasing tendency, it is shown in a form proportional to time. When the increased number of coins reaches the preliminary collection number α (50), a collection signal is output from the controller 20 to the change hopper 9d, and the coins of the preliminary collection number α are collected. Also at the time of this preliminary collection, the main body 1 is set to the collection mode and the customer service is interrupted, but since the collection time is about 5 seconds, the main body 1 is performed while the user of the main body 1 is replaced by the next customer. And particularly, there is no inconvenience of lowering the service efficiency. The above-mentioned preliminary collection is repeated until the increased number of coins reaches α, up to the original predetermined collection time (the point of (a) in FIG. 3). Therefore, the coin number A ₁ is recovered at the original collection becomes a reference number x (200 sheets) before and after, it is possible to refill hopper 9c emptied in 20 seconds before and after. This collection time is about 1/5 of that when the supply hopper 9c is full (1000 sheets), and the collection time is greatly reduced. Change hopper 9c (10 yen) is also the above change hopper (100 yen)
Preliminary recovery is performed in the same manner as described above, and the original recovery time is greatly reduced. The change hoppers 9a (500 yen) and 9b (50
Is collected at a predetermined collection time, but since these collections are smaller than the reference number x, the collection has already been completed before the change hoppers 9c and 9a are collected. Next, referring to FIG. 3 (b), the operation of the second embodiment will be described. In the apparatus of the present embodiment, the pre-recovery time setting unit 23 sets the pre-recovery time (see FIG. 3 (b) c) a predetermined time before the original predetermined retrieving time (see FIG. 3 (b)), and A predetermined number of coins A ₂ smaller than the reference number x, for example, a notice number of fishing out (120) is set in the controller 20 by the coin number setting device 22. The relationship between the number of coins A ₂ and the predetermined time is as follows. During the predetermined time, if the number of coins is present, it is determined that the change does not occur. In the apparatus according to the present embodiment, until the pre-collection time, as in the above-described embodiment, the preliminary collection is performed every time the increased number becomes α. Then, when pre recovery time, the controller 20 may change the hopper 9c, 9d to the recovery signal recovery to a predetermined coin number A ₂ lesser output to reference number x of is performed. For this reason,
At the time of the original collection, the collection operation can be completed almost simultaneously with the other change hoppers 9a and 9b, so that the collection time can be further reduced. The time required for advance collection is about 10 seconds, but since it is before the original collection time at the time of this advance collection, it is a time zone where there are few customers, so even if this advance collection is provided, it will reduce the customer service efficiency especially No inconvenience occurs. In the above-described embodiment, the preliminary collection is performed when predetermined coins increase, but every predetermined time,
Alternatively, the amount increased from the reference number may be collected every predetermined time that differs depending on the time zone. Further, when the number of users of the main body 1 does not fluctuate extremely over the years, the capacity of the change hoppers 9c and 9d is set to about 500 instead of 1000, thereby further reducing costs and reducing the size of the apparatus. Can be achieved. In addition, each setting device 2
1, 22, and 23 may set the controller 20 to each setting mode and set with a single numeric keypad.

【The invention's effect】

The present invention device is a reference number setting means for setting a reference number smaller than the full number of coins stored in the change hopper by a predetermined number, and the number of coins stored in the change hopper is increased by a predetermined number from the set reference number. Since it has a detecting means for detecting that, and a preliminary collection means for collecting the detected increased number of coins prior to the predetermined collection,
Since it is only necessary to collect substantially the reference number of coins at the time of the original predetermined collection, the collection time can be greatly reduced. Further, when a pre-collection unit for collecting coins from the change hopper until a predetermined number set to be smaller than the reference number is provided a predetermined time before the predetermined collection time, the collection time can be further shortened. It becomes possible.

[Brief description of the drawings]

1 is a schematic configuration diagram of the apparatus of the embodiment, FIG. 2 is a schematic configuration diagram of a controller, FIG. 3 (a) is a graph showing the number of coins in a change hopper of the apparatus of the first embodiment, FIG. (B) is a graph showing the number of coins in the change hopper of the second embodiment, and FIG. 4 is a schematic configuration diagram of a conventional device. 1 ... main body (coin processing device main body), 2 ... input port, 5 ... return port, 9a-9d ... change hopper, 20 ... controller (preliminary collection means, pre-collection means).

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-58-43085 (JP, A) JP-A-61-29991 (JP, A) JP-A-2-257383 (JP, A) JP-A 59-29985 146390 (JP, A) Japanese Utility Model 1-61770 (JP, U) (58) Field surveyed (Int. Cl. ⁶ , DB name) G07D 1/00 G07F 5/00-9/10

Claims (2)

(57) [Claims] The coin receiving device receives coins inserted into a coin processing device main body into a change hopper, and discharges the change coins from the change hopper to a return port when the change needs to be dispensed. In a coin processing device configured to collect all coins stored in the change hopper, reference number setting means for setting a reference number smaller than the number of full coins stored in the change hopper by a predetermined number, Detecting means for detecting that the number of coins stored in the change hopper has increased by a predetermined number from a set reference number; and preliminary collecting means for collecting the detected predetermined number of coins prior to the predetermined collection. A coin processing device comprising: 2. A pre-collection means for collecting coins from the change hopper until a predetermined number smaller than the reference number is obtained a predetermined time before the predetermined collection. Item 6. The coin processing device according to Item 1.