DE10340963B4 - Method for releasing or blocking acceptance channels in coin validators - Google Patents

Abstract

A method for enabling or disabling acceptor channels in coin validators using microswitches (DIL), wherein the potentially acceptable coin values have been assigned to at least one acceptor channel of an electronic controller for the coin validator, which also provides a predetermined coin value accepting band, having the following features
The whole of the acceptance channels is subdivided into groups and each group and each channel of the group is assigned a microswitch of first microswitches of a switch block on the coin validator a second microswitch of the switch block is actuated to initiate a release or blocking,
after actuation of the second microswitch, the corresponding channel group is selected by actuation of one of the first microswitches; a third microswitch of the switch block is used as an acknowledgment switch whose operation confirms the selection after selection of the channel group
by a renewed actuation of one or more of the first microswitches, the associated channels are blocked and the channels of the non-actuated switches are released and
a renewed activation of the ...

Description

The The invention relates to a method for enabling or disabling of acceptance channels in coin validators Claim 1 and 2.

electronic Coin validators are is known to be able to accept a variety of denominations. To This purpose is in the memory of the coin validator or its microprocessor acceptance bands which measured the upper and lower limits for the measured Define values between which a coin is considered genuine. It is also known for a coin value two or more acceptance bands provided. Narrow acceptance bands lead easily to a rejection of real coins, while wide acceptance bands the danger that, too fake coins be accepted.

It is common, every coin value or acceptance band to assign a so-called channel. Today's coin acceptors point significantly more channels on as for the acceptance of the coins a coinage required are. This is because at the production of the coin validator yet not known for which currency he is ultimately used. In case of high counterfeit money must be under Circumstances Channel switched with lower real money acceptance and higher counterfeit rejection or the acceptance of this type of coin for a certain time completely blocked become. In cash-in-progress machines, the acceptance of certain coins for a sales program be blocked, if after goods issue a correct repayment not possible is.

It is known, with the help of a computer in the software of the microprocessor for one Coin validator intervene and to control the corresponding channels, which as acceptance channels should serve and which are to be blocked. Such a possibility however, is not always at hand or is made by erectors of the machines considered too expensive.

Out EP 1 014 314 A1 a method has become known in which acceptance channels of a coin validator are blocked or released when changing over to another currency mode. This can be done, inter alia, by actuation of microswitches. However, the acceptance and blocking of channels can also be carried out via the software of the coin validator. Out US 6,076,649 In the case of the known method, a so-called "payout configuration mode" is initiated when one coin tube has been removed and replaced by another for a different denomination. Thereafter, a special coin is directed into the replaced coin tube. As a result, the sorting is programmed, after which coins of this value are directed into the new coin tube. A confirmation of the paytube assigned to the paytube leads to the payout configuration mode.

Out DE 361 16 854 A1 has become known an apparatus for successively setting one of a plurality of selectable device functions. For this purpose, rotors are rotatably mounted on shafts rotating knobs. Alternatively, slide switches or mutually triggering pushbuttons of a keypad are provided. The number of knobs and pushbuttons is equal to or less than the number of levels of a decision tree, and the successive level-to-level function associated with the knob, slide switch, or pushbutton, respectively, is displayed in the plain text display.

Out EP 0 453 258 A1 For example, a control device for a vending machine has become known in which a large number of different specifications can be replaced by switches. The placement of coin tubes and the coin box will set the distribution of the coins. A coin value for this is used as a parameter in the memory of the processor of the machine.

As mentioned is known in a coin validator one Switch block of micro switches to arrange and with all or one Part of the switch to make a blocking of coin channels. Usually have such switch blocks six, eight or ten switches (DIL switch). Therefore, can be with Help such microswitch affect only a small number of channels.

It is also known by coin validators an interface for the machines a channel lock by a machine control via so-called Münzsperrleitungen make. The coin blocking lines are programmed in the coin validator channels permanently assigned.

There in today's Münzprüfern, like mentioned above, a variety of different coins programmed simultaneously (12, 24 or 36 coin types) is the assignment of individual blocking lines to the coin channels or the blocking with the help of micro switches consuming or not more realizable.

Out EP 0 560 827 A1 It is also known to put the coin validator in a so-called teach mode via a manually operable switch or the like, in which subsequently by accepting a coin an acceptance or a blocking of the responsible channel for this coin is accomplished. However, this method requires that the service person has the corresponding coins at hand.

Of the Invention is based on the object, a method for release or blocking of acceptance channels to indicate in coin validators when working with a relatively small number of switches can be.

These The object is solved by the features of claims 1 or 2.

in the method according to the invention is the totality of the acceptance channels divided into groups and Each channel of the group becomes a microswitch of first switches assigned to a micro switch block in Münzprüfer. Such assignment occurs in the software of the coin validator microprocessor. A second switch of the switch block is used to initiate a Release or blocking actuated. His activity is required to have a release or a lock at all To set a course. After operation of the second switch, the first switch is now operated, too that owns the channel group, in which the channel to be blocked or released is located. When this is done, a third switch is used as a confirmation switch used, its operation after selecting the channel group this choice is confirmed. By a renewed actuation of a or more of the first switches may have their associated channels Group is locked or unlocked and the channels are not actuated Switches are enabled or disabled. A renewed actuation of the third Switch ends the channel selection, and a reset of the second switch ends the process.

With In other words, in a first step, using the switch one or more channel groups selected and in the second step become from this group or in the channel groups those switches actuated, their assigned channels be released or blocked. The programming process the coin single lock is ended with the second switch.

A possibility it is also after the first step, i. Selection of the coin group, to lock them completely. Instead of the associated switches all to actuate, can also be provided to operate the third switch again, thereby a complete blocking of this channel group takes place.

The Method according to claim 2 is also operable Switches out as a switch block (DIL switch) on Münzprüfer usually are provided. In this procedure, a group of first Microswitches of the microswitch block binary weights assigned by which can be expressed any number of a total number of acceptance channels. With The numbers 1, 2, 4, 8 and 16 can be, for example, all numbers between Express 1 and 31. This assignment is programmed in the microprocessor of the coin validator. By a corresponding actuation the microswitch can be therefore, form any number between, for example, 1 and 31. As a result, the microprocessor recognizes which coin channel it is releasing or blocking should. Before this process is carried out, an actuation of a second switch, which initiates the process described first. As soon as the process is completed, a third switch is actuated the programming confirmed. A final one reset in the initial state by re-actuation of the second switch.

For the service person is it a relief if, according to one embodiment of the invention, the activity the third switch (confirmation switch) is coupled with an acoustic signal. Alternatively, you can also a visual signaling done.

It is not required for the third switch to a microswitch from the microswitch block to take. Alternatively, according to one embodiment of the invention of return switch therefor used in each coin machine is provided. For acoustic signaling, a response serve the acceptance switch. This response can be provided by the service person be readily perceived.

Based of two embodiments the invention should be closer explained become.

1 schematically shows a switch block of eight micro-switches (DIL switches) in different operating positions of the switches for carrying out the method according to the invention.

2 shows a similar switch block in a schematic representation for carrying out the method according to the invention.

2a indicates a modification 2 ,

In 1 is a switch block 10 to recognize, which is assigned to a coin validator, not shown. The coin validator of known construction and known function has a microprocessor in which the software of the Münzprüers is stored in the form of software. This also includes the programming of a plurality of acceptance channels, each coin to be tested at least one acceptance channel is assigned. Frequently, two or more acceptance channels are assigned to a coin type in order to optionally provide different width acceptance bands. In actual operation, only a limited number of acceptance channels are needed since a coin validator is typically used for only one currency and that currency has a limited number of coins.

The switch block 10 has in the present case eight microswitches (DIL switches), which are in 1 are designated by the numbers 1 to 8. Such switches usually have two switching positions (on-off). Actuation of the switch is referred to as a blackened circle, while non-actuation is represented by a blackened circle.

It For example, suppose that the coin validator not shown in total thirty-six acceptance channels has, all can be programmed by the manufacturer or by the manufacturer. In the software is at the same time a division of the thirty-six acceptance channels into groups, for example in six groups. The first group includes about the channels 1 to 6, the second the channels 7 to 12, etc. Further, in the software, an assignment of these Channel groups made to the micro-switches 1 to 6. The microswitch 1 belongs about to group 1, the microswitch 2 to group 2, etc. In addition are the channels each group in turn also associated with microswitches. The first Group 1 channel is associated with switch 1, for example. The first For example, channel of the second group is also the first switch 1 assigned, etc. The assignment described measured in the machine for the service person be recognizable if he is to perform a blocking or release of individual acceptance channels. It is assumed that the acceptance channels 9, 10, 11 and 12 are to be locked.

For this purpose, the switch no. 8 is actuated according to phase 1, whereby the blocking operation is initiated. The operation of this switch is similar to the setting of the software of the microprocessor in a learning mode. The channel 7 is in group 2. Therefore, the service person will operate the switch 2, whereby he has selected the group (channels 7 to 12). After selecting the group, a third switch No. 7 is actuated (confirmation switch). With the operation of the switch 7, for example, a signal (acoustically or visually), for example, by tightening the acceptance path, which the service person can perceive acoustically. This is in Phase 3 in 1 shown. After confirming the confirmation switch, it must be reset (phase 4). Now a choice has to be made regarding the channels, ie locked channels should be # 9, 10, 11 and 12. According to the selected group, the switches Nos. 1 to 6 correspond to the channels 7 to 12. Therefore, the switches Nos. 3, 4, 5 and 6 are to be operated so that the channels 9, 10, 11 and 12 are disabled. The channels 7 and 8, however, are free.

To Selection of the channels to be blocked the confirmation switch 7 pressed again and reset again (Phases 4 and 5). By resetting of the second switch No. 8 (phase 8), the process is completed. Become all switches 1 to 6 are pressed the entire group no. 2 locked. Instead, it can also be provided will be, after the confirmation the choice made by the switch no. 7 to repeat this. This can be "understood" by the software as blocking the entire group.

The Release of previously blocked channels takes place in the same way as described above, but in the second step the associated switches not activated become.

In 2 is again a switch block 10a to recognize, comparable to the switch block 10 to 1 , Further versions of this switch block are therefore unnecessary. The off and on positions of the switches Nos. 1 to 8 are indicated by a 0. The switches 1 to 5 are intended to select the channels that are to be released or locked. The switches no. 6 to 8 serve further functions. Phase no. 1 is the starting position in which all switches 1 to 8 are switched off. Pressing switch no. 8 initiates the channel selection process (learning mode). The operation of the switch 7 means: When turned on, the previously selected channel is enabled. Switched off means that the previously selected channel is disabled. This should be indicated by phase 3.

The Switches 1 to 5 are the binary ones Values 1, 2, 4, 8 and 16 are assigned, as seen from phase 4 onwards. These weights are already stored in the microprocessor. With you can generate all numbers from 1 to 31. Also in this Case is assumed that total thirty-two acceptance channels available.

It is assumed that the acceptance channel 13 should be disabled. For this purpose, the switches 1, 3 and 4 are actuated, which corresponds to a sum of the binary weights of 13 (= 1 + 4 + 8). As a result, the software knows that the channel 13 must be locked. The selection made in this way is confirmed by switch 6 (phase 5a). After actuation of the switch 6 is reset, which is communicated to the service person with an acoustic or visual signaling, for example, tightening the acceptance turn (Phase 5b). After completion of the selection process and its confirmation, all switches are set to "Off" again, also the switch No. 8, which completes the process.

alternative to the microswitch No. 6 can also be another switching element for activity be used, for example, a return switch, which is always available is.

For coin validators greater than 31, increase the number of channel selection switches, as in 2a shown. Another switch 6 with the binary value 32 makes it possible to select a maximum of 31 + 32 = 63 channels. The use of a 10-pin DIL switch is then useful.

It is understood that for the implementation of this method for the service person must be recognizable, which binary numbers the switches of the switch block 10a assigned.

Claims (5)

Method for releasing or blocking acceptance channels in coin validators Help of microswitches (DIL), with the potentially acceptable coin values at least one acceptance channel of an electrical control device for the Assigned to coin validator who at the same time provides a predetermined acceptance band for the denomination, with the following features - the entirety of the acceptance channels becomes divided into groups and each group and each channel of the group becomes a microswitch of first microswitches of a switch block assigned to the coin validator second microswitch of the switch block is used to initiate a Release or blocking actuated, to activity of the second microswitch is activated by actuation of one of the first microswitch the associated Channel group selected a third microswitch of the switch block is used as a confirmation switch used, its operation after selecting the channel group the choice is confirmed by a renewed activity one or more of the first microswitches the associated channels are blocked and the channels the non-actuated switch released and a renewed actuation of the third microswitch confirms the Channel selection and a reset of the second microswitch ends the process. Method for releasing or blocking acceptance channels in coin validators Help of microswitches (DIL), with the potentially acceptable coin values each an acceptance channel of an electrical control device for the Assigned to coin validator who at the same time prescribes an acceptance band for the coin validator, with the following ones features a group of first microswitches of a microswitch block of the coin validator binary Assigned valences by which each number of a total number of acceptance channels can express and stored in a memory of an electronic control device for coin validator, wherein a predetermined number by actuation of first micro-switches is generated, by which the control device, the blocking of the belonging to this number coin channel causes before operation the first microswitch becomes a second microswitch for initiation a release or the locking operation is actuated a third microswitch is pressed to confirm the Completion of the operation the first microswitch and a reset of the first and the second microswitch ends the process. Method according to claim 1 or 2, characterized that the actuation of the third microswitch is coupled to a signaling. Method according to one of claims 1 to 3, characterized the third microswitch is formed by a return switch. Method according to one of claims 1 to 4, characterized that when pressed of the third microswitch responds to the acceptance of the coin validator.