Abstract:
An article depositing machine is disclosed which is capable of almost automatically achieving operations for depositing money in a bank or like establishments even in the absence of a bank attendant and which is provided with means for entering a customer&#39;s identification number and other necessary information, means for offering to a customer an article container for sealing therein a bill, a written request for payment or like article, means for entering information on the article container offered to the customer, means for storing therein the information on the article container together with the customer&#39;s identification number and the like, and means for storing therein the article container deposited by the customer.

Description:
BACKGROUND OF THE INVENTION 
     1. Field of the Invention 
     This invention relates to an article depositing machine which is suitable for an unmanned operation of accepting a deposit or receiving payment into banks or like establishments or for receiving an article in an article depositary. 
     2. Description of the Prior Art 
     Heretofore, automatic cash dispensing machines making use of a credit card such, for example, as a magnetic card, have been employed, for example, in banks or like establishments, for the purposes of labor saving of business, giving better service to customers or the like. 
     With such an automatic cash dispensing machine, it is possible to perform an unmanned cash dispensing operation only by inserting a magnetic card having recorded thereon a customer&#39;s identification number and the like into the machine and by actuating keys of the machine. 
     However, for depositing or paying moneny into a bank, it is necessary, except in isolated cases, for a customer to go to the window of the bank as usual. 
     With such a system, it is impossible, of course, to deposit or pay money into the bank outside its business hours. 
     For automation of the system for acceptance of deposit or payment outside the business hours of banks, various developments have been attempted and, as a result, an automatic depositing machine such, for example, as disclosed in the U.S. Pat. No. 3,648,020, has already been proposed. The greatest difficulty in this kind of machine is an examination of the genuineness of cash. In the machine already proposed, bills are inserted into the machine one by one for the examination of the genuineness of cash and for other necessary operations but this is time-consuming and requires a customer to conduct troublesome operations and, in addition, cannot always assure an accurate examination of the genuineness of cash. 
     With another type of depositing machine, a depositor writes predetermined matters, for example, the amount of money to be deposited, his name, etc., on a depositing container (such, for example, as an envelope) placed outside of the machine, puts money in the container, opens a shutter of a deposit inlet after identified, deposits from the inlet the depositing container having contained therein the cash and then puts up the shutter. 
     In such a machine, since the depositor is required to write the matters necessary for the deposit on an envelope or the like, there is the possibility of his making a mistake in writing of the necessary matters. Further, no limitation is imposed on the time for opening of the shutter, so that the depositing machine is greatly affected by dust, humidity or by a foreign substance thrown into the machine by a customer on purpose or due to carelessness and this especially true, for example, when water enters the machine. 
     If characters written on the envelope are erased or blurred or there is a mistake in the matters written on the envelope, trouble arises between the bank and the depositor. 
     SUMMARY OF THE INVENTION 
     This invention has for its object to provide an article depositing machine which enables an unmanned but easy and speedy operation for acceptance of deposit of an article such, for example, as deposit or payment in cash, only by inserting into the machine a credit card such as a magnetic card used with an automatic cash dispensing machine or only by actuation of a keyboard of the machine. 
     One object of this invention is to provide an article depositing machine which is composed of means for entering an identification number of a customer, means for offering to the customer an article container having a particular mark of its own for sealing therein articles such as bills, a written request for payment, etc., means for entering the mark of the article container offered to the customer, means for storing the entered mark of the article container or a mark corresponding thereto together with the identification number of the customer, and means for storing the article container deposited by the customer. 
     With such a machine, a required article can be deposited easily in a short time by insertion of a magnetic card into the machine or actuation of the keyboard of the machine or the combined use of the both methods. This machine is of particular utility when employed for depositing or paying cash into a bank. By the envelope having previously marked thereon its envelope number, a journal or the like having printed thereon the envelope number, etc. which the customer enters, the owner of the envelope deposited in the machine is identified, so that various complicated matters need not be printed on the envelope, and consequently an expensive exclusive envelope printing mechanism is not necessary. Further, since no mechanism for examining the genuineness of cash is required, the construction of the machine is extremely simplified and, for example, when this machine is combined with an automatic cash dispensing machine installed in a bank, it is possible to provide a deposit or payment system only by adding envelope dispensing and receiving mechanisms. 
     Another object of this invention is to provide an article depositing machine which is composed of means for entering an identification number of a customer, means for offering to the customer an article container for sealing therein bills, a written request for payment, etc., means for storing therein at least a transaction number and the identification number of the customer for each transaction, means for printing a number corresponding to the above transaction number on the article container deposited by the customer, and means for storing the numbered article container. 
     With the above machine, a desired article can be deposited easily and rapidly by insertion of a magnetic card into the machine or actuation of the keyboard of the machine or the combined use of the both methods. This machine is particularly suitable for deposit or payment of cash into a bank and since the customer is required only to actuate the keyboard of the machine and put the envelope in the machine after sealing the article in the envelope, the operation for deposit or payment is very simple and easy. 
     Further, no mechanism for examining the genuineness of cash is involved, so that the construction of the machine is appreciably simple and, when this machine is combined with a conventional automatic cash dispensing machine, it is possible to provide a deposit or payment system only by adding envelope dispensing and receiving mechanisms and a numbering printer. 
     Another object of this invention is to provide an article depositing machine which is composed of means for entering an identification number of a customer, means for offering to the customer an article container having a serial number for sealing therein articles such as bills, a written request for payment, etc., means for counting each offering of the article container to the customer, means for storing therein at least the identification number of the customer and the number assigned to the article container for every transaction, means for receiving the article container deposited by the customer in the machine after sealing the articles in the article container, and means for storing therein the deposited article container. 
     With such a machine, a desired article can be deposited easily and rapidly by insertion of a magnetic card into the machine or actuation of the keyboard of the machine or the combined use of the both of them. This machine is of particular utility when employed for deposit or payment of cash into a bank. Since it is sufficient for the customer only to actuate the keyboard and put the envelope in the machine after sealing the articles in the envelope, the operation for deposit or payment is very simple and easy. 
     Further, this machine does not involve the use of a mechanism for examining the genuineness of cash, and hence is relatively simple in construction. For example, when this machine is employed in combination with a conventional automatic cash dispensing machine, it is possible to provide an article depositing system for deposit or payment into a bank only by adding envelope dispensing and receiving mechanisms, an envelope number counter counting the envelope number and reading its content and an adjust key for bringing the content of the envelope number counter into agreement with the envelope number at the time of loading the envelope. 
     Still another object of this invention is to provide an article depositing system which is composed of means for entering a deposit information signal by either one or both of reading a card of a customer and actuation of a keyboard by the customer, means for printing predetermined matters on a deposit container stored in the machine based on the deposit information signal and automatically offering a predetermined number of containers to the customer, means for opening a shutter of a deposit inlet a predetermined period of time after offering of the deposit container to the customer so as to receive the deposit container having sealed therein cash of the customer, and means for detecting the deposit container put in the machine to close the shutter of the deposit inlet. 
     With such a machine, matters necessary for deposit are all printed on the deposit container at the time of offering the container to the customer, so that there is no possibility of the customer making a mistake in writing the required matters for deposit. Further, since the time for opening the shutter is limited i.e., quite short, it is possible to avoid troubles of the machine which result from dust, humidity or an alien substance which is introduced into the machine by the user on purpose or due to carelessness, thus providing for enhanced reliability in the automatic depositing operation. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     This invention will be more fully understood by the following description and the attached drawings, in which: 
     FIG. 1 is a front view showing one example of a magnetic card for use in this invention; 
     FIG. 2 is a front view showing one example of an envelope for use in this invention; 
     FIG. 3 is a front view showing the principal part of one example of a receipt or journal issued from the machine of this invention; 
     FIG. 4 is a block diagram illustrating the principal part of one example of the machine of this invention; 
     FIG. 5 is a front view showing one example of an envelope for use in the machine of this invention; 
     FIG. 6 is a front view of the envelope having just sealed therein an article and marked thereon an account number; 
     FIG. 7 is a front view showing one example of a receipt or journal issued from the machine of this invention; 
     FIG. 8 is a block diagram of the principal part of another example of the machine of this invention; 
     FIG. 9 is a front view illustrating one example of an envelope for use in the example of FIG. 8; 
     FIG. 10 is a block diagram showing the principal part of another example of the machine of this invention; 
     FIG. 11 is a front view illustrating the construction of an indication part of an envelope number counter; 
     FIG. 12 is a front view showing another example of the envelope different from that depicted in FIG. 9; 
     FIG. 13 is a schematic diagram, for explaining the principal part of a mechanism which is suitable for use with the envelope shown in FIG. 12; 
     FIG. 14 is a plan view of the principal part of the deposit container; 
     FIG. 15 is a schematic diagram, for explaining the principal part of an actuation panel; 
     FIG. 16 is a block diagram of the principal part of another example of this invention, for explaining its operation; 
     FIG. 17 is a schematic diagram of the principal part of another example of the machine of this invention; 
     FIG. 18 is a block diagram of a control circuit for use in the machine of this invention; 
     FIG. 19 is a diagram, for explaining the connection of the control circuit and input/output units; 
     FIGS. 20 and 20A are flow charts of the example of FIG. 4; 
     FIG. 21 and 21A are flow charts of the example of FIG. 8; 
     FIGS. 22 and 22A are flow charts of the example of FIG. 10; and 
     FIGS. 23 and 23A are flow charts of the example of FIG. 16. 
    
    
     DESCRIPTION OF THE PREFERRED EMBODIMENTS 
     In the apparatus of this invention, a customer&#39;s identification number may be entered by actuation of a keyboard or reading a magnetic card having recorded thereon the identification number or by the combined use of the both methods. 
     In the case of employing both methods in combination, transactions are performed only when a number entered from the keyboard and the identification number recorded on the magnetic card correspond to each other. This is similar to those disclosed in detail in U.S. Pat. Nos. 3,221,304 and 3,662,345, and hence will not be described in detail. 
     FIG. 1 is a front view of one example of a magnetic card for use in the apparatus of this invention. 
     In FIG. 1, reference numeral 1 indicates a magnetic card and 2 designates a magnetic recording medium mounted on one surface of the magnetic card 1. The sizes and shapes of the magnetic card 1 and the magnetic recording medium 2 are internationally standardized. The magnetic recording card 2 has recorded thereon an identification number for identifying a customer, a code for identifying the validity of the magnetic card 1, a code for comfirming the validity of its user, etc. 
     An article container for use in the apparatus of this invention is desired to be a bag-like one which can be sealed, for example, an envelope, but may be some other types. 
     FIG. 2 is a front view of one example of an envelope for use in one example of this invention apparatus. 
     In FIG. 2, reference numeral 21 denotes the envelope and 22 represents a particular number printed on the envelope 21. 
     For storing the mark of the article container of the apparatus of this invention or a mark corresponding thereto together with the customer&#39;s identification number, it is possible to employ a memory such as a magnetic disc, a magnetic core, a paper tape or the like or a journal issuing device such as a printer or the like but it is desired to use the both of them in combination with each other. Namely, if information entered in the depositing machine is stored in the memory which is provided in association with the journal issuing device, the entered information can be processed as it is when automatically processed by an information processing unit (such, for example, as a computer), so that the combined use of the memory and the journal issuing device is more advantageous. Further, if the journal issuing device is provided as the aforesaid storing means in addition to the memory, a person in charge can check the deposit on the spot, which is convenient. Of course, it is also possible to employ either one of the memory and the journal issuing device as the aforementioned storing means. 
     FIG. 3 is a front view of the principal part of one example of a receipt issued from one example of the apparatus of this invention or a journal which is a duplicate of a chit of a bank. 
     In FIG. 3, reference numeral 31 indicates a receipt or journal and 32 designates records such as, for example, the customer&#39;s identification number, the aforementioned envelope number, the amount of money, an indication of deposit or payment, etc. 
     FIG. 4 illustrates in block form the principal part of one example of the apparatus of this invention, which employs, as customer&#39;s identification number entering means, a keyboard and a card reader/writer in combination with each other, an envelope as the article container and a combination of a data storage and a receipt and journal printer as the storing means. 
     In FIG. 4, reference numeral 100 indicates generally the apparatus; 111 designates a control circuit; 112 denotes an instruction display; 113 identifies the keyboard; 114 represents the card reader/writer; 115 shows an envelope dispenser; 116 refers to an envelope depository; 117 indicates an envelope storage; 118 designates the receipt and journal printer; and 119 denotes the data storage. The parts described previously with regard to FIGS. 1 to 3 are identified by like reference numerals and no description will be repeated. 
     Now, the operation of each part of the apparatus of FIG. 4 will be described but since an understanding of the general operation of the control circuit 111 will facilitate a better understanding of the overall operation of the apparatus, a description will be given first of the control circuit 111. 
     In FIG. 18, there is illustrated in block form one example of the control circuit 111 for use in this invention, which is similar in construction to an ordinary computer (in particular, a micro computer). 
     In FIG. 18, reference numeral 201 indicates a program unit; 202 designates an arithmetic unit; 203 represents a program control unit; 204 identifies an arithmetic control unit; 205 denotes a random-access memory; 206 shows an address counter; 207 refers to an output data buffer; 208 designates an input data buffer; and 209 denotes an input/output device selector. The program unit 201 comprises a read only memory for program 201a, a step counter 201b and a decoder 201c. The arithmetic unit 202 comprises registers 202a and 202b, an arithmetic circuit 202c and gates 202d and 202e. 
     Next, the general operation of this circuit will be described. 
     A program which decides the operation sequence of each unit is stored in the read only memory for program 201a. The read only memory for program 201a is formed with an IC memory, a core memory or the like and each address of the read only memory for program is designated by the step counter 201b. The step counter 201b is controlled by the program control unit 203. The content of the address designated by the step counter 201b is read out from the read only memory for program 201a to the decoder 201c. The decoder 201c decodes the read-out content and sends it out to a line 230 or 231 depending on whether it is a data or command. 
     Where the decoded content is data and particularly input/output selection data, it is applied to the input/output device selector 209, which, in turn, applies a selection signal to any one of lines 236a to 236n connected to input/output units so as to select one of them. 
     Other data is applied to the registers 202a and 202b through the gates 202d and 202e. Further, the data to each input/output unit is applied to the output data buffer 207, which is connected to each input/output unit through a send data bus. 
     Moreover, if the decoded content is a command, it is applied to the arithmetic control unit 204 or the program control unit 203. 
     Based on the command, the arithmetic control unit 204 actuates the gates 202d and 202e, controls the read timing of the registers 202a and 202b or designates the kind of arithmetic operation to be performed by the arithmetic circuit 202c. The program control unit 203 controls the step counter 201b or effects a timing control of the read only memory for program 201a and the decoder 201c based on the command. 
     A line 231 is connected to the address counter 206 and achieves addressing of the random-access memory 205 based on a command supplied from the decoder 201c. 
     The arithmetic unit 202 comprises the two registers 202a and 202b, the input control gates 202d and 202e for controlling the inputs to the registers 202a and 202b, respectively, and the arithmetic circuit 202c for effecting arithmetic operations (calculations such as addition, subtraction, multiplication and division and logical operations such as comparison and the like) of the contents of the registers 202a and 202b. The arithmetic unit 202 is controlled by the arithmetic control unit 204 which is placed under the control of the program stored in the read only memory for program 201a. 
     A signal coming from each input/output unit such as the card reader/writer or the like through the send data bus is applied to the register 202a through the input data buffer 208, a line 237 and the gate 202d. In the case of an arithmetic operation of the content of the register 202a, an operand is placed in the register 202b and an arithmetic operation of the contents of the both registers 202a and 202b is effected by the arithmetic circuit 202c and the result of the operation is placed in the registers 202a and 202b through a line 232 and the gates 202d and 202e. The command obtained with the logical operation of the logical (i.e., arithmetic circuit 202c is applied to the program control unit 203 through a line 233. 
     In the case of merely placing the data from the input/output unit, it is placed in the random-access memory 205 through the register 202a and a line 234. 
     Conversely, in the case of sending out to the input/output unit data placed in some address of the random-access memory 205, the content of the read only memory for program 201a is decoded by the decoder 201c and fed to the address counter 206 through the line 231 and the address counter 206 designates a predetermined address of the random-access memory 205 and its content is transferred first to the register 202a through a line 235 and the gate 202d. Then, an instruction stored in the read only memory for program 201a is applied to the input/output device selector 209 to cause it to select an input/output unit to which the data is to be sent out and, at the same time, to transfer the content of the register 202a to the output data buffer 207 through a line 234. 
     Next, a description will be made with regard to the relationship between the input/output device selector 209 and input/output units in the control circuit 111. 
     FIG. 19 is a block diagram showing the connections of the input/output device selector 209 and the send and receive data buses to the input/output units. In FIG. 19, the same parts as those shown in FIGS. 4 and 18 are indicated by like reference numerals. Reference numeral 114-1 indicates a decoder of the card reader/writer 114; 114-2 designates an encoder of the card reader/writer 114; 114-3 and 114-4 identify AND circuits; 115-1 represents a decoder of the envelope dispenser 115; 115-3 and 115-4 denote AND circuits; 116-1 shows a decoder of the envelope depository 116; 116-2 refers to an encoder of the envelope depository 116; 116-3 and 116-4 indicate AND circuits; 118-1 designates a decoder of the receipt and journal printer 118; 118-2 identifies an encoder of the receipt and journal printer 118; 118-3 and 118-4 denote AND circuits; 112-1 represents a decoder of the instruction display 112; 112-3 shows an AND circuit; 113-1 refers to an encoder of the keyboard 113; 113-4 indicates an AND circuit; 119-1 designates a decoder of the data storage 119; 119-3 identifies an AND circuit; 236a denotes a selection line of the card reader/writer 114; 236b represents a selection line of the data storage 119; 236c shows a selection line of the keyboard 113; 236d refers to a selection line of the instruction display 112; 236e indicates a selection line of the envelope dispenser 115; 236f represents a selection line of the envelope depository 116; and 236g denotes a selection line of the receipt and journal printer 118. 
     The respective input/output units 112, 113, 114, 115, 116, 118 and 119 can be connected with the output data buffer 207 of the control circuit 111 through the send data bus and connected with the input data buffer 208 through receive data bus. 
     The connection of the input/output units 112, 113, 114, 115, 116, 118 and 119 with the send data bus or the receive data bus is achieved by controlling the AND circuits 112-3 to 119-3 and 113-4 to 118-4 by the selection lines 236a to 236g connected to the input/output device selector 209. 
     Further, decoders 112-1 to 119-1 connected to the input/output units 112 to 116, 118 and 119 decode information (or a data) from the send data bus and apply it to the input/output units. On the other hand, the encoders 113-2 to 118-2 encode information (or a data) from the input/output units and apply it to the receive data bus. 
     Referring now to the flow charts shown in FIGS. 20 and 20A, a description will be given of the process of automatic deposit or payment which is achieved by the actuation of the apparatus depicted in FIG. 4. 
     Step 1: At first, a customer inserts the magnetic card 1 into the card reader/writer 114. By the insertion of the magnetic card, an insertion detecting signal is applied to the input data buffer 208 from the card reader/writer 114 through the receive data bus. The content fed to the input data buffer 208 is moved to the register 202a. At the same time, the program control unit 203 applies a normal insertion detecting signal from the read only memory for program 201a to the register 202b and the contents of the both registers 202a and 202b are compared by the arithmetic circuit 202c with each other to confirm that the insertion detecting signal fed from the card reader/writer 114 is a correct signal and then this information is supplied to the program control unit 203 through a line 233. 
     Step 2: Based upon this information, the program control unit 203 reads out a program of the next operation sequence from the read only memory for program 201a. Namely, in order to cause the card reader/writer 114 to read the data on the magnetic card, a card reader/writer 114 selecting command and a read command are applied through the decoder 201c from the read only memory for program 201a to the input/output device selector 209 and the output data buffer 207, respectively. The card reader/writer 114 applies information of the send data bus connected with the output data buffer to the decoder 114-1 by the opening of the gate 114-3 by the card read/writer selection line which is connected to input/output device selector 209, thus causing the card reader/writer 114 to perform the read operation. 
     The card reader/writer 114 reads the data on the inserted magnetic card 1 and applies the data to the input data buffer 208 of the control circuit 111 through the send data bus. 
     Step 3: In the control circuit 111, the content of the input data buffer 208 is moved to the register 202a and, in order to check the validity of the magnetic card 1, for example, its term of validity and kind and whether it is a card which may be transacted with, the terms of validity, codes of kinds of cards which may be transacted with, hot card numbers, etc., which are stored in the read only memory for program 201a, are sequentially read out into the register 202b and compared by the arithmetic circuit 202c with the content moved to the register 202a. 
     At the same time, the content of the register 202a is stored at a predetermined address of the random-access memory 205. 
     Step 4: If the magnetic card 1 is found invalid as a result of the above comparison, the program control unit 203 causes the read only memory for program 201a to derive therefrom an invalidity signal and, by the input/output device selector 209, a return signal is applied from the output data buffer 207 to the card reader/writer 114, thus returning the magnetic card 1. 
     Step 5: If the magnetic card 1 is found valid, a customer is given notice to enter into the apparatus a secret number which only a right possessor of the card knows, for example, his identification number, so as to check whether the magnetic card 1 is being used by its right owner or not. This notification is achieved by the actuation of the instruction display 112 which is effected by supplying the input/output device selector 209 with a signal selecting the instruction display 112 and the output data buffer 207 with a data for selecting the instruction display 112 from the read only memory for program 201a. 
     Given the above notice, the customer enters his identification number into the apparatus by actuating the keyboard 113. At this time, a signal for selecting the keyboard 113 is applied from the read only memory for program 201a to the input/output device selector 209, so that a signal from the keyboard 113 is transmitted through the receive data bus to the input data buffer 208 of the control circuit 111. 
     In the control circuit 111, in order to check whether or not the identification number recorded on the magnetic card 1 and that entered from the keyboard 113 bear a predetermined relation to each other, the content of the input data buffer 208 is once moved to the register 202a and the identification number on the magnetic card stored in the random-access memory 205 is moved to the register 202b and then the contents of the both registers 202a and 202b are compared by the arithmetic circuit 202c with each other. If they bear the predetermined relation to each other, the customer is regarded as a right owner of the magnetic card 1 and the transaction proceeds. 
     Step 6: Where the contents of the registers 202a and 202b do not bear the predetermined relation to each other, steps similar to those in the case of the magnetic card 1 being invalid are taken. These steps are taken by applying the arithmetic result of the arithmetic circuit 233 to the program control unit 203. 
     Step 7: Where the transaction is allowed to proceed as a result of the arithmetic operation of the arithmetic circuit 233, the program control unit 203 sends a signal for selecting the envelope dispenser 115 to the input/output device selector 209 from the read only memory for program 201a and, at the same time, sends an envelope dispense command to the output data buffer 207. As a result of this, the envelope dispenser 115 dispenses the envelope 21. 
     Upon dispensing the envelope 21, an envelope dispense status signal is applied to the input data buffer 208 through the receive data bus and the content of the input data buffer 208 is moved to the register 202a and also stored at a predetermined address of the random-access memory 205. 
     Step 8: At the same time, the program control unit 203 sends a command for selecting the instruction display 112 to the input/output device selector 209 from the read only memory for program 201a and also sends data for selecting the instruction display 112 to the output data buffer 207. Thus, the instruction display 112 gives the customer on instruction to enter into the apparatus the particular number recorded on the envelope 21. Then, the program control unit 203 applies a command of selecting the keyboard 113 to the input/output device selector 209 from the read only memory for program 201a. 
     When the customer has entered the number of the envelope 21 through the keyboard 113, the number of the envelope 21 is applied to the input data buffer 208 through the receive data bus and then to the register 202a. The control circuit 111 checks whether the entered envelope number is correct or not. This can easily be achieved by assigning a special check digit to the envelope number, storing the check digit in the read only memory for program 201a, reading it out to the register 202b and checking it by the arithmetic circuit 202c or by assigning a serial number to the envelope, storing it in the read only memory for program 201a, reading it out to the register 202b and checking it by the arithmetic circuit 202c. Based on the signal thus obtained, the program control unit 203 applies the envelope number entered in the read only memory for program 201a to the random-access memory 205 from the register 202a. 
     Step 9: If the envelope number is not correct, the magnetic card 1 is returned to the customer as in the case where the magnetic card 1 is invalid. 
     Step 10: If the envelope number is correct, the arithmetic circuit 202c sends a signal to the program control unit 203 through the line 233 and, based on the signal, the program control unit 203 supplies the read only memory for program 201a with a signal instructing it to apply a command of selecting the instruction display 112 to the input/output device selector 209 and data for selecting the instruction display 112 to the output data buffer 207. Thus, the instruction display 112 gives notice to the customer to enter the amount of money to be deposited or paid. 
     Then, the program control unit 203 sends a command of selecting the keyboard 113 to the input/output device selector 209 from the read only memory for program 201a. 
     When the input data of the amount of money has been entered in the input data buffer 208 of the control circuit 111 by the actuation of the keyboard 113 by the customer, the content of the input data buffer 208 is moved to the random-access memory 205 through the register 202a. 
     Step 11: Further, the program control unit 203 sends from the read only memory for program 201a a command of selecting the instruction display 112 to the input/output device selector 209 and a data for selective display of the instruction display 112 to the output data buffer 207. As a result of this, the instruction display 112 gives the customer an instruction to put cash to be deposited, a payment slip, etc. in the envelope 21 and deposit the envelope 21 in the envelope depository 116. At the same time, the program control unit 203 applies from the read only memory for program 201a a command of selecting the envelope depository 116 to the input/output device selector 209 and a shutter open command to the output data buffer 207, thus opening the shutter of the envelope depository 116. 
     The envelope 21 deposited in the envelope depository 116 is temporarily stored in the envelope storage 117. 
     An envelope detect signal from the envelope depository 116 is fed to the input data buffer 208 through the receive data bus and then to the register 202a. At this time, the program control unit 203 sends, as the next operation sequence, a normal envelope detect signal to the register 202b from the read only memory for program 201a and the contents of the both registers 202a and 202b are compared by the arithmetic circuit 202c with each other to check that the envelope detect signal from the envelope depository is a correct detect signal and then this information is supplied to the program control unit 203. 
     Step 12: Based on this information, the program control unit 203 reads out the next subsequent operation sequence from the read only memory for program 201a. 
     Namely, in order to close the shutter of the envelope depository 116, a shutter close signal is applied from the read only memory for program 201a to the output data buffer 207. In this case, since the input/output device selector 209 has already selected the envelope depository 116 in the preceding operation sequence, no selection command is sent. 
     Next, upon closing of the shutter, a shutter close detect signal is applied from the envelope depository 116 to the input data buffer 208 through the receive data bus. The close detect signal is then moved to the register 202a. At the same time, a normal close detect signal is applied to the register 202b from the read only memory for program 201a as described previously, so that the contents of the both registers 202a and 202b are compared by the arithmetic circuit 202c with each other to check that a correct close signal has been sent from the card reader/writer 114 and this information is applied to the program control unit 203. 
     Step 13: Based on this information, the program control unit 203 reads out the next subsequent operation sequence from the read only memory for program 201a. 
     Namely, the transaction data such as the identification number on the magnetic card, the envelope number, the amount of money, etc., stored in the random-access memory 205, are read out therefrom in a sequential order and once fed to the register 202a and then to the output data buffer 207 through the line 234. At the same time, a command of selecting the data storage 119 is applied to the input/output device selector 209 to store the above transaction data in the data storage 119. 
     Step 14: Then, the program control unit 203 reads out from the read only memory for program 201a a command of formation of the receipt and journal by the receipt and journal printer 118 as the next operation sequence. 
     Namely, a command of selecting the receipt and journal printer 118 is applied to the input/output device selector 209 and the aforementioned print command and the transaction data are sequentially fed from the read only memory for program 201a to the output data buffer 207 through the decoder 201c, thus actuating the receipt and journal printer 118. 
     The receipt and journal printer 118 prints such a receipt or journal as depicted in detail in FIG. 3 and the receipt is sent out simultaneously with returning of the magnetic card 1 to the customer (described later). Needless to say, the journal is kept as a copy of the receipt in the bank and used for checking the content of the deposited envelope later on. 
     Step 15: Thereafter, the program control unit 203 applies from the read only memory for program 201a a command of selecting the card reader/writer 114 to the input/output device selector 209 and a write data and a card return instruction to the output data buffer 207 so as to cause the card reader/writer 114 to effect writing of the data on the card and returning of the card as the next operation sequence. 
     Simultaneously with printing of the receipt and journal by the receipt and journal printer 118, the data storage 119 achieves recording of the transaction data which is applied to a processing unit for processing the deposit or payment. 
     The envelope 21 stored in the envelope storage 117 is opened, for example, after business hours of the bank to check the content. Namely, as described previously, the journal has printed thereon the envelope number, the amount of money, the customer&#39;s identification number, the transaction type, etc., so that the content of the envelope of the same envelope number as that printed on the journal is checked based on the data printed on the journal. If the amount of money printed on the journal and the content (or the transaction type and the content) of the envelope do not agree with each other, the data corresponding to the envelope number, stored in the data storage 119, is removed and notice is given to the customer for confirmation. Further, if the content of the envelope agree with the data, processing for transfer is automatically achieved by an information processing unit. 
     Turning now to FIGS. 5 to 8, a second example of this invention will be described. 
     FIG. 5 is a front view illustrating one example of the envelope for use in this example. 
     In FIG. 5, reference numeral 21a indicates generally the envelope and 22a designates the name of a bank. 
     FIG. 6 is a front view showing one example of the envelope deposited in the apparatus after having sealed therein an article such as cash or the like and numbered. The parts described above in connection with FIG. 5 are identified by the same reference numerals and will not be described. 
     In FIG. 6, reference numeral 31a denotes the number marked on the envelope and 32a represents a sealing part of the envelope. 
     FIG. 7 is a front view showing the principal part of one example of a receipt or journal which is issued from the apparatus of this example. 
     In FIG. 7, reference numeral 41a indicates generally the receipt or journal and 42a designates records such as, for example, a customer&#39;s identification number, a number indicative of serial transactions, the amount of money, the transaction type, the transaction data, etc. 
     FIG. 8 is a block diagram, for explaining the principal part of the apparatus of this example. As the customer&#39;s identification number entering means, a keyboard and a card reader are employed in combination and the envelope is employed as article sealing means, and a data storage and a receipt and journal printer are used in combination as storage means. 
     In FIG. 8, reference numeral 100a indicates generally the apparatus; 111a designates a control circuit; 112a represents an instruction display; 113a identifies a keyboard; 114a denotes a card reader/writer; 115a shows an envelope dispenser; 116a refers to an envelope depository; 117a indicates an envelope storage; 118a designates a receipt and journal printer; 119a identifies a data storage; and 120a denotes a numbering printer. The parts described previously in connection with FIGS. 1, 5 to 7, 18 and 19 are marked with the same reference numerals and no description will be repeated. 
     The automatic deposit or payment operation by the apparatus shown in FIG. 8 follows such steps as illustrated in the flow charts of FIGS. 21 and 21A. 
     At first, the magnetic card 1 shown in detail in FIG. 1 is inserted into the card reader/writer 114a as in the step 1 described previously and then the data on the magnetic card 1 is read out and applied to the control circuit 111a as in the step 2 described previously. 
     Then, the control circuit 111a checks the validity of the magnetic card 1, for example, its term of validity, kind, etc. in the same manner as in the aforementioned step 3. 
     If the magnetic card 1 is invalid, an invalidity signal is generated and the magnetic card 1 is returned to the customer as described previously with regard to the step 4. If the magnetic card 1 is valid, the customer is given an instruction to enter into the apparatus a secret number which only a right owner of the magnetic card 1 knows, for example, his identification number, so as to check whether the magnetic card 1 is being used by its right owner, as is the case with the step 5 previously described. This instruction is given by the instruction display 112a. 
     Having seen the above display, the customer enters his identification number by actuating the keyboard 113a. 
     In the control circuit 111a, the identification number recorded on the magnetic card 1 and the input from the keyboard 113a are compared with each other to check whether they bear a predetermined relation to each other. If they bear the predetermined relation, the customer is regarded as the right owner of the magnetic card 1 and the transaction is allowed to proceed further. 
     Where the identification number on the magnetic card and the input from the keyboard do not bear the predetermined relation to each other, the same procedure as in the case of the magnetic card 1 being invalid is followed as in the aforementioned step 6. 
     In the case where the transaction is allowed to proceed further, the envelope 21a shown in detail in FIG. 2 is dispensed from the envelope dispenser 115a as is the case with the step 7 described previously. 
     Further, the instruction display 112a gives the customer an instruction to enter the amount of money to be deposited or paid into the bank, as in the step 10 described previously. 
     Upon entering the amount of money in the control circuit 111a from the keyboard 113a, the instruction display 112a gives the customer an instruction to deposit the envelope 21a in the envelope depository 116a after sealing cash to be deposited or paid, a written request for payment, etc. in the envelope and, at the same time, the shutter of the envelope depository 116a is opened. 
     Upon depositing the envelope 21a in the envelope depository 116a, the shutter of the envelope depository 116a is closed as is the case with the step 13 described previously, and the transaction data is stored in the data storage 119 as in the step 14 described previously. Further, a receipt and a journal such as shown in detail in FIG. 7 are printed by the receipt and journal printer 118a and the receipt is dispensed simultaneously with returning of the magnetic card 1 to the customer in the same manner as in the aforesaid step 15. Needless to say, the journal is kept in the bank for checking the content of the envelope 21a later on. On the receipt and the journal, the customer&#39;s identification number, a transaction number, etc. are printed for each transaction. 
     Then, in the step 16 following the step 12, a number which is the same as or corresponds to a new transaction number (that 1 is added to a preceding transaction number), which is a serial number to be printed on the receipt and the journal, is printed by the numbering printer 120a on the deposited envelope 21a. 
     The detail of the number printed on the envelope 21a is depicted in FIG. 6 at 31a. 
     The envelope 21a after numbered is temporarily stored in the envelope depository 117a. 
     In the data storage 119a, the transaction data is recorded which is applied to a processor for processing of the deposit or payment. 
     The data storage 119a is formed with, for example, a core memory. 
     The envelope 21a deposited in the envelope depository 117a is opened after business hours of the bank to check its content. Namely, since the journal has printed thereon the transaction type, the transaction number, the customer&#39;s identification number, the transaction amount, etc. as described previously, the content of the envelope having printed thereon the same transaction number is checked based on the above data printed on the journal. If the printed transaction amount and the content (or the printed transaction type and the content) of the envelope do not agree with each other, the data corresponding to the aforementioned envelope number, stored in the data storage 119a, is removed and notice is given to the customer for confirmation. If the content agrees with the data printed on the envelope, the data stored in the data storage 119a is applied to automatically achieve processing for transfer. 
     Next, a third example of this invention will be described with reference to FIGS. 9 to 13. 
     FIG. 9 is a front view showing one example of an envelope for use in this example. 
     In FIG. 9, reference numeral 21b indicates generally the envelope; 22b designates the name of a bank; 23b denotes a serial number printed on each envelope; and 24b identifies a sealing part of the envelope. 
     FIG. 10 is a block diagram, for explaining the principal part of the apparatus of this example, which employs a keyboard and a card reader in combination as the customer&#39;s identification number entering means, the envelope as the article container and a data storage and a receipt and journal printer in combination as the storage means. 
     In FIG. 10, reference numeral 110b indicates generally the apparatus; 111b designates a control circuit; 112b denotes an instruction display for instructing the procedure of actuation by the customer; 113b represents a keyboard with which the customer enters various data; 114b identifies a card reader/writer; 115b shows an envelope dispenser for dispensing an envelope for sealing therein an article to be deposited; 120b refers to an envelope number counter which counts up +1 (or counts down -1) in synchronism with envelope dispensing; 121b indicates an adjust key for bringing the envelope number into agreement with a number indicated by the envelope number counter when envelopes are newly loaded; 116b designates an envelope depository for receiving the envelope having sealed therein an article to be deposited; 117b identifies an envelope storage for storing therein the deposited envelope; 118b represents a receipt and journal printer; and 119b denotes a data storage. The parts described previously with regard to FIGS. 1, 7 to 9, 18 and 19 are marked with the same reference numerals and no description will be repeated. 
     The automatic deposit or payment operation by the apparatus shown in FIG. 10 follows such steps as illustrated in FIGS. 22 and 22A. 
     At first, the magnetic card 1 shown in detail in FIG. 1 is inserted into the card reader/writer 114b as in the aforesaid step 1 and the data on the inserted magnetic card 1 is read and applied to the control circuit 111b as is the case with the step 2 described previously. 
     In the control circuit 111b, validity of the magnetic card 1, for example, its term of validity, kind, etc., are checked. 
     Where the control circuit 111b judges that the inserted magnetic card 1 is invalid, an invalidity signal is produced and the magnetic card 1 is returned to the customer as is the case with the step 4 described previously. If the magnetic card 1 is found to be valid, the customer is given an instruction to enter into the apparatus a secret number which only a right owner knows, that is, his identification number, so as to check whether or not the magnetic card 1 is being used by its right owner. This instruction is displayed by the instruction display 112b. 
     Given the above instruction, the customer enters his identification number by actuating the keyboard 113b. 
     In the control circuit 111b, the identification number recorded on the magnetic card 1 and the input from the keyboard 113 are compared with each other to be checked as to whether or not they bear a predetermined relation to each other. If they have the predetermined relation, the customer is regarded as the right owner of the magnetic card 1 and the transaction is allowed to proceed further. 
     If they do not bear the predetermined relation to each other, the same steps as those in the case where the magnetic card 1 is invalid are taken as in the aforesaid step 6 or the magnetic card is taken in the apparatus so as to prevent it from being used again. 
     When further transaction is allowed, the envelope 21b shown in detail in FIG. 9 is dispensed from the envelope dispenser 115b as in the aforesaid step 7. 
     The envelope 21b has printed thereon the serial number 23b as described previously and, which is in agreement with a display on the envelope number counter 120b. 
     The display part of the envelope number counter 120b has such a construction as depicted in FIG. 11. 
     In FIG. 11, reference numeral 51b indicates an envelope number display window and 52b designates manual step buttons. FIG. 11 shows the state that a first envelope has just been dispensed. 
     In the case of setting a new envelope 21b in the apparatus in a step 1&#39; prior to the step 1, adjustment is effected by the adjust key 121b to bring the envelope number of the envelope 21 to be dispensed and the number indicated by the envelope number counter 120b into agreement with each other. 
     Further, the number indicated by the envelope number counter 120b is also applied to the control circuit 111b. 
     Then, simultaneously with dispensing of the envelope 21b, the instruction display 112b gives the customer an instruction to enter the amount of money to be deposited or paid, as in the aforesaid step 10. 
     Upon entering the amount of money into the control circuit 111b from the keyboard 113b, the instruction display 112 gives the customer an instruction to seal cash, a written request for payment or the like in the envelope 21b and deposit the envelope 21b in the envelope depository 116b and, at the same time, the shutter of the envelope depository 116b is opened, as in the aforesaid step 11. 
     Upon deposition of the envelope 21b in the envelope depository 116b, the shutter of the envelope depository 116b is closed as in the aforesaid step 12 and the transaction data is stored in the data storage 119b as in the aforesaid step 13. Further, as in the case with the aforesaid step 14, the receipt and journal 41a such as depicted in FIG. 7 are printed by the receipt and journal printer 118b and the receipt is dispensed simultaneously with returning of the magnetic card 1 to the customer as in the aforesaid step 15. Of course, the journal is kept in the bank for checking the content of the deposited envelope 21b later on. 
     The receipt and journal 41a have printed thereon the envelope number indicated by the envelope number counter 120b. Of course, this number is the same as the envelope number printed on the deposited envelope 21b. 
     The deposited envelope 21b is temporarily stored in the envelope storage 117b. 
     In the data storage 119b, the transaction data is recorded which is to be applied to a processor for processing of the deposit or payment. 
     In a step 7&#39; subsequent to the step 7, upon completion of one transaction, the envelope number counter 120b counts up by +1 (or counts down by -1) to display an envelope number of an envelope which will be dispensed in the next subsequent transaction. The envelope number counter 120b is formed with a core memory, a mechanical counter or the like and is desired to be adapted so that even if a power source is cut off, its counted content is held as it is. 
     The envelope 21b stored in the envelope depository 117b is opened, for example, after business hours of the bank to check its content. Namely, since the journal has printed thereon the transaction type, the transaction number, the customer&#39;s identification number, the transaction amount, etc., the content of the envelope is checked based on the above data printed on the journal. If the amount printed on the journal and the content (or the printed transaction type and the content or the like) of the envelope does not tally with each other, the data corresponding to the envelope number, stored in the data storage 121b, is removed and notice is given to the customer for confirmation. If the content of the envelope tallies with the data on the envelope, the transaction data is applied to an information processor to automatically effect processing for transfer. 
     By the way, the foregoing examples employ the separate envelopes 21b but it is difficult to dispense such envelopes one by one and more than two envelopes are often dispensed at one time. 
     Such a trouble can be avoided by the employment of such envelopes as shown in FIG. 12. 
     In FIG. 12, reference numeral 61b indicates generally continuous envelopes; 62b designates perforations for a sprocket; 63b denotes serial numbers; 64b represents apertures for position detecting use; 65b identifies a sealing part having an overlap part 65b&#39;; 66b and 67b show adhesive parts; 68 refers to perforations. 
     The perforations 62b for sprocket are engaged with a sprocket and rotated thereby to transfer the envelopes 61b. 
     The envelope numbers 63b perform the same function as that 23b in the foregoing examples. 
     The position detecting apertures 64b are detected by a photoelectric conversion device, by which are produced signals on the position, dispensing and receiving of the envelope 61b and so on. 
     The overlap part 65b&#39; of the sealing part 65b has adhered thereto a paper tape (not shown). After an article to be deposited is sealed in the envelope 61b, the paper tape is peeled off to expose the overlap part 65b&#39; and then the sealing part 65b is folded on to the overlap part to seal the envelope. 
     The perforations 68b are provided to ensure cutting off of the continuous envelopes 61b by a cutter into individual ones. Such envelopes 61b are used in the manner shown in FIG. 13. 
     In FIG. 13, reference numeral 61b indicates the envelopes folded at the perforations 68b; 71b designates a motor serving as a power source for envelope dispenser; 72b and 73b represent sprockets; 74b and 75b denote rollers; 76b identifies an envelope guide; 77b shows a position detector comprising a light source 771 and a photoconductive cell 772 or like photoelectric conversion device; 78b and 79b refer to rollers; 80b designates a cutter; 81b indicates an envelope guide; 82b denotes an envelope dispensing outlet; 83b represents an envelope depositing inlet; 84b identifies a rotary shutter of an envelope depository 118b; 85b shows an envelope guide; 86b, 87b, 88b and 89b designate rollers; 90b refers to a motor serving as a power source for envelope reception; 91b denotes an envelope detector comprising a light source 911 and a phtotoconductive cell 912 or like photoelectric conversion device; and 119b identifies an envelope storage (a safe). 
     With this mechanism, the envelopes 61b are loaded with a first one being positioned at the envelope guide 76b in such a manner that light from the light source 771 of the position detector may pass through the position detecting aperture 64 of the first envelope 64b. 
     At the request of the customer, the envelopes 61b are transferred and then stopped at the position where the position detecting aperture of a second one of the envelopes 61b is detected by the position detector 77b. The position detector 77b produces one pulse signal between the position detecting apertures 64b of the first and second envelopes 61b and this pulse signal is applied to the control circuit 111b and the envelope number counter 120b, as an input signal indicative of one envelope 61b having been dispensed. 
     Upon stoppage of travelling of the envelopes 61b, the cutter 80b is actuated to cut off the first envelope 61b from the second envelope 61b so that the customer may take out the first envelope 61. 
     Next, a description will be given of the case of depositing the envelopes 61b having sealed therein an article to be deposited. 
     The rotary shutter 84b of the envelope depository 116b is rotated open as indicated by the broken line. The envelope 61b put in from the envelope inlet 83b is guided by the envelope guide 85b down to the envelope depository 117b. 
     In this while, the envelope detector 91b detects the passage of the envelope 61b to close the rotary shutter 84b. The rotary shutter 84b is adapted to be automatically closed a predetermined period of time after opening if the envelope 61b is not deposited. 
     Turning now to FIGS. 14 to 17, a fourth example of this invention will be described. 
     FIG. 14 is a front view showing one example of the envelope for use in this example. 
     In FIG. 14, reference numeral 61c indicates generally the envelope; 62c designates perforations of the envelope 61c; 64c denotes a position detecting aperture; 65c identifies a flap part 65c&#39; denotes an overlap part; 68c represents a perforation; 69c shows a bag portion; 70c refers to a fold; 71c indicates a date printed on the envelope; 72c designates an indentification number; and 73c the amount of money to be deposited. 
     FIG. 15 is a schematic diagram showing a keyboard panel for use in this example. Reference numeral 8c indicates an envelope outlet; 9c designates an envelope inlet; 9c&#39; represents a card insertion slot; 24c denotes keys for entering the amount of money to be deposited or paid; 25c identifies keys for entering a secret number; 26c shows a key for entering a deposite selection signal; and 27c refers to a display window of an instruction display. 
     FIG. 16 is a block diagram, for explaining the principal part of the apparatus of this example, which employs a keyboard and a card reader in combination as the customer&#39;s identification number entering means, an envelope as the article sealing means and a data storage and a receipt and journal printer in combination as the storage means. 
     In FIG. 16, reference numeral 110c indicates generally the apparatus; 111c designates a control circuit; 112c identifies an instruction display for displaying the procedure of actuation by the customer; 113c denotes a keyboard for entering various data by the customer; 114c represents a card reader/writer; 115c shows an envelope dispenser for dispensing an envelope for sealing therein an article to be deposited; 116c refers to an envelope depository for receiving the envelope having sealed therein the article to be deposited; 117c indicates an envelope storage for storing the received envelope; 118c designates a receipt and journal printer; 119c identifies a data storage; and 120c represents a numbering printer for printing information on the envelope. The parts described previously in connection with FIGS. 1, 7 to 9, 18 and 19 are marked with the same reference numerals and no description will be repeated. 
     The automatic deposite or payment operation by the apparatus shown in FIG. 16 follows such steps as illustrated in flow charts of FIGS. 23 and 23a. 
     At first, the magnetic card 1 shown in detail in FIG. 1 is inserted into the card reader/writer 114c as in the aforesaid step 1 and the data on the inserted magnetic card 1 is read and applied to the control circuit 111c as in the aforesaid step 2. 
     In the control circuit 111c, validity of the magnetic card 1, for example, its term of validity, kind, etc. is checked. 
     Where the control circuit 111c judges the inserted magnetic card 1 to be invalid, an invalidation signal is produced to return the magnetic card 1 to the customer as in the aforesaid step 4. Where the magnetic card 1 is valid, the customer is given an instruction to enter into the apparatus a secret number which only a right owner knows, that is, his identification number, so as to check whether the magnetic card 1 is being used by the right owner, as in the aforesaid step 5. This instruction is given by the instruction display 112c on the display window 27c shown in FIG. 15. In compliance with the above instruction, the customer enters his identification number by actuating the secret number entering keys 25c of the keyboard 113c. 
     In the control circuit 111c, the identification number recorded on the magnetic card 1 and the input from the keyboard 113c are compared with each other to be checked as to whether or not they bear a predetermined relation to each other. If they have the predetermined relation to each other, the customer is regarded as the right owner of the magnetic card 1 and further transaction is allowed to proceed. 
     If they do not bear the predetermined relation, the same procedure as in the case of the magnetic card 1 being invalid is taken as in the aforesaid step 6 or the magnetic card 1 is taken in the apparatus to prevent that the magnetic card is used again. 
     Then, an instruction is given to the customer to enter the amount of money to be deposited and the amount of money to be deposited is entered by actuating the amount entering keys 24c of the keyboard 113c as in the aforesaid step 10. 
     Where the transaction has further proceeded, the envelope dispenser 115c dispenses the envelope 61c which is shown in detail in FIG. 14. 
     The next step 16 consists in printing of the amount of money to be deposited, the date of transaction and the customer&#39;s identification number on the envelope 61c by the numbering printer 120c. Then, an instruction is given by the instruction display 112c to the customer to seal cash to be deposited, a written request for payment or the like in the envelope 61c and deposit it in the envelope depository 116c and, at the same time, the shutter of the envelope depository 116c is opened as in the aforesaid step 11. 
     Upon deposition of the envelope 61c in the envelope depository 116c, the shutter of the envelope depository 116c is closed as in the aforesaid step 12 and the transaction data is stored in the data storage 119c as in the aforesaid step 13. Further, the receipt and journal 41a shown in detail in FIG. 7 are printed by the receipt and journal printer 118c as in the aforesaid step 14 and the receipt is dispensed simultaneously with returning of the magnetic card 1 to the customer as in the aforesaid step 15. Needless to say, the journal is kept as a copy for the bank for checking the content of the deposited envelope 61c later on. 
     The deposited envelope 61c is temporarily stored in the envelope storage 117c. 
     In the data storage 119c, the transaction data as recorded which will be applied to a processor for processing of the deposit or payment. 
     Further, the step 16 following the step 10 is replaced with a step 16&#39;. Namely, an envelope number counter is provided and its value is printed on the envelope instead of the aforementioned identification number. Then, the envelope number counter counts up by +1 (or counts down by -1) to indicate an envelope number of an envelope which will be dispensed in the next transaction. The envelope number counter is formed with a core memory, a mechanical counter or the like and is desired to be adapted so that even if a power source is cut off, its counted content may be held as it is. 
     The envelope 61c stored in the envelope storage 117c is opened, for example, after business hours of the bank to check its content. Namely, since the journal has printed thereon the transaction type, the transaction number, the customer&#39;s identification number, the transaction amount, etc. as described previously, the content of the envelope is checked based on the above transaction data. If the above printed amount of money and the content (or the printed transaction type and the content or the like) of the envelope do not tally with each other, the data corresponding to the envelope number (stored in the data storage 119c) is removed and notice is given to the customer for confirmation. If the data printed on the envelope and its content tally with each other, the transaction data is applied to an information processing unit to automatically effect processing for transfer. 
     The information which is printed on the envelope 61c is selected from the numbers necessary for deposit among the numbers read out from the magnetic card, for example, the account number, the bank number, the type of deposit, etc. 
     Referring now to FIG. 17, a description will be made with regard to the envelope dispenser and envelope depository employed in this example. In FIG. 17, reference numeral 2c indicates a card read-out section; 2c&#39; designates a magnetic head; 3c identifies a card; 61c represents an envelope; 5c denotes a printer; 6c shows a paper feeder; 7c refers to a light source; 7c&#39; indicates a photoelectric conversion cell; 8c represents an envelope outlet; 9c identifies an envelope inlet; 10c denotes a shutter; 11c shows a light source; 11c&#39; represents a photoelectric conversion cell; 15c refers to an envelope container; 28c designates a cutter; and 117c indicates an envelope storage. 
     At first, a print command is fed to the printing mechanism 5c of the numbering printer 120c from the control circuit 111c shown in FIG. 16. Supplied with the print command, the printing mechanism 5c prints on the envelope 61c the aforesaid numbers necessary for deposit, as indicated by 71c, 72c and 73c in FIG. 14. It is also possible to print a serial number on the envelope beforehand or simultaneously with printing the aforesaid deposit information. 
     Upon completion of printing the predetermined matters on the envelope 61c, a paper feed signal is applied to the paper feeder 6c from the control circuit 111c to start feeding of the envelope 61c. The paper feeder 6c feeds the envelope 61c to the envelope outlet 8c until the position detecting aperture 64c of the subsequent envelope 61c which has not printed thereon the aforementioned predetermined matters is detected by the light source 7c and the photoelectric conversion cell 7c&#39; and the envelope is cut off by the cutter 28c along the perforation 68c. 
     When the predetermined period of time has passed after dispensing of the envelope 61c, a shutter open signal is applied to the shutter 10c from the control circuit 111c, by which the shutter 10c is rotated through 180° in a direction of the arrow to open the envelope inlet 9c. 
     Then, the envelope having sealed therein cash by the depositor and deposited from the envelope inlet 9c is detected by the light source 11c and the photoelectric conversion cell 11c&#39;, by which the shutter 10c is turned through 180° in the direction of arrow to close the envelope inlet 9c or by the actuation of a timer, the shutter 10c is closed. The shutter 10c may also be rotated through 180° in a direction opposite from that of the arrow. The deposited envelope 61c is stored in the envelope storage 111c. Upon closing the shutter 10c, a receipt, on which the date of transaction, the amount of deposit, the account number a printed by the receipt and journal printer 118c (not shown), is returned together with the card 3c. 
     Next, an envelope setting method will be described. 
     At first, the envelopes 61c are stored in the envelope container 15c. Of course, the envelope container 15c may also be dispensed with. The envelope feeding perforations 62c of the first one of the envelopes 61c are engaged with projections of the paper feeder 6c, an automatic setting key (not shown) is pressed and the envelope 61c is fed by the paper feeder 6c until the position detecting aperture 64c is detected by the light source 7c and the photoelectric conversion cell 7c&#39;. Upon detection of the position detecting aperture 64c, the paper feeder is stopped, thus completing setting of the envelopes 61c. 
     The operations which the customer is required by the above example of the apparatus of this invention to perform are as follows: 
     At first, the customer inserts the magnetic card 3c into the card insertion slot Q of the card read-out section 2c. Then, he pushes the secret number input keys 25c to enter a number which is identical with or corresponds to that recorded on the magnetic card 3c. 
     Next, he pushes the deposit selection signal input key 26c to enter a deposit selection signal and also pushes the amount input keys 24 to enter the amount of money to be deposited, after which he receives the envelope 61 having printed thereon the predetermined matters (the account number, the amount of money to be deposited, the date of transaction, etc.) as depicted in FIG. 14. 
     The depositor puts cash in the bag portion 69c of the envelope 61c cut off along the perforation 68c. 
     Then, he peels off the tape put on the overlap width 65c, folds up the overlap width along the fold 70c and put it on the bag portion 69c. 
     Next, he puts in the envelope 61c from the envelope inlet 9c. 
     It will be apparent that many modifications and variations may be effected without departing from the scope of the novel concepts of this invention.