JPH08202949A - Commodity sales registering data processor - Google Patents

Abstract

PURPOSE: To provide a commodity sales registering data processing capable of simplifying key entry operation for a deposit amount and quickly and accurately inputting the deposit amount. CONSTITUTION: The processor is provided with write/storage control means 11, 12, a numeric inputting means 20N and deposit amount rewriting control means, 11, 12. A calculated total amount B ('1935 yen') is automatically written in a deposite amount memory 13M as a deposite amount C ('1935 yen'), n digits ('35') counted from the least significant digit of the amount C ('1935 yen') is rewritten to an n-digit value ('50') numeric-inputted, so that the doposit amount C ('1950') consisting of x (4) digits can be automatically inputted only by inputting n (2) digits less than the x digits.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a product sales registration data processing device for accounting processing using a total amount calculated for registered products and a deposit amount stored in a deposit amount memory.

[0002]

2. Description of the Related Art In the case of an electronic cash register type device, a product sales registration data processing device has a CPU, ROM, RAM,
It is composed of a scanner, keyboard, display, printer, drawer, etc., and can perform product sales registration business. This task is executed in the procedure shown in FIG. 5, for example.

That is, the product data (product name, unit price, etc.) of the customer-purchased product is input (YE in ST30 of FIG. 5).
S), product registration as sales data (ST31)
To be done. When the subtotal operation (YES in ST32) is performed after the product registration for all the customer-purchased products is completed, the subtotal amount A is calculated (ST33) and the consumption tax t is calculated (ST34), and the sum of these is calculated. A certain total amount B is calculated (ST35). When the consumption tax t is not the domestic tax, the total amount B is equal to the subtotal amount A. Therefore, the total amount B in this specification may be the subtotal amount A.

Now, the customer sees the total amount B ("1935 yen") shown in FIG. 6A displayed (ST36),
Hand over "1950 yen". The cashier uses the deposit amount C (“1950 yen”) as the deposit amount, and performs a key input as shown in (B) (YES in ST37). The deposit amount C (“1950 yen”) that has been input is stored in the deposit amount memory and displayed on the display (ST38).

When the cashier performs a tightening operation (YES at ST39) using, for example, the deposit / cash total key, the change amount D [15 yen = (195
0-1935)], and the accounting process (ST40) including opening the drawer and issuing the receipt is executed. The deposit amount C is stored in the drawer, and the change amount D is returned to the customer. The deposit amount C etc. is cleared.

When the deposit amount C is the same as the total amount B, the tightening operation (YES in ST39) can be performed without inputting the deposit amount C (ST37). This is because it is not necessary to calculate the change amount D.

[0007]

By the way, the input of product data (ST30), the subtotal operation (ST32) and the tightening operation (ST38) are constructed so as to be easily performed by so-called one-touch operation of keys. However, for the deposit amount C only, after receiving the deposit amount C,
The cashier must perform key input operations for the number of digits of the amount C. If the deposit amount C is 1950 yen, as shown in FIG. 6 (B), and if it is 2000 yen, as shown in FIG. 6 (C), 4
Digit key input operation is required.

[0008] Thus, cashiers trained and trained by a simple one-touch operation, especially newcomers and albiteers, can quickly perform product data input, subtotal operation and tightening operation to declare the end of one transaction within a short period of time. However, with respect to the key input of the deposit amount C, even after a considerable period of time, it takes a relatively large amount of time and labor and there are many mistake inputs. Even a skilled person may make a mistake input. Therefore, not only is the business efficiency poor, but it is also a factor that deteriorates customer service.

Therefore, if the key input operation of the deposit amount C can be simplified, the merchandise registration / accounting process and the checkout by the customer can be performed more quickly, and the mental and physical burden of the cashier can be remarkably reduced. To do.

An object of the present invention is to provide a merchandise sales registration data processing device capable of promptly and accurately inputting the deposit amount while simplifying the key input operation of the deposit amount.

[0011]

[Means for Solving the Problems] Many customers find that the total amount B is 1935 yen, for example, 1940 yen or 1950 yen.
Pay as yen. It depends on the amount of current currency (50 yen, 10 yen coin). Here, in the case of the above four digits, the upper two digits (“19”) is the upper two digits of the total amount B (“1”).
9 "). Similarly, the top 3
The same may occur when the digits and the upper one digit are the same. On the other hand, the current currency (10,000 yen, 5,000 yen, 1,000 yen bill, 500 yen, 1
Some customers pay 2000 yen with two 1000 yen bills, starting from a 00 yen coin.

Considering that the latter customer's 2000 yen key input operation is relatively simple, if the key input operation for the former customer is simplified, the overall work efficiency can be greatly improved. . However, it would be meaningless if the measures for the former customer interfered with the processing for the latter customer.

The present invention is based on such an analysis. The total amount B is stored in the deposit amount memory as it is as the deposit amount C, and the n digits counted from the minimum digit thereof are the n digits added thereafter. It is configured so that it can be rewritten into a numerical value.

That is, according to the present invention, in the commodity sales registration data processing device for accounting processing using the total amount calculated for registered merchandise and the deposit amount stored in the deposit amount memory, the total amount is set as the deposit amount. Of the deposit amounts written and stored in the deposit amount memory, the write storage control unit for writing and storing in the deposit amount memory, the register input unit for entering the n digit numerical value after the total amount is calculated, A deposit amount rewriting control means for rewriting the n digits counted from the digits into the n digit numerical value input by the number is provided.

[0015]

In the case of the present invention having the above-described structure, when the total amount B (for example, "1935 yen") is calculated, the writing storage control means writes this amount B ("1935 yen") in the deposit amount memory. The cashier who receives the deposit amount C (1950 yen) from the customer inputs the n-digit (two-digit) number ("5", "0") by using the number input means. Then, the deposit amount rewriting control means inputs n digits of n digits (“35”) counted from the minimum digit of the deposit amount C (“1935 yen”) stored in the deposit amount memory.
Rewrite to the digit number ("50"). Therefore, the current value of the deposit amount memory is "1950 yen", which is equal to the received deposit amount C (1950 yen).

Therefore, in this case, a two-digit numerical value ("5
Just key in 0 ") and the 4-digit deposit amount C (" 1
950 ") can be entered quickly and accurately.

[0017]

Embodiments of the present invention will be described below with reference to the drawings. As shown in FIG. 1, the product sales registration data processing device is composed of an electronic cash register 10 having the same basic function as that of the conventional example (FIG. 5), and a write storage control means (11, 12). Numerical value input means (20N)
And a deposit amount rewriting control means (11, 12),
It is possible to automatically write the calculated total amount B to the deposit amount memory 13M as the deposit amount C, and to rewrite the n digit value counted from the minimum digit of the deposit amount C into the n digit value entered as the numerical input. It is configured and the deposit amount C of x digits is n
It is designed to be able to enter quickly and accurately by simply entering the digits.

In FIG. 1, an electronic cash register 1
Reference numeral 0 denotes a CPU 11, a ROM 12, a RAM 13, a clock circuit 14, a scanner 19 (scanner circuit 15), a keyboard 20 (keyboard circuit 16), a display 21 (display control circuit 17), and an input / output port (I / O) 18. The printer 22 (printer drive circuit 24), the drawer 23 (drawer opening device 25), and the communication interface (I / F) 29 connected to each other are formed so as to be able to execute product registration processing, accounting processing, and the like.

Basic functions (ST10 to ST1 in FIG. 2)
6 and ST20 to 21) are the same as those in the conventional example (ST30 to 36 and ST38 to 40 in FIG. 5) as described above,
Detailed description is omitted.

Here, the writing / storage control means calculates the total amount B (ST15 in FIG. 2) B (for example, "1935").
As shown in FIG. 3 (B), RA is the deposit amount C
ROM 12 in which a write storage control program is stored by means for writing and storing in the deposit amount memory 13M in M13
And CPU 11 and is executed in ST17 of FIG.

The total amount of money B is stored in the memory 13M.
The write to is not limited to the direct write in terms of program processing, and may be, for example, the case of temporarily writing and storing in the work area of the RAM 13. A convenient method may be selected in relation to the deposit amount rewriting control described later. In this embodiment, the work area is temporarily written and stored.

The numerical input means is a means for inputting a numerical value of n digits, and comprises a numerical key 20N on the keyboard 20. Whether or not the input numerical value is an n-digit numerical value for rewriting the deposit amount C is automatically determined by the input after the total amount B is calculated (ST15). Note that n
The number of digits is usually sufficient between 1 and 6, but the number of digits is not particularly limited. For example, in the case of 1234567 yen,
It is 7 digits.

Further, the deposit amount rewriting control means is composed of the deposit amount memory 1 by the write storage control means (11, 12).
Of the deposit amount C (“1935”) written and stored in 3M, n digits counted from the minimum digit (for example, a 2-digit numerical value “3
5 ") is a means for rewriting an n-digit (2-digit) numerical value (for example," 50 ") numerically input by using the numerical input means (20N), and a ROM 1 in which a rewriting control program is stored.
2 and the CPU 11 and is executed in ST19 of FIG.

The above-mentioned write storage control means (11, 1
In relation to 2), the deposit amount C (= 1935) temporarily written and stored in the work area of the RAM 13 is rewritten by n digits, and thereafter, the deposit amount C (= 1950) is written and stored in the deposit amount memory 13M. Is formed.

As a rewriting method, as shown in FIG. 3 (D), an n (= 2) -digit numerical value ("50") entered in the same (C) is rewritten at once. However, it is not limited to this. For example, as shown in FIG.
The numbers (“5”, “0”) input by the number may be moved up in order and rewritten. That is, FIG. 4 (C)
The one underlined "5" shown in (1) is moved up (carried) to the two underlined "5" shown in (D). That is, this rewriting method is preferably determined in combination with the method of displaying the deposit amount C.

In this embodiment, as shown in FIG.
After rewriting n digits in the work area of the RAM 13 and writing it in the deposit amount memory 13M, the deposit amount C (= 1950 yen) is displayed on the customer display forming the display 21 after rewriting (ST20). It is formed with things. However, one of the cashier indicators forming the indicator 21 is formed so as to carry the corresponding amount while directly incrementing the total amount B and the value entered as a digit in the state of being digitized.

According to the embodiment having such a configuration, the total amount B
(For example, "1935 yen") is calculated (ST15 in FIG. 2)
Then, the writing storage control means (11, 12) writes this amount B (“1935 yen”) as the deposit amount C in the deposit amount memory 13M, in the work area of the RAM 13 in this embodiment (ST17). ). The cashier who received the deposit amount C (for example, 1950 yen) from the customer is
Numerical values ("5", "0") of n digits (lower 2 digits) are input using the numerical input means (20N) (ST18).

Then, the deposit amount rewriting control means (11,
12) is the number n entered from the minimum digit of the deposit amount C (“1935 yen”) stored in the deposit amount memory 13M (work area).
Rewrite to the digit number ("50"). After rewriting, it is stored in the deposit amount memory 13M (ST19). Therefore, the current value of the deposit amount memory 13M is "1950 yen",
This is equal to the received deposit amount C (1950 yen). It is displayed on the display 21 (ST20).

Therefore, in this case, a two-digit numerical value ("5
Just key in "0") and the 4-digit deposit amount C (= 1
Since it is possible to input 950), accounting processing including change amount calculation and the like can be quickly performed.

According to this embodiment, however, the write storage control means (11, 12) and the numerical input means (20N).
And a deposit amount rewriting control means (11, 12),
The total amount B calculated in the deposit amount memory 13M can be automatically written as the deposit amount C, and the n digits counted from the minimum digit of the deposit amount C can be rewritten into the n digit numerical value entered thereafter. It is configured so that the deposit amount C of x digits can be automatically input by only key input operation of n digits below it. Therefore, the deposit amount C can be input more quickly and accurately.

It is also assumed that the digit input means (20N) can input as many digits as possible and the deposit amount rewriting control means (11, 12) rewrites n digits input by the digit input. For example, in the case of a deposit amount C of 2000 yen for the total amount B of 1935 yen, for example, using the numeric key 20N, [("2", "0",
"0", "0"), ("2", "00", "0") or ("2", "0", "00")] may be entered as a number. That is, since it does not hinder the conventional example and is the same as in the case of the conventional example [FIG. 6 (C)], it is easier to handle.

Further, the deposit amount rewriting control means (11, 1)
2) n entered as a numerical value in the work area of RAM 13
13M of deposit amount memory after rewriting digits and after rewriting
When the deposit amount C in the deposit amount memory 13M is displayed on the customer display unit (21), there is no fear that the customer will feel distrust.

Further, since the cashier display (21) is designed to display the numerical value input using the numeral input means (20N) as it is and while carrying it, a more accurate input is possible. it can.

[0034]

According to the present invention, the writing and storing control means, the number input means, and the deposit amount rewriting control means are provided, and the calculated total amount is automatically written as the deposit amount in the deposit amount memory, And since it is configured to be able to rewrite the n digits counted from the minimum digit of this deposit amount to the n digit numerical value entered after that, the deposit amount of x digits can be input by n digits below that. You can enter it quickly and accurately. Therefore, the mental and physical burden of the cashier can be significantly reduced and the accounting process can be performed smoothly and more quickly without making a mistake.

[Brief description of drawings]

FIG. 1 is an overall configuration diagram showing an embodiment of the present invention.

FIG. 2 is likewise a flow chart for explaining the operation.

FIG. 3 is also a diagram for explaining a method of rewriting the deposit amount for an n-digit number input.

FIG. 4 is a diagram for explaining a modified example of the method of rewriting the deposit amount with respect to an n-digit number input.

FIG. 5 is a flowchart for explaining a conventional operation.

FIG. 6 is a diagram for explaining a conventional method of inputting a deposit amount.

[Explanation of symbols]

10 Electronic Cash Register (Merchandise Sales Registration Data Processing Device) 11 CPU (Write Memory Control Unit, Deposit Amount Rewriting Control Unit) 12 ROM (Write Memory Control Unit, Deposit Amount Rewriting Control Unit) 13 RAM 13M Deposit Amount Memory 19 Scanner 20 Keyboard 20N Numeric key (numeric input means) 21 Display 22 Printer 23 Drawer B Total amount C Deposit amount

Claims (1)

[Claims] 1. A product sales registration data processing device for accounting processing using a total amount calculated for a registered product and a deposit amount stored in a deposit amount memory, wherein the deposit amount memory is the deposit amount memory as the deposit amount. And a storage means for writing and storing the total amount of money, a number input means for inputting a numerical value of n digits after the total amount is calculated, and a minimum amount of the deposit amount written and stored in the deposit amount memory. A merchandise sales registration data processing device comprising: a deposit amount rewriting control means for rewriting an n-digit number into an n-digit numerical value that has been entered as a number.