U.S. patent application number 13/753748 was filed with the patent office on 2013-06-13 for article sales data processing apparatus and sales data editing method.
This patent application is currently assigned to TOSHIBA TEC KABUSHIKI KAISHA. The applicant listed for this patent is Toshiba Tec Kabushiki Kaisha. Invention is credited to Hiroshi Takagi.
Application Number | 20130151328 13/753748 |
Document ID | / |
Family ID | 43465935 |
Filed Date | 2013-06-13 |
United States Patent
Application |
20130151328 |
Kind Code |
A1 |
Takagi; Hiroshi |
June 13, 2013 |
ARTICLE SALES DATA PROCESSING APPARATUS AND SALES DATA EDITING
METHOD
Abstract
According to one embodiment, an article sales data processing
apparatus includes a display unit which displays a registration
screen, and a control unit which displays an editing screen for
sales data of an article selected from among articles sold in one
transaction on the display unit, the editing screen including an
image of each of an undo button, a unit price change button, a
number of items change button, and a discount button.
Inventors: |
Takagi; Hiroshi;
(Shizuoka-ken, JP) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
Toshiba Tec Kabushiki Kaisha; |
Tokyo |
|
JP |
|
|
Assignee: |
TOSHIBA TEC KABUSHIKI
KAISHA
Tokyo
JP
|
Family ID: |
43465935 |
Appl. No.: |
13/753748 |
Filed: |
January 30, 2013 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
|
|
12819525 |
Jun 21, 2010 |
|
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13753748 |
|
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Current U.S.
Class: |
705/14.38 ;
705/16 |
Current CPC
Class: |
G06Q 20/20 20130101;
G06Q 30/0238 20130101; G06Q 30/06 20130101; G06Q 20/209
20130101 |
Class at
Publication: |
705/14.38 ;
705/16 |
International
Class: |
G06Q 20/20 20060101
G06Q020/20 |
Foreign Application Data
Date |
Code |
Application Number |
Jul 17, 2009 |
JP |
2009-169176 |
Claims
1. An article sales data processing apparatus comprising: a display
unit which displays a registration screen; and a control unit which
displays an editing screen for sales data of an article selected
from among articles sold in one transaction on the display unit,
wherein the editing screen includes an image of each of an undo
button, a unit price change button, a number of items change
button, and a discount button.
2. The apparatus of claim 1, wherein when the undo button is
pressed, the control unit is configured to delete the sales data of
the selected article.
3. The apparatus of claim 2, wherein the control unit is configured
to recalculate an amount of sales of the articles sold in one
transaction after the sales data of the selected article is
deleted.
4. The apparatus of claim 1, wherein the unit price change button
is pressed, the control unit is configured to change a unit price
of the selected article.
5. The apparatus of claim 4, wherein the control unit is configured
to change the unit price of the selected article to a value input
after the unit price change button is pressed.
6. The apparatus of claim 5, wherein the control unit is configured
to recalculate an amount of sales of the selected article based on
the changed unit price after the unit price of the selected article
is changed.
7. The apparatus of claim 1, wherein when the number of items
change button is pressed, the control unit is configured to change
the number of items sold of the selected article.
8. The apparatus of claim 7, wherein the control unit is configured
to change the number of items sold of the selected article to a
value input after the number of items change button is pressed.
9. The apparatus of claim 8, wherein the control unit is configured
to recalculate an amount of sales of the selected article based on
the changed number of items sold after the number of items sold of
the selected article is changed.
10. The apparatus of claim 1, wherein when the discount button is
pressed, the control unit is configured to change a discount amount
for the selected article.
11. The apparatus of claim 10, wherein the control unit is
configured to change the discount amount for the selected article
to a value input after the discount button is pressed.
12. The apparatus of claim 11, wherein the control unit is
configured to recalculate an amount of sales of the selected
article based on the changed discount amount after the discount
amount for the selected article is changed.
13. The apparatus of claim 1, wherein the control unit further
displays an article name of the selected article on the editing
screen.
Description
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application is a Division of application Ser. No.
12/819,525 filed Jun. 21, 2010; the entire contents of which is
hereby incorporated by reference.
[0002] This application is based upon and claims the benefit of
priority from Japanese Patent Application No. 2009-169176, filed
Jul. 17, 2009; the entire contents of which are incorporated herein
by reference.
FIELD
[0003] Embodiments described herein relate generally to an article
sales data processing apparatus such as a point-of-sales (POS)
terminal which processes sales data of articles purchased by
customers.
BACKGROUND
[0004] In a conventional POS terminal, when an article code of an
article purchased by a customer is inputted, sales data of this
article is registered in a memory. However, at this time, the
registration of the sales data is not finalized yet. Therefore,
editing of the sales data such as undo or discount is possible.
[0005] When a next article code is inputted or a subtotal key is
operated to input a subtotal, the registration of the sales data is
finalized. The sales data cannot be edited after the registration
is finalized. Therefore, in the case of making a discount on an
article for which the registration of its sales data is finalized,
a cashier first carries out an operation to undo the registered
sales data. Next, the cashier registers the sales data of this
article again. Immediately after that, the cashier carries out an
operation for discount.
[0006] In this manner, with the conventional article sales data
processing apparatus, complicated operations are required in order
to modify sales data with its registration finalized. Solutions are
demanded.
BRIEF DESCRIPTION OF THE DRAWINGS
[0007] FIG. 1 is a perspective view showing the outer configuration
of a POS terminal as an embodiment of an article sales data
processing apparatus.
[0008] FIG. 2 is a block diagram showing the configuration of
essential parts of the POS terminal.
[0009] FIG. 3 shows an example of a registration screen displayed
on a touch panel of the POS terminal.
[0010] FIG. 4 shows a principal memory area formed in a RAM of the
POS terminal.
[0011] FIG. 5 is a flowchart showing procedures of article
registration executed by a CPU of the POS terminal.
[0012] FIG. 6 is a flowchart showing procedures of subtotaling
executed by the CPU of the POS terminal.
[0013] FIG. 7 is a flowchart showing procedures of closing executed
by the CPU of the POS terminal.
[0014] FIG. 8 is a flowchart showing procedures of touch input
executed by the CPU of the POS terminal.
[0015] FIG. 9 shows an example of an editing screen displayed on
the touch panel of the POS terminal.
[0016] FIG. 10 is a flowchart showing details of data editing
executed in a processing block of ACT 46 shown in FIG. 8.
DETAILED DESCRIPTION
[0017] In general, according to one embodiment, an article sales
data processing apparatus includes a transaction storage unit, a
display unit, a list display control unit, a selection unit, a
read-out unit, an editing acceptance unit, and an update unit. The
transaction storage unit stores sales data of each article sold in
one transaction. The display unit displays a registration screen
including a details area. The list display control unit causes a
list of articles sold in one transaction to be displayed in the
details area on the basis of the sales data stored in the
transaction storage unit. The selection unit accepts selection of
an article, of the articles displayed in the details area. The
read-out unit reads out the sales data of the article selected by
the selection unit, from the transaction storage unit. The editing
acceptance unit causes the display unit to display an editing
screen for the sales data read out from the transaction storage
unit by the read-out unit, and accepts editing of the sales data.
When the sales data displayed in the editing screen is edited, the
update unit updates the sales data of the article selected by the
selection unit, of the sales data of each article stored in the
transaction storage unit, to the edited data.
[0018] Hereinafter, as an embodiment of an article sales data
processing apparatus, a case where the invention is applied to a
POS terminal 1 installed in a retail store will be described with
reference to the drawings.
[0019] FIG. 1 is a perspective view showing the outer configuration
of the POS terminal 1. The POS terminal 1 is placed on a drawer 2
for housing cash and the like and controls the opening and closing
of the drawer 2.
[0020] The POS terminal 1 has a keyboard 3, a mode switch 4, a
barcode scanner 5, a touch panel display 6 for cashier (hereinafter
referred to as touch panel 6), a customer-side display device 7, a
printer 8, and a receipt issue port 9.
[0021] On the keyboard 3, numeric keys to input numeric data, a
subtotal key, a cash key, a credit key, an undo key, a discount
key, a clear key and the like are arranged. The cash key is
operated at the time of declaring the closing of registration of
one transaction with cash payment. The credit key is operated at
the time of declaring the closing of registration of one
transaction with credit card payment. The cash key, the credit key
and the like are called registration closing keys. The undo key is
operated at the time of declaring the undo of article sales data
that is registered immediately before. The discount key is operated
at the time of declaring a discount on an article or a discount
from a subtotal that is registered immediately before.
[0022] The mode switch 4 is for selecting from various operation
modes including "registration", "inspection" and "settlement" and
commands a CPU 11 to execute the selected mode. The mode switch 4
is switched, for example, by a key.
[0023] If the "registration" mode is selected, the POS terminal 1
mainly executes the following operations.
[0024] 1. An operation to register sales data of an article in the
memory on the basis of the article data inputted via the scanner 5
and an input unit of the keyboard 3.
[0025] 2. An operation to calculate and display the total amount
based on sales data of each article sold in one transaction.
[0026] 3. An operation to calculate and display the difference
between a deposit amount and the total amount, as the amount of
change, when the deposit amount is inputted from the input
unit.
[0027] 4. An operation to print, on a receipt sheet, the content of
sales data of each article sold in one transaction and thus issue a
receipt.
[0028] The touch panel 6 and the customer-side display device 7
display the name of a registered article, the number of items sold,
the amount of sales, the total amount for one transaction, the
deposit amount, the amount of change and the like.
[0029] FIG. 3 shows an example of a registration screen 60
displayed on the touch panel 6. The registration screen 60 includes
a current area 6a, a details area 6b, and a total area 6c. The
current area 6a is an area for displaying the article name, the
number of items sold and the amount of sales as the latest
information of articles sold. The details area 6b is an area for
displaying the article name, the number of items, the unit price,
the discount amount, the amount of sales and the like, for each
article sold in one transaction. The total area 6c is an area for
displaying the total amount and the total number of items for each
article sold in one transaction.
[0030] The printer 8 is to print the details of one transaction on
a receipt sheet and a journal sheet. The receipt sheet printed by
the printer 8 is issued from the receipt issue port 9.
[0031] FIG. 2 is a block diagram showing the principal
configuration of the POS terminal 1. The POS terminal 1 has the CPU
(central processing unit) 11 as a control body. A ROM (read only
memory) 12, a RAM (random access memory) 13, a clock unit 14, a
communication interface 15, an input-output port (I/O port) 16, a
keyboard controller 17, a touch panel controller 18, a display
controller 19, a printer controller 20 and a scanner interface 21
are connected to the CPU 11 via a bus line 22 such as address bus
or data bus.
[0032] The clock unit 14 measures the current date and time. The
communication interface 15 carries out data communication with a
store computer connected via a network. The I/O port 16 inputs a
signal from the mode switch 4. The I/O port 16 also outputs a
driving signal to a drawer opening device 23 to open the drawer
2.
[0033] The keyboard controller 17 controls the keyboard 3 and takes
in a key signal corresponding to an operated key. The touch panel
controller 18 controls the touch panel 6 to display the
registration screen 60 or the like. The touch panel controller 18
takes in a position signal on the screen operated by touch from the
touch panel 6. The display controller 19 controls the customer-side
display device 7 to display information for the customer. The
printer controller 20 controls the printer 8 to issue a receipt.
The scanner interface 21 takes in a barcode signal scanned by the
scanner 5.
[0034] In the POS terminal 1, a current buffer 31, a transaction
buffer 32, a total buffer 33, an editing buffer 34 and a flag
memory 35 in the area configuration shown in FIG. 4 are formed in
the RAM 13.
[0035] The current buffer 31 temporarily stores the latest sales
data of articles sold in one transaction. The transaction buffer 32
stores sales data of each article sold in one transaction, in order
of a series of record numbers. The sales data include article code,
article name, the number of items sold, unit price, discount
amount, the amount of sales, and discount target flag. The discount
target flag is "1" when an article identified by the corresponding
article code is an article on which a discount is allowed.
[0036] The current buffer 31 functions as a temporary storage unit.
The transaction buffer 32 functions as a transaction storage
unit.
[0037] The total buffer 33 stores the total number of items and the
total amount in one transaction. The total number of items is a
value acquired by adding the number of items of the article sold,
temporarily stored in the current buffer 31, to the total of the
number of items of each article stored in the transaction buffer
32. The total amount is a value acquired by adding the amount of
sales of the article, temporarily stored in the current buffer 31,
to the total of the amount of sales of each article stored in the
transaction buffer 32.
[0038] The editing buffer 34 temporarily stores sales data of an
article selected as an editing target, from the sales data of each
article stored in the transaction buffer 32. The flag memory 35
stores a registration-in-progress flag f1 and a subtotal flag
f2.
[0039] If an article code is inputted via the keyboard 3 or the
scanner 5 in the state where the "registration" mode is selected by
the mode switch 4, the CPU 11 executes article registration
according to the procedures shown in the flowchart of FIG. 5.
First, the CPU 11 checks the registration-in-progress flag f1 (ACT
0). Before the first article of one transaction is registered, the
registration-in-progress flag f1 is set to "0". As an article is
registered, the registration-in-progress flag f1 is set to "1".
[0040] If the registration-in-progress flag f1 is not set to "1"
(NO in ACT 0), the CPU 11 executes the processing of ACT 1 to ACT
3. In ACT 1, the CPU 11 resets a counter n to zero. In ACT 2, the
CPU 11 clears the buffers 31 to 34. In ACT 3, the CPU 11 sets the
registration-in-progress flag f1 to "1".
[0041] If the registration-in-progress flag f1 is set to "1" (YES
in ACT 0), the CPU 11 executes the processing of ACT 4 to ACT 5. In
ACT 4, the CPU 11 increments the counter n by "1". In ACT 5, the
CPU 11 houses the sales data stored in the current buffer 31 into
an n-th record area in the transaction buffer 32. Here, "n" in the
"n-th" coincides with the value of the counter n.
[0042] As the processing of ACT 3 or ACT 5 is finished, the CPU 11
executes the processing of ACT 6 to ACT 9. In ACT 6, the CPU 11
searches an article data file in which article data including
article name, unit price, discount target flag and the like are
set, corresponding to the article code for identifying each
article. Then, the CPU 11 takes in article data that is set
corresponding to an inputted article code. The article data file is
stored in the store computer. The article data may be downloaded to
the RAM 13 from the store computer.
[0043] In ACT 7, the CPU 11 multiplies the unit price of the
article data by the number of items sold and thus calculates the
amount of sales. The CPU 11 then creates sales data including
article code, article name, the number of items sold, unit price,
discount amount, the amount of sales and discount target flag, and
writes the sales data in the current buffer 31. At this time, the
discount amount is "0".
[0044] In ACT 8, the CPU 11 causes the article name, the number of
items sold and the amount of sales, of the sales data stored in the
current buffer 31, to be displayed in the current area 6a of the
registration screen 60. In ACT 9, the CPU 11 causes the article
name, the number of items sold, the unit price, the discount amount
and the amount of sales, of each sales data stored in the
transaction buffer 32, to be displayed in the details area 6b of
the registration screen 60. The CPU 11 also causes the total number
of items and the total amount stored in the total buffer 33 to be
displayed in the total area 6c.
[0045] The CPU 11 repeats the processing according to the
procedures shown in the flowchart of FIG. 5 every time an article
code is inputted.
[0046] Here, in the CPU 11, a processing unit 111 is formed which,
if the sales data of articles sold in one transaction are inputted,
houses the sales data stored in the current buffer 31 into the
transaction buffer 32 and registers the inputted sales data in the
current buffer 31 through the processing of ACT 5 to ACT 7.
[0047] In the CPU 11, there is also a latest display control unit
112 which causes the sales data stored in the current buffer 31 to
be displayed in the current area 6a, which is different from the
details area 6b of the registration screen 60, through the
processing of ACT 8.
[0048] In the CPU 11, there is also a list display control unit 113
which displays a list of articles sold in one transaction in the
details area 6b on the basis of the sales data stored in the
transaction buffer 32 through the processing of ACT 9.
[0049] If the undo key is inputted after the processing of ACT 9,
the CPU 11 clears the data in the current buffer 31. Therefore, a
value acquired by subtracting the data in the current buffer 31
from the total value is restored as the data stored in the total
buffer 33.
[0050] Similarly, if the discount key is inputted after the
processing of ACT 9, the CPU 11 checks the discount target flag in
the current buffer 31. If an article on which a discount is not
allowed is registered immediately before, the discount target flag
is "0". At this time, the CPU 11 determines that the input of the
discount key is an error.
[0051] Meanwhile, if an article on which a discount is allowed is
registered immediately before, the discount target flag is "1". At
this time, the CPU 11 accepts the input of the discount amount. As
the discount amount is inputted via numeric keys, the CPU 11 stores
that discount amount in the current buffer 31. The CPU 11 also
updates the amount of sales in the current buffer 31 to a value
acquired as a result of subtracting the discount amount. At this
time, the total amount data in the total buffer 33 is also updated
to the amount after the discount.
[0052] If the subtotal key is inputted in the state where the
"registration" mode is selected, the CPU 11 executes subtotaling
according to the procedures shown in the flowchart of FIG. 6.
First, the CPU 11 checks the registration-in-progress flag f1 (ACT
20). If the registration-in-progress f1 is not set to "1" (NO in
ACT 20), it is determined that the input of the subtotal key is an
error.
[0053] If the registration-in-progress f1 is set to "1" (YES in ACT
20), the CPU 11 executes the processing of ACT 21 to ACT 24. In ACT
21, the CPU 11 increments the counter n by "1". In ACT 22, the CPU
11 houses the sales data stored in the current buffer 31 into an
n-th record area of the transaction buffer 32. In ACT 23, the CPU
11 causes the customer-side display device 7 to display the total
mount stored in the total buffer 33. In ACT 24, the subtotal flag
f2 is set to "1".
[0054] If the cash key is inputted in the state where the
"registration" mode is selected, the CPU 11 executes closing
according to the procedures shown in the flowchart of FIG. 7.
First, the CPU 11 checks the subtotal flag f2 (ACT 30). If the
subtotal flag f2 is not set to "1" (NO in ACT 30), it is determined
that the input of the cash key is an error.
[0055] If the subtotal flag f2 is set to "1" (YES in ACT 30), the
CPU 11 executes the processing of ACT 31 to ACT 34. In ACT 31, the
CPU 11 calculates change and causes each of the touch panel 6 and
the customer-side display device 7 to display the amount of change.
In ACT 32, the CPU 11 creates receipt print data based on the
content of the transaction buffer 32 and outputs the receipt print
data to the printer 8 to issue a receipt. In ACT 33, the CPU 11
outputs a driving signal to the drawer opening device 23 from the
I/O port 16 and thus causes the drawer 2 to open. In ACT 34, the
CPU 11 resets the registration-in-progress flag f1 and the subtotal
flag f2 to "0".
[0056] If the touch panel 6 is operated by touch in the state where
the "registration" mode is selected, the CPU 11 executes touch
input according to the procedures shown in the flowchart of FIG. 8.
First, the CPU 11 checks the registration-in-progress f1 (ACT 40).
If the registration-in-progress f1 is not set to "1" (NO in ACT
40), the CPU 11 ignores the input from the touch panel 6.
[0057] If the registration-in-progress f1 is set to "1" (YES in ACT
40), the CPU 11 determines whether the touched site is within the
details area 6b of the registration screen 60 or not (ACT 41). If
any of the areas outside the details area 6b is touched (NO in ACT
41), the CPU 11 ignores the input from the touch panel 6.
[0058] If the details area 6b is touched (YES in ACT 41), the CPU
11 executes the processing of ACT 42 to ACT 44. In ACT 42, the CPU
11 recognizes a record number k of sales data displayed at the
touched site, on the basis of coordinate data of the touched
position on the screen and layout data of the registration screen
60.
[0059] In ACT 43, the CPU 11 reads out the sales data corresponding
to the record number k from the transaction buffer 32 and writes
the read-out sales data into the editing buffer 34. In ACT 44, the
CPU 11 creates an editing screen 70 based on the sales data housed
in the editing buffer 34 and causes the touch panel 6 to display
this editing screen 70.
[0060] FIG. 9 shows an example of the editing screen 70. The
editing screen 70 includes an article name area 71, a number of
items area 72, a unit price area 73, a discount area 74 and an
amount area 75, and an undo button 76, a unit price change button
77, a number of items change button 78, a discount button 79 and a
cancel button 80. The data stored in the editing buffer 34 is
displayed in the areas 71 to 75.
[0061] Here, in the CPU 11, there is a selection unit 114 which
accepts the selection of an article from the articles displayed in
the details area 6b through the processing of ACT 40 to ACT 42.
There is also a read-out unit 115 which reads out the sales data of
the article selected by the selection unit 114 from the transaction
buffer 32 through the processing of ACT 43. There is also an
editing acceptance unit 116 which causes the touch panel 6 to
display the editing screen 70 for the sales data read out from the
transaction buffer 32 by the read-out unit 115 and accepts the
editing of the sales data through the processing of ACT 44.
[0062] As the editing screen 70 is displayed, the CPU 11 waits for
the touch panel 6 to be operated by touch again (ACT 45). When the
touch panel 6 is operated by touch, the CPU 11 executes the editing
of sales data corresponding to the touched position (ACT 46).
[0063] FIG. 10 is a flowchart showing details of the procedures of
the editing. First, the CPU 11 determines whether the touched site
is any of the display areas 72 to 74 corresponding to entries that
can be edited, that is, the number of items, the unit price, and
the discount amount (ACT 51 to ACT 53). If the touched site is none
of these display areas (NO in all of ACT 51 to ACT 53), the CPU 11
determines whether the touched site is any of the display areas of
the buttons 76 to 80 (ACT 54 to ACT 58). If the touched site is
none of the display areas of the buttons 76 to 80 (NO in all ACT 54
to ACT 58), the CPU 11 waits for a next touch operation.
[0064] If the number of items area is touched (YES in ACT 51), or
if the number of items change button 78 is touched (YES in ACT 55),
the CPU 11 changes the number of items sold, of the sales data
stored in the editing buffer 34, to a numeric value inputted via
numeric keys. Moreover, the amount of this sales data is changed to
a value that is acquired by multiplying the unit price by the
changed number of items sold and then subtracting the discount
amount from the resulting value (ACT 59). After that, the k-th
record in the transaction buffer 32 is overwritten with the sales
data stored in the editing buffer 34 (ACT 63).
[0065] If the unit price area 73 is touched (YES in ACT 52), or if
the unit price change button 77 is touched (YES in ACT 54), the CPU
11 changes the unit price included in the sales data stored in the
editing buffer 34 to a numeric value inputted via numeric keys.
Moreover, the amount of this sales data is changed to a value that
is acquired by multiplying the changed unit price by the number of
items sold and then subtracting the discount amount from the
resulting value (ACT 60). After that, the k-th record in the
transaction buffer 32 is overwritten with the sales data stored in
the editing buffer 34 (ACT 63).
[0066] If the discount area 74 is touched (YES in ACT 53), or if
the discount button 79 is touched (YES in ACT 56), the CPU 11
checks the discount target flag included in the sales data stored
in the editing buffer 34 (ACT 61). If the discount target flag is
reset to "0" (NO in ACT 61), the CPU 11 ignores the touch
input.
[0067] If the discount target flag is set to "1" (YES in ACT 61),
the CPU 11 changes the discount amount included in the sales data
stored in the editing buffer 34 to a numeric value inputted via
numeric keys. Moreover, the amount of this sales data is changed to
a value that is acquired by subtracting the changed discount amount
(ACT 62). After that, the k-th record in the transaction buffer 32
is overwritten with the sales data stored in the editing buffer 34
(ACT 63).
[0068] If the undo button 76 is touched (YES in ACT 57), the CPU 11
deletes the sales data that is the k-th record in the transaction
buffer 32. Moreover, the number and amount corresponding to the
deleted sales data are subtracted from the total number of items
and the total amount displayed in the total area 6c of the
registration screen 60 (ACT 64). After that, the sales data stored
in the editing buffer 34 is cleared (ACT 65).
[0069] If the cancel button 80 is touched (YES in ACT 58), the CPU
11 clears the sales data stored in the editing buffer 34 (ACT
65).
[0070] As the editing buffer 34 is cleared, the editing is
finished. When the editing is finished, the CPU 11 erases the
editing screen 70 (ACT 47).
[0071] Here, in the CPU 11, there is an update unit 117 which, when
the sales data displayed on the editing screen 70 is edited,
updates the sales data of the article selected by the selection
unit 114, of the sales data of articles stored in the transaction
buffer 32, to the edited data through the processing of ACT 63.
[0072] The functions of the processing unit 111, the latest display
control unit 112, the list display control unit 113, the selection
unit 114, the read-out unit 115, the editing acceptance unit 116
and the update unit 117 provided in the CPU 11 are realized by a
program stored in the ROM 12.
[0073] In this manner, the POS terminal 1 according to this
embodiment can execute editing including undo, unit price change,
and discount not only for the sales data of an article that is
registered immediately before, displayed in the current area 6a of
the registration screen 60, but also for the sales data of an
article with its registration finalized, displayed in the details
area 6b.
[0074] Moreover, simply by touch-operating an area within the
details area 6b where the sales data of an editing target is
displayed, it is possible to select the sale data of this editing
target. Also, since the editing screen 70 is displayed and the
sales data can be edited on this screen, the operation required is
very simple.
[0075] The invention is not limited to the above embodiment in its
described form. In practice, components of the embodiment can be
modified without departing from the scope of the invention.
[0076] For example, in the embodiment, the editing screen 70 may be
displayed by overlapping on the registration screen 60.
Alternatively, it is also possible to temporarily erase the
registration screen 60 and display the editing screen 70, and then
display the registration screen 60 again on completion of the
editing.
[0077] In the embodiment, the discount is described as an example
of the data editing. However, if a mechanism to input a discount
rate instead of a discount amount is employed, it is possible to
similarly cope with the case where a discount on price is made at a
predetermined rate.
[0078] In the embodiment, the case where the program is recorded in
advance in the ROM 12 is described. However, without being limited
to this embodiment, the program may be downloaded to the POS
terminal 1 from a network or the program stored in a recording
medium may be installed in the POS terminal 1. The recording medium
may be in any form of recording medium that can store a program and
can be read by the apparatus, such as CD-ROM. The functions
acquired in advance by installation or downloading may also be
realized in cooperation with the OS (operating system) or the like
in the apparatus.
[0079] While certain embodiments have been described, these
embodiments have been presented by way of example only, and are not
intended to limit the scope of the inventions. Indeed, the novel
embodiments described herein may be embodied in a variety of other
forms; furthermore, various omissions, substitutions and changes in
the form of the embodiments described herein may be made without
departing from the spirit of the inventions. The accompanying
claims and their equivalents are intended to cover such forms or
modifications as would fall within the scope and spirit of the
inventions.
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