JPS58151689A - Page discriminating method - Google Patents

Abstract

PURPOSE:To reduce the bar code for discrimination of pages to cope with the increment of the number of pages, nu measuring the thickness of a booklet consisting of a read page and following pages and combining the measurement result and the page code of the read page to discriminate pages. CONSTITUTION:Plural kinds of page code are assigned to and entered on pages of a booklet consisting of plural pages, and the page code is read by a bar code reader 20, and the read page is counted by a counter 21 and is applied to an adder 25. Plural thickness sensors 10-1-10-n which measure the thickness of the booklet consisting of the page, which is read by the reader 20, and following pages are used; and when the reader 20 reads a prescribed page code, sensors 10-1-10-n measure the thickness of the booklet consisting of these pages, and one of sensors 10-1-10-n is discriminated by a sensor device discriminating part 22. This discrimination result is applied to the adder 25 through a controlling part 23 and a memory 24. The thickness measurement result and the page code of the read page are conbined to reduce the bar code for discrimination of pages, thus coping with the increment of the number of pages.

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Technical Field of the Invention The present invention relates to a method for differentiating between characters, and relates to a method for binding characters such as 1 city, 1 sleep, etc. in a sign.

(1)) Kenmai technique and l + (1 reference point @ financial institution, etc., one history is used for one transaction) In the song, a bar code is used in the song of Teigenbetsu, which is one day after the other. A method of shifting the barcode position by 1t per 1 hour, a method of reducing the number of barcodes per tube by 2J, and a method of assembling either one or both of them are adopted. In general, the reading sensor that reads the barcode written on each page is not located at the barcode writing position, and the above method (■) is adopted, and the writing position of multiple barcodes is Book] It is self-introduction that one word reading sensor can trace the no-code sequentially in the running direction of Hioishi.For example, the 10th barcode of 11 letters is one barcode, and the second barcode is one barcode. 2 barcodes, 3 barcodes for the 3rd negative barcode were placed in parallel and in the margin outside of the data item itself in a perfect circle 0 A conventional transaction m book consists of one book. Because there are no negative numbers,
The number of barcodes that are separated by one line is small, and there was no problem in printing them on the white barcode. However, in recent years, there has been a tendency for the number of blank barcodes to increase gradually, and therefore, the barcodes using the conventional method are In the code placement, there is not enough space on the page, and the barcode position ``D'' was moved to a place with a different margin ``V''.
The problem is that additional sensors have to be installed, which increases the cost of each line in the transaction table and increases the complexity of the equipment, including time savings.)
So I had rice.

(C) Purpose of the Invention The purpose of the present invention is to provide an identification method that can reduce the number of types of barcodes for negative identification and cope with an increase in the number of barcodes, in view of the disadvantages and problems mentioned above. □ (d) The structure of the page identification method of the present invention is such that the page identification method of the present invention is such that the pages of the booklet consisting of Tawara Kazusei are The symbols are written in sequential order, the negative symbol symbol retrieval means and the page discrimination means are prepared, and the appendix shell d self number written in the booklet is read in its entirety, and the remaining good numbers after the read are read. The main feature is that the page of the booklet is identified by measuring the number of pages of the booklet and combining the measurement result with the negative sign removed by the total number determining means.

(θ) Examples of the invention The present invention will be explained in detail below using a diagram.

Fig. 1 is a three-dimensional clarification diagram of one trading section, Fig. 2 is an explanatory diagram of page identification state, and Fig. 3 is a block diagram of an embodiment of the present invention. Limited, 2 pages, 3-1 to 3-5
is a barcode, 10.10-1 to 〇-n is a thickness sensor, loa is a lever, LOb is a micro-swivel isona, ■ soil is a hinge roller, 12 is a drive roller, 20t; f barcode reader, 21 is a 22 is a sensor machine number identifying section, 23 is city 1] Mishu L24 is a memory, and 25 is an adder.

As shown in Figure 1 of Frame 1, barcodes 3 are allocated in predetermined positions on page 20 of page 1 in number corresponding to the pages. however,
If the number of barcodes is assigned up to three, repeating the number of barcodes 3 as shown in barcode 3-4, 3-5 becomes VC.

Therefore, for example, the barcode 3-1 on the first page and the barcode 3-4 on the fourth @th page are both one, and it is impossible to identify the user 2 as it is. When the thickness sensor 0 as shown in Fig. 2 becomes thinner, the movement of the upper lever C1a is expanded by the principle of leverage, and the contact point of the microswitch 10b is operated, and a signal is output. There is. Therefore, in the case of ]ml bar q shown in FIG. The number of true pages to be inserted is 5, so the thickness sensor 10 does not operate, and when the 4th page is open, the thickness sensor 10 operates because it is holding only 2 pages between pages. A signal will be issued. If the number of stroke symbols (barcodes) to be repeatedly assigned is twice, prepare one digit of the J character setter 10.1. Barcodes will be repeatedly allocated on the front and rear pages of the medium-sized and large-sized pages of a+Number 1. On the other hand, when barcodes are repeatedly assigned three or more times, several thickness sensors 10 are arranged as shown in FIG. 3, and each thickness sensor 10-
1, 10-2. -10-n thickness detection widths are set to different values. Depending on the page thickness, a signal is sent from one of the limited number of thickness sensors provided to the sensor machine number identification unit 2.
2 and the machine number is recognized.

The recognized value 11 (for example, i) of the thickness sensor 10 is input to the control section 23, and a predetermined value α1 stored in the memory 24 is sent to the adder 25. On the other hand, the number of barcodes is 20, and the number of 30 cords is counter 2.
It is counted by 1 and manually added to the adder 25. At this time, the adder 25 adds the output of the counter 21 to the first shift α1 sent from the memory, and sends out the entire number P, which has uniquely determined the number P of the number 1 and the number 2 of the number.

For example, there are 20 pages of passbook 10#, and barcode 3 is 5.
If it is repeatedly assigned to each page, three thickness sensors 10 (
10-1, 10-2, 1O-3) Prepare 1 in memory
1 [#' i is a, -0, a, -5, a, -Sat5, and f space self 1 learning sensor 10-1. ,LO-2
, 10-3 each is 15, 10, 5 or more (ZC is set. Therefore, the opened meat 2 is 9I; the 4th one is , barcode reader 20
Since the number of d and l bars is 4, the counter is 2.
1's output Vj', 4, - If the sensor 10-2 is activated, the sensor 10-2 detects the 1-2 IM as 1's output.
3V power is applied to the control city. ItilJ side 1 item, self 3 takes out α2-5 from memory and plays ttom 4 + 5
-9 f It is output as P.〇(f) As explained in detail in the -≠9 example above.

The thickness sensor is not used, but the barcode is printed and printed in the column! I can identify the repeats by the true thickness, and I can make 4 bars in one pass, so how many barcodes do I have? It has the effect of dealing with Ike Ichiki Page's power increase 11 without using Dan or Ding.

What's more, there is no need for the trouble of allocating and printing the number of barcodes within a page, and there is no need to worry about the trouble of printing the number of barcodes on a page. You can also see the effect of getting dirty with barcodes.

[Brief explanation of the drawing]

Fig. 1 is a three-dimensional perspective view of the 1st block, Fig. 2 is a diagram of the operation state of thickness detection, and Fig. 3 is a block diagram.
Limited, 2 is page, 3-1 to 3-5 are barcodes, +, O, 1
o-1-10-n is a thickness sensor, 2o is a barcode reader, 21 is a counter, 22 is a sensor nose identification section, 23 is a control section, 24 is a memory, and 25 is a force 14 machine.

Claims (1)

[Claims] (1) The sequential assignment of the member symbols of compound failure species is written in 1 to 1, and the assignment of the previous i-pi own symbols is provided in the yoshi of the booklet consisting of the number of plots. In addition to the above-mentioned statement written in the above, the imitation read: 4
The paper thickness of the booklet consisting of the remaining negative is measured, and the corrected measurement result and the true symbol obtained from the first test and (i-by the shell discriminating means, l!l
i Amase Fil A method of separation that urges you to identify @ in the supplementary booklet by saying 'f'.