JPS61232694A - Printed circuit board - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION (Technical Field of the Invention) The present invention relates to a printed circuit board that is used for recording or classifying information for manufacturers and users that the printed circuit board has.

(Technical background of the invention and its problems) Looking at the internal structure of recent electronic devices, most of the electrical components are attached to printed circuit boards and are integrated circuits or modules. This is useful for lower manufacturing costs and for troubleshooting. This has been done from the beginning, with the aim of reducing the number of replacement units for all electrical components, such as prints and plates, rather than middle-sized electrical parts, which contributes to the reduction of service costs and service costs. (Boards are used for various types of equipment in a wide variety of shapes and 7 functions, and there are a huge number of types.

These are produced in production process 1-E1. In general, printed circuit boards are
This is handled by printing the specification number etc. on the However, with this method, the solder spots may disappear due to being rubbed during transportation during the production process, or the solder spots may also disappear during the process. In addition, in order to read this specification, it is necessary to rely on the human eye, and there has been a demand for the development of a reading device that can be managed using a computer or the like.

(Object of the invention) This invention was made based on the -B circumstances as mentioned in -1-, and the purpose of this invention is to code information for automatically managing production Y2)-. Our objective is to provide a printed circuit board that incorporates 1°C.

(Summary of the Invention) This invention relates to a print board, including print l-,
Information held by the printed circuit board is recorded by making through holes at predetermined positions of L and L[ to form hole codes in a predetermined arrangement. The present invention also proposes an information reading device for a printed circuit board, which is provided with a light source section and a light receiving section for detecting light from the light source section, and -1- the light source section and - 1-
By disposing the printed circuit board between the recording and light-receiving section and using the light-receiving section to determine whether there is a through hole drilled in the printed circuit board L, the information held by the printed circuit board L can be read. This is what I did.

(Embodiment of the Invention) FIGS. 1A and 1B show an embodiment of the present invention, in which a printed circuit board 1 is a connector 3 for interface between an electric component 2 such as an IC and the outside. The through hole 4 for the hole cord of the present invention is bored in the space where these parts are not accessible. To explain this hole code in detail with reference to FIG. An example of a hole code is shown below. By defining "1" if the hole 4 of the hole code is penetrated and "0" if there is no hole, the bit pattern depending on the presence or absence of a hole is indicated. In other words, if it is possible to detect by some means whether these holes are penetrating or non-penetrating at a predetermined bit position, information possessed by this printed circuit board (e.g. circuit content and type, serial number 9) can be detected by some means.
It is possible to include the year and month [1st etc.] in the production 111, and also to read and use it in the next 2''.

Note that the printed circuit board may be an original plate before shaping.

FIG. 2 shows an embodiment of the information reading device for reading the information of the hole 4 of the hole coat of the printed circuit board 1 in 1. It passes through the through hole 4 of the printed circuit board 1. Then, the light passing through this through hole 4 is concentrated by the microlens array 13, and the light receiving element-f array (14-1=,
The presence or absence of the through hole 4 in the plate 1 can be detected by forming an image in the print plate 1.

i3 Figures (A) and (B) show the positional relationship between this information reading device 17 and the printed circuit board 1.
To explain the operation of step 7, the printed circuit board l is transported to the reading section 17A of the information reading device 17 by a transport mechanism (not shown),
It is designed to stop at the position of the hole cord through hole 4. Since the through holes 4 are arranged at predetermined positions on the board 1, it is possible to accurately position the hole code through holes 4 of the printed circuit board 1 on the reading section +7A. A synchronization hole 4A for positioning is provided near the synchronization hole 4 as shown in FIG.
The through hole 4 may be positioned by A. In this way, the hole code through hole 4 of the printed circuit board 1
is positioned on the reading section 17A of the information reading device 17, the light from the light source section 15 passes through the through hole 4 of the printed circuit board 1, and the presence or absence of the through hole 4 can be detected by the light receiving section 16. can. Here, the light source 15 is a surface emitting LED.
The light receiving section 16 is made up of a microlens array 13 and light receiving elements A1/A14. Therefore, the light receiving section 16 can read the information of the hole code through hole 4 at one time. The information reading device 17 includes a control circuit (not shown) for driving the light source 15, converts the signal from the light receiving section 16 into a predetermined level signal, processes the data, and outputs it from the I10 port 18. A conversion circuit (not shown) is provided for this purpose. The hole code signal output from the I10 baud) 18 is processed by a computer and stored in a memory or the like. Thereby, the information possessed by the printed circuit board 1 can be read and used for management, maintenance, and the like.

Figures 1 (A) to (D) each show other embodiments of the information reading device, and Figure 1 (A) shows a point light source 2 such as a lamp.
A light source section 15 is constituted by a lens 22, and a light receiving section 16 is constituted by a lens 23 and an imaging bundle r24 such as an optical ram.According to this, a printed circuit board The light from the through hole 4 of 1 passes through the imaging lens 2.
3, the image is formed on the image sensor 24, and the absence of a hole 41 can be detected. In FIG. 4(B), a light source section 15 is composed of a point light source 21 and a scattering plate 12, and a light receiving section 16 is composed only of a light receiving element array 14 such as a photodiode. The rays are pudding i
- Direct photodetector f-array 14 when directed towards the substrate l
The presence or absence of the through hole 4 can be confirmed by only using the tool.

In addition, in FIG. 2C, the printed circuit board 1 is directly irradiated with light from the surface emitting LED II, and after the transmitted light is focused by the microlens array 13, the presence or absence of the light is detected by the light receiving element array 14. In the same figure (D), the light of the surface emitting LED I+ is directly irradiated onto the printed circuit board l, and the transmitted light is detected by the integrated microlens-equipped light receiving element array 25 to detect the presence or absence of the light. .

5(A) and (B) show an example in which a line sensor 26 is used as the information reading device 17. After fixing the printed circuit board 1, the information reading device 17 is scanned at a constant speed in the direction of arrow YY. By doing so, the line sensor 26 receives the light from the light source section 15, and detects the presence or absence of the through hole 4 in chronological order. In this case, the reading unit and printed circuit board 1
Since the two move relatively, one synchronization hole 4B is provided to synchronize the detection of the position of the through hole 4.

Although an image sensor or the like can be used as this line sensor, it goes without saying that the configuration examples explained in FIGS. 4(A) to (D) can be applied to this light receiving section and light source section 15. . Note that the information reading device 17 is fixed and the printed circuit board 1 is moved at a constant speed.
．． It's okay. Further, in the above description, the through hole is detected optically, but it may be detected by contact or non-contact with a pin or the like. Further, instead of the through hole, a circuit pattern member made of copper or the like may be left to form a cord.

(Effects of the Invention) As described in -1, according to the present invention, a lot of information such as type of board, use, size, presence or absence of changes and corrections, etc. can be printed!・Since it is provided on the board itself and can reliably convert the information from the hole code to an electrical signal and output it, all information on the printed circuit board in the production process and inventory information can be processed by computer, making it extremely excellent. A printed circuit board and an information reading device thereof can be provided.

[Brief explanation of the drawing]

FIG. 1(A) is a plan view of a printed circuit board showing an embodiment of the present invention, FIG. 1(B) is a partially detailed view thereof, and FIG. 2 is a diagram for explaining the information reading operation of the present invention. , Figure 3 (A
) is a plane &f showing an embodiment of the information reading device of the present invention.
Figure 4 (B) is its side configuration diagram, and Figure 4 (A) ~
5(B) is an optical system diagram showing another embodiment of the present invention, FIG. 5(A) is a plan configuration diagram showing an example of an information reading device using a line sensor, and FIG. 5(B) is a side view thereof. ■...Printed circuit board, 2...Electrical component, 3...Connector, 4...Through hole for hole cord, 11...Surface emitting LED, +2...Scatter plate, 13...Micro Lens array, 14... Light receiving element array +5-...
Light source section, 16... Light receiving section, 17... Information reading device,
18...T10 baud], 21... point light source, 22...
...Scattering lens, 23...Imaging lens, 24...Imaging element, 25...Microlens old light receiving element f-array, 26...Line sensor. Applicant's agent Nf Mitsuru 1st year graduate 2 Figure Figure 5

Claims (1)

[Claims] 1. A printed circuit board, characterized in that information possessed by the printed circuit board is recorded by drilling through holes at predetermined positions on the printed circuit board so as to form hole codes in a predetermined arrangement.