JP2003069177A - Electronic equipment having flexible printed circuit board - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an electronic equipment having a flexible printed circuit board capable of preventing a continuity fault from occurring due to a mounting positional deviation of a connector or a dimensional accuracy fault of the connector of the circuit board or a fracture or the like of the circuit board. SOLUTION: The electronic equipment having the flexible printed circuit board comprises the flexible printed circuit board, the circuit board having a plurality of the connectors mounted to connect the flexible board to an electric signal. In this equipment, the flexible board has a connecting arm having connecting terminals to be independently connected to the plurality of the connectors in such a manner that at least one of the arms of the flexible board is inverted and curved to be connected to the connector.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic device having a flexible printed circuit board.

[0002]

2. Description of the Related Art When connecting circuit boards on which electrical parts are mounted, or connecting a device such as a sensor and the circuit board,
A flexible printed circuit board is generally used as the connection cable. The flexible printed circuit board is provided with connection terminals to be inserted into an electric connector arranged on the circuit board. The number of poles of the connection terminal varies from several poles to several tens of poles depending on the usage conditions, but the number of connections per connector is increasing due to the increase in circuit scale.

On the other hand, in recent years, the size of the connector has become smaller and thinner, in accordance with the miniaturization of electronic equipment. Therefore, thin connectors with a large number of connecting poles are becoming mainstream.

By the way, the thinner the connector body is, and the more the number of connecting poles is, the lower the rigidity becomes and the more fragile the connector body becomes. Since the connector body is made of resin or the like, warpage and cracks are likely to occur. Further, as the number of connecting poles increases, the cumulative pitch error of the connecting terminal portion increases, which causes a pitch deviation between the terminal portion of the connector and the terminal portion of the flexible printed circuit board, which causes a connection failure. .

Therefore, when the number of connecting poles increases, a plurality of connectors are used to reduce the number of connecting poles per connector.

On the other hand, the flexible printed circuit board is
The connection arm portion was divided into a plurality of parts for connection with the plurality of connectors.

The above conventional example will be described with reference to FIGS. 6 and 7 by taking a single-lens reflex camera as an example. 6 is a front view of the camera,
FIG. 7 is a perspective view of the inside of the camera.

In the figure, 1 is a camera body, 2 is a mirror box, 2a is a camera mount, 2b is a quick return mirror, 3 is a pentaprism, and the pentaprism 3 is arranged above the mirror box 2.

Reference numeral 4 denotes a main circuit board, which is arranged on the side wall surface of the mirror box 2. Reference numerals 5a and 5b are horizontal arrangement type connectors, and 6a and 6b are vertical arrangement type connectors. The horizontally arranged connectors 5a and 5b and the vertically arranged connectors 6a and 6b are mounted and arranged on the main circuit board 4, respectively. Reference numeral 9 denotes an upper flexible printed circuit board, which is a mirror box 3 above the pentaprism 3.
It is located across both sides of. Reference numerals 9a and 9b are connection arm portions branched from each other, and are horizontally arranged connectors 5a and 5b.
b respectively.

The upper flexible printed circuit board 9 is
In order to reduce the number of connecting poles per connector, the connecting arm portion is branched into a plurality of 9a and 9b. Reference numeral 9c is an external liquid crystal connection portion, 9d is a base portion of the upper flexible printed circuit board, and the base portion 9d connects the external liquid crystal connection portion 9c and the connection arm portions 9a and 9b. Reference numeral 9e denotes a liquid crystal driving microcomputer, which is mounted on the external liquid crystal connection portion 9c of the upper flexible printed circuit board 9.

Reference numeral 12 is a side flexible printed circuit board. The side flexible printed circuit board 10 is arranged vertically to the main board 4. 10a, 10
Reference numeral b is a connecting arm portion branched from each other and connected to the vertically arranged connectors 6a and 6b, respectively. The side flexible printed circuit board 10 has a plurality of connecting arms for branching in order to reduce the number of connecting poles per connector.

Reference numeral 10c is a base portion of the side flexible printed circuit board 10 and 10d is an electric component mounted on the base portion 10c of the side flexible printed circuit board 10.
Reference numeral 11 is an external liquid crystal display, and 12 is a conductive rubber connector. The external liquid crystal display 11 is a conductive rubber connector 1
It is connected to the external liquid crystal connection portion 9c of the upper flexible printed circuit board 9 via 2.

FIG. 5 is a view of the main circuit board viewed from the mounting surface (front surface).

In FIG. 5, reference numeral 4a denotes a microcomputer mounted on the main circuit board 4. Connectors 5a, 5b,
In 6a and 6b, the state indicated by the chain double-dashed line is the ideal design position, and the state indicated by the solid line is the actual position. Even if it is different in degree, it causes a shift or a tilt with respect to an ideal position.

On the other hand, when the dimensional accuracy error of the connecting arm portions provided on the flexible printed circuit boards 9 and 10 to be connected is also added, the connector mounted on the main circuit board 4 and the connecting arm portion of the flexible printed circuit board are connected. The relative displacement is further increased.

[0016]

Therefore, in the configuration of the above-mentioned conventional example, as shown in FIG. 5, the connection position of the connector is deviated, the dimensional accuracy of the connecting arm portion of the flexible printed circuit board is deteriorated, etc. This causes a defect, a break in the flexible printed circuit board, or a situation in which the connector and the flexible printed circuit board cannot be connected.

The present invention has been made in view of the above problems. An object of the present invention is to mount a flexible printed circuit board on a connector mounted on another circuit board and shift the mounting position of the connector or the flexible print. An object of the present invention is to provide an electronic device having a flexible printed circuit board capable of preventing a conduction failure due to poor dimensional accuracy of a connection portion of the circuit board, a breakage of the flexible printed circuit board, and the like.

[0018]

In order to achieve the above object, the present invention provides a flexible printed circuit board and a circuit board on which a plurality of connectors for connecting electrical signals to the flexible printed circuit board are mounted. The flexible printed circuit board has a connection arm portion having a connection terminal portion that is independently connected to each of the plurality of connectors, among the connection arm portion of the flexible printed circuit board. It is characterized in that at least one arm portion is inverted and bent and connected to the connector to form an electronic device.

[0019]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the accompanying drawings.

Embodiments of the present invention will be described with reference to FIGS. 1 to 4. In these figures, the same elements as those shown in FIGS. 5 to 7 are designated by the same reference numerals.

Referring to FIG. 1, the planar developed shape of the upper flexible printed circuit board 6 will be described.

Reference numeral 7a is a first connecting arm portion provided for connecting to a connector described later, and 7b is a second connecting arm portion provided for connecting to another connector. The second connecting arm portions 7a and 7b are branched and extended to connect to different connectors.

Reference numeral 7b-1 is a first extending portion of the second connecting arm portion 7b, 7b-2 is a second extending portion of the second connecting arm portion 7b, and second extending portion 7b-2 is. It extends at different angles with respect to the first extending portion 7b-1. In this embodiment, they are provided so as to form an angle of approximately 90 degrees with each other. In addition, the first extending portion 7 of the first connecting arm portion 7a and the second connecting arm portion 7b.
The b-2 is also branched at an angle of about 90 degrees. 77
Reference characters a and 77b are connection terminal portions provided at the tips of the branched connection arm portions 7a and 7b, respectively, and are electrically connected when connected to the connector.

The connection terminal portion 77a has a terminal exposed portion on the front side of the paper surface of FIG. 1, and the connection terminal portion 77b has a copper foil exposed portion on the back surface of the same drawing sheet. Reference numeral 7c is a connection portion with an external liquid crystal, and a liquid crystal drive microcomputer 7e is mounted on this connection portion 7c. Reference numeral 7e is a base portion of the upper flexible printed circuit board 7. The base portion 7d connects the connection arm portions 7a and 7b to the connection portion 7c for connecting the external liquid crystal.

Next, the planar developed shape of the side flexible printed circuit board 8 will be described with reference to FIG.

In FIG. 2, 8a is a third connecting arm portion provided to connect to a connector described later, and 8b is a fourth connecting arm portion provided to connect to another connector. These connecting arms 8a and 8b are branched and extended to connect to different connectors. 8b-1 is a third extending portion of the fourth connecting arm portion 8b, 8b
b-2 is a fourth extending portion of the fourth connecting arm portion 7b. Fourth
The extending portion 8b-2 extends at a different angle with respect to the third extending portion 8b-1. In the present embodiment, they are approximately 90
It is provided to form an angle of degrees. Further, the third connecting arm portion 8a and the third extending portion 8b-2 of the fourth connecting arm portion 8b are also branched at an angle of approximately 90 degrees.

Reference numerals 88a and 88b denote connection terminal portions provided at the tips of the branched connection arms 88a and 88b, respectively.
Electrical connection is established when connected to the connector. The connection terminal portion 88a has a terminal exposed portion on the front side of the paper in FIG. 2, and the connection terminal portion 88b has an exposed portion of the copper foil on the back side of the drawing. Reference numeral 8c is a base portion of the upper flexible printed circuit board 8, and an electric component group 8d is mounted on the base portion 8c.

Next, the connection structure of the flexible printed circuit board shown in FIGS. 1 and 2 will be described with reference to FIGS. 3 and 4.

FIG. 3 is a front view of the single-lens reflex camera, and FIG. 4 is a perspective view of the inside of the camera.

In the figure, 1 is a camera body, 2 is a mirror box, 2a is a camera mount, and 2b is a quick return mirror.

Reference numeral 3 denotes a penta prism, which is arranged above the mirror box 2. Reference numeral 4 denotes a main circuit board, which is arranged on the side wall surface of the mirror box 2. 5a and 5b are horizontal connectors, 6a and 6
b is a vertically arranged connector. The horizontally arranged connectors 5a and 5b and the vertically arranged connectors 6a and 6b are mounted and arranged on the main circuit board 4, respectively.

In the above structure, the upper flexible printed circuit board 7 is arranged so as to straddle both sides of the penta prism 3 above the mirror box 2. One connection arm portion 7a of the upper flexible printed circuit board 7 directly faces the side wall surface of the mirror box 2, and the connection terminal portion 77a is inserted into the horizontally arranged connector 5a and fixedly held. The other connection arm portion 77b is inverted and bent at the connection arm portion 7b that is branched and extended in a direction of approximately 90 degrees with respect to the connection arm portion 7a, and is connected and folded back.
b is inserted into the horizontally arranged connector 5b and fixedly held. The position of the upper flexible printed circuit board 7 is
It is fixed when the connection terminal portion 77a is inserted into the connector 5a. The position of the other connecting terminal portion 77b can be moved following the current position of the connector 5b because the bending center CL1 of the connecting arm portion 7b that is inverted and bent can be freely changed to some extent. Therefore, connector 5
The relative displacement between a and 5b does not matter.

Also, the side flexible printed circuit board 8
Are arranged perpendicularly to the main substrate 4 arranged on the side wall surface of the mirror box 2. The connection arm portion 8a of the side flexible printed circuit board 8 directly faces the main board 4, and the connection terminal portion 88a is inserted into the vertically arranged connector 6a and fixedly held. The other connecting arm 8
The connecting arm 8b is inverted and bent at the connecting arm 8b which is branched and extended in a direction of approximately 90 degrees with respect to the connecting arm 8a, and is inserted and fixedly held in the vertically arranged connector 5b in a folded state.

The position of the side flexible printed circuit board 8 is fixed when one of the connection terminal portions 88a is inserted into the connector 6a. The position of the other connecting terminal portion 88b can be moved to follow the position of the connector 6b at that time because the bending center CL2 of the connecting arm portion 8b that is inverted and bent can be changed to some extent. Therefore, the relative displacement between the connectors 6a and 6b does not pose a problem.

Reference numeral 8 is an external liquid crystal display, and 9 is a conductive rubber connector. The external liquid crystal display 8 is connected to the external liquid crystal connection portion 6d of the upper flexible printed circuit board 6 via the conductive rubber connector 9.

[0036]

As is apparent from the above description, according to the present invention, there is provided a flexible printed circuit board and a circuit board on which a plurality of connectors for connecting electrical signals to the flexible printed circuit board are mounted. The flexible printed circuit board has a connection arm portion having a connection terminal portion that is independently connected to each of the plurality of connectors, among the connection arm portion of the flexible printed circuit board. Since at least one arm portion is inverted and bent and connected to the connector to form an electronic device, when the flexible printed circuit board is connected to a connector mounted on another circuit board, the mounting position of the connector and the flexible printed circuit are changed. Continuity failure due to poor dimensional accuracy of the connection part of the board and rupture of the flexible printed circuit board etc. There is an advantage that it is Gukoto.

[Brief description of drawings]

FIG. 1 is a plan development view of a first flexible printed circuit board of an electronic device according to the present invention.

FIG. 2 is a plan development view of a second flexible printed circuit board of the electronic device according to the present invention.

FIG. 3 is a front view of a single-lens reflex camera which is an electronic device according to the present invention.

FIG. 4 is a perspective view of the inside of a single-lens reflex camera which is an electronic device according to the present invention.

FIG. 5 is a view of the main circuit board as viewed from the mounting surface (front surface).

FIG. 6 is a front view of a conventional single-lens reflex camera.

FIG. 7 is a perspective view of the inside of a conventional single-lens reflex camera.

[Explanation of symbols]

1 camera body 2 mirror box 4 main circuit board 5a, 5b Horizontally arranged connector 6,7,9 Upper flexible printed circuit board 6a, 6b Vertically arranged connector 8, 11 External liquid crystal display 10 side flexible printed circuit board 12 Conductive rubber connector

Claims (2)

[Claims] 1. A flexible printed circuit board, and a circuit board on which a plurality of connectors for connecting electrical signals to the flexible printed circuit board are mounted, the flexible printed circuit board comprising: Each of the flexible printed circuit boards has a connection arm portion having a connection terminal portion that is independently connected to each, and at least one of the connection arm portions of the flexible printed circuit board is inverted and bent to be connected to the connector. An electronic device having a flexible printed circuit board, which is configured as follows. 2. The flexible printed circuit board according to claim 1, wherein the connection arm portion of the flexible printed circuit board, which is bent and inverted, has a plurality of extending portions extending at different angles from each other. Electronic equipment having.