JP2004122584A - Electronic apparatus, flat cable mounting method, and flat cable mounting member - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To suppress generation of radiant noises from a flat cable for connecting between substrates, and to facilitate a mounting work for the flat cable. <P>SOLUTION: In the electronic apparatus with a plurality of substrates, the flat cable for connecting between substrates of the plurality of substrates has at least a part thereof bonded to a conductive member 82, whereby a flat cable unit 8 is formed. An electric connection between the substrates is achieved by flat cables 81a and 81b fixed to the flat cable unit 8. At the same time, the conductive member 82 is set to bridge a part (enclosure frame) which determines a ground level of the connected substrates. In the case where the substrates are mounted via a wall face with an opening, and the flat cable unit 8 is mounted passing through the opening, the conductive member 82 is connected and fixed also to the wall face with the use of a wall face connecting part 83. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an electronic apparatus such as a copying machine having a flat cable for transmitting a signal between circuit boards, and a flat cable mounting method for transmitting a signal between circuit boards of the electronic apparatus.
[0002]
[Prior art]
In recent years, there has been a problem in that electromagnetic waves radiated from an electronic device such as a copying machine cause troubles in other electronic devices. For this reason, it is voluntarily regulated so that the level of the radiated interference wave radiated from the electronic device is kept below a standard value defined by VCCI (Voluntary Council for Electromagnetic Interference such as Information Processing Equipment).
[0003]
Among the causes of radiated disturbance due to electromagnetic waves, simulations have been advanced for the electronic circuit part of electronic equipment, and radiation noise countermeasures have become relatively satisfactorily implemented. At present, there is a great deal of variation, and we rely on on-site responses. In other words, electric parameters such as surface resistance and internal resistance are set as parameter settings in the simulation, but they do not always match those on the actual machine, and eventually measures that have been confirmed to be effective on the actual machine are taken. Is the current situation.
[0004]
As a specific noise reduction method around the cable, a shielded cable is used, and in the case of a flat cable, a ferrite core is used, or the arrangement of signal lines and ground lines in the cable is devised.
[0005]
Further, in Patent Document 1, by arranging a plurality of flat cables in an overlapping manner, the ground level is adjusted to prevent a current spreading in a loop form from flowing, thereby attenuating radiation noise. Here, the loop means a state in which current flows around the signal line and the ground.
[0006]
[Patent Document 1]
Japanese Patent Application Laid-Open No. 2002-171047
[Problems to be solved by the invention]
However, in the above conventional example, when signals are transmitted between the circuit boards, the ground levels of the two circuit boards may be different. For example, when the case to which the circuit board is fixed is different, conduction is established by screw fastening or the like, but from the viewpoint of workability and cost, it is not possible to secure an optimal fastening position or the number of fastening points from the viewpoint of conduction, It has been empirically known that the ground level becomes unstable. If the ground levels between the circuit boards are different, it is difficult to lower the level of the radiated noise even if the arrangement of the flat cable is devised. Patent Document 1 does not consider this point.
[0008]
In addition, the radiation noise bell fluctuates depending on the state of contact between the flat cable and the housing and the state of connection of the connection part between the flat cable and the circuit board, and it is difficult to stabilize this. In addition, there is a method of taking measures against radiation by using a shielded cable or a ferrite core. However, these methods have a high component unit price, which causes an increase in the cost of electronic equipment.
[0009]
Also, when connecting a flat cable, if a wall surface exists between the circuit boards, it is necessary to pass the flat cable through an opening in the wall surface. The operation of passing a flat cable through such an opening is very difficult, especially when the opening is small, and the working efficiency is poor. In addition, when the opening of the wall surface becomes the edge of the sheet metal, the flat cable may come into contact with the edge and cause a serious obstacle such as disconnection.
[0010]
The present invention has been made in view of the above problems, and has as its object to suppress generation of radiation noise from a flat cable connecting between substrates.
Another object of the present invention is to facilitate the work of mounting a flat cable and improve the workability of assembling an electronic device.
[0011]
[Means for Solving the Problems]
In order to achieve the above object, an electronic device according to the present invention has the following configuration. That is,
An electronic device having a plurality of substrates,
A flat cable connecting between the boards of the plurality of boards,
At least a part of the flat cable includes a conductive member that is closely adhered and fixed,
The conductive member is mounted to short-circuit frame grounds of the plurality of substrates.
[0012]
Further, the flat cable mounting method of the present invention for achieving the above object,
A flat cable mounting method for connecting a plurality of substrates with a flat cable,
At least a part of the flat cable connecting between the boards of the plurality of boards is tightly fixed to a conductive member,
The conductive member is mounted so as to short-circuit the frame grounds of the plurality of substrates.
[0013]
Further, the flat cable mounting member of the present invention that achieves the above object,
At least a part of the flat cable is a conductive member tightly fixed,
A mounting portion provided on the conductive member and fixable to a frame.
[0014]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.
[0015]
1 and 2 are schematic diagrams illustrating the structure of the image reading device according to the present embodiment. In the following embodiments, a scanner connected to a copier will be described as an example of an electronic device to which the present invention is applied. However, it is needless to say that the present invention is applicable to other electronic devices. .
[0016]
As shown in FIG. 2, the image reading device 1 has a first mirror unit 2 and a second mirror unit 3. The first mirror unit 2 includes a light source 21 for illuminating the original, a reflector 22 for guiding light emitted from the light source 21 to the original surface, and a first folding mirror 23 for folding the light reflected on the original surface. . The second mirror unit 3 includes second and third folding mirrors 31 and 32.
[0017]
At the time of reading a document, the first mirror unit 2 is moved from the position 2a shown in FIG. 2 to the position 2b shown in FIG. 2 at a speed V, and the second mirror unit is moved from the position 3a to a position 3b at a speed V / 2. By moving the lens unit to the position, the reflected light from the document image is guided to the lens group 4 fixed inside the image reading apparatus 1. The lens group 4 collects the reflected light incident through each mirror unit, and forms an original image on a CCD element 5 which is a photoelectric conversion element. Thus, the document image is read.
[0018]
At this time, the first mirror unit 2 and the second mirror unit 3 scan the document while sliding on the optical rail. Therefore, as shown in FIG. 1, an optical rail 7 is provided inside the image reading apparatus 1 in parallel with the original scanning direction.
[0019]
The image reading device 1 includes a driver board 94 for driving the CCD element 5 to generate an image reading signal as an electric signal, and driving the first mirror unit 2 and the second mirror unit 3 and generating the image reading signal on the driver board 94. A control board 91 on which a CPU for controlling the image reading signal is mounted and an interface board 92 having an external connection interface are provided.
[0020]
FIG. 3 shows the connection between the substrates. As shown in FIG. 3, the image read by the CCD element 5 is output as an image reading signal from a driver board 94 and passes through an interface board 92 having a connection interface between a control board 91 and an external controller 96. Transmitted. In order to arrange a circuit for executing the image reading process in the limited internal space of the casing 6 called an image reading device, the circuit is divided into a plurality of units, and a plurality of substrates on which these are mounted are connected by a flat cable. The configuration of connecting is inevitable. In the present embodiment, the configuration including the driver board 94, the control board 91, and the interface board 92 is adopted, but the present invention is not limited to this.
[0021]
In this embodiment, as shown in FIG. 3, the CCD element 5 is mounted on a driver board 94, and the driver board 94 and the control board 91 are connected by two input / output flat cables 95a and 95b. The control board 91 and the interface board 92 are also connected by two flat cables 81a and 81b for input and output. The interface board 92 and the external controller 96 are connected by an external communication cable 93.
[0022]
In the above-described mounting form, aerial wiring is used to reduce the generation of radiated noise generated from the current (current flowing around the signal line and the ground) spread in a loop due to the transmission of the image signal, and to stabilize the ground level. (Wiring floating in the space) should be made as small as possible, and connection cables that cause noise should be made as short as possible. This is because the current path becomes unstable when the ground becomes unstable.
[0023]
However, for example, in the configuration of the image reading apparatus as shown in FIG. 1, the CCD element 5 for reading an image and the control board 91 are arranged at the center of the housing 6, and the interface board 92 for external connection is provided on the wall surface of the housing 6. Are arranged on the rear surface of the housing 6. For this reason, the flat cables 81a and 81b for transmitting signals between the control board 91 and the interface board 92 pass through the lower part of the optical rail 7 and the narrow part of the wall (wall opening 61) existing inside the housing. There must be.
[0024]
In this embodiment, a flat cable unit 8 as shown in FIG. 4 is used to connect the control board 91 and the interface board 92. That is, the flat cable unit 8 in which the flat cables 81a and 81b are bonded in advance to the conductive member 82 is prepared, and the flat cable unit 8 is fixed to the housing to which the control board 91 and the interface board 92 are fixed. By stabilizing the ground level and inserting a conductive member, a more stable path can be secured and the current loop can be stabilized.
[0025]
FIG. 5 is a diagram for explaining a mounting state of the flat cable unit 8. The control board 91 is fixed to the housing 6 via the housing connecting member 62b via the housing connecting member 62b, and is connected to the frame ground via the housing connecting member 62a, and both boards are separated by the wall surface 6a. ing. A wall surface opening 61 is provided on the wall surface 6a. The flat cable unit 8 is mounted through the wall opening 61 and is fixed to the housing via the housing connecting members 63a and 63b. The housing connecting members 63a and 63b are connected to the conductive member 82 of the flat cable unit 8 by means such as a screw. Further, a part of the conductive member 82 of the flat cable unit 8 forms a wall connecting portion 83 as shown in FIG. 4, and the wall connecting portion 83 is connected and fixed to the wall surface 6a.
[0026]
According to the structure as described above, it is possible to reduce the aerial wiring when a flat cable passes through the lower part of the optical rail 7 or the narrow wall part (wall opening 61). Further, the ground level is matched between the plurality of substrates by the conductive member 82, and a flat cable is fixed to the conductive member 82, so that a signal is transmitted on the conductive member having the same ground level as the plurality of substrates. Will be done. With the above-described configuration, it is possible to suppress a current loop generated by signal transmission (that is, to reduce a current path around the signal line and the ground), and to reduce radiation noise.
[0027]
In addition, by connecting the conductive member 82 to the wall surface 6a having the wall opening 61 through which the flat cable passes through the wall connecting portion 83 of the flat cable unit 8, the same as shortening the flat cable length is achieved. Such an effect is obtained, and radiation noise can be further reduced.
[0028]
Also, since the flat cables 81a and 81b need to be cautiously routed in these narrow portions because the lower portion of the optical rail 7 and the wall opening 61 have sheet metal edges, the flat cables 81a and 81b must be connected to the conductive member 82. Since the rigidity can be increased by bonding, workability is dramatically improved.
[0029]
As shown in FIG. 6, the provision of the guide portion 84 on the conductive member 82 makes it more difficult for the flat cables 81a and 81b to come into contact with the sheet metal edge, thereby more effectively preventing accidents such as disconnection. .
[0030]
As described above, according to the above-described embodiment, in an electronic device, in a structure in which a plurality of circuit boards on which an electronic circuit is mounted and a flat cable for transmitting a signal are arranged between the circuit boards, the flat cable is electrically conductive. A flat cable unit bonded to a member is used. Then, the housings to which the circuit boards are fixed are fixed so as to be bridged by the conductive members. As a result, with a relatively simple and inexpensive configuration, the ground levels of a plurality of circuit boards can be stabilized, the number of aerial wirings can be reduced, and the generation of radiated noise generated from a current spread in a loop can be reduced.
[0031]
In addition, since the flat cable is unitized by being adhered to the conductive member, the rigidity of the flexible flat cable is increased, and the flat cable can be arranged through an opening in the wall surface existing between the substrates, or the flat cable can be disposed in a narrow portion. The work when arranging is facilitated.
[0032]
In addition, by flattening both ends of the flat cable bonded to the flat cable unit in advance as shown in FIG. 5, the flat cable can be bonded to the conductive member up to the vicinity of the connection portion, and is generated from a current spread in a loop. Generation of radiation noise can be effectively suppressed. Furthermore, the Z-folding facilitates the connection work at the connecting portion.
[0033]
Further, by providing a guide portion as shown in FIG. 6 on the conductive member, it is possible to more reliably ensure that the flat cable contacts such an edge when the opening of the wall surface becomes the edge of the sheet metal. Can be prevented.
[0034]
【The invention's effect】
As described above, according to the present invention, it is possible to suppress generation of radiation noise from a flat cable connecting between boards.
Further, according to the present invention, the work of mounting the flat cable is facilitated, and the workability of assembling the electronic device is dramatically improved.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating an internal structure of an image reading apparatus as an example of an electronic apparatus to which the present invention can be applied.
FIG. 2 is a diagram illustrating a configuration of an image reading mechanism of an image reading apparatus as an example of an electronic apparatus to which the present invention can be applied.
FIG. 3 is a diagram illustrating a configuration of a circuit board and a flat cable connecting the circuit boards by the image reading apparatus of the present embodiment.
FIG. 4 is a diagram showing a flat cable unit according to the present embodiment.
FIG. 5 is a diagram illustrating a method for mounting the flat cable according to the present embodiment.
FIG. 6 is a view showing a flat cable unit according to another embodiment.

Claims (9)

An electronic device having a plurality of substrates,
A flat cable connecting between the boards of the plurality of boards,
At least a part of the flat cable includes a conductive member that is closely adhered and fixed,
The electronic device, wherein the conductive member is mounted so as to short-circuit frame grounds of the plurality of substrates. The board connected by the flat cable is arranged across a wall surface having an opening,
The electronic device according to claim 1, wherein the conductive member is disposed so as to pass through the opening, and a part of the conductive member is fixed and connected to the wall surface. The electronic device according to claim 1, wherein a part of the flat cable is adhered to the conductive member. The electronic device according to claim 1, wherein a part of the conductive member forms a guide for protecting the flat cable. A flat cable mounting method for connecting a plurality of substrates with a flat cable,
At least a part of the flat cable connecting between the boards of the plurality of boards is tightly fixed to a conductive member,
A flat cable mounting method, wherein the conductive member is mounted so as to short-circuit frame grounds of the plurality of substrates. A board connected by the flat cable is arranged across a wall surface having an opening,
The flat cable mounting method according to claim 5, wherein the conductive member is arranged so as to pass through the opening, and a part of the conductive member is fixed and connected to the wall surface. The flat cable mounting method according to claim 5, wherein a part of the flat cable is bonded to the conductive member. The flat cable mounting method according to claim 5, wherein a part of the conductive member is formed as a guide for protecting the flat cable. At least a part of the flat cable is a conductive member tightly fixed,
A flat cable mounting member, comprising: a mounting portion provided on the conductive member and fixable to a frame.

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