JP4370827B2 - Electronics - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a technique for electrically connecting a reference potential line of a circuit board to a casing in an electronic device in which an assembly mainly including a circuit board is accommodated in the casing.
[0002]
[Prior art]
A circuit board on which a circuit for controlling the operation of the apparatus is mounted is housed in an image processing unit housed in the image forming apparatus or a housing of an electronic device such as a personal computer. In most cases, the casing is grounded for the purpose of preventing emission of noise from the device.
[0003]
On the other hand, in order to prevent malfunction of the circuit due to external noise, the reference potential line of the circuit board in this type of electronic device is usually electrically connected to the casing and grounded together with the casing. Techniques for electrically connecting the reference potential line of such a circuit board to the housing are disclosed in, for example, Patent Documents 1 to 2.
[0004]
[Patent Document 1]
JP-A-8-264773 [Patent Document 2]
Japanese Patent Laid-Open No. 2001-148585
In the technique described in Patent Document 1 (first prior art), a guide member for guiding a circuit board is provided on a base member of a grounded casing, and a plurality of grounds each having an elastic piece on the guide member. A board is attached. When inserting the circuit board into the casing, the reference potential line on the circuit board is electrically connected to the casing by bringing the side end portion of the circuit board into contact with the elastic piece. Is grounded. In the technique described in Patent Document 2 (second prior art), a conductive plate in which a reference potential line pattern provided in advance on a circuit board is fixed to the housing at the end position in the insertion direction of the circuit board. Grounded by contact with the spring.
[0006]
[Problems to be solved by the invention]
Incidentally, a large apparatus such as an image forming apparatus has a plurality of electronic circuit units or a plurality of circuit boards in the apparatus. In all of the plurality of electronic circuit units or circuit boards, the reference potential line of the circuit board and the housing are electrically grounded. In such a case, the first prior art requires a plurality of ground plates for grounding the circuit board, and there is a problem that the cost increases as the device scale increases. Further, the second prior art also requires an increase in cost in the same manner because a leaf spring is required.
SUMMARY An advantage of some aspects of the invention is that it provides an electronic device that can electrically connect a reference potential line of a circuit board to a housing with a simple configuration.
[0007]
[Means for Solving the Problems]
In order to solve the above-described problem, an electronic device according to the present invention is electrically connected to a circuit board, a first connector electrically connected to the circuit board, and a reference potential line on the circuit board. An assembly having a conductive grounding contact portion, a second connector connected to the first connector, a housing housing the assembly, and electrically connected to the housing; a conductive guide rail for guiding the circuit board in該筐body, said first connector is the contact and the grounding contact portion with deformable elastic Te state odor which is connected to the second connector A conductive rail that is integrally formed so as to protrude from the guide rail in the insertion direction of the circuit board, and the contact portion for grounding includes the first connector and the first rail . 2 connectors Of the circuit board to a position where the connection is initiated it is characterized in said initiating a contact with the elastic deformation portion when inserted along the guide rail.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
<First Embodiment: Image Information Input Processing Unit>
<A: Unit configuration>
FIG. 1 is a cross-sectional view showing a configuration of an image information input processing unit 10 according to the first embodiment of the present invention. The image information input processing unit 10 is an electronic circuit unit used in an image forming apparatus such as an electrophotographic copying machine or a printer. For the sake of simplicity, FIG. 1 shows only the main configuration.
[0010]
The housing 11 of the image information input processing unit 10 includes a front surface portion 11a, a back surface portion 11b, a left side surface portion 11c, a right side surface portion (not shown), an upper surface portion 11d, and a lower surface portion 11e. Each is comprised by the plated steel plate which has. As shown in FIG. 1, the back surface portion 11b has a large opening at the center. FIG. 1 is a cross-sectional view of the image information input processing unit 10 viewed from the right side.
[0011]
The assembly body 20 is obtained by integrating a circuit board 21, an internal connector 22, a protective sheet 23, an external IF connector 24, and a panel 25. The assembly body 20 is inserted into the housing 11 from the opening provided in the back surface portion 11b toward the front surface portion 11a (in the direction of arrow A).
[0012]
The circuit board 21 is a PCB board (Print Circuit Board) on which a circuit for operating the image information input processing unit 10 is mounted. In the circuit board 21, an external IF connector 24 for electrically connecting the circuit on the circuit board 21 and other devices is provided at the end on the back surface part 11 b side. The external IF connector 24 is, for example, a USB connector, a SCSI connector, an Ethernet connector (Ethernet is a registered trademark), a parallel connector, or the like, and is fixed to the panel 25 while penetrating the panel 25. The panel 25 closes the opening of the back surface portion 11 b when the assembly body 20 is accommodated in the housing 11. Further, in the circuit board 21, an internal connector 22 for making an electrical connection between the circuit on the circuit board 21 and another circuit board in the image information input processing unit 10 is provided at the end on the front surface portion 11 a side. It is arranged.
[0013]
The protective sheet 23 is composed of a thin plated steel plate having conductivity. The protective sheet 23 covers a circuit mounting surface which is the lower surface of the circuit board 21 with a certain gap from the circuit board 21, one end is fixed to the lower end of the panel 25, and the other end is screwed to the circuit board 21. 26 is fixed. At this fixed location, the protective sheet 23 is electrically connected to a ground pattern (reference potential line) on the circuit board 21.
[0014]
FIG. 2 is a cross-sectional view of the vicinity of the fixed portion as viewed from the front surface portion 11a side (viewed from the direction of arrow B). As shown in the figure, the protective sheet 23 is attached to the lower surface of the circuit board 21 via a crank-like attachment portion 23a integrated with the sheet by welding or the like. Further, the protective sheet 23 has an extended portion 23b extending further outward than the joint portion with the attachment portion 23a, and a hemispherical convex portion 27 protruding downward is formed on the lower surface of the extended portion 23b. Is formed. The convex portion 27 is formed by, for example, a method of pressing a spherical hard die-cutting member against the surface of the protective sheet 23.
[0015]
In FIG. 1, the first relay substrate 30 is a substrate disposed to face the inner surface of the front surface portion 11 a of the housing 11. The upper portion of the substrate is fixed to the front surface portion 11a by a screw 31 via a member having the same shape as 23a shown in FIG. An internal connector 32 is mounted near the center of the surface of the first relay substrate 30 facing the back surface portion 11b. The internal connector 32 is fitted to the internal connector 22 provided on the circuit board 21 when the circuit board 21 is accommodated in the housing 11. The internal connector 32 is connected to the surface of the second relay substrate 40 via the signal cable 33. The second relay board 40 is fixed to the lower surface portion 11e of the housing 11 with a screw 41 via a member having the same shape as 23a shown in FIG. 2, and an electric signal transmitted by the signal cable 33 is provided on the back surface thereof. Is output as an instruction to an external device. The output connector 42 penetrates the lower surface portion 11e of the housing 11 and exposes a connection portion for connection with another connector to the outside of the housing 11. In the configuration as described above, the circuit mounted on the circuit board 21 generates control information based on the image information received from the external IF connector 24, and the control information is transmitted to the internal connector 22, the internal connector 32, and the signal cable 33. And output to the outside via the output connector 42.
[0016]
Two parallel guide rails 50 for guiding the circuit board 21 are installed by welding or the like in the vicinity of the left side surface portion 11c of the lower surface portion 11e of the housing 11 and in the vicinity of the right side surface portion (not shown). The guide rail 50 will be described with reference to FIG.
[0017]
FIG. 3 is a perspective view of one of the two guide rails 50. The guide rail 50 is formed of two parts made of a plated steel plate having conductivity, and includes a fixed surface 51a fixed to the lower surface portion 11e of the housing 11, and an upright surface 51b rising upright to the fixed surface 51a. And an L-shaped base 51. The upright surface 51b of the base 51 is provided with an upper guide 52 and a lower guide 53 that protrude in the same direction as the fixed surface 51a. The two guide rails 50 accommodate the extended portions 23b on both sides in the width direction of the protective sheet 23 in the gaps between the upper guide 52 and the lower guide 53, respectively. Guide to the front face 11a side.
[0018]
The upper guide 52 is a flat plate member, and the length of the circuit board 21 in the insertion direction is slightly shorter than the fixed surface 51 a of the base 51. The lower guide 53 is connected to the guide portion 53a via a guide portion 53a extending in parallel with the upper guide 52, a connecting portion 53b that gently extends obliquely upward from an end portion of the guide portion 53a, and a connecting portion 53b. And has a gentle crank shape as a whole. The length of the guide portion 53a in the insertion direction of the circuit board 21 is equal to the fixed surface 51a of the base 51, and the vertical position of the elastically deformable portion is substantially the intermediate position between the upper guide 52 and the guide portion 53a. ing. The above is the details of the configuration of the image information input processing unit 10 according to the present embodiment.
[0019]
In the present embodiment, the assembly body 20 has an extended portion 23 b of the protective sheet 23 covering the circuit board 21 in a gap formed between the upper guide 52 of the guide rail 50 and the guide portion 53 a of the lower guide 53. It is inserted into the housing 11 so as to be sandwiched. As the insertion proceeds, the internal connector 22 provided on the circuit board 21 starts to be engaged with the internal connector 32 of the first relay board 30. When the fitting between the connectors is started, the convex portion 27 formed on the protective sheet 23 starts to come into contact with the elastic deformation portion 53 c provided on the lower guide 53 of the guide rail 50.
[0020]
Here, when viewing the lower guide 53, since the guide portion 53a is almost entirely fixed to the standing surface 51b of the base 51, the extended portion of the protective sheet 23 remains in a horizontal state without elastic deformation. Guide 23b. On the other hand, the connection part 53b and the elastic deformation part 53c are not directly fixed to the standing surface 51b, but protrude from the guide part 53a in the insertion direction of the circuit board. Accordingly, the elastically deformable portion 53c can rotate relatively freely in the direction C shown in FIG. 1 with the vicinity of the joint portion between the connecting portion 53b and the guide portion 53a as a fulcrum.
[0021]
Now, the elastically deformable portion 53 c that has started to contact the convex portion 27 formed on the protective sheet 23 is gradually pushed down in the C direction by the convex portion 27. In the present embodiment, since the convex portion 27 has a hemispherical shape, the elastic deformation portion 53c is further pushed downward as the fitting of the connector proceeds. When the internal connector 22 and the internal connector 32 are completely fitted, the elastically deforming portion 53c is sufficiently pushed by the convex portion 27, and the elastic force that tries to return the elastically deforming portion 53c to its original shape, It makes strong contact with the convex portion 27. In this state, the reference potential line of the circuit board 21 is electrically connected to the housing 11. As described above, the image information input processing unit 10 according to the present embodiment uses a new part by the conductive guide rail formed integrally with the elastic deformation portion, unlike the first and second conventional technologies. In other words, the reference potential line of the circuit board can be electrically connected to the housing.
[0022]
In the present embodiment, the shape and size of the convex portion 27 and the vertical position in the non-contact state of the elastic deformable portion 53c are determined so that the convex portion 27 can sufficiently push down the elastic deformable portion 53c. In addition, the shape, installation position, material, and the like of the elastic deformation portion 53c and the guide rail 50 are determined in advance so that the elastic deformation portion 53c is not excessively pushed down by the convex portion 27 and causes plastic deformation.
[0023]
In the present embodiment, the elastically deformable portion 53 c formed integrally with the lower guide 53 of the guide rail 50 comes into contact with the convex portion 27 formed on the protective sheet 23 after the fitting between the internal connector 22 and the internal connector 32 is started. The installation position is determined so as to be elastically deformed. Since the first relay board 30 and the assembly body 20 can be regarded as rigid bodies with respect to the elastic deformation portion 53c, the contact between the connectors installed on the rigid bodies starts and the contact starts, whereby the elastic deformation portion 53c is started. It is possible to prevent an excessive load from being applied to 53c. Therefore, the elastic deformation part 53c can maintain a stable contact state with the convex part 27. However, the position of the assembly body 20 where the elastic deformation portion 53c and the convex portion 27 start to contact is not limited to this. Before the assembly body 20 is inserted to the position where the connectors 22 and 32 are fitted, the convex portion 27 may be configured to come into contact with the elastic deformation portion 53c.
[0024]
In the present embodiment, the convex portion 27 has a hemispherical shape, and the elastic deformation portion 53c is gradually pushed down as the fitting between the connectors proceeds. By doing so, the convex portion 27 pushes down the elastic deformation portion 53c while proceeding in the insertion direction, and a stable contact state is obtained. However, the shape of the convex portion is not limited to a hemispherical shape. Any shape that can maintain a good contact state with the elastic deformation portion may be used. Moreover, this convex part does not need to be provided. For example, the contact portion for grounding may have a highly frictional surface such as a blast treatment instead of the convex portion.
[0025]
In the present embodiment, the convex portion 27 is formed integrally with the protective sheet 23. However, the convex portion may be provided on the elastic deformation portion 53c as long as it can be electrically connected to the reference potential line of the circuit board. Also in this case, the convex portion is not limited to a hemispherical shape and can have various forms.
[0026]
In the present embodiment, the protective sheet 23 covers the mounting surface of the circuit board 21, has a contact portion for grounding, and, for example, when the assembly body 20 is frequently inserted and removed, It is preferable because the mounting surface is protected from electrical and physical contact. However, even if this protective sheet 23 is not provided, the effect according to the present invention can be obtained if the contact portion for grounding is electrically connected to the reference potential line of the circuit board 21.
[0027]
Further, in the present embodiment, it is extremely simple if the casing 11 is directly grounded or indirectly grounded, for example, by connecting to the grounded casing of another device that accommodates the casing 11. In addition, the reference potential of the circuit board can be grounded.
[0028]
In addition, the deformation | transformation aspect of an elastic deformation member is not limited to this aspect. For example, the elastic deformation portion may not be elastically deformed in the vertical direction as in the present embodiment, but may be deformed on both side surfaces of the housing. Even in such a case, the effect of the present invention is ensured only by appropriately changing the formation position and shape of the contact portion for contact with the elastic deformation portion.
[0029]
<Second Embodiment: Image Forming Apparatus>
A plurality of electronic circuit units as described above are often used in a large apparatus. Here, as a second embodiment of the present invention, a configuration when the image information input processing unit 10 is used in an image forming apparatus will be described. In addition, the same code | symbol is attached | subjected about the part which overlaps with 1st Embodiment, and the description is abbreviate | omitted.
[0030]
FIG. 4 is an exploded perspective view of the periphery of the image information input processing unit 10 in the image forming apparatus. In the figure, a metal casing 110, a power supply unit 120, and an image information input processing unit 10 are shown. FIG. 4 is a view seen from the back side of the image forming apparatus.
[0031]
The housing 110 includes a main drive unit 111 for transmitting a rotational driving force to an image forming unit (not shown) of the image forming apparatus, and a drum drive unit 112 for mainly driving a photosensitive drum (not shown). Is provided. In these drive units, an electric motor and a rotation transmission mechanism (both not shown) are mounted on a frame constituting the unit. The relay connection unit 113 relays signal cables from each device in the image forming apparatus. In particular, the connector 113a is used for electrical connection with the image information input processing unit 10.
[0032]
The power supply unit 120 includes an AC power supply unit 121 connected to an AC power outlet outside the apparatus via a power cord, high-voltage power supply circuits 122 and 123 for supplying a high voltage to a charging device (not shown), etc. The main drive unit 111 and the drum drive unit 112 are roughly constituted by low-voltage power supply circuits 124 and 125 for supplying a low voltage of about 24V.
[0033]
The image information input processing unit 10 is screwed to a predetermined portion of the housing 110 with the back surface portion 11b facing the back surface in FIG. At that time, the output connector 42 is connected to an image forming unit control board (not shown) provided in parallel with the second relay board on the outside of the lower surface portion 11e of the image information input processing unit 10, and the board and the connector 113a are connected to each other. By being connected, the image information input processing unit 10 is electrically connected to other devices connected to the housing 110. In addition, in the image information input processing unit 10, two tie bars (not shown) are provided so as to bridge the back surface portion 11b and the front surface portion 11a, and are screwed to the housing 110, so that the housing 110 and the casing 11 are electrically connected.
[0034]
The image forming apparatus according to this embodiment is configured as described above. This image forming apparatus has high reliability because malfunctions due to noise or the like are reduced by the image information input processing unit 10 having a stable reference potential. The image forming apparatus accommodates a plurality of large and small electronic circuit units. The electronic apparatus according to the present invention can be used for many of these units. Therefore, as a whole, the cost for the electrical connection between the reference potential line of the circuit board and the housing is greatly reduced.
[0035]
【The invention's effect】
As described above, the electronic device according to the present invention is elastically deformed so that the conductive guide rail that guides the circuit board in the housing comes into contact with the contact portion for grounding connected to the reference potential line of the circuit board. The parts are integrally formed. Therefore, the reference potential line and the housing can be electrically connected without adding a new component, and an increase in cost can be suppressed. Further, the elastically deforming portion and the contact portion for grounding are in strong contact with each other by an elastic force, and a stable connection state is maintained.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of an image information input processing unit 10 according to a first embodiment of the present invention.
FIG. 2 is a cross-sectional view of the vicinity of a fixing portion between the circuit board 21 and the protective sheet 23 as viewed from the front surface portion 11a side in the embodiment.
FIG. 3 is a perspective view of a guide rail 50 according to the embodiment.
FIG. 4 is an exploded perspective view of the periphery of an image information input processing unit 10 in an image forming apparatus according to a second embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Image information input processing unit, 11 ... Housing | casing, 11a ... Front part, 11b ... Back part, 11c ... Left side part, 11d ... Upper surface part, 11e ... Lower surface Part, 20 ... assembly body, 21 ... circuit board, 22 ... internal connector, 23 ... protective sheet, 23a ... attachment part, 23b ... extension part, 24 ... external IF Connector, 25 ... Panel, 26 ... Screw, 27 ... Projection, 30 ... First relay board, 31 ... Screw, 32 ... Internal connector, 33 ... Signal cable, 40 ... 2nd relay board, 41 ... Screw, 42 ... Output connector, 50 ... Guide rail, 51 ... Base, 51a ... Fixed surface, 51b ... Standing surface, 52... Upper guide, 53... Lower guide, 53 a. b: connecting portion, 53c .. elastic deformation portion, 110 ... casing, 111 ... main drive unit, 112 ... drum drive unit, 113 ... relay connection unit, 113a ... connector , 120 ... power supply unit, 121 ... AC power supply unit, 122, 123 ... high-voltage power supply circuit, 124, 125 ... low-voltage power supply circuit.

Claims (4)

An assembly having a circuit board, a first connector electrically connected to the circuit board, and a conductive ground contact portion electrically connected to a reference potential line on the circuit board;
A housing having a second connector connected to the first connector and containing the assembly;
The enclosure is electrically connected to a conductive guide rail for guiding the circuit board in該筐body, elastic deformation Te state smell the first connector is connected to the second connector However , a guide rail formed integrally so that a conductive elastic deformation portion that comes into contact with the ground contact portion protrudes from the guide rail in the insertion direction of the circuit board ,
Equipped with,
The grounding contact portion makes contact with the elastic deformation portion when the circuit board is inserted along the guide rail to a position where the connection of the first connector and the second connector is started. Electronic equipment characterized by starting .   The electronic device according to claim 1, wherein the contact portion for grounding has a convex portion.   The contact portion for grounding has a convex portion that comes into contact with the elastic deformation portion on a movement path when the circuit board moves while being guided by the guide rail. 1. The electronic device according to 1. Electrically conductive sheet electrically or physically protect the circuit mounting surface of the circuit board, according to any one of claims 1 to 3, characterized in that it has the grounding contact portion on the sheet Electronic equipment.

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