JPH05259603A - Supporting member for printed wiring board and method of stacking printed wiring board - Google Patents

Abstract

PURPOSE:To make it possible to eliminate restrictions on a mounting place to a chassis and mount electrical parts on a printed wiring board flexibly to a certain degree, by using supporting members for printed wiring board formed as a shaft-shaped support. CONSTITUTION:Printed wiring boards 1 and 2 are stacked and arranged at predetermined intervals with a pair of supporting members 4 and 5 for printed wiring board whose one end is screwed on a chassis 3. The supporting members 4 and 5 are integrally formed as a supporting rod 12 shaped like a hexagonal- socket-head bolt. A male screw for screwing on the chassis 3 is formed on one end of the supporting member 4 for printed wiring board. The other end 9 of the supporting member 4 for printed wiring board is formed as a disk flange, and one printed wiring board 1 is arranged on the top face having a flat surface. Also, a step 13 for arranging the other printed wiring board 2 is formed on the supporting rod 12 having a sectional circle of the supporting member 4 for printed wiring board.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a printed wiring board supporting member for laminating a plurality of printed wiring boards at predetermined intervals and a method for laminating printed wiring boards.

[0002]

2. Description of the Related Art In a mechanical deck such as a cassette tape recorder, a plurality of printed wiring boards are arranged. Such printed wiring boards are generally laminated and arranged at a predetermined interval so as to face each other in order to prevent the outer dimensions of the mechanical deck from increasing.

In order to stack the plurality of printed wiring boards, for example, sheet metal parts bent and formed by press working are screwed to the chassis, and the printed wiring boards are arranged at respective mounting portions provided on the sheet metal parts. ..

By the way, when the printed wiring boards are laminated by the sheet metal parts, the sheet metal parts are required to have sufficient strength to sufficiently support the printed circuit boards, and the sheet metal parts are required to have a certain surface area. As a result, the portion where the sheet metal component is provided becomes a dead space, the place where the sheet metal component is attached to the chassis is restricted, and the arrangement of the electrical components mounted on the printed wiring board is also restricted. Further, since the sheet metal part requires a hole forming operation for forming a mounting hole for the chassis or the printed wiring board after being formed by press working, there is a drawback that the number of man-hours is high and the part cost is high.

[0005]

SUMMARY OF THE INVENTION The present invention has been proposed in view of the above-mentioned conventional technical circumstances, and there is no restriction on the mounting location, and the electric component is mounted on the printed wiring board. It is an object of the present invention to provide a printed wiring board supporting member that does not restrict the placement of the printed wiring board. A further object of the present invention is to provide a method for laminating printed wiring boards, which allows the printed wiring boards to be easily laminated.

[0006]

In order to achieve the above-mentioned object, the present invention provides a printed wiring board supporting member in which a plurality of printed wiring boards are stacked and arranged at a predetermined interval. A stepped portion provided by screwing one end of a shaft-shaped support member to a member to be attached, disposing a printed wiring board at the other end, and providing at least one place between the one end and the other end of the support The printed wiring board is arranged on the board.

On the other hand, in the method for laminating printed wiring boards according to the present invention, the printed wiring boards are arranged at the step portion and the other end portion of the printed wiring board supporting member according to claim 1, and the printed wiring boards are predetermined. It is characterized in that the layers are arranged at intervals.

[0008]

The printed wiring board supporting member according to the present invention, in which a plurality of printed wiring boards are laminated and arranged at a predetermined interval,
Since the shaft-like support is used, the surface area is very small compared to the sheet metal parts, and there is no restriction on the place of attachment to the chassis. Further, similarly, restrictions on the arrangement of electric components mounted on the printed wiring board are alleviated.

On the other hand, in the method of the present invention, when a plurality of printed wiring boards are stacked and arranged at a predetermined interval, only one end of the shaft-shaped support is screwed to the chassis, and the support is supported. The printed wiring board is arranged at the step portion provided in the middle part. By mounting a printed wiring board on the upper end of the support, the plurality of printed wiring boards can be easily stacked at predetermined intervals in the height direction.

[0010]

EXAMPLES Specific examples of a printed wiring board supporting member and a method for laminating printed wiring boards according to the present invention will be described in detail below with reference to the drawings. In addition,
In this embodiment, an example will be described in which two printed wiring boards are laminated by a pair of printed wiring board supporting members.

As shown in FIGS. 1 and 2, these printed wiring boards 1 and 2 are laminated and arranged at a predetermined interval by a pair of printed wiring board supporting members 4 and 5 whose one end is screwed to the chassis 3. ing.

The printed wiring boards 1 and 2 have desired wiring patterns 6 and 7 obtained by removing unnecessary portions by etching or the like from a copper clad laminate in which a thin copper foil is attached to a substrate material.
Is formed. On the surface of the printed wiring boards 1 and 2 opposite to the surface on which the wiring patterns 6 and 7 are formed, there are resistors, capacitors, coils, transistors, ICs, LSIs and switches required for the mechanical deck (all not shown). Electrical components are mounted.

The printed wiring board supporting members 4 and 5 are
For example, it is integrally formed by a header process (forging process) as an axial support such as a so-called hexagon socket head cap bolt. In this embodiment, only one printed wiring board supporting member 4 will be described with reference to FIG. A male screw to be screwed to the chassis 3 is formed on one end portion 8 of the printed wiring board supporting member 4. This male screw is not formed by tap processing, but formed by header processing. In this embodiment, the male screw is an M3 screw.

On the other hand, the other end portion 9 of the printed wiring board supporting member 4 is formed as a disk-shaped flange, and one printed wiring board 1 is arranged on the upper end surface 9a which is a flat surface thereof. .. A cross hole 10 for screwing the printed wiring board supporting member 4 to the chassis 3 with a Phillips screwdriver or for removing the printed wiring board supporting member 4 from the chassis 3 is provided on the upper end surface 9a. There is. Further, at the center of the cross hole 10, a female screw 11 for fixing the printed wiring board 1 arranged on the upper end surface 9a of the other end 9 is provided. In the case where the female screw 11 is loosened by utilizing the torque difference at the time of tightening by making the screw diameter different from the male screw that is the mounting screw to the chassis 3 above. Printed wiring board support member 4
The M2.6 screw was used to prevent rotation of the.

Further, a stepped portion 13 for arranging the other printed wiring board 2 is provided on the support body 12 of the printed wiring board supporting member 4 which has a circular cross-section and has an axial shape. The stepped portion 13 is formed by making the outer diameter of the support 12 different from each other, and is provided at a substantially central portion between the one end portion 8 and the other end portion 9. The step portion 13 is formed to have at least a surface area sufficient to stably arrange the printed wiring board 2.

As described above, in the printed wiring board supporting members 4 and 5 of this embodiment, the male screw provided at the one end portion 8, the other end portion 9 serving as the flange, and the step portion 13 are integrally formed by the header processing. Since it is formed in a uniform manner, it is possible to significantly reduce the component cost as compared with the conventional sheet metal component. Further, the work of attaching the printed wiring board supporting members 4 and 5 can be easily attached to the chassis 3 by screwing the printed wiring board supporting members 4 and 5 themselves, so that the workability is extremely good.

By the way, in order to arrange the two printed wiring boards 1 and 2 on the chassis 3 with a predetermined interval by using the pair of printed wiring board supporting members 4 and 5, the following steps are carried out. To do. First, a cylindrical substrate support member 16, 17 formed by outsert molding on a portion corresponding to the mounting screw portions 14, 15 provided on the chassis 3.
One printed wiring board 2 is arranged on the upper end surface of the.

Next, the printed wiring board supporting members 4 and 5 are inserted into the circular mounting holes 18 and 19 formed in the printed wiring board 2, and the centering holes 16a and 17a of the board supporting members 16 and 17 are used to insert the printed wiring board supporting members 4 and 5. Male screws provided on the one end portions 8, 8 of the printed wiring board supporting members 4, 5 are tightened to the mounting screw portions 14, 15. As a result, the step portions 13 provided on the printed wiring board supporting members 4 and 5,
The printed wiring board 2 is supported by surface contact between 13 and the peripheral portions of the openings of the mounting holes 18 and 19 of the printed wiring board 2.

Next, the printed wiring board supporting member 4,
The other printed wiring board 1 is arranged on the upper end surface 9 a of the other end portion 9 of the wiring board 5. When arranging the printed wiring board 1 at the other end portion 9, the mounting holes 20 and 21 formed in the printed wiring board 1 and the other end portions 9 of the printed wiring board supporting members 4 and 5 are provided. The internal threads 11 are made to face each other.

Next, machine screws 22 and 23 are inserted into the mounting holes 20 and 21, and the machine screws 22 and 23 are attached to the other end 9
It is screwed into the female screw 11 provided on the. As a result, the other printed wiring board 1 is laminated on the other end portions 9 of the printed wiring board supporting members 4 and 5 at a predetermined distance from the preceding printed wiring board 2.

As described above, in this embodiment, since the printed wiring board supporting members 4 and 5 formed as axial supports are used for stacking the printed wiring boards 1 and 2, the conventional sheet metal is used. Its surface area is very small compared to the parts. Therefore, the place of attachment to the chassis can be decided to some extent, and the conventional severe restrictions are not imposed. Similarly, the arrangement of the electric components mounted on the printed wiring board can be set relatively freely, and the arrangement is not restricted. Further, since the printed wiring board supporting members 4 and 5 can be attached to the chassis 3 by screwing, workability is extremely good, and automatic assembly using a robot or the like is possible.

In the above embodiment, the step portion 1 is provided between the one end portion 8 and the other end portion 9 of the printed wiring board supporting members 4 and 5.
An example in which two printed wiring boards 1 and 2 are stacked and arranged by providing 3 in one place has been described above.
If a plurality of stepped portions 13 are provided in, three or more printed wiring boards 1 and 2 can be stacked and arranged.

[0023]

As is apparent from the above description, the printed wiring board supporting member serving as an axial support is used to stack and arrange a plurality of printed wiring boards at a predetermined interval. Because of its small surface area, there are no restrictions on where it can be attached to the chassis. Further, there is no restriction on the arrangement of the electric components mounted on the printed wiring board, and the electric components can be mounted on the printed wiring board to some extent.

On the other hand, in the method of the present invention, one printed wiring board is arranged at the stepped portion provided at the middle of the printed wiring board supporting member in which one end of the shaft-shaped support is screwed to the chassis. Further, only by disposing the other printed wiring board on the upper end portion of the support, it is possible to easily stack the plurality of printed wiring boards at predetermined intervals.

[Brief description of drawings]

FIG. 1 is a perspective view showing an example in which two printed wiring boards are laminated and arranged at a predetermined interval by a pair of printed wiring board supporting members.

FIG. 2 is a cross-sectional view showing an example in which two printed wiring boards are laminated and arranged at a predetermined interval by a pair of printed wiring board supporting members.

FIG. 3 is a perspective view showing an example of a printed wiring board supporting member.

[Explanation of symbols]

 1, 2 ... Printed wiring board 3 ... Chassis 4, 5 ... Printed wiring board supporting member 6, 7 ... Wiring pattern 8 ... One end portion 9 ... Other end portion 11 ... Female screw 12 ... Support 13 ... Step

Claims (2)

[Claims] 1. A printed wiring board support member in which a plurality of printed wiring boards are stacked and arranged at a predetermined interval, wherein the printed wiring board support member has one end of a shaft-shaped support member screwed to a mounted member. Then, the printed wiring board is arranged at the other end, and the printed wiring board is arranged at a step provided at least at one place between the one end and the other end of the support body. .. 2. The printed wiring board according to claim 1, wherein the printed wiring boards are respectively arranged at the step portion and the other end portion, and the printed wiring boards are laminated at a predetermined interval. Method of stacking printed wiring boards.