JP3829395B2 - Electronic circuit connection device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electronic circuit connection device (hereinafter referred to as a rack) for connecting a plurality of electronic circuits and components (hereinafter referred to as cards) having standardized electronic circuit electrical and mechanical interfaces. Called).
[0002]
[Prior art]
FIG. 11 shows a conventional electronic circuit connecting device, wherein 1 is a card, 2 is a card connector, 3 is a housing, 4b is a card holding mechanism, 5b is a backplane holding member, 6b is a backplane rigid board, and 8 is a back. The rack 11 is an electronic circuit connecting device that is a plain connector and includes the backplane connector 8, the housing 3, the card holding mechanism 4b, the backplane holding member 5b, and the backplane rigid board 6b.
[0003]
The electronic circuit in the card 1 transmits and receives electrical signals defined by standards such as IEEE Std 1014 (VMEbus) and IEEE Std 1496 (SBus) to and from other cards 1. Via, it is connected to the backplane rigid board 6b. The card connector 2 and the backplane connector 8 provide an electrical connection between the card 1 and the backplane rigid board 6b and a mechanical connection that allows easy insertion and removal. The backplane rigid board 6b is made of glass epoxy, paper epoxy, paper phenol, which is electrically wired so that the electrical signals defined by the above standards can be shared by a plurality of cards 1 fixed in the rack 11. A backplane made of a substrate (hereinafter referred to as a rigid substrate) made of a material having sufficient mechanical strength. The card 1 is fixed to the housing 3 by a card holding mechanism 4b so that a spatial arrangement (for example, a card interval) conforming to the above standard can be maintained and can be inserted and removed. Further, the backplane rigid board 6b is fixed to the housing 3 by the backplane holding member 5b so as to withstand the force applied when the card is attached / detached.
[0004]
FIG. 12 shows a test state of a conventional electronic circuit connecting device, wherein 1 is a card, 11 is a rack, 12 is an expansion card, 13 is a measuring jig, 14 is a jig connecting device, and 15 is a measuring instrument. is there.
[0005]
When testing / measuring the card 1 using the rack 11 of the conventional apparatus, a measuring jig 13 is attached to the card 1 to change the electrical state of the desired electronic circuit such as voltage, current and voltage or current change. Investigate. The measurement jig 13 is connected to the measurement instrument 15 via a jig connection device 14 that transmits an electrical state by means such as a normal electric wire. Further, in order to facilitate the attachment / detachment of the measurement jig 13 and the arrangement of the jig connection device 14, the extension card 12 is inserted into the rack 11 and the card 1 is attached to the extension card 12 for testing and measurement. There is also. The expansion card 12 is a test card having an electrical wiring for the purpose of extending an electric signal line defined by the above standard and having a connection device for pulling out and fixing the card 1 to the outside of the rack 11. .
[0006]
[Problems to be solved by the invention]
In the process of newly developing the card 1 fixed to the rack 11, when testing whether or not the desired operation can be normally performed, or when a malfunction occurs in the operation, the card 1 is repaired or improved. When testing whether or not to operate, the test is performed with the target card 1 fixed to the rack 11. In particular, in the test to confirm the initial electrical function, it is measured whether each electronic circuit constituting the card 1 is functioning correctly at various locations of the electronic circuit constituting the target card 1. And the main purpose is to confirm. At this time, the measurement jig 13 for testing the operation of the electronic circuit is fixed at various locations on the card 1, and the test is performed using the measuring instrument 15. For this reason, the target card 1 is arranged in a measuring jig 13 and a jig connecting device 14 using an electric wire or other means for connecting the measuring jig 13 to the measuring instrument 15, and is complicated. It becomes a state.
[0007]
In the conventional apparatus, the test is performed in a state where the card 1 is fixed to the rack 11 conforming to the above standard. Since the rack 11 fixes the card 1 at intervals defined by the above standards, it is usually difficult to attach and detach the measuring jig 13 to and from the card 1 while being fixed to the rack 11. For this reason, the procedure of taking out the target card 1, attaching / detaching the measuring jig 13, and fixing it to the rack 11 again is performed. In this case, the attachment / detachment of the card 1 with the measurement jig 13 attached is not only complicated, but the measurement jig 13 is peeled off due to vibration during attachment / detachment, and other circuits on the card 1 are in close proximity. Problems such as short circuit or contact with another adjacent card 1 occur.
[0008]
Further, in the conventional apparatus, an expansion card 12 for extending the electrical connection to the outside of the rack 11 is fixed at a position where the card 1 that is originally the target is fixed, and the target card is attached to the expansion card 12. 1 may be fixed and measures for facilitating the attachment / detachment of the measuring jig 13 may be taken. In this case, once the target card 1 is attached to the expansion card 12, the measuring jig 13 can be easily attached and detached. However, when testing a plurality of cards 1 at the same time, the adjacent cards 1 are also connected to each other. Since the interval is narrow, the above-described problem occurs. In addition, since the extension card 12 is inserted only into the card 1 to be measured, the wiring distance to the backplane rigid board 6b is longer than the other cards 1 that are not attached to the extension card 12, so that the pre-measurement Measurement is performed under conditions different from the electrical characteristics, and accurate measurement cannot be performed.
[0009]
The present invention is an electronic circuit connecting device that easily attaches and detaches a measuring jig at the time of test and measurement, which is troublesome in the conventional device, and keeps the wiring distance between the card and the backplane constant.
[0010]
[Means for Solving the Problems]
An electronic circuit connecting device according to the present invention includes a housing, a plurality of first substrates on which an electronic circuit and a first connector are disposed, a plurality of second substrates on which a second connector is fixed, and each A backplane having a flexible substrate connecting between the adjacent second substrates; a holding mechanism for guiding and holding the first substrate so that the first connector can be coupled to the second connector; A slide mechanism fixed to the housing having means for sliding the holding mechanism in the arrangement direction of the first substrates so as to hold a holding mechanism and to provide a test space between the adjacent substrates. It is equipped with.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Embodiment 1 FIG.
FIG. 1 is a diagram showing Embodiment 1 of the present invention, in which 1 is a card as a first substrate, 2 is a card connector as a first connector, 3 is a housing, and 4 is a card having a guide member. The holding mechanism 5 is a backplane holding mechanism having a rotating shaft, 6 is supported by the backplane holding mechanism 5 and is a rigid substrate as a second substrate, and 7 is a flexible material using a thin heat-resistant plastic film as a base material. A flexible substrate which is a rich substrate, 8 is a backplane connector which is a second connector, 9 is a guide rail, 10 is a fixing screw, and a backplane is formed by connecting adjacent rigid substrates 6 with a flexible substrate 7. Configure.
[0016]
The card 1 is guided by the guide member and attached to the card holding mechanism 4, and is electrically connected to the backplane connector 8 fixed to the backplane holding mechanism 5 via the card connector 2 disposed on the card 1. Connecting. The backplane connector 8 is fixed to the rigid board 6 and maintains electrical connection with other cards 1. The backplane holding mechanism 5 can be rotated in a fan shape along the guide rail 9 by using itself as a rotation axis, and is fixed by tightening a fixing screw 10. By loosening the fixing screw 10 and moving the backplane holding mechanism 5 along the guide rail 9, the card holding mechanism 4 moves in a fan shape while holding the card 1. At this time, the flexible substrate 7 is bent, so that the rotational movement of the backplane holding mechanism 5 is not hindered, and no load is applied to the electric wiring. With the above mechanism, the interval between the cards 1 can be widened while the cards 1 are mounted on the rack, so that the measurement jig can be easily removed in the test and measurement. Even if the backplane holding mechanism 5 is moved, the wiring distance between the cards 1 is always constant.
[0017]
FIG. 2 is a diagram showing the first embodiment of the present invention, and is a top view of the first embodiment shown in FIG. Since the card 1 fixed to the card holding mechanism 4 is moved as shown in FIG. 2, the adjacent cards 1 can be pushed apart, for example, so that the card interval d ₂ can be made wider than the prescribed interval d _1. The test jig 13 can be attached and detached while the card is mounted. At this time, since the connection between the cards 1 is maintained by the flexible substrate 7 and the wiring distance between the card 1 and the backplane is also constant, the test and measurement can be performed without changing the electrical characteristics.
[0018]
Embodiment 2. FIG.
FIG. 3 is a diagram showing a second embodiment of the present invention. The rigid board 6 is connected to the backplane connector 8, and a flexible board 7 connects between the adjacent rigid boards 6 to form a backplane. The backplane connector 8 is fixed to the card holding mechanism 4, the card 1 is guided by the card holding mechanism 4, and the card connector 2 disposed on the card 1 and the backplane connector 8 are coupled to each other. Mechanically connected. Since the flexible substrate 7 bends flexibly, the card holding mechanism 4 follows the guide rail 9 which is a slide mechanism penetrating the housing 3 while maintaining the electrical connection between the cards 1 by loosening the fixing screw 10. You can slide. The card holding mechanism 4 can be fixed by tightening the fixing screw 10, and the entire card 1 can be arranged wider than the card interval defined by the above standard while being fixed to the card holding mechanism 4.
[0019]
4 is a diagram showing a second embodiment of the present invention, and is a top view of the second embodiment shown in FIG. By moving the card holding mechanism 4 along the guide rail 9 as shown in FIG. 4, the card interval can be made wider than the prescribed width while maintaining the electrical connection between the cards 1.
[0020]
Embodiment 3 FIG.
FIG. 5 is a diagram showing a third embodiment of the present invention. The guide rail 9 is fixed to the housing 3, guides the card 1 when the card 1 is mounted, and the card holding mechanism 4 that holds the card slides while grasping the guide rail 9. The card 1 is held by the card holding mechanism 4, and the flexible cable 7a is flexibly bent with the card connector 2 and the backplane connector 8 interposed therebetween, so that the card 1 is electrically connected to the rigid board 6 that is the backplane. Keep. The rigid substrate 6 is fixed to the housing 3 by the backplane holding mechanism 5. Since the card 1 is exposed to the outside of the housing 3 by the card holding mechanism 4 that holds the guide rail 9, both the front and back of the card 1 can be easily tested and measured.
[0021]
6 is a diagram showing the third embodiment of the present invention, and is a top view of the third embodiment shown in FIG. By sliding the card holding mechanism 4 while holding the guide rail 9, the entire card 1 can be exposed outside the housing 3.
[0022]
Embodiment 4 FIG.
FIG. 7 shows a fourth embodiment of the present invention. The backplane connector 8 fixed to the card holding mechanism 4 that guides and holds the card 1 when the card 1 is mounted is electrically connected to the flexible substrate 7. A guide rail 9 extends through the housing 3 along the insertion / extraction direction of the card 1, and the card holding mechanism 4 slides along the guide rail 9 while holding the card 1. The rigid substrate 6 is fixed to the housing 3 by the backplane holding mechanism 5. The flexible board 7 that forms the backplane together with the rigid board 6 is flexibly bent to connect to the card 1, the card connector 2 disposed on the card 1, the backplane connector 8 coupled to the card connector 2, and the backplane connector 8. The card 1 can be exposed outside the housing 3 while maintaining the electrical connection between the flexible substrate 7 and the rigid substrate 6. Thereby, the card 1 can be tested and measured without removing connection cables and jigs with various devices joined to the card 1.
[0023]
8 is a diagram showing the fourth embodiment of the present invention, and is a top view of the fourth embodiment shown in FIG. The card 1 can be moved out of the housing 3 by sliding the card holding mechanism 4 along the guide rail. At this time, the card 1 is kept in electrical connection with the other card 1 by the card connector 2, the backplane connector 8, the flexible substrate 7, and the rigid substrate 6.
[0024]
Embodiment 5 FIG.
FIG. 9 is a diagram showing Embodiment 5 of the present invention. The card 1 is guided and mounted by the guide member of the card holding mechanism 4 and is connected to the backplane connector 8 via the card connector 2 disposed on the card 1. The backplane connector 8 is fixed to the card holding mechanism 4. The rigid substrate 6 is fixed to the housing 3 by the backplane holding mechanism 5. The card holding mechanism 4 includes a rotation mechanism having itself as a rotation axis in the housing 3, and is rotatable so that the card 1 can be exposed outside the housing 3 while holding the card 1. Since the card 1 is connected to the rigid board 6 via the card board 2, the back plane connector 8, and the rigid board 6 through the flexible board 7 constituting the back plane, even if the card holding mechanism 4 rotates, the other card 1 The electrical connection with is maintained. When the card holding mechanism 4 rotates, the flexible substrate 7 is supported by the rotating shaft of the card holding mechanism 4, and therefore can be bent effectively without damaging the flexible substrate 7.
[0025]
10 is a view showing a fifth embodiment of the present invention, and is a top view of FIG. 9 showing the fifth embodiment of the present invention. The card holding mechanism 4 rotates inside the housing 3 while holding the card 1, so that the card 1 can be exposed to the outside of the housing 3 while maintaining electrical connection.
[0026]
【The invention's effect】
According to the present invention, the interval between the first substrates adjacent to each other can be increased without inserting or removing the first substrate, and the interval between the first substrate back (near the first connector) can also be increased. The measurement jig can be easily attached and detached over the entire substrate.
[Brief description of the drawings]
FIG. 1 is a diagram showing a first embodiment of an electronic circuit connecting device according to the present invention.
FIG. 2 is a top view of the electronic circuit connecting device according to the first embodiment of the present invention.
FIG. 3 is a diagram showing a second embodiment of the electronic circuit connecting device according to the present invention.
FIG. 4 is a top view of a second embodiment of the electronic circuit connecting device according to the present invention.
FIG. 5 is a diagram showing a third embodiment of the electronic circuit connecting device according to the present invention.
FIG. 6 is a top view of a third embodiment of the electronic circuit connecting device according to the present invention.
FIG. 7 is a diagram showing a fourth embodiment of the electronic circuit connecting device according to the present invention.
FIG. 8 is a top view of a fourth embodiment of the electronic circuit connecting device according to the present invention.
FIG. 9 is a diagram showing a fifth embodiment of the electronic circuit connecting device according to the present invention.
FIG. 10 is a top view of an electronic circuit connecting device according to a fifth embodiment of the present invention.
FIG. 11 is a diagram showing a conventional electronic circuit connecting device.
FIG. 12 is a diagram showing a test state of a conventional electronic circuit connection device.
[Explanation of symbols]
1 card, 2 card connector, 3 housing, 4 card holding mechanism, 4b card holding mechanism, 5 backplane holding mechanism, 5b backplane holding member, 6 rigid board, 6b backplane rigid board, 7 flexible board, 7a flexible cable, 8 backplane connector, 9 guide rail, 10 fixing screw, 11 rack, 12 extension card, 13 measuring jig, 14 jig connecting device, 15 measuring instrument.

Claims (1)

A housing, a plurality of first substrates on which an electronic circuit and a first connector are disposed, a plurality of second substrates to which a second connector is fixed, and a space between each adjacent second substrate A backplane having a flexible board to be connected; a holding mechanism for guiding and holding the first board so that the first connector can be coupled to the second connector; and holding and holding the holding mechanism adjacent to the first board. An electronic device comprising means for sliding the holding mechanism in the arrangement direction of the first substrates so as to provide a test space between the substrates, and comprising a sliding mechanism fixed in the housing Circuit connection device.

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