JPH0997656A - Test signal connecting structure of adjustment-inspection object board - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide test signal connecting structure capable of reducing attention paid in adjusting-inspection and labor needed and reducing facility cost when a test signal not existing on an interface of an adjustment-inspection object printed board is used for adjustment-inspection. SOLUTION: A connector 3 connected to an adjusting-inspecting device is formed in an inserting contact type. A connector shape 2a to be inserted into the connector 3 is formed at the edge of an adjusting-inspecting object printed board 2. A metal foil terminal pattern 2b is formed on each side of the connector shape 2a in line at terminal pitches of the connector 3. A test signal within the printed board 2 is connected to a metal foil terminal pattern 2b. When adjustment or inspection is performed, the connector 3 is pushed in the inserting side connector shape 2a at the edge of the printed board 2 from a cut out part 1a of a chassis 1, and the test signal is connected.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention provides a connector shape on a board when a signal that is not on the interface of the board to be adjusted / inspected is used for adjustment or inspection, and is connected to an adjustment / inspection apparatus. The present invention relates to a test signal connection structure for a board to be adjusted and inspected, which reduces the facility cost.

[0002]

2. Description of the Related Art In an apparatus having an electronic circuit such as a micro floppy disk drive (hereinafter referred to as MFDD), when adjustment or inspection is performed, in addition to a signal on the interface with the outside, a printed circuit board (not on the interface) It is often necessary to use signals inside the printed wiring board) as test signals.

Conventionally, when a signal not on such an interface is used for adjustment or inspection, a test land is provided on one side of a printed circuit board of an apparatus to be adjusted and inspected, and a test signal required for this test land is provided. , A jig having a spring-loaded probe, etc., that is arranged to correspond to the placement of the test land, is prepared on the adjustment or inspection device side, and the spring-loaded probe is pressed against the test land to electrically The contact was made and the test signal was taken out.

FIG. 3 is an external view for explaining the structure of such a conventional jig, and FIG. 4 is a side view of the jig. The jig is composed of a fixture section 101 and a fixed base 102. The MFDD 103 is mounted and positioned on the fixed base 102, and the fixture unit 101 is mounted on the fixed base 1 from above.
It is positioned and fixed at 02. Fixture section 10
1, a plurality of spring-loaded probes 104 are attached to the MFDD 103.
Test land 1 placed on the upper surface of printed circuit board 105
A probe substrate 106 arranged in accordance with 05a is provided. The fixture portion 101 below the probe board 106 is opened, and the spring-loaded probe 104 is pressed against one side of the test land 105a of the printed board 105 to make electrical contact. Therefore, when mounting the MFDD 103 on the fixed base 102, a part of the chassis (for example, an upper cover) located on one surface of the printed circuit board 105 is removed or the part of the chassis is opened beforehand. Keep it.

The test signal in the printed circuit board 105 taken out by the probe with spring 104 is individually connected to the terminal 107 on the fixture section 101 and then connected to the inspection board 108 by the clip 109 or the like. Also, MF
The external interface of the DD 103 is connected to the interface board 110 with a flat cable or the like, and is connected to the inspection board 108 through the interface board 110. A computer 111 or the like may be used instead of the inspection board 108.

[0006]

However, the conventional test signal connection structure in the adjustment / inspection using the jig as described above has the following problems.

(1) Due to the connection structure, the test lands are gathered by using through holes or the like on one side of the printed circuit board, so that the cost of a single board increases when using both sides and a multilayer board.

(2) Since a jig having a spring-loaded probe having a precise structure is used, the jig (equipment) cost is also high.

(3) As shown in the side view of FIG. 4, the contact pressure of the spring-loaded probe 104 may bend the printed circuit board 105 or the chassis of the MFDD 103, resulting in poor adjustment or defective inspection. It was necessary to take measures that would increase the cost of equipment, and to take due care when installing adjustments and inspections.

(4) In order to bring the jig into contact with one side of the printed circuit board, one side must be opened, so it is necessary to disassemble a part of the chassis for adjustment and inspection.
The disassembling and reassembling work was necessary. Further, if the chassis portion (or the upper cover) located on one side of the printed circuit board is opened to avoid the trouble, there is a problem that the protective function of the printed circuit board is impaired.

The present invention has been made to solve the above problems, and an object thereof is to use a signal which is not on the interface of a printed circuit board to be adjusted / inspected as a test signal in adjustment or inspection. In case of adjustment
An object of the present invention is to provide a test signal connection structure for an adjustment / inspection target board, which can reduce the attention and time and labor to be paid at the time of installation of inspection, and can keep the equipment cost low.

[0012]

In order to achieve the above object, the present invention provides a connection structure for connecting a test signal in a printed wiring board to be adjusted or inspected to a device for adjustment or inspection. An insertion side connector shape is formed by arranging a contact pattern for the insertion contact type connector on the device side for adjustment or inspection on one side or both sides of the board on the edge of the printed wiring board, and the contact pattern of the insertion side connector shape is formed. Means is provided for connecting a test signal in the printed wiring board to a test signal connecting structure of an adjustment / inspection target board.

Further, in the above-mentioned structure, the chassis for accommodating the printed wiring board to be adjusted or inspected has the adjustment position at the edge of the printed wiring board to be adjusted or inspected at the connecting position of the insertion contact type connector on the inspection device side. There is a notch near the insertion side connector shape of the printed wiring board so that the protection function of the chassis is not impaired, or a part of the chassis is adjusted during adjustment / inspection. It is suitable for saving the trouble of removing and reassembling.

Further, in the above construction, it is assumed that the insertion contact type connector on the adjustment or inspection device side is connected to the adjustment or inspection device using a flexible connection line. Alternatively, it is preferable to eliminate the need to fix the device to be inspected to a jig or the like, to reduce the cost of the inspection equipment, or to save the trouble of adjusting or fixing the device to be inspected.

In the present invention, the insertion side connector shape in which the contact patterns for the insertion contact type connector are arranged on the board is formed on the edge of the printed wiring board, and the adjustment is made to this insertion side connector shape when performing the adjustment or inspection. Alternatively, by pushing the plug-in contact type connector on the device side for inspection from the edge of the board to connect, there is no need to press the surface of the board, avoiding the occurrence of deformation of the board or chassis, and causing the deformation. It eliminates the possibility of misalignment and inspection. At the same time, it eliminates the need to use expensive parts such as probes with springs, eliminates the need for a mechanism for positioning the jig and the printed wiring board, and allows equipment for adjustment and inspection to be inexpensively constructed. . In addition, by providing contact patterns on both sides of this insertion-side connector shape, it is possible to increase the opportunity to connect test signals for adjustment or inspection in the printed wiring board on each surface without using through holes, etc. Reduces the cost of a single board.

[0016]

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

FIG. 1 shows the structure of the essential parts of an embodiment of the present invention.

The chassis 1 accommodates the MFDD, and also accommodates the printed circuit board 2 constituting the MFDD. The connector 3 is crimped to the tip of the flexible flat cable 4 and is connected to an adjustment or inspection device (not shown). The connector 3 is a plug-and-contact type, in which a conductor is sandwiched between a pair of connector terminals arranged on both sides to electrically contact with each other by the contact pressure. The conductor is a terminal pattern 2b made of metal foil (for example, a copper foil of a base plated with rhodium or gold) on both sides of the insertion-side connector shape 2a formed on the edge of the printed board 2. The connector shape 2 a is formed in a convex shape on the edge of the printed circuit board 2 with a width and a depth that can be inserted into the insertion opening of the plug-in contact type connector 3.
The metal foil terminal pattern 2b has a plug-in contact type connector 3
Are formed on one or both sides of the insertion-side connector shape 2a according to the pitch of the connector terminals, and the test signals to be adjusted or inspected in the printed board 2 are connected to these metal foil terminal patterns 2b.

In the above structure, the chassis 1 for accommodating the printed circuit board 2 and the like is in a position where the plug-in contact type connector 3 can be coupled from the outside of the chassis 1 with the printed circuit board 2 accommodated. The vicinity (1a portion) of the insertion side connector shape 2a is cut out. By doing so, it is possible to save the trouble of removing or reassembling a part of the chassis 1 at the time of adjustment / inspection. Moreover, since the notch 1a is near the edge of the printed circuit board 2, the function of the chassis 1 for protecting the component mounting surface of the printed circuit board 2 is not impaired.

FIG. 2 shows an application example of the present invention. This application example is an example when applied to MFDD. In this example, the chassis 1 is divided into a plurality of parts including a chassis base body 1b, side plates 1c and 1d, and a cover 1e. An MFDD rotation mechanism, a slider 10, and the like are attached to the chassis base 1, and the printed circuit board 2, the head carriage 5, the head carriage guide bar 6, the guide bar support member 7, the head drive motor 8, and the track zero zero sensor 9 are also provided. Head control and drive mechanism etc. are attached. Side plates 1c and 1d are attached to the chassis base 1. The side plates 1c and 1d and the slider 10 are attached.
A disc cassette holder 11 is swingably attached to the side plate, and a disc cassette insertion port door 12 is attached to the side plates 1c and 1d via a spring 13 so as to be able to return after the disc cassette is inserted. Further, the eject motors 14 of the mounted disk cassettes are attached to the chassis base 1, and after these are attached, the cover 1e is attached to the chassis base 1.

The connector shape 2a at the edge of the printed circuit board 2 shown in FIG. 1 is provided adjacent to the interface connector 2c, for example. Alternatively, connector shape 2
It may be provided at the edge close to the side plate 1c like a '. In the arrangement of the connector shape 2a, the notch 1a shown in FIG. 1 is provided in the cover 1e. Alternatively, in the arrangement of the connector shape 2a ', the cutout 1 shown in FIG.
a is provided.

The operation of the above embodiment of the present invention will be described.

In the present embodiment, the metal foil terminal pattern 2b for the insertion contact type connector 3 on the adjustment or inspection device side is provided on the printed circuit board 2 at the edge of the printed circuit board 2.
Since the insertion-side connector shape 2a aligned on both surfaces of the insertion-side connector shape 2a is formed, the metal foil terminal pattern 2b of the insertion-side connector shape 2a contains a test signal for adjustment or inspection in the printed circuit board 2, and the test signal exists. It is possible to increase the number of opportunities for connection on the surface where it is connected, reduce through holes and the like, and suppress an increase in cost of a single substrate. When most of the necessary test signals are present on one side of the printed circuit board, it goes without saying that the metal foil terminal pattern may be provided only on that one side.

When the adjustment or inspection is performed, the insertion-contact type connector 3 on the adjustment or inspection device side is pushed into the insertion-side connector shape 2a from the edge of the printed board 2 for connection. Therefore, the surface of the printed circuit board 2 is not pressed by the contact pressure of the spring-loaded probe as in the conventional case, the deformation of the printed circuit board 2 and the chassis 1 can be avoided, and the adjustment caused by the deformation can be avoided. There is no possibility of defects or inspection defects. At the same time, since it is not necessary to use expensive parts such as a probe with a spring, a mechanism for positioning the jig and the printed circuit board 2 is not necessary, and the equipment for adjustment / inspection can be constructed at low cost.

When the printed circuit board 2 is adjusted or connected to the inspection device, a flexible flat cable 4 is used as shown in FIG. By connecting to the adjustment or inspection device using such a flexible connection line, there is no need to fix the adjustment or inspection device to a jig or the like, and the inspection equipment can be made inexpensive, or the adjustment or inspection device can be fixed. Can be omitted.

[0026]

As is apparent from the above description, according to the present invention, when the adjustment or inspection is performed by forming the insertion side connector shape in which the contact pattern for the insertion contact type connector is arranged on the edge of the printed wiring board. Adjusts to this insertion side connector shape or pushes the insertion contact type connector on the device side for inspection from the edge of the board for connection, so there is no need to press the surface of the board,
It is possible to avoid the occurrence of deformation of the board or chassis and eliminate the possibility of misalignment or inspection failure due to the deformation. At the same time, there is no need to use expensive parts such as a probe with a spring, a mechanism for positioning the jig and the printed wiring board is not necessary, and equipment for adjustment / inspection can be constructed at low cost. Further, when the contact patterns for the plug-in contact type connectors are arranged on both sides of the edge of the printed wiring board, in particular, the test signals for adjustment or inspection in the printed wiring board are applied to the contact pattern of the insertion side connector shape. Since it is possible to increase the chances of connection on the surface in which the substrate exists, it is possible to suppress an increase in the cost of a single substrate.

In addition, the vicinity of the insertion side connector shape of the printed wiring board is cut out so that the insertion contact type connector of the adjustment or inspection side of the device can be coupled to the chassis that accommodates the printed wiring board to be adjusted or inspected. In this case, in particular, it is possible to save the trouble of removing or reassembling a part of the chassis at the time of adjustment / inspection without impairing the protection function of the chassis.

Further, when the plug-in contact type connector on the device side for adjustment or inspection is connected to the device for adjustment or inspection by using a flexible connection line, especially the device to be adjusted or inspected Does not need to be fixed to a jig etc., and the inspection equipment can be made inexpensive,
Alternatively, it is possible to save the trouble of adjusting or fixing the device to be inspected.

[Brief description of drawings]

FIG. 1 is a perspective view of an essential part showing a first embodiment of the present invention.

FIG. 2 is an exploded perspective view showing an application example of the present invention.

FIG. 3 is an external view illustrating a conventional technique.

FIG. 4 is a side view illustrating a problem of the conventional technique.

[Explanation of symbols]

 1 ... Chassis 1a ... Notch 2 ... Printed circuit board 2a ... Insertion side connector shape 2b ... Metal foil terminal pattern 3 ... Adjustment or inspection device side connector 4 ... Flexible flat cable

Claims (3)

[Claims] 1. A connection structure for connecting a test signal in a printed wiring board to be adjusted or inspected to a device for adjustment or inspection, wherein the device side for adjustment or inspection is provided at an edge of the printed wiring board. The insertion side connector shape is formed by arranging the contact patterns for the plug-in contact type connector on one side or both sides of the board, and the test signal in the printed wiring board is connected to the contact pattern of the insertion side connector shape. Adjustment
Test signal connection structure of the inspection target board. 2. A chassis for accommodating a printed wiring board to be adjusted or inspected, wherein the printed wiring board at the edge of the printed wiring board to be adjusted or inspected is the connecting position of the insertion contact type connector on the adjustment or inspection device side. 2. The test signal connection structure for a substrate to be adjusted / inspected according to claim 1, wherein the vicinity of the insertion side connector shape of the substrate is cut out. 3. The adjustment / inspection device according to claim 1, wherein the plug-in contact type connector on the adjustment or inspection device side is connected to the adjustment or inspection device by using a flexible connection line. Test signal connection structure of the inspection target board.