JPH0548591B2 - - Google Patents

Description

Detailed Description of the Invention (Industrial Application Field) The present invention relates to an interface bus cable device, and particularly to a connector including a plug or receptacle at the end of a multicore cable in which a plurality of core wires are covered with a shield braid. The present invention relates to a bus cable device for an interface, such as one used for connecting an interface of a personal computer.

(Prior Art) Generally, a computer is configured so that a plurality of terminal devices such as line printers and floppy disks can be added to the computer, and the computer and the terminal devices are connected by a bus cable assembly. by the way,
Recently, computers have come to be used not only in the field of measuring instruments but also in a wide range of fields. In particular, personal computers are increasingly being brought into homes for personal use. However, when a personal computer is brought into the home, it may cause interference with radio receivers, television receivers, etc. This is a logic signal used in a computer or e.g.
This is because harmonic components of the 4MHz clock signal leak outside and enter television receivers. To prevent this, computers or terminals are shielded, and cables used in bus cable assemblies are also shielded with a shield braid. However, although the end of the bus cable assembly is connected to a connector, no safety measures have been taken at the connecting portion of the connector.

The applicant of the present application has focused on such problems and conducted experiments regarding leakage at the connector connection portion of the bus cable assembly, and the results will be described below.

FIG. 1 is an external view showing the main parts of a bus cable assembly, which is the background of this invention. In particular, FIG. 1a shows a front view, and FIG. A partially cutaway plan view is shown. In the figure, a multicore cable 1 has, for example, 24 core wires 11.
, a shield braid 12 that covers this, and a covering 13 that covers this shield braid 12. The outer periphery of the coating 13 at the end of the multicore cable 1 is provided to prevent the multicore cable 1 introduced from the cable introduction port 35 provided at the tail end of the connector cover 32 of the connector 3 from detaching from the connector 3. Clamp metal 19 consisting of two metal plates of the same shape bent into a substantially U-shape is attached by screwing to each other. The connector 3 has a plurality of contacts 31 of a plug or receptacle.
, a metal contact cover 33 surrounding this contact 31, and a contact cover 33.
, and two connector covers 32 of the same shape, one on the front and the other on the back, which are fixed together with screws. A locking groove 36 for locking the clamp fitting 19 is provided on the inner surface of the connector cover 32.

The core wires 11 of the multicore cable 1 are individually connected to each contact 31 of the connector 3. Note that the shield braid 12 is connected to one of the contacts 31 by a drain wire 14.

FIG. 2 is a diagram for explaining the measurement method for measuring the stiffness characteristics of the bus cable assembly shown in FIG. 1, and FIG. 3 is a diagram showing the stiffness characteristics as a measurement result. .

First, with reference to Figure 2, place a wire of 0.813 mm, for example, at a height of about 15 mm from the ground copper plate (not shown).
A guide line L ₁ made of 20 AWG annealed copper wire with a diameter of φ and the bus cable assembly shown in FIG. 1 are arranged in parallel with a distance of 20 mm from each other. One end of the guiding line L ₁ is connected to the signal generator SG via a resistor R ₁ from 0 to 0.
Gives a 200MHz signal. The other end of this guide line L ₁ is grounded via a resistor R ₂ of, for example, 50 ohms.

On the other hand, a voltmeter LM is connected to the contact 31 of the connector 3 connected to one end of the bus cable assembly through a 50 ohm resistor R ₃ , and the contact 31 of the connector 3 at the other end is connected to the 50 ohm resistor R ₄
Ground through. In addition, the shield braid 1 at both ends
The contact to which 2 is connected is grounded.

In the measurement circuit configured as described above, when a signal of 0 to 200 MHz with a voltage V ₁ is applied from the signal generator SG to the inductive line L ₁ , the multicore cable 1
Since the multi-core cable 1 is shielded by the shield braid 12, there will be no leakage in the multi-core cable 1 itself. However, the connector 2 shown in FIG.
Since no protection measures have been taken at the connection between the cable and the multi-core cable 1, leakage will occur in this area and the voltage _V2 will be displayed on the voltmeter LM. this voltage
Using V ₁ and V ₂ , calculate the shielding effect using the following equation.

Shiyahei effect = 20σgV ₂ /V ₁ [dB] Based on the above formula, calculate each shiyahei effect in the signal from 0 to 200 MHz. Then, as shown by the dotted line a in FIG. 3, for example, in the vicinity of 120 MHz, only a suppression effect of about 30 dB can be obtained. In other words, if a harmonic component due to a clock signal or logic signal near 120 MHz flows through the bus cable assembly shown in Figure 1, the high frequency component leaks to the outside and is transmitted to, for example, a radio.
This can cause interference with FM receivers, television receivers, etc.

(Problems to be Solved by the Invention) Therefore, the main object of the present invention is to provide an interface cable device in which a plurality of contacts of a plug of a connector or a receptacle are connected to a multicore cable. It is an object of the present invention to provide a bus cable device for an interface, which takes measures against stiffness at the connecting portion of a plurality of contacts of a plug of a connector or a receptacle.

(Means for Solving the Problem) To summarize the present invention, electrical connection is made by soldering to a contactor cover that surrounds the connection portion between each core wire of a multicore cable and a plurality of contacts, and surrounds the periphery of the plurality of contacts. A shielding member made of a thin metal wire braided into a tape or a conductive cloth is provided so as to be connected to the shield braid of the multicore cable. In addition to enhancing the shielding effect, the connecting portion is configured to be protected by a glass tape provided between the connecting portion and the shielding member.

(Embodiments) The above-mentioned objects and other objects and features of the present invention will become more apparent from the detailed description given below with reference to the drawings.

FIG. 4 is an external view showing the main parts of a bus cable assembly according to an embodiment of the present invention, in particular, FIG. 4a shows a front view, and FIG. 4b shows a line bb in FIG. 4a. A partially cutaway plan view is shown. Further, FIG. 5 shows a plan view of a shielding member used in an embodiment of the present invention.

In FIG. 4, a bus cable assembly consisting of a multicore cable 1 and a connector 3 is constructed in the same manner as in FIG. Note that a ring-shaped elastic body 37 made of plastic as a buffer member for supporting the clamp fitting 19 is provided inside the locking groove 36 provided on the inner surface of the connector cover 32.
Providing this elastic body 37 eliminates rattling of the clamp fitting 19 due to the gap existing between the clamp fitting 19 and the connector cover 32, and even if the multi-core cable 1 is twisted, each core wire 11 and the contact 31 are Force is no longer applied to the connection part, preventing poor contact or disconnection from occurring at the connection part.

A cable assembly configured as shown in Fig. 1, which surrounds the connection portion between each core wire of the multicore cable 1 and the plurality of contacts, and electrically contacts the contact cover that surrounds the plurality of contacts. The member 7 may be made by knitting thin metal wires and processing them into a tape shape, or by making a plurality of longitudinal cuts in a metal tape and stretching the tape in the width direction to form a mesh sheet. A conductive cloth-like material, so-called "expanded metal", is used. In addition, since a cloth-like body is used, various shapes and sizes of the connecting portion can be easily accommodated, and workability during shielding work is extremely good.

Next, a method of attaching the shield member 7 made of expanded metal to the connector 3 will be explained. First, each core wire 11 of the multicore cable 1 is connected to each contact 31 of the plug of the connector 3 shown in FIG.
Connect by soldering etc. The connecting portion where each core wire is connected is protected by surrounding it with an adhesive glass tape 8. Next, this glass tape 8
The shearing member 7 is attached so that the connecting portion between the core wire 11 of the multicore cable protected by the above-mentioned cable and the contact 31 is surrounded by an expanded metal made of copper or the like with a notch 71 shown in FIG. At this time, the shielding member 7 is brought into contact with a part of the contact cover 33 and soldered there. At this time, the connection part is protected with glass tape 8, so
The heat of the solder will not melt the core wire insulation and cause insulation defects. Furthermore, on the multi-core cable 1 side of the flexible member 7, the shield braid 12 of the multi-core cable 1 is sandwiched and bound with a binding wire 72 made of copper or the like, and the expanded metal as the flexible member 7 is electrically connected to the shield braid 12. Connect to.

As a result, contact 31 and multicore cable 1
The connecting portion with each core wire 11 is covered with a flexible member 7, and the contact cover 33 and the flexible member 7 are covered with a flexible member 7.
electrically connected to. Furthermore, the rigid member 7
A connector cover 32 made of synthetic resin such as vinyl and having the same shape on the front and back is fixed together with screws so as to cover the whole.

When the flexibility characteristics of the bus cable assembly constructed as described above were measured using the measurement circuit shown in FIG. 2, the results were as shown in experiment b shown in FIG. 3.
In other words, as is clear from Figure 3, 120MHz
At the following frequencies, there was almost no leakage, which was at the measurement limit of experiment c shown in FIG. and 130M
It was possible to ensure that only a slight leakage of about 60 dB occurs in the vicinity of Hz.

In addition, the shield braid 12 of the multi-core cable 1 is
If you add more weight, you can further enhance the soothing effect.

In the above-mentioned embodiment, the stiffening member 7 is constructed using a tape made of woven copper wire, but the material is not limited to this, and metal tape, acrylic, polyester, nylon, polypropylene can be used. Cover the connection part with metal plating cloth, which is made by plating metal such as copper, silver, or nickel by chemical plating, electroplating, vacuum evaporation, metal spraying, ion floating, sputtering, etc. on woven or non-woven fabric such as shield braid 1
A similar effect can be obtained by soldering or binding to 2 with a copper wire.

(Effects) As described above, according to the present invention, each core wire of a multicore cable is soldered to a metal contact cover that surrounds the connection portion between each core wire of a multicore cable and a plurality of contacts of a connector plug or receptacle, and covers the contacts. By providing a shielding member for electrical contact with the connector and connecting the shielding member to the shield braid of the multicore cable, leakage at the connecting portion of the connector can be prevented. Furthermore, since the connection part is protected by glass tape, the heat generated during soldering between the shielding member and the contact cover melts the insulation of the core wire, thereby preventing insulation defects and cross-wires. This can be reliably prevented and a stable product can be obtained. In addition, when the shielding member is made of metal such as metal tape or expanded metal, the connection part is protected with glass tape, so there is no risk of insulation caused by direct contact between the metal and the insulation of the core wire. Insulation defects due to scratches and flatness can be prevented.

[Brief explanation of the drawing]

FIG. 1 is an external view of the main parts of a bus cable assembly, which is the background of this invention. FIG. 2 is a diagram for explaining a measuring method for measuring the stiffness characteristics of the bus cable assembly shown in FIG. 1. FIG. 3 is a diagram showing the shrinkage characteristics of a conventional bus cable assembly and an embodiment of the present invention. FIG. 4 is an external view of a main part of an embodiment of the present invention, and FIG. 5 is a plan view of the same shield member. In the figure, 1 is a multicore cable, 11 is a core wire,
12 is a shield braid, 3 is a connector, 31 is a contact, 32 is a connector cover, 33 is a contact cover, and 7 is a stiffening member.

Claims (1)

[Scope of Claims] 1. A multicore cable in which a plurality of core wires are covered with a shield braid, a plurality of contacts of a plug or receptacle connected to each core wire of the multicore cable, and surroundings of the plurality of contacts. a connector including a contact cover; and a shield braid of the multicore cable, which is provided to surround a connecting portion between each core wire of the multicore cable and a plurality of contacts and to be electrically connected to the contact cover by soldering. a shielding member made of a tape-shaped material made of woven thin metal wires or a conductive cloth, which is connected to the connecting portion and the shielding member; A bus cable device for an interface, characterized in that a glass tape is provided, and the connection portion is protected by the glass tape.