JPH0218813A - Twisted pair wire flat cable with shield and cut position detector therefor - Google Patents

Abstract

PURPOSE:To economically reduce noise through a cable by energizing a twisted pair wire with a shield, and detecting change in electric fields of twisted portions and non-twisted portions so as to determine positions to be cut. CONSTITUTION:A twisted pair wire flat cable 16 with a shield is provided which is so constituted that plural twisted pair wires 6 arranged parallel and flatly are covered with an insulative covering layer 17, a shield layer 18 made of a braided metal wire and a cover 19 in order. A cut position detector 20 detects positions to be cut (non-twisted portions 9) of the flat cable 16. An electric field detector 21 detects change in electric fields of the twisted portions 8 and non-twisted portions 9 of the energized twisted pair wires 6. An output means 22 output cutting information.

Description

[Detailed description of the invention] [Summary] Structure of shielded twisted pair wire flat cable,
Regarding the cutting position detection device that detects the cutting position, the purpose is to economically reduce external noise and radiated noise through the cable of electronic equipment. a plurality of twisted pair wires arranged parallel and flat at predetermined intervals, an insulating coating layer covering the twisted pair wires, and a shielding layer covering the insulating coating layer; It has an outer cover coated with a shield layer.

2. It is configured to include an electric field detection means for detecting a change in the electric field between the twisted part and the non-twisted part of the energized twisted pair wire, and an output means for outputting cutting information based on the information detected by the electric field detection means.

[Industrial application field]

The present invention relates to the structure of a shielded twisted pair wire flat cable and a cutting position detection device for detecting the cutting position thereof.

In recent years, with the digitalization of electronic devices, malfunctions due to the influence of external noise have become a problem.

For this reason, it not only protects electronic devices from external noise, but also protects electronic devices from external noise.
The external radiation of noise from electronic devices has also come to be regulated.

It is also necessary to give sufficient consideration to cable connections, and effective and economical measures are desired.

[Conventional technology]

As shown in the plan view of FIG. 3, for example, a plurality of electronic devices 1a
and ib, and an electronic device 4 including a plurality of electronic devices 3a and 3b.In addition to the connections between the electronic devices 1a, 1b, and 3a, 3b inside each device, A twisted pair wire flat cable 5, which has good workability and is resistant to noise, was also used for external cable connection between the devices 2 and 3.

As shown in the plan view of FIG. 4, the twisted pair wire flat cable 5 consists of a plurality of twisted pair wires 6 arranged parallel and flat with a predetermined interval S, and a flexible synthetic resin material covering the twisted pair wires 6. As shown in the plan view of the twisted pair wire 6 (in the same figure),
A twisted part 8 of a predetermined length L (for example, 450 u') made of wires tied together and a flat non-twisted part 9 of a predetermined length of 1 (for example, 50 u') are arranged at a predetermined pitch P (for example, 500 + u').
They are prepared alternately for each.

The non-twisted portion 9 is a portion used for connection with a connector, and by press-contacting this portion to a U-groove having a knife-shaped tip of a connector terminal, the terminal penetrates the outer cover portion 7 and is mechanically and electrically connected. connected.

Although the connection using the twisted pair wire flat cable 5 does not cause any problem inside the device, it may be insufficient in terms of noise countermeasures when connecting the devices externally.

In such a case, a round shielded cable IO is used as shown in FIG.

As shown in the perspective view in FIG. It is composed of a shield layer 12 formed by braiding metal wires, and an outer sheath 13 that covers the shield layer 12.

Therefore, in order to connect this round shield cable lO to a connector, as shown in the figure, the outer cover 13, the shield layer 12
, it is necessary to perform terminal treatment in which the insulating coating layer 11 is peeled off in order to expose the twisted pair wire 6.

If the connector is a press-contact type having a structure similar to that of a flat cable, it is necessary to arrange the twisted pair wires 6 in a predetermined order as shown in the perspective view (in the same figure).

In addition, as shown in the perspective view of the same figure (C), when the connector 14 is of a type in which wires are connected to the terminals one by one, the socket 15 is crimped to each twisted pair wire 6, and the socket 14 is connected to a predetermined position. Must be connected to a terminal.

[Problem to be solved by the invention]

As explained above, it is economical to use twisted pair wire flat cables for cable connections between devices in consideration of noise countermeasures, but to further improve reliability, it is recommended to use round shielded cables. There was a problem in that the process was complicated, leading to a significant increase in man-hours and costs.

An object of the present invention is to economically reduce external noise and radiated noise via cables of electronic devices.

[Means to solve the problem]

In order to achieve the above object, the present invention provides a plan view of the shielded twisted pair wire cable shown in FIG.
As shown in the configuration diagram of the cutting position detection device in Figure (a), the shielded twisted pair wire flat cable 16 of the present invention
is provided with twisted portions 8 of a predetermined length and non-twisted portions 9 of a predetermined length alternately at a predetermined pitch, a plurality of twisted pair wires 6 arranged parallel and flat at a predetermined interval, and a twisted pair wire 6. It comprises an insulating coating 117, a shielding layer 18 covering the insulating coating layer 7, and an outer cover 19 covering the shielding layer 18.

The cutting position detection device 20 detects the cutting position that cannot be visually determined because it is covered with a shield layer, that is, the non-twisted part 9. The electric field detecting means 21 includes an electric field detecting means 21 for detecting a change in the electric field detecting means 21, and an output means 22 for outputting cutting information based on the information detected by the electric field detecting means 21.

[Effect]

External noise to the twisted pair wires and external radiation noise from the twisted pair wires are blocked by the shield layer.

Then, the disconnection position (connector connection area, etc.) is detected by using a disconnection position detection device to detect and compare the strength of the magnetic field at the twisted and non-twisted areas, which is generated when the twisted pair wires are energized. .

〔Example〕

1 and 2 show one embodiment of the present invention.

Identical parts are designated by the same reference numerals throughout the figures.

In the present invention, as shown in the plan view of the shielded twisted pair wire cable in FIG. 1 and the configuration diagram of the cutting position detection device in FIG. 2 (8), the shielded flat cable 16 of the present invention is different from the conventional one. A shield layer 18 for noise isolation is provided on the twisted pair wire flat cable of the technology. That is, as in the prior art, a plurality of twisted pair wires 6 arranged parallel and flat with a predetermined interval S therebetween, and a twisted pair! an insulating coating layer 17 made of a flexible synthetic resin material covering the insulation coating 117; a shielding layer 18 made of braided metal wires covering the insulating coating 117; 19.

The twisted pair wire 6 consists of a twisted part 8 of a predetermined length, e.g., 450 m, made by gluing wire rods together in the same way as in the prior art, and a flat untwisted part 9 of a predetermined length l (e.g., 5 (hm)) at a predetermined pitch P (e.g. They are installed alternately every 500 m).

Therefore, external noise to the twisted pair wire 6 and external radiation noise from the twisted pair wire 6 are absorbed by the shield layer 18.
This improves reliability against noise.

On the other hand, the cutting position of the shielded twisted pair wire flat cable 16, which is coated with the shield 1i1B, has no unevenness and cannot be visually determined, that is, the non-twisted part 9 for connector connection etc. is determined by the cutting position detection device 20. To detect.

The cutting position detection device 20 detects the twisted part 8 and the non-twisted part 9 of the energized twisted pair wire 6 as shown in FIG. 2(a).
The device is equipped with an electric field detection means 21 that detects changes in the electric field between the two wires, and an output means 22 that outputs cutting information based on the information detected by the electric field detection means 21. This is done by detecting and comparing the strength of the magnetic field in the portion 8 and the non-twisted portion 9.

The electric field detection means 21 detects the strength of a magnetic field, for example, and includes a detection sensor 2 such as a coil or a Hall element.
3 and a judgment circuit 24.

Further, the output means 22 is a control circuit, and functions to convert the signal from the judgment circuit 24 into a control signal for a subsequent device and output it.

Therefore, by passing either an alternating current or a direct current through the twisted pair wire 6 as shown in FIG. 6(b), a corresponding alternating current or direct current magnetic field is generated in the twisted pair wire 6.

The strength of this magnetic field is as shown in the figure (weak at the twist part 8;
It appears strongly in the non-twisted portion 9.

Detection of such a magnetic field is performed by inserting, for example, a coil detection sensor 23 into the magnetic field, and by cutting off the magnetic field, based on the induced voltage generated in the coil.

The voltage generated in the detection sensor 23 is led to a judgment circuit 24 shown in FIG. At the same time, it is determined whether the part is a twist part or not.

If it is determined that the twist portion 9 is non-twisted, the signal is sent to the output means (hereinafter referred to as l/control circuit) 22, and the control circuit 2
2 is the subsequent display 25, alarm 26, etc.
Alternatively, a control signal is output to the cutting device 27 or the like.

The cutting device 27 includes a cutter 28 that moves perpendicularly to the shielded twisted pair wire flat cable 16 in the direction of arrow A-B, and cuts off the shielded twisted pair wire that has been transferred, for example, in the direction of arrow C by the rotation of a roller 29. The flat cable 16 is cut based on a signal from the control circuit 22.

Note that the cutting is not done by the cutting device 27, but by the display 25.
Alternatively, it may be performed manually based on notification by the alarm 26.

The shielded twisted pair wire flat cable 16 cut at the non-twisted portion 9 in this manner is connected to a pressure welding type connector by pressure welding as in the prior art after the jacket portion 19 and the shield layer 18 are peeled off. .

〔Effect of the invention〕

As explained above, by using the shielded twisted pair wire flat cable of the present invention and its cutting position detection device, it is possible to create a cable without increasing the number of man-hours and cost compared to the conventional twisted pair wire flat cable. This has great economic and industrial effects, such as greatly improving reliability against noise.

[Brief explanation of drawings]

Figure 1 is a plan view of the shielded twisted pair wire flat cable of the present invention, Figure 2 (a) is a block diagram of a cutting position detection device for the shielded twisted pair wire flat cable, and Figure 2 (b) is the same figure (a). Fig. 3 is a plan view showing the connection between devices using a conventional twisted pair wire flat cable; Fig. 4 (al is a plan view of the twisted pair wire flat cable; Fig. 4 ( b) is a plan view showing the configuration of the twisted pair wire, FIG. 5 is a plan view showing the connection between devices using a round shielded cable, and FIG. Figure (b) is a perspective view showing the arrangement of the round shield cable, and Figure 6 (C1 is a perspective view showing the state in which the round shield cable is connected to the crimp type connector. In the figure, la, lb, 3a, 3b are electronic devices, 2.4 is an electronic device, 5 is a twisted pair wire flat cable, 6 is a twisted pair wire, 7.13.19 is an outer jacket part, 8 is a twisted part,
9 is a non-twisted part, 1O is a round shielded cable, 11.17 is an insulation coating layer, 12.18 is a shield layer,
14 is a connector, 15 is a socket, 16 is a shielded twisted pair wire flat cable, 20 is a cutting position detection device, 21 is an electric field detection means, 22 is an output means, 23 is a detection sensor, 24 is a judgment circuit, 25 is a display, 26 is an alarm,
27 is a cutting device, 28 is a cutter, 29
is a roller. Figure 2 (Soriki 1) Chi ff 2 Enrutojibu 1 Shi no Y office rack Izu selection, and Mizu 1
Tatsu Shinka (Rera No. 6 9 ■ door open cold goob l and oto stone shape conefter T5 punishment Hiroro Lin Go, Σhoy 4 soup store map (C) D] Ding (b) Mouth ■ Sword C (1) Fig. 2 (Zome 2) ゛ Plan view showing the configuration of the soist pair wire (1)

Claims (1)

[Claims] 1. A plurality of twisted portions (8) of a predetermined length and non-twisted portions (9) of a predetermined length alternately arranged at a predetermined pitch and arranged in parallel and flat at a predetermined interval. twisted pair wire (
6) and an insulating coating layer (17) covering the twisted pair wire (6).
), and a shield layer (18) covering the insulating coating layer (17).
A shielded twisted pair wire flat cable comprising: and an outer sheath (19) covering the shield layer (18). 2. Twisted part (8) of energized twisted pair wire (6)
and an electric field detection means (21) for detecting a change in the electric field between the electric field detection means (21) and the non-twisted portion (9), and an output means (22) for outputting cutting information based on the information detected by the electric field detection means (21). A device for detecting the cutting position of a shielded twisted pair flat cable.