JP2004014184A - Multi-core cable - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To improve transmitting efficiency of a multi-core cable 19 for transmitting a differential signal by reducing a length difference of cable cores 21, 23 and 25 as much as possible without changing assembling twisting pitch of a plurality of first cable cores 21 and assembling twisting pitch of a plurality of second cable cores 23. <P>SOLUTION: Each cable core set ST is constituted so as to be alternatively switched with an equal proportion between an inner and outer layer forming state for forming a part of an inner layer core unit 39 by the first cable core 21 and forming a part of an outer layer core unit 41 by the second cable core 23, and another outer and inner layer forming state for forming the part of the outer layer core unit 41 by the first cable core 21 and forming the part of the inner layer core unit 39 by the second cable core 23 along the overall length direction of the cable. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a multi-core cable such as a multi-core cable for differential signal transmission.
[0002]
[Prior art]
A conventional technique will be described with reference to the drawings.
[0003]
FIG. 2 is a sectional view of a conventional multi-core cable for differential signal transmission.
[0004]
In a storage area network (SAN), a fiber channel (FC), or the like that performs high-speed data transmission, a multicore cable 1 for differential signal transmission as shown in FIG. 2 is widely used.
[0005]
That is, the differential signal transmission multi-core cable 1 includes a plurality of collectively twisted first cable cores 3 and a plurality of second cable cores 5 collectively twisted together with the plurality of first cable cores 3. And an outer cover 7 provided by extrusion molding so as to surround the entire cable cores 3 and 5, and a shielding metal tape 9 provided between the entire cable cores 3 and 5 and the outer cover 7.
[0006]
Here, each first cable core 11 is a quad stranded wire having four insulated wires 11, and each second cable core 5 is a quad stranded wire having four insulated wires 13. is there. An annular inner core unit 15 is formed by the plurality of first cable cores 3, and an annular outer core unit 17 concentric with the inner core unit 15 by the plurality of second cable cores 5. It is configured to be formed.
[0007]
By the way, in order to improve the transmission efficiency of the multi-core cable 1 for differential signals, it is necessary to minimize the difference in wire length between the first cable core 3 and the second cable core 5. Therefore, according to the difference in the core diameter between the two core units (the inner core unit 15 and the outer core unit 17), the collective twist pitch of the plurality of first cable cores 3 and the plurality of second cable cores are determined. 5, the twist ratio of the plurality of first cable cores 3 and the twist ratio of the plurality of second cable cores 5 are the same.
[0008]
Further, in order to stabilize the layer shape of the two core units 15 and 17, the twist direction of the plurality of first cable cores 3 and the twist direction of the plurality of second cable cores 5 are configured to be opposite. It is. That is, the twist direction of the plurality of first cable cores 3 is the left direction (or right direction), and the twist direction of the plurality of second cable cores 5 is the right direction (or left direction).
[0009]
[Problems to be solved by the invention]
However, the set twist pitch of the plurality of first cable cores 3 and the set twist pitch of the plurality of second cable cores 5 are changed according to the difference in the layer core diameter between the two core units 15 and 17. In addition, there is a problem that the operation of assembling and twisting the plurality of first cable cores 3 and the plurality of second cable cores 5 becomes complicated, and the manufacturing time of the multi-core cable 1 for differential signal transmission becomes longer.
[0010]
Furthermore, the collective twist pitch of the plurality of first cable cores 3 and the collective twist pitch of the plurality of second cable cores 3 are different, and the collective twist direction of the plurality of first cable cores 3 and the plurality of second cables Since the collective twist directions of the core wires 5 are opposite, the flexibility of the multi-core cable for differential signal transmission 1 is reduced, and the work efficiency of wiring and the like of the multi-core cable 1 for differential signal transmission is not improved. There is.
[0011]
[Means for Solving the Problems]
In the invention according to claim 1, a plurality of first cable cores that are collectively twisted,
A plurality of second cable cores, each of which forms a cable core set so as to overlap with each of the first cable cores, and is collectively twisted together with the plurality of first cable cores;
With an outer skin provided to surround the entire cable core,
The plurality of first cable cores are configured so that the collective twist pitch is equal to the collective twist pitch of the plurality of second cable cores,
The plurality of first cable cores and the plurality of second cable cores form an annular inner core unit and an annular outer core unit concentric with the inner core unit. Make up,
In each cable core set, the first cable core forms a part of the inner core unit and the second cable core forms a part of the outer core unit along the entire cable length direction. The inner and outer layer forming state is the same as the outer and inner layer forming state where the first cable core forms a part of the outer layer core unit and the second cable core forms a part of the inner layer core unit. It is characterized in that it is configured to be switched alternately while maintaining the ratio.
[0012]
According to the first aspect of the present invention, each of the cable core sets is configured to be alternately switched along the entire length of the cable while maintaining the inner and outer layer forming states and the outer and inner layer forming states at the same ratio. Therefore, the plurality of first cable cores and the plurality of second cable cores respectively average the layer core diameter of the inner layer core unit and the layer core diameter of the outer layer core unit. It can be considered that the same virtual layer core unit having the following formula is formed. Therefore, even if the collective twist pitch of the plurality of first cable cores and the collective twist pitch of the plurality of second cable cores are the same, in other words, the collective twist pitch of the plurality of first cable cores And without changing the collective twist pitch of the plurality of second cable cores, the twist rate of the plurality of first cable cores and the twist rate of the plurality of second cable cores can be the same, The transmission efficiency of the multi-core cable can be improved by minimizing the difference in wire length between the first cable core and the second cable core.
[0013]
In addition, since the second cable cores overlap the first cable cores to form the cable core sets, respectively, the set twist direction of the plurality of first cable cores and the plurality of first cable cores are twisted. The layer shape of the two core units (the inner core unit and the outer core unit) is stabilized without reversing the twisting direction of the two cable cores.
According to the second aspect of the present invention, in addition to the first aspect of the present invention, a set twist direction of the plurality of first cable cores and a set twist direction of the plurality of second cable cores are provided. Are configured to be the same.
[0014]
According to the second aspect of the present invention, in addition to the first aspect of the present invention, a set twist direction of the plurality of first cable cores and a set twist direction of the plurality of second cable cores are provided. Are made to be the same, so that the flexibility of the multi-core cable becomes higher.
[0015]
In the invention according to claim 3, in addition to the matters specifying the invention described in claim 1 or claim 2, each of the first cable cores and each of the second cable cores are respectively twisted pairs. The twist pitch of the first cable core and the twist pitch of the second cable core are the same.
[0016]
Here, the twisted pair wire includes a quad stranded wire.
[0017]
According to the third aspect of the present invention, the same operation as that of the first or second aspect of the present invention is achieved.
[0018]
In the invention according to claim 4, in addition to the invention-specifying matter according to claim 1, the plurality of first cable cores and the plurality of first cable cores are arranged between the adjacent cable core sets. A plurality of third cable cores that are collectively twisted with the second cable core of
The plurality of third cable cores are configured such that the collective twist pitch is the same for the plurality of first cable cores and the plurality of second cable cores, and the plurality of third cable cores are configured to be the same. The wire has an average core diameter of the inner core unit and the outer core unit and forms a concentric and annular intermediate core unit. It is characterized by comprising.
[0019]
According to the invention specified in claim 4, in addition to the invention specified in claim 1, the intermediate layer having the same layer core diameter as the virtual layer core unit by the plurality of third cable cores. Since the core unit can be formed, the set twist pitch of the plurality of third cable cores is the same as the set twist pitch of the plurality of first cable cores and the plurality of second cable cores. Also, the difference in wire length between the three types of cable cores (the first cable core, the second cable core, and the third cable core) is minimized to improve the transmission efficiency of the multicore cable. be able to.
[0020]
In the invention according to claim 5, in addition to the matters specified in the invention according to claim 4, a set twist direction of the plurality of first cable cores, a set twist direction of the second cable core, And the third cable cores are configured to have the same set twist direction.
[0021]
According to a fifth aspect of the present invention, in addition to the operation of the fourth aspect, a set twist direction of the plurality of first cable cores and a set twist direction of the second cable core are provided. , And the third cable cores are configured to have the same twisting direction, so that the flexibility of the multicore cable is further increased.
[0022]
According to the invention described in claim 6, in addition to the matters specified in claim 4 or 5, each of the first cable cores, each of the second cable cores, and each of the third cable cores. Are twisted pair wires, wherein the twisted pitch of the first cable core, the twisted pitch of the second cable core, and the twisted pitch of the third cable core are respectively the same. And
[0023]
Here, the twisted pair wire includes a quad stranded wire.
[0024]
According to the sixth aspect of the present invention, the same operation as that of the fourth or fifth aspect of the invention is provided.
[0025]
In the invention according to claim 7, in addition to the invention-specifying matter according to any one of claims 1 to 6, a center in which the whole of the cable cores is arranged at a collection center. It is characterized by having intervention.
[0026]
According to a seventh aspect of the present invention, in addition to the first aspect of the present invention, two core units (the inner layer core) are provided by the central intervention. The layer shape of the wire unit and the outer core unit is more stable.
[0027]
In the invention according to claim 8, in addition to the matters specifying the invention according to any one of claims 1 to 7, the invention is provided between the entire cable core and the outer sheath. And a shielding layer.
[0028]
According to the eighth aspect of the present invention, the same operation as that of the first aspect of the present invention is achieved.
[0029]
According to a ninth aspect of the present invention, in addition to the first to eighth aspects of the present invention, the outer skin is made of a PVC material. .
[0030]
According to the ninth aspect of the present invention, the same operation as that of the first aspect of the present invention is provided.
[0031]
In the invention specifying matter according to claim 10, in addition to the invention specifying matter according to any one of claims 1 to 8, the outer skin is made of an eco-friendly material. .
[0032]
According to the tenth aspect of the present invention, the same effect as that of the first aspect of the present invention is obtained.
[0033]
An eleventh aspect of the present invention is characterized in that, in addition to the first aspect of the invention, the outer shell is made of an NHFR material. .
[0034]
According to the eleventh aspect of the present invention, the same operation as that of the first aspect of the present invention is achieved.
[0035]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0036]
FIG. 1 is a sectional view of a multi-core cable for differential signal transmission according to an embodiment of the present invention.
[0037]
As shown in FIG. 1, a multi-core differential signal transmission cable 19 according to the embodiment of the present invention is composed of a plurality of (four in the embodiment of the present invention) first twisted twisted cable cores. A wire 21, a plurality of (two in the embodiment of the present invention) twisted collectively and the second cable core 23, and a plurality of the plurality of twisted (four in the embodiment of the present invention) ), A central interposition 27 disposed at the center of the gathering of the entire cable cores 21, 23, 25, and an outer skin provided by extrusion molding so as to surround the entire cable cores 21, 23, 25. 29, and a shielding metal tape 31 provided between the entire cable cores 2, 23, 25 and the outer cover 29.
[0038]
The second cable cores 23 are respectively formed with cable core sets ST so as to overlap with the first cable cores 21, and are collectively twisted together with the plurality of first cable cores 23. . A plurality of (four in the embodiment of the present invention) cable core sets ST are arranged at equal intervals in an arbitrary cross section of the multi-core cable 19 for differential signal transmission. Further, the plurality of third cable cores 25 are arranged between the adjacent cable core sets ST, and are collectively twisted together with the plurality of first cable cores 21 and the plurality of second cable cores 23. Things.
[0039]
The collective twist pitch of the plurality of first cable cores 21, the collective twist pitch of the plurality of second cable cores 23, and the collective twist pitch of the plurality of third cable cores 25 are configured to be the same. In addition, the collective twist direction of the plurality of first cable cores 21, the collective twist direction of the plurality of second cable cores 23, and the collective twist direction of the plurality of third cable cores 25 are configured to be the same. is there.
[0040]
Each of the first cable cores 21 is a quad stranded wire having four insulated wires 33, and each of the second cable cores 23 is a quad stranded wire having four insulated wires 35, Each of the third cable cores 25 is a quad strand including four insulated wires 37. Here, the quad twist pitch of each first cable core 21, the quad twist pitch of each second cable core 23, and the quad twist pitch of each third cable core 25 are configured to be the same. The quad twist direction of each first cable core 21, the quad twist direction of each second cable core 23, and the quad twist direction of each third cable core 25 are configured to be the same.
[0041]
The plurality of first cable cores 21 and the plurality of second cable cores 23 form an annular inner core unit 39 and an annular outer core unit 41 concentric with the inner core unit 39. It is configured to be performed. Further, the plurality of third cable cores 25 have an average layer core diameter d3 of the layer core diameter d1 of the inner layer core unit 39 and the layer core diameter d2 of the outer layer core unit 41, and are concentric and It is configured to form an annular intermediate-layer core unit 43.
[0042]
Then, each cable core set ST is alternately switched along the entire length of the cable (the front and back direction in FIG. 1 toward the paper surface) while maintaining the same ratio between the inner and outer layer forming states and the outer and inner layer forming states. It is composed.
[0043]
Here, the inner and outer layer forming state is a state in which the first cable core 21 forms a part of the inner core unit 39 and the second cable core 23 forms a part of the outer core unit 41. That is, the two cable core sets ST located on the upper side and the right side in FIG. 1 are in the inner and outer layer forming state. The outer / inner layer forming state refers to a state in which the first cable core 21 forms a part of the outer core unit 41 and the second cable core 23 forms a part of the inner core unit 39. In FIG. 1, two sets of cable cores ST located on the lower side and the left side are in the state of forming the outer and inner layers.
[0044]
In the embodiment of the present invention, each cable core set ST alternates between the inner and outer layer forming state and the outer and inner layer forming state twice alternately between portions corresponding to one set twist pitch. It is switched back to the original layer formation state, but may be switched a plurality of times four times or more.
[0045]
The outer skin 29 is made of a material appropriately selected from a PVC material, an eco material, and an NHFR material.
[0046]
Next, the operation of the embodiment of the present invention will be described.
[0047]
Since each cable core set ST is configured to be alternately switched along the entire length of the cable while maintaining the inner / outer layer forming state and the outer inner layer forming state at the same ratio, a plurality of first cable cores 21 are provided. And the plurality of second cable cores 23, the same virtual layer core unit having an average layer core diameter d3 of the layer core diameter d1 of the inner layer core unit 39 and the layer core diameter d2 of the outer layer core unit 41, respectively. Can be regarded as being formed. Also, the intermediate layer core unit 43 having the same layer core diameter d3 as the virtual layer core unit can be formed by the plurality of third cable cores 25. Therefore, even if the collective twist pitch of the plurality of first cable cores 21, the collective twist pitch of the plurality of second cable cores 23, and the collective twist pitch of the plurality of third cable cores 25 are the same, in other words, For example, three types of cables can be used without changing the collective twist pitch of the plurality of first cable cores 21, the collective twist pitch of the plurality of second cable cores 23, and the collective twist pitch of the plurality of third cable cores 25. To improve the transmission efficiency of the differential signal transmission multi-core cable 1 by minimizing the difference in the lengths of the core wires (the first cable core 21, the second cable core 23, and the third cable core 25). Can be.
[0048]
In addition, since the second cable cores 23 overlap with the first cable cores 21 to form the cable core sets ST, respectively, the collective twist direction of the plurality of first cable cores 21 and the plurality of first cable cores 21 are formed. The layer shape of the two core units (the inner core unit 39 and the outer core unit 41) is stabilized without reversing the set twist direction of the two cable cores 23.
[0049]
As described above, according to the embodiment of the present invention, the collective twist pitch of the plurality of first cable cores 21, the collective twist pitch of the plurality of second cable cores 23, and the In order to improve the transmission efficiency of the differential signal transmission multi-core cable 19 by minimizing the wire length difference between the three types of cable cores 21, 23, 25 without changing the set twist pitch, a plurality of first cables are used. The collective twisting operation of the core wire 21, the plurality of second cable cores 23, and the plurality of third cable cores 25 is simplified, and the manufacturing time of the differential signal transmission multi-core cable 19 is reduced.
[0050]
The collective twist pitch of the plurality of first cable cores 21, the collective twist pitch of the plurality of second cable cores 23, and the collective twist pitch of the plurality of third cable cores 25 are the same, and the plurality of Since the collective twist direction of one cable core 21, the collective twist direction of the plurality of second cable cores 23, and the collective twist direction of the plurality of third cable cores 25 are the same, the multi-core for differential signal transmission is used. The flexibility of the cable 19 is increased, and work efficiency such as wiring work of the multi-core cable 19 for differential signal transmission is improved.
[0051]
The present invention is not limited to the description of the embodiment of the present invention described above. For example, the present invention can be applied to multi-core cables other than the multi-core cable 19 for differential signal transmission. 21 (23, 25) instead of a quad stranded wire with four insulated wires 33 (35, 37), respectively, instead of a twisted pair wire with two insulated wires, or It can be changed to one with a fiber core.
[0052]
【The invention's effect】
According to the invention as set forth in any one of claims 1 to 11, a set twist pitch of the plurality of first cable cores and a set twist pitch of the plurality of second cable cores are changed. In order to improve the transmission efficiency of the multi-core cable by minimizing the wire length difference between the first cable core and the second cable core without increasing the plurality of first cable cores and the plurality of second cable cores, The operation of assembling and twisting the cable cores is simplified, and the manufacturing time of the multicore cable is shortened.
[0053]
Further, since the collective twist pitch of the plurality of first cable cores and the collective twist pitch of the plurality of second cable cores are the same, the flexibility of the multicore cable is increased, and the multicore cable is increased. The work efficiency of wiring work and the like is improved. In particular, according to the invention described in any one of Claims 2, 3, 5 to 11, the flexibility of the multi-core cable is higher, so that the multi-core cable is improved. The work efficiency of wiring work etc. is further improved.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of a multi-core cable for differential signal transmission according to an embodiment of the present invention.
FIG. 2 is a sectional view of a conventional multi-core cable for differential signal transmission.
[Explanation of symbols]
19 Multi-core cable for differential signal transmission 21 First cable core 23 Second cable core 25 Third cable core 27 Center interposition 29 Outer shell 31 Shielding metal tape

Claims (11)

A plurality of collectively twisted first cable cores;
A plurality of second cable cores, each of which forms a cable core set so as to overlap with each of the first cable cores, and is collectively twisted together with the plurality of first cable cores;
With an outer skin provided to surround the entire cable core,
The plurality of first cable cores are configured so that the collective twist pitch is equal to the collective twist pitch of the plurality of second cable cores,
The plurality of first cable cores and the plurality of second cable cores form an annular inner core unit and an annular outer core unit concentric with the inner core unit. Make up,
In each cable core set, the first cable core forms a part of the inner core unit and the second cable core forms a part of the outer core unit along the entire cable length direction. The inner and outer layer forming state is the same as the outer and inner layer forming state where the first cable core forms a part of the outer layer core unit and the second cable core forms a part of the inner layer core unit. A multi-core cable characterized in that it is configured to be switched alternately while maintaining the ratio. 2. The multi-core cable according to claim 1, wherein a set twist direction of the plurality of first cable cores and a set twist direction of the plurality of second cable cores are the same. 3. Each of the first cable cores and each of the second cable cores are a pair twisted wire, and a pair twist pitch of the first cable core and a pair twist pitch of the second cable core are the same. The multi-core cable according to claim 1 or 2, wherein A plurality of third cable cores respectively disposed between the adjacent cable core sets and being twisted together with the plurality of first cable cores and the plurality of second cable cores;
The plurality of third cable cores are configured so that the collective twist pitch is the same for the plurality of first cable cores and the plurality of second cable cores, and the plurality of third cable cores The wire has an average core diameter of the inner core unit and the outer core unit and forms a concentric and annular intermediate core unit. The multi-core cable according to claim 1, wherein the cable is configured. The assembly twist direction of the plurality of first cable cores, the assembly twist direction of the second cable core, and the assembly twist direction of the third cable core are respectively the same. Item 5. A multi-core cable according to Item 4. Each of the first cable cores, each of the second cable cores, and each of the third cable cores are twisted pairs, and the twisted pitch of the first cable cores and the twisted pair of the second cable cores. The multicore cable according to claim 4, wherein the pitch and the twisted pitch of the third cable core are the same. 7. The device according to claim 1, wherein the plurality of first cable cores and the plurality of second cable cores have a center interposition arranged at a center of collection. 8. Multi-core cable described in. The multi-core cable according to any one of claims 1 to 7, further comprising a shielding layer provided between the entire cable core and the outer sheath. The multi-core cable according to any one of claims 1 to 8, wherein the outer cover is made of a PVC material. The multi-core cable according to any one of claims 1 to 8, wherein the outer cover is made of an eco-friendly material. The multi-core cable according to any one of claims 1 to 8, wherein the outer cover is made of an NHFR material.

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