JPH0224982A - Multiple-modular jack - Google Patents

Abstract

PURPOSE:To connect many terminal equipments and suppress the wiring change of terminal equipments by repeating multiple connections from core wires connected to the first modular jack of an N-modular jack with NXP contacts to the second modular jack by P cores and from the second modular jack to the third modular jack. CONSTITUTION:The first and second four-pin modular jacks 11 and 14 are arranged on a multiple-modular jack 100, two cores 8-2 and 8-3 in four-core cable core wires 8-1-8-4 are connected only to contacts 52-2a and 52-3a of the jack 11 via connecting screws 7-2 and 7-3 and lead wires 6-2 and 6-3 respectively. The remaining two cores 8-1 and 8-4 are multiple-connected to the remaining contacts 52-1a and 52-4a of the jack 11 and the contacts 42-2a and 42-3a of the jack 14 with the same positional relationship as the contacts 52-2a and 52-3a connected previously via connecting screws 7-1 and 7-4 and lead wires 6-1 and 6-4 respectively. A four-pin modular plug 13 is included in the jack 11, the core wires 8-1-8-4 are connected to contacts 51-1b-51-4b of the plug 13 via the lead wires 6-1-6-4.

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Field of use on an overhead device J The present invention relates to a modular jack for connecting equipment such as a telephone to a line, and particularly relates to a multiple modular jack.

[Prior Art] FIG. 4(a) is a structural diagram of a conventional example of this type of modular jack, and FIG. 4(b) is a wiring diagram thereof.

This conventional example shows a 2-contact type jack that is widely used in telephones, and a 20-pin modular jack 1 has a modular plug insertion hole 2-1, 2-2, and a 2-pin modular plug 3 is inserted into the modular jack 1. inserted.

Contacts 4-1a and 4-2a are on the modular jack 1 side.

5-1a and 5-2a are installed, and contacts 4-1b and 4-2b are installed on the modular plug 3 side, and contacts 4-1a, 4-2a, 5-1a, and 5-2a are installed, respectively. Lead wires 6-1.6-2.6-3.6-4 are attached together with connecting screws 7-1.7-2.7-3.7-4.

Therefore, each core wire 8-1.8-2.8-3 of the cable 9.
Electrical connection between the modular plug 8-4 and the modular plug 3 is performed as follows. Core wires 8-1 to 8-4 are connected to connecting screws 7-1 to 7-4
is connected to the lead wires 6-1 to 6-4, and the lead wire 6
-1 to 6-4 are distributed two by two in two directions, and contacts 4-1a, 4-2a, 5-1 on the modular jack side in two modular jack insertion holes 2-1, 2-2, respectively.
a, and is guided and connected to 5-2a. Modular plug 3
is inserted into the modular jack insertion hole 2-1.
1a and 5-2a, electrical connection on the modular plug 3 side is established.

FIG. 5(a) is a structural diagram of another conventional example of a modular jack, and FIGS. 5(b) and (C) are a 2-pin modular plug 12.4 connected to the modular jack 11 in FIG. 5(a), respectively. It is a wiring diagram when using the bin modular plug 13.

One insertion port 2-3 of the 4-bin module jack 11 has four contacts 4l-1a, 4l-2a, 4l-3a,
4174a is installed, and each core wire 8-1 of the 4-core cable 9 is connected to the core wire 8-1 of the 4-core cable 9 via the lead wires 6-1 to 6-4 and the connecting screws 7-1 to 7-4, respectively, similarly to the above-mentioned modular jack 1. ~8-4. 2 bin modular plug 1
The 2 and 4-pin modular plugs 13 each have two contacts 4l-2b, 4l-3b, four contacts 4l-1b,
4l-2b, 4l-3b, 4l-4b are 6M^.

Therefore, as shown in FIG. 5 (bl, (c)), if the 4-pin modular plug 13 is inserted into the insertion port 2-3, the core wire 8
-1 to 8-4 are all connected, but only two core wires 8-2 and 8-3 are connected to the 2-bin modular plug 12.

[Problem to be Solved by the Invention 1] The conventional modular jack described above is capable of connecting a 2-bin modular plug 3 in the one shown in FIG. It is impossible to connect modular plugs with different numbers of bins, and if it is necessary to use a 4-pin modular plug 13, it is necessary to replace the modular jack 1 with one for 4 pins, which is extremely inconvenient in practice. There are drawbacks. As a method to solve this drawback, the method shown in FIG. 5(a) has been proposed.
As shown in Figure (b), when a 4-pin modular plug 13 is inserted, the connection is between 4-bin plug jacks,
On the other hand, when using the 2-bin modular plug 12 as shown in FIG. 5(c), the external dimensions of the 2-bin modular plug 12 and 4-pin modular plug 13 and the bin If you use those with the same positional relationship,
In the same modular jack 11, 2 bins and
Allows the use of 4-bin modular plugs 12.13.

However, this method has the disadvantage that when the two-bin modular plug 12 is used, two of the four cable cores 8-1.8-4 become idle, and the cable cores cannot be used effectively.

An object of the present invention is to provide a modular jack that does not waste cable cores even when modular plugs with different numbers of bins are used.

[Means for Solving the Problems] The multiple modular jack of the present invention has the following features: Among the N×P cable cores, the P core lead wires are connected to the P cores of the first modular jack. P of the remaining (N×P-P) core wires is connected only to the contact point.
A two-point multi-connection is made in which the core lead wire connects an unconnected contact of the first modular jack to a contact of the second modular jack that has the same positional relationship as the already connected contact of the first modular jack. and the remaining (N×P−
2P) The P core lead wire of the core wires has the same positional relationship as the unconnected contacts of the first modular jack and the two-point multi-connected contacts at the end of the first modular jack. A 3-point multi-connection is made between the contact point of the second modular jack that has the same positional relationship as the contact point of the 2nd modular jack that has the same positional relationship as the 2-point multi-connected contact point of the second modular jack, and The lead wires of the remaining core wires are repeatedly multi-connected up to the Nth modular jack.

The second aspect of the present invention is the first aspect of the first aspect of the present invention.
or to each of the Nth modular jack,
A new modular jack with N x P contacts (M
-1) (M is an integer greater than or equal to 2 and less than or equal to P) are installed,
Each of the (M-1) modular jacks installed in addition to the first (i is an integer from 2 to N) modular jack is called the i-j (j is an integer from 2 to M) modular jack. , the other first of the first modular jack
Q contacts (Q is an integer that satisfies QxM=P) out of P contacts that are not multi-connected to the modular jack of , and Q contacts out of the remaining P-Q contacts have the same positional relationship. and the contacts of the first and second modular jacks having two
A point multi connection is made, and Q out of the remaining P-Q contacts are further connected to Q out of the remaining P-2Q contacts, and a 2 point multi connection is connected to the end of the first modular jack. The contacts of the 1st-2nd modular jack have the same positional relationship as the Q connected contacts, and the Q contacts that are multi-connected at 2 points before the 1st-2nd modular jack have the same positional relationship. Three points are multi-connected to the contacts of the 1st-3rd modular jack, and the remaining contacts are repeatedly multi-connected in the same way up to the 1st-M modular jack, and further, the 1st modular jack A multi-connection is made from the second modular jack to the second-M modular jack in exactly the same positional relationship as the multi-connection between the terminals from to the first-M modular jack. Multiple connections are repeatedly made from the Nth modular jack to the N-Mth modular jack.

In the third aspect of the present invention, the lead wires of P cores among the N×P core cable cores are connected only to P contacts of the first modular jack, and the remaining (N×P−P) cores are connected to only P contacts of the first modular jack. P in the line
A two-point multi-connection is made in which the core lead wire connects an unconnected contact of the first modular jack to a contact of the second modular jack that has the same positional relationship as the already connected contact of the first modular jack. and the remaining (N×P−
2P) The P core lead wire of the core wires has the same positional relationship as the unconnected contact of the first modular jack and the 2-point multi-connected contact at the end of the second modular jack. and a third modular jack with two
The lead wires of the remaining core wires are repeatedly connected at two points between the first modular jack and the Nth modular jack in a similar manner.

According to a fourth aspect of the invention, unused contacts among the contacts of the multiple modular jack according to any one of claims 1 to 3 are removed.

[Function] In the present invention, N modular jacks having N×P contacts are installed, and the N modular jacks connected to the first modular jack are connected to the first modular jack.
Claim 1) wherein the multi-connection is repeated in order from the core wire of the ×P-core cable to the second modular jack, and then to the second and third modular jacks, or further N modular jacks. (2), wherein (M-1) similar modular jacks are additionally installed in each of the plurality of additional modular jacks, and the same multi-connection is repeated from the first to Nth modular jacks to each of the additional modular jacks; By making a two-point multi-connection of each P core from the N×P fibers connected to the first modular jack to the second to Nth modular jacks, a maximum of N×P fibers can be connected to each modular jack. The core wires from P to P cores are wired sequentially in decreasing order (claim 1 or 2), or N×P cores are wired to the first modular jack, and P cores are wired to the modular jacks other than the first. (Claim 3), it becomes possible to freely combine modular plugs from a maximum of N x P bins to a P bin modular plug, and there is no need to waste one core of the cable core. It can be used without any problem.

[Example] Next, embodiments of the present invention will be described with reference to the drawings.

FIG. 1(a) is a wiring diagram of the first embodiment of the multiple modular jack of the present invention, and FIG. 1(b) is the wiring diagram when a 4-bin modular plug 13 is fitted to this embodiment. Figure, Figure 1 (
c) is a wiring diagram when two 2-pin modular plugs 12 are mated together in this embodiment.

This embodiment is a multiple modular jack according to claim 1, in which:
P=2. This corresponds to when N=2, and the multiple modular jack 100 is the 4-bin modular jack 11.
(first modular jack of claim 1) and 4-bin modular jack 14 (second modular jack of claim 1)
is installed. 4-core cable core wires 8-1 to 8-
4, 2 cores 8-2, 8-3 are connected to the connecting screw 7, respectively.
-2.7-3 and two contacts 52-2a of the 4-bin module jack 11 via lead wires 6-2.6-3.

Connected only to 52-3a, remaining 2 cores 8-1.8-4
are connected to the remaining contacts 52-1a and 52-4a of the 4-bin module jack 11 and the previously connected contact 52, respectively.
Connecting screws 7-1.7-4 and lead wires 6-1.6-4 are connected to contacts 42-2a and 42-3a of the 4-bin module jack 14, which have the same positional relationship as -2a and 52-3a.
Both are multi-connected at two points via.

The combination of a modular plug and a modular jack with the above configuration will now be explained. For example, when a 4-pin modular plug 13 is engaged with a 4-bin modular jack 11 as shown in FIG. Cable core wire 8-1.
8-2.8-3.8-4 are completely connected to the respective contacts 5l-1b to 5l-4b of the 4-bin modular plug 13 through the lead wires 6-1 to 6-4. On the other hand, as shown in Fig. 1(C), two 2-pin modular plugs 1
When one of the two is connected to the 4-bin module jack 1 and the other to the 4-bin module jack 14, four cable core wires 8-1.8-2.8-3.8 are connected. -4 is 4-bin module jack II and 4-bin module jack 1
Since the wires are divided into 4 and wired, they are completely connected to the two modular plugs 12. By using multi-connection wiring using lead wires like this, it is now possible to use a 2-core modular plug 12 and a 4-core modular plug 13 compared to conventional ones, and there is no need to leave the core wires loose. .

Fig. 2(a) is a wiring diagram of the second embodiment, Fig. 2(b) is a wiring diagram when an 8-bin modular plug 19 is fitted to this embodiment, Fig. 2(c) 2(d) is a wiring diagram when two 4-pin modular plugs 20 are mated to this embodiment, and FIG. 2(d) is a wiring diagram when four 2-pin modular plugs 21 are mated to this embodiment. This is a wiring diagram when

This embodiment is a multiple modular jack according to claim 2, in which:
P=4. N=2. M=2. This corresponds to when Q=2, and the multiple modular jack 200 includes an 8-bin module jack 15 (the first modular jack of claim 2) and an 8-bin module jack+6 (claim 2). An 8-bin modular jack 17 (1-2 modular jack of claim 2) or 18 (2-2 modular jack of claim 2) is additionally installed in each of the 8-bin modular jacks (2nd modular jack of claim 2). ing. First, 8-core cable core 8-1
8-8, the 4 cores 8-3 to 8-6 are connected to 8 through the connecting screws 7-3 to 7-6 and lead wires 6-3 to 6-6, respectively.
Four contacts 73-3a to 7 of the bin module jack 15
3-6a, and the remaining four wires 8-1.8-2.
8-7.8-8 each ・8 bin module jack 1
5 remaining contacts 73-1a, 73-2a, 73-7
a, 73-8a and the previously connected contact 73-3a~
Connecting screws 7-1.7-2.7-7.7-8 and lead wires are connected to contacts 6:3-3a to 63-6a of the 8-bin module jack 16, which have the same positional relationship as 73-6a. 6-1.
6-2, 6-7, and 6-8, both are connected in two-point multi-connection. Further, two contacts 73-3a of the four contacts 73-3a to 73-6a of the 8-bin module jack 15 that are not multi-connected to the 8-bin module jack 16.

73-6a and the contacts 43-4a and 43-5a of the 8-bin module jack 17, which have the same positional relationship as the remaining contacts 73-4a and 73-5a, are connected to the core wire 8-3, respectively.
．． Two points are multi-connected by 8-6. Similarly, the connected contacts 63- of the 8-bin module jack 16
Contact points 63-3a and 63-6 among 3a to 63-6a
contact 53-a of the 8-pin module jack 18 having the same positional relationship as the remaining contacts 63-4a and 63-5a.
4a and 53-58 are multi-connected at two points by core wires 8-1, 8-8, respectively.

Here, a combination of a modular plug and a modular jack with the above configuration will be explained. For example, as shown in FIG. 2(b), when the 8-bin modular plug 19 is mated to the 8-bin modular jack 15, eight cable core wires 8 to 1
．． 8-2.8-3.8-4.8-5.8-6.8-7.
8-8 are completely connected to the respective contacts 73-1b to 73-8b of the 8-bin modular plug 19. On the other hand, as shown in FIG. 2(c), when one of the two 4-pin modular plugs 20 is mated to the 8-bin modular jack 15 and the other to the 8-bin modular jack 16, 8
Main cable core 8-1.8-2.8-3.8-4.8
-5.8-6.8-7.8-8 are distributed and wired to the 8-bin module jack 15 and the 8-bin module jack 16, so the wires are distributed to the two 4-pin module jacks without leaving anything behind. Respective contacts 63-3b to 63- of the plug 20
6b. Furthermore, as shown in FIG. 2 (dl), when four 2-pin modular plugs 21 are mated to four 8-bin modular jacks 15, 16, 17 and 18, eight cable core wires 81. 8-2.8-3.8-
4.8-5.8-6.8-7.8-8 are distributed and wired to 4 8-bin modular jacks + 5.16.17 and 18, so all 4 2-pin Each contact 43-4b of the modular plug 21, 4
Connected to 3-5b. Because of this multi-connection using lead wires, it is 2 times faster than conventional ones.
Cardiac modular plug 21. It becomes possible to use the 4-core modular plug 20 and the 8-core modular plug 19,
Moreover, I no longer let the core line play.

FIG. 3 is a wiring diagram of the third embodiment.

This embodiment is a multiple modular jack according to claim 4 according to claim 3, in which P=2. This corresponds to when N = 4, and the multiple modular jack 300 has an 8-bin modular jack + 5 and 3 jacks with unnecessary contacts removed and only 2 contacts 43-4a and 43-5a. A 2-pin module jack 22 is installed. Among the 8-core cable core wires 8-1 to 8-8, 2 cores 8-4.8-5 are connected to the connecting screw 7-4.7-5 and the lead wire 6-4.6-, respectively.
5 through two contacts 7 of the 8-bin module jack 15
Connected only to 3-4a and 73-5a, and the remaining core wire 8
-1 and 8-8. Two each of 8-2 and 8-7. 8-3 and 8-6 are the remaining contacts 73-1a, 73-8a and 73-2a of the 8-bin module jack 15. and 73-7a
, 73-3a and 73-6a, and the contact 7 connected earlier
Contact points 43-4a and 43- of each 2-pin module radius 22 have the same positional relationship as 3-4a and 73-5a.
5a, connection screws 7-1 and 7-8, 7-2 and 7-7.
7-3 and 7-6 and lead wires 6-1 and 6-8.6-2
and 6-7° 6-3 and 6-6, both are 2-point multi-connected.

Therefore, the 8-bin modular plug 19 and the 2-pin modular plug 21 can be used in this embodiment.

〔Effect of the invention〕

As explained above, the present invention sequentially connects P cores from the N×P cores connected to the first modular jack of N modular jacks having N×P contacts to the second modular jack. Claim 1) in which multiple connections are repeated to the modular jack and to the second and third modular jacks, or further, (M-1) similar modular jacks are added to each of the N modular jacks. Claim 2) wherein the same multi-connection is repeated from the first to Nth modular jacks to the respective additional modular jacks.
, or N×P connected to the first modular jack
Maximum N
Bin modular plugs to P-bin modular plugs can be freely combined and used without wasting a single cable core, and 2-bin modular plugs can be used without changing one wiring. A normal phone with 4
Many terminal devices can be connected, such as key telephones with bin modular plugs and data terminals with 8-bin modular plugs, so it is possible to suppress the wiring changes that were often required in the past when changing terminal devices. effective.

[Brief explanation of the drawing]

FIG. 1(a) is a wiring diagram of the first embodiment of the multiple modular jack of the present invention, and FIG. 1(b) is the wiring diagram when a 4-pin modular plug 13 is mated to the same embodiment. Figure, Figure 1 (
c) is a wiring diagram of the same embodiment when two 2-pin modular plugs 12 are mated together, Figure 2(a) is a wiring diagram of the second embodiment, and Figure 2 (bl is the same). A wiring diagram when an 8-pin modular plug I9 is mated to the embodiment, and FIG. 2(c) is a wiring diagram when two 4-pin modular plugs 20 are mated to the same embodiment. , FIG. 2(d) shows that four 2
Wiring diagram when pin modular plug 21 is mated,
Fig. 3 is a wiring diagram of the third embodiment, Fig. 4 (al is a structural diagram of a conventional example of a modular jack, Fig. 4 (b) is a wiring diagram of the conventional example, and Fig. 5 (a) is a structural diagram of a conventional example of a modular jack. Fig. 5 is a structural diagram of another conventional example of a jack, and (bl and (cl) are wiring diagrams when a 2-bin modular plug 12 and a 4-bin modular plug I3 are mated to the same conventional example, respectively.6 -1 to 6-8...Lead wire, 7-1 to 7-8
......Connection screw, 8-1 to 8-8...Cable core wire, 9...Cable, 12...2-bin modular plug, 13. ...
...4-bin module plug, 14...4-bin module jack, 15-18...8-bin module jack, 19...8-bin module plug ,
20...4-bin modular plug, 21...
...2-bin module plug, 22...2-bin module jack, 42-1a, 42-2a, 42-
3a, 42-4a, old...4-pin modular jack side contact of Example 1, 42-2b, 42-3b...2-bin modular plug side contact of Example 1, 52-1a, 52- 2a, 52-3a, 52-4
a” --- 4-pin modular jack side contacts of Example 1, 52-1b, 52-2b, 52-3b, 52-4
b...4-bin modular plug side contacts of Example 1, 43-1a, 43-2a, 43-3a, 43-4
a, 43-5a. 43-6a, 43-7a, 43-8a53-1a,
53-2a, 53-3a, 53-4a, 53-5
a. 53-6a, 53-7a, 53-8a...
8-bin or 2-bin modular jack side contacts of Example 2.3, 43-4b, 43-5b, 53-4b, 5
3-5b... 2-pin modular plug side contact of Example 2.3, 63-1a, 63-2a, 63-3a
, 63-4a, 63-5a. 63-6a, 63-7a, 63-8a...
8-pin modular jack side contacts of Example 2, 63-3b, 63-4b, 63-5b, 63-
6b... 4-bin modular plug side contact of Example 2, 73-1a, ? 3-2a, 73-3a, 73-4
a, 73-5a. 73-6a, 73-7a, 73-8a...
8-pin modular jack side contacts of Examples 2 and 3, 73-1b, 73-2b, 73-3b, 73-4
b, 73-5b73-6b, 73-7b, 73-
8b... 8-bin modular plug side contact of Example 2.3. Figure 4 Figure 5

Claims (1)

[Claims] 1. In a multiple modular jack in which N modular jacks each having N×P contacts (N is an integer of 2 or more and P is an integer of 1 or more) are installed, an N×P cable core is provided. Among the wires, P core wires are connected to only P contacts of the first modular jack, and P core wires of the remaining (N×P−P) core wires are connected to the first modular jack. the unconnected contacts of the modular jack,
A two-point multi-connection is made between the already connected contacts of the first modular jack and the contacts of the second modular jack that have the same positional relationship, and P cores of the remaining (N×P-2P) cores are connected. The lead wire is connected to a contact point of the second modular jack having the same positional relationship as an unconnected contact point of the first modular jack and a contact point multi-connected at the tip of the first modular jack; A 3-point multi-connection is made to the 2-point multi-connected contact at the tip of the modular jack and the contact of the third modular jack having the same positional relationship, and in the same way, the lead wires of the remaining core wires are connected to the N-th A multiple modular jack characterized by repeated multiple connections up to the modular jack. 2. In addition to each of the first to Nth modular jacks, (M-1) new modular jacks having N×P contacts are installed (M is an integer greater than or equal to 2 and less than or equal to P). and each of the (M-1) modular jacks installed in addition to the i-th (i is an integer from 1 to N) modular jack is i-j (j is an integer from 2 to M).
Q of the P contacts that are not multi-connected to the other i-th modular jack of the first modular jack (Q is an integer that satisfies Q x M = P)
A two-point multi-connection is made between the contacts of the first and second modular jacks having the same positional relationship as the Q contacts of the remaining P-Q contacts, and the remaining P-Q contacts Of these, Q contacts have the same positional relationship as Q contacts out of the remaining P-2Q contacts and Q contacts multi-connected at two points at the end of the first modular jack. 1st-
3-point multi-connection between the contact point of the 2nd modular jack and the contact point of the 1st-3rd modular jack having the same positional relationship as the Q contacts multi-connected at 2-points at the end of the 1st-2nd modular jack. , in a similar manner, the remaining contacts are connected to the first
-M modular jack is repeatedly connected in multiple ways, and furthermore, from the first modular jack to the first
-The same positional relationship as the multi-connection between the terminals up to the M modular jack, from the second modular jack to the second
Multi-connection is provided up to the M modular jack, and the following are as follows.
2. The multiple modular jack according to claim 1, wherein multiple connections are repeatedly made from the Nth modular jack to the NMth modular jack in a similar manner. 3. In a multiple modular jack in which N modular jacks each having N×P contacts (N is an integer of 2 or more and P is an integer of 1 or more) are installed, P cores of the N×P core cable cores are installed. The lead wires are connected only to the P contacts of the first modular jack, and the P core leads of the remaining (N×P−P) core wires are connected to only the P contacts of the first modular jack. Contacts that are not
A two-point multi-connection is made between the already connected contacts of the first modular jack and the contacts of the second modular jack that have the same positional relationship, and P cores of the remaining (N×P-2P) cores are connected. The lead wire is connected to the unconnected contact point of the first modular jack and the contact point of the third modular jack that has the same positional relationship as the previously two-point multi-connected contact point of the second modular jack. Dots are multi-connected,
A multiple modular jack characterized in that the lead wires of the remaining core wires are repeatedly connected at two points between the first modular jack and the Nth modular jack in a similar manner. 4. The multiple modular jack according to claim 1, wherein unused contacts are removed.