JPH0477706A - Optical power feeding connecting system - Google Patents

Abstract

PURPOSE:To realize optical connection and connection for power feeding only with one cable by using the cable integrating an optical fiber cable and a cable for power feeding. CONSTITUTION:An optical power feeding connector part 3a, which is provided on a personal computer main body 1 equipped with an optical fiber connection part and a connection part for power feeding connection is connected with an optical power feeding connector part 3b provided on a peripheral equipment 2 by optical power feeding connectors 4a and 4b provided on an optical feeding cable 5 integrating the optical fiber and the feeding cable. By using this optical feeding cable 5 and the optical power feeding connectors 4a and 4b, optical connection and feeding connection can be simultaneously executed.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to an optical power supply connection system that realizes an optical connection and a power supply connection IR using a module.

[Conventional technology]

As described in Japanese Unexamined Patent Application Publication No. 1-189617, the conventional technology aims to improve usability and reduce costs when installing optical fibers with a communication frequency of 1.5%, and to improve the usability and reduce the cost. For the purpose of the mod.

In addition, by forming it to the size of ifa, a commercial power supply mounting frame [can be used and a commercial power supply connection! It is possible to install both at the same time.

That is, the connector 50 according to the prior art shown in Figure @5 includes a body 53 that includes a pair of protrusions S2 in a recess 1fl151 on the front surface, and a cap 54 that is detachably attached to the back surface of the O body 33. The body is constructed by

The protrusions 32 in the body 35 are both open at their distal ends and hollow inwardly opening, and house the optical fiber 35 introduced into the body 35 through the cap 54 therein.

The connector 50Fi configured in this way can be used for indoor installation of wall outlets, switches, etc. for commercial power! In the instrument,
It is made of the same module as the widely used one, and is the same size as one i&basic module. Mounting +1 [attached to the same insulated mounting frame 36 used in the instrument.

And while the mounting frame 36 corresponds to the basic module S@, the connector 30 corresponds to the basic module 1i!
In addition to the connector 30, the mounting frame 56 has a size equivalent to one basic module O, 2 if it is a distributor, and a size equivalent to two basic modules. arrangement II
! If it is a device, one can be attached.

Tab p1 As shown in the embodiment of FIG. 6, insulated mounting frame 5
6, it is possible to connect a commercial power supply connector 57 for a machine to be connected to the connector 30 via the optical fiber 1 and a DC power supply connector (not shown).

[Problem to be solved by the invention]

In the above conventional technology, in the connector part of the optical fiber cable, the optical connection by the optical fiber cable and the power supply connection from the commercial power source, etc. are realized by using modular gourds with the same shape. It was possible to connect multiple optical fiber cables and power supply cables.

However, cable processing and reduction of the number of cables are not considered, and optical fibers and power supply cables are not considered.
There is a problem in that the connectors and cables are separate, and as shown in FIG. 5, an expanded number of cables are required to connect the devices.

An object of the present invention is to reduce the number of connecting couples in II connections between devices and to facilitate the distribution of the equipment.

[1IlIlt-Means for solving] In order to achieve the above purpose, a cable that integrates an optical fiber cable and a power supply cable is used to realize optical connection and power supply connection in one cable. It is.

In addition, in order to connect the above-mentioned cable with a connector that has the same shape as a conventionally widely used connector, the configuration allows power supply connection at the engagement part of a conventional connector that has been used for fixing optical fiber cables. By doing so, the engaging portion of the connector may be used both for fixing the optical fiber cable and for power feeding connection.

[Effect]

The optical power supply cable configured as described above is a combination of an optical fiber cable and a power supply cable. Since this cable is integrated, it is easy to handle the cable, there is less possibility of miswiring, and the number of cables can be reduced.

Spread. Connector part attached to optical power supply cable,
When configured with an optical fiber connection section for optical connection and a connection section for power supply, connection for optical power supply can be performed at the same time.

〔Example〕

Hereinafter, a first embodiment of the present invention will be explained with reference to Section 1 and FIG. 2.

FIG. 1 shows an optical power supply cable 5, an optical power supply connector 4 m,
4b, optical fiber connection parts 4m and 4b, and an external view showing an engaging part 12 for power feeding.

In this embodiment, an optical power supply connector ssa, which has an optical fiber connection part and a connection part for power supply connection, is provided on the personal computer body 1, and peripheral devices! An optical power feeding connector (4m, +b) provided on an optical power feeding cable 5 that integrates an optical fiber and a power feeding cable.
(Including the optical fiber connection part and the connection part for the feed 1* wire in the same connector), optical connection and power feed connection are realized at the same time.

The optical power supply connectors 4 and 4b have the same shape as the AC connector section conventionally provided for power supply connection between the personal computer main body and peripheral devices, except that the optical power supply connectors 4 and 4b have optical fiber VcR sections 6m and 6b.

Diagram K2 shows the optical power supply connector part 5a of the personal computer body 1,
It shows the joint portion of the optical power supply cable 5 with the optical power supply connector 4a.

In optical connections, in the case of transmission, the transmitted electrical signal is
It is converted into an optical signal by the electrical/optical conversion circuit 7.

Pass through the splitter 11 and connect the optical power supply cable 57 to peripheral devices! ! Sent occasionally. Also, Uke 1! In case O, the optical signal sent from the peripheral device through the optical power supply cable 5t is split by the splitter 11, converted into an electrical signal by the opto-electric conversion circuit 8, and input to the personal computer main body.

As described above, data i10 between devices is realized by optical fiber connection.

9. In the engaging part 12 for power supply to the same #, the commercial power supply wiring IIa
A power supply connection similar to that of the main stem is made.

As a result, the computer body 1. CRT2b, printer 21
Cable wiring when constructing a PC system by W
c! If the conventional cable shown in Fig. 1 was used, a total of four cables would be required for the data 110 connection wt% power supply connection using the optical connection 12, but according to this embodiment, only four cables were required. As shown in Figure 4, there is an effect that the number of connecting cable pipes can be halved to two in total.

Furthermore, in the case of peripheral devices that do not have an optical connection, it is possible to simply use it as an AC connection for power supply.

FIG. 97 is a sectional view showing a connection between devices using a connector according to the present invention having a lock-like structure, which is a 20th practical example.

The optical fiber connection parts 61m and 41b in the figure are
5 is a guide sleeve and the jack 61m, 41b
and the guide sleeve 15 constitute a locking mechanism.

Further, the jacks 41m, 61b and the guide sleeve 15 have the same dimensions as connectors widely used for connecting optical fibers.

In the above connector, in order to realize the present invention, a guide 16t, which is a fixed part, is provided on the outside of the guide sleeve 15.
- providing respective guide sleeves 15 and guides 16;
The engaging part [is provided].

That is, in the optical fiber connecting portion 61, optical connection is performed with the axial deviation t kept small by the dlbFi guide sleeve 15 and the guide 16.

Moreover, the power feeding connection is realized by the engaging portion 121 provided on the guide sleeve 15 and the guide 16.

According to this embodiment, since optical connection is possible between the jacks 61m and 61b and the guide sleeve 15, when optical connection is made with a peripheral device that does not require power supply connection, only optical connection can be made without changing the connector part. It also has the effect of being achievable.

FIG. 11 shows the external appearance rIA of the fifth embodiment.

FIG. 8 shows an optical power supply cable in which the optical fiber 14 and the power supply cable 13 according to the second embodiment are integrated.

The optical fiber 14 and the power supply cable 15 are coated with an insulating coating 17
The optical fiber 14, the power supply cable 13, and the insulating liquid #17 form a layered structure in the optical power supply cable.

In the embodiment of the present invention described above, one optical fiber and a plurality of power supply cables are integrated to perform optical connection and power supply connection pipe between the personal computer main body and peripheral equipment, but even if there are a plurality of optical fibers, There is no bottle.

FIG. 9 shows a cross-sectional view of a connecting portion in the fifth embodiment in which two optical fibers and one power supply cable are integrated.

In this embodiment, in the optical power supply cable 52 according to the present invention,
Optical fibers are prepared for transmission and reception, and data 110 connection is realized by optical connection.

In other words, in the case of transmission, the transmitted data is an electrical signal,
The signal is converted into an optical signal by the electrical/optical conversion circuit 7, and transmitted to a connected device via an optical fiber prepared for transmission.

Further, an optical signal transferred via an optical fiber prepared for reception is received by an optical-to-electrical conversion circuit 8, converted into an electrical signal, and inputted. Furthermore, the power supply connection is made by the connection [12].

FIG. 10 shows a fourth embodiment of the optical power supply according to the present invention!
#This is an example used in a network connected by optical fiber using the parent-parent method.

In the figure, 18 is a host combiator, 19m and 19b are terminal devices connected to the host combiator 18 by an optical fiber 21, and 19G is a terminal device connected to the host combinator 18 by electrical signals such as H and R. A connecting device connects an optical signal on a 2OAAB network to another network as an optical signal, and a connecting device converts the optical signal on a 20BA network into an electrical signal and connects it to another network.

The host computer 18 is supplied with power through the power supply cable 131, and at the same time, through the optical power supply cable 55, the connection devices 20m, 20b and the terminal device t? teeth,
Supplies 19bK power.

That is, when the host combination controller 18 starts up, power is supplied to the connected device, and there is a risk that network connection will be possible. Furthermore, terminal device 19m, 1? B has already been connected to KIIJ & power, so the terminal device j? A power supply cable was required for terminal devices connected only to data I/O, such as terminal devices 19m and 1?c. b
No power cable is required.

In addition, a power supply device 22t capable of supplying power to devices in the network is provided, and by supplying power from the power supply device 22 to the optical power supply cable 55 that constructs the network, 18 host combinations in the figure can be connected. The power supply cable 13 also becomes unnecessary. In this way, according to Honjitsu 1m4R, of the two major limitations of conventional terminal equipment installation, network connection and power supply, only the connection of optical power supply cables needs to be considered, and a large number of cables can be crowded. There is no need to move around, and there is an effect that the freedom t in installing the device is increased.

As mentioned above, the connection according to the present invention can be realized with a connector that has a shape that can be connected with conventionally widely used connectors, so when connecting devices, only one of the optical and power supply connections is required. This has the effect of allowing you to use it even if you don't use it.

Furthermore, since it is possible to connect the power supply between devices even if the data i10 is connected via a network, etc., there is also the effect that it becomes possible to remotely control the switching of the power supply between the connected devices. .

[Effects of the Invention] According to the present invention, the optical connection and the power supply connection can be realized simultaneously with one cable, so the number of cables can be reduced and the cable length can be reduced. Rotate a little, place sf′f
: Effective in making karma easier.

[Brief explanation of the drawing]

Figure 1g1 is an external view of the optical power supply cable and the connection between devices according to the embodiment of the present invention, Figure 2 is a block diagram showing the connection between the PC main body and the optical power supply cable, and Figure IIs is a diagram showing the cable connection in a conventional pan computer system. Connection diagram, 4th
The figure shows the cable resistance according to the present invention! FIG. 5 is a perspective view of an optical outlet according to the prior art, FIG. 6 is a perspective view of the optical outlet mounted on a mounting frame, and FIG. 7 is a connector with a locking mechanism according to the present invention. - A sectional view at the 9 o'clock position, Fig. 8 is a sectional view of an optical power supply cable of the optical power supply connection method according to the second embodiment of the present invention, and Fig. K9 is a cross section of a connecting part for optical connection using two optical fibers. 10 is a block diagram showing an embodiment in which the present invention is applied to a network, and FIG. 11 is an external view of the optical power supply connection system of the Wc2 embodiment according to the present invention. Explanation of symbols 3-・Optical power supply connector s, 4=・Optical power supply connector, 5・
...Optical power supply cable, 9...Optical fiber, 12-...
Engagement part, 13... Power supply cable, 14... Data i
/ 0 Cable, 15-...Guide°Sleeve% 1
8...Host combination abnormality% 19-terminal device

Claims (1)

[Claims] 1, 1 or 2 or more optical fiber cables and 1 or 2
An optical power supply cable is provided that integrates the above power supply cable, and each of the optical fiber cable and the power supply cable has one or more connectors at both ends, and the connectors perform optical connection and power supply connection. This optical power supply connection method is characterized by: 2. It has one or more optical fiber cables, one or more power supply cables, and optical power supply connectors to which these cables are connected at both ends of these cables, and the connectors make optical connections. An optical power supply connection system characterized by having an optical fiber connection section for connection and a connection section for power supply connection. 3. An optical power supply connection system comprising the optical power supply cable according to claim 1 and the optical power supply connector according to claim 2. 4. In the optical power feeding connector according to claim 2, an engaging part for making the power feeding connection is provided, and the engaging part serves both for fixing the optical fiber connection part and for the power feeding connection, so that the optical connection and the power feeding connection can be made. At the same time, this is an optical power supply connection method. 5. In the above-mentioned optical power supply connector, the engaging part for power supply connection, which has the same parts as those for commercial power supply wiring equipment, and the optical fiber connection part for optical connection, have the same parts as those for commercial power supply wiring equipment. 4. The optical power supply connection system according to claim 2, wherein the optical power supply connection system is provided in a module having an external shape. 6. In the optical power supply connector, a locking mechanism having the same dimensions as the optical fiber connector having a locking mechanism, and a fixing part for fixing the optical fiber connection part;
4. The optical power supply connection system according to claim 2, further comprising two or more engaging portions for power supply connection. 7. An electronic device characterized by having one or more optical power supply connector sections having an optical fiber connection section for optical connection and a connection section for power supply connection.