JPH08293229A - Wiring changeover device - Google Patents

Abstract

PURPOSE: To decrease the use of connector in connecting between wiring changeover devices by changing over the switch of the first and/or the second changeover module part with a control signal given from a control part. CONSTITUTION: The first changeover module part 2 consists of a switch box having switches furnished corresponding to the connecting lead wires 21-24 and ones 25-28 which are connected with the primary side connectors 11-14 and secondary side connectors 15-18, respectively. The second changeover module part 3 is composed of a switch box and a multi-port repeater. Connections of the connectors 11-14 with the ones 15-18 are generated in combination of the one-to-one connection and one-to-many connection by changing over the switches of the module 2 and/or the module 3 in conformity to a control signal given from a control part. Thereby the desired connections are generated, and it is possible to decrease of the use of connector when the connection between the wiring changeover devices is to be performed.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wiring switching device used in an information wiring system.

[0002]

2. Description of the Related Art Generally, in an information wiring system in an intelligent building, devices such as data hosts and terminals, hubs, bridges, routers and voice telephones are disclosed in, for example, Japanese Unexamined Patent Publication No. 1-143172. It is often wired and managed by such a wiring switching device. Such a wiring switching device can be used for layout changes due to personnel changes or department changes, or expansion of hosts, terminals, etc.
It corresponds to the relocation, and it is for switching the connection of terminals and hosts without changing the already wired part, and recently, there is also a function with the function of automatically switching the connection It is considered. A plurality of connectors are installed on each of the primary side and the secondary side of the wiring switching device, and the primary side device and the secondary side device are connected via these connectors. -ing

[0003]

However, when constructing a large-scale network in a large building or the like, a plurality of wiring switching devices may be connected in multiple stages via connectors. As the number of wiring switching devices connected in multiple stages increases, the number of connectors used only for multi-stage connection increases. In particular, as the number of connections across the wiring changer increases, the number of connectors used only for multi-stage connections increases significantly. For example, as shown in FIG.
The wiring switching devices 1a and 1b are connected in two stages, and the wiring switching device 1
The terminals 7a and 7b are respectively connected to the primary side connectors 12a and 13a of a, and the secondary side connector 16 of the wiring switching device 1b.
If the host 5 is connected to b and 17b, the terminal 7
In order to connect the a and 7b to the host 5, two wires are required between the wiring switching devices 1a and 1b, and the secondary side connector 16a of the wiring switching device 1a, A total of four connectors 17a and the connectors 12b and 13b on the primary side of the wiring switching device 1b are occupied for the two-stage connection. If more wiring switching devices are connected in multiple stages, more connectors will be occupied. As described above, when the wiring switching device is connected in multiple stages, there is a problem that the number of connectors occupied for the multi-stage connection increases and the number of connectors available for connecting devices such as terminals decreases. It was

The present invention has been made in view of the above points, and an object of the present invention is to provide a wiring switching device capable of reducing the use of a connector when connecting the wiring switching devices. To do.

[0005]

According to the first aspect of the present invention,
In a wiring switching device having a primary side connector and a secondary side connector and capable of switching the connection between the two,
A first switching module unit having a switch for one-to-one switching between the primary side connector and the secondary side connector, and one-to-many switching between the primary side connector and the secondary side connector A second switching module unit having a multiport repeater unit, each connector, a switch for switching the connection between the first switching module unit and the multiport repeater unit, and a control unit for controlling each unit. It is characterized by having.

According to a second aspect of the invention, in the first aspect of the invention, the identification number of the wiring switching device itself, the primary side connector number, the secondary side connector number, and the first switching module. Control data composed of an attribute for designating whether to make a one-to-one connection between the primary side connector number and the secondary side connector number by the section or a one-to-many connection by the multiport repeater section Is externally input to the control unit, and the control unit controls each unit based on the control data.

[0007]

According to the first aspect of the invention, in the wiring switching device having the primary side connector and the secondary side connector and capable of switching the connection between the two, the control signal from the control section is used. By switching the switch of the first switching module unit and the switch of the second switching module unit,
Regarding connection between primary side connector and secondary side connector, 1: 1
By combining the connection of and the one-to-many connection,
The desired connection can be made.

According to the invention of claim 2, claim 1
In the invention described, an identification number of the wiring switching device itself,
A one-to-one connection is made between the primary connector number, the secondary connector number, and the first switching module section for the primary connector number and the secondary connector number. By inputting control data composed of an attribute for designating one-to-many connection by a unit from an external terminal and controlling each unit based on the control data in the control unit, You can connect.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a schematic configuration diagram showing an embodiment of a wiring switching device according to the present invention. Reference numeral 1 denotes a wiring switching device, which includes primary side connectors 11 to 14 and secondary side connectors 15 to 18 and a connector 19, which are installed in a housing thereof, a switching module unit 2, a switching module unit 3 and a control unit 4. To have. The switching module unit 2 includes the primary side connectors 11 to 14
And one-to-one connection switching between the secondary side connectors 15-18. The switching module unit 2 is, for example, as shown in FIG. 2, connection lines 21 to 2 connected to the primary side connectors 11 to 14 and the secondary side connectors 15 to 18, respectively.
4, switches 201 to 25 provided corresponding to No. 4, 25 to 28
A switch box 200 having 216,
Each switch 201 is controlled by the control signal 41 from the control unit 4.
On-off of the connection lines 21 to 24,
The one-to-one connection between 25 and 28 is switched. That is, for example, when the switch 201 is turned on, the connection line 21 and the connection line 25 are connected, when the switch 202 is turned on, the connection line 21 and the connection line 26 are connected, and when the switch 205 is turned on, the connection line 22 and the connection line 22 are connected. The connection line 25 is connected. As shown in FIG. 3, the switching module unit 3 includes a switch box 300.
And a multi-port repeater 400. The switch box 300 includes switches 301 to 308, and each of the switches 301 to 308 is, for example, a rotary switch or the like. The switches 301 to 304 connect the connection lines 31 to 34 to the primary side connectors 11 to 14 to the connection lines 21 to 24 to the switching module unit 2 or the connection lines 309 to 312 to the multiport repeater 400. Either or not connect to either. The switches 305 to 308 are the secondary side connector 15
To the connection lines 35 to 38 to the module unit 2
To the connection lines 25 to 28 to the multiport repeater 400, or to the connection lines 313 to 316 to the multiport repeater 400, or to neither of them. These switchings are performed by a control signal from the control unit 4 input via the control line 42. The multi-port repeater 400 outputs a signal input via the connection lines 309 to 316 to all the other connection lines 309 to 316.

The control section 4 sends a control signal to the switching module section 2 and the switch box 300 via the control lines 41 and 42, and this control signal is inputted from the terminal through the connector 19. It is output based on the control data. This control data includes PBX, hub, bridge, which are connected to the respective connectors of the wiring switching device 1.
Router, gateway, host, phone, computer,
Connection data between devices such as terminals and other wiring switching devices 1
It is composed of connection data with
(Simple Network Managementmen
t Protocol) message sent from the terminal. The control data is the wiring switching device I.
It consists of four fields: D, primary connector number, secondary connector number, and attribute. The wiring switching device ID is
This is for designating an identification number for identifying a wiring switching device when controlling a plurality of wiring switching devices from one terminal. The primary-side connector number and the secondary-side connector number are for designating the connector numbers to be connected by the wiring switching device designated by the wiring switching device ID. The attribute is for designating whether the switching module unit 2 makes a one-to-one connection between the primary-side connector and the secondary-side connector or the multi-port repeater 400 makes a one-to-many connection. In the present embodiment, the attribute "1" indicates the former connection, and the attribute "0" indicates the latter connection.

Next, the operation of this embodiment will be described. Now, consider the case of constructing an information wiring system as shown in FIG. That is, using the three wiring switching devices 1a to 1c,
The host 5, the router 6, and the terminals 7a to 7f are connected to each other. 11a and 12a are wiring switching devices 1a
15a to 17a are secondary side connectors of the wiring switching device 1a. Reference numerals 11b and 12b are primary side connectors of the wiring switching apparatus 1b, and 15b is a secondary side connector of the wiring switching apparatus 1b. Reference numerals 11c to 14c denote primary side connectors of the wiring switching device 1c.
Reference numeral 8c is a secondary side connector of the wiring switching device 1c. Here, the identification numbers of the wiring switching devices 1a to 1c are each 000.
1, 0002 and 0003, the connector numbers of the primary side connectors 11a and 12a of the wiring switching device 1a are I and J, and the connector numbers of the secondary side connectors 15a to 17a are A.
To C, the primary side connector 11b of the wiring switching device 1b,
The connector number of 12b is K and L, and the secondary side connector 1
The connector number of 5b is D, the connector numbers of the primary side connectors 11c to 14c of the wiring switching device 1c are M to P, and the connector numbers of the secondary side connectors 15c to 18c are E.
~ H. First, control data (0001, I, A, 1) from the terminal (not shown) to the wiring switching device 1a,
(0001, J, B, 0), (0001, J, C, 0)
An SNMP message with is sent. Here, the control data (0001, I, A, 1) is the wiring switching device 1
a, it means that the connector 11a on the primary side and the connector 15a on the secondary side are connected in a one-to-one relationship, and the control data (0001, J, B, 0) is the wiring switching device 1
In a, it means that the connector 12a on the primary side and the connector 16a on the secondary side are connected via the multiport repeater 400, and the control data (0001, J,
C, 0) means that in the wiring switching device 1a, the primary side connector 12a and the secondary side connector 17a are connected via the multiport repeater 400. In the wiring switching device 1a that has received the control data via the connector 19, the control unit 4 sends a control signal to each unit to switch the switch. That is, the switch 301 of the switch box 300 connects the connection line 31 and the connection line 21, and the switch 305 connects the connection line 25.
By connecting the connection line 21 and the connection line 35 with each other, and further connecting the connection line 21 and the connection line 25 with the switch 201 of the switch box 200 in the switching module unit 2 to connect the connector 11a and the connector 15a. Also,
The switch 302 of the switch box 300 connects the connection line 32.
And the connection line 310 are connected to each other, the connector 1
2a is connected to the multiport repeater 400. By connecting the connection line 36 and the connection line 314 with the switch 306, the connector 16a is connected to the multiport repeater 4
00 to connect. By connecting the connection line 37 to the connection line 315 by the switch 307, the connector 17a is connected to the multiport repeater 400. In this way, the connector 16a and the connector 17a are connected to the connector 12a via the multiport repeater 400. Therefore, the wiring switching devices 1a to 1c are used for the operation of FIG.
The information wiring system shown in can be constructed.

The operation of the controller 4 will be described in more detail. In the control unit 4, the control data (0001, I, A,
1), (0001, J, B, 0), (0001, J,
When C, 0) is received, as shown in FIG. 6, the correspondence table showing the correspondence between the connector number held in advance and the switch number of the switch box 300 causes the primary side connector to be connected as shown in FIG. A correspondence table showing a correspondence relationship and attributes between the switch number to be connected and the switch connected to the secondary side connector is created, and using this correspondence table, the switch 30 for the switch box 300 of the switching module 3 is switched to the switch 30.
1 to 303 and the control signals for controlling the switches 305 to 307 are sent. In addition, as shown in FIG. 8, the switch table of the switch box 300 and the connection line number between the switching module unit 3 and the switching module unit 2 that are held in advance are used to perform switching as shown in FIG. A correspondence table of connection line numbers between the module unit 3 and the switching module unit 2 and their attributes is created. As shown in FIG. 10, the switching module unit 3 and the switching module unit 2 on the primary side that are held in advance are held.
Connection line number, the connection line number between the switching module unit 3 and the switching module unit 2 on the secondary side, and the switch box 20.
As shown in FIG. 11, a correspondence table between switch numbers and attributes of the switch box 200 is created from the correspondence table between the switch numbers of 0. Based on the correspondence table of FIG. 11, the switch number 201 whose attribute is “1” is turned on,
A control signal for turning off the other switches having the attribute of “0” is sent to the switching module unit 2.
The flow of operation of the control unit 4 and each unit controlled by the control unit 4 is shown in the flowchart of FIG.

Control data (0002, K, D, 0), (0) is sent from the terminal (not shown) to the wiring switching device 1b.
002, L, D, 0) is sent. Also in the wiring switching device 1b, processing is performed according to the flow shown in the flowchart of FIG. That is, in the wiring switching device 1b that has received the control data via the connector 19, the control unit 4 sends a control signal to each unit, and the switch 301 of the switch box 300 connects the connection line 31 and the connection line 309 to each other. 302
The connection line 32 and the connection line 310 are connected by, and the connection line 35 and the connection line 313 are connected by the switch 305. Here, the other switches of the switch box 300 are kept in a state of not connecting any connection lines. Connection lines 309, 310, 313 are multiport repeaters 4
00, the connectors 15b, 11b, and 12b are connected to each other.

Control data (0003, M, E, 1), (0) is sent from the terminal (not shown) to the wiring switching device 1c.
003, N, F, 1), (0003, O, G, 1),
An SNMP message with (0003, P, H, 1) is sent. Also in the wiring switching device 1c, processing is performed according to the flow shown in the flowchart of FIG.
That is, in the wiring switching device 1c that has received the control data via the connector 19, the control unit 4 sends a control signal to each unit, and the switch 301 of the switch box 300 connects the connection line 31 and the connection line 21 to each other. Thirty
2, the connection line 32 and the connection line 22 are connected, the switch 303 connects the connection line 33 and the connection line 23,
The switch 304 connects the connection line 34 and the connection line 24, the switch 305 connects the connection line 35 and the connection line 25, the switch 306 connects the connection line 36 and the connection line 26, and the switch 307 connects the connection line. 37 and the connection line 27 are connected, and the switch 308 connects the connection line 38 and the connection line 28. In addition, the switch 201 of the switch box 200 in the switching module unit 2 connects the connection line 21 and the connection line 25 to each other.
The connection line 22 and the connection line 26 are connected by 06, the connection line 23 and the connection line 27 are connected by the switch 211, and the connection line 24 and the connection line 28 are connected by the switch 216. Therefore, the connector 11c and the connector 15c
Are connected, the connector 12c and the connector 16c are connected, the connector 13c and the connector 17c are connected, and the connector 14c and the connector 18c are connected.

As described above, according to the present embodiment, when the wiring system as shown in FIG. 4 is constructed, the connector used for connecting the three wiring switching devices 1a to 1c is the wiring switching device. Only one unit is required for each of the units 1a to 1c.

The connectors may be, for example, RJ4
5 may be used, or another type such as a connecting block may be used. The number of connectors of the wiring switching devices 1a to 1c is not limited to the number in this embodiment. Further, the number of the wiring switching devices 1a to 1c is not limited to three, and any number may be used as much as possible.

Further, in the present embodiment, the control data is inputted through the connector 19, but between the primary side connectors 11-14 and the secondary side connectors 15-18 and the switching module section 3. For example, if a multiplex reception unit (not shown) having a function of identifying control data and sending it to the control unit 4 is provided, the primary side connectors 11 to 14 and the secondary side connector can be provided without separately providing the connector 19. It is possible to input control data via 15 to 18, and it is possible to reduce the number of connectors.

[0018]

As described above, according to the first aspect of the invention, the wiring switching device having the primary side connector and the secondary side connector and capable of switching the connection between them is controlled. By switching the switch of the first switching module unit or the switch of the second switching module unit with a control signal from the unit, regarding the connection between the primary side connector and the secondary side connector, one-to-one connection and one pair By combining with many connections, I tried to make the desired connection,
It has been possible to provide a wiring switching device that can reduce the use of connectors when connecting the wiring switching devices.

According to the invention of claim 2, in the invention of claim 1, the identification number of the wiring switching device itself and 1
Whether to make a one-to-one connection between the number of the secondary connector, the number of the secondary connector, and the number of the primary connector and the number of the secondary connector by the first switching module unit, or a multiport repeater unit By inputting control data composed of an attribute for designating whether to make a one-to-many connection by using an external terminal and controlling each unit based on this control data in the control unit, By inputting control data from this terminal, the desired connection can be established.

[Brief description of drawings]

FIG. 1 is a schematic configuration diagram of a wiring switching device according to an embodiment of the present invention.

FIG. 2 is a schematic configuration diagram of a switching module unit 2 according to the above.

FIG. 3 is a switching module unit 3 according to the wiring switching device of FIG.
2 is a schematic configuration diagram of FIG.

FIG. 4 is a system configuration diagram when three wiring switching devices of FIG. 1 are used.

FIG. 5 is a correspondence table for configuring the above system.

6 is a correspondence table for configuring the system of FIG.

7 is a correspondence table for configuring the system of FIG.

8 is a correspondence table for configuring the system of FIG.

9 is a correspondence table for configuring the system of FIG.

10 is a correspondence table for configuring the system of FIG.

11 is a correspondence table for configuring the system of FIG.

12 is a flowchart showing an operation of the wiring switching device according to the system of FIG.

FIG. 13 is a system configuration diagram using a conventional wiring switching device.

[Explanation of symbols]

 1, 1a to 1c Wiring switching device 2 Switching module unit 3 Switching module unit 4 Control unit 11 to 19 connector 21 to 28 connection line 31 to 38 connection line 41, 42 control line 200 switch box 201 to 216 switch 300 switch box 301 to 308 switch 400 multi-port repeater

[Procedure amendment]

[Submission date] October 3, 1995

[Procedure Amendment 1]

[Document name to be amended] Statement

[Name of item to be corrected] Brief description of the drawing

[Correction method] Change

[Correction content]

[Brief description of drawings]

FIG. 1 is a schematic configuration diagram of a wiring switching device according to an embodiment of the present invention.

FIG. 2 is a schematic configuration diagram of a switching module unit 2 according to the above.

FIG. 3 is a switching module unit 3 according to the wiring switching device of FIG.
2 is a schematic configuration diagram of FIG.

FIG. 4 is a system configuration diagram when three wiring switching devices of FIG. 1 are used.

5 is a correspondence diagram table for configuring the system of the same.

6 is a corresponding diagram table for configuring the system of FIG.

7 is a corresponding diagram table for configuring the system of FIG.

8 is a corresponding view table for configuring the system of FIG.

9 is a corresponding view table for configuring the system of FIG.

10 is a correspondence diagram table for configuring the system of FIG.

11 is a correspondence diagram table for configuring the system of FIG.

12 is a flowchart showing an operation of the wiring switching device according to the system of FIG.

FIG. 13 is a system configuration diagram using a conventional wiring switching device.

[Description of Reference Signs] 1, 1a to 1c Wiring switching device 2 Switching module unit 3 Switching module unit 4 Control unit 11 to 19 Connector 21 to 28 Connection line 31 to 38 Connection line 41, 42 Control line 200 Switch box 201 to 216 switch 300 switch box 301-308 switch 400 multi-port repeater

Claims (2)

[Claims] 1. A wiring switching device having a primary-side connector and a secondary-side connector and capable of switching the connection between the two.
A first switching module section having a switch for pair-to-one switching, a multi-port repeater section for one-to-many switching between a primary side connector and a secondary side connector, each connector, and the first section. A switching module section having a switching module section and a switch for switching connection with the multi-port repeater section, and a control section for controlling each section. . 2. An identification number of the wiring switching device itself, a primary side connector number, a secondary side connector number, and the first number.
Of the switching module unit for the primary side connector and the number of the secondary side connector for one-to-one connection or the multiport repeater unit for one-to-many connection. 2. The wiring switching device according to claim 1, wherein the control data is input from the outside to the control unit, and the control unit controls each unit based on the control data.