KR100611637B1 - Automatic Main Distribution Frame - Google Patents

Abstract

In an automatic MDF apparatus for converting electrical connection and disconnection between a telephone station and a subscriber station using a computer, etc., the automatic MDF apparatus is formed in such a manner that the insulating plates having a plurality of input / output wirings and control wirings face each other. It is possible to change the location of the connection obstacle and change the wiring connection by using a transfer device that minimizes the installation space by enabling the wiring connection device to be electrically connected between the wires, thereby enabling communication and positioning of the connection device. MDF device.

MDF, Telecom, Matrix Board

Description

Automatic Main Distribution Distribution Device

1 is a partially cutaway perspective view of a conventional multilayer substrate

2 is a device example applied to the present invention

3 is a perspective view of a connecting portion;

4 is a cross-sectional view of the connecting portion;

5 is a block diagram of the connecting portion feeder

Explanation of symbols for main parts of the drawings

1: conventional matrix switch substrate 2: conventional wiring pattern

3: connection pin hole 4: connection pin

5 matrix switch substrate of the invention 6 input wiring pattern

7: output wiring pattern 8: control wiring pattern

9 separator 10 connection

11: splice hole 12: splice

13: magnetic material 14: transfer hole

15: moving device 16: transfer bar

17: transfer guide pipe 18: surveillance camera

19: camera wire 20: camera lighting

21: lighting wire 22: electromagnet

23: magnet wire

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a connection device of a matrix switch substrate 5 for MDF, and more particularly, to electrical connection or disconnection between wirings of a matrix switch substrate 5 used in a main distribution frame (MDF). The present invention relates to a device for letting the user.

In general, the matrix switch substrate 1 for an MDF includes an insulating plate formed of an insulating member for connecting and disconnecting a communication line between an exchanger and a subscriber, as shown in FIG. 1, and between two wiring patterns 2 formed to cross each other on the surface of the insulating plate. By forming the connecting pin holes 3 in the holes and inserting the connecting pins 4 in the holes, the wirings formed on the surface of the insulating plate are electrically connected to each other.

In the conventional matrix switch substrate 1, the connecting pin hole 3 is a hole drilled at right angles to the wiring formed on the surface of the substrate 1 so that the connecting pin 4 is connected to the connecting pin hole 3. It is a structure which interconnects the predetermined wiring formed in both surfaces of the board | substrate 1 by the method of inserting in the inside. This structure is because the wiring patterns 2 are in line contact with the connecting pin 4 (that is, since the inner circumferential surface of the wiring pattern 2 in contact with the connecting pin 4 is in contact with the connecting pin 4). The contact area between (2) and the connection pins 4 is very small, so that a large number of contact failures occur, and the wiring pattern 2 is separated from the insulating plate when the connection pins 4 are removed from the connection pin holes 3. have.

As the connection device using the connection pin 4, a robot is used. In the case of using a robot, the operation of holding the connection pin 4, the operation of removing the connection pin 4 from the connection pin hole 3, the operation of moving the connection pin 4 to a desired position, and the connection of the connection pin 3 An operation of putting in the pin hole 4 and an operation of placing the connecting pin 4 are required, which complicates the structure and control of the robot. And since the movement operation of the connection pin 4 is made on the matrix switch board | substrate 1, when stacking the matrix switch board | substrate 1, it is difficult to reduce the space | interval between a board | substrate and a board | substrate below a fixed level.

The present invention has been devised to solve the above-mentioned problems, and the input and output of upper and lower connectors are provided by placing a connection part provided with a connector between the matrix switch substrates for the MDF for electrical connection or disconnection between the wirings of the matrix switch substrate used for the MDF. It is an object to provide a device configuration which makes mechanical contact or disconnection with respect to a wiring pattern.

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The present invention for achieving the above object,
A plurality of insulating plates on which copper foil patterns of an input wiring pattern, an output wiring pattern, and a control wiring pattern are formed;
Separation plate which is installed at right angles so that each of the insulating plates to maintain a constant interval so that each of the copper foil wiring surface of the copper foil pattern of the input wiring pattern, output wiring pattern, control wiring pattern face each other,
In the automatic main wiring distribution connection device provided with the matrix switch board | substrate which is the insulating board of several layers which form the crossing point between the copper foil surface which is the said input wiring pattern, and the copper foil surface which is the said output wiring pattern, by the height of the said separation plate,
A connection part inserted between a plurality of the matrix switch substrates and a space formed of separators,
The connection part is provided therein, and has an electrically conductive connector provided in a form to maintain electrical elasticity between the copper foil surfaces of the input wiring pattern, the output wiring pattern and the control wiring pattern facing each other. ,
The connecting portion has a magnetic body formed on one side thereof with a transfer hole for receiving the help of an external transfer device,
An automatic main wiring distribution connection device including the connection part main body and the magnetic material to be attached at regular intervals is provided.
The copper foil wiring of the input wiring pattern and the output wiring pattern for two or more communication, the copper foil wiring which is the control wiring pattern for locating one or more connection devices side by side on the insulating plate, and the input wiring pattern, the output wiring pattern and The wiring connection of the control wiring pattern is provided independently of each other, and the wiring connection of the input wiring pattern and the output wiring pattern for communication connects with an existing telephone station line to perform a communication function, and the wiring of the control wiring pattern for control. The connection can be provided to quickly determine the position of the connection portion or the position on the control wiring pattern that passes when the position of the connection portion is passed, thereby quickly providing communication line connection status information between the telephone line line and the subscriber, and between the telephone line line and the subscriber. To change the communication line to the correct position. ,
A hollow transfer rod for transferring the connecting portion, the transfer rod having an electromagnet portion which is a device installed at one end to generate magnetic force by using electricity transferred through a magnet wire installed inside the hollow; At one end, a device for pushing and pulling the hollow transport rod is attached, and a hollow transport guide pipe between the device and the device for pushing and pulling the hollow transport rod to ensure the pushing and pulling action of the hollow transport rod. It is provided with a connecting device for passing through the transfer rod, and the transfer rod and the transfer guide pipe is made of a material that can be bent, so as to sag naturally by gravity to minimize the installation space. ,
The mobile device is provided with a monitoring camera and a camera lighting, so that the mobile device can be observed from outside, whether the transfer bar is operated, and whether the matrix switch substrate stack structure is abnormal. An automatic main wiring distribution connection device having a monitoring device for providing necessary visual information is provided.
Hereinafter, described in detail with reference to the accompanying drawings.
1 is a partially cutaway perspective view of a conventional multilayer substrate, FIG. 2 is a view illustrating an apparatus applied to the present invention, FIG. 3 is a perspective view of a connecting portion, FIG. 4 is a sectional view of a connecting portion, and FIG. .
That is, in the present invention, the automatic main wiring distribution connection device for achieving the above object, two or more communication input wiring patterns 6 and output wiring patterns 7 and 1 for each communication trunk line on one side of the input wiring insulating plate and the output wiring insulating plate. The copper foil pattern of the control wiring pattern 8 for position location of the connection part more than strand is carved, and it installs so that the engraved copper foil surfaces may face each other and are at right angles. At this time, if the copper foil pattern is projected on the insulating plate, the intersection of the input wiring pattern 6, the output wiring pattern 7, and the control wiring pattern 8 is regularly generated so that the input wiring may be changed even when the position of the connector 10 is changed. The connection of the pattern 6, the output wiring pattern 7, and the control wiring pattern 8 is good. As in the example of FIG. 2, the wiring pattern may be linearly axially symmetrical so as to be used without distinction between the input and output wiring insulation plates, or the wiring patterns of the input wiring insulation plate and the output wiring insulation plate may be different from each other. In addition, the input wiring insulating plate and the output wiring insulating plate are engraved on one insulating plate, and the matrix switch substrates 5, which are insulating plates, are stacked in a multi-layered structure, thereby saving installation space.
The separating plate 9 is provided between the matrix switch substrates 5 which are insulating plates having the above-described input wiring pattern 6 and output wiring pattern 7, and the separating plate 9 and the matrix switch substrate 5 which are insulating plates. The connecting part 10 which can move a position in space is installed. As shown in Fig. 3, a connector hole 11 corresponding to the sum of the number of communication wires and the number of control wires is inserted into the body in the center of the connection part 10 as shown in Fig. 3, the input wiring pattern 6, the output wiring pattern 7, and the control wiring pattern 8 They are formed to be equal to each other's intersection point, and the front surface of the connecting portion 10 is made of a magnetic body 13 having a transfer hole 14 to react to magnetic force. As shown in Fig. 4, a well-connected and elastic connector 12 is inserted into the connector hole 11 to provide mechanical contact between the input wiring pattern 6 and the output wiring pattern 7 and the control wiring pattern 8. Make sure that the electrical connection is good.
Transfer of the connection part 10 uses the separate moving device 15 provided in the exterior of the matrix switch board | substrate 5 laminated structure as shown in FIG. The connecting portion 10 is moved by the transfer rod 16 in close contact with the transfer rod 16 by an electromagnet portion 22 installed at the end of the transfer rod 16 of the bending material when the force is applied in the vertical direction in the rod axial direction. The connection 10 is moved according to. At this time, the movement of the transfer bar 16 is installed at one end of the transfer bar 16 (not shown) that can transfer the rod to move the transfer bar 16. In order to ensure the movement of the conveying rod 16, a conveying guide pipe 17 made of a bending material is applied between a device capable of conveying the rod (not shown) and a force in the vertical direction of the pipe axial direction between the moving device 15. Install it. The adoption of a material capable of bending both the transfer rod 16 and the transfer guide pipe 17 is to reduce the size of the automatic MDF device by saving space behind the mover 15.
The mobile device 15 is equipped with a small camera 18 and a camera light 20 so that the movement of the transfer bar 16 and the abnormality of the matrix switch substrate 5 stacking structure can be grasped from the outside. Allows you to provide information for manual operation. At this time, the camera wire 19 and the lighting wire 21 for adjusting the camera and the lighting are installed together in the form of winding around the transfer guide pipe 17.
Through the use of the device described above, contact between the connector and the input / output wire is ensured for the entire connection wiring of the matrix switch substrate 5 for the MDF, and the reliability of the MDF device is improved. Can determine whether or not.
2 is a configuration example of the apparatus of the present invention. The overall configuration of the present invention consists of a separating plate 9, which is a guide plate, and a connecting portion 10, and a moving device 15 outside the matrix switch substrate 5 stack structure between the matrix switch substrates 5.

The matrix switch substrates 5 of the double-sided wiring engrav the input wiring pattern 6 and the control wiring pattern 8 on one side of the insulating plate and the output wiring pattern 7 and the control wiring pattern 8 on the other side. Inscribed at right angles to (6).

In order to act as a matrix switch, the input wiring pattern 6 and the output wiring pattern 7 are installed to face each other at right angles to each other, so that when the wiring patterns are projected on the insulating plate, the intersection points of the wirings are formed regularly and the connectors are formed between the intersection points. (12) is placed so that the input wiring pattern 6 and the output wiring patterns 7 and the control wiring patterns 8 are connected. At this time, the external wiring applied to each wiring independently connects the input / output wiring connection and the control wiring connection. The I / O wiring connection allows the telephone station and the subscriber to perform the same function as the existing wiring. On the other hand, the control wiring connection is used to grasp the position of the connecting portion 10. By fixing the specific telephone station side control wiring pattern 8 and changing the connection of the subscriber side control wiring pattern 8, an electric signal is applied to cause the electric signal to appear in the control wiring of the channel where the connection section 10 is located. Make sure you know the location. Similarly, it is possible to fix the control wiring pattern 8 on the subscriber side and to grasp the position of the connecting portion 10. The method of applying an electric signal to the control wiring is not described here.

The connector 12 has a structure that allows good electrical contact with the upper and lower wires and good mechanical contact. For example, a material having a good electrical conductivity may be coiled or zigzag to have elastic contact. In this case, when the connector 12 is placed for a long time in a state in which the connector 12 is connected to the input wiring pattern 6, the output wiring pattern 7, and the control wiring pattern 8, the connector 12 may be fixed by corrosion. The material must be selected or the connection must be changed regularly.

In order to move the connection part 10 in the configuration of the present invention, a device for conveyance that can hold and convey the connection part 10 and put it in the transport position is required. To this end, as shown in FIG. 3, one side of the connection portion 10 is formed of a magnetic material 13 having a transfer hole 14 to be in close contact with the electromagnet portion 22 installed at the end of the transfer rod 16. Push or pull the transfer rod 16 to move it. The transfer hole 14 does not necessarily need to be circular, and serves to catch an external latch or the like in case of an emergency. The electromagnet portion 22 operates when electricity is applied to the magnet wire 23 installed in the transfer rod 16. When the connection portion 10 moves to a desired position, the electricity is disconnected from the wire 23 for the magnet so that the contact force between the connection portion 10 and the electromagnet portion 22 is eliminated and separated from each other. Subsequently, the conveyance rod 16 prepares for conveying the other connection part 10. The transfer rod 16 uses a bendable material. When the feed rod 16 is made of a non-bending material, an empty space longer than the length of the transfer rod 16 is required behind the moving device 15. In order to prevent this, the conveying rod 16 is made of a material that can be bent by a force in the vertical direction of the rod axial direction and sag naturally by gravity. In addition, a feed guide pipe 17 is installed between the rod feeding device (not shown) and the moving device 15, and a feed rod 16 is inserted therebetween. This structure allows for accurate pushing and pulling to the transfer rod 16 when it is pushed or pulled using a rod transfer device (not shown) at one end of the transfer rod 16. In addition, the material of the conveyance guide pipe 17 is assumed to be able to be bent like the conveyance bar 16. At this time, the exact position of the connection 10 is determined by using a function of detecting an electrical signal on the control wiring pattern 8 described above.

The moving device 15 is provided with a monitoring camera 18 and a camera light 20 as well as a transfer bar 16. Surveillance camera 18 allows the external device to observe whether the moving device 15 is operating, whether the transfer bar 16 is operating, whether the matrix switch substrate 5 is stacked or not, and performing manual operation. In this case, it is possible to provide the necessary visual information.

As described above, according to the present invention, the connecting portion 10 slides and moves on the copper foil surface, and the connecting member 12 makes contact with the input wiring pattern 6 and the output wiring pattern 7 in a large area vertically. This prevents malfunction of the device and extends the life of the device, which improves the reliability of the entire MDF device. The monitoring device can be used to determine the operating status of the device and the deformation state of the device. It can increase the utilization.

Claims (5)

delete A plurality of insulating plates on which copper foil patterns of the input wiring pattern 6, the output wiring pattern 7, and the control wiring pattern 8 are formed; Separation plates provided at right angles so that each of the insulating plates maintain a constant interval so that the copper foil wiring surfaces of the copper foil patterns of the input wiring pattern 6, the output wiring pattern 7 and the control wiring pattern 8 face each other. (9), A matrix switch substrate 5 is provided between the copper foil surface of the input wiring pattern 6 and the copper foil surface of the output wiring pattern 7, which is an insulating plate of several layers formed at intersections by a height equal to the height of the separator. In the automatic main wiring distribution connecting device, A connection part 10 inserted between a plurality of the matrix switch substrates 5 and a space formed by the separators 9, The connection part 10 is provided inside to allow electrical connection between the copper foil surfaces of each of the input wiring pattern 6, the output wiring pattern 7, and the control wiring pattern 8 facing each other, thereby providing elasticity. It has a conductive connector 12 provided in the form to hold | maintain, The connecting portion 10 is provided with a magnetic body 13 having one side, a transfer hole 14 for receiving the help of an external transfer device, Automatic main wiring distribution connection device characterized in that it is provided so as to attach the main body and the magnetic body (13) at regular intervals. The method of claim 2, Copper foil wiring which is the said control wiring pattern 8 for locating one or more connection devices, and the copper foil wiring of the 2 or more said input wiring pattern 6 and the output wiring pattern 7 side by side on the said insulation board, Independently provided wiring connections of the input wiring pattern 6, the output wiring pattern 7 and the control wiring pattern 8, The wiring connection of the input wiring pattern 6 and the output wiring pattern 7 for communication is to be connected to an existing telephone station line to perform a communication function, The wiring connection of the control wiring pattern 8 for control is to grasp the position of the connecting portion 10 or to determine the position on the control wiring pattern 8 passing when the position of the connecting portion 10 changes. Automatic main line distribution connection device, characterized in that it is possible to quickly provide communication line connection status information between subscribers, and to send the connection unit (10) to the correct position when changing the communication line between the telephone line and the subscriber. The method of claim 2, It is provided with a hollow transfer rod 16 for transferring the connecting portion 10, At one end, the transfer rod 16 has an electromagnet portion 22, which is a device that is installed to generate a magnetic force by using electricity transmitted through a magnet wire 23 installed inside the hollow, and at the other end, the hollow. Attaching a device capable of pushing and pulling the transfer rod 16 of In order to ensure the pushing and pulling operation of the hollow conveying rod 16, a hollow conveying guide pipe 17 is connected between the apparatus capable of pushing and pulling the hollow conveying rod 16 and the moving device 15. The transfer rod 16 passes between, The transport rod 16 and the transport guide pipe 17 is provided with a material that can be bent, it characterized in that it is provided with a connecting device 10 transfer device to minimize the installation space by sagging naturally by gravity Wiring distribution connector. The method of claim 4, wherein The monitoring device 18 and the camera illumination 20 are installed in the moving device 15 to determine whether the moving device 15 operates, whether the transfer rod 16 operates, and the matrix switch substrate 5. An automatic main wiring distribution connecting device, comprising: a monitoring device capable of observing abnormalities in a laminated structure from the outside and providing visual information necessary for manual operation.

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