RU67806U1 - DEVICE FOR CROSS COMMUTATION - Google Patents

Abstract

The cross-switching device consists of skirtings with the switching matrices installed in them. The switching matrix is made in the form of a printed circuit board with elements installed on it, while during installation it is mechanically fixed inside the plinth and electrically connected to the contacts of the plinth.

The switched lines are connected to the switching matrix through the contacts of the base. It is possible to additionally connect one or several lines through special contacts located on the switching matrix (for example, in the case of using a switching matrix for connecting measuring devices to communication lines).

Switching and switching of lines in the switching matrix is carried out using electromechanical or electronic relays. It is possible to manufacture a matrix with manual control, the switching of lines in which is done manually using mechanical switches installed on the switching matrix.

Description

The utility model relates to the field of telecommunications and can be used to create automatic crossovers and automatic switching devices.

At present, the most common device for connecting and switching physical circuits on telecommunication networks is a plinth (RF patent for ПМ No. 29617, publication of 2003, catalog of KRONE GmBH, 2004, paragraph 4.2).

The skirting board is the main element of crossovers (switching and distribution equipment), as well as connecting devices of communication networks (trunk and distribution cabinets, telephone boxes and boxes).

At the same time, switching is carried out by inserting jumper wires into the contacts of the plinth (permanent switching), or by connecting connecting and switching cords to the contacts of the plinth (temporary switching).

Plinths, as a rule, are mounted on various metal structures (pipes, mounting clamps). The devices installed in the plinth are mechanically fixed by the structural elements of the plinth, and, in some cases, additionally by structural elements of metal structures.

Plinths - LSA-PLUS 9/16 connectors are also known (KRONE GmBH catalog of the company, 2004, item 5.12), used for connection

wires to printed circuit boards. In this case, the plinth is held at the expense of the inserted portion of the board with electrical contacts, and additionally, due to latches.

Switching communication lines and connecting various devices to them through the contacts of the plinths has the following disadvantages:

- direct involvement of staff is required;

- large time costs and lack of efficiency;

- a limited number of connections due to the construction of the base.

Therefore, in some cases, for example:

- periodic, frequently repeated measurements of communication lines;

- urgent reservation of lines and equipment;

- operational switching on communication networks;

- switching services in distribution cabinets, using automatic switching devices or automatic cross-connections.

Automatic switching devices and automatic cross-sections consist of switching matrices, the number of which depends on the parameters (number of inputs and outputs, number of switching points) of switching devices and crossovers.

Management of such devices is provided by one or more control systems that are interconnected and with external devices (computer, switching system, etc.).

To connect an automatic switching device or cross, you must:

- ensure the connection of the wires of communication lines to the switching matrix

- connect the switching matrix with each other.

These tasks are solved by various methods.

A cross-switching device is known for connecting measuring instruments to a communication line (catalog of the KRONE GmBH company, 2004).

The device consists of 12 switching arrays (Test Access Card), implemented on electromechanical relays, and an interface card (Interface card) through which control signals, power supply and test buses are connected to the measurement arrays for measurements.

Switching matrices and interface cards will be combined into a unit that allows you to connect two test buses to 96 communication lines.

The wires to the switching matrix are connected in two ways:

- connection to the interface card is carried out from the rear side of the unit through a 17-pole connector mounted on the board;

- the wires of the communication lines are connected to the switching matrix using a removable connector strip.

A FSA-PLUS cross-connect device is also known (KRONE GmBH catalog, 2004, p. 8.2), which is used for automatic switching and switching of communication lines, in which switching matrices are installed in a metal case. The connection between the switching matrices, the supply of electric power and control signals to them is carried out through the connectors installed on the switching matrix boards. The wires of the communication lines are connected to the switching matrix using the removable base connector LSA-PLUS 9/16.

A disadvantage of the known devices is that when disconnecting the matrices from the plinth-connectors, worn on the portion of the circuit board (for example, to replace or test),

damage to the wires is possible - wire breakage or damage to its connection with the terminal contacts.

The CDU device (Cross-Connect and Distribution Unit - www.adc.com) is known, which is part of the OmniReach Automated Cross-Connect System, an automatic cross switching system that is designed to switch services and connect measuring instruments to communication lines.

The device is a switching matrix installed on the metal structures of cabinets or racks, the wires of the communication lines are connected to special contacts made from the housing of the switching matrix.

A disadvantage of the known design is that the contacts are part of the switching matrix and if they are damaged during the connection of the wires, it is necessary to replace the entire device.

The disadvantage of all known solutions is that special racks or structural devices are needed to install the switching matrix, which increases the cost of manufacturing equipment, increases its overall dimensions.

The objective of the proposed technical solution is to simplify the design of the switching matrix, reducing the cost of the switching matrix, providing the ability to install switching matrices in the standard designs of crossovers, switchboards.

The essence of the proposed technical solution is as follows.

The cross-switching device consists of skirtings with the switching matrices installed in them. The switching matrix is made in the form of a printed circuit board with elements installed on it, while during installation it is mechanically fixed inside the plinth and electrically connected to the contacts of the plinth.

The switched lines are connected to the switching matrix through the contacts of the base. It is possible to additionally connect one or several lines through special contacts located on the switching matrix (for example, in the case of using a switching matrix for connecting measuring devices to communication lines).

Switching and switching of lines in the switching matrix is carried out using electromechanical or electronic relays.

It is possible to manufacture a matrix with manual control, the switching of lines in which is done manually using mechanical switches installed on the switching matrix.

Switching and switching in the switching matrix occur:

- under the control of a microcontroller installed in a switching matrix and connected by a data transmission channel with an external control device;

- when applying or changing the polarity of the power supply voltage of the switching matrix;

- when applying control pulses to the switching matrix;

- when switching manual switches located on the switching matrix.

Power supply and control signals from an external control device are supplied to the switching matrix through dedicated plinth contacts or special contacts located on the switching matrix.

The switching matrix can be equipped with surge protection elements.

The switching matrix with the elements installed on it can be placed in a special case.

The drawing schematically shows the proposed technical solution. Figure 1 shows the switching matrix and the plinth (in the open position); figure 2 is the same side view; figure 3 - connection diagrams of the switching matrix and base.

The cross switching device includes a base 1 with contacts for connecting the wires of the switched lines and with contacts for connecting the switching matrix 2, made in the form of a rectangular printed circuit board.

The plinth is used to connect the wires of dial-up lines, as well as for mechanical fastening of the device to the designs of cabinets, racks, cabinets.

The switching matrix is made in the form of a printed circuit board containing contacts for electrical connection with the contacts of the base, with the switching, control and other elements installed on it. The switching matrix board can be placed in a separate case, which serves for mechanical and climatic protection, as well as for mounting and fixing connectors, additional contacts, indication and control elements.

When installing the switching matrix in the plinth (figure 2) it is mechanically fixed in the plinth, as well as the electrical connection of the wires of the switched lines with the inputs and outputs of the switching matrix.

If necessary, it is possible to additionally connect the wires of power supply, control and several inputs and outputs through contacts or sockets installed on the switching matrix.

It is also possible additional mechanical and electrical connection of the switching matrix with structures on which the base is mounted.

The proposed technical solution allows to simplify and reduce the cost of the design of automatic crossovers and switches, to provide the ability to install a switching matrix in the standard design of crossovers, switchboards, to provide ease of replacement and installation of switching modules.

Claims (10)

1. A cross-switching device, comprising a plinth having means for its mechanical fastening in the switching and distribution equipment of communication equipment, and comprising contacts for connecting switched lines, characterized in that the device further comprises a removable switching matrix made in the form of a printed circuit board mechanically fixed inside the baseboard and electrically connected to its contacts. 2. The device according to claim 1, characterized in that the switching and switching lines in the switching matrix is carried out by means of electromechanical or electronic relays. 3. The device according to claim 1 or 2, characterized in that the switching and switching in the switching matrix is carried out under the control of a microcontroller installed in the switching matrix and connected by a data transmission channel to an external control device. 4. The device according to claim 1 or 2, characterized in that the switching and switching in the switching matrix is carried out by applying or changing the polarity of the supply voltage of the switching matrix. 5. The device according to claim 1 or 2, characterized in that the switching and switching in the switching matrix is carried out by applying control pulses to the switching matrix. 6. The device according to claim 1, characterized in that the supply of power and control signals to the switching matrix from an external control device is carried out through dedicated plinth contacts. 7. The device according to claim 1, characterized in that the supply of power and control signals to the switching matrix from an external control device is carried out through special contacts or connectors located on the switching matrix. 8. The device according to claim 1, characterized in that the switching and switching in the switching matrix is carried out manually by means of mechanical switches located on the switching matrix. 9. The device according to claim 1, characterized in that the switching matrix is equipped with surge protection elements. 10. The device according to claim 1, characterized in that the switching matrix with the elements mounted on it is placed in a separate housing.