RU86055U1 - CABINET FOR CROSS-COUPLING AUTOMATION AND TELEMECHANICS CHAINS IN RAILWAY STATIONS - Google Patents

Abstract

A cabinet for cross-switching automation and telemechanics circuits at railway stations, comprising a frame with vertical frame profiles and connecting elements, characterized in that it includes mounting rails that are horizontally fixed with a given step on the vertical frame profiles, and the connecting element is made in the form of a connecting a module mounted on a mounting rail, while the connecting module consists of a base on which an insert element with contacts for connecting the terminals of the races is fixed redelitelnyh cables and two holders for cables.

Description

The utility model relates to distribution cabinets and can be used as a means for cross switching of automation and telemechanics circuits at railway stations.

Known cable distribution cabinet containing a distribution channel together with at least one carrier bus for attaching the housing of the connecting cassette and couplers, as well as a bus with a mounting fixture placed on it, located below the carrier bus for the cassette (RU 2127014, H02G 15 / 06, 02.27.99). Known technical solution is aimed at expanding functionality and simplifying the design. However, the cable distribution cabinet without significant modifications cannot be used for cross-switching of automation and telemechanics circuits at railway stations.

As a prototype, a cabinet device of the SHRU-M type is adopted, consisting of a frame with vertical frame profiles, between which various elements (including connecting elements) of automation and telemechanics are fixed (E.E.Ase and others. “Installation of railway automation devices and telemechanics "M., ed. Transport, 1988, p.66, 67). A disadvantage of the known device is the presence in it, in addition to connecting elements, other elements of the automation and telemechanics circuits, which leads to a deterioration in the manufacturability and maintainability of the device. The fastening of the elements in the control cabinet with the help of nuts leads to a decrease in the reliability of the device due to weakening or loss of contact due to the effects of vibrations from the rolling stock on the cabinets for connecting and branching cables, which are usually located on the side of the extreme route or in between ways.

The technical result of the utility model is to increase the manufacturability and maintainability of the device.

The technical result is achieved by the fact that in the cabinet for cross-switching automation and telemechanics circuits at railway stations, containing a frame with vertical frame profiles, and connecting elements, according to the proposal, mounting rails are introduced that are horizontally fixed with a given step on vertical frame profiles, and the connecting element made in the form of a connecting module mounted on a mounting rail, while the connecting module consists of a base on which an insert element with ntaktami connection terminals distribution cables and two cable holder.

Fig. 1 shows the location in the cabinet for cross-connection of cable clamps and mounting rails with connection modules installed on them. Figure 2 shows a general view of the connection module.

The cabinet for cross-switching automation and telemechanics circuits at railway stations contains a frame 1 with vertical frame profiles 2, on which cable clamps are mounted for reliable fixation of cables introduced into the cabinet, mounting rails 3, which are horizontally fixed with a given step on the vertical frame profiles 2, on the mounting buses are connected with connecting modules 4, each connecting module 4 consists of a base 5, on which a plug-in element 6 with contacts for connecting the terminals of the distribution cables is fixed her and two holders 7 for cables.

A cabinet for cross-switching automation and telemechanics circuits is used as follows.

Inside the frame 1, mounting rails 3 are fixed on the vertical frame profiles 2 with a predetermined pitch. The mounting step (distance between adjacent mounting rails) is selected from the condition of installing a sufficient number of connecting modules in the cabinet.

On the mounting rails 3 are installed connecting modules 4, designed for cross switching. The connection module consists of four elements:

- 5 - the main part of the housing or the base base of the connecting module;

- 6 - connecting plug-in element;

- 7 - two side cable holders.

The connecting module also has (not shown in the drawing) cut-in contacts in the lateral cable holders 7 twisted with a screwdriver to connect the cable strands, both from the side of cable pairs and from the side of automation devices. The connecting plug-in element 6 is inserted into the base base of the connecting module 5 and provides a continuous connection of cable pairs and terminals to automation devices.

In the base part 5 of the connection module there are five contacts that allow you to connect various devices. Two sockets are used for conclusions to a cable line, two more - for conclusions to executive equipment. The fifth pin is the grounding connector connected to the mounting rail and used to ground the plug-in elements. At the bottom there is a spring that allows you to mount the module on the mounting rail, install or remove the connecting modules manually and maintain the correct contact connection with the grounding of the mounting rail.

The plug-in element 6 provides the relationship between cable pairs and terminals of automation devices. The design includes a modular plastic case, four contacts and a shunt connection between the cable, the terminals to the automation devices and the grounding connector connected to the mounting bus. The plug-in element 6 provides overload protection and self-healing protection.

Side holders 7 are used as a housing for cable pairs and cables of automation devices. They are filled with silicone compound to ensure the watertightness of the compounds and have rubber membranes that provide additional tightness and prevent leakage of the liquid compound after separation of the components. Mortise resistance with penetration of the insulation is formed by tightening the screws. Side holders 7 for cables provide a plunge connection and repeated connection-disconnection of cable cores having different core diameters and core insulation diameters, both from the side of cable pairs and from automation devices without stripping and stripping the cable cores. Cutting insulation of conductors is not required. Insulated conductors of connected pairs of cables and automation devices to ensure their connection are introduced into the blind holes of the side cable holders 7 individually. After the conductors are inserted into the holes by screwing the screws, the wires are inserted into the mortise contacts of the connector, and a reliable, quick and easy connection is ensured. When removing the plug-in element 6 from the connection module, it is possible to test the cable network in both directions without violating the terminal termination of the wires.

Claims (1)

A cabinet for cross-switching automation and telemechanics circuits at railway stations, comprising a frame with vertical frame profiles and connecting elements, characterized in that it includes mounting rails that are horizontally fixed with a given step on the vertical frame profiles, and the connecting element is made in the form of a connecting a module mounted on a mounting rail, while the connecting module consists of a base on which an insert element with contacts for connecting the terminals of the races is fixed redelitelnyh cables and two holders for cables.