RU74519U1 - SENSOR FOR CONNECTING CABLE CONNECTOR IN PORT OF THE SWITCH PANEL - Google Patents

Abstract

The utility model relates to communication technology. Its use allows you to determine the presence in the port of the patch panel of the connector of the connecting cable. To achieve this technical result, the patch panel port is equipped with a sensor containing a light emitter and a photosensitive element, positioning them in such a way that the photosensitive element receives energy emitted by the light emitter when it is reflected from the connector of the connection cable connected to the patch panel port.

Description

The technical field to which the utility model relates.

This utility model relates to communications technology and can be used to monitor patch panel connections.

State of the art

There are various means of monitoring cable systems.

The closest analogue is the system described in US patent No. 6424710, in which each port of the patch panel is equipped with a sensor for the presence of the connector of the connecting cable in the port of the patch panel. In particular, FIG. 4 of the description of this invention shows a sensor structure comprising an emitting LED and a receiving photodiode. As long as the connector of the connecting cable is not connected to the patch panel port, the photodiode receives a LED signal, which indicates that the panel port is free. The connected connector of the connecting cable blocks the light flux of the LED, and the state of the photodiode changes, which indicates the presence of a connector in the port of the patch panel.

The disadvantage of this sensor is that the photodiode is located opposite the LED and perceives its radiation directly.

Utility Model Essence

Thus, the objective of this utility model is to develop such a sensor for the presence of a connector in the switching port

panel, in which the photosensitive element receives the radiation from the light emitter reflected from the connecting cord.

To achieve the technical result, a sensor is proposed for the presence of the connector of the connecting cable in the port of the patch panel, comprising a light emitter located near the port of the patch panel and irradiating the region where the connector of the cable is located after connecting the latter to the port of the patch panel; a photosensitive element located near the port of the patch panel and receiving radiation from the light emitter, while the state of the photosensitive element allows you to determine the presence of the connector of the connecting cable in the port of the patch panel; characterized in that the photosensitive element is arranged in such a way that it receives radiation from the light emitter reflected from the connecting cable connected to the port of the patch panel and changes its state based on the characteristics of the reflected radiation;

In this case, the photosensitive element of the sensor receives energy from the light emitter reflected from the connector of the connecting cable connected to the port of the patch panel.

In yet another embodiment, the photosensitive member and the light emitter are located on one side of the connector of the connecting cable connected to the patch panel port.

Brief Description of the Drawings

Figure 1 shows a General block diagram of a system for implementing the present utility model.

Detailed description of utility model

The system according to the present utility model can be implemented in several versions, which, nevertheless, are implemented in a similar manner, as shown in Fig. 1. Also, as described in US Pat. No. 6,424,710, the sensors can be located in a flat plastic holder 1, which is mounted on top of the front panel of the patch panel, and which is mounted in a standard 19-inch telecommunications cabinet. This holder has slots 2 for installing both light emitters 3 and photosensitive elements 4. Light emitters can be LEDs, including infrared, or incandescent lamps. As photosensitive elements, you can use photodiodes or photoresistors. In figure 1, the light absorber and the photosensitive element are located on one side of the connector 5 of the connecting cable, which is connected to the port of the patch panel. In Fig. 1, connector 5 obscures the view of the patch panel port. If connector 5 of the connecting cable is not connected to the port of the communication panel, the energy emitted by the light collector 3 freely crosses the connection area of connector 5 and hardly enters the photosensitive element 4. This state of the photosensitive element 4 is related to the absence of connector 5 in the port of the switching panel. Of course, part of the radiated energy can get into the photosensitive element 4, reflected from other parts of the patch panel or other connectors connected to other ports, but the sensitivity of the photosensitive element 4 can be such that it changes its state only when a light flux of sufficient power is incident. When connector 5 is connected, then part of the energy radiated by the light collector 3 is reflected from connector 5 and gets into

photosensitive element 4, which changes its state. This condition is correlated with the presence of a connecting cable connector in the port of the patch panel. Energy can also be reflected not only from connector 5 of the connecting cable, but also from the sheath of the wire of the connecting cable. Thus, knowing the state of the photosensitive member 4 receiving the radiation of the light emitter 3 reflected from the connecting cord 5, it is possible to determine the presence or absence of the connecting cord in the port of the patch panel.

Claims (3)

1. A sensor for connecting cable connector in a patch panel port, comprising a light emitter located near said port of the patch panel and irradiating the region where the connector of the connecting cable is located after connecting the latter to said port of the patch panel; a photosensitive element located near the said port of the patch panel and receiving radiation from the said light emitter, while the state of the photosensitive element allows you to determine the presence of the connector of the connecting cable in the said port of the patch panel; characterized in that said photosensitive element is arranged in such a way that it receives radiation from said light emitter reflected from a connecting cable connected to said port of the patch panel and changes its state based on the characteristics of said reflected radiation. 2. The sensor according to claim 1, characterized in that said photosensitive element receives energy from said light emitter reflected from a connector of a connecting cable connected to said port of a patch panel. 3. The sensor according to claim 1, characterized in that the said photosensitive element and said light emitter are located on one side of the connector of the connecting cable connected to said port of the patch panel.