DD251016A1 - CIRCUIT ARRANGEMENT FOR STATING AND MONITORING STATUS INFORMATION - Google Patents

Abstract

The circuit arrangement for monitoring status messages, preferably in information systems of the hotel operation, allows a permanent function control of the status messages and a check of the entire system from each room automatically with the triggering of a status message, without disturbing or interrupting the normal operation of the entire system. This is achieved by an LED is attached in the jack, which is used to trigger the status message, which indicates once a proper contact and thus trigger the signal. By an acknowledgment signal from the control panel, the LED in the jack plug is controlled in its brightness (flashing) and thus indicates that the entire system is in function. Fig. 2

Description

For this 2 pages drawings

Field of application of the invention

The invention relates to devices preferably in hotel operation, which allow to survey the signaled status from a central location.

Characteristic of the known technical solutions

As is well known, by inserting appropriate jack plug into a jack with preferably three contacts z. For example, the status messages

Room is cleaned and

Room is controlled

signaled to the central office. This is achieved by closing one or the other contact with a special plug.

This type of signal generation has the disadvantage that the staff in the room receives no feedback whether the contact is really closed and thus the signal was formed.

A feedback or a receipt signal from the control center and its display on site will not be made. The indicated deficiency have the consequence that in particular by contact problems, the system works unreliably and i.A. not used. A circuit arrangement according to DE-OS 3307616 consisting of a control center with a number of detectors realizes the functional control of the system over a polling cycle, during which the detectors are modified in a suitable manner and thus generate a blind message. During these polling cycles, the system is not in the normal working state.

Circuit arrangements according to DE-AS 3148278, DE-OS 2754546 and 3305626 value for detecting an error case Pegelbzw. Resistance change off. This means that the encoder elements always remain switched on in the system, which is not possible with a system with a message through jack plug.

The known technical solutions for monitoring of signaling devices has the disadvantage that, although the technical equipment is more or less completely tested by the control center, the operator of the system can not recognize on site, however, whether his switching operation has been successfully accepted or not. In particular, an improper insertion of the jack plug is not recognized until contact in the socket.

Object of the invention

The invention sets itself the goal of performing a simple function check preferably of a hotel information system automatically with each use.

This makes it possible to exclude misinformation and to increase the reliability of the entire system significantly. The invention also provides the ability to expand the number of status signals and to reduce the cost of service and maintenance of the room-side electronics.

Explanation of the essence of the invention

Based on the above objective, the object is to propose a circuit arrangement for monitoring or control of status messages, especially in hotel operation, in which for all status messages (in the proposed case three) a mechanically identical jack plug is used, due to its different electrical properties via a two-wire system respectively one of three status signals generated

 The object of the invention comprises two stages.

The first stage aims in particular at controlling the contact of the jack plug as the main cause of failure of existing systems. The second stage involves the control of the entire information system, including the center during insertion of the jack by the staff.

According to the invention, the most important stage of fault detection is achieved in that in the jack preferably an LED is arranged, which lights up externally visible after contact, whereby the contact is signaled secure.

The same current used for the internal evaluation or formation of the status signal also flows through the display LED in the jack plug.

The second stage of error detection is achieved in that the LED in the jack plug is keyed in its brightness when the status signal formed was detected and processed by the control panel. The arrangement according to the invention and its detailed embodiment can be found in the claim of the invention and its subitem.

The proposed solution eliminates the proven in the prior art solutions for the review of the system from the headquarters and the associated non-active time of the entire system. At the same time, the control of the operability is much more intensive, since at every operational action the functional control takes place at the same time.

For the repair of errors that may occur, the proposed solution already offers part of the diagnosis, such as:

- LED in the jack plug does not light up when plugged into the socket - ^ - Error in the system unit HI on site.

- LED brightness is not measured. * Error in the information processing section or in the control panel. embodiment

In the following embodiment, the invention will be explained in more detail with reference to two figures. Fig. 1 shows the jack plug with the three Beschaitungsvarianten a, b, c.

For each of the three status messages, there is an LED V1 of a certain color in each jack plug, eg. B. red, green and yellow; In addition, two diodes V2, V3 are in series with the above-mentioned LED V1, as shown in FIG. 1, in the plug according to b), a diode V2 and the third plug). As a result, the three plugs differ in their terminal voltage at current flow by one or two diode voltage, whose values can be evaluated. Fig. 2 shows the evaluation of the system, which is located in each room.

One of the above-described jack a, b, c is contacted in the jack socket between ground and a terminal 1. By a current source T1, a current J1 is driven into the plug, whereby the LED V1 lights in the plug and thus the control of the contact is given by the staff. Due to the combination of diodes in the jack a), b), c), a certain potential at terminal 1 of the evaluation circuit is established. By a further current source T2 with the same dimensions as source T1 and a diode chain V5, V6, V7 and V8 different auxiliary and reference voltages are generated, the evaluation input U _x and multiple reference inputs R _H and R _L and the auxiliary voltage input Uh of a circuit A1 be fed, which works as Mehrfensterkomparator. The output signals of the circuit A1 are level-converted via optocouplers (U 2, U 3, U 4) and passed to the rest of the circuit for further processing. This circuit generates in a certain way a status signal corresponding to the plug a), b), c) and sends this status signal to the center, which in turn sends an acknowledgment signal to the terminals 2 and 3 of the evaluation and thus initiates the second stage of monitoring.

This acknowledgment signal, which expediently represents a pulse train of 2... 10 Hz, controls the current sources T1 and T2 from the current value J 1 via an optocoupler U1 and a resistor R3 in a voltage divider consisting of the resistors R1, R2 and R3 to a different current value J 2, which leads to a keyed brightness change of the LED V1 in the jack. Thus, the functional control of the entire system by the on-site staff in the simplest way with each operation is automatically given.

Claims (2)

1. Circuit arrangement for reporting and monitoring of status information, preferably within a hotel information system by means of the status contactable jack plug to form a plurality of status information, characterized in that the jack plug preferably visible a LED (VD and optionally one or more series-connected diodes (V2, V3) are arranged and connected to the two contacts of the jack plug and fedies from a current source (T1) whose potential is applied to an evaluation input (U _x ) of a multi-window discriminator A1, wherein a second similar current source feeds a voltage divider of a plurality of diodes whose taps at reference voltage inputs (U _H , Rh / Rl) of the discriminator A1 are placed and the status outputs of the discriminator A1 preferably via optocouplers (U 2, U 3, U4) with the - Central are connected. 2. Circuit arrangement for reporting and monitoring status information according to item 1, characterized in that from the central pulses, preferably via an optocoupler (U 1) current-changing to both current sources (T1, T2) are connected.