NL2008382C2 - SIGNALING SYSTEM FOR MANIFESTATIONS AND HORECA. - Google Patents

Description

- 1 -

SIGNALING SYSTEM FOR MANIFESTATIONS AND HORECA

The present invention relates to a bi-directional signaling system with possibly one central unit and several modules distributed over a region to be monitored, capable of transmitting and receiving with the central unit.

The present invention furthermore relates to the use of such a system in places where in general many people are gathered within a limited area.

Such a signaling system is known from US-2005/0073426 A1. The known system forms a hybrid voice and / or non-voice communication and reporting system, with which it is possible to send various types of messages to a central reporting unit by means of manual switching means, after which the necessary measures are taken in response to this. follow-up of an alarm or help call can be taken.

Because of its versatility, the known system is expensive and therefore not suitable for a user environment, such as can be found at events or at places, such as in catering establishments, where many people are gathered in restricted areas or spaces. Moreover, in such an environment the reliability of the communication and the intelligibility of the known voice system is not sufficient. Mobile phones used in addition to the known system sometimes have no or a limited range there, and moreover, the noise on the spot drowns out any telephone call for help; if the called party is already capable of observing this - 2.

The object of the present invention is to provide an easily set up signaling system for often restricted areas or spaces that is affordable, yet reliable for the target group.

To that end, the signaling system according to the invention has the characterizing measures described in claim 1.

The advantage of the signaling system according to the invention is that, after manually switching on the switching means present thereon, as a result of which a call is made to the central unit, not only the optical elements present are activated, but after detection of the call on the side of the central unit from which the reception thereof is manually confirmed to the operated module. In short, the status of the system, the call and the processing of that call are easily and unequivocally known on the system. The operated module sees the reception of its call acknowledged because the optical means are no longer activated, since they are deactivated by the reception of the call confirmation signal. This method benefits the reliability of the present simple signaling to the central unit. The caller is no longer in uncertainty about the proper reception of his call, which increases the chances of an effective follow-up of his call, even after prior minimal instruction from the caller on the modules side and the person called who is on the side of the call. the central unit.

An embodiment of the signaling system - 3 - according to the invention is characterized in that the central unit is adapted to deactivate the optical elements which refer to the operated module after sending the call reception signal.

5

The advantage of this is that the central unit is then immediately ready with its deactivated optical elements for optically reliable indication of the receipt of a new call from one of the modules.

10

A further embodiment of the signaling system has the feature according to the invention that the modules have further optical means and connected manually operable switching means to which a certain urgency is assigned.

The advantage of this is that the further optical means and associated switching means make it possible to signal urgency priorities and associated calls to the central unit. In practice, this can amount to, for example, a call with a high urgency for mostly direct assistance or a call with a lower priority for assistance if, for example, a regularly planned round is made along the various modules manned over a site, area or spaces.

Further detailed possible embodiments set out in the other claims are listed in the following description together with the associated advantages.

The signaling system according to the present invention will now be further elucidated with reference to the figure below, in which combinations of embodiments of the signaling system according to the invention to be explained in more detail are shown.

The figure shows a signaling system 1 which in this case has one central unit CE and a number, here only two, of modules spread over an area or spaces

M1, M2. In practice, with a central unit CE, for example, 6, 12 or 24 or more modules are coupled to the one or possibly to several central units CE, in a way in which bi-directional non-voice communication 10 is possible between the modules M1, M2 , ... on the one hand and the CE central unit on the other. To this end, each module has transmitters Z and receivers O which can each communicate with respective receivers O and transmitters Z on the central unit CE. Because of the flexible set-up, and rapid installation and adaptation of, in particular, the number of modules, wireless communication, as shown schematically in the figure, is preferred. For the same reason, battery-powered modules and units are preferred, in particular where, for example, power supply manifestations cannot easily be made available or are completely missing. Signaling by means of the aforementioned transceivers Z, O takes place in practice around 869.750 MHz at a bandwidth of <200 KHz with a suitable simple signaling protocol that requires little communication and therefore little battery power.

The modules, hereinafter referred to as M for short, each have optical means 2 and connected manually operable switching means 3 at whose operation the optical means 2 are activated, for example because they then start to blink. In module M2, these organs 2 and means 3 are combined in one physical enclosure. After activation of the optical elements 2 in, for example, the operated module M1, data is read from a memory 35 # which is usually part of a locally present programmable processor p, which relates, for example, to the position that may or may not be temporary. occupies within the area to be monitored or the areas to be monitored, or his number or identity. This data is sent from M1 by means of its transmitters Z, and assembled into a call, to the receivers 0 of the central unit CE. Once there, optical elements referring to the module M1 (indicated in the figure by crosses circled above and / or below the designation M1) are activated on the central unit CE. In this case there are as many optical elements and associated switching means, usually assembled with them, active on the housing of the unit CE as there are active modules M. That could be more efficient, with fewer such organs and resources, but that makes the system more complicated, more vulnerable to malfunctions, more difficult to operate and more expensive. For the application envisaged here and the target group of the person working with it and the environment in which the system is used, simplicity of operation, reliability, price and reliability under circumstances are of vital importance. To that end, the housings and the operating members are of solid, shock-resistant and impact-resistant design, and are sealed against moisture and drink and there are no sharp edges.

After activation of the optical elements near the indication M1 on the central unit CE which serves as the central reporting unit, the guard or porter present there will take the necessary action and possibly also coordinate it. To confirm receipt of the call to the operated unit M1, on the unit CE side, the associated switching means referring to the operated unit M1 is operated on the central unit CE. Thereupon via the transmitters Z on CE and then the receivers O on the module M1 a call - 6 - receive signal is sent to M1 where its previously activated optical elements 2 are deactivated. As a result, the caller at M1 knows, without voice communication being used for this purpose, that his call has been accepted and will receive the necessary attention and follow-up according to agreement.

The central unit CE is generally adapted to deactivate, after sending the call reception signal, the optical means on the unit CE that refer to the operated module M1. The system is thus immediately returned to a state for processing further alerts from the various modules M1, M2 ....

In a preferred embodiment of the system 1, integrated (further) optical elements 2 and associated switching means 3, being push buttons, are arranged on each module M. A different urgency is assigned to the green and red push buttons when operating. This is in accordance with agreements made with the operators of the system. Pressing the green button indicates that at M1 and at the unit CE, green optics 2 light up or blinking, on which no direct action is to be taken, but if red is pressed, it indicates immediately necessary assistance and on-site action as indicated on the CE unit, and on a direct alarm.

The operator of unit CE must also respond immediately with the return of a receipt confirmation to the caller at M1.

Correct programming of the steps explained above can be guaranteed by appropriate programming of the various processors p. Further, depending on the desired specific application of the system, it is furthermore possible to implement assignments to be assigned that are embodied in light modes of the aforementioned optical elements, such as light intensity changes, duration of light intensity changes, blinking frequencies, color choices and the like .

If desired, auditory devices may be provided in modules M and / or units CE which, for example, are activated simultaneously with its optical devices in case immediate evacuation is required.

Claims (10)

A signaling system comprising at least one central unit and a number of distributed modules that are each capable of bi-directional non-voice communication with only the central unit, which modules have optical means and connected manually operable switching means at whose controls the optical devices are activated, after which data read from a memory of the operated module is sent by means of transmitters arranged therein in a call to receivers in the central unit, whereafter optical devices referring to the operated module are received on the central unit after receiving the call is activated, and then the receipt of the call is confirmed by manually operating switching means referring to the operated unit on the central unit, wherein a call receiving signal is sent back via transmitters to receivers in the operated module where its optical org can be deactivated. 2. A signaling system according to claim 1, characterized in that the central unit is adapted to deactivate the optical elements 25 that refer to the operated module after sending the call reception signal. 3. A signaling system according to claim 1 or 2, characterized in that the modules have further optical means and connected manually operable switching means to which a specific urgency is assigned. A signaling system as claimed in claim 3, characterized in that the at least one central unit has optical elements which refer to all modules present and manually connected switching means (9) connected thereto to which corresponding urgencies are assigned. A signaling system according to claim 3 or 4, characterized in that the assigned urgencies are embodied in 5 light modes of said optical elements, such as intensity / changes, flashing frequency, and / or color selection. 6. A signaling system according to any one of claims 3-5, characterized in that the at least one central unit and / or the modules have auditory elements which are activated simultaneously with its optical elements. 7. A signaling system as claimed in any of the claims 1-6, characterized in that the at least one central unit and modules are each accommodated in solid housings. Signaling system according to claim 7, characterized in that the housings are splash-proof and drip-proof. 20 Signaling system according to one of claims 1 to 8, characterized in that the bi-directional non-voice communication in the system is provided by means of wired, but preferably wireless, operating media. 25 10. Use of the signaling system according to any one of claims 1-9 at manifestations or meetings, for example in areas or spaces to be monitored such as places of entertainment where people are meeting and more or less urgent help may be desired.