DE19925597A1 - System for monitoring outdoor lights and data module with a monitoring sensor - Google Patents

Abstract

A system for monitoring exterior lights is described. DOLLAR A It is assumed that the exterior lights are connected to an at least three-wire cable. The outdoor lights to be monitored are assigned data modules, each with a monitoring sensor and a data transmitter connected to it. The data transmitters are connected as a data wire to a wire carrying a reference or voltage potential and to a free wire of the cable that does not serve to supply the external lights. The data transmitters send data telegrams in the baseband via the data wire, which are received and evaluated by at least one central evaluation device likewise connected to the data wire.

Description

The invention relates to a system for monitoring from the outside light up according to the preamble of claim 1.

Outdoor lights, such as those used to illuminate streets or streets zen are mostly owned by a municipality and are signed by electrical companies with whom maintenance contracts are closed, serviced at regular intervals. in the As a rule, all of these maintenance measures are carried out Lamps replaced, regardless of whether they are still in Ord are or not. But falls between the maintenance cycles off a lamp, it will only be replaced when someone is reports to the administration of the municipality and on the failed ne lamp indicates.

This type of maintenance incurs high costs. Because besides the necessary replacement of defective or shortly before the end of life permanently standing lamps also drop material costs and labor  wages for the unnecessary exchange even more functional Lamps with new lamps.

The invention has for its object a system for To create surveillance of outdoor lights, which an indi vidual monitoring of the function enables and the advance setting for targeted and more economical maintenance creates.

This task is performed in a system for monitoring Au essenleuchten according to the preamble of claim 1 by the Features of claim 1 solved.

Further developments and advantageous refinements result from the subclaims.

In the system according to the invention, all to be monitored Outdoor lights equipped with a data module that little least comprises a monitoring sensor and a data transmitter. The data transmitter is used for the transmission of monitored data states to a central evaluation device. About who the data as data telegrams in the baseband via a da transfer tenader. Under data transmission in the baseband understood that without modulation on a carrier frequency  binary data through two different voltage potentials transmitted over a line. The potentials of tension can be 0 volts and a nominal voltage of about 20 to 30 Volt or two nominal voltages from + or -20 to 30 Volts must be symmetrical to zero potential. The data transfer in the baseband enables interference with low transmission power to bridge large distances without problems, as is the case with egg an extensive line network for outdoor lights can.

However, the data transmission is not about the Power supply wire of the cable possible, but requires a free wire that is not required for energy supply. This can be an additional one, in the cable anyway act existing vein, or it can alternatively be one Be a vein in conventional operation for a savings Illumination is used when the other wire is used for a loading lighting is used at full power or vice versa. This is often the case with conventional outdoor lights, whereby Both wires can be switched to the mains voltage potential ne but directly to the ballast for the lamp is closed while the other is tapping one Throttle or via an autotransformer to the ballast advises for the lamp is connected.  

On the transmission path between the data modules under each other and / or hiss the data modules on the one hand and the central evaluation device, on the other hand, can be routers be ordered to which the data wires are connected. The Data telegrams sent and received are router-compatible hig. This measure allows longer distances constant transmission speed and data security bridging and other transmission media between switch on. Data can also be regenerated occur.

In a further development of the invention, an economy mode can be realized in a different way than by the voltage supply via this additional wire, so that the additional che wire then for other purposes, in this case would be free for data transmission.

A data bus can be formed with the help of the data wire a large number of data transmitters can be connected by data modules is. If the outdoor lights are monitored centrally in this way a failure of the lamps can be immediately and a determine clearly, localize specifically and immediately  to lift. So there is no need to maintain all lamps prophylactic exchange of cycles.

According to a further development, the data modules can additionally a data receiver and an internal evaluation and Control circuit include, and the evaluation and control scarf device can be used with the data sender, the data receiver and the Monitoring sensor must be connected.

The outside is monitored by means of the data receiver of the data transmitters of the other data modules possible. This Monitoring makes sense to avoid collisions. The Data sender is only prompted to send data telegrams send if no other data telegrams on the data wire be recognized. Through mutual control, si ensured that all data telegrams are transmitted one after the other and the maximum possible transmission capacity capacity can be used almost. The presence of one Data receiver and an internal evaluation and control scarf tung also offers the prerequisites, Komman dos to receive and evaluate from the outside the relevant data module are directed.  

A training therefore provides that the central Aus value device comprises a data transmitter connected to the Da tenader is connected.

As a result, the central evaluation device can also be used as Use the input terminal to send commands to the individual da to transmit ten modules, for example for special queries of causes or to pro to the data modules gramming. There is also the possibility, too To transmit control commands to the data modules.

In order to be able to use this option practically, a wide view re configuration that the data modules in addition each comprise at least one actuator.

Switching operations can be carried out with this actuator or these actuators are triggered, for example, the operation of the lamp of the Affect outdoor light. So it would be possible to go to energy supplying core constantly to operational potential hold and the lamp if necessary over the actuator of the data mo switch duls on and off. In addition, it can also be featured be seen, the power consumption and thus the brightness switch or dim the lamp. Furthermore, a individual lights of a street, z. B. in a tight cultivation  operating area earlier and longer at dusk than the lights belonging to the same street in loc no or no buildings. It is also possible to adj beard consumers, e.g. B. advertising or information signs from the to feed the same wire, but switch on and off independently All of these operating states can only be used from the Ak Gate of the data module can be controlled and it is no longer required, via separate wires of the supply cable provide required voltages switchable. Moreover all data modules can be controlled individually.

The monitoring sensor can be used as an optical sensor and / or thermal sensor and / or electrical current-voltage Power sensor for the lamp and / or the switching device of the Outdoor lamp be trained. Is the monitoring sensor as Optical sensor designed, the brightness of the Check lamp. On the one hand, this can be an immediate problem terium for the function of the lamp, on the other hand from this in connection with one for the power consumption characteristic size also the efficiency determined who the. Be is also indirect via a thermal sensor luminosity measurable, but also additional also thermal losses in parts of the outdoor light system.  

The electrical values enable determination on the one hand the electrical power consumption of the lamp and / or the Switchgear, but also possible malfunctions in the switchgear or in the connection cable. The failure here is an example Compensation capacitor for the choke of the switching device called tes, who is determined via a cosine phi measurement that can. This failure would not function as a Impair the lamp, but impair the efficiency tern and increase energy costs. In combination with one optical and / or a thermal sensor is beyond from a determination of the efficiency of the lamp itself possible Lich. The actuator can be used as an on / off switch and / or switch and / or dimmer for the lamp and / or the switching device of the Outdoor lamp be trained.

This measure ensures that the actuator without additional wire in the connection cable the switching state of the Au outdoor lamp and its brightness can be individually controlled that can.

According to a further development it is provided that the outside light by evaluating brightness and electrical conductivity power consumption are monitored for their efficiency and  the results in a database linked to the monitoring the time of saving.

This measure enables individual monitoring of everyone Outdoor lights in terms of lamp life, the Downtime and also allows a stati statistical evaluation and a forecast.

It is also provided that the Hel and the degree of efficiency the expected remaining the service life of the lamps of the outdoor lights is extrapolated.

In this way, maintenance times can be calculated in advance spare parts in the required, but sufficient procure the appropriate quantity and plan the time in which Maintenance measures from an economic point of view Cost-benefit optimization can be carried out.

It can be provided that from the stored and / or extrapolated values of the database an inspection plan is generated and saved in which the outdoor lights are switched on whose lamps are to be replaced during an inspection zen are.  

This measure makes it possible based on the existing data basis automatically and therefore particularly economically Generate inspection plan so that it is inexpensive the necessary lamps are replaced without there affected by the safety of the operation of the outdoor lights is pregnant.

An additional training provides that in the inspection plan the order in which the inspection is established of the individual outdoor lights.

This procedure also enables the implementation of the Maintenance work an optimization, as this also routes and thus the travel costs and the time taken by one location to the next is needed in total a minimum can be reduced.

The invention further relates to a data module with an over Watch sensor according to the preamble of claim 12.

In this regard, the invention is based on the object To create data module, which is an additional application Possibility in the field of monitoring outdoor lights unchanged installation network.  

This task is performed with a data module according to the generic term of claim 12 solved by the features of this claim.

Further developments and advantageous refinements result from the subclaims.

In the invention, the data module for monitoring Au ßenleuchten used in which a free, not as a data wire wire of the An used to supply energy to the outside lights end cable of the lamp is used. This will do so allows outdoor lights, especially lights for Streets and squares, often with two wires in the connecting cable are equipped that can carry voltage potential. A The wire is used to supply maximum brightness and the other re for feeding with reduced brightness. That means, that one wire is not always required for energy supply and can therefore be used as a data wire. It doesn't have to always use the same wire, but the da tenader can also be changed.

By introducing the technology according to the invention but there is also the possibility that on a Switching the brightness by optionally applying the  different data wires with voltage can be dispensed with can, if the data module is also used for control.

According to a further development, the data module additionally comprises a data receiver and an internal evaluation and control circuit. The evaluation and control circuit is with the Da tensender, the data receiver and the monitoring sensor ver bound. The data receiver and the internal evaluation and Control circuits serve at least to monitor the data legrams of other data modules on the data wire for monitoring Check for collision and control of a collision-free Transmission of the data sender.

This ensures that no unnecessary time is taken up in which several data modules simultaneously share their data send out gram. Rather, it is achieved that the data tele Gram of the individual data modules one after the other without collision be sent so that the maximum possible on the data line data rate can be used almost.

In addition, the data module can include an actuator that a circuit or control of the lamp or switchgear tes the outdoor light is used.  

In this way, each data module can be actively controlled Example the brightness or the switching on and off of the Lamp or the control unit according to commands central control unit.

In the following the invention will be explained with reference to an embodiment game explained, which is shown in the drawing.

The drawing shows a block diagram of an installati onsnetzes for a street lighting with a erfindungsge system.

The individual outdoor lights of street lighting are on a four-wire installation cable connected, one of which Lead zero potential, the other two leads originally were optionally connectable to network potential to all external luminaires belonging to the same circuit towards full brightness or reduced brightness switch and its fourth wire serves as a protective conductor. This fourth wire is provided for security reasons only and therefore irrelevant for energy supply and control. Of the three wires mentioned, which are used for energy supply serve or control is only one in the invention  charged with network potential. The other wire serves as a da tenader for the system according to the invention.

Each outdoor light is equipped with a data module that internally an evaluation and control circuit, a data receiver ger, a data transmitter, a monitoring sensor and a Actuator includes. There is also a central evaluation and control Circuit provided that transmitted by the data modules Evaluates and stores data, or a series of data stored data can evaluate, and also in the Is able to give commands individually to the individual data modules transferred to.

The data modules are on the one hand at the zero potential and Network potential leading wire connected via which they are connected Supply voltage are supplied, and on the other hand to the Data wire. The data wire is here with the data transmitter and connected to the data receiver. The same applies to the evaluation and control circuit, which also has a Da Tenempfänger and a data transmitter includes, the same Data wire are connected. The data wire acts as data bus and via it, data telegrams can be transmitted in the baseband be exchanged. For this purpose, binary voltage sequences that are between about 30 volts and 0 volts, into the data wire  fed. These data telegrams can be the address of the sender ders, for example another data module or der central evaluation device contain the address of the Target, a checksum as well as information and data. It is possible to dynamically adjust the length of the data telegrams.

Through the transmission in the baseband, i.e. without high-frequency Carrier, the transmission is considered NF transmission and requires no approval by the regulatory authority for postal and Telecommunications. In addition, a trouble-free Da transmission guaranteed, otherwise on the data line no other signals are transmitted and so a good ent coupling is given. By using a low Transmission frequency are also not high-frequency legs flows of neighboring devices to be expected. Furthermore there is only a slight damping, so that existing which installation cables cover long distances that can.

If the data line does not become a staffed Zen trale can be managed, it is also possible the central Evaluation device or several central evaluation devices in a control and control center, in which the outdoor lights have been controlled so far. The data about  Transfer to the central administration can then be done via normal telecom communication facilities.

Using the data modules, commands issued by the central evaluation device can be sent. Outside lights can be switched on and off individually. Is too it is possible, with the appropriate equipment, the outdoor lights with reduced brightness, i.e. in an energy saving level to operate or dim. The outdoor lights controlled jointly, in groups or individually become. In addition, the brightness sensors are used of the data modules a detection of the brightness of the individual Lamps and transmission of these values for central evaluation contraption. The lei is also recorded power consumption of the individual lamps. These values become Efficiency of the individual lamps determined and in a Da tenbank saved.

With conventional outdoor lights with gas discharge lamps, ge drops towards the end of the service life, the brightness remains the same the or even increasing electrical power consumption. By evaluating successive stored values of Efficiency can be the expected end of Le determine service life. This end of life doesn't have to  absolutely meet with a total failure of the lamp. Rather, it can also be increased compared to the luminous efficacy Power consumption as an economic end of life duration are considered from which an exchange for a new one Lamp is cheaper.

These values are now automatically evaluated and from the Values, a time is calculated at which an exchange is required, or the material and ar labor wages for an exchange economically profitable. Based on the projection, the necessary ones can then be made in good time Number of lamps can be ordered from the manufacturer, and the cheapest route can then be determined, the a service technician for replacing the lamps at mög requires as little time and effort as possible.

Claims (15)

1. System for monitoring outdoor lights, which are connected to an at least three-wire cable, characterized in that the outdoor lights to be monitored are assigned data modules, each with a monitoring sensor and a data transmitter connected to it, and the data being sent to a reference or voltage potential-carrying wire and to a free wire of the cable which does not light up for supplying energy to the outside are connected as data wire and via the data wire data telegrams in the baseband which are received and evaluated by at least one central evaluation device which is also connected to the data wire . 2. System according to claim 1, characterized in that on the transmission path between the data modules the and / or hiss the data modules on the one hand and the zen central evaluation device on the other hand router are to which the data wires are connected, and that the  transmitted and received data telegrams are router-compatible are. 3. System according to claim 1 or 2, characterized in that that the data modules each have a data receiver and comprise an internal evaluation and control circuit and the evaluation and control circuit with the data transmitter, the Data receiver and the monitoring sensor is connected. 4. System according to claim 3, characterized in that the central evaluation device comprises a data transmitter which the data wire is connected. 5. System according to claim 1, characterized in that the Data modules additionally each comprise at least one actuator sen. 6. System according to any one of claims 1 to 5, characterized records that the monitoring sensor as an optical sensor and / or thermal sensor and / or electrical current Voltage power sensor for the lamp and / or the switch device of the outdoor light.   7. System according to claim 5 or 6, characterized in that that the actuator as an on / off switch and / or switch and / or dimmer for the lamp and / or the switching device of the Outdoor lamp is formed. 8. System according to any one of claims 1 to 7, characterized indicates that the exterior lights are monitored for function and linked the results with the monitoring time in stored in a database. 9. System according to one of claims 1 to 7, characterized crekenn records that the exterior lights by evaluating Hellig effect and electrical power consumption on their effects degrees are monitored and the results in a database linked to the time of the monitoring. 10. System according to claim 9, characterized in that a series of measured values of brightness or efficiency the expected remaining life of the outdoor lamps are projected. 11. System according to any one of claims 8 to 10, characterized ge indicates that from the saved and / or extrapolated an inspection plan is generated based on the values in the database and  is saved in which the outdoor lights are stored, whose lamps are to be replaced during an inspection. 12. System according to claim 9, characterized in that to In addition, the sequence is specified in the inspection plan is carried out in the inspection of the individual outdoor lights lead is. 13. Data module with one monitoring sensor and one with this connected data transmitter, which is connected to a reference or Wire carrying voltage potential and to a data wire lockable for sending data telegrams in the base tied to an evaluation device, characterized in that uses the data module to monitor outdoor lights and that as a data wire a free, not to Energiever supply of the outside lights serving core of the connection cable the outdoor light is used. 14. Data module according to claim 13, characterized in that the data module additionally a data receiver and an in ternal evaluation and control circuit and the evaluation and control circuit with the data transmitter, the data receiver and the monitoring sensor is connected and that the Da receiver and the internal evaluation and control circuit  at least for monitoring the data telegrams of the data line collision and control of a collision-free Transmission of the data transmitter is used. 15. Data module according to claim 14, characterized in that the data module additionally includes an actuator for scarfing device or control of the lamp and / or the switching device of the Outdoor lamp is used.