DE202007011309U1 - City lighting system for new consumers - Google Patents

Abstract

street lamp (2) as a power supply device for external consumers (5) characterized in that it comprises a distributor (3) for distributing the electrical energy contain

Description

efficient Energy distribution systems are becoming increasingly important and the Automotive industry would like efficient and ergonomic transport and transport. Increasingly spread parallel bicycles, so-called SegWays which continuously must be refueled with electric energy. The invention is the Task on which energy distribution systems optimized so Shaping that too novel means of transport and other services are safe to use.

To solve the problem is provided, systems for city lighting, such as street lamps ( 2 ) in such a way that a permissible power consumption for additionally connected consumers ( 5 ) is possible and optimized. Street lamps ( 2 ) are in close proximity to the traffic routes, so that only short connecting lines ( 6 ) to another consumer ( 5 ) are necessary. So these systems are to be used even during the day, ie when not operating the bulbs of the street lamps.

Often there are several street lamps ( 2 ) directly in a string in a row and independently of the rear power distribution system on a sub-distributor ( 4 ) connected. From this subdistributor ( 4 ) these power supply lines ( 8th ) along a street of a street lamp ( 2 ) to the nearest street lamp ( 2 ). These city lighting systems can be optimally adapted to the purpose of the invention.

Using a public socket ( 12 ) on the street lamps ( 2 ) one can thus, for example, store energy of transport and means of transport ( 5 ) charge. Similarly, the connection and use for other consumers, such as chargers or communication devices, laptops or MobilePhones ( 5 ) imaginable. Also include electric vehicles, such as parallel two-wheelers ( 30 ) to consumers ( 5 ).

Consumers within the meaning of the invention continue to apply both the bulbs ( 17 ) in the street lamp ( 2 ), the additionally required internal electronics, electromechanics and power electronics ( 16 ) as well as communication devices or chargers.

• • Straßenlaterne (2) mit Überwachung der Stromaufnahme über die Steckdose (12) mittels Sensor (10)
• • Straßenlaterne (2) mit Überwachung der Gesamt-Stromaufnahme von den Energieversorgungsleistungen (8) entlang des Straßenzuges mittels Sensor (10) in der Umspannstation (4) zur Ermittlung und Beeinflussung des Lastfalles des gesamten Stranges und anderer angeschlossener Straßenlaternen (2).
• • Straßenlaterne mit elektrischem Freigabeschalter (11) an der Steckdose (12) zum Schalten der Energieversorgung
• • Straßenlaterne (2) mit elektromechanischem Schiebeelement (21) an der Steckdose (12) zum mechanischen Schutz und Freigabe der Steckverbindung formschlüssig zum Straßenlaternenmast (2)
• • Straßenlaterne (2) mit Steckdose (12) und LED (14) zur Anzeige des Status/Zustandes: Versorgungsspannung an Steckdose (12) an/aus und weiteren Betriebszuständen
• • Straßenlaterne (2) mit Steckdose mit FI-Schutz-Schalter
• • Managementsystem (15) mit Datenverarbeitungseinheit, Datenspeicher in der Straßenlaterne (2) und IP-Verbindung (7): steuert elektrischen Freigabeschalter (11) und überwacht elektromechanischen Freigabeschalter (21).
• • Straßenlaterne mit Leistungselektronik (16) zur automatischen Verbraucherschaltung je nach Lastverhalten (Automatischer Wechselschalter), optimiert für die Phasen L1 bis L3 und gesteuert vom Managementsystem (15) der Straßenlaterne (2)
• • Straßenlaterne (2) mit Baugruppe zur drahtgebundenen oder drahtlosen Kopplung (7) und Datenübertragung von und zur Datenverarbeitungseinheit zu weiteren Straßenlaternen (2), zum Internet, Server (1) oder zu Kommunikationsgeräten (30).
• • Server mit Managementsystem (1) im Internet für zusätzliche Dienste, wie Billingsysteme und einer Ermittlung und Überwachung und Steuerung/Regelung der zulässigen Leistungsbilanz der Straßenlaternen (2) und angeschlossenen zusätzlichen Verbraucher (5) sowie der Information der Nutzer z. B. bei Erreichen eine Schwellwertes durch einen Schwellwertschalter, der Zeit durch einen Zeitgeber, des Stromverbrauches mittels Sensor (10), bei Fehlern oder vorgesehenen Schaltvorgängen bei Nutzerbedarf über personalisiertem WEB-Portal im Server 01.

The urban lighting system for a hardened, failsafe power supply system via street lights ( 2 ) with connection devices, such as sockets ( 12 ) for additional consumers ( 5 ) is then interpreted as follows:

• • street lamp ( 2 ) with monitoring of power consumption via the socket ( 12 ) by means of sensor ( 10 )
• • street lamp ( 2 ) with monitoring of the total power consumption of the energy supply services ( 8th ) along the road by means of a sensor ( 10 ) in the substation ( 4 ) for determining and influencing the load case of the entire line and other connected street lamps ( 2 ).
• • Street lamp with electrical release switch ( 11 ) at the socket ( 12 ) for switching the power supply
• • street lamp ( 2 ) with electromechanical sliding element ( 21 ) at the socket ( 12 ) for mechanical protection and release of the plug-in connection in a form-fitting manner to the street lamp mast ( 2 )
• • street lamp ( 2 ) with socket ( 12 ) and LED ( 14 ) for displaying the status / state: supply voltage to socket ( 12 ) on / off and other operating states
• • street lamp ( 2 ) with socket with RCCB
• • Management system ( 15 ) with data processing unit, data storage in the street lamp ( 2 ) and IP connection ( 7 ): controls electrical release switch ( 11 ) and monitors electromechanical release switches ( 21 ).
• • street lamp with power electronics ( 16 ) for automatic load switching according to load behavior (automatic changeover switch), optimized for phases L1 to L3 and controlled by the management system ( 15 ) of the street lamp ( 2 )
• • street lamp ( 2 ) with a wired or wireless coupling assembly ( 7 ) and data transmission from and to the data processing unit to other street lamps ( 2 ), to the internet, server ( 1 ) or to communication devices ( 30 ).
• • server with management system ( 1 ) on the Internet for additional services, such as billing systems and the identification, monitoring and control of the allowable current account of street lamps ( 2 ) and connected additional consumers ( 5 ) as well as the information of the users z. B. upon reaching a threshold by a threshold, the time by a timer, the power consumption by means of sensor ( 10 ), in the case of errors or planned switching operations in case of user needs via personalized WEB portal in server 01.

Should now future Energy storage in transport particularly fast charged are high currents transferred to and thus higher performance provide.

• 01. intern, für Beleuchtung, wie Leuchtmittel (17) in der Straßenlaterne (2)
• 02. extern, an der Steckdose (12)
• 03. intern, für Baugruppen in der Straßenlaterne (wie, 10, 15, 16) separat und individuell auf jede Phase L1, L2, L3 in Abhängigkeit der Befehle des Managementsystems (1) in der Straßenlaterne elektronisch gesteuert geschalten.

Because of the future importance of the street lamp ( 2 ), not only in this regard, the individual basic consumers, such as:

• 01. internally, for lighting, such as bulbs ( 17 ) in the street lamp ( 2 )
• 02. externally, at the socket ( 12 )
• 03. internally, for assemblies in the street lamp (like, 10 . 15 . 16 ) separately and individually on each phase L1, L2, L3 depending on the commands of the management system ( 1 ) switched electronically in the street lamp.

there An optimization of the utilization of the individual phases as well as the selection of the supplying phases L1 / L2L3 to the respective internal ones and external consumers - selected and dependent upon a priority memory in the management system. The priority memory includes type of consumer and is weighted for reference the system stability. Should so, for example, a traffic control system with Video cameras as internal consumers have priority in overload or error case granted be used, so error-free phases are used or other unnecessary consumers off.

• • Zeiten für die An- und Abschaltung der Leuchtmittel (17)
• • Daten zur Fehlerbehandlung, wie einer priorisierten, wie autarken Funktionsweise der Straßenlaterne (2) im Sinne dieser Erfindung
• • Sicherheitsrelevante Parameter beispielsweise für die Freischaltung der Spannung an der Steckdose (12) bei Ausfall des Server (1) oder deren Verbindung (7)
• • Parameter der Messgrößen des Stromes, welche zum sicheren Eigenbetrieb für das Freischalten eines zusätzlichen Verbrauchers (5) über die Steckdose (12) notwendig sind

The same importance is attached to the internal management system ( 15 ) too. Without it, the street lamp is not self-sufficient, as it is able to work in case of errors. Thus, the data memory contains parameters that are necessary for autonomous operation. This includes:

• • Times for switching on and off the lamps ( 17 )
• • Data for error handling, such as a prioritized, self-sufficient functioning of the street lamp ( 2 ) in the sense of this invention
• • Safety-related parameters, for example for the activation of the voltage at the socket ( 12 ) in case of server failure ( 1 ) or their connection ( 7 )
• • Parameters of the measured variables of the current, which are used for safe in-house operation for the activation of an additional consumer ( 5 ) via the socket ( 12 ) are necessary

The latter parameter ensures that the permissible total current of the lighting system is 4 ) or a sum intermediate measuring point is not exceeded. The sum intermediate measuring point always records the power consumption of several street lamps ( 2 ). In the event of an error, conclusions can also be drawn about the source of the error or the accounting procedure can be specified.

The power electronics ( 16 ) of the street lamp ( 2 ) becomes like that in the street lamp ( 2 ) integrated, that in road accidents with a street lamp incorporated safe operation is ensured and other connected street lamps with their assemblies remain unaffected on this strand. For this purpose, the mechanical break or desired expansion construction is specially designed on the street lamp mast. A sensor determines whether the affected street lamp is completely or partially switched off electrically.

Parallel two-wheelers ( 30 ) can be particularly well by means of charging connectors ( 40 ) via a customized distributor ( 3 ) at the street lamp ( 2 ) and thus charge according to the invention. Advantageously, the charging connectors ( 40 ) at working height of the parallel two-wheelers ( 30 ) and can be used directly here and without additional connection cable ( 6 ) supply energy as well as data technology. Thus, information such as ID numbers of the parallel two-wheeler ( 30 ), Status messages or commands are transmitted. More efficient theft protection occurs when the charging connectors ( 30 ) at the same time as an electromechanical lock system binding effect.

Subsequent descriptions of the representations 01 - 04 and the illustrations themselves show layouts or advantageous use schematically.

01 shows the functional principle of a "public socket" ( 12 ) "on street lamps ( 2 ). The street lamps have a new distributor ( 3 ), which also includes the internal management system ( 15 ) and consumers ( 5 ) according to set parameters to the electric power distribution network via power supply lines ( 6 ) connect. The parameters are determined by an external server ( 1 ) and the internal management system ( 15 ) held. A user of a consumer ( 5 ) can now be a power reference z. Eg online via web forms of the server (01) or authorized directly via WEB forms of the management system ( 15 ) of a single street lamp ( 2 ) by means of PDA ( 50 ) or by phone or see the status. In doing so, the server ( 1 ) the management system for the user and the IP connections ( 7 ).

Existing hollow street lamps ( 12 ) according to 02 usually in the lower part of the mast over a service opening to be used. Behind it are the fuse elements with the electrical power lines. This opening is conventionally secured by means of a lid and with a simple lock against unauthorized use and has not been shown here. Retrofit street lamps ( 2 ) are now in one case designed so that at least this cover by a new distributor ( 3 ), (according to 02 ) is exchanged. Socket ( 12 ) and electronics as well as, if necessary, new electronic fuse elements are installed in a new housing, the distributor ( 3 ) integrated. The housing is completely or partially in the existing opening of the street lamps ( 2 ) retractable. Electrical leads are adapted and connected to the technology in the new housing. The new cover is now available as a distributor ( 3 ) designed so that it carries the new housing and the overall construction closes the opening again. The distributor ( 3 ) be formed with its housing so that a small projection over the mast diameter is provided in order to make more space available in the housing. The distributor form adjusts itself steadily arched to the diameter of the mast. Thus, protruding, dangerous corners, such as moldings are avoided. The socket ( 2 ) is advantageously integrated without being in the distributor and has a sliding element ( 21 ). The sliding element ( 21 ) shoots the access to the socket ( 12 ). The sliding element ( 21 ) is designed so that, after sliding and operating the socket ( 12 ) no supernatant can lead to injuries, for example, cyclists or passers-by. The sliding element ( 21 ) with the release switch ( 11 ) also ensures access to the socket during operation. Without closed sliding element ( 21 ), the management system switches via the release switch ( 11 ) use not free. Thus, the operation with protruding and not approved connection plugs is avoided. The cable feedthrough ( 25 ) in the sliding element ( 21 ) is provided to withstand mechanical loads on the connecting line ( 6 ) or to interrupt the power supply by manual operation.

The new electronic lock for opening and for service on the street lamp ( 2 ) and the new distributor is protected under the sliding element ( 21 ) and was not shown.

02 shows an example of a mast section ( 23 ) a street lamp ( 12 ) with such a new housing form with sliding element ( 21 ) and integrated cable opening ( 25 ) for an outgoing charging or power cable ( 6 ). The socket ( 12 ) has a sensor ( 13 , Light barrier) for detecting an inserted plug. A two-color status LED ( 14 ) informs about the concern of the voltage or other states (status). The luminaire number ( 22 ) designates the street lamp number for entry in a billing system / management system ( 1 ). A user can now use the management system ( 1 ) order the service also online. The voltage is only released after release by the server ( 1 ) with management system and after checking other parameters, such as online order status, status sensor photocell ( 13 ), Status enable switch ( 21 ), Status resources / load behavior, measured quantities of the current power consumption at the socket ( 12 ) through the sensors ( 10 ) of the street lamp ( 2 ) or the total power consumption in the string or the status of the error messages of the management system. A shutdown of the voltage is analogous z. In case of errors, according to online order status or in case of an increase of the pre-ordered or possible payment by the management system ( 15 ) in the streetlight or through the server ( 1 ) with management system on the Internet.

03 shows schematically the working principle of the technique of a street lamp ( 2 ). About the connections ( 18 ) from a substation ( 4 ) the power electronics ( 16 ) to commands of the management system ( 15 ) for switching external consumers ( 5 ), the internal consumer ( 15 . 16 or z. B. a video camera), or the bulb ( 17 ) according to the permissible and stored connection parameters. Does a customer now at a first time the power reference to the street lamp ( 2 ) with the appropriate distribution number ( 22 ) personalized in the web portal of the server ( 1 ) and is at a second specified time the plug of a power line ( 6 ) in the socket ( 12 ), then the photocell detects ( 13 ) the process. The management system ( 15 ) acknowledges the process at the server ( 1 ) and confirmed by flashing the LED ( 14 ) the correct order and connection status. Deviations from the time regime with predetermined time periods terminate the application and cause a new order. When closing the sliding element ( 21 ) at a third time with connected consumer ( 5 ) starts the electricity purchase for the ordered time window and the LED ( 14 ) lights up permanently. In advance, the proper connection of a consumer ( 5 ) low-impedance or by a safe measurement by the power electronics ( 16 ) and sent to the server ( 1 ) transfer. In the event of connection or system errors or in the case of the management system, the electricity purchase is terminated for the external consumer ( 5 ) and the information to the customer or user of the consumer. The user can use the web portal of the server ( 1 ) immediately discontinue the receipt of benefits and confirm the transfer. The management system ( 15 ) processes the inputs of the sensors ( 10 ) and regulates via the power electronics ( 16 ) the permissible load on the phases and connections ( 18 ).

04 shows an example of the city lighting system with the street lamp ( 2 ) as a charging station for parallel two-wheelers ( 30 , Segway). The energy storage of the parallel two-wheelers are here via the street lamp ( 2 ) as charging station via charging connector ( 40 ) charged directly. In addition, the parallel two-wheelers have charging connectors ( 40 ), which is a row-wise hiring or docking the parallel two-wheelers ( 30 ) with each other to one and the same loading device or a distributor ( 3 ) a street lamp ( 2 ) guarantee. A return channel was not shown and provides the temporary return tion of electric energy from turbocharged parallel two-wheelers ( 30 ) into the electric energy system ( 18 ) to compensate for peak demand in the electric power distribution network. At the same time, the parallel two-wheelers ( 30 ) via IP connection ( 7 ) via the charging connector ( 40 ) to the street lamp ( 2 ) or the management system ( 15 ) and the adapted power electronics ( 16 ). The server ( 1 ) creates a corresponding refund of electrical power and credit to the user account of a parallel two-wheeled user. The supply or charging voltage represents the power electronics ( 16 ) according to connected consumer ( 5 . 30 ) depending on the type of distributor ( 3 ) with the respective mechanical connection factors.

1

server with management system on the internet

2

street lamp

3

Distributor See also 02

4

substation

5

Consumer, motor vehicle

6

Power supply line

7

IP connections

8th

Power lines for street lamp / s

10

sensor Strand for (Iges, Uges, CosPI) as well as sensors, probes

11

release switch

12

socket

13

photocell

14

status LED (2 colors)

15

management system

16

power electronics

17

Lamp the street lamp

18

Connections L1 / L2 / L2 / PE / N to power supply to substation ( 4 ) street lamps

21

sliding element (Sliding door) with release switch

22

Lights number / distributor number

23

 mast cutout the street lamp

25

cable opening

30

Parallel two-wheeler

31

holding and control handles

32

status display

33

Standing / sitting / sleeping area

34

bikes

35

Parallel two-wheeler 02

40

charging connector

50

PDA with order, billing

Claims (12)

Street lamp ( 2 ) as a power supply device for external consumers ( 5 ), characterized in that it is a distributor ( 3 ) for distributing the electric energy Street lamp ( 2 ) as a power supply device according to claim 1, characterized in that a coupling between the electrical power terminals ( 18 ) of the street lamp ( 2 ) and the distributor ( 3 ) of the electrical energy by means of a management system ( 15 ) and power electronics ( 16 ) is provided. Street lamp ( 2 ) as a power supply device according to claim 2, characterized in that an IP coupling ( 7 ) to a server ( 1 ) on the management systems ( 1 . 15 ) consists Street lamp ( 2 ) according to claim 2, characterized in that it contains a priority memory Street lamp ( 2 ) according to claim 1, characterized in that the monitoring of the mechanical status of a distributor ( 3 ) by a sensor ( 13 . 11 . 21 ) he follows Street lamp ( 2 ) according to claim 2, characterized in that with monitoring of the electrical status of the distributor ( 3 ) by a sensor ( 10 ) he follows Street lamp ( 2 ) as a power supply device according to claim 2, characterized in that the monitoring of the total current consumption of a strand of the electrical power supply lines by a sensor ( 10 ) at a substation ( 4 ) and by means of the management system of the server ( 1 ) and the management system ( 15 ) the power electronics ( 16 ) can be influenced. Street lamp ( 2 ) as a power supply device according to claim 3, characterized in that the socket ( 12 ) in a distributor ( 3 ) the service opening of the street lamp ( 2 ) is attached. Street lamp ( 2 ) as a power supply device according to claim 2, characterized in that by means of charging connector ( 40 ) the electromechanical direct contact for parallel two-wheelers ( 30 ) can be produced. Street lamp ( 2 ) as power supply device according to claim 9, characterized in that charging connector ( 4 ) energetically charge the parallel two-wheelers Street lamp ( 2 ) as a power supply device according to claim 10, characterized in that charging connector ( 40 ) technically via IP connections ( 7 ) couple the parallel two-wheelers Street lamp ( 2 ) as a power supply device according to claim 11 is characterized net, that a retransmission of the electrical power of the energy storage of the parallel two-wheelers ( 30 ) into the electric energy system ( 18 ) and a credit via a server ( 1 )