DE202005018887U1 - Lighting device e.g. for traffic systems, includes sensor with inputs of stored programmable control device for determining energy stored in battery and/or inverter - Google Patents

Abstract

A lighting arrangement has at least one light source and storage battery and/or an inverter, which feeds at least one solar module. Between the solar module and the battery (4) during rectifier operation for current take-off from the power supply network (9), is arranged a sensor (6) for measuring the electrical energy recovered from the solar module (5), and the sensor (6) has inputs (11,12) of a stored programmable device (10) for determining the energy stored in the battery for a specifiable period of time, and the control device which is joined to by an output (15) to the control output of the inverter (7), is connected for adjusting the alternator- or rectifier-operation to generate pulses of given duration from a specifiable time-point with determination of the electrical energy consumed by the impulses.

Description

The The invention relates to a lighting arrangement with at least an electric light source and a connectable to the light source Accumulator and / or an inverter, the at least one Solar module by the conversion of radiated light into electricity is fed with electrical energy.

such Lighting devices are known. The solar modules become the Conversion of sunlight used in electricity. When Energy sources feed the solar modules accumulators, for example Supply the light sources with electricity in the dark or dusk. As sources of energy solar modules are also, for. B. in connection with rechargeable batteries, for Traffic systems, surveillance systems and consumer products. Solar modules exist z. B. from in Series switched thin-film solar cells, the strip-shaped lie next to each other. When used outdoors, the solar modules especially protected against the weather.

Of the Invention is based on the object, an autonomous lighting arrangement educate the type described above so that the of the Solar module generated and stored in the battery energy for lighting at least one outdoor object for the achievement of lighting effects can be optimally utilized with different duration.

The The object is achieved in that between the solar module and the accumulator and / or to the power grid connected to rectifier operation for current consumption the power supply network switchable inverter a sensor for the measurement arranged the output of the solar module electrical energy is that the sensor with inputs a programmable logic controller for determining the in the accumulator and / or the inverter within a predefinable period fed energy is connected to the controller that at an inverter with an output to a control input of the Inverter for the setting connected to AC or rectifier operation is for the Generation of pulses of predefinable duration from a predefinable time with determination of the electrical energy consumed by the pulses to the height the energy output by the solar module, taking into account an efficiency is formed and that an output of the control device with the actuator one between the output of the accumulator and the light source arranged on / off switch is connected.

In the illumination device according to the invention, the spectral irradiance of the incident radiation from the solar activity preferably one day, ie within 24 hours, used at the site of a solar module, in particular a panel with bundled solar cells for the production of electrical energy or an amount of electricity (charge) which can be stored in the accumulator or delivered to the electricity grid. The measured quantity of electricity (p _phot ) at the place of installation is distributed over the night from the time set in the control unit, ie in the dark, back through the light source for illuminating an object, in particular a building, a monument or a plastic with an efficiency η _syst either " lossless "(p _phot = 1) or η to the transmission losses _syst reduced output as pulses of light ΣΔpi. Depending on the setting of the programmable controller, the light source may be continuous or short-term, that is to emit light pulses of adjustable duration, to be actuated. This results in the relationship : p _phot = η _syst · ΣΔp _i

at a preferred embodiment are several light sources each over an on / off switch with one output each of the programmable ECU connected. With this embodiment Is it possible, to position the light sources on extended or larger objects that optimal lighting takes place.

Especially are the light sources directional spotlights or headlights. These light sources can also be placed away from the object to be illuminated, if this is for the lighting is appropriate.

at another expedient embodiment the light sources are light-emitting diodes. With this embodiment can be, for. B. by the attachment of the light-emitting diodes certain places of one or more to be illuminated, spatially distributed Objects achieve special lighting effects.

at a preferred embodiment is a random number generator in the programmable logic controller for generating the on and off times of the on / off switch the light source or the on / off switch of the multiple light sources set. With this embodiment can also be achieved special effects in the lighting.

It is advantageous if the solar module for mounting on a mast has a plate-shaped carrier with a frame, are attached to the directional emitters adjustable respectively in different directions of radiation, wherein the on / off switch are arranged on the back of the holder and provided with control lines having one ends of terminal contacts which are connectable to terminal contacts of control lines, which emanate from a programmable logic controller, which is arranged in a housing on a plate on the mast. The mast can in particular have a telescopic section, whereby the solar module can be mounted with the directional spotlights in each case at an appropriate height above the ground on site. This embodiment is particularly suitable if the object is to be illuminated from one place only.

at another expedient embodiment are the solar module, the sensor, the accumulator, the programmable logic Controller, the on / off switches and the light sources are designed as a component set, in which the solar module, the sensor, the accumulator, the memory-programmable Controller, the on / off switches and the light sources as units with lines for the preparation of the compounds of the lighting device included are. This embodiment is particularly suitable for the arrangement of a lighting device in or in objects, if multiple light sources at different locations outside and / or to be arranged in the object.

The Invention will be described in more detail below with reference to exemplary embodiments, which gives further details, features and advantages.

It demonstrate:

1 a lighting arrangement in the scheme,

2 a lighting arrangement in mast design,

3 a lighting device as a component set.

A lighting arrangement for the illumination of outdoor objects has electrical light sources 1 . 2 on, via an on / off switch 3 be connected to a voltage source for the operating voltage. As a voltage source is in particular an accumulator 4 provided with the on / off switch 3 and a solar module 5 connected is. The on / off switch 3 can also be used as a contactless switch, z. B. be designed as a switching transistor. The on / off switch 3 In particular, as a contactless switch, a component of the control unit 10 be. The solar module 5 is about an unspecified rectifier and a sensor 6 for the measurement of the solar module 5 in the conversion of radiated light generated electrical energy with a terminal contact of the accumulator 4 connected. Parallel to the accumulator 4 may suitably be connected to an inverter, which by means of a z. B. manually operable on / off switch 8th optionally supplied with energy by the solar module. It is also possible to provide only one accumulator or, instead of the accumulator, only the inverter, which alone converts the electrical energy of the solar module into an AC voltage or an AC current. The output of the inverter 7 is with the power grid 9 from Z. B. 230V connected. The accumulator 4 can also be arranged in series with an on / off switch, not shown.

A programmable logic controller 10 is parallel to the accumulator with unspecified connections for the power supply 4 or to that from the on / off switch 8th and the inverter 7 existing series circuit laid. Programmable logic controllers (PLC) are known per se. They are sometimes referred to as microcontrollers. inputs 11 . 12 the programmable logic controller 10 are with the sensor 6 for the determination of the solar module 5 Connected via the unspecified rectifier within a predetermined period output energy, which in the accumulator 4 or in the inverter 7 is fed. A small part of the energy is provided by the programmable controller 10 consumed. An exit 13 of the control unit 10 is with the actuator 14 of the on / off switch 3 connected. Another exit 15 the programmable logic controller 10 is in the event that an inverter is present, with an unspecified input of the inverter 7 connected by a corresponding signal from the control unit 10 From inverter operation to rectifier operation is switchable, in which the AC voltage of the power supply network 9 in DC to power the light sources 1 . 2 is converted. The light sources 1 . 2 are at the in 1 shown arrangement connected in series, but it is also a parallel connection possible. The series or parallel connection of the light sources depends on the rated voltage of the light sources and the output voltage of the accumulator 4 or the inverter 7 in rectifier mode. The programmable logic controller 10 determined by measuring the over the sensor 6 Within a predetermined period of time flowing electricity from the solar module 5 generated electrical energy, minus the energy consumed by the control unit itself in the accumulator 4 is fed or is discharged from an inverter to the power grid. The one with the control unit 10 specifiable period is in particular the time of a day during which the spectral irradiance of the incident radiation from the solar activity of the day, ie within the solar radiation in the 24 hours of the day, at the place of installation of the solar module 5 , which is in particular a panel with bundled Sollarzellen, for the production of electrical energy or an amount of electricity (charge) is exploited in the accumulator 4 stored or connected to the electricity grid 9 can be delivered. The measured quantity of electricity (p _phot > at the place of installation is distributed over the night from the time set in the control unit, ie in the dark again by the light source for illuminating an object, in particular a building, a monument or a plastic with an efficiency η _syst either " lossless "(p _phot = 1) or by the transmission losses η _syst reduced as light pulses ΣΔpi delivered 10 is for the generation of pulses of predeterminable duration from the predetermined time with determination of the energy consumed by the pulses up to the height of the solar module 5 output energy formed taking into account an efficiency. Depending on the setting of the programmable controller, the light source can be operated continuously or briefly, ie for the delivery of pulses of adjustable duration. This results in the relationship: p phot = η syst · ΣΔp i ,

It can be with the illumination device according to the invention achieve certain lighting effects, the duration of each of which is a continuous lighting reaches up to short light pulses. This depends on the setting of the ECU from. The pulse duration of the light pulses can be different from that measured determined, available Energy and that in the control unit also adjustable period in which the lighting of the object should take place, depending be made (eg midnight flash, etc.).

Since programmable logic controllers may have multiple outputs, in a convenient embodiment, multiple on / off switches with corresponding outputs of the controller 10 get connected. The on / off switches are then each light sources downstream of the accumulator 4 or from the changeover switch 7 be fed, but in one in the control unit 10 set sequence and duration are switched on and off. With this embodiment, larger or extended objects can be illuminated by placing the light sources in suitable locations in or outside the outdoor objects.

In the programmable controller 10 is in particular a random number generator for generating the on and off times of the on / off switch 3 the light sources 1 . 2 or the on / off switch of the multiple light sources. With this embodiment, special effects can be achieved in the illumination of one or more objects.

In 2 is a lighting device shown in which a solar module 16 on a plate-shaped support with a frame 17 on a mast eighteen , z. B. at the top, is attached. The solar module 16 is set at an angle that is favorable for the incident sunrays. Laterally on the frame 17 are directional spotlights 19 . 20 and 21 adjustable in different directions of radiation attached. The on / off switch for the directional spotlights 19 . 20 and 21 are on the back of the carrier. Between the solar module and a foot attached to the floor 22 of the mast eighteen is one on the mast eighteen attached plate 23 on a case 24 an accumulator and in a housing 25 a programmable logic controller are housed. The connecting cables between the solar module 16 and the accumulator and between the control unit and the on / off switches for the directional radiator 19 . 20 . 21 partly run in the mast eighteen , The mast eighteen may be formed in particular telescopic.

In 3 an embodiment is shown, which contains as a kit the necessary parts for a lighting device. One on a support plate 26 attached solar module 27 is by means of a line 28 with the sensor 29 and this through a pipe 30 with the accumulator 31 connected. Another line 32 connects the solar module 27 directly to the accumulator 31 , From the accumulator 31 run lines 33 . 34 to a control unit 35 , Two lines 36 . 37 connect the controller 35 with the sensor 29 , Of not shown terminals in the control unit 35 for the wires 33 . 34 go a line 38 to a light emitting diode 39 and a line 40 for an on / off switch 41 out. Between the light emitting diode 39 and the on / off switch 41 are light-emitting diodes by means not shown in detail 42 . 43 . 44 . 45 and 46 connected in series. A control line 47 connects the controller 35 with the actuator of the on / off switch 41 , From the connection for the line 33 , at the control unit 35 ever goes a line 48 . 49 to a headlight 50 . 51 out. The headlights 50 . 51 are each on unspecified lines with an on / off switch 52 . 53 connected. From the on / off switch 52 . 53 are each lines 54 . 55 with the connection for the line 34 in the control unit 35 connected. Furthermore, the actuators of the on / off switch 52 . 53 depending on an unspecified line with an output of the controller 35 connected. The on / off switch 52 . 53 can, preferably as a contactless switch also part of the controller 35 be.

Claims (8)

Lighting arrangement with at least one electrical light source and an accumulator which can be connected to the light source and / or an inverter, which is fed by at least one solar module by the conversion of radiated light into electrical current with electrical energy, characterized in that between the solar module ( 5 ) and the accumulator ( 4 ) and / or to the power grid ( 9 ), to rectifier operation for current drain from the power grid ( 9 ) switchable inverter ( 7 ) a sensor ( 6 ) for the measurement of the solar module ( 5 ) arranged electrical energy is arranged, that the sensor ( 6 ) with inputs ( 11 . 12 ) of a programmable logic controller ( 10 ) for the determination of in the accumulator ( 4 ) and / or the inverter ( 7 ) energy is supplied within a predefinable period of time that the control unit ( 10 ), which is an inverter with an output ( 15 ) to a control input of the inverter ( 7 ) for setting to AC or rectifier operation is connected, for the generation of pulses of predeterminable duration from a predetermined time with determination of the electrical energy consumed by the pulses up to the height of the solar module ( 5 ) energy is formed taking into account an efficiency and that an output ( 13 ) of the control unit ( 10 ) with the actuator ( 14 ) one between the output of the accumulator ( 4 ) and the light source ( 1 . 2 ) arranged on / off switch ( 3 ) connected is. Illumination arrangement according to Claim 1, characterized in that a plurality of light sources ( 1 . 2 ; 39 . 42 . 43 . 44 . 45 . 46 ) each via an on / off switch ( 41 ) each with one output of the programmable controller ( 10 ; 35 ) are connected. Lighting arrangement according to Claim 1 or 2, characterized in that the light sources are directional radiators ( 19 . 20 . 21 ) or headlights ( 50 . 51 ) are. Lighting arrangement according to claim 1 or 2, that the light sources light-emitting diodes ( 39 . 42 . 43 . 44 . 45 . 46 ) are. Lighting arrangement according to Claim 1 or one of the following claims, characterized in that in the programmable control device ( 10 ; 35 ) a random number generator for generating the on and off times of the on / off switch ( 3 ) of the light source ( 1 . 2 ) or the on / off switch ( 41 . 54 . 55 ) of the multiple light sources ( 39 . 42 . 43 . 44 . 45 . 46 . 50 . 51 ) is set. Lighting arrangement according to Claim 1 or one of the following claims, characterized in that the solar module ( 16 ) for mounting on a mast ( eighteen ) a plate-shaped carrier with a frame ( 17 ), at the directional radiator ( 19 . 20 . 21 ) are mounted adjustable in each case in different directions of radiation, wherein the on / off switch are arranged on the back of the carrier and provided with control lines, one ends of which have terminal contacts which are connectable to terminal contacts of control lines, which emanate from a programmable logic controller, in a Casing ( 24 ) on a plate ( 23 ) on the mast ( eighteen ) is arranged. Lighting arrangement according to claim 6, characterized in that the mast ( eighteen ) has a telescopic section. Lighting arrangement according to Claim 1 or one of Claims 1 to 5, characterized in that the solar module ( 27 ), the sensor ( 29 ), the accumulator ( 31 ), the programmable logic controller ( 35 ), the on / off switch ( 41 . 52 . 53 ) and the light sources ( 39 . 42 . 43 . 44 . 45 . 46 . 50 . 51 ) are formed as a component set, in which the solar module ( 27 ), the sensor ( 29 ), the accumulator ( 31 ), the on / off switch ( 41 . 52 . 53 ) and the light sources ( 39 . 42 . 43 . 44 . 45 . 46 . 50 . 51 ) are contained as separate units with lines for the production of the connections of the illumination device.