NL1025975C1 - Electricity distribution system for outside lighting, has distributor stations with groups of plug sockets which can be supplied with power from lighting network in building - Google Patents

Abstract

The system (1) comprises a means for connecting it to a lighting network in a building, a main distributor box (2) and at least one distributor station (3) which can be connected to the box. At least one station comprises one or more plug sockets (25-28) belonging to at least one group of sockets connected at the same time. A relay is used to supply power from the lighting network to one or more of these groups.

Description

Brief indication: Electricity distribution system for supplying electricity outdoors, as well as main distribution box and distribution station.

5 DESCRIPTION

The present invention relates to an electricity distribution system, in particular outdoor lighting system, for providing electricity outdoors, comprising means for connecting the system to the mains of a building.

The invention furthermore relates to a main distribution box as well as to a distribution station for use in such an electricity distribution system.

Such systems are known and often comprise a switch which can for instance be hung in a house or building and one or more lamps or sockets which are electrically connected to the switch. The user can switch the lighting and power supply in the garden on and off by operating the switch.

A disadvantage of such systems is that they provide little flexibility with regard to operating the electricity supply in the garden. The device can be either on or off depending on the state of the switch. If, for example, the user wishes to be able to operate one or more lamps in his or her garden independently of the other lamps present in the garden, an additional switch must be hung in the home for this purpose, and a separate supply to the relevant lamp must be provided. are provided.

With more complicated wishes of the user with regard to his outdoor lighting and distribution of electricity, the number of cables and switches to be installed can quickly get out of hand 1025975 2. Not only will this make the installation process of such an electricity distribution system more complicated, but it will also become increasingly difficult, for example, to detect malfunctions at a later stage.

It is an object of the present invention to provide an electricity distribution system that is relatively simple and that offers the user great flexibility and ease of operation.

To this end, the invention provides an electricity distribution system, in particular an outdoor lighting system, for providing electricity outdoors comprising means for connecting the system to a building's mains network, a main distribution box and at least one distribution station connectable to the main distribution box, furthermore comprising a plurality of groups of sockets switched at the same time, wherein the at least one distribution station comprises one or more sockets belonging to at least one group of sockets switched at the same time, and wherein the system further comprises switching means for energizing electricity from the mains of sockets belonging to at least one group of the sockets switched at the same time.

With such a system, a plurality of distribution stations to be placed at different locations in the garden can simply be connected to the main distribution box, and the different sockets belonging to the same group, whether or not spread over several distribution stations, simultaneously with the aid of the switching means of electricity be provided. Since there are several groups of sockets connected in the system at the same time, many possible different and complicated operating schemes can be provided with this system, without this being at the expense of the simplicity of the system. In a preferred embodiment, the at least one distribution station comprises at least one socket of each group of groups 1025975 3 sockets switched simultaneously. The user thus has access to each of the groups of sockets connected at the same time at each distribution station, and can easily change his operating scheme by, for example, connecting outdoor lighting in the vicinity of a distribution station to another socket. It is then no longer necessary to make structural changes to the design and wiring of the system.

In a further embodiment of the invention, the at least one distribution station can be operably connected to a further distribution station. This means that, for example, a plurality of distribution stations can be easily connected to each other by drawing a connection from one distribution station to the next distribution station and reconnecting the following distribution station to the subsequent distribution station, etc. In this way, not every distribution station need 15 station can be directly connected to the main distribution box, but a kind of chain of distribution stations can be provided which is connected to the main distribution box only at one point. The main distribution box can, for example, be connected at one of the ends of the chain to one of the distribution stations or can simply form part of the chain. It is to be understood that according to a further embodiment of the invention this active connection between the at least one distribution station and the further distribution station is formed by one cable.

According to a further embodiment, the connections between elements of the system, such as between the main distribution box and the at least one distribution station or between the at least one distribution station and a further distribution station, comprise at least one multi-pole cable. Many advantages can be achieved with the use of such a multi-pole cable. For example, when connecting the system to the mains, the neutral and ground wires can be shared by the different groups of equally connected sockets. The above-mentioned advantages with regard to the use of a single cable for forming connections can also easily be achieved with the use of a multi-pole cable. A system comprising, for example, four switchable groups of sockets connected at the same time, can for instance simply be implemented with the aid of a 7-pin cable. Within the 7-pin cable, for example, a neutral wire and one earth wire can then be present and four phase wires. The remaining seventh wire can be used, for example, as an additional switch wire, for example for connecting 10 dimmers, extra switches, light-sensitive switches, time switches, etc.

According to a further embodiment, the switching means and at least one element from a group comprise light-sensitive switching means, time-controlled switching means and a dimmer. The switching means may, in accordance with a further embodiment, consist of one or more switches arranged on the main distribution box. If this main distribution box is placed in the home or in the building, the user can simply operate the lighting in his home, for example the garden.

According to a further embodiment, the switching means comprise at least one switch arranged on the at least one distribution station. With such a switch, the user can also operate the lighting from the garden. For example, if the user wishes to operate the terrace lighting from his lazy chair on the terrace on a warm summer evening at dusk.

According to a further embodiment of the invention, it comprises at least one earth leakage circuit breaker. The use of an earth leakage circuit breaker offers major advantages. Since the electricity distribution system will often be used outdoors, and is thereby exposed to all kinds of weather influences, it is not inconceivable that malfunctions can occur. It is possible that a 1025975 5 leakage current will start running from the point where the fault occurs to earth. This can lead to dangerous situations. By designing the system according to the invention with an earth leakage circuit breaker, when an earth leakage occurs, the earth leakage circuit breaker of the mains of the house 5 will react, but the earth leakage circuit breaker of the system according to the invention. The advantage is that as a result it is not the electricity supply in the mains of the house that fails, but only the electricity in the electricity distribution system according to the invention. This earth leakage circuit breaker is preferably placed between the main distribution box and the means for connecting the system to the mains.

The electricity distribution system can further be implemented with one or more short-circuit protections, such as a fuse or an automatic stop. As a result, when an internal short circuit occurs in, for example, the outdoor lighting, by burning out the fuse or turning off the automatic stop, the mains of the house or building will not be overloaded.

According to a further embodiment of the invention, it provides an electricity distribution system in which the at least one short-circuit protection is arranged for switching off at least one group of the groups of sockets connected at the same time when a short-circuit occurs. In such a manner, each individual group of sockets can be provided with such a short-circuit protection, so that when one of the sockets from one group occurs, not all sockets from all other groups will be switched off.

In a further embodiment of the invention the switching means can be operated by means of a control panel. Such a control panel can for instance be connected to the main distribution box and can also form part of the main distribution box.

According to a further embodiment, the control panel 1025975 may comprise transmitting means for providing a signal remotely, and the system may comprise receiving means for receiving the signal and, for example, the main distribution box may be adapted to control the switching means in response to the signal . With such a system the user can easily control the electricity supply in the system with a remote control.

A further disadvantage of conventional systems is that such systems are often installed as an extension of the existing mains network in the building or the house. For 10 safety reasons, such a mains network must often meet strict conditions, which are described, for example, in the Netherlands in the NEN 1010 standard. Since the outdoor lighting system is an extension of the mains in the building or in the home, the installer is limited in his choice of materials when installing the system due to the strict safety requirements in force.

According to a further embodiment of the invention, therefore, the means for connecting the system to the mains are adapted to be detachably connected to the mains. These means can therefore, for example, be designed as a plug connection. A major advantage of such a plug connection is the fact that the electricity distribution system according to the invention does not have to meet all kinds of strict safety requirements imposed on the mains, because the system as such does not form part of the mains, but can be connected to it detachably.

According to a second aspect of the invention, it provides a main distribution box for use in an electricity distribution system as described above.

According to a third aspect, the invention provides a distribution station for use in an electricity distribution system according to the invention.

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The invention will be further described with reference to non-limiting embodiments thereof, with reference to the accompanying drawings, in which: figure 1 schematically shows an embodiment of the invention, comprising a main distribution box and a distribution station connected thereto; Figure 2 shows an embodiment of the invention as it can be installed, for example, in the garden of a home; Figure 3 shows a further embodiment of the invention, comprising a switching mechanism to be operated from a distribution station.

Figure 1 shows an electricity distribution system 1 comprising a main distribution box 2 and a distribution station 3. The main distribution box 2 is operatively connected to distribution box 3 by means of a multi-pole cable 7, which can for instance be a 6-pole cable as shown here. The cable 7 is connected by means of plug connections 5 and 6 to the distribution station and the main distribution box respectively. Distribution station 3 can be connected with plug connection 8 to a further distribution station (not shown), with the aid of, for example, the same cable as cable 7.

Main distribution box 2 is designed to be connected to, for example, the mains of a house, and for this purpose comprises three inputs 10, 11 and 12. Input 10 must be connected to the phase signal, input 11 must be connected to the zero signal and input 25 should be grounded (for example, by connecting it to the earth wire from the mains).

A differential switch or earth leakage switch 24 ensures that the entire electricity distribution system according to the invention is switched off when a leakage current occurs. D1t 30 not only ensures that when such a leakage current occurs, the electricity distribution system switches itself off instead of the entire mains network of the home, but it also increases the safety of the use of a system according to the invention. Those skilled in the art will understand that since the electricity distribution system will often be used as an outdoor lighting system, the occurrence of malfunctions is not inconceivable since the electricity distribution system is exposed to all weather conditions.

Both the earth wire 9, the zero wire 13 and the phase wire 14 are fed through cable 7 to the distribution box 3. In addition, the phase wire 14 branches in the main distribution box 2 into three groups 21, 22 and 23. These three groups are separate switch on and off from each other by means of switches 15, 16 and 17. Furthermore, each of the groups is equipped with a short-circuit protection, such as fuses 18, 19 and 20 in the case shown. Phase wire 14 is also equipped with a fuse 4 Each of the groups 21, 22 and 23 is then led to distribution station 3 by means of cable 7.

Distribution station 3 comprises four sockets 25, 26, 27 and 28. Each of the sockets 25, 26, 27 and 28 is grounded using ground wire 9. Socket 25 is connected to zero wire 13 and phase wire 14, and therefore provides a continuous mains voltage signal (230 VAC / 110 20 VAC). Socket 26 is further connected to zero wire 13 and the signal from group 21. Socket 26 can therefore be switched on or off with the aid of switch 15, and moreover is protected with fuse 18. In the same way as socket 26, socket 27 is further connected to zero wire 13 and the signal from group 22. Therefore, socket 27 can be switched on or off with switch 16 and socket 27 is furthermore protected against short-circuiting with fuse 19. Socket 28 is further connected to zero wire 13 and the signal from group 23, and can therefore be operated with switch 17 and is protected with fuse 20. Therefore, in the embodiment shown in figure 1, the electricity distribution system according to the invention provides three switchable groups 21, 22 and 23, and a group on which continuous mains voltage 1025975 9 (such as the group to which socket 25 belongs).

As perhaps in Figure 1, it is suggested that the electricity distribution system according to the invention is connected directly to the mains of a house or a building with a fixed connection. It is to be understood, however, that the inputs 10, 11 and 12 may be designed, for example, as plug connections, wherein the electricity distribution system according to the invention can be easily put into operation with the aid of a plug in a wall socket connected to the mains.

Furthermore, the electricity distribution system according to the invention can further be designed with, for example, a main switch, which makes it possible to switch on the entire system or to put it out of operation at the user's option.

Figure 2 shows an embodiment of the invention, such as it can be installed, for example, in the garden of a home. The system comprises a main distribution box 30, and six distribution stations 31, 32, 33, 34, 35 and 36. A connection of the system to the mains is schematically represented by means of input 60. It is to be understood that input 60 is connected to similar may be embodied as the mains connections 10, 11 and 12 of figure 1. The mains connection 30 in figure 2 is only shown schematically by a single line. The main distribution box 30 comprises switching means 38 for operating a plurality of groups (not shown) of simultaneously switched Sockets present at the distribution stations 31, 32, 33, 34, 35 and 36. The switching means 38 are connected to receiving means 39 in such a way that the switching means 38 are controlled by receiving means 39, for example in that receiving means 39 comprise a microprocessor. Receiving means 39 include antenna 42 for receiving signals 43. Signals 43 can be provided with the aid of a remote control 40 which also comprises an antenna 41 for transmitting the signals 43. It is to be understood that 1025975 does not limit the invention is for the use of antennas, but other means for transmitting signals remotely can also be used, such as infrared transmitters and receivers, a wire connection, ultrasonic transmitters and receivers, etc.

The main distribution box 30 is connected to the distribution stations 31, 32, 33, 34, 35 and 36 by means of a cable 45, which may, for example, consist of cables and those with plug connections to each of the elements 30, 31, 32, 33 , 34, 35 and 36 is connected. The cable can for instance comprise a multi-pole cable which is dimensioned based on the number of groups to be provided. For example, if three switchable groups and one non-switchable group are provided, a six- or seven-core cable will suffice. In such a cable there is room for four signal wires, a neutral wire, an earth wire, and optionally a seventh additional wire which could be used as a switching wire (as will be described below with regard to Figure 3).

Assuming that in the embodiment shown in Figure 2, just as in the embodiment shown in Figure 1, the electricity distribution system comprises three switchable groups and one non-switchable group providing a continuous mains voltage, the devices 50, 51 connected to the electricity distribution system can be present. 52, 53, 54, 55, 56, 57 and 58, for example, are connected as follows. The lamps 51, 52 and 55 are connected to the first group, group A. The lamps 50 and 53 are connected to the second switchable group, group B. The lamps 54 and 56 are connected to the third switchable group, group C. The fourth, non-switchable group, which supplies a continuous mains voltage (230 VAC / 110 VAC), group D, is a pump installation 58 for a pond connected, and the user can for instance temporarily connect a hedge trimmer 57 or other electric garden tools.

Group A, for example, in this way provides electricity 1025975 11 to lamps which are placed on the user's terrace and at the location of, for example, a shed. Group B, for example, is a group to which only decorative lighting is connected in the vicinity of the user's pond. Group C is a group to which the lighting of 5 garden entrances (garden paths) is connected.

With the system according to the invention, the user can easily operate the lighting in the garden as required. If the user wishes to read a book on his terrace on a warm summer evening, he can switch on group A, so that the garden terrace 10 is illuminated. He can then control the lighting in the garden with the help of the remote control 40. Optionally, each of the groups can be equipped with a dimmer switch, so that the user can control the light intensity while sitting on his terrace, for example with the help of the remote control 40. However, if the user does not wish to make use of his terrace because of the weather conditions, but instead expects a visit, he can use group C instead of group A to illuminate the entrances to the garden. By means of the remote control 40 the user can control the lighting from any point in his house.

20 Suppose that at some point the user decides to radically change his garden design and moves the terrace to a completely different location in the garden, for example at the location of distribution station 34. The user can now simply adjust the lighting requirement and the electricity supply requirement in his garden, by plugging lamp 54 from group C to group A, for example, and moving lamp 51 to distribution station 34 and also connecting it to group A. The user can therefore very easily adapt the electricity supply and lighting needs in his garden to the new conditions by simply plugging in devices connected to the electricity distribution system (such as lamps, pumps, etc.). It is therefore no longer necessary to move cables in the garden or to possibly install additional cabling and switching means.

Figure 3 shows a further embodiment of the invention, in which a possible circuit diagram is implemented with which one or more groups can be operated by means of a switch at a distribution station. The system comprises a main distribution box 70 and a distribution station 71. Main distribution box 70 is connected to the mains of a home using inputs 85, 86 and 87. Input 85 provides the phase signal to the system, while inputs 86 and 87 respectively have the zero signal and provide earth. Again, main distribution box 70 is provided with a differential switch 106, which in the case of a leakage current will switch off the entire electricity distribution system. For the sake of simplicity, a number of elements have been omitted in the drawing, such as the short-circuit protection and the hand-operated switches shown in Figure 1 (reference numerals 4, 18, 19, 20 and 15, 16 and 17). It is to be understood that the embodiment shown in Figure 3 can also be designed with such switching means and short-circuit protection.

In main distribution box 70 the phase wire again branches into three switchable groups 82, 83 and 84 and a non-switchable group 88 on which continuous mains voltage is provided. Each of these groups can be equipped with a short-circuit protection, such as a fuse. The main distribution box 70 is connected to distribution station 71 by means of seven-core cable 72. In a similar way as in Figure 1, cable 72 can be connected to any of the elements (main distribution box, distribution station) in the electrical count distribution system with the help of plug-in connections, such as plug connection 105 in figure 3 (note that for the sake of simplicity no plug connections are shown between main distribution box 70 and distribution station 71). seven-core cable 72 includes ground wire 76, neutral wire 77, phase wire 78 on which continuous mains voltage is applied, signal wire 79 from group 84, signal wire 80 from group 83 and signal wire 25 from group 82.

Similar to Figure 1, distribution station 71 comprises four sockets 100, 101, 102 and 103. Sockets 100, 102 and 102 are connected to groups 84, 83 and 82, respectively. Socket 103 is connected to group 88 which is a continuous mains voltage signal.

The seventh wire 75 in seven-core cable 72 is used in the embodiment shown as a switching wire on which signals are routed from distribution station 71 to main distribution box 70 for operating each of the relays 90, 91 and 92 of groups 82, 83 and 84. To this end, distribution box 71 comprises a plug connection 99 to which a switch 98 can be connected. Switch 98 can be a simple switch, but can also be a light-sensitive switch, a time-controlled switch or timer, a dimmer or a different type of switch.

In main distribution box 70 there is, for example, a gel straightener 96 (which is schematically shown in Figure 3) and

"I

switching means 95, with which the user can determine which of the groups 82, 83 and 84 can be operated by means of the switch 98 connected to the distribution station. Each of the groups 82, 83 and 84 comprises a relay 90, 91, 92, respectively, which can optionally be connected by means of switch 95 to the switch 98 connected to the distribution station.

The switch 98 connected to the plug connection 99 of the distribution station 71 is connected to switch wire 75 and phase wire 98. If the switch 98 is closed by the user, a direct current circuit will be supplied with a direct current to one of the relays 90, 91 or 92 in the main distribution box 70. In the example shown, in which switch 95 connects relay 90 to the switching means 98, the direct current provided by gel rectifier 96 will be passed on to relay 90, causing relay 90 to be turned on 1025975. Group 82 can therefore be switched on and off using switch 98 which is connected to distribution station 71.

Figure 3 shows only an exemplary embodiment in which the switching possibilities of the electric distribution system according to the invention can be expanded with the aid of switching means connected to distribution station 71 and an additional switching wire in the multi-pole cable 72. It is to be understood that there are many other possibilities with which such additional switching possibilities can be implemented with the aid of the additional switching wire 75. In this connection, consideration may be given, for example, to more complicated systems in which, for example, a switching signal can be placed on switch wire 75, which signal can be converted by a microprocessor circuit possibly present in the main distribution box into a control signal for switching means 15 present in the main distribution box for operating the groups 82, 83 and 84. The invention is not limited to the embodiment shown in Figure 3, which only serves as an example.

The embodiments shown in the figures are intended solely to illustrate the system described in the invention. The context of the invention described herein is only limited by the following claims. It will be understood that the embodiments shown and described are therefore not intended to limit the invention.

1025975

Claims (19)

1. An electricity distribution system, in particular an outdoor lighting system, for providing electricity outdoors, comprising means for connecting the system to a building's mains network, a main distribution box and at least one distribution station connectable to the main distribution box, further comprising a plurality of groups sockets connected at the same time, wherein the at least one distribution station comprises one or more sockets belonging to at least one group of sockets switched at the same time, and wherein the system further comprises switching means for energizing sockets belonging to at least at least one socket one group of groups of sockets switched at the same time. 2. Electricity distribution system as claimed in claim 1, wherein the at least one distribution station comprises at least one socket of each group of the groups of sockets switched simultaneously. 3. An electricity distribution system according to any one of the preceding claims, wherein the at least one distribution station is operably connectable to a further distribution station. The electricity distribution system according to claim 3, wherein the active connection between the at least one distribution station and the further distribution station is formed by one cable. 5. Electricity distribution system as claimed in any of the foregoing claims, wherein connections between elements of the system, such as between the main distribution box and the at least one distribution station or between the at least one distribution station and a further distribution station, comprise at least one multi-pole cable. 6. Electricity distribution system as claimed in any of the foregoing claims, wherein the switching means comprise at least one element from a group comprising light-sensitive switching means, time-controlled switching means and a dimmer. 1025975 An electricity distribution system according to any one of the preceding claims, wherein the switching means and at least one switch mounted on the main distribution box comprise. 8. Electricity distribution system as claimed in any of the foregoing claims, wherein the switching means comprise at least one switch arranged on the at least one distribution station. An electricity distribution system according to any one of the preceding claims, further comprising at least one earth leakage circuit breaker. The electricity distribution system according to claim 9, wherein the at least one earth leakage circuit breaker is arranged between the main distribution box and the means for connecting the system to the mains. 11. Electricity distribution system according to any of the preceding claims, further comprising at least one short-circuit protection, such as a fuse or automatic stop. 12. Electricity distribution system as claimed in claim 11, wherein the at least one short-circuit protection is arranged for switching off at least one group of the groups of sockets connected at the same time when a short-circuit occurs. 13. Electricity distribution system as claimed in any of the foregoing claims, wherein the switching means can be operated by means of a control panel. The electricity distribution system of claim 13, wherein the control panel is connected to the main distribution box. The electricity distribution system of claim 13, wherein the main distribution box comprises the control panel. The electricity distribution system according to claim 13, wherein the control panel comprises transmitting means for providing a signal remotely, and wherein the main distribution box 30 comprises receiving means for receiving the signal, and that the main distribution box is arranged for controlling in response to the signal 1025975 of the switching means. 17. Electricity distribution system as claimed in any of the foregoing claims, wherein the means for connecting the system to the mains are adapted to be detachably connected to the mains. 18. Main distribution box for use in an electrical counting distribution system according to one of the preceding claims. 19. Distribution station for use in an electricity distribution system as claimed in any of the claims 1-17. 1025975