DE19613263A1 - Fluorescent lamps domestic lighting system including outdoor use - Google Patents

Abstract

A lighting system for electrically feeding a number of fluorescent lamps mutually separated from one another and arranged around a region, such as a garden, to be illuminated, includes a number of sockets for the fluorescent lamps, and low voltage (LV) electrical supply cables connecting the sockets to a single supply point. Included in each socket is an electrical circuit for conversion of a LV LF supply to a HV HF power supply for a given fluorescent lamp. A transformer is used for connection between the single supply point and a mains supply in order to convert the latter to a LV supply.

Description

The invention relates to lighting systems.

The invention relates more specifically to lighting systems mainly for domestic purposes need, usually, but not necessarily outside the home, and the invention is described in relation to a garden lighting system.

According to the invention there is provided a lighting system for supplying a number of fluorescent lamps separated from each other and over an area to be illuminated distributed, the system comprising a number of bases for the fluorescent lamps, also low-voltage power supply cables that connect the socket with a single Connect supply point, and included an electrical circuit in each socket for converting a low-voltage supply of low frequency into a high voltage Power supply high frequency for a respective fluorescent lamp.

The lighting system may include a transformer for connection between the single supply point and an AC power supply to the AC power supply to convert into a low voltage supply.

The lighting system may include a light sensitive switch that  is connected to energy supplied to the sockets due to changes in the Automatically switch ambient light on and off.

An embodiment of a garden lighting system according to the invention is in following described with reference to the drawing. Show in the drawing

Fig. 1 shows a schematic arrangement of the system;

Fig. 2 is an isometric view of the system;

Fig. 3 is a circuit diagram for lamp sockets for the system; and

Fig. 4 is an exploded isometric view of a lamp assembly for use in the system.

As shown in FIG. 1, a plug 9 is provided for connecting a transformer 10 to a domestic mains power supply in order to convert the mains voltage from 240, 110 or 100 volts, if applicable, into 12 volts. The 12 volt low voltage supply, usually with a low frequency of 50 or 60 Hz, but which can also be at a lower frequency including DC, is supplied via a photosensitive switch 11 to a can or a single supply point 12 . A plug 13 is connected to a length of a low-voltage supply cable 14 , to which a number of lamp bases 15 are connected along its length. The cable 14 can be arranged in a closed loop from the supply point 12 . Each lamp base 15 is associated with an electrical circuit (see FIG. 3) and is arranged to receive standard size miniature fluorescent lamp connectors (not shown). The lamps are usually rated for 5 to 11 watts.

In Fig. 2 three different forms of floor lamps are shown as an example. The luminaires are designed for use outside a house (a hotel or other building), for example to illuminate a garden or driveway. The cable is usually simply placed on or near the surface of the ground and connected to the base of each lamp from below.

A conversion circuit is provided for each lamp base (see Fig. 3). This comprises a two-way rectifier 20 and an optional zener diode 21 for limiting the voltage which is developed across the rectifier 20 . A transformer 22 with several windings, which is automatically switched by a transistor 23 , supplies ignition voltages and normal energy with 50 volts, 170 mA and a frequency of 24 kHz to lamp sockets 24 for connection to a fluorescent lamp 25 . The transformer 22 also supplies operating energy to the lamp sockets 24 for filaments in the fluorescent lamp 25 as required.

The circuit in FIG. 3 is known per se for converting a low input voltage and supplying a suitable energy for operating a fluorescent lamp. Other similar circuits are also known and can be used in the lighting system described.

The circuit in FIG. 3 may include a light sensitive switch with a sensor that is responsive to the level of ambient light and is arranged so that each lamp 25 is automatically turned on and off individually. This can be arranged so that it acts instead of the switch 11 in Fig. 1 or in addition to this.

In Fig. 4, a lighting arrangement is shown, which is particularly designed and suitable for assembly on site, which allows it to be packaged and transported practically. A stand base 30 has opposite slots 31 to receive power cables 32 and 33 . Each cable runs in a tube 34 which fits snugly on the stand base and is connected to a connection plate (not shown) on the bottom surface of a screwed base 35 . An output adapter 36 is arranged so that it fits snugly in the socket 35 , and its body surrounds and holds the circuit shown in FIG. 3. The adapter 36 has sockets (not shown) in its upper surface for receiving plug connections of a standard miniature fluorescent lamp 37 . A weather protection cover 38 is releasably seated above the lamp 37 , and a ground post 39 is inserted into the bottom of the base 30 .

The lighting system described can be conveniently delivered as a kit Assembly and installation by a buyer and according to the requirements of the To be arranged by the buyer. The kit can be pretty flat in a single normal Cardboard box that contains a length of low voltage cable that is easy on Can be cut length and safely in the ground or over the interior of an apartment can be relocated. Since the current in the cable has a low voltage, this is System safe, even if the cable is accidentally broken or touched. The Ver use of AC voltage (at a relatively low network frequency) reduced or elimi denies any other tendency to corrode the cable, and in this case the system is not sensitive to polarity, especially since a two-way rectifier ver is applied.

The voltage supplied by the cable is reversed on each fluorescent lamp holder converts, and since the distributed feed in the cable is at low voltage Low energy losses in the cables. In a previous proposal in which fluorescence lamps were used in a room lighting system, the distributed one was Energy on a high frequency and was therefore unsatisfactory and certainly not suitable net for an unofficial installation around a garden or house. It is also knows to ver low-voltage DC voltage distribution systems for garden lighting turn and use halogen lamps. Such systems and the use of halo Genlampen are unfavorable compared to embodiments of the invention. Both that Operating behavior, especially in the long term, as well as the cost of installation and each Lumens of light emitted energy are considerably higher.

Claims (4)

Lighting system for supplying a number of fluorescent lamps which are separated from one another and distributed over an area to be illuminated, the system comprising a number of sockets for the fluorescent lamps and low-voltage power supply cables ( 14 ) which connect the sockets with a single supply point ( 9 ) connect, characterized in that an electrical circuit is included in each base for converting a low-voltage supply of low frequency into a high-voltage power supply of high frequency for a respective fluorescent lamp ( 25 ). 2. Lighting system according to claim 1, characterized by a transformer ( 10 ) for connection between the single supply point ( 9 ) and a mains power supply, which serves to convert the mains power supply into a low-voltage supply. 3. Lighting system according to claim 1 or 2, characterized by a lichtemp sensitive switch ( 11 ) which is connected to the base supplied energy automatically turn on and off due to changes in ambient light. 4. Lighting system according to one of claims 1 to 3, characterized in that it comprises: a stand base ( 30 ), a tube ( 34 ) which is provided so that it fits tightly at one end on the stand base ( 30 ), one screwed base ( 35 ) at the other end of the tube ( 34 ) which is intended to receive an adapter ( 36 ) which contains the electrical conversion circuit and provides a socket, and a weather protection cover ( 38 ) which is arranged so that it sits on the adapter ( 36 ).