NO325546B1 - Module based lighting system - Google Patents

Abstract

Flexible lighting system comprising one or more module (s) (10) designed to have several different functions. The module has insertion grooves 25 for carrying high power lamps PCBs (125), as well as cooling devices (35) for them.

Description

Introduction

The present invention relates to a module for use in a lighting system. More specifically, a module is described which, together with lighting units, constitutes a flexible lighting system which can be equipped with a desired number of high-power lamps, and which can be made in different lengths as required. The module also has means to divert heat from the lamps.

The module can be attached to ceiling, wall or free-standing suspension, and can thus be used as a light source in all known areas where lighting is necessary or desirable.

Prior art

The core of the present invention is a module for use in a lighting system, where the module has several purposes.

Firstly, it must be able to carry installed lighting units, and secondly, it must be able to dissipate heat from installed lighting units.

There are today several systems that use modules in the construction of a lighting system.

FR-2691785 shows an example of a lighting system which, among other things, is made up of a module to be attached to ceiling tiles. The module is intended for use on fluorescent tubes, where the number and location can be changed.

US-3788206 is another example which relates to a roof plate module which is provided with means to be able to receive and carry a light source unit.

WO-2005/024291 A2 relates to a module which forms part of a lighting system, where the module is equipped with means to be able to receive and carry one or more light source units, and where the module on the one hand comprises insertion tracks for carrying light source units, and on the other side has a cooling device.

The module with installed light source units will be a linear light source intended to illuminate a smaller area, such as to light wash a wall by placing the module close to the wall and directing the light along the wall.

The module is also a closed construction, which is not very effective for cooling light source units and electronics.

If the module were to be used to illuminate a street, for example, it would not be able to dissipate enough heat from installed lamps that provide the necessary brightness. The lifespan of, for example, high-power lamps will therefore be short. Furthermore, the module with introduced light source units will not be able to spread the light sufficiently to illuminate a larger area.

The construction is therefore best suited for indoor lighting over short distances, possibly as wall lighting outdoors without the large need for light.

The previously known lighting devices are not suitable for high-power lamps that generate a lot of heat, and they thus have a more limited area of application than the present invention.

The present invention is primarily intended to be used for high-power lamps and is well suited to divert heat from introduced lamps.

The system is simple and compact in that the main part consists of an extruded module that can be inserted on a suspension rail where lighting is desired. The module has means to receive and carry a desired number of light units.

The construction of the module according to the present invention has a horizontal middle part and two side parts which are angled in relation to the horizontal middle part. This ensures that the spread of light is even over a larger area.

The module also has cooling elements on its upper side, preferably in the form of cooling fins, to be able to dissipate heat from introduced light units.

A lighting system that is built up with modules according to the invention will be light in weight, flexible, cost-effective and can be used in many different areas.

Summary of the invention

The purpose of the present invention is to provide a flexible lighting system that can be used in various areas both outside and inside.

The lighting system consists of a module which is designed to be able to receive and carry one or more light source units, and where the module is characterized by the fact that it has one or more sets of insertion slots for inserting and carrying light source units on one side, and that on its the other side has cooling device(s), preferably in the form of cooling fins, as well as suspension slots for inserting the module on a suspension rail.

The invention also includes a method for making a flexible lighting system to illuminate an area, where one or more modules are designed in the desired length, and where one or more light source units comprising PCB(s) with attached lamps and electronics are pushed into the insertion slots, and further, where the module(s) are pushed onto a suspension rail which, by means of its suspension point, is attached to a device in the area to be illuminated.

The invention is further described in the associated set of requirements.

Detailed description

The invention will now be described in more detail with reference to figures 1 to 4. The figures show preferred embodiments of the module which should not be considered to limit the invention to the embodiment shown, and they show various aspects of the module which forms part of a lighting system, where: Figure 1 shows an example of a module seen in section; Figure 2 shows an example of a somewhat differently designed module seen in section with introduced light source units; Figure 3 shows the module in Figure 2 seen in section with a protective cover and cover inserted; Figure 4 shows a complete lighting system where the module in Figure 2 is attached to a suspension rail. Figure 1 shows an example of a module 10 seen in section and which forms part of a lighting system. Figure 2 shows a similar section to Figure 1 with introduced light source units in a somewhat differently designed module to show that it is not the detailed design of the module that is the main purpose of the invention, but the functions of the module when it forms part of a lighting system.

The invention will now be explained in more detail with reference to both Figures 1 and 2.

On the one hand, the module 10 is equipped with an insertion slot 25 to be able to receive and carry one or more light source units 100. The module is preferably made in one piece by extrusion, but can also be made by other production techniques and in different lengths as required.

The insertion tracks 25 are made up of one or more sets of slits, and are made so that it is easy to insert a light source unit 100. The module can have several sets of slits to be able to carry several light source units 100.

After a light source unit 100 has been introduced, the function of the slots is to support the light source unit 100, so that it is securely attached to the module 10.

A light source unit 100 preferably comprises PCB 125 (Printed Circuit Board) with attached lamps and associated electronics. The PCBs 125 are adjusted in length so that they fit into a module 10, and the lamps can be mounted in a row in groups of, for example, four lamps with any associated electronics. In a preferred embodiment, the PCB is perforated between the lamps so that the PCB can be split along the perforation. It will then be easy to divide a PCB to the desired length for adaptation to a lighting system with a specific length. On each side of the perforation there may be solder lugs or similar fastening devices for attaching wires connected to components and lamps. If a smaller amount of light is desired, several introduced PCBs 125 in a module can be placed at the desired distance and connected to each other, for example by means of cable ties or the like. One can also limit the number of introduced units as needed, i.e. not insert all the light source units 100 as shown in figure 2.

In its simplest form, the module 10 can only consist of a horizontal central part 15.1 a preferred embodiment, however, the module 10 includes two side parts 20 which are angled in relation to the horizontal central part 15. This means that a lighting system with introduced light source units 100 in the horizontal central part 15 and side parts 20 spreads the light more than if it is only placed in the horizontal middle part. One would then have to have used diffusing lenses, which weakens the light intensity, in order to spread the light equally.

On its other side, the module 10 has cooling device(s) 30, preferably in the form of cooling ribs 35 and suspension tracks 40 for inserting the module 10 on a suspension rail 140. The cooling device can also be in the form of nanocoolers (nanocoolers) or a combination of different cooling techniques. High-power lamps generate heat and this will be efficiently conducted away from the light source units 100 by means of the cooling device(s) 30.

As mentioned, it is preferred in one embodiment to use cooling fins 35. Alternatively, the cooling device 30 can be constituted by the material above the introduced light units 100 having a thicker material thickness that is suitable for cooling the introduced light source units 100. The material that the cooling device 30 is made of is any that is suitable for cooling, and which at the same time is strong enough to be able to carry installed light units 100.

The function of the suspension tracks 40 is to be able to push the module 10 onto a suspension rail.

Figure 3 shows a module 10 seen in section with protective cover 150 and cover 170 inserted. On the same side as the cooling device 30, preferably cooling fins 35, there are one or more protective cover slots 50 to be able to introduce and hold a protective cover 150. When the protective cover 150 is inserted in protective cover groove(s) 50, this will lie above the heatsink 30 and protect these.

In a preferred embodiment, the module 10 also has cover slots 70 for mounting a cover 170 to protect the inserted light source unit(s) 100.

Figure 4 shows a complete lighting system where the module 10 is attached to a suspension rail 140 which is in turn attached via its suspension point 180 to a device in the area to be illuminated. The figure shows the protective cover 150 and attached end pieces 160 which protect the lighting system against moisture and dust penetration.

By putting together the various parts described above, a flexible and cost-effective lighting system can be created.

A module 10 can have a length of several meters and can be cut to a desired length. Furthermore, one or more light source units 100 with adapted lengths can be pushed into the insertion slots 25.

To obtain a more robust system, a protective cap 150 can be pushed onto the protective cap slot 50 on the module 10 to protect the cooling device 30. Furthermore, end pieces 160 can be attached to the end piece slot 60 to protect the inserted light source unit(s) 100. Finally, a cover 170 attaches to cover slot 70 to protect inserted light source unit(s) 100.

The module can be pushed onto a suspension rail 140 which, by means of its suspension point 180, is attached to a device in an area to be illuminated.

You then get a flexible and cost-effective lighting system.

If desired, several modules can be pushed onto the same suspension rail.

A fully assembled lighting system according to the invention is scalable in several ways. The number of light source units 100 and their length can be determined and mounted as required.

A lighting system according to the invention is very applicable in all areas where lighting is required, or is desirable. It can be anything from office, street and tunnel lighting to effect lighting.

The description above refers to a preferred embodiment of a module 10 according to the invention. For a professional in the field, it will be obvious to come up with different designs of a module and a lighting system that are within the definition of the attached set of requirements.

Claims (12)

1. Module (10) which forms part of a lighting system, where the module (10) comprises upper and lower sides, and where the lower side is equipped with means to be able to receive and carry one or more light source units (100) by means of insertion slot (25), and where the upper side of the module (10) comprises a cooling device (30), and where the module (10) is characterized in that it is made in one piece formed by a horizontal central part (15) and two side parts (20) which are angled in relation to the horizontal central part (15), and with said insertion groove (25) on the lower side of the central part (15) ) and the side parts (20), as well as that there are suspension grooves (40) on the upper side of the module (10). 2. Module (10) according to claim 1, characterized in that the light source unit(s) (100) preferably comprises PCB(s) (125) with attached LED lamps and associated electronics. 3. Module (10) according to claim 1, characterized in that the cooling device (30) comprises cooling fins (35). 4. Module (10) according to claim 1, characterized in that in connection with the cooling device (30) there are protective cover grooves (50) to hold a protective cover (150) which, when inserted into the protective cover groove(s) (50), will lie over the cooling device (30). 5. Module (10) according to claim 1, characterized in that each end of the module (10) has end piece slots (60) for mounting end pieces (160) to protect inserted light source unit(s) (100). 6. Module (10) according to claim 1, characterized in that the module (10) has cover slots (70) for mounting a cover (170) to protect the inserted light source unit(s) (100). 7. Module (10) according to claim 1, characterized in that it is made of a material suitable for cooling. 8. Module (10) according to claim 1, characterized in that the module is made in a length of several meters which is cut to the desired length before the introduction of light source units (100). 9. Method of producing a flexible lighting system for illuminating an area, characterized in that - one or more modules (10) according to requirements 1 to 8 are cut to the desired length; - one or more light source units (100) consisting of PCB(s) (125) with attached lamps and electronics are pushed into insertion slots (25), and - the module(s) (10) are attached to a suspension rail (140) mounted in a suspension point (180) by pushing the suspension rail (140) into the module's (10) suspension groove (40). 10. Procedure according to claim 9, characterized by a further feature where a protective cover (150) is pushed onto the protective cover track (50) on the module (10) to protect the cooling device (30). 11. Procedure according to claim 9, characterized by a further feature where end pieces (160) are attached to end piece slots (60) to protect inserted light source unit(s) (100). 12. Procedure according to claim 9, characterized by a further feature where the cover (170) is attached to the cover groove (70) to protect the inserted light source unit(s) (100).