WO2011064766A2

WO2011064766A2 - Optimization of led and smd fluorescent tubes

Info

Publication number: WO2011064766A2
Application number: PCT/IB2011/000125
Authority: WO
Inventors: Heribert R. Albert
Original assignee: Albert Heribert R
Priority date: 2009-11-27
Filing date: 2011-01-26
Publication date: 2011-06-03
Also published as: WO2011064766A8; WO2011064766A3; EP2504617A2

Abstract

The invention relates to fluorescent tube for use in a fluorescent tube lamp, wherein the fluorescent tube comprises a tubular body (1, 11) made of glass or plastic and a carrier strip (2, 12), on which a plurality of light-emitting diodes (3, 13) are mounted and which is pushed into the tubular body (1, 11), wherein the carrier strip (2, 12) has a bend (6) in the longitudinal direction, wherein the tip of the bend (6) is directed away from the housing (34, 43, 54) of the fluorescent tube lamp in the state in which the fluorescent tube is mounted in the fluorescent tube lamp, and the predominant quantity of the plurality of light-emitting diodes (3, 13) is disposed on the side of the carrier strip (2, 12) that is directed away from the housing (34, 43, 54) of the fluorescent tube lamp in the state in which the fluorescent tube is mounted in the fluorescent tube lamp.

Description

Optimization of LED and SMD fluorescent tubes The well-known fluorescent tubes have been recently developed in such a way that instead of a luminous gas filling so-called LED's (Light Emitting Diode) or SMD's (Surface Mounted Device) are used as the light source. The new technology achieves better luminosity with significantly lower power consumption.

The new lamps are the smallest elements (3), which are mounted on a flat carrier strip (2), which is inserted into the light tube (1).

In this placement of the illuminant carrier strip is disadvantageous that almost the entire light output radiates vertically down, while the pages remain almost unencumbered with light.

It is therefore an object of the invention to easily compensate for this disadvantage and to optimize the light emission of LED / SMD fluorescent tubes and to accommodate more diodes in the tube. This goal is achieved in that the carrier strip on which the bulbs are mounted along the longitudinal side, preferably in the middle bent at an angle of preferably 90 ° and is inserted with the tip down into the tube, so that the light emission takes place also to the sides ,

CONFIRMATION COPY Compared to the prior art, this results in two major advantages: 1.) The surface of the carrier strip can be increased, so that more light emitting diodes can be mounted on the carrier strip without increasing the tube diameter, resulting in a significantly greater light output.

2.) The radiation angle of the light increases from about 120 ° to at least 200 °, which results in a significantly better illumination performance. Together with the use of a half-shell of metal (5), such as aluminum with a textured surface, results in an energy saving of 70 to 80%. Advantageous embodiments:

1. Optimization of LED and SMD fluorescent tubes, characterized in that in a light tube made of glass or plastic (1) a carrier strip (2) is inserted, on which the diodes (3) are mounted, and along the longitudinal side, preferably centrally, is bent at an angle of preferably 90 °. The tip points down, the light emission is also after the sides.

2. Optimization of LED and SMD fluorescent tubes, characterized in that the arc tube (1) by two half shells (4) made of glass or

Plastic is formed.

3. Optimization of LED and SMD fluorescent tubes, characterized in that one of the two half-shells (5) made of metal, preferably aluminum, consists, preferably with a structured, approximately corrugated surface to enlarge them, so that a better heat dissipation achieved which reduces energy consumption.

It should be added that the light-emitting diodes (LEDs) can be used both in wired technology and in SMD technology.

In this application, the term fluorescent lamp is often used to indicate the particular suitability of the invention for use in existing lamps in which fluorescent tubes were operated. The fluorescent tubes according to the invention in LED technology can thus be used in the known fluorescent tube lamps. Of course, the fluorescent tubes in LED technology are also suitable for other fluorescent tube lamps, which will be offered in the future specifically for the field of LED bulbs. It should be added that the carrier strip (2) has the electrical leads for the electrical supply of the light-emitting diodes (3). The carrier strip can, for. B. electrical circuit boards or consist of such printed circuit boards. Advantageously, light is emitted substantially only downwards and sideways, but not upwardly. As a result, energy can be saved by light emitted to the top is avoided as much as possible.

The terms "top", "bottom" and "side" refer to the intended installation position of the arc tube in a fluorescent tube lamp mounted horizontally on a ceiling of a room The direction of the fluorescent tube lamp is in the opposite direction, the direction "downwards" in the opposite direction, "lateral" means the lateral directions to the left and right.

When constructing the arc tube or the tubular body (1) of two Half shells, these shells (4, 5), for example, glued together or by a positive attachment, z. As a dovetail guide to be connected. The carrier strip (2) has a longitudinally extending bend (6). The kink can, as shown in Figure 3, are sharp-edged. The kink (6) can also be rounded, ie have a larger radius than shown in FIG. In this respect, the term "kink" means any bending of the carrier strip in the longitudinal direction with any radii.

Cooling of the light-emitting diodes, whether by cooling plates or the semiconductor cooling elements explained below, has the advantage that the light-emitting diodes can be operated in a more favorable operating range, thereby noticeably reducing energy consumption. As a result, the light-emitting diodes are also subject to less wear and thus have a longer service life.

Cooling of LED and SMD bulbs The well-known fluorescent tubes have been recently developed in such a way that instead of a light gas filling so-called LED's (Light Emitting Diode) or SMD's (Surface Mounted Device) (13) are used as the light source. The new technology achieves better luminosity with significantly lower power consumption.

The new lamps are the smallest elements (13) which are mounted on a flat carrier strip (12) which is inserted into the arc tube (11) or a lamp. In operation, however, the heat, which emanates from the light emitting diodes (13), adversely affects, that is performance-reducing. With increasing temperature in the tube (14) or lamp also increases the power consumption. It is therefore the object of the invention to easily compensate for this disadvantage and to compensate for the evolution of heat.

This goal is achieved by placing diodes (16) next to the LED's or SMD's (13) where the flow of current is reversed so that they cool rather than glow and heat up.

Compared with the prior art, this results in the advantage that the tubes (14) or lamps do not have to be provided with complicated and expensive heat radiation structures (15), which are also dust collectors and pose a fire risk.

If the cooling diodes (16) are placed on the back side of the carrier plate (12), the cooling effect is achieved without losing space for the LEDs or SMDs (13).

Advantageous embodiments:

1. Cooling of LED and SMD bulbs, characterized in that in addition to light sources such as LED's and SMD's (13) such diodes are placed, in which the current flow in the opposite direction, so they do not heat or shine, but cool (cooling diodes , 16).

2. Cooling of LED and SMD bulbs, characterized in that the cooling diodes (16) are placed on the back of support plates (12) on which the light emitting diodes (13) are mounted. It should be added that the mentioned cooling diodes (16) can be referred to as cooling diodes because the components used, such as diodes, have a semiconductor junction, ie a pn junction. The semiconductor cooling elements (16) thereby have a diode-like behavior. As semiconductor cooling elements (16) in particular Peltier elements can be used. These can be realized with low weight and small size as well as relatively inexpensive. By the semiconductor cooling elements (16) in the arc tube (1) resulting heat is dissipated faster to the outside than by a passive cooling, for. B. by cooling plates. Here, it is advantageous to embed the semiconductor cooling elements (16) in the material of the tubular body (1) so that the cooling side, ie, the side (cooling side) that absorbs heat, is directed toward the interior of the tubular body while the cooling side (FIG the heat-emitting side (heating side) is directed to the outside of the tubular body. The semiconductor cooling elements (16) are advantageously arranged on the upper side of the tubular body, ie on the side of the carrier strip (12) facing away from the light emitting diodes (13). As a result, on the one hand, an optimized cooling effect is achieved, since heat rises anyway upwards. A further advantage is that the light emission of the light-emitting diodes (13) is not disturbed by the semiconductor cooling elements (16).

For cooling the light-emitting diodes (13), a fan may be arranged in the tubular body (1) or at one or both ends of the tubular body through which cooling air is passed through the tubular body by generating a flow. The cooling air then passes directly over the LEDs. It is also advantageous to use the channel in the tubular body, which arises on the top of the tubular body between the kinked carrier strip (12), as a cooling channel. A fan or several fans can be arranged in such a way that air can be passed through this channel. leads.

The described cooling by means of the semiconductor cooling elements (16) can also be advantageously used in differently shaped lamps in LED technology. Thus, any combination of LED lamps with the described semiconductor cooling elements (16) is advantageous. Advantageous applications are z. As floodlights or street lights.

Anti-theft fastening system for diodes equipped with light tubes

Fluorescent tubes of conventional design have at the two ends flat pins, which serve the power supply. The mounting systems of these fluorescent tubes each have two holders with slots into which the fluorescent tubes with the pins are inserted. With a rotation of 90 ° about the longitudinal axis, the tube is then fixed.

This technique has the disadvantage that the fluorescent tubes can be easily removed from the holder and stolen.

It is therefore an object of the invention to compensate for this disadvantage in a simple manner and to create a stunt-inhibiting fastening system for the novel, equipped with diodes light tubes. The aforementioned fluorescent tubes (21) need not necessarily, as the previous fluorescent tubes, at both ends each have a power supply to bring gas to light, but they only need a power supply (22), at any point, preferably centrally on the Rear of the tube, can be inserted so that the two ends of the arc tube can be firmly closed.

The closed ends of the fluorescent tubes (21) can therefore easily are pushed into short pieces of pipe (23) which are fastened to holders (24) which can receive one or more light tubes.

The two-sided brackets have holes for special screws (25), with which they can be completely screwed to walls, ceilings or elsewhere, complete with one or more light tubes with special tools for laymen. This eliminates the possibility to easily and quickly steal the fluorescent tubes. Advantageous embodiments:

1. Anti-theft mounting system for light bulbs equipped with diodes, characterized in that equipped with diodes light tubes (21) are firmly closed at both ends and the power supply (22) through an opening in the tube, preferably centrally on the back.

2. Obstacle-inhibiting fastening system for light-emitting diodes equipped with diodes, characterized in that one or more tubes (21) with both ends stuck in short pieces of pipe (23) stuck to the

Holders (24) are secured with holes (25) and bolted to special walls using non-removable special tools on walls, ceilings or elsewhere. Safety connection system for the conversion of fluorescent tube holders to the operation of LED tubes or SMD-equipped fluorescent tubes

Modern, equipped with LED or SMD fluorescent tubes have a higher light output with lower energy consumption and therefore displace increasingly the conventional gas-filled fluorescent tubes. To be able to use the old fluorescent tube sockets for the new LED / SMD fluorescent tubes, they have to be converted. The starters are eliminated and the transformers have to be replaced, because the new tubes work with higher voltage.

According to the state of the art, the new LED / SMD fluorescent tubes each have a power supply on both sides just like the old fluorescent tubes. To retool the bracket, the user is merely instructed to remove the starter and ballast from the lamp because the new LED / SMD tubes do not require a starter and operate at high voltage.

However, this technique is highly hazardous to the user because he can receive electric shocks that can be fatal when inserting the new light tube by simultaneously touching the two current-carrying sides.

It is therefore an aim of the inventive safety connection system to avert this danger from the user and to allow a safe replacement of the new LED / SMD tubes in the old fluorescent lights.

This goal is achieved by power supply to the new LED / SMD tube only from one side and the other side is only provided with non-current pins for insertion and fixing in the also de-energized mounting of the lamp, so that the risk of electric shock no longer exists.

Advantageous Embodiments: 1. Safety connection system for converting fluorescent tube holders to the operation of fluorescent tubes equipped with LED or SMD, characterized in that equipped with LED or SMD fluorescent tubes (31) have the power supply only by current leading retaining pins (32) on one side, which in the current leading holder (35) of a fluorescent lamp (34) are inserted and that the other dere side only not current-carrying retaining pins (33) has, which are inserted into the non-current holder (36).

2. Safety connection system for the conversion of fluorescent tube holders on the operation of equipped with LED or SMD fluorescent tubes, characterized in that equipped with LED or SMD

Luminous tubes (31) on one or both sides so shaped retaining pins (32 + 33) have that in the matching brackets (35 + 36) fluorescent tubes of old design can not be inserted. 3. Safety connection system for conversion of Leuchtstoffröhrenhalte- ments on the operation of equipped with LED or SMD fluorescent tubes, characterized in that the current-carrying holder (35) and the non-current holder (36) are interchangeable and so the type used in the Light tube can be adjusted.

It should be added that on the side of the arc tube, at which no electrical energy is fed, the arc tube in the fluorescent lamp on the one hand with retaining pins, as mentioned above, can be maintained, but also without retaining pins. So z. B. a holder of the arc tube only by inserting the not provided with the electrical contact elements (32) end of the arc tube in a correspondingly adapted, tubular holding element, z. B. in the manner as described with reference to the figure 7 for the tube pieces (23). The electrical contact elements (32) of the arc tube can be designed as holding pins in a similar manner as in fluorescent tubes. It is also advantageous liable to form the electrical contact elements (32) as spring-loaded sliding contacts or as plug contacts, which are contacted in a certain rotation of the arc tube in the holder to form. In the figure 8 also the basic structure of a fluorescent lamp is also shown. The fluorescent lamp comprises a housing having an elongate center body (hereinafter referred to as a base support) and housing end portions (35, 36) (hereinafter also referred to as brackets) disposed at respective ends of the elongated center body (34) are. FIG. 9 additionally shows an embodiment with an elongated central body (43) and a housing end section (42). FIG. 11 shows an embodiment with an elongate central body (54) and a housing end portion (52). Anti-stun device for fluorescent tubes

Fluorescent tubes of conventional design have at both ends pins which serve the power supply and the holder (42). The mounting systems of these fluorescent tubes (41) have at both ends of the brackets (42) slots into which the fluorescent tubes (41) are inserted with the pins. With a rotation of 45-90 ° around the longitudinal axis, the tube is fixed.

This technique has the disadvantage that the fluorescent tubes (41) can be easily removed from the holder (42) and stolen.

The aim of this invention is to compensate for this disadvantage in a simple way and to create a device for novel high-quality and therefore covetous fluorescent tubes with any kind of light source (eg LED, SMD or still to be developed types), which makes unauthorized stealing difficult. The aforementioned fluorescent tubes need not necessarily have the power supply via the pins at the ends as the previous fluorescent tubes to produce light, but may also have the power supply by means of cables, preferably at the back of the tube. The pins at the ends in this case serve only to fix the tube (41) in the holder (42).

The device (Figure 10) prevented by a to the lamp housing (43) pushed U-profile (44) and secured thereto and around the arc tube (41) guided bracket (45) passing through a transversely between the arc tube (41) and the locking bolt (46) pushed through against the lamp housing (43) against opening and removing, or being moved beyond the fixing screws of the lamp housing, causes the arc tube (41) to easily slide out of the holder (42) after a reverse rotation of 45-90 ° and so on can be stolen in seconds.

The locking pin (46) is preferably designed so that it is secured against simply pulling out and can not be easily removed by mechanical aids. This excludes the possibility to easily and quickly steal the fluorescent tubes.

Advantageous embodiments: 1. Anti-dazzle device for fluorescent tubes, characterized in that a to the arc tube (41) guided and on the lamp housing (43) fixed bracket (45) prevents easy removal of the arc tube (41) from the holder (42). 2. An anti-dazzle device for fluorescent tubes, characterized in that the bracket (45) on a to the lamp housing (43) GE leading U-profile (44) is fastened and secured by a bolt (46).

3. Anti-tampering device for fluorescent tubes, characterized in that the bolt (46) against easy withdrawal by a

Lock or other locking is secured.

4. An anti-escape device for fluorescent tubes, characterized in that a removal of the device (Fig. 10) from the lamp housing (43) and the arc tube (41) by a transversely between the arc tube (41) and lamp housing (43) pushed through bolt (46 ) is prevented.

It should be added that the bolt (46) can be inserted through corresponding openings in the end region of the legs of the U-shaped profile component (44) and the U-shaped bracket (45).

The device described has the advantage that it can be easily retrofitted even with existing fluorescent lamps, so that nothing stands in the way of a quick use for theft protection.

Anti-theft lamp holder for fluorescent tubes

Fluorescent tubes of conventional design have at both ends pins that serve the power supply and the holder. The mounting systems of these fluorescent tubes (51) have at both ends of the brackets (52) slots in which the fluorescent tubes (51) are inserted with the pins. With a rotation of 45-90 ° around the longitudinal axis, the tube is fixed.

This technique has the disadvantage that the fluorescent tubes (51) on the simplest Way can be removed from the holder (52) and stolen.

The aim of this invention is to provide a bulb holder (54) with new holder for novel high-quality and therefore desirable fluorescent tubes with any type of light source (eg LED, SMD or still to be developed types), which makes unauthorized stealing difficult.

The aforementioned fluorescent tubes need not necessarily have the power supply via the pins at the ends as the previous fluorescent tubes to produce light, but have the power supply by means of cable, preferably at the back of the tube. The pins at the ends are therefore completely eliminated and the arc tube is firmly closed at both ends.

The novel bulb holder (Fig. 11) consists of the base support (54) and the two-sided brackets (52). The base support preferably consists of a U-profile with removable cover, which together form a square or other shaped housing (54) in which the electrical power supply and the attachment takes place. To lock the closure (55) of the at least one support (52), the base support (54) has inwardly directed indentations (57) or other devices which allow the closure (55) to be locked (Figures 13 and 14). The two holders (52) (FIG. 12) each have a tube insert in the form of a short tube (58), which is fastened inside the housing of the holder (52) and into which the arc tube (51) is inserted. The holder (52) is then pushed over the base support (54) and connected by means of lock (53) and closure (55) with this firmly.

The two-sided brackets can be made equal and both on the with a commercially available lock (53) to be closed wing pin (56). However, it is also possible to connect the one holder (52) with the base carrier in the same way, in which case only the loose holder will be provided with a lock and a locking mechanism (55).

After attaching and closing the brackets (52), the tube (51) is firmly enclosed and can not be removed from the lamp without damage or greater mechanical action. The brackets can be shaped for both a fluorescent tube and a plurality of fluorescent tubes and then have two or more tube slots, which are firmly connected in the holder.

Advantageous embodiments:

1. Anti-theft lamp support for fluorescent tubes, characterized in that the arc tube (51) is inserted into the fully enclosing tube holder (58) and the arc tube (51) only after removing the holder (52) from the bulb holder (54) can be removed ,

2. Obstacle-inhibiting bulb holder for fluorescent tubes, characterized in that the holder (52) is lockable, and only after opening the closure (55) from the bulb holder (54) can be deducted.

It should be added that in this case the base support corresponds to a central part of the housing of the fluorescent lamp. At both ends of the central part holding elements (52) or holders are provided, by which the arc tube is held and electrically contacted. The closure (55) has a central, z. B. cylindrically shaped part in which the lock (53) is arranged. The lock (53) can z. B. be designed as a lock cylinder. The closure (55) has radially projecting wings (56), which are rotatable by actuation of the lock about the longitudinal axis of the closure (55). By corresponding rotation of the wings (56) such that the wings (56) engage behind the indentations (57), the holding element (52) can be fastened to the central part (54). Then, a backup by locking by means of the lock (53), which results in that the holding element (54) can not be removed without force or without the appropriate key of the central part (54).

In an alternative embodiment, the closure (55) has only one radially projecting wing (56), which is adapted to engage behind a holding element extending from the left to the right side wall of the central part (54). The so-called transversely arranged retaining element may be formed for example as a bracket, z. B. similar to the notches (57).

The notches (57) can z. B. be made by punching and stretch stretching of material portions of the material of the central part in the direction of the inside.

Claims

claims:

A fluorescent tube for insertion into a fluorescent tube lamp, the fluorescent tube having a tubular body (1, 11) made of glass or plastic and a carrier strip (2, 12) on which a plurality of light-emitting diodes (3, 13) is mounted in the tubular body (1, 11) is inserted, wherein the carrier strip (2, 12) has a longitudinally extending kink (6), wherein the tip of the bend (6) mounted in the fluorescent tube lamp state of the fluorescent tube of the Housing (34, 43, 54) of the fluorescent lamp continues, and the vast majority of the plurality of light-emitting diodes (3, 13) on the side of the carrier strip (2, 12) is arranged in the in the fluorescent lamp mounted state of the arc tube facing away from the housing (34, 43, 54) of the fluorescent lamp.

A luminous tube according to claim 1, characterized in that the tubular body (1, 11) consists of two half shells (4, 5, 14, 15) made of glass or plastic.

Light tube according to claim 1, characterized in that the tubular body (1, 1 1) by two half-shells (4, 5, 14, 15) is formed, of which a half-shell (5, 15) made of glass or plastic and the other of Metal, in particular of aluminum. 4. Tube according to claim. 3, characterized in that the metal half-shell (5, 15) has a corrugated surface for improving the heat dissipation.

5. luminaire having a plurality of light-emitting diodes as lighting means and one or more semiconductor cooling elements (16), in particular Peltier

Elements in thermal contact with the luminaires in the luminaire are arranged (3, 13), in particular light tube according to one of the preceding claims.

Illuminating tube according to one of the preceding claims, characterized in that on the carrier strip (2, 12) or on the side of the tubular body (1, 11), which in the state of the fluorescent tube mounted in the fluorescent lamp, the housing (34, 43, 54) facing the fluorescent tube lamp, semiconductor cooling elements (16) are arranged.

Luminaire or arc tube according to claim 5 or 6, characterized in that the semiconductor cooling elements (16) are mounted on the light-emitting diodes (3, 13) facing away from the carrier strip (2, 12) or a light-emitting diode-carrying circuit board.

Light tube according to one of the preceding claims, characterized in that a power supply line (22) for supplying the light emitting diodes (3, 13) with electrical energy from the carrier strip (2, 12) on the side of the tubular body (1, 11), in the in the fluorescent tube lamp mounted state of the fluorescent tube facing the housing (34, 43, 54) of the fluorescent lamp, is guided by the tubular body (1, 11).

Fluorescent tube according to one of the preceding claims, characterized in that electrical contact elements (32) for electrical contacting of the light-emitting diodes provided in the light-emitting tube (3, 13) are provided on one side only at one end of the arc tube and the other end of the arc tube has no electrical contact elements.

10. arc tube according to claim 9, characterized in that the contact elements (32) are formed at the same time as retaining pins for mechanical support of the arc tube in a fluorescent lamp. 1 1. Fluorescent tube lamp for a fluorescent tube according to one of claims 8 or 9, characterized in that the fluorescent tube lamp serving as receiving elements counterparts to the electrical contact elements (32) of the arc tube, the counterparts mechanically incompatible with electrical pins of conven - Lent fluorescent tubes are formed.

12. fluorescent lamp according to claim 11, characterized in that the fluorescent lamp has a mounting adapter having the counterparts, wherein the mounting adapter is designed to adapt to different types of fluorescent tubes interchangeable.

13. Fluorescent tube lamp with a fluorescent tube according to one of the preceding claims, characterized in that the fluorescent tube lamp holding elements (24) for supporting the arc tube at both ends thereof, wherein each support member (24) has a short

Pipe having one end of the arc tube overlaps, wherein the pipe section (24) is permanently or only with special tools releasably secured to the support member (24). 14. Fluorescent lamp according to claim 13, characterized in that the housing of the fluorescent lamp has an elongate central body (34, 43, 54) and two respectively attached to one of the two ends of the elongate central body support members (42, 52), wherein the tube piece (24, 58) is fastened to a holding element (42, 52), wherein the holding element (42, 52) is fixed on the elongate central body by (34, 43, 54) can be plugged and fastened thereto with a closure (55).

15. Fluorescent lamp according to claim 14, characterized in that the support member (42, 52) by means of a lock (53) on the elongated central body (34, 43, 54) is fixable.

16. Fluorescent tube lamp with a fluorescent tube according to one of the preceding claims, characterized in that a led to the arc tube and the housing (42, 43) of the fluorescent lamp-mounted bracket (45) is provided as theft protection.

17. Fluorescent lamp according to claim 16, characterized in that the bracket (45) integral with a rear around the housing (42, 43) of the fluorescent lamp-guided U-shaped profile member (44) is executed, wherein a bolt (46 ) is arranged between the arc tube (41) and the housing (42, 43) of the fluorescent tube lamp and in the two legs of the U-shaped profile member (44) or the bracket (45) is inserted.

18. Fluorescent tube lamp according to claim 16, characterized in that the bracket (45) at a rear around the housing (42, 43) of the fluorescent lamp guided U-shaped profile member (44) by means of a bolt (46) is fixed, which is arranged between the arc tube (41) and the housing (42, 43) of the fluorescent lamp and is inserted in the two legs of the U-shaped profile component (44).

19. Fluorescent lamp according to claim 17 or 18, characterized in that the bolt (46) is releasably secured by a lock on the U-shaped profile member (44) and / or the bracket (45).