DE202008015804U1 - An electrodeless light-emitting tube diode - Google Patents

Abstract

An electrodeless tube LED (light emitting diode), composed of:
a lamp housing (2) internally having a gap (22);
a circuit board (23) mounted within said space (22), a plurality of light emitting diodes (24) mounted on the circuit board (23);
a rectifier element (25) located at a predetermined location on said circuit board (23), said rectifier element (25) having the effect of converting a direct current source at the input end of the circuit board (23) into one of the ones positive and negative poles can not be separated.

Description

BACKGROUND OF THE INVENTION

(a) Environment of the invention

at The present invention is an electrodeless Tube LED (light-emitting diode), in particular around an electrodeless tube LED, which can be easily taken apart and put together without distinguishing between the positive and negative electrodes to have to.

(b) Description of the Conventional embodiment

There the light-emitting diode (LED) is a solid-state semiconductor element Condition is, the function serves between the electron holes for Omitting the energy in the form of light used for lighting. The other advantages of the LED are their compact size, fast Reaction speed, long service life, low power consumption, their high durability against surcharges as well as their good environmental compatibility. The light-emitting elements are currently in numerous fields used, including for electronic and electrical appliances, Information Billboards, Communication Products & More Ä., in particular for modern Lighting equipment that work with light emitting diodes as semiconductor elements. Although the performance of the first light-emitting diodes in comparison with the conventional ones lighting equipment was below expectations, the brightness was the luminance of the present produced light-emitting diodes with the following repairs the technology and material significantly improved, so that the usual gradually replaced light-emitting lighting devices could become.

Under the influence of subsequent technologies and materials has increased the electric current for light-emitting diodes is required, increasingly on, so that the heat energy generated by these light-emitting diodes also gradually increased. Therefore, an impairment of the Service life of the light emitting diodes by this excessive Thermal energy To avoid, the lighting devices are already using light-emitting Diodes are equipped as light-emitting elements and with These are operated with an appropriate and appropriate design for dissipating the waste heat such means being one of the main functions for preventing a generation of excessive heat energy in the current one Fulfill lighting devices.

The 1 shows a plan view of a tube LED according to the conventional embodiment. From this drawing it is clear that at both ends of a tube LED 1 one power cable each 11 is connected and these power cables 11 in each case an LED lamp socket 12 is plugged in. When plugging in this power cable 11 into the LED lamp socket 12 becomes the tube LED 1 brought to light. It is well known that the general light-emitting diodes (LED) used in lighting fixtures or lights are provided with screws or clamps to securely fasten a metal-based printed circuit board while directing the heat generated by the LEDs to the printed circuit board is used, or a light guide cover or a light guide plate for the light treatment, the electrodeless feature of the original, conventional mercury-halide tube and the habit of the user to replace the tube itself disregarded, as when replacing the tube LED 1 the power cables connected to the metal base of the printed circuit board 11 still need to be pulled out, which makes the process of replacing the user more difficult.

• 1. Die Stromkabel 11 an den beiden Enden der Röhren-LED 1 sind in positive und negative Elektroden eingeteilt, so dass der Benutzer beim Auswechseln diese positiven und negativen Elektroden der Röhren-LED 1 klar voneinander unterscheiden muss.
• 2. Die Stromkabel dienen durch Verbinden zum Verlängern der positiven und negativen Elektroden der Stromkabel 11 an den beiden Enden der Röhren-LED 1.
• 3. Da die Endbefestigungsmontagen von den beiden Enden der Röhren-LED 1 mit Kunststoff-Rohmaterial ausgekragt werden ist die Hitzebeständigkeit unzureichendund die Abwärme kann nicht abgeleitet werden.
• 4. Zum Auswechseln der Röhren-LED 1 muss der Benutzer das zusätzliche Netztteil des Gehäuses, an das die beiden Stronkabel von den beiden Enden der Röhren-LED 1 angeschlossen sind, zusammen mit der LED-Lampenfassung gleichzeitig auseinandergenommen werden, was sehr arbeitsuafwendig ist.

When using the above tube LEDs 1 however, according to the conventional embodiment, the following problems and disadvantages still occur:

• 1. The power cables 11 at the two ends of the tube LED 1 are divided into positive and negative electrodes, allowing the user to replace these positive and negative electrodes of the tube LED 1 clearly different from each other.
• 2. The power cables serve by connecting to extend the positive and negative electrodes of the power cable 11 at the two ends of the tube LED 1 ,
• 3. Because the end mounting mounts from the two ends of the tube LED 1 With plastic raw material, the heat resistance is insufficient and the waste heat can not be dissipated.
• 4. To replace the tube LED 1 The user needs the additional power supply of the chassis to which the two power cables from the two ends of the LED tube 1 are connected together with the LED bulb socket to be taken apart at the same time, which is very laboraafwendig.

Of the The inventors and the manufacturers in this field are therefore the clear ones Target set and it is also purpose of the present invention, which Problems and disadvantages of conventional embodiment to investigate, repair and eliminate.

SUMMARY OF THE INVENTION

in view of the disadvantages of the above-mentioned conventional embodiment has the inventor of the present invention after accumulating the corresponding Information and the evaluation and consideration of many aspects as well as his years of experience in the field continuous tests and touches a new electrodeless tube diode according to the present invention Invention created that easily and conveniently replace lets, without that distinguishes between the positive and negative electrodes must become.

One The main object of the present invention is to provide a printed circuit board with metal base inside a lamp housing is built in while with the SMT method (surface mounting) several light emitting diodes mounted on the circuit board are. Furthermore the circuit board is equipped with a rectifier element, with thanks to its effectiveness a direct current source at the input end of the Circuit board is converted into one in which the positive and negative poles are not separated from each other. After embodiment described above the present invention provides a breakthrough to solve the existing problems and disadvantages of the tube LEDs after the conventional embodiment, the distinction between the positive and negative electrodes and the poor effectiveness of the heat distribution when replacing particular attention has been given, and thus, thanks to this rectifying element the user no longer between the positive when replacing the tube LED and distinguish negative electrodes. In addition, since the light-emitting Diodes mounted on the circuit board using the SMT method The effectiveness of the heat distribution is also significantly improved.

One Another main objective of the present invention is that two ends of the lamp housing each equipped with a connecting part, said connecting parts made of a material that has a very high heat resistance having. According to the embodiment described above forms the present Invention breakthrough to solve the existing problems and disadvantages of the LED versions the previous embodiment, among other things, the connecting parts at the ends of the tube LED the conventional one embodiment are made of a plastic material that does not have sufficient heat resistance and can not dissipate the heat while using the present Invention an improved practical progress of efficacy the heat dissipation ability is achieved because these connecting parts of a very heat-conductive material are made.

Yet Another object of the present invention is that two ends of the lamp housing each equipped with a connecting part, each of these Connecting parts is provided with a plurality of lead pins and these Cable pins for electrical connections are used. When installing the Tube LED the user needs a preset lighting device only with the Connect the pins directly to an electric wire and to allow an operation with these so that for making such a connection also no Power cables are necessary, making this installation more time-saving and more practical.

For a better one understanding the above objectives and the technical methods of the present The invention follows the following brief description of the enclosed Drawings a detailed description of the preferred embodiments.

BRIEF DESCRIPTION OF THE DRAWINGS

1 shows a plan view of a tube diode according to the conventional embodiment.

2 shows a plan view of a preferred embodiment of the present invention.

3 shows a section of the preferred embodiment of the present invention.

4 shows a schematic representation of the application of the preferred embodiment of the invention.

5 shows a schematic representation 1 the preferred embodiment of the present invention.

6 shows a schematic representation of the operation of the preferred embodiment of the invention.

DETAILED DESCRIPTION OF THE PREFERRED MODES

The 2 . 3 and the 4 show a plan, a section and a schematic representation of the application of a preferred embodiment of the present invention. From these drawings, it is clear that an electrodeless tube LED (light emitting diode) consists of a lamp housing 2 is constructed, this lamp housing 2 a transparent glass housing. Two ends of this lamp housing 2 are each with a connecting part 21 provided with one side of each connecting part 21 each with several pins 211 is equipped while the conductor pins 211 serve for electrical connection. The lamp housing 2 has a gap in the interior 22 on, being a circuit board 23 in this space 22 is arranged. The circuit board 23 is constructed as a printed circuit board with a metal base, being on this circuit board 23 several light-emitting diodes 24 are mounted. These light emitting diodes 24 are designed as high power LEDs. The circuit board 23 is at its predetermined location with a rectifier element 25 equipped with this rectifier element 25 a DC power source at the input end of the circuit board 23 is transformed without separating the positive and negative poles. The rectifier element 25 serves as a bypass diode.

In addition, these are several light-emitting diodes 24 using the SMT (Surface Mount) method on the circuit board 23 mounted so as to achieve the effectiveness with which the light emitting diodes 24 generated heat energy quickly from the circuit board 23 is derived.

In addition, if the connecting parts 21 Made of a highly heat-resistant material (such as aluminum material), the air convection can be used to the heat distribution through the connecting parts 21 to optimize when using the tube LED. In addition, the lamp housing 2 for their use with the help of the connecting parts 21 be used at the two ends directly into the mounting assemblies.

According to the structure and the structural design described above, the features of the operation of the present invention will be described below. The 4 . 5 and the 6 show a schematic view 1 respectively. 2 the application of the preferred embodiment of the invention. These drawings clearly show that each of the lamp housings 2 with a connecting part 21 is provided while one side of each connecting part 21 each with several pins 211 is equipped so that these power pins 211 in the mounting assemblies 31 within the lighting device 3 can be inserted. The circuit board 23 is inside each lamp housing 2 wherein the plurality of light emitting diodes 24 on this circuit board 23 are mounted. Besides, every circuit board is 23 in addition to the rectifier element 25 that works as a bypass diode. This bypass diode has the effectiveness of having a DC source at the input end of the circuit board 23 is converted into one in which the positive and negative poles are not separated from each other, so that therefore the tube LED has the feature to work electrodeless. When installing the electrodeless tube LED, the user can use the lead pins 211 at the connecting parts 21 directly into the respective mounting assemblies 31 the lighting device 3 deploy. Because the circuit board 23 with the rectifier element 25 when the power source is converted to one in which the positive and negative poles are not separated from each other, it is not necessary to pay attention to the separation of the current poles in the installation of the electrodeless tube LED, so that this electrodeless tube LED directly into the lighting device 3 can be installed. In addition, because the lamp housing 2 designed as a transparents glass housing, the sources of light that come with the light emitting diodes 24 is broadcast, amplified so as to achieve a stronger illuminance.

• 1. Da das Schaltungsbrett 23 der elektrodenlosen Röhren-LED mit dem Gleichrichterelement 25 ausgerüstet ist, welches über die Wirkungsweise zum Umformen einer Gleichstromquelle in eine solche verfügt, mit der die positiven und negativen Polen nicht voneinander getrennt werden müssen, muss sich der Benutzer beim Installieren der Röhren-LED hinsichtlich dieser positiven und negativen Röhren-LED keine Gedanken machen, so dass diese Installation eindeutig erleichtert wird.
• 2. Die Mehrzahl der Leitungsstifte 211 ist auf den Verbindungsteilen 21 montiert, wobei diese Leitungsstifte 211 direkt in die Befestigungsmontagen 31 innerhalb der Leuchtvorrichtung 3 eingebettet werden können, um somit die Installation zu vereinfachen.
• 3. Die Verbindungsteile 21 sind aus einem sehr gut hitzebeständigen Material aufgebaut (wie z. B. aus einem Aluminiummaterial), wobei die Luftkonvektion unter Verwendung der Röhren-LEDs zum Erzielen einer besseren Hitzeverteilung mit Hilfe der Verbindungsteile 21 dienen.
• 4. Beim erstmaligen Installieren der elektrodenlosen Röhren-LEDs müssen die ursprünglichen Quecksilber-Halogenid-Röhren sowie das Netzteil nur mit der Röhren-LED und dem befestigten Röhren-LED ausgewechselt werden, um diese anzuwenden. Eine spätere Auswechslung erfordert lediglich ein Auswechseln des Röhren-LED's, was sich als äußerst praktisch und zeiteinsparend erweist.
• 5. Die lichtemittierenden Dioden 24 werden mit Hilfe der SMT-Methode auf dem Schaltungsbrett 23 montiert, um somit die mit den lichtemittierenden Dioden 24 erzeugte Wärmeenergie schnell vom Schaltungsbrett 23 abzuleiten.

With reference to all the drawings, the present invention has the following advantages as compared with the conventional embodiment:

• 1. Since the circuit board 23 the electrodeless tube LED with the rectifier element 25 equipped, which has the mode of action for transforming a DC power source into one with which the positive and negative poles do not need to be separated from each other, the user does not have to worry about installing this tube LED with regard to these positive and negative LED tubes so that this installation is clearly facilitated.
• 2. The majority of cable pins 211 is on the connecting parts 21 mounted, these pins 211 directly into the mounting assemblies 31 within the lighting device 3 can be embedded to simplify the installation.
• 3. The connecting parts 21 are made of a highly heat-resistant material (such as an aluminum material), wherein the air convection using the tube LEDs to achieve a better heat distribution by means of the connecting parts 21 serve.
• 4. When installing the electrodeless tube LEDs for the first time, the original mercury halide tubes and the power supply need only be replaced with the tube LED and the attached tube LED to apply them. A later replacement requires only a replacement of the tube LED, which proves to be extremely convenient and time-saving.
• 5. The light-emitting diodes 24 be using the SMT method on the circuit board 23 mounted, so that with the light emitting diodes 24 generated heat energy quickly from the circuit board 23 derive.

Loud of the above description with the electrodeless tube LED according to the present invention, the effectiveness and the objectives the application can be achieved as described. The present invention should therefore prove to be a practical and extraordinary invention with the basic requirements for filing a new patent Fulfills become. Therefore, this patent is intended to grant the relevant intellectual property rights be submitted.

It is self-evident, that the embodiments described here only each represents an example of the principles of the present invention and that a variety of different modifications of be made to those skilled in the art, without the spirit and scope of the invention as set forth in the following claims; departing.

Claims (7)

An electrodeless tube LED (Light Emitting Diode) composed of: a lamp housing ( 2 ), which internally creates a gap ( 22 ) having; a circuit board ( 23 ) within this space ( 22 ), wherein a plurality of light-emitting diodes ( 24 ) on the circuit board ( 23 ) are mounted; a rectifier element ( 25 ), which at a predetermined location on the circuit board ( 23 ), with this rectifier element ( 25 ) the effectiveness is achieved, a DC source at the input end of the circuit board ( 23 ) into one that does not separate the positive and negative poles. The electrodeless tube LED according to claim 1, characterized in that the lamp housing ( 2 ) is designed as a transparent glass housing. The electrodeless tube LED according to claim 1, characterized in that the circuit board ( 23 ) is designed as a metal-based printed circuit board. The electrodeless tube LED according to claim 1, characterized in that the two ends of the lamp housing ( 2 ) each having a connecting part ( 21 ) are provided. The electrodeless tube LED according to claim 4, characterized in that an aluminum material for producing the connecting part ( 21 ) is used, which has a very high heat resistance. The electrodeless tube LED according to claim 1, characterized characterized in that the light-emitting diodes as high-power LEDs (Light emitting diodes) are executed. The electrodeless tube LED according to claim 1, characterized in that the rectifier element ( 25 ) is implemented as a bypass diode.