DE202014006204U1 - Intelligent lamp tube with light emitting diodes compatible with a T5 / T8 stabilization device - Google Patents

Abstract

An intelligent lamp tube with light-emitting diodes, which is compatible with a T5 / T8 stabilization device, consists of a tube housing (10) with two electrodes (20), a circuit board (30) mounted in the tube housing (10) for connecting the respective two electrodes (20) Tube housing (10), and which consists of at least two pre-start circuits (31) connected to a rectifying circuit (32), this rectifying circuit (32) being connected to an integrated circuit (34), and of at least one row of lamps (35) light-emitting diodes which are connected to the rectifying circuit (32) or to the integrated circuit (31), characterized in that the selection circuit (38) has a first end which is connected to the row of lamps (35) with light-emitting diodes, while the second end, which can be connected to a switching element (39), has an end which connects to the integrier th circuit (34) is connected and consists of at least one first line loop (381) and at least one second line loop (382), the first line loop (381) having a first end connected to the row of lamps (35) with light emitting diodes and has a second end connected to the integrated circuit (34) via the switching element (39); the second line loop (382) configured with an inductor (383) has a first end which is connected to the row of lamps (35) with light-emitting diodes, while a second end is connected to the integrated circuit (34) via the switching element (39) ,

Description

Technical area

The present invention relates to a design of a light emitting diode lamp tube circuit, and more particularly, to a smart light emitting diode lamp tube compatible with a T5 / T8 stabilization device, comprising a low current consumption T5 / T8 stabilizer, high adaptability, and energy conservation This intelligent lamp tube can be fully activated and the duty cycle of the lamp can be reduced.

State of the art

Prior art T5 or T8 fluorescent lamps are used in numerous areas for illumination, simultaneous energy conservation, and high power factor. With the rapid development of light emitting diodes (LED) lamp tubes, the T5 or T8 lamp tubes with filaments to dissipate the waste heat are increasingly being replaced. In view of this fact, operators are developing a LED tube lamp compatible with a T5 / T8 stabilization device. The 1 FIG. 12 illustrates a block diagram of the prior art LED lamp tube compatible with a T5 / T8 stabilizer. FIG 1 shows that a lamp socket 1 with an electronic stabilization device 2 and one with this electronic stabilization device 2 compatible LED lamp tube 3 are arranged, the LED lamp tube 3 with the electronic stabilization device 2 is activated.

Generally speaking, an electronic stabilization device 2 can be classified into two categories: a self-oscillating electronic stabilizer or an IC-controlled electronic stabilizer. When connecting the LED lamp tube 3 With the IC controlled electronic stabilizing device, a control circuit having an integrated circuit (IC) operated by the IC controlled electronic stabilizing device can be controlled, and this control circuit achieves high power factor, low harmonic distortion and high performance can. The 2 shows an equivalent circuit diagram of a self-oscillating electronic stabilization device according to the prior art. In the 2 It is clearly shown that with the resonance of an inductor / capacitor circuit and with the characteristics of the inductor transformer operated with the self-oscillating electronic stabilizer, the circuits are controlled. When connecting the LED lamp tube 3 with the self-oscillating electronic stabilizer, a start frequency and an operating frequency of the self-oscillating electronic stabilizer are disharmonic because of the wide variety of voltage, electric current, and fluorescent tube, resulting in problems of output current larger than a rated current of the lamp tube and in the electronic stabilizer, Increased power consumption and increased energy consumption and rapidly rising temperatures leads to an impairment of a lamp row of the LED lamp tube 3 and other electrical components and damage the LED lamp tube 3 as well as the internal system. It is obvious that the different problems of electronic stabilization device 2 during the duty cycle or the operating life of the compatible with the electronic T5 / T8 stabilization device LED lamp tube can not be estimated. For this reason, the present inventor has provided a light emitting diode lamp tube compatible with a T5 / T8 electronic stabilization device that obviates the drawbacks of the prior art LED tube lamp compatible with the T5 / T8 electronic stabilization device.

Object of the invention

The object of the present invention is to provide a light emitting diode lamp tube which is compatible with a T5 / T8 electronic stabilization device and which is suitable for a self-oscillating electronic stabilizer and an IC controlled electronic stabilizer which fully complements the smart LED lamp tube can be activated, reducing the lamp tube on-time, changing the resonant frequency, and achieving lower power consumption, high adaptability, and energy conservation.

In order to achieve the above-mentioned objects and achieve the effects, the invention provides an intelligent light-emitting diode lamp tube compatible with a T5 / T8 electronic stabilization device, comprising a tube housing having two electrodes, a circuit board mounted in said tube housing, and the like is connected to both electrodes and further consists of two pre-start circuits, which are connected to a rectifying circuit, which is connected to an integrated circuit, and at least one lamp row with light-emitting diodes, which are connected to the rectifying circuit or with the integrated circuit, consists. A selector switch has first end connected to the lamp array with light emitting diodes and a second end connectable to a switching element having one end connected to the integrated circuit of at least a first line loop and at least a second line loop wherein the first line loop has a first end connected to the lamp array with light emitting diodes and a second end connected via the switching element to the integrated circuit, while the second line loop, which consists of an inductor, a first End, which is connected to the lamp array with light emitting diodes, and having a second end, which is connected via the switching element to the integrated circuit.

Further, since the inventive smart T5 / T8 stabilizing device-compatible light emitting diode lamp tube can be connected to a self-oscillating electronic stabilizer or a TC-controlled electronic stabilizer, the select circuit and the integrated circuit switch element can be started to conduct the electronic current through the first loop or through the second loop consisting of an inductor. With the provision of the invention, with which the intelligent LED lamp tube can be fully activated and with which the duty cycle of the lamp can be reduced and the resonance frequency can be changed, also the power consumption can be reduced and the energy conservation can be improved, thus the advantages of the applicability various electronic stabilization devices and the desired adaptability.

The following embodiments will be described in detail below with reference to the attached drawings.

Brief description of the drawings

For a better understanding, the present invention will be described in detail below by way of examples and with reference to the attached drawings. The drawings show:

1 FIG. 12 is a block diagram of the circuitry of a light emitting diode (LED) lamp tube compatible with a T5 / T8 electronic stabilizer; FIG.

2 Fig. 12 is an equivalent circuit diagram of a prior art self-oscillating electronic stabilizer;

3 Figure 4 is a perspective view of the appearance of a preferred embodiment of the invention connected by plugging into a T5 / T8 bulb socket;

4 shows an exploded perspective view of a preferred embodiment of the invention;

5 Fig. 12 is a circuit diagram of a preferred embodiment of the invention;

6 FIG. 12 illustrates a circuit block diagram of a preferred embodiment of the invention; FIG.

7 Fig. 12 is a circuit block diagram of a preferred embodiment of the invention associated with an IC controlled electronic stabilizer;

8th Fig. 12 illustrates a circuit block diagram of a preferred embodiment of the invention associated with a self-oscillating electronic stabilizer;

9 Fig. 12 illustrates an equivalent circuit diagram of a preferred embodiment of the invention associated with the self-oscillating electronic stabilizer;

10 shows a sectional view of a preferred embodiment of the invention; and

11 shows a sectional view of a preferred embodiment of the invention.

Ways to carry out the invention

The following description represents the most convenient way of carrying out the invention. This description is for the purpose of illustrating the general principles of the invention and should not be considered as limiting. The scope of the invention is best illustrated with reference to the appended claims.

The 3 FIG. 12 shows an embodiment of a preferred embodiment of the invention connected by plugging into a T5 / T8 bulb socket while the FIG 4 an exploded perspective view of the preferred embodiment of the invention. The 3 and 4 show that smart and with a electronic T5 / T8 stabilization device compatible lamp tube 100 with light emitting diodes (LED) by plugging in a lamp socket 200 can be connected, which is used for T5 / T8 lamp tubes. The 5 and 6 show that the intelligent and compatible with the electronic T5 / T8 stabilization device LED lamp tube 100 from a lamp housing 10 with two electrodes 20 , one in this lamp housing 10 mounted circuit board 30 for connecting to the two electrodes 20 on the lamp housing 10 and further from two pre-start circuits 31 that with a rectifying circuit 32 connected to a voltage detecting circuit 33A or with an integrated circuit 34 is connected while at least one LED lamp row 35 with the rectifying circuit 32 or with the rectifying circuit 34 is connected between the integrated circuit 34 and the LED lamp series 35 a voltage regulating circuit 36 is mounted while a current-limiting protection circuit 37 with the LED lamp row 35 series connected and with the rectifying circuit 32 connected is.

The 5 shows a circuit diagram of a preferred embodiment of the invention and the 6 shows a circuit block diagram of the preferred embodiment of the invention. The 5 and 6 show that a dialing circuit 38 , which has a first end, with the lamp row 35 connected to light emitting diodes, and having a second end connected to a switching element 39 can be connected, whose one end with the integrated circuit 34 connected and with the current limiting protection circuit 37 is connected in parallel, from at least one first line loop 381 and at least a second line loop 382 consists.

The first line loop 381 has a first end, that with the lamp row 35 is connected to light emitting diodes, and a second end, via the switching element 39 with the integrated circuit 34 connected is. The second line loop 382 that with an inductor 383 is configured, has a first end, with the lamp row 35 is connected to light emitting diodes, and a second end, via the switching element 39 with the integrated circuit 34 connected is. In this embodiment, the switching element consists 39 from a first electrically controlled circuit 391 that with the first line loop 381 the dialing circuit 38 is serially connected, and from a second electrically controlled circuit 392 that with the second line loop 382 the dialing circuit 38 is serially connected, wherein the first and the second loops 381 and 382 the dialing circuit 38 over the switching element 39 with the integrated circuit 34 are connected. The switching element 39 is ahead with a current detecting circuit 33B connected in series with the integrated circuit 34 and with the rectifying circuit 32 connected is. As a current-detecting circuit 33B In this case, an electrical resistance is used, while the first and second electrically controlled circuits 391 and 392 of the switching element 39 are selected from one of the field effect transistors with a metal oxide semiconductor, a bipolar junction transistor, a relay or another of the electrical switching gates. In this embodiment, as the first and second electrically controlled circuits 391 and 392 of the switching element 39 Field effect transistors with a metal oxide semiconductor used.

The 4 that belong to the 10 and 11 heard with their sectional views of the preferred embodiment of the invention, again shows that on an inner wall in the tube housing 10 horizontal and projecting position-limiting convex ribs 11 are arranged relatively and in an axial direction. An aluminum-extruded heat-dissipating plate 40 , with two position-limiting slot openings 41 on either side of a bottom of this aluminum-extruded heat-dissipating plate 40 in accordance with the position-limiting convex ribs 11 is formed by inserting the tube housing accordingly 10 arranged. The position-limiting convex ribs 11 are at the position-limiting slot openings 41 arranged around the aluminum-extruded heat-dissipating plate 40 with the tube housing 10 limit, with the circuit board 30 on an upper surface of the aluminum-extruded heat-dissipating plate 40 is attached. The above the circuit board 30 arranged inductor 383 is at an end part of the tube housing 10 assembled. The electrodes 20 of the tube housing 10 are each with conductive terminals 21 configured, wherein dese conductive terminals 21 over the two sides of the circuit board 30 are arranged. The two tube caps 12 at the tube housing 10 which are the conductive terminals 21 are arranged according to, are on each one of the two ends of the tube housing 10 placed. The inductor 383 is exactly in the tube cap 12 of the tube housing 10 arranged and connected to the tube cap 12 of the tube cap 10 shielded. In this embodiment, the conductive terminal 21 two electrode pins 211 on, with the tube cap 12 on the lamp housing 10 , after the electrode pins 211 at the conductive terminal 21 is aligned, two outwardly projecting conductive pins 121 and the electrode pin 211 at the conductive terminal 21 by inserting accordingly on the conductive pin 121 of the tube housing 10 is arranged, wherein the conductive pin 121 of the tube housing 10 and the electrode pins 211 the conductive terminal 21 pressed against each other and fastened.

die sich für die oben beschriebene Maßnahme eignet sowie mit Bezugnahme auf das in der 9 dargestellte gleichwertige Schaltbild kann weiter nachgewiesen werden, dass der Induktionswert umgekehrt proportional zur Stromaufnahme ist. Mit der zweiten Leitungsschleife 382, die mit dem Induktor 383 seriengeschaltet ist, um das Schaltkreisbrett 30 die Stromaufnahme der LED-Lampenreihe 35 und weitere interne elektronische Komponenten mit Hilfe des Induktors 383 zum Steigern des Induktionswertes in der Schleife wirksam zu reduzieren, der durchschnittliche elektrische Strom und die Resonanzfrequenz geändert und die Amplitude und Frequenz reduziert werden können, um eine niedrigere Stromaufnahme zu erzielen. Beim Verbinden der intelligenten und mit der elektronischen T5/T8-Stabilisierungsvorrichtung kompatiblen LED-Lampenröhre 100 mit einer selbstschwingenden elektronischen Stabilisierungsvorrichtung 400 oder mit einer IC-gesteuerten elektronischen Stabilisierungsvorrichtung 300 können die Wählschaltung 38 und das Schaltelement 39 mit dem integrierten Schaltkreis 34 gestartet werden, um den elektrischen Strom durch die erste Leitungsschleife 381 oder durch die zweite Leitungsschleife 382, die mit einem Induktor 383 konfiguriert ist, zu leiten. Mit der Erfindung kann die intelligente LED-Lampenröhre 100 vollständig gestartet und die Einschaltdauer der Lampe reduziert sowie die Resonanzfrequenz geändert werden, wobei die Stromaufnahme reduziert und die Energieerhaltung verbessert sowie die Vorteile einer Anwendbarkeit mit verschiedenen elektronischen Stabilisierungsvorrichtungen und die bevorzugte Anpassungsfähigkeit erzielt werden können. With renewed reference to the 3 and 5 is the intelligent LED lamp tube 100 in the lamp socket 200 , which are suitable for the common T5 / T8 lamp tubes attached. With the in the lamp socket 200 mounted electronic stabilization device is generated when activated with a power switch a high transient voltage, wherein the electric current generated with this high transient voltage sequentially across the electrodes 20 on the lamp housing 10 , the rectifying circuit 32 for converting the alternating current into a direct current, the led lamp series 35 , the voltage-detecting circuit 33A , the integrated circuit 34 and and over the dialing circuit 38 through the pre-start circuits 31 is directed. The through the integrated circuit 34 conducted voltage can with the voltage detecting circuit 33A be detected, so that the integrated circuit 34 can determine if the switching element 39 should be started or not. In addition, the through the LED lamp row 35 conducted electric power with the current detecting circuit 33B be detected, so that the integrated circuit 34 can determine if the switching element 39 should be started or not, after which the integrated circuit 34 can further determine if the first electrically controlled circuit 391 or the second electrically controlled circuit 392 should be applied. Generally, electronic stabilizers are classified into two categories, ie, the self-oscillating electronic stabilizer and the IC-controlled electronic stabilizer. The 5 and 7 show that when connecting the smart LED lamp tube 100 of the invention with the IC controlled electronic stabilization device 300 the switching element 39 with the integrated circuit 34 is started, wherein between the first electrically controlled circuit 391 of the switching element 39 and the first line circuit 381 the dialing circuit 38 a closed current path is formed. Further, the current state of the circuit board becomes 30 with the integrated circuit (IC) generated by the self-oscillating electronic stabilizer 400 is operated to achieve a high power factor, low harmonic distortion, high power and low power consumption. The 5 and 8th show that when connecting the smart LED lamp tube 100 the invention with a self-oscillating electronic stabilization device 400 the switching element 39 over the integrated circuit 34 with the circuit board 30 is started to the second electrically controlled circuit 392 with the second line loop 382 to connect, ie with the inductor 383 to be connected in series. After combining a term of the self-oscillating electronic stabilizer 400 .

which is suitable for the above-described measure and with reference to that in the 9 shown equivalent circuit diagram can be further demonstrated that the induction value is inversely proportional to the current consumption. With the second line loop 382 that with the inductor 383 is connected in series to the circuit board 30 the current consumption of the LED lamp row 35 and other internal electronic components using the inductor 383 to effectively reduce the induction value in the loop, the average electric current and the resonance frequency can be changed, and the amplitude and frequency can be reduced to obtain a lower current consumption. When connecting the intelligent LED tube compatible with the T5 / T8 electronic stabilization device 100 with a self-oscillating electronic stabilization device 400 or with an IC controlled electronic stabilization device 300 can the dialing circuit 38 and the switching element 39 with the integrated circuit 34 be started to the electric current through the first line loop 381 or through the second loop 382 that with an inductor 383 is configured to conduct. With the invention, the intelligent LED lamp tube 100 can be fully started and lamp on-time reduced, and the resonant frequency changed, thereby reducing power consumption and improving energy conservation, as well as providing the advantages of being usable with various electronic stabilizers and the preferred adaptability.

The 4 and 10 show that on the inner sidewall in the tube housing 10 position-limiting convex ribs 11 are formed in an axial direction to the heat-dissipating plate 40 accordingly by plugging in the tube housing 10 to assemble, with the position-limiting convex ribs 11 to the position-limiting slot openings 41 can be arranged to the heat-dissipating plate 40 with the lamp housing 10 to limit. The 8th also shows that the circuit board 30 on an upper surface of the heat-dissipating plate 40 is attached, this heat-dissipating plate 40 an aluminum extruded element is made of metal while keeping the circuit board 30 generated waste heat for dissipation to this heat-dissipating plate 40 can be transferred. With the preferred heat dissipating property of this heat dissipating plate 40 , using the position-limiting convex ribs 11 and the position-limiting slot openings 41 stable in the tube housing 10 becomes the lighting power of the LED lamp array 35 not impaired, so the advantage of prolonged life of the circuit 30 can be achieved.

The 11 again shows that the electrode pen 211 at the conductive terminal 21 according to and by plugging with the conductive pin 121 at the tube lid 12 is connected, this tube cover 12 for covering at both ends of the tube housing 10 be put on to the inductor 383 shield. The conductive pen 121 at the tube housing 10 and the electrode pins 211 at the conductive terminal 21 can be pressed against each other and fastened. In this way, the advantages of the production capacity can be increased, the manufacturing costs are lowered and the preferred strength of the structure is achieved.

The invention includes an intelligent lamp tube compatible with a T5 / T8 stabilization device 100 with light emitting diodes consists of a tube housing 10 , one in the tube housing 10 mounted circuit board 30 with at least one LED lamp row 35 , one on the circuit board 35 assembled integrated circuit ( 34 ), one of a first line loop 381 and from a second loop 382 that with an inductor 383 are configured, existing dialing circuit 38 and a switching element 39 that with the integrated circuit 34 connected is. When connecting the light-emitting diode existing smart lamp tube 100 with a self-oscillating electronic stabilization device 400 or with an IC controlled electronic stabilization device 300 can with the internal arithmetic of the integrated circuit ( 34 ) the dialing circuit ( 38 ) and the switching element ( 39 ) for changing the resonant frequency of the electrical circuit to achieve low power consumption, high adaptability and energy conservation.

LIST OF REFERENCE NUMBERS

1

Lampenfassung

2

Elektronische Stabilisierungsvorrichtung

3

LED-Lampenröhre

[In der Erfindung]

100

Intelligente LED-Lampenröhre

10

Röhrengehäuse

11

Positionsbegrenzende konvexe Rippen

12

Röhrendeckel

121

Leitfähiger Stift

20

Elektrode

21

Leitfähige Anschlußklemme

211

Elektrodenstift

30

Schaltkreisbrett

31

Vorstartschaltkreis

32

gleichrichtender Schaltkreis

33A

Spannungserkennender Schaltkreis

33B

Stromerkennender Schaltkreis

34

Integrierter Schaltkreis

35

LED-Lampenreihe

36

Spannungsregelnder Schaltkreis

37

Strombegrenzende Schutzschaltung

38

Wählschaltung

381

Erste Leitungsschleife

382

zweite Leitungsschleife

383

Induktor

39

Schaltelement

391

Erste elektrisch gesteuerte Schaltung

392

Zweite elektrisch gesteuerte Schaltung

40

Aluminiumextrudierte wärmeableitende Platte

41

Positionsbegrenzende Schlitzöffnung

200

Lampenfassung

300

IC-gesteuerte elektronische Stabilisierungsvorrichtung

400

Selbstschwingende elektronische Stabilisierungsvorrichtung

[In the Prior Art]

1

lamp socket

2

Electronic stabilization device

3

LED lamp tube

[In the invention]

100

Intelligent LED lamp tube

10

tube housing

11

Position-limiting convex ribs

12

tube cover

121

Conductive pen

20

electrode

21

Conductive terminal

211

electrode pin

30

Circuit board

31

Vorstartschaltkreis

32

rectifying circuit

33A

Voltage Detecting Circuit

33B

Current-detecting circuit

34

Integrated circuit

35

LED lamp series

36

Voltage regulation circuit

37

Current limiting protection circuit

38

select circuit

381

First line loop

382

second line loop

383

inductor

39

switching element

391

First electrically controlled circuit

392

Second electrically controlled circuit

40

Aluminum-extruded heat-dissipating plate

41

Position limiting slot opening

200

lamp socket

300

IC-controlled electronic stabilization device

400

Self-oscillating electronic stabilization device

Claims (6)

An intelligent lamp tube with light-emitting diodes compatible with a T5 / T8 stabilization device consists of a tube housing ( 10 ) with two electrodes ( 20 ), one in the tube housing ( 10 ) mounted circuit board ( 30 ) for connecting the respective two electrodes ( 20 ) of the tube housing ( 10 ), and that at least two with a rectifying circuit ( 32 ) associated pre-start circuits ( 31 ), this rectifying circuit ( 32 ) with an integrated circuit ( 34 ) and at least one row of lamps ( 35 ) with light-emitting diodes connected to the rectifying circuit ( 32 ) or with the integrated circuit ( 31 ), characterized in that the selection circuit ( 38 ) has a first end connected to the lamp row ( 35 ) is connected to light emitting diodes while the second end connected to a switching element ( 39 ), has an end connected to the integrated circuit ( 34 ) and at least one at least one first line loop ( 381 ) and at least one second line loop ( 382 ), wherein the first line loop ( 381 ) a first end connected to the lamp row ( 35 ) is connected to light-emitting diodes, and has a second end, which via the switching element ( 39 ) with the integrated circuit ( 34 ) connected is; with an inductor ( 383 ) configured second line loop ( 382 ) has a first end connected to the lamp row ( 35 ) connected to light emitting diodes is, while a second end via the switching element ( 39 ) with the integrated circuit ( 34 ) connected is. The smart light-emitting diode lamp tube compatible with a T5 / T8 stabilization device according to claim 1, wherein said switching element ( 39 ) from a first electrically controlled circuit ( 391 ) connected to the first line loop ( 381 ) of the dialing circuit ( 38 ) is connected in series, and from a second electrically controlled circuit ( 392 ) connected to the second line loop ( 382 ) of the dialing circuit ( 38 ) is connected in series; the first and second line loops ( 381 and 382 ) of the dialing circuit ( 38 ) via the switching element ( 39 ) with the integrated circuit ( 34 ) are connected. The smart light-emitting diode lamp tube compatible with a T5 / T8 stabilization device according to claim 2, wherein the first and second electrically controlled circuits (FIGS. 391 and 392 ) of the switching element ( 39 ) are selected from one of the field effect transistors with a metal oxide semiconductor, a bipolar junction transistor, a relay, or another of the electrical switching gates. The smart light-emitting diode lamp tube compatible with a T5 / T8 stabilization device according to claim 1, wherein the one above the circuit board ( 30 ) arranged inductor ( 383 ) at an end portion of the tube housing ( 10 ) is mounted; the electrodes ( 20 ) of the tube housing ( 10 ) each with conductive terminals ( 21 ) are configured, wherein dese conductive terminals ( 21 ) over the two sides of the circuit board ( 30 ) are arranged; the two tube covers ( 12 ) on the tube housing ( 10 ) connected to the conductive terminals ( 21 ) are arranged corresponding to, in each case one of the two ends of the tubular housing ( 10 ), while the inductor ( 383 ) with the tube cap ( 12 ) on the tube housing ( 10 ) is shielded. The smart light-emitting diode lamp tube compatible with a T5 / T8 stabilization device according to claim 4, wherein said conductive terminal ( 21 ) two electrode pins ( 211 ), the tube cap ( 12 ) on the lamp housing ( 10 ), which after the electrode pins ( 211 ) at the conductive terminal ( 21 ), two conductive pins ( 121 ) and the electrode pin ( 211 ) at the conductive terminal ( 21 ) by inserting according to the conductive pin ( 121 ) of the tube housing ( 10 ), wherein the conductive stylus ( 121 ) of the tube housing ( 10 ) and the electrode pins ( 211 ) at the conductive terminal ( 21 ) are mutually pressed against each other and fixed. The smart light-emitting diode lamp tube compatible with a T5 / T8 stabilization device according to claim 1, wherein on an inner wall in the tube housing ( 10 ) horizontal and projecting position-limiting convex ribs ( 11 ) are arranged relatively and in an axial direction; an aluminum-extruded heat-dissipating plate ( 40 ) with two position-limiting slot openings ( 41 ) on both sides of a bottom of this aluminum-extruded heat-dissipating plate ( 40 ) in accordance with the position-limiting convex ribs ( 11 ) is formed by inserting according to the tube housing ( 10 ) is arranged; the position-limiting convex ribs ( 11 ) at the position-limiting slot openings ( 41 ) are arranged around the aluminum-extruded heat-dissipating plate ( 40 ) with the tube housing ( 10 ), whereby the circuit board ( 30 ) on an upper surface of the aluminum-extruded heat dissipating plate ( 40 ) is attached.

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