DE202015000387U1 - Improved tube module design - Google Patents

Abstract

In the improved tube module design, at least one DC emission element and a current conversion device are placed in a tube. The current conversion device comprises a first fluorescence analog module and a second fluorescence analog module. The two fluorescence analog modules each comprise two power input terminals electrically connected to a bridge rectifier. The bridge rectifier is further electrically connected to a DC emission element. The features are: a current input terminal of the first fluorescence analog module or the second fluorescence analog module is provided with a capacitor to reduce and isolate the interaction between the stabilizer or other injected current and the DC component of the tube module and to reduce the power while maintaining the DC To protect emission element.

Description

The technical area

The present novelty is the improved tube module design, in particular the improvement of the conventional DC tube module light source, that reduces the interaction between the stabilizer or other injected current and DC component of the tube module and can be isolated.

The state of the art

The conventional fluorescent tube is powered by electronic stabilizer with high efficiency power factor or by conventional stabilizer with silicon steel plate. But the current supplied by the stabilizer can not be used without power conversion device directly DC emission element like LED.

Since the stabilizer provides only alternating current and because the stabilizer serves to overcome the negative resistance of the gas discharge light source, the stabilizer can not be directly connected to the DC LED. The DC LEDs are directly powered only with correct effective DC current, which has been converted by the stabilizer running AC.

A power conversion module that converts the AC power from mains to DC is used in this case. However, because of the characteristics of the devices used, including the switch element (such as MOSFET: metal oxide half-well field effect transistor), output filter capacitor (such as electrolytic capacitor electrolyte life), and the problem of quality, size, and cost of the transformer, the lifetime, efficiency and cost of the tube.

The object of the invention

A technical feature of the divisive novelty is based on the Taiwanese Patent No. M451774 in which a capacitor is electrically connected to input terminal, thereby reducing and isolating the interaction between the stabilizer or other injected current and DC component of the tube module.

Another technical feature of the present invention is that two consoles are electrically mounted between the two pairs of the tube module's current input terminals and the brownstone rectifier, which is electrically connected directly to the DC emission element, thereby lowering the power and simultaneously the DC emission element can still be protected.

Another technique of the present invention is that the tube is provided with at least one DC emission element and a current conversion device. The current conversion device comprises a first fluorescence analog module and a second fluorescence analog module, wherein the first fluorescence analog module and the second fluorescence analog module each comprise two current input terminals and are electrically connected to a bridge rectifier, which in turn is electrically connected to the DC emission element. A current input terminal of the first fluorescence analogue module or second fluorescence analogue module is provided with a capacitor. The additional attached capacitor can reduce and isolate the interaction between the stabilizer or other injected current and DC component of the tube module.

Another technique of the present novelty is that the tube is provided with at least one DC emission element and a stabilizer. The stabilizer comprises two pairs of current input terminals and is electrically connected to a bridge rectifier. Between each pair of current input terminal and the bridge rectifier, two capacitors are mounted and the bridge rectifier is electrically connected to the DC emission element. The additional capacitors attached can reduce and isolate the interaction between the stabilizer or other injected current and the DC component of the tube module, thereby lowering power while still protecting the DC emission element.

Brief description of the drawings

1 is the schematic diagram of a plateau of the first implementation of this novelty.

2 The schematic representation of a plait of the second implementation of this novelty is.

Ways to carry out the invention

1 schematically shows the first embodiment of the present novelty, in which the tube module a tube 1 and a platter 2 that covers the tube 1 appropriate and on the at least one, but more preferably several DC Emissionselemete 23 includes. It is better that the DC emission element 23 a Leuchtdionde (LED) is. The size and performance of the DC emissions telemeter 23 should meet the specifications of the usual fluorescent tube on the market. The DC emission element 23 is electric with a bridge rectifier 22 connected. At the two ends of the Plattine 2 is in each case a first fluorescence analog module 21 and a second fluorescent analog module 24 connected, wherein the first fluorescence analog module 21 and the second fluorescent analog module 24 electrically with the DC-Emmisionselement 23 are connected. The bridge rectifier 22 and the first fluorescent analog module 21 and the second fluorescent analog module 24 together form a power conversion device.

The first fluorescence analog module 21 and the second fluorescent analog module 24 are each formed by a resistor R2 and an inductor L1 or by a resistor R4 and an inductor L3 in series. In the present innovation, the current is introduced by means of an electrical model formed by a respective resistor R2 and an inductor L1 or a resistor R4 and an inductor L3, the electrical model being supplied by the resistors R2, R4 and the inductors, respectively L1, L3 is formed, has low resistance with approximately less than 1 ohm.

The first fluorescence analog module 21 and the second fluorescent analog module 24 each connect to a pair of the current input terminal 11 and form the tube 1 , By connecting with the mains power from the current input terminals 11 becomes the tube 1 powered. In the first embodiment of the present invention, a capacitor C1 becomes electrically connected to a current input terminal 11 of the first fluorescence analogue module 21 connected. Will power through the power input connector 11 the capacitor C1 can reduce and isolate the interaction between the stabilizer or other injected current and the DC component of the tube module and reduce the power while still protecting the DC emission element.

2 schematically shows the second embodiment of the present novelty, in which the tube module a tube 1 and a platter 2 that covers the tube 1 is appropriate and on the at least one, but better several DC emission elements 23 includes. It is better that the DC emission element 23 a Leuchtdionde (LED) is. The size and power of the DC emission element 23 should meet the specifications of the usual fluorescent tube on the market. On the platter 2 is still a pair of stabilizer 25 intended. The two stabilizers 25 include two parre power input connection 11 , where the two stabilizers 21 with a bridge rectifier 22 are electrically connected. Between each pair of power input connector 11 and the bridge rectifier 22 two capacitors C1 and C2 or C3 and C4 are connected. Furthermore, the bridge rectifier connects 22 the DC emission element 23 electric. This way, when the current through the power input terminals 11 are supplied, the condensers C1 and C2 and the other condensers C3 and C4 can reduce and isolate the interaction between the stabilizer or other injected current and the DC component of the tube module and lower the power while still protecting the DC emission element.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• TW 451774 [0005]

Claims (4)

In the improved tube module design, at least one DC emission element and a current conversion device are placed in a tube. The current conversion device comprises a first fluorescence analog module and a second fluorescence analog module. The two fluorescence analog modules each comprise two power input terminals electrically connected to a bridge rectifier. The bridge rectifier is further electrically connected to a DC emission element. The features are: a current input terminal of the first fluorescence analogue module or the second fluorescence analogue module is provided with a capacitor to reduce and isolate the interaction between the stabilizer or other injected current and the DC component of the tube module and to reduce the power while maintaining the DC To protect emission element. The characteristic feature of the improved tube module construction according to claim 1 is characterized in that the DC emission element is LED light source. In the improved tube module design, at least one DC emission element and stabilizer are housed in a tube. The stabilizer is provided with two pairs of current input terminal and electrically connected to a bridge rectifier. Between each pair of current input terminal and the bridge rectifier two capacitors are attached. The bridge rectifier is electrically connected to the DC emission element. In this way, the interaction between the stabilizer or other injected current and the DC component of the tube module can be reduced and isolated and the power lowered, while still protecting the DC emission element. The characteristic feature of the improved tube module construction according to claim 3 is characterized in that the DC emission element is LED light source.

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