WO2008095343A1 - A sleeve-shaped daylight lamp - Google Patents

Abstract

A sleeve-shaped daylight lamp shape includes a sleeve (1), a lighting tube (2), an inductance assembly (3) and a primary control circuit board (4). The lighting tube (2), the primary control circuit board (4) and the inductance assembly (3) are sealed in the sleeve (1). Plugs which can be connected with an external power source are provided at the outside of the ends of the sleeve. The primary control circuit and the inductance assembly are connected by a four-line circuit. A reflective layer is arranged at the back of the sleeve. The illuminant intensity and the brightness can be improved without increasing the power of the daylight tube.

Description

 Casing type fluorescent lamp

 The utility model relates to a sleeve type fluorescent lamp, in particular to a sleeve type fluorescent lamp which does not require a starter and an electronic ballast. Background technique

 Chinese Patent No. ZL 200320101358. 0 discloses a sleeve type fluorescent lamp device comprising a sleeve, an arc tube and an inductor assembly, characterized in that it further comprises a main control circuit board, the illumination tube, and a main control circuit board. The inductor component is sealed in the sleeve, the main control circuit board is composed of a rectifier circuit composed of a diode, a resistor and a capacitor, a trigger circuit and a filter circuit, and the main control circuit and the inductor component are connected by a double circuit line, the outer side of the tube There is a plug that can be connected to an external power supply. The device does not need to heat the filament, and directly uses the high frequency to make the lamp emit light, which greatly improves the service life and energy saving of the fluorescent tube. It is sometimes not bright enough in subways, tunnels, underground parking lots, department stores, etc. where high illumination intensity is required. At the same time, it can be seen from the circuit diagram analysis of the above patent publication that the power factor and harmonic content of the above circuit do not comply with the national standard of GB/T15144-2005, and do not pass the requirements of EMC. Utility model content

 The technical problem to be solved by the utility model is to provide a casing type fluorescent lamp which meets the national standard of GB/T15144-2005 and the requirements of EMC by providing the power factor and harmonic content of the circuit. Another technical problem to be solved by the present invention is a casing type fluorescent lamp which can increase the intensity of illumination and increase the brightness without increasing the power of the fluorescent tube.

 The purpose of the utility model is achieved by the following technical solutions: a casing type fluorescent lamp, including a casing, an arc tube and an inductor component, a main control circuit board, the arc tube, a main control circuit board, and an inductor component sealed in In the sleeve, a plug externally connected to the external power source is disposed outside the end of the sleeve, wherein the main control circuit and the inductor assembly are connected by a four-wire loop. The plug is a plug that can be inserted into an existing fluorescent lamp socket.

 The light-emitting tube is a three-primary color light-emitting tube.

 The sleeve is made of a transparent material.

 A specularly reflective layer is placed on the illuminated back sleeve.

The specularly reflective layer is disposed on the inner wall of the sleeve. The specularly reflective layer is disposed on the outer wall of the sleeve.

 The specularly reflective layer can also be formed into a circular arc-shaped strip that is inserted into the sleeve by insertion.

 The specularly reflective layer covers half of the circular arc of the casing.

 Since the utility model adopts the above structure, the light that does not need the illumination surface is again irradiated to the illumination surface through the reflection of the specular reflection layer, and the illumination intensity is greatly increased, the brightness is increased, and the brightness is increased without increasing the power of the fluorescent tube. The four-wire loop makes the power factor and harmonic content of the circuit meet the national standard of GB/T15144-2005 and can meet the requirements of EMC. Compared with the prior art, the utility model can improve the illumination intensity without increasing the power of the fluorescent tube. , the advantage of increasing brightness. DRAWINGS

 Figure 1 is a front view of the utility model;

 Figure 2 is an exploded view of Figure 1;

 Figure 3 is a cross-sectional view taken along line A-A of Figure 1; Figure 4 is a radial cross-sectional view of another embodiment;

 Figure 5 is an axial cross-sectional view of still another embodiment;

 Figure 6 is a circuit diagram of the present invention. Specific implementation case

 The utility model further clarifies the utility model with reference to the accompanying drawings: a casing type fluorescent lamp in Fig. 1, Fig. 2, Fig. 3, comprising a sleeve 1, an arc tube 2 and an inductor assembly 3, a main control circuit board 4, the arc tube 2, the main control circuit board 4, the inductor assembly 3 is sealed in the sleeve 1, the outer side of the end of the sleeve 1 has a plug 5 connectable to an external power source, characterized in that the main control circuit and the inductor assembly 3 pass four Line loop connection. A specular reflection layer 6 is disposed on the reverse side sleeve 1 to be irradiated, and the specular reflection layer is disposed on the inner wall of the sleeve.

The specularly reflective layer of Figure 4 is disposed on the outer wall of the sleeve. The specularly reflective layer of Figure 5 can also be formed into a circular arc-shaped strip that is inserted into the sleeve by insertion. As shown in Figure 6, Rl, Ll, Cl, L2, and C2 form an EMI high-frequency filter circuit, and D10, Dl l, C9, C10, D5, D6, D7, C3, and C4 form a composite pump circuit, which makes the power factor of the circuit The harmonic content meets the national standard of GB/TI5144-2005 and can meet the requirements of EMC. The filament current shunt capacitor such as C7 can control the filament current more effectively, so that more energy is converted into the tube flow, and the light efficiency is increased. Lamp life plays a positive role. 1 , 2 , 3 , 4 , 5 , and 6 are preferred modes of the present invention, but those skilled in the art can still make the present invention without departing from the present invention. protected range.

Claims

The invention relates to a sleeve type fluorescent lamp, comprising a sleeve, an illumination tube and an inductor assembly, a main control circuit board, the illumination tube, a main control circuit board, and an inductance component sealed in the sleeve, the outer side of the sleeve end There is a plug connectable to an external power source, characterized in that the main control line and the inductive component are connected by a four-wire loop. A tube type fluorescent lamp according to claim 1, wherein said plug is a plug that can be inserted into an existing fluorescent lamp socket. A casing type fluorescent lamp according to claim 1, wherein said arc tube is a three primary color light emitting tube. A casing type fluorescent lamp according to claim 1, wherein said sleeve is made of a transparent material. A cannulated fluorescent lamp according to claim 1, 2, 3 or 4, characterized in that the specular reflective layer is disposed on the inner wall of the sleeve. A tube type fluorescent lamp according to claim 5, wherein said specularly reflective layer is disposed on the outer wall of the sleeve. A tube type fluorescent lamp according to claim 5, wherein said specularly reflective layer is also formed into a circular arc-shaped strip which is inserted into the sleeve by means of insertion. A tube type fluorescent lamp according to claim 5, wherein said specular reflection layer covers a half of the circular arc of the sleeve.