KR101188213B1 - Fluorescent lamp integrated with socket and installation structure thereof - Google Patents

Abstract

PURPOSE: A fluorescent lamp equipped with a socket and an installation structure thereof are provided to prevent the external exposure of a lead wire by combining the socket to an end portion of a glass tube. CONSTITUTION: A glass tube comprises an internal electrode. A lead wire(13) is connected to the internal electrode. The lead wire is drawn for the outside of the glass tube. Housings(111,112) comprise an inserting hole in which an end portion of glass tube is inserted. A printed circuit board(120) is installed in a lateral direction of the glass tube within the housings. A socket terminal is mounted on the printed circuit board and is exposed to outside through a plug insertion hole. A first terminal is connected to an external electrode connecting terminal and a second terminal is electrically connected to the socket terminal.

Description

Fluorescent lamp integrated with socket and installation structure

The present invention relates to a fluorescent lamp, and more particularly, to a cold cathode fluorescent lamp and a mounting structure thereof are integrally coupled to the socket for connecting the power to both ends.

Today, fluorescent lamps, in particular, cold cathode fluorescent lamps (CCFLs) are widely used in backlights such as light sources such as lighting devices and billboards and liquid crystal displays.

As shown in FIG. 1, the cold cathode fluorescent lamp 10 includes a glass tube 11 having a predetermined length, an electrode 12 inserted into each of both ends of the glass tube 11, and an external electrode 12. It includes a lead wire 13 drawn out of the glass tube 11 for connection to a power source. Seals 14 are formed at both ends of the glass tube 11, and a mixed discharge gas such as argon (Ar) and neon (Ne) and mercury (Hg) are filled in the glass tube 11, and the glass tube 11 is filled with the sealing portion 14. Phosphor is coated on the inner wall of the.

Therefore, when a voltage is applied between both electrodes 12, the electrons emitted from the electrode 12 by the electric field excite the mercury atoms, and the ultraviolet rays are emitted while the mercury atoms in the excited state are reduced to the ground state, and the phosphors It is excited to generate visible light.

These cold cathode fluorescent lamps are mainly installed in the advertising panel or the liquid crystal display (LCD) of several to several dozen, and is usually used by connecting a plurality of lamps in parallel to the inverter.

FIG. 2 schematically illustrates a state in which a plurality of fluorescent lamps 10 are installed in an advertisement signboard, and the like, and a plurality of sockets 50 are coupled to a power line 32 connected to an inverter 30, and each socket 50 is illustrated in FIG. Each end of the fluorescent lamp 10 is inserted. In this case, the plurality of fluorescent lamps 10 are connected to each other in parallel with respect to the inverter 30.

However, the conventional cold cathode fluorescent lamp 10 has some problems as follows.

First, since the lead wire 13 is exposed to the outside, when the lead wire 13 is stored for a long time, an oxide film is formed on the lead wire 13, thereby deteriorating conductivity.

Second, in order to connect the fluorescent lamp 10 to the socket 50, the lead wire 13 should be inserted into the cylindrical socket electrode 52 while the lead wire 13 is folded back as shown in FIG. ), There is a risk of damage during the detachment process.

Third, a capacitor is installed in the socket 50, one end of which is connected to the rear end of the socket electrode 50 and the other end of which is connected to the power line 32. The length of the socket 52 is increased due to the space occupied by the capacitor. There is a problem of decreasing the space utilization.

Fourth, in order to install the fluorescent lamp 10, after fixing the fluorescent lamp 10 with a bracket or the like in general, the socket 50 is connected to both ends, the end of the fluorescent lamp 10 of the cylindrical socket electrode 52 It is inconvenient to insert correctly into the interior of the work takes a lot of time.

The present invention is to solve this problem, the purpose of the lead wire is not exposed to the outside in the fluorescent lamp. In addition, the purpose of the lead wire is not damaged in the process of connecting or disconnecting the fluorescent lamp to the power source. It also aims to reduce the installation space of fluorescent lamps. In addition, the present invention has an object to increase the ease of use by allowing easy installation of the fluorescent lamp.

The present invention to achieve the above object, a glass tube having an internal electrode; A lead wire having one end connected to the inner electrode and the other end drawn out of the glass tube; A housing having an insertion hole into which one end of the glass tube is inserted, and a plug insertion hole formed at the other end thereof; A printed circuit board installed in the lateral direction of the glass tube in the housing; A socket terminal mounted on the printed circuit board and exposed to the outside through the plug insertion hole; Provided is a socket integrated fluorescent lamp mounted on the printed circuit board, the first terminal is electrically connected to the lead wire and the second terminal comprises a capacitor electrically connected to the socket terminal.

In another aspect, the present invention, the glass tube having an internal electrode; An external electrode surrounding an end of the glass tube; A lead wire having one end connected to the electrode and the other end connected to the external electrode at an outside of the glass tube; A housing having an insertion hole into which one end of the glass tube is inserted, and a plug insertion hole formed at the other end thereof; An external electrode connection terminal provided in the insertion hole; A printed circuit board installed in the lateral direction of the glass tube in the housing; A socket terminal mounted on the printed circuit board and exposed to the outside through the plug insertion hole; Provided is a socket-type fluorescent lamp mounted on the printed circuit board, the first terminal is connected to the external electrode connecting terminal via a power supply line, and the second terminal comprises a capacitor electrically connected to the socket terminal.

In the socket-integrated fluorescent lamp according to the present invention, the housing includes a first housing into which the end of the glass tube is inserted and a second housing into which all or a part of the first housing is inserted, and the printed circuit board includes the first housing. And a space formed between the second housing and the second housing.

In addition, the space between the end of the first housing and the glass tube may be characterized in that the molding portion formed of an insulating material.

In another aspect, the present invention, a glass tube having an inner electrode, an outer electrode surrounding the end of the glass tube, and one end is connected to the inner electrode and the other end is connected to the outer electrode from the outside of the glass tube An array type socket for mounting a fluorescent lamp, comprising: a fixed frame; A printed circuit board mounted on an upper surface of the fixed frame and having a main wiring connected to an inverter power source and a plurality of branch wirings branched from the main wiring; A plurality of socket housings mounted on an upper surface of the printed circuit board, having upper and side openings, and having socket electrodes electrically connected to the respective branch wirings; It provides an array-type socket including a capacitor installed in each branch wiring.

The socket-integrated fluorescent lamp according to the present invention is coupled to the end of the glass tube integrally coupled to the lead wire can be exposed to the outside to prevent damage or deterioration. In addition, there is no need to connect the lead wires directly to the power supply, which reduces the risk of damage to the lead wires during installation. In addition, the capacitor is installed on the side of the glass tube has the advantage of reducing the installation space.

The use of array sockets also provides the advantage of quick and convenient mounting or dismounting of fluorescent lamps.

1 is a cross-sectional view showing a conventional fluorescent lamp
2 is a view showing a plurality of fluorescent lamps connected in parallel to the inverter
3 is a view showing a conventional fluorescent lamp mounted on a socket
4 to 6 are partial perspective, side and partial cross-sectional views of the socket-integrated fluorescent lamp according to one embodiment of the present invention, respectively.
7 is a view showing a plurality of socket-integrated fluorescent lamps connected in parallel using a plug;
8 is a perspective view showing a plug connected to a socket integrated fluorescent lamp
9 and 10 are views sequentially showing the plug connected to the socket-integrated fluorescent lamp according to an embodiment of the present invention
11 is a partial cross-sectional view of a fluorescent lamp used in another embodiment of the present invention.
12 is a cross-sectional view of a socket-integrated fluorescent lamp according to another embodiment of the present invention.
13 is a perspective view showing an array-type socket according to an embodiment of the present invention.
14 is a view showing a fluorescent lamp mounted on the array type socket according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention.

4 to 6 show partial perspective views, side views, and cross-sectional views of the socket-integrated fluorescent lamp 100 according to an embodiment of the present invention, respectively.

As shown in the figure, the socket-integrated fluorescent lamp 100 according to an embodiment of the present invention is characterized in that the socket 110 is coupled to the end of the glass tube 11. Specifically, the socket 110 includes a first housing 111 and a second housing 112 into which an end of the first housing 112 is inserted.

The first housing 111 has a cylindrical insertion hole into which the end of the glass tube 11 is inserted. It is preferable that the glass tube 11 is firmly fixed to the first housing 111 by using an adhesive on the inner wall of the first housing 111 in contact with the glass tube 11.

In addition, an end portion of the glass tube 11 and the lead wire 13 are formed in the space S1 formed between the rear end of the glass tube 11 and the first housing 111 by using an epoxy resin or the like. It is preferable to fix the inside of the first housing (111). In this way, the lead wire 13 can be prevented from being excessively bent and damaged at the boundary with the glass tube 11.

The second housing 112 has an insertion hole into which part or all of the first housing 111 is inserted, and has a plug insertion hole 114 into which a plug 200 is inserted at a rear end thereof.

The first housing 111 and the second housing 112 are preferably made of an insulating material.

In addition, a space S2 is formed between the second housing 112 and the first housing 112, specifically, under the first housing 112, and a capacitor 130 is installed in the space S2. do. Conventionally, a capacitor is installed at the rear end of the glass tube 11 inside the socket into which the fluorescent lamp 10 is inserted. However, according to the present invention, the capacitor is installed at the side of the glass tube 11 to prevent the installation space from increasing due to the capacitor. can do.

The capacitor 130 is preferably mounted on the printed circuit board 120 fixed to the bottom of the second housing 112. The printed circuit board 120 includes a wiring pattern 121 connecting the lead wire 13 and one terminal of the capacitor 130 and an internal wiring 122 connecting the other terminal of the capacitor 130 and the socket terminal 140. ). Instead of the internal wiring 122, the socket terminal 140 may be connected through a wiring pattern formed on a surface thereof. A protective film for preventing oxidation and contamination may be formed on the upper surface of the wiring pattern 121, and a molding part using an insulating material may be formed in a portion where each terminal of the capacitor 130 is connected to the wiring pattern to prevent arcing. .

The socket terminal 140 is mounted at one end of the printed circuit board 120 in the same direction as the glass tube 11. Although the socket terminal 140 is shown as being directly coupled to the wiring pattern 121 in the drawing, the installation method of the socket terminal 140 is not limited thereto. For example, a terminal module (not shown) provided with a socket terminal 140 in a predetermined case may be mounted on the surface of the printed circuit board 120.

Meanwhile, in the embodiment of the present invention, the housing into which the end of the glass tube 11 is inserted is divided into the first housing 111 and the second housing 112 to more conveniently manufacture the socket-integrated lamp 100. For example, the socket-integrated lamp 100 according to the present invention is a step of inserting the glass tube 11 into the first housing 111, the molding portion in the space (S1) between the glass tube 11 and the first housing 111. Forming the 160, attaching the printed circuit board 120 to the second housing 112, and printing the lead wires 13 drawn out of the molding unit 160 to the outside of the second housing 112. The process of connecting the wiring pattern of the circuit board 120 with solder, the process of inserting and fixing the first housing 111 into the second housing 112, and the like may be performed in this order.

If the molding part 160 is not formed, the integrated housing may be used without having to divide the housing into a plurality of pieces.

In order to connect the socket-integrated fluorescent lamp 100 according to an embodiment of the present invention to a power source, a plug 200 installed in the power line 210 should be used as shown in FIG. 7. As shown in FIG. 8, the plug 200 includes a protrusion 210 at one side, and an insertion hole into which the socket terminal 140 is inserted is formed at the front of the protrusion 210, and the socket terminal 140 is inserted into the insertion hole. ) And a tubular plug terminal 220 electrically connected thereto. The plug terminal 220 is electrically connected to the power line 32 therein.

Accordingly, as shown in FIGS. 9 and 10, when the protrusion 210 of the plug 200 is inserted into the plug insertion hole 114, the socket terminal 140 enters the inside of the plug terminal 220 and the power line ( 32 is electrically connected to the power supply line 32. The power supply line 32 is electrically connected to an electrode positioned inside the glass tube 11 via the capacitor 130 and the lead wire 13.

In the above, the case in which the socket terminal 140 is inserted into the plug terminal 220 has been described. On the contrary, the socket terminal 140 is formed in a tubular shape and the plug terminal 220 is formed in a rod shape. 220 may be manufactured to be inserted into the socket terminal 140. That is, the socket terminal 140 may be a male terminal corresponding to the plug terminal 220 or may be a female terminal.

Hereinafter will be described a socket-integrated fluorescent lamp according to another embodiment of the present invention.

FIG. 11 illustrates a fluorescent lamp 10 'used in the socket-integrated fluorescent lamp 100' according to another embodiment of the present invention, wherein a cylindrical external electrode 18 surrounding an end portion at one end of the glass tube 11 is shown. ) Is characterized in that it is installed. The external electrode 18 is preferably made of phosphor bronze, but is not necessarily limited thereto.

The manufacturing method of the fluorescent lamp 10 'is as follows. First, the glass tube 11 is inserted into the cylindrical external electrode 18 having a hole formed on the opposite side of the inlet, and the lead wire 13 is drawn out through the hole, and then the lead wire 13 and the external electrode (by soldering or welding) are formed. 18). Reference numeral 16 denotes a solder portion. Subsequently, the exposed lead wire 13 is cut to produce a fluorescent lamp 10 'having an external electrode.

In order to manufacture the socket-integrated fluorescent lamp 100 'using the fluorescent lamp 10', first, the fluorescent lamp 10 'inside the first housing 111 in which the external electrode connection terminal 170 is installed on the inner wall. The external electrode 18 is inserted. The first housing 111 has an insertion hole into which the external electrode 18 of the fluorescent lamp 10 'is inserted, and a power connection line 172 is connected to the external electrode connection terminal 170.

After the external electrode 18 of the fluorescent lamp 100 'is inserted into the first housing 111, an adhesive may be applied to the boundary portion so that the fluorescent lamp 100' does not fall out. Although not shown, in order to prevent the external electrode 18 from being exposed to the outside, a molding part may be formed using an epoxy resin or the like in a space formed between the rear end of the external electrode 18 and the first housing 111. .

The second housing 112 has an insertion hole into which part or all of the first housing 111 is inserted, and has a plug insertion hole 114 into which a plug 200 is inserted at a rear end thereof. The first housing 111 and the second housing 112 are preferably made of an insulating material.

In addition, as in the above-described embodiment, the capacitor 130 is installed in a space formed between the first housing 112 and the second housing 112, specifically, a space S2 formed under the first housing 112. do.

The capacitor 130 is mounted on the printed circuit board 120 fixed to the bottom of the second housing 112. For this purpose, the printed circuit board 120 connects the power connection line 172 and one terminal of the capacitor 130. The wiring pattern 121 and the internal wiring 122 connecting the other terminal and the socket terminal 140 of the capacitor 130 are the same as described above.

On the other hand, the fluorescent lamp 10 ′ having the external electrode 18 shown in FIG. 11 may be manufactured in one-piece socket as described above, but it is more convenient to use the array-type socket 300 as shown in FIGS. 13 and 14. Can be installed.

The array-type socket 300 may include a fixed frame 310 installed in a case such as a billboard, a printed circuit board mounted on an upper surface of the fixed frame 310, and having a predetermined wiring pattern and a plurality of socket housings 360. 320).

The socket housing 360 has an upper side and an open side, and includes a socket electrode 370 therein, and the socket electrode 370 is electrically connected to a wiring pattern of the printed circuit board 320. The wiring pattern includes a main wiring 340 and a plurality of branch wirings 340 branched from the main wiring 340, and each branch wiring 340 is connected to one socket electrode 370.

Therefore, when the fluorescent lamp 10 ′ having the external electrode 18 is press-fitted on the upper portion of the socket housing 360, the external electrode 18 of the fluorescent lamp 10 ′ is energized with the socket electrode 370. Power (not shown) is supplied to the fluorescent lamp 10 'via the wiring patterns 340 and 342 of the printed circuit board 320 and the socket electrode 370.

It is preferable that the capacitor 130 is installed in each branch wiring 340. In this case, the capacitor 130 may be installed on the upper surface of the printed circuit board 320, but in order to prevent contamination, the capacitor 130 may be installed on the lower surface of the printed circuit board 320 (opposite to the surface on which the socket housing is mounted). To this end, a space is formed between the fixing frame 310 and the rear surface of the printed circuit board 320 by opening the upper surface of the fixing frame 310, and the capacitor 130 is positioned in the space. In the vicinity of the capacitor 130, a molding part may be formed of an insulating material to prevent arc and contamination.

In addition, after the external electrode 18 of the fluorescent lamp 10 'is pressed into the socket housing 360, the cover 380 is mounted on the opened upper surface of the socket housing 360 as shown in FIG. It would be desirable to prevent contamination of 18).

In the related art, as shown in FIG. 2, the socket 50 is not fixed so that the user can move the glass tube 11 of the fluorescent lamp 10 into a separate bracket even after the end of the fluorescent lamp 10 is inserted into the socket 50. I had to fix it.

However, according to the present invention, since the socket housing 360 is fixed to the surface of the printed circuit board 320, there is no need to fix the glass tube 11 additionally, and it can be easily installed by pressing the end of the fluorescent lamp 10 '. This can greatly improve the ease of use.

In the above description of the preferred embodiments of the present invention, the present invention is not limited to the above-described embodiments, but may be modified or modified in various forms, and the modified or modified embodiments may also be described in the technical scope of the present invention. If included in the scope of the invention it will be natural.

10, 10 ': fluorescent lamp 13: lead wire
16: solder 18: external electrode
32: power supply line 100: socket integrated fluorescent lamp
110: socket 111: first housing
112: second housing 114: plug insertion hole
120: printed circuit board 121: wiring pattern
122: internal wiring 130: capacitor
140: socket terminal 160: molding part
170: external electrode connection terminal 172: power connection line
200: plug 210: protrusion
220: plug terminal 300: array type socket
310: fixed frame 320: printed circuit board
340: main wiring 342: branch wiring
360: socket housing 370: socket electrode
380: cover

Claims (7)

A glass tube having internal electrodes;
A lead wire having one end connected to the inner electrode and the other end drawn out of the glass tube;
A housing having an insertion hole into which one end of the glass tube is inserted, and a plug insertion hole formed at the other end thereof;
A printed circuit board installed in the lateral direction of the glass tube in the housing;
A socket terminal mounted on the printed circuit board and exposed to the outside through the plug insertion hole;
A capacitor mounted on the printed circuit board, a first terminal electrically connected to the lead wire, and a second terminal electrically connected to the socket terminal;
Socket integrated fluorescent lamp comprising a A glass tube having internal electrodes;
An external electrode surrounding an end of the glass tube;
A lead wire having one end connected to the inner electrode and the other end connected to the outer electrode outside the glass tube;
A housing having an insertion hole into which one end of the glass tube is inserted, and a plug insertion hole formed at the other end thereof;
An external electrode connection terminal provided in the insertion hole;
A printed circuit board installed in the lateral direction of the glass tube in the housing;
A socket terminal mounted on the printed circuit board and exposed to the outside through the plug insertion hole;
A capacitor mounted to the printed circuit board, the first terminal of which is connected to the external electrode connecting terminal via a power connection line and the second terminal of the capacitor is electrically connected to the socket terminal;
Socket integrated fluorescent lamp comprising a The method according to claim 1 or 2,
The housing includes a first housing into which an end of the glass tube is inserted and a second housing into which all or a part of the first housing is inserted.
The printed circuit board is a socket integrated fluorescent lamp, characterized in that installed in the space formed between the first housing and the second housing. The method of claim 3,
A socket integrated fluorescent lamp, characterized in that a molding portion made of an insulating material is formed in the space between the first housing and the end of the glass tube. A glass tube having internal electrodes;
A lead wire having one end connected to the inner electrode and the other end drawn out of the glass tube;
A housing having an insertion hole into which one end of the glass tube is inserted, and a plug insertion hole formed at the other end thereof;
A printed circuit board installed in the lateral direction of the glass tube in the housing;
A socket terminal mounted on the printed circuit board and exposed to the outside through the plug insertion hole;
A capacitor mounted on the printed circuit board, a first terminal electrically connected to the lead wire, and a second terminal electrically connected to the socket terminal;
A power line connected to the inverter;
A plug having a plug terminal connected to the power line and coupled to the socket terminal;
Installation structure of the socket-integrated fluorescent lamp comprising a A glass tube having internal electrodes;
An external electrode surrounding an end of the glass tube;
A lead wire having one end connected to the inner electrode and the other end connected to the outer electrode outside the glass tube;
A housing having an insertion hole into which one end of the glass tube is inserted, and a plug insertion hole formed at the other end thereof;
An external electrode connection terminal provided in the insertion hole;
A printed circuit board installed in the lateral direction of the glass tube in the housing;
A socket terminal mounted on the printed circuit board and exposed to the outside through the plug insertion hole;
A capacitor mounted to the printed circuit board, the first terminal of which is connected to the external electrode connecting terminal via a power connection line and the second terminal of the capacitor is electrically connected to the socket terminal;
A power line connected to the inverter;
A plug having a plug terminal connected to the power line and coupled to the socket terminal;
Installation structure of the socket-integrated fluorescent lamp comprising a A fluorescent lamp having a glass tube having an inner electrode, an outer electrode surrounding an end of the glass tube, and a lead wire connected to the inner electrode at one end thereof and connected to the outer electrode at an outside of the glass tube; As an array socket
A fixed frame;
A printed circuit board mounted on an upper surface of the fixed frame and having a main wiring connected to an inverter power source and a plurality of branch wirings branched from the main wiring;
A plurality of socket housings mounted on an upper surface of the printed circuit board, having upper and side openings, and having socket electrodes electrically connected to the respective branch wirings;
A capacitor installed in each branch wiring;
Array type socket including

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