KR20060035561A - Structure of transformer for plasma discharge lamp and its manufacturing method - Google Patents

Abstract

According to the present invention, the electrical '0' point is positioned at the center of the lamp so that the discharge voltage of the external lamp is half (1/2) of the supply voltage, and a hard epoxy having a liquid state having almost no viscosity is injected before curing. In order to improve the durability against high voltage even in the same size as the existing transformer, there is a feature to provide a structure and a manufacturing method for the transformer for a plasma discharge lamp.

In addition, the present invention allows the brightness of the fluorescent lamp to be constantly controlled even in the high discharge voltage state of the cold cathode fluorescent lamp, to maintain the stable brightness of the backlight while maintaining high power and high efficiency, and to enable high voltage output processing even in a small size. It is to provide a structure and a manufacturing method for the transformer for a plasma discharge lamp.

To this end, the present invention is grounded between the coil and the coil of the secondary side so that the electrical '0' point is located in the center of the lamp, the current between the coil and ground of the secondary side and between the coil and ground of the secondary side A resistor is connected to each other for stabilization, and a capacitor is connected between the other side of the secondary coil and one side of the lamp, and the other side of the secondary side coil and the other side of the lamp, respectively, and the secondary side coil and one side of the coil in the forward direction. The diodes are connected to each other to detect the current flowing in the reverse direction. In addition, in the structure of the transformer for easily winding the coupling of the plurality of lead terminals and the coil connected to the lead terminal, the transformer has a body of the fastening of the lead terminal and the coil is wound, and the coil wound on the main body stably It is made of a case for covering, the case is provided with insertion grooves to ensure the durability against high voltage by injection of hard epoxy, and both sides of the insertion grooves provided in the case inside the protruding end of the body It is made of a locking groove that is inserted is provided for a stable fastening. And the manufacturing process for the transformer is the process of injection molding the main body at the same time to integrate with the lead terminal, the process of injection molding the case for covering the main body, and connecting to the lead terminal integrally formed in the main body And a process of winding the coil for the coil and the process of integrating the case molded on the coil wound on the main body, and hard epoxy for securing durability against high voltage in a state where the case is covered on the main body. This is done by carrying out the injection step.

Plasma, Discharge, Lamp, Trans, Hard Epoxy, High Voltage, Current Detection

Description

STRUCTURE OF TRANS FOR PLASMA DISCHARGE TYPE LAMP AND MANUFACTURE METHOD THEREOF}

1 is a block diagram of an implementation circuit according to the present invention;

Figure 2 is a structural example showing a state before being combined to explain the trans structure implemented by the present invention,

3 is an exemplary view showing a combined state of a trans structure implemented by the present invention;

4 is a flow chart for explaining a manufacturing process of a transformer according to the present invention.

<Description of the code | symbol about the principal part of drawing>

10: main body 11: lead terminal

20: case 21: insertion groove

22: locking groove L, L1, L2: coil

LAMP: Lamp D1, D2: Diode

I1, I2: current T: transformer

The present invention relates to a structure of a plasma discharge lamp and a manufacturing method thereof.

More specifically, the electrical '0' point is located at the center of the lamp, so that the discharge voltage of the external lamp is half (1/2) of the supply voltage, and the liquid hard epoxy is hardly viscous before hardening. In order to improve the durability against high voltage at the same size as the existing transformer, the brightness of the fluorescent lamp is constantly controlled even under the high discharge voltage of the cold cathode fluorescent lamp, and the backlight is maintained while maintaining high power and high efficiency. The present invention relates to a structure of a transformer for a plasma discharge lamp and a method of manufacturing the same to maintain a stable luminance of the lamp.

In general, the driving circuit of the CCFL (Cold Cathode Fluorescent Lamp) backlight used in the LCD uses an inverter unit for converting DC to AC and a DC / DC converter for controlling the brightness of the CCFL, that is, two power converters. To drive the CCFL and adjust the brightness.

However, the conventional driving circuit of the CCFL backlight as described above is possible for the backlight such as CCFL, but in the case of the flat backlight using the plasma discharge method, when driving with the conventional CCFL discharge driving circuit, the discharge becomes unstable during dimming. There is a possibility. That is, in the plasma type discharge tube, the driving under the discharge voltage is very unstable, so there may be a problem when using the existing method. In addition, the conversion loss of the circuit itself increases as a result of the two power converters of the DC / DC converter and the DC / AC inverter. Accordingly, the conventional driving circuit method is not suitable when a high efficiency is required because it has a structure inevitably having a loss because it passes through two power converters. In particular, when driving a plasma discharge type flat backlight, it is difficult to obtain stable discharge characteristics and to adjust luminance. The voltage at which the backlight discharges completely is called the firing voltage. Especially in the case of the flat type backlight, high voltage and high power are required, and if it is not satisfied, snaking and flicker may occur. There is a problem that can appear relatively more than the CCFL.

In addition, a liquid crystal display device, for example, is a liquid crystal material between two quartz glass panels attached to each other by 90 degree angles, and a voltage is applied at both ends. The light-blocking part arranged in the direction and no voltage applied thereto is a display device having a property of transmitting light through liquid crystal molecules arranged at a 90-degree angle. When the display device of the liquid crystal display is divided into portions that apply voltage, such as a rectangular checkerboard, the portions where voltage is applied are clearly separated from light and shade, so that information such as letters and pictures can be clearly displayed.

However, since the display device of the liquid crystal display cannot receive light by itself, there is a problem in that letters and pictures are difficult to identify in a dark place having low illuminance. A cold cathode fluorescent lamp (CCFL) should be installed on the back of the liquid crystal display so that it can be clearly recognized. In particular, in order to light a flat fluorescent lamp that is tens of times the length of a general linear cathode ray tube fluorescent lamp, a high voltage power supply of 3000 volts or more using a lighting or starting circuit including a commercial AC power supply or a ballast capacitor for limiting current should be used. do.

Accordingly, when the plate-type cathode ray tube fluorescent lamp to which high voltage is applied is fixedly installed near the external metal case of the liquid crystal display device, the high-voltage driving voltage applied to the fluorescent lamp is charged due to the metal case, and thus the brightness (illuminance) decreases. In addition to reducing the contrast of the display device of the liquid crystal display device, there is a problem in that an electric shock is generated by the voltage charged on the metal case, and the metal case is prevented to prevent an electric shock by the voltage charged on the metal case. There is a method of grounding, but when the metal case is grounded, there is a problem that the contrast is further reduced significantly.

In addition, surface-emitting fluorescent lamps have been developed and proposed because conventional cathode-ray fluorescent lamps and driving devices are not suitable for LCDs that are becoming smaller. However, the surface-emitting fluorescent lamps have a total length due to their shape characteristics than conventional fluorescent lamps. Because of the increase in length, a very high discharge voltage is required at the time of initial lighting. Accordingly, the volume of the driving device is increased to drive the surface emitting fluorescent lamp, and thus there is a problem in that the size and thickness are reversed.

Therefore, the driving device of the discharge type lamp or the fluorescent lamp, which is conventionally performed due to the above problems, is not only limited in its efficiency as a whole, but also includes problems in which productivity and economy are lowered.

The present invention was created to solve various problems of the prior art as described above, and has the following object.

According to the present invention, the electrical '0' point is positioned at the center of the lamp so that the discharge voltage of the external lamp is half (1/2) of the supply voltage, and a hard epoxy having a liquid state having almost no viscosity is injected before curing. The purpose of the present invention is to provide a structure of a plasma discharge lamp transformer and a method of manufacturing the same for improving the durability against high voltage even in the same size as a conventional transformer.

Another object of the present invention is to constantly control the brightness of the fluorescent lamp even in the high discharge voltage state of the cold cathode fluorescent lamp, to maintain a stable brightness of the backlight while maintaining a high power, high efficiency, it is possible to handle the output of a high voltage even in a small It is to provide a structure and a manufacturing method for the transformer for a plasma discharge lamp.

Hereinafter, the present invention for achieving the above object will be described.

In describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted, and the following terms will consider functions in the present invention. The terminology set forth herein may vary depending on the intention or convention of users, workers, and producers, and the definition should be made based on the contents throughout the specification.

That is, the present invention is grounded between the coil and the coil of the secondary side so that the electrical '0' point is located in the center of the lamp, the stabilization of the current between the coil and the ground of the secondary side and between the coil and ground of the secondary side Resistor is connected for each, and the capacitor is connected between the other side of the secondary coil and one side of the lamp and between the other side of the secondary coil and the other side of the lamp, respectively, and flows in the forward direction to the secondary side of the coil and the coil Each diode is connected to detect current flowing in the reverse direction of the current.

In addition, in the structure of the transformer for easily winding the coupling of the plurality of lead terminals and the coil connected to the lead terminal, the transformer is the main body of the coupling of the lead terminal and the coil is wound, and the coil wound on the main body stable It is made of a case for covering the cover, the case is provided with insertion grooves to ensure the durability against high voltage by injection of the hard epoxy, the protruding end of the main body in both sides of the insertion groove provided in the case Each insertion groove is provided with a corresponding locking groove for stable fastening.

In addition, the manufacturing process for the transformer includes the steps of simultaneously injection molding the main body to integrate with the lead terminal, the step of injection molding the case for covering the main body, connected to the lead terminal integrally formed in the main body And a step of winding a coil to make a coil, and a process of integrating a case molded on the coil wound to the main body, and hard epoxy for securing durability against high voltage in a state where the case is covered on the main body. It is made by performing a step of injecting a.

EXAMPLE

With reference to the accompanying drawings, a preferred embodiment for achieving the present invention will be described in detail.

The present invention is shown in the accompanying drawings, Figures 1 to 4, Figure 1 is an implementation circuit diagram according to the present invention, Figure 2 shows a state before being combined to explain the transformer structure implemented by the present invention. 3 is an exemplary view showing a combined state of a transformer structure according to the present invention, and FIG. 4 is a flowchart illustrating a manufacturing process of a transformer according to the present invention.

First, the present invention is grounded between the coil (L1) and the coil (L2) of the secondary side so that the electrical '0' point is located in the center of the lamp, between the secondary coil (L1) and the ground and of the secondary side The resistors R1 and R2 are respectively connected between the coil L2 and the ground to stabilize the current, and between the other side of the coil L1 of the secondary side and one side of the lamp LAMP and the coil L2 of the secondary side. The capacitors C1 and C2 are connected between the other side and the other side of the lamp LAMP.

In addition, diodes D1 and D2 are connected to one side of the coil L1 and the coil L2 of the secondary side to detect current I1 flowing in the forward direction and current I2 flowing in the reverse direction.

In particular, the structure of the transformer capable of constituting the circuit includes a main body 10 in which the coupling of the lead terminal 11 and the coil L are wound in the transformer T, and a coil wound in the main body 10. It consists of a case 20 to cover (L) stably, the case 20 is provided with an insertion groove 21 to ensure the durability against high voltage by injection of hard epoxy, the case Inside the both sides of the insertion groove 21 provided in the 20, the projection end 12 of the main body 10 is inserted into each other is made of a locking groove 22 corresponding to the stable fastening.

In addition, the method for manufacturing the transformer (T) is a process of injection molding the main body 10 at the same time to integrate with the lead terminal 11, and the case 20 for covering the main body 10 is injected Forming process, winding the coil (L) for connecting to the lead terminal (11) formed integrally with the main body (10), and injection molding on the main body (10) wound with the coil (L) The case 20 is formed by covering and integrating the case 20, and the main body 10 is subjected to a process of injecting hard epoxy for securing durability against a high voltage while the case 20 is covered.

On the other hand, in the structure of the transformer for a plasma discharge lamp and the method for manufacturing the same according to the present invention can be variously modified and can take various forms. It is to be understood, however, that the present invention is not limited to the specific forms referred to in the above description, but rather includes all modifications, equivalents and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood that.

That is, the present invention is to solve the problem that occurs in the high-voltage generator due to the large size of the backlight (LCD) backlight or discharge tube-type lighting lamp.

To this end, looking at the circuit configuration of the transformer, the ground between the coil (L1) and the coil (L2) of the secondary side, the electrical '0' point is located in the center of the lamp.

At this time, the resistors R1 and R2 are respectively connected between the coil L1 of the secondary side and the ground and between the coil L2 of the secondary side and the ground to stabilize the current, and the coil of the secondary side ( L1) The capacitors C1 and C2 are respectively connected between the other side and one side of the lamp LAMP and between the other side of the coil L2 on the secondary side and the other side of the lamp LAMP.

A diode D1 is connected to one side of the secondary coil L1 to detect current I2 flowing in a reverse direction, and a diode D2 is connected to one side of the secondary coil L2. The current I1 flowing in the forward direction can be easily detected.

As described above, since the virtual '0' point is generated at the center of the lamp LAMP, the external lamp discharge voltage is half of the supply voltage.

In addition, when looking at the structure of the transformer according to the present invention, the transformer is usually formed by connecting a plurality of lead terminals and the wound coils, and in this state, but the insulation method to apply the enamel, but durable against high voltage of 3kv or more There was a problem that was not secured.

To this end, the transformer (T) of the present invention is divided into the main body 10 and the case 20, the main body 10 is the fastening of the lead terminal 11 and the coil (L) is wound, the case 20 ) Is to cover the coil (L) wound stably to the body (10).

The case 20 is made by the insertion groove 21 to cover the coil (L) wound stably, which is to ensure the durability against high voltage by injection of hard epoxy, and also Each side of the insertion groove 21 provided in the case 20 is provided with a locking groove 22, respectively, which is provided with a projection end 22 is provided at a corresponding position for stable fastening with the main body 10 It is made to be inserted into each of the engaging groove (22).

In addition, the manufacturing method for achieving the structure of the transformer as described above is to injection molding the main body 10 at the same time in order to integrate with the lead terminal 11, and separately injected the case 20 to cover the main body 10 I will be holy.

The coil L is wound in order to connect to the lead terminal 11 integrally formed in the injection molded body 10, and then the injection molded case 20 is covered on the body 10 wound by the coil. In this case, the insertion grooves 21 and the locking grooves 22 are inserted and fitted, respectively, so that stable fastening is possible.

Hard epoxy is injected in order to ensure durability against high voltage in a state in which the case 20 is covered with the main body 10.

The hard epoxy is a thin liquid state such as milk before hardening, but hardened like a lump of stone when it is hardened, which is hardly viscous before hardening, so a separate case is required to impregnate the trans.

Accordingly, even if the supply voltage of about 8kv from the outside is applied to the inside of the transformer according to the present invention is output to the discharge voltage of about 4kv, which is because the virtual '0' point is generated in the center of the lamp (LAMP) The lamp discharge voltage of the phase can be half (1/2) of the supply voltage, thereby enabling the output processing of a high voltage even in a small size.

As described above, the present invention has the effect that the electrical '0' point is located at the center of the lamp so that the discharge voltage of the external lamp becomes half (1/2) of the supply voltage, and has little viscosity before curing. By injecting hard epoxy in the liquid state, durability against high voltage can be improved at the same size as the existing transformer, and the brightness of the fluorescent lamp is constantly controlled even at the high discharge voltage of the cold cathode fluorescent lamp, and high power and high efficiency are achieved. The stable brightness of the backlight is maintained, and the effect of enabling high-voltage output processing even at a small size improves the efficiency of the transformer for the plasma discharge lamp, thereby achieving various effects such as maximizing the overall productivity and economy. Can be.

Claims (7)

The electrical '0' point is grounded between the coil and the coil on the secondary side so that it is located in the center of the lamp, and the resistance between the coil and the ground on the secondary side and between the coil and ground on the secondary side, respectively, to stabilize the current. And a capacitor is connected between the other coil of the secondary side and one side of the lamp and between the other coil of the secondary side and the other side of the lamp, respectively. The method of claim 1, The secondary coil and the one side of the coil structure of the plasma discharge lamp transformer, characterized in that the diode is connected to each other to detect the current flowing in the forward direction and the current flowing in the reverse direction. In the structure of the transformer for easily winding a plurality of lead terminals and the coil connected to the lead terminal; The transformer has a bone fastening of the lead terminal and the coil is wound; And A case for stably covering the coil wound on the main body; Structure of a transformer for plasma discharge lamp, characterized in that consisting of. The method of claim 3, The case has a structure of a plasma discharge lamp transformer, characterized in that the insertion groove is provided to ensure the durability against high voltage by injection of hard epoxy. The method according to claim 3 or 4, Both sides of the insertion groove provided in the case is a structure of the plasma discharge lamp transformer, characterized in that the projection end of the main body is inserted into each other is provided with a corresponding locking groove for stable fastening. Simultaneously injection molding the main body to integrate the lead terminal; Injection molding a case for covering the main body; Winding a coil for connecting to a lead terminal formed integrally with the main body; And Integrally covering the injection molded case on a body wound with a coil; The manufacturing method for the structure of the transformer for plasma discharge lamps characterized by performing by the. The method of claim 6, The manufacturing method for the structure of the plasma discharge lamp transformer, characterized in that for performing a further step of injecting a hard epoxy for ensuring durability against high voltage in the case of the main body is covered.

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