KR100785501B1 - Ultraviolet traviolet lamp system - Google Patents

Abstract

An ultraviolet lamp system is provided to control light balance of an ultraviolet lamp by adjusting errors of an ultraviolet lamp in the amount of light. A first inductor(102) is formed to prevent over-current in a starting state. A second inductor(103) is operated independently or dependently on the first inductor in a normal state. An igniter(104) includes a silicon controlled rectifier and an inductor. The silicon controlled rectifier is selectively connected to the first and second inductors and secures a gate voltage by using AC power generated from the capacitor, in order to generate an inductive voltage by using the silicon controlled rectifier and the gate current of the silicon controlled rectifier. The inductor is formed to limit the current applied to an ultraviolet lamp(105). The ultraviolet lamp is connected to the igniter in order to be turned on/off according to the voltage of the igniter.

Description

Ultraviolet lamp system {Ultraviolet Traviolet Lamp System}

1 is a view showing the entire ultraviolet lamp system according to an embodiment of the present invention.

2A is a circuit diagram of an igniter including a pulse generating circuit according to an embodiment of the present invention.

2B is a circuit diagram of an igniter including a silicon controlled rectifier in accordance with one embodiment of the present invention.

3 is a view showing waveforms of voltage and current at both ends of a lamp during startup according to an embodiment of the present invention.

4 is a view showing waveforms of voltage and current at both ends of a lamp in a steady state according to an embodiment of the present invention.

               <Description of the symbols for the main parts of the drawings>

100, 110, 120, 130: UV Lamp System

101: capacitor 102: first inductor

103: second inductor 104: igniter

105: UV lamp 200, 210: inductor

202, 206: capacitor 204: pulse generating circuit

208: silicon controlled rectifier S: starting point

I: UV lamp current V: UV lamp voltage

The present invention designs an inductor that is most suitable for startup and steady state of a large-capacity plotter, drives two inductors to prevent excessive instantaneous flow during startup, and adjusts the number of turns of the coil of the inductor to ultraviolet rays. The present invention relates to an ultraviolet lamp system for adjusting the optical error of a lamp.

Until now, the ultraviolet lamp system has been mainly applied to the ultraviolet sterilizer, odor and deodorization system, water quality management system. When manufacturing such an ultraviolet lamp, an error occurs in the amount of gas.

The ultraviolet lamp system, which is a curing apparatus for a large capacity plotter, uses a plurality of ultraviolet lamps when the printed output comes out of the plotter, and the problem of the ink curing state of the printed output is different due to the optical error of the ultraviolet lamp.

In addition, large-capacity ultraviolet lamp driving system of kW or more is unstable starting characteristics, there is a problem that the optical characteristics are non-uniform due to the error of the gas pressure in the tube. Accordingly, there is a problem that the curing quality is not constant in the large capacity plotter curing system, and the life of the ultraviolet lamp is shortened.

An object of the present invention is to design an inductor that is most suitable for the start-up and steady state of a large capacity plotter to solve the problems of the prior art as described above, and to prevent the excessive flow of current instantaneously during startup by driving two inductors In addition, to provide an ultraviolet lamp system for controlling the optical error of the ultraviolet lamp by adjusting the number of times the coil of the inductor is wound.

In order to achieve the above object, in the ultraviolet lamp system of the present invention, an inductor is designed that is most suitable for the start-up and the steady state of a large capacity plotter, and the two inductors are driven to prevent the current from flowing excessively instantaneously. By controlling the number of windings of the coil of the inductor to adjust the optical error of the ultraviolet lamp to uniform the optical properties.

In the present invention, it includes a first inductor which prevents excessive current from flowing suddenly at start-up, and a second inductor which operates alone or together with the first inductor in a steady state. And an igniter selectively connected to the first inductor and the second inductor, the igniter generating a voltage required for lighting, and an ultraviolet lamp connected to the igniter and lit by a voltage generated by the igniter. It is desirable to.

In the present invention, it is preferable that the amount of light of the ultraviolet lamp is adjusted according to the number of turns of the coils of the first inductor and the second inductor.

In the present invention, the igniter includes a capacitor for generating a voltage, including an inductor for instantaneously generating a high voltage pulse by using the voltage generated in the capacitor, a pulse generating circuit for generating the generated pulse continuously It is preferable to include.

In the present invention, the igniter includes a capacitor for generating an alternating current power, the gate voltage is established by the alternating current power, and includes a silicon controlled rectifier for flowing a gate current by the gate voltage, the silicon controlled rectifier It is desirable to include an inductor to generate an induced voltage using the flowing gate current and to limit the current to the ultraviolet lamp when the gate voltage is not established in the silicon controlled rectifier.

In the present invention, it is preferable that the plurality of ultraviolet lamp systems are connected in parallel.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. In adding reference numerals to components of the following drawings, it is determined that the same components have the same reference numerals as much as possible even if displayed on different drawings, and it is determined that they may unnecessarily obscure the subject matter of the present invention. Detailed descriptions of well-known functions and configurations will be omitted.

1 is a view showing the entire ultraviolet lamp system according to an embodiment of the present invention.

Referring to FIG. 1, an ultraviolet lamp system 100, 110, 120, and 130 includes a capacitor 101, a first inductor 102, a second inductor 103, an igniter 104, and an ultraviolet lamp 105. do.

The capacitor 101 generates a voltage by improving the power factor to increase the effective power.

The first inductor 102 prevents a sudden excessive excessive flow of active power increased through the capacitor 100 when operating the ultraviolet lamp system 100.

The second inductor 103 is connected to the igniter 104 like the first inductor 102 or the second inductor 103 alone when the ultraviolet lamp system 100 operates and becomes a steady state. It is connected to the igniter 104, to establish a stable driving characteristics when driving the ultraviolet lamp system 100.

The igniter 104 generates a voltage required to turn on the ultraviolet lamp 105 and includes a pulse generator circuit or a silicon controlled rectifier therein.

The igniter 104 including the pulse generator circuit improves the startup characteristics of the ultraviolet lamp 105 by generating a high voltage pulse at a moment and continuously aligning the pulse.

In the igniter 104 including the silicon controlled rectifier, since the ultraviolet lamp 105 is opened at the moment when an AC input is applied, the gate voltage of the silicon controlled rectifier is established.

As the gate current flows by the established gate voltage, the silicon controlled rectifier is turned on to activate the ultraviolet lamp 105.

When the ultraviolet lamp 105 is activated, since the tube voltage of the ultraviolet lamp 105 is lowered and the operation of the igniter 104 is stopped, the ultraviolet lamp 105 is stably lit, and thus the stability of the ultraviolet lamp 105 is stabilized. This is improved.

According to the present invention, when the ultraviolet lamp system 100 drives several ultraviolet lamp systems 110, 120, and 130 together in parallel, the current flows more excessively during startup, thereby driving two inductors and driving the current. Prevent increasing stress.

When the plurality of ultraviolet lamp systems 110, 120, and 130 are driven together, an error of each of the ultraviolet lamps occurs, so that the number of coils of the inductor in each of the ultraviolet lamp systems 110, 120, and 130 is wound. By adjusting the balance of the amount of light between the several lamps to improve the stability of the ultraviolet lamp system.

2A is a circuit diagram of an igniter including a pulse generation circuit according to an embodiment of the present invention.

Referring to FIG. 2A, an inductor 200, a capacitor 202, and a pulse generation circuit 204 are included.

The inductor 200 instantaneously generates a high voltage pulse by using a voltage among active powers generated by the capacitor 202 and transmits the pulse to the pulse generating circuit 204.

The method of instantaneously generating the high voltage pulse is very safe because the high voltage pulse does not exist in the choke-trans.

The pulse generating circuit 204 generates the generated pulse continuously. The continuous pulse is aligned to improve the startup characteristics of the ultraviolet lamp.

2B is a circuit diagram of an igniter including a silicon controlled rectifier according to an embodiment of the present invention.

Referring to FIG. 2B, a capacitor 206, a silicon controlled rectifier 208, and an inductor 210 are included.

As soon as the AC input generated by the capacitor 206 is applied, the UV lamp is open, the gate voltage of the silicon controlled rectifier 208 is established and the gate current flows, so that the silicon controlled rectifier 208 is It is conducting.

The induction voltage is generated in the inductor 210 at the moment when the silicon controlled rectifier 208 is conducted, and a high voltage of about 1 kV is generated, and the ultraviolet lamp is activated by this voltage.

When the ultraviolet lamp is activated, the tube voltage of the ultraviolet lamp is lowered to about 130V, so that the gate voltage of the silicon controlled rectifier 208 is not established and the operation of the igniter is stopped, and the inductor 210 limits the current. The ultraviolet lamp is stably lit, and the stability of the ultraviolet lamp 105 is improved.

3 is a diagram illustrating waveforms of voltage and current at both ends of the lamp during startup according to an embodiment of the present invention, and FIG. 4 is a view illustrating waveforms of voltage and current at both ends of the lamp in a steady state according to an embodiment of the present invention. .

3 and 4, the waveforms of the voltage V across the ultraviolet lamp and the current I across the ultraviolet lamp when the ultraviolet lamp is started by the first inductor can be seen.

When the ultraviolet lamp is activated, the current I of the ultraviolet lamp is excessively increased based on the starting point S, and thus the ultraviolet lamp voltage V is decreased. (See Figure 3)

As the ultraviolet lamp proceeds to a steady state, the ultraviolet lamp voltage V gradually increases, and the current I of the ultraviolet lamp decreases (see FIG. 4).

When the plurality of ultraviolet lamps are driven together in parallel, the current is more excessive at startup. Therefore, when the start-up uses a first inductor to prevent excessive increase in the ultraviolet lamp current (I), in a steady state by driving the first inductor and the second inductor together or selectively, stable driving characteristics of the ultraviolet lamp system To improve.

In addition, when several ultraviolet lamp systems are driven in parallel, an error of each ultraviolet lamp light occurs, and the amount of light varies depending on the state of the input voltage.

Therefore, the number of turns of the coil of the inductor is adjusted to balance the amount of light between several lamps.

When the amount of light is reduced, the number of turns of the coil is adjusted in the direction of increasing the inductance of the first inductor or the second inductor, and when the amount of light is increased, Control the number of colds.

As described above, it has been described with reference to a preferred embodiment of the present invention, but those skilled in the art various modifications and changes of the present invention without departing from the spirit and scope of the invention described in the claims below I can understand that you can.

As described above, according to the present invention, by using two inductors there is an effect of preventing the excessive current flows suddenly during startup to establish a stable driving characteristics of the ultraviolet lamp system.

In addition, by adjusting the number of times the coil of the inductor is wound, there is an effect of adjusting the light balance of the ultraviolet lamp by adjusting the error of the ultraviolet lamp light amount generated according to the error of the ultraviolet lamp gas amount when driving the ultraviolet lamp.

In addition, there is an effect of extending the life of the ultraviolet lamp.

Claims (5)

A first inductor for preventing sudden current excessive flow upon startup; A second inductor operating alone or together with said first inductor in a steady state; A gate current flowing through the silicon controlled rectifier and the silicon controlled rectifier selectively connected to the first inductor and the second inductor, the gate voltage being established by the alternating current power generated by the capacitor, and allowing the gate current to flow by the gate voltage. An igniter for generating an induced voltage using the inductor and configured to generate a voltage required for lighting by being composed of an inductor for limiting a current flowing to an ultraviolet lamp when a gate voltage is not established in the silicon controlled rectifier; And And an ultraviolet lamp connected to the igniter, the ultraviolet lamp being lit by the voltage generated by the igniter. The ultraviolet lamp system according to claim 1, wherein the amount of light of the ultraviolet lamp is adjusted according to the number of turns of the coils of the first inductor and the second inductor. The method of claim 1, wherein the igniter is A capacitor for generating a voltage; An inductor for instantaneously generating a high voltage pulse using the voltage generated at the capacitor; And And a pulse generating circuit for continuously generating the generated pulses. delete The ultraviolet lamp system according to claim 1, wherein the plurality of ultraviolet lamp systems are connected in parallel.

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