KR920008782Y1 - Liquid crystal display device - Google Patents

Abstract

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Description

LCD Display

1 is a circuit diagram of a first embodiment of the present invention.

2 is an explanatory diagram of main parts of the second embodiment.

3 is an explanatory diagram of main parts of the third embodiment.

* Explanation of symbols for the main parts of the drawings

4: rectifier circuit 5: voltage divider

7: light emitting diode

The present invention is a liquid crystal display device used in a timer display device, a temperature display device of the gas appliance. In particular, the present invention relates to a display device that illuminates the display device and makes visual recognition easier.

In gas ovens and stoves used in restaurants and hotels' kitchens, liquid crystal displays that display high temperature and timer set time are provided.

The liquid crystal panel used for the liquid crystal display can display display patterns by numbers or figures, but optical recognition is possible by receiving light from the outside world without emitting light by itself.

Therefore, it is difficult to visually recognize the liquid crystal display in a dark place or where there is not enough light. In order to facilitate this, an illumination device for illuminating the liquid crystal display is provided.

As said illumination device, a comparatively large amount of light is irradiated to the liquid crystal plate from the back side besides irradiating illumination light to the surface of the liquid crystal plate by the assembled one light emitting diode (hereinafter referred to as this illumination method). And the liquid crystal plate appear to be spontaneously emitting light, and this is configured to make it easier to see (hereinafter, this illumination method is called a backlight method). In the latter backlight system, a relatively large number of light emitting diodes, usually 10-20, are used as the illumination light source.

However, when a plurality of light emitting diodes are combined in a control circuit so as to improve the display device employing the front light method for illuminating the surface of the liquid crystal panel into a back light method using a plurality of light emitting diodes, these light emitting diodes A lot of power is required to emit light. Therefore, the transformer assembled into the power supply circuit for the control circuit in the front light type becomes insufficient in capacity, and the back light system cannot be adopted unless the transformer is replaced with a large capacity. There was.

The present invention has been made in view of the above, and in a liquid crystal display device employing a backlight method for illuminating a liquid crystal plate with a plurality of light emitting diodes from its back side, a backlight method in which a plurality of light emitting diodes need to be used is required. In the case of a change, in order to facilitate this change, it is a technical problem to make it possible to make many said light emitting diodes emit light, without replacing the transformer assembled in the power supply circuit for control circuits with a large capacity.

Technical means of the present invention for solving the above problems, the voltage divider and the plurality of light emitting diodes are all connected in series, or the plurality of light emitting diodes are all connected in parallel to connect the parallel circuit and the voltage divider in series, or a predetermined number A plurality of basic circuits comprising a series of light emitting diodes connected in series to be connected in parallel, and the parallel circuits and the voltage divider resistors are connected in series, and the commercial power supply is transformed into a circuit composed of the voltage divider resistor and the light emitting diodes wired in any of these forms. It is operated by supply power from rectifying circuit which is rectified as it is.

The technical means act as follows.

Electricity rectified directly in the rectifier circuit is applied to all the light emitting diodes through a voltage divider resistor without transforming a commercial power supply.

In the present invention, all of the light emitting diodes are connected in series, or all of them are connected in parallel, or a plurality of parallel circuits of a basic circuit constituted by connecting a certain number of light emitting diodes in series are connected to each of the light emitting diodes. It is configured to apply a voltage of.

Therefore, the voltage applied to each light emitting diode is set to an appropriate value only by determining the value of the voltage dividing resistor inserted in series for all these light emitting diodes.

Thereby, each light emitting diode emits light, and sufficient illumination light is irradiated to the back surface of the liquid crystal plate located in front of it, making it easy to visually recognize this.

As described above, when the above technical means is used, the plurality of light emitting diodes may be changed even if the front light type of illuminating the surface side of the liquid crystal panel with a small number of diodes is a back light type using a plurality of light emitting diodes. What is necessary is just to add the circuit for light-emitting, and it is not necessary to change the transformer combined with the power supply circuit for control circuits of the front-light system to a large capacity thing.

The present invention has the following unique effects.

1.In case of improving the front light method for illuminating the surface side of the liquid crystal panel by the back light method using a plurality of light emitting diodes, replacing the transformer assembled in the power supply circuit for the control circuit with a large one. Without this, since the plurality of light emitting diodes can emit light, the change from the front light display device to the back light display device can be easily performed.

2. Since the voltage applied to each light emitting diode can be set to an appropriate value by one voltage divider resistor, the number of use of the voltage divider resistors can be minimized.

Next, embodiments of the present invention described above will be described in detail with reference to the drawings.

As shown in FIG. 1, the voltage divider 5 is inserted into the rectifier circuit 4 connected to the commercial power supply 15, and the light emitting diodes 7 and 7 of the voltage divider 5 are formed. In this embodiment, 20 pieces are used in series.

On the other hand, the power supply circuit 6 for the control circuit is connected to the liquid crystal display device 8 and the control circuit 30 for the liquid crystal device for displaying numerals or figures thereon. In addition, a backlight switch 71 is connected to the power supply circuit 6, and the output of the backlight switch 71 is applied to the base of the transistor 81. In the collector circuit of the transistor 8, a relay 82 for turning on and off the above-described circuits of the light emitting diodes 7 and 7 is inserted.

In this case, when the backlight switch 71 is switched to the transistor 91 side, the transistor 81 is turned ON by this, and the relay 82 inserted into the collector circuit is brought into the bonded state. The output contact 83 of the relay 82 is then closed, whereby the light emitting diodes 7 and 7 emit light.

These light emitting diodes (7) and (7) emit light by electricity obtained by direct current rectifying the commercial power supply (15), and are supplied from a transformer (63) assembled in the power supply circuit (6) for the control circuit. Therefore, even if the capacity of the transformer 63 is small, the light emitting diodes 7 and 7 used in a large number can be emitted sufficiently brightly.

In the above embodiment, the voltage applied to each of the light emitting diodes 7 and 7 is determined only by appropriately setting the value of the single voltage divider 5, so that each of the light emitting diodes 7 And voltages applied to (7) are the same.

In the second embodiment shown in FIG. 2, all of the light emitting diodes 7 and 7 are connected in parallel, and this parallel circuit and the voltage divider 5 are connected in series, and the same operation as in the first embodiment is performed. do.

In the third embodiment shown in FIG. 3, four light emitting diodes 7 and 7 are connected in series to form five basic circuits 9, and these basic circuits 9 and 9 are connected to each other. All are connected in parallel, and this parallel circuit and the voltage divider 5 are connected in series.

Also in this third embodiment, it operates in the same manner as in the first and second embodiments.

Claims (6)

In a liquid crystal display device employing a backlight system that illuminates a liquid crystal plate with a plurality of light emitting diodes from the back side, a rectifying circuit 4 for rectifying commercial power and a voltage dividing resistor 5 connected to the rectifying circuit 4. ), A plurality of light emitting diodes connected to the voltage dividing resistor 5 and positioned on the rear side of the liquid crystal panel, a power supply circuit 6 for a control circuit connected to the commercial power supply, and a power supply circuit for the control circuit. And a liquid crystal display device connected to the control circuit so that electric power is directly supplied from the rectifying circuit to the light emitting diode. 2. The liquid crystal display device according to claim 1, further comprising: a backlight switch driving means connected to the power supply circuit for the control circuit, and a backlight switch driving means located between the rectifier circuit (4) and the voltage divider (5). And a diode switch operated by the liquid crystal display. 3. The backlight switch driving means according to claim 2, further comprising: a resistor (82) connected between the control circuit power supply circuit (6) and ground, and one terminal connected to the control circuit power supply circuit; The other terminal of the relay 82 is connected to the collector and the base has a structure that is grounded across the switch and the switch 71 for the backlight, the diode switch is a contact point driven by the relay 81 A liquid crystal display device. 4. A liquid crystal display device according to claim 1, 2 or 3, wherein the plurality of light emitting diodes are connected to the voltage divider in parallel. The liquid crystal display device according to claim 1, 2 or 3, wherein the plurality of light emitting diodes are connected in series with each other. 4. A method according to claim 1, 2 or 3, wherein the plurality of light emitting diodes are divided into several groups of light emitting diodes connected in series with each other, the groups being connected in parallel to the voltage divider (5). A liquid crystal display device.