JPH0636034U - Liquid crystal display contrast adjuster - Google Patents

Abstract

(57) [Abstract] [Purpose] To provide a contrast adjuster of a liquid crystal display having a moisture-proof and drip-proof structure using a touch panel. [Constitution] A contrast sample of a liquid crystal display 3 is displayed on a screen, a touch panel switch 4 arranged corresponding to the display position, and a controller 1 for outputting digital voltage data based on information from the touch panel switch 4 And a digital-analog converter 2 for converting the output digital signal into an analog signal.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a contrast adjuster for a liquid crystal display (3) used in a data display for a control panel, a word processor, a personal computer or the like.

[0002]

[Prior art]

 The liquid crystal display (3), which is widely used these days, uses a method called TN effect. This method takes advantage of the fact that the polarization characteristics of liquid crystal change with an electric field. Although this liquid crystal display (3) is inexpensive, on the other hand, it has a defect that the contrast changes depending on the temperature or the absolute value of the applied voltage at the optimum contrast varies due to manufacturing variations. Because of this temperature characteristic, the contrast of the liquid crystal display (3) changes due to room temperature changes in the factory after power is turned on and the temperature rise of the equipment in use. Operation is required. The temperature coefficient of the liquid crystal display (3) currently used by the applicant is approximately -60 millivolts / degree. Conventionally, as shown in FIG. 8, a thermosensitive element such as a thermistor (24) is used to change the voltage applied to the liquid crystal display (3) so as to provide a certain degree of temperature followability with respect to this fluctuation. However, since the temperature characteristics of the heat sensitive element and the liquid crystal display (3) are not the same, the temperature followability is not perfect, and the user cannot adjust the temperature until the variable resistor (23) is displayed. I manipulated the voltage applied to the liquid crystal and adjusted it to obtain the proper contrast.

[0003]

[Problems to be solved by the device]

 However, since the conventional method uses the variable resistor (23), the operability is not good. In particular, semi-fixed type variable resistors (23) are often used in built-in devices, and the variable resistors (23) must be turned using a tool such as a screwdriver. , The operability was bad. Further, in a high humidity place or a place where water drops adhere, since it is necessary to protect the inside of the device including the variable resistor (23) from the water drops and the humidity, a rubber cap (25) is covered as shown in FIG. , Had to remove it after every adjustment and turn the variable resistor (23), which made the inconvenience noticeable.

[0004]

[Means for solving the problem]

 The present invention utilizes the display screen itself of the liquid crystal display (3) for the display and operation of contrast adjustment to improve the operability, and further, it is mechanical such as the variable resistor (23) where moisture easily enters. The use of the element is stopped, and the performance of drip-proof and moisture-proof is improved. The touch panel (31) is arranged on the liquid crystal display (3), the function of the touch panel switch (4) is displayed in the image of the display section (35) of the liquid crystal display (3), and the position of the function is displayed. The touch panel switch (4) corresponding to the display content is installed to transmit the touch panel switch (4) input to the controller (1), and the controller (1) outputs digital voltage data based on the input information. The output digital voltage data is converted into an analog voltage by a digital-analog converter and applied to the liquid crystal display (3). In the contrast adjuster of the liquid crystal display (3), the liquid crystal display (3) is covered with a water resistant touch panel (31), and the periphery of the touch panel (31) is surrounded by the liquid crystal display (3) and a peripheral frame. Place it airtight between.

[0005]

[Action]

 Depending on the contrast condition of the liquid crystal display (3), the operator transmits information including the adjustment command to the controller (1) through the touch panel switch (4). The controller (1) outputs digital voltage data corresponding to the instructed adjustment information and transmits it to the digital-analog converter (2). The digital-analog converter (2) converts the digital voltage data into an analog voltage, applies this analog voltage to the liquid crystal display (3), and changes the deflection characteristics of the liquid crystal display (3) to display the liquid crystal display. Controls the contrast of vessel (3). In the contrast adjuster of the liquid crystal display (3), a water resistant touch panel (31) is airtightly arranged between the peripheral frame and the liquid crystal display (3) to prevent water droplets and humidity from entering.

[0006]

[Effect of device]

 According to the present invention, when adjusting the contrast of the liquid crystal display (3), no tools are required, and only the touch panel switch (4) on which the function is displayed is pushed, so that the operability is greatly improved. Furthermore, the variable resistor (23) is removed, and the water resistant touch panel switch (4) is airtightly arranged between the peripheral frame and the liquid crystal display (3), so that a liquid crystal with a drip-proof and moisture-proof structure can be easily provided. A contrast adjuster for display (3) could be constructed. Further, since the variable resistor (23) is removed, the occupied space can be reduced and the mounting becomes easy.

[0007]

【Example】

 Hereinafter, one embodiment of the present invention will be described in detail with reference to the drawings. FIG. 1 shows an overall view of the present invention. In this embodiment, eight levels of contrast are selectively set by eight touch panel switches (40)-(47). On the display part (35) of the touch panel (31), a contrast sample (70) in which light and shade are displayed in 8 steps is displayed in advance by a program, and 8 samples are displayed corresponding to each display position. Touch panel switches (40)-(47) were arranged.

The operation will be described with reference to FIG. 1. The operator looks at the liquid crystal display (3) and selects one of eight touch panel switches (40)-(47) from eight contrast options. Specify the optimal contrast by pressing one. The data of the touch panel switch (4) is transmitted to the touch panel interface (6) via the transparent wiring (61), is coded at the touch panel interface (6), and is further It is converted into real data and transmitted to the microprocessor (5) of the controller (1).

In the microprocessor (5), the serial data sent from the touch panel switch (4) is converted into parallel data, and as shown in the switch processing flow of FIG. The digital voltage data corresponding to the designated touch panel switch (4) is output by the processing unit (51) that identifies the pressed touch panel switch (4) and performs various processing based on the determination result. To (12). In this embodiment, as the output data, 8-step contrast information is represented by a 3-bit binary value. The main memory (14) stores various control programs including the above-mentioned switch processing flow. The display controller (8) controls the video RAM (9), stores the image data sent from the microprocessor (5) in the video RAM (9), and stores this image data in serial data. Data and send it to the liquid crystal display (3).

The digital voltage data stored in the output port (12) is passed through the driver (13) which is an open collector output pulled up by the resistor (15) of 1K ohm. , To the digital-analog converter (2) mainly composed of the operational amplifier (10). In the digital-analog converter (2), the output offset voltage value and the output variable voltage range are set by R2, R3, R4 and R1 so as to match the liquid crystal display (3) to be used. Output the appropriate DC voltage of. The contrast is adjusted by applying this output voltage to the liquid crystal display (3) to change the deflection angle.

The above operation will be described more specifically. The liquid crystal display (3) needs to be adjusted between 10 V and 13 V (dV = 3 V), and the liquid crystal display (3) has a lower contrast as the applied voltage increases and a lower contrast as the applied voltage decreases. The power supply Vcc used is 24 volts. In the digital-analog converter (2) of FIG. 1, the input voltages at the resistors 80K ohm (18), 40K ohm (17) and 20K ohm (16) are V1, V2, respectively. Assuming that the output voltage of the operational amplifier (10) is V3, the signal source impedance at the input is zero. Approximate.).

[Equation 1] Further, since the variable voltage width dV = 3 volts, R1 is expressed by the equation 2.

[Equation 2] Substituting the above dV and Vcc into Equation 2, R1 = 1.4286K ohms. When V4 = 11.556 volts is set by R2, R3, and R4, the equation 1 is represented by the equation 3.

[Equation 3] The input is an open collector output driver (13), and since the signal source impedance is approximated to zero, V1, V2, and V3 are inputs of 0 volt or 24 volt. When the driver (13) input is logic "1" and logic "0", the input is 24V and 0V, respectively. When the lightest contrast switch (40) in FIG. 3 is selected, this information is transmitted to the microprocessor (5) through the above path, and the switch processing flow in FIG. It is identified that (40) has been pressed, and the processing unit (51) outputs a binary value "000". The upper digits of this binary value correspond to V3, V2, and V1 in order. From the above, the logic "0" is 0 volt at the output of the driver (13). Therefore, if V1 = V2 = V3 = 0 volt is substituted into the equation 3, the output voltage Vo becomes 13 volt, which is a light contrast. On the other hand, in FIG. 3, when the switch (47) with the darkest contrast is selected, the same route as above is followed, and it is identified that the switch (47) has been pressed in the switch processing flow of FIG. The binary value "111" is output. From the above, the logic "1" corresponds to 24 volts, so V1, V2, and V3 are 24 volts each. Substituting this into equation 3 gives an output voltage Vo of 10 volts, and the liquid crystal display (3) has a dark contrast. Become.

FIG. 4 shows mounting of a drip-proof and moisture-proof structure in the contrast adjuster of the liquid crystal display (3). A water resistant touch panel (31) is placed on the liquid crystal display (3), the bezel (30) is placed over the edge of the touch panel (31), and the bezel (30) is screwed (32) to the touch panel (31). While sandwiching and crimping, it is tightly fixed to the liquid crystal display (3).

[0013]

[Other Examples]

 In FIG. 5, the touch panel switch (4) is not the eight touch panel switches (40)-(47) as shown in FIG. 1, but two touch panel switches (48), (contrast UP, DOWN) as shown in FIG. 49) is another embodiment constructed in 49). FIG. 6 is a switch processing flow in this case. When the touch panel switch (48) of the UP is pressed, the switch processing flow is passed and the contrast is changed by a preset one step value. . On the other hand, when the DOWN touch panel switch (49) is pressed, the switch processing flow is passed, and the contrast is changed in the opposite direction by the preset one-step value. In order to continuously change the contrast in the same direction by pressing the touch panel switch (48) or (49) of UP or D OWN a plurality of times, the above switch processing flow is repeatedly passed for each step. After the touch panel interface (6), the circuit is the same as that of FIG. 1 except for the switch processing flow which is software. It is needless to say that the touch panel switch (4) may have another function by the function switching switch except when the contrast is adjusted.

The above description of the embodiments and the drawings are for explaining the present invention, and should not be understood so as to limit the invention described in the scope of claims for utility model or to reduce the scope. Absent. Further, the configuration of each part of the present invention is not limited to the above-mentioned embodiment, and it goes without saying that various modifications can be made within the technical scope described in the scope of claims for utility model registration.

[Brief description of drawings]

FIG. 1 is a circuit diagram of a contrast adjuster of a liquid crystal display in the case of 8-switch input.

FIG. 2 is a switch processing flow in the case of 8-switch input.

FIG. 3 is a display unit when an 8-touch panel switch is used.

FIG. 4 is a partial mounting view of a drip-proof and moisture-proof structure when a touch panel is used.

FIG. 5 is a circuit diagram of a switch portion in the case of 2-switch input.

FIG. 6 is a switch processing flow in the case of 2-switch input.

FIG. 7 is a panel diagram when two touch panel switches are used.

FIG. 8 is a circuit diagram of a contrast adjuster of a conventional liquid crystal display.

FIG. 9 is a partial mounting view of a conventional method using a variable resistor.

[Explanation of symbols]

 (1) Controller (2) Digital-analog converter (3) Liquid crystal display (4) Touch panel switch (5) Microprocessor (6) Touch panel interface (10) Operational amplifier (12) Output port ( 35) Display

Claims (4)

[Scope of utility model registration request] 1. A contrast adjuster for a liquid crystal display (3), wherein a touch panel (3) is provided on the liquid crystal display (3).
1) is arranged, the function of the touch panel switch (4) is displayed on the screen of the liquid crystal display (3), and the touch panel switch (4) corresponding to the function is displayed on the touch panel (31) on the display position of the function. ), And transmits the contrast information by the input of the touch panel switch (4) to the controller (1), the controller (1) outputs digital voltage data based on the input information, and outputs the output digital signal. A contrast adjuster for a liquid crystal display (3) that converts voltage data into an analog voltage by a digital-analog converter and adjusts the contrast of the liquid crystal display (3) with this analog voltage. 2. A water resistant touch panel (31) is hermetically disposed between the peripheral frame and the liquid crystal display (3) to prevent moisture.
The contrast adjuster of the liquid crystal display (3) according to claim 1, which has a drip-proof function. 3. The screen of the liquid crystal display (3) has gradation sample images (7) of different levels of contrast.
0) is displayed and a plurality of touch panel switches (40)-
(47) is arranged corresponding to the position of each gradation sample image (70), and each touch panel switch (40)-(4)
The contrast adjuster of the liquid crystal display (3) according to claim 1 or 2, wherein 7) is connected to the controller (1). 4. The screen of the liquid crystal display (3) has two images (7
1) (72) is displayed, and 2 is displayed on the touch panel (31).
One touch panel switch (48) (49) is arranged corresponding to the position of both images (71) (72), and each touch panel switch (48) (49) is respectively connected to a controller (1). The contrast adjuster of the liquid crystal display (3) according to claim 1 or 2.