JP2895866B2 - Display device - Google Patents

Abstract

PURPOSE:To prevent a display from being stopped by detecting the temperature of a dot matrix display which uses plural lamps and gradually reducing a load based on the interior temperature of the device. CONSTITUTION:A microprocessor 5 reads the display data of a code memory 6, and then reads temperature information from a temperature detecting circuit 7 via an A/D converter 9. When the detected temperature is 80 deg.C or below, a prescribed character is displayed; when it is 80 deg.C <t<=90 deg.C, a display processing is performed under a running mode; when it is 90 deg.C< t<= 100 deg.C, the running mode is changed, and the display processing is performed by having 50% energizing time in relation to the scanning time for a light emitting diode lamp. When the detected temperature is 100 deg.C or above, the processor 5 stops the displaying of the display 3 and also drives a motor 10 by means of a switch driving circuit 12 to cool the display device.

Description

The present invention relates to a display device that displays characters, figures, symbols, and the like in dots using, for example, a light emitting diode lamp or the like.

(B) Conventional technology Conventionally, as disclosed in Japanese Patent Application Laid-Open No. 60-143392, for example, characters, graphics,
A display device that displays symbols and the like in dots has a large power consumption and a high internal temperature. Therefore, the temperature in the apparatus is always detected, and when an abnormal temperature is detected, the display on the display is forcibly stopped.

(C) Problems to be Solved by the Invention In the above configuration, when the display state is set to a large power consumption (for example, when a sentence composed of only characters with a large number of lights is stopped and displayed), an abnormal temperature , The display state is maintained until the abnormal temperature is reached, so that the display of the display is stopped frequently and quickly, and it becomes difficult to read the display message.

(D) Means for Solving the Problems A display device of the present invention is a dot matrix type display device using a plurality of lamps, a drive circuit for driving the display device, and a temperature detection device for detecting a temperature in the device. And control means for controlling a display mode of the display in a stepwise manner based on an output of the means so as to reduce power consumption.

(E) Function Since the present invention is configured as described above, the display mode is changed based on the temperature in the device so as to reduce the load in stages without stopping the display on the display. become.

(F) Example An example of the present invention will be described with reference to the drawings. In FIG. 1, (1) is an AC power supply, (2) is a DC power supply circuit,
(3) is a 16 × 128 dot (8 characters in 16 × 16 dot character display) dot matrix type display using a light emitting diode lamp. (4) is a drive circuit for driving the display (3), and (5) is a microprocessor, which controls each circuit according to a program written in advance.
(6) is a code memory including a RAM for storing display data created by, for example, a personal computer. The display data includes a display mode code, a character size code, a character code, and a line terminator code. Note that the display mode code indicates a mode such as a stop display, a running display, a curtain display, a scroll display, and the like, and the line terminator code is arranged for every eight character code and indicates the end of the line. (7) is a temperature detection circuit including a thermistor (8), and the thermistor (8) is arranged near the DC power supply circuit (2).
(9) A / D for sending the output of the temperature detection circuit (7) as a digital signal to the microprocessor (5)
A converter, (10) is a motor that rotationally drives a fan (not shown) for cooling the device, (11) is the motor (10)
Switch for turning on and off the switch (12) is the switch (11)
Is a driving circuit for driving the.

FIG. 2 shows a flowchart of a main part program written in the microprocessor (5), and the operation will be described below based on the flowchart. First, the microprocessor (5) resets a memory counter for designating a display data reading area of the code memory (6) (step S-1), and stores the code stored in the area corresponding to the counter. The display data in the memory (6) is read (step S-2). Here, the display data for the first line is read. After reading the terminator code, the microprocessor (5) reads temperature information from the A / D converter (9) (step S-3).
The continuous operation guarantee value of the device shall be 90 ° C. If the detected temperature (t) is equal to or lower than 80 ° C., predetermined characters are displayed on the display (3) in the read display mode and the energizing time with respect to the scanning time of the light emitting diode lamp is set to 100% (step). S-7). When the display of the character is completed, the microprocessor (5) increments the memory counter and reads the display data of the next line (step S-8.2).

Next, if the detected temperature (t) is 80 ° C. <t ≦ 90 ° C., the microprocessor (5) changes the display mode code in the read display data to the running mode (step S-5.6). Here, the running mode is a method in which a character moves to one side of the display (3) one by one to form a predetermined display message, and the same display time is used as compared with a so-called stop display, scroll display, and curtain display. , The power consumption is the smallest. Thereafter, the microprocessor (5) proceeds to step S-7 to perform the display processing in the running mode, and then proceeds to step S-8.
Move to

Next, if the detected temperature (t) is 90 ° C <t ≦ 100 ° C,
The microprocessor (5) changes the display mode to the running mode in the same manner as described above, further performs a display process by setting the energizing time to the scanning time for the light emitting diode lamp to 50%, and proceeds to step S-7 ( Step S-9.10). As a result, the detected temperature (t) becomes 80 ° C <
The power consumption can be further reduced as compared with the case where t ≦ 90 ° C.

Next, if the detected temperature (t) is t> 100 ° C., the microprocessor (5) stops displaying on the display (3) and turns on the motor (10) to rotate the fan (step S). −9.11.12). Then, the microprocessor (5) reads the temperature information from the A / D converter (9) again (step S-13), and detects whether or not t> 100 ° C. (step S-14). . Here, if the detected temperature (t) is t> 100 ° C., a predetermined time (several seconds) at predetermined time intervals (several seconds) according to the temperature (for example, “abnormal temperature”). ") Is displayed on the display (3) (step S-16).

If the detected temperature (t) is t ≦ 100 ° C., the motor (10)
Is turned off to stop the rotation of the fan, and the process returns to step S-2 (step S-15). In this case, since the memory counter is not incremented, the same display data is read again, and the process proceeds to step S-3. still,
Even when the time interval for displaying “abnormal temperature” is the shortest, the power consumption is such that the detected temperature (t) is 90 ° C. <t ≦ 10
It should be much smaller than at 0 ° C.

(G) Effects of the Invention Since the present invention is configured as described above, the display mode is changed based on the temperature in the apparatus so that the load is reduced step by step without stopping the display on the display. As a result, the temperature rise can be suppressed as much as possible, and the display on the display is not stopped frequently as in the conventional case. Therefore, the displayed message itself can be viewed for a longer time. Then, when the temperature detecting means detects the temperature equal to or higher than the predetermined temperature, it is informed that the temperature is waiting for the temperature to drop, and can be distinguished from the failure of the display.

[Brief description of the drawings]

FIG. 1 is a block diagram of a display device of the present invention, and FIG.
5 is a flowchart of a program similarly written in the microprocessor. (3) ... display, (4) ... drive circuit, (7) ... temperature detection circuit, (5) ... microprocessor.

Continuation of the front page (56) References Hikaru 1-13695 (JP, U) Hikami 1-133192 (JP, U) (58) Fields surveyed (Int. Cl. ⁶ , DB name) G09G 3 / 00-3/38

Claims (1)

(57) [Claims] 1. A display device of a dot matrix type using a plurality of lamps, a driving circuit for driving the display device, temperature detecting means for detecting a temperature in the device, and the display based on an output of the means. The display mode of the container is controlled stepwise so as to reduce the power consumption, and when the temperature detecting means detects a temperature equal to or higher than a predetermined temperature, the display is stopped, and when it is detected that the temperature has dropped below the predetermined temperature, the display is performed. In a display having control means for resuming, when the temperature detecting means detects a predetermined temperature or more, the control means controls to notify that the temperature is waiting for a temperature drop. apparatus.