KR960002147Y1 - Membrane keyboard with variable method - Google Patents

Abstract

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Description

Variable resistance membrane keyboard

1 is an equivalent circuit diagram of a conventional matrix switch

2 is a cross-sectional view showing the structure of the membrane keyboard according to the present invention

3 is a detailed view of the circuit portion of the membrane keyboard according to FIG.

4 is an equivalent circuit diagram of a membrane keyboard according to the present invention

* Explanation of symbols for main parts of the drawings

10: printed circuit film 11: the conductive portion

12: resistance pattern 13: key signal output terminal

20: spacer 30: aluminum foil part

40: makeup plate

The present invention relates to a key input device such as a home appliance. In particular, the present invention relates to a variable resistance membrane keyboard that can save an input / output port of a microcomputer by configuring a membrane keyboard as a variable resistance type.

In general, a membrane keyboard or the like is used as a key input device in a home appliance adopting a microcomputer. In general, a membrane keyboard has a merit of transmitting key signals by light pressure. In conventional membrane keyboards, circuit portions are constructed in a matrix manner.

FIG. 1 is an equivalent circuit diagram of a conventional matrix key input device. As shown therein, 25 matrixes are formed by a combination of five output ports D1-D5 and five input ports P1-P5 of the microcomputer 1. Keys can be configured.

However, according to such a key input device, 10 input / output ports of the microcomputer are required to form 25 keys. There is a limit to the use of the microcomputer port, and the pulse signals are outputted to the five output ports in sequence, and the key signals are recognized by checking the potential of each input port in synchronism with this.

The present invention is to provide a variable resistance membrane keyboard that can receive a key signal by only one of the analog / digital input port of the microcomputer in view of such a conventional problem.

The object of the present invention is to configure the key input device with a variable resistance type, and to receive the key signal according to the resistance change by using the analog / digital input port that the microcomputer normally has, and performs key recognition. In the present invention, the conductive pattern of one circuit part is connected in series with a resistance pattern having a resistance value according to the length, and is configured to have a space part for each conductive pattern by a spacer, and the aluminum foil connected to the ground side is lightly adhered to the upper part thereof. A variable resistance membrane coboard is constructed to contact the conductive part by pressing pressure and to change the resistance value according to the corresponding position, and to output the voltage level based on the resistance value as a key signal, and this is the analog / digital input terminal of the microcomputer. It is achieved by inputting in.

Hereinafter, with reference to the accompanying drawings, an embodiment according to the present invention in detail as follows.

2 is a cross-sectional view of a variable resistance membrane keyboard according to the present invention. FIG. 3 is a circuit diagram of the circuit printing film according to FIG. 2, and FIG. 4 is an equivalent circuit diagram of a variable resistance membrane keyboard according to the present invention. As shown in FIG. A circuit part for outputting a key signal to the analog / digital input terminal of the microcomputer is printed by connecting the resistance pattern 12 having a constant resistance value in series and having one end of the resistance pattern 12 connected to the key signal output terminal 13. A spacer 20 bonded to the circuit print film 10 and the upper portion of the circuit print film 10 to form a fine space for each conductive pattern 11 of the circuit portion, and to the upper portion of the spacer 20. And an aluminum foil part 30 which is brought into contact with the conductive pattern 11 by a pressure that is lightly pressed by being connected to the ground side, and is bonded to an upper portion of the aluminum foil part 30 to conduct the conductive parts of the space parts. On the pattern (11) A corresponding key name or the like is constituted by the decorative plate 40 printed.

That is, as shown in FIG. 3, each of the resistance patterns 12 becomes a plurality of series resistors 12-1 to 12-n, and a plurality of conductive portions 11 are each series of resistors 12-1 to 12. -n) connection points 11-1 to 11-n, and the aluminum foil 30 forms the movable terminal of each switch along with the name of the ground line. The output terminal 13 connected to one end of the resistance pattern 12 is connected to the power supply voltage terminal Vcc through an external resistor R to be pulled up, and the analog / digital input terminal A of the microcomputer 1 is connected. / D) to form an equivalent circuit.

Referring to the operation and effect by the present invention made as described above are as follows.

First, in the present invention, in the case of printing the circuit portion on the circuit printing film 10, as shown in FIG. 3, a plurality of conductive portions 11 are arranged at key positions, and these are proportional to the length such as carbon. It is connected in series with a resistance pattern 12 having a resistance value. Then, one end of the resistance pattern 12 is exposed to the end of the circuit printing film 10 as a key signal output terminal 13 made of copper foil or the like.

Subsequently, each conductive portion 11 is divided into pieces, and the spacer 20 is bonded to have a fine space portion, and the aluminum foil portion 30 is formed to have a small distance from the conductive portions 11 by the spacer 20. ) And the aluminum foil 30 draws out the grounding terminal so that it can be connected to an external grounding terminal.

Subsequently, the decorative plate 40 printed with the respective key names and the like is bonded to the upper portion of the aluminum foil 30 to correspond to the respective conductive portions 11.

In this case, it is preferable that the decorative plate 40 is subjected to the membho processing of each key part in order to improve the pressing feeling of each key.

The pull-up resistor R to which the power supply voltage Vcc is applied is connected to the output terminal 13 of the variable resistance membrane keyboard thus formed, and the output terminal 13 is connected to the analog / digital input terminal of the microcomputer 1 ( A / D) and connect the aluminum foil part 30 to the ground side.

Therefore, when the key name portion printed on the decorative plate, that is, the key name is printed and the embossed portion is lightly pressed, the aluminum foil 30 comes into contact with the conductive portion 11 at the corresponding position. At this time, since the gap between the aluminum foil 30 and the conductive portion 11 formed on the printed circuit film 10 is minute, contact between the aluminum foil 30 and the conductive portion 11 occurs even by a very light pressure, and the aluminum foil When the pressure in the upper portion is removed by the elastic restoring force of the 30 and the spacer 20, the original state is restored.

When the key is pressed in this way, the grounded aluminum foil 30 contacts the conductive portion 11 at the corresponding position, and the conductive portion 11 at the corresponding position is grounded. When the conductive portion 11 at the corresponding position is grounded, it acts as a resistance along the length of the resistance pattern 12 from the output terminal 13 to the corresponding conductive portion 11, and the resistance is applied to the output terminal 13. The voltage level is inversely proportional to the value.

Accordingly, the microcomputer 1 recognizes the voltage level as data by analogue / digital conversion and recognizes the key according to the data value.

That is, the conductive part 11 located at a position far from the output terminal 13 in comparison with the resistance value when the conductive pattern 11 close to the output terminal 13 is in contact with the aluminum foil 30 is grounded. The resistance value becomes larger than when it is grounded in contact with 30), and inversely, the voltage level applied to the microcomputer 1 is lowered. Therefore, the microcomputer 1 receives the applied voltage level through the analog / digital port A / D, converts it into digital data, and performs key recognition according to the digital value.

As described in detail above, according to the present invention, since the key input device is configured as a variable resistor type instead of a matrix type, only one analog / digital port of the microcomputer is used, and thus the microcomputer input / output port can be greatly reduced. It is effective and reduces the program burden during key scan because the microcomputer only needs to check the signal input through the analog / digital port, compared to the conventional method for outputting the scan signal according to the constant and constant rules for the kisscan. have.

Claims (3)

A plurality of conductive patterns 11 arranged based on a desired key arrangement are connected in series with a resistance pattern 12 having a resistance value proportional to the length, and one end of the resistance pattern 12 is connected to the key signal output terminal 13. A circuit printed film 10 having a printed circuit portion connected thereto and a spacer bonded to an upper portion of the circuit printed film 10 to form a fine space portion on the conductive pattern 11 for each conductive pattern 11 of the circuit portion ( 20) and the aluminum foil 30 which is in contact with the conductive pattern 11 at the lower part of the position by the pressure lightly pressed on the upper part of the spacer 20, and the upper part of the aluminum foil part 30. A variable resistance membrane keyboard, characterized in that composed of a decorative plate 40 is bonded to the printed key names corresponding to each of the conductive patterns (11). According to claim 1, wherein the aluminum foil portion 30 is connected to the external ground side, the key signal output terminal 13 is in contact with the power supply voltage terminal through an external resistor and the analog / digital input port of the microcomputer Variable resistance membrane keyboard, characterized in that made to be connected to. The variable resistance membrane keyboard according to claim 1, wherein the decorative plate (40) is embossed on top of the conductive pattern (11), respectively.