DE4400098A1 - Membrane switch and method for making membrane switch - Google Patents

Abstract

A method for making a membrane switch having a pattern of tracks defining X,Y coordinate connections 1a, 2a on a single membrane comprises the steps of a) printing a pattern of silver conductor tracks 2 onto a base membrane; b) applying an anti-oxidant layer 3 to certain areas of the silver pattern; c) applying an isolating layer 4 to certain areas of the anti-oxidant layer 3; and d) applying a carbon layer 51 to the isolating layer 4 to form a carbon track portion which crosses over a silver track portion. The base membrane includes carbon switch contacts 52 which are connectible by a carbon contact on a key operated rubber dome. The use of carbon decreases the amount of silver required and increases the durability of the switch. <IMAGE>

Description

The present invention relates to a method of manufacture len a membrane switch according to the preamble of the main an saying.

Membrane switches are known from obvious prior use, which have several film or sheet layers. Such a conventional membrane switch used in a computer keyboard will be described with reference to FIG. 11.

The membrane switch assembly has three layers of sheets or foils 3 a, 4 a and 5 a, wherein on the upper sheet 3 a and the lower sheet 5 a electrical lines are distributed. The middle sheet 4 a separates the upper and lower sheets 3 a, 5 a and prevents them from touching. In the middle sheet 4 a are a plurality of openings angeord net to allow electrical contact between the upper and lower sheets 3 a, 5 a.

Fig. 11 shows the upper sheet 3 a hen seen from the back. The signal generated by this membrane is caused by an electrical contact between lines of the X and Y axes. The signal generated by the lines of the X axis ( 1 a in FIG. 9) and the Y axis ( 2 a in FIG. 9) can be found in the table shown in FIG. 10. To enter the letter "A", the key connecting lines Y0 and X2 is pressed. When this key is pressed, an "A" character is generated by an encoder. In the normal state, the lines 1 a of the X axis and 2a of the Y axis are separated from one another. The lines 1 a of the X axis are arranged on a separate sheet, the lines 2 a of the Y axis are arranged on another separate sheet. An insulating sheet is interposed. A plurality of openings 41 are provided on the insulating sheet at each intersection of the X-axis and Y-axis lines. When depressing the rubber part 6 a, a contact is made between a line 1 a of the X axis and another line 2 a of the Y axis, as shown in FIG. 12.

The process steps in the manufacture of a conventional membrane are described in detail below. First of all, a first sheet 3 a is taken, on which the lines 1 a of the X axis are to be arranged distributed. A silver line pattern 32 a is printed on the sheet 3 a by means of a transparent adhesive film 31 a. Each intended crossing point is coated with carbon powder 33 a to increase the durability of the membrane switch. Subsequently, an isolating sheet 4 a with a plurality of openings 41 , which are each located at the places where keys of the keyboard are to be arranged, is attached to the top of the first sheet 3 a. On the top of the insulating sheet 4 a, a third layer 5 a is attached with lines 2 a. The third sheet 5 a is identical to the first sheet 3 a, it has a transparent adhesive film 51 a, a silver line pattern 52 a and places 53 a coated with carbon powder. In this way, a conventional membrane switch is Herge.

This membrane switch assembly has three separate sheets, each of which must be designed and manufactured separately. Accordingly, the process steps are complicated and there are high costs. Currently, the cost of making a conventional membrane switch assembly is $ 28-30 new Taiwanese dollars. Despite the coating of each crossing point with carbon powder 33 a, 53 a to increase the service life, the distance caused by the middle sheet 4 a between the first sheet 3 a and the third sheet 5 a continuously decreases due to the deformation of the transparent adhesive films 31 a and 51 a from. Finally, there is no more distance at the crossing points and the membrane switch arrangement becomes useless. Each intersection point and thus each key can be depressed and pressed on average about 10 to 20 million times.

In summary, conventional membrane switch assemblies have been said Mainly the following disadvantages:

• 1. To make a membrane switch assembly, three separate sheets used. The electrical lines of the The X and Y axes are on two separate sheets distributed, with an isolating one in between Leaf arranged. The silver line pattern is on the Sheet arranged by means of a transparent adhesive film, each crossing point is coated with carbon powder. The Process steps are complicated and the costs are high.
• 2. The silver line pattern has excellent conductivity The signal is strong and clear. The elasticity of Silver is excellent. Within a distance of 20 mm the electrical resistance is practically zero. Is silver however, expensive, the longer, the higher the costs the line is.
• 3. Despite the arrangement of a carbon powder coating at each crossing point to increase the service life, the distance caused by the middle sheet between the first sheet 3 a and the third sheet is continuously smaller due to the deformation of the transparent adhesive films. Finally, there is no distance between the crossing points and the membrane switch arrangement becomes useless. On average, each crossing point and thus each key can be depressed 10 to 20 million times.

The invention has for its object a simple and cost-effective method for producing a membrane shell To create the arrangement of the type mentioned in the the electrical lines of both the X and Y axes are arranged on a single sheet.

The invention solves this problem by the features of the main demanding Advantageous developments of the invention are in specified in the subclaims.

Because in the arrangement of all lines on a single Sheet or a single membrane this not cross-free so-called bridging lines must be managed gene provided, the certain lines over other Lei electrical connections. According to the invention simple arrangement of these bypass lines with a limited length possible to the resistance of a connection control loop. According to the invention carbon is considered Material for the bypass lines used to manufacture the To reduce the cost of the membrane switch assembly and to increase their lifespan. With the inventive method Ren can a high power and membrane switch assembly Lifespan.

The technical features of the present invention and their Advantages compared to the known prior art Below based on the description of an embodiment explained with reference to the accompanying drawings. In it show:

FIG. 1 is a transparent adhesive sheet used in the inventive method;

Figure 2 is a schematic view of a silver line pattern used in accordance with the invention;

Figure 3 is an antioxidant layer and a dansschicht with this Antioxi coated membrane switch assembly.

Fig. 4, an insulating layer and a layer with this insulating coated membrane switch assembly;

Fig. 5 is a carbon powder layer and a coated therewith membrane switch assembly;

Figure 6 is a schematic view of the invention showing the depression of a key switch;

Figure 7 is a perspective view of a key switch made in accordance with the invention;

Fig. 8 is a partial view of the key switch in the depressed state;

Fig. 9 is a circuit diagram of a conventional keyboard;

Fig. 10 is an assignment table of the lines of Fig. 1 to the keys of a keyboard;

Fig. 11 is a view of the three separate sheets of a conventional membrane switch forth;

Fig. 12 is a sectional view of a conventional membrane switch showing its operation.

As can be seen from FIGS. 1 to 5, the lead wires 1 a of the X axis and 2 a of the Y axis are integrated on a single membrane. Due to the limited space on a single membrane, not every connection loop can be designed as a single, continuous line, to save space, a plurality of bridging lines is therefore required. Because of this arrangement, there are up to five or six bridging lines in a single connection loop. The bypass lines are made of carbon because this material is very inexpensive. However, the resistance of carbon lines is quite high compared to silver lines. The resistance of carbon lines is normally 100 Ω / 20 mm. In the present application, the resistance should not exceed 100 Ω over a distance of 20 mm, otherwise an incorrect signal is generated. The design of a membrane switch arrangement produced according to the invention is therefore such that no more than six bridging lines are arranged in a single loop. If, for example, six individual carbon lines, each with a length of 20 mm, are arranged in a connection loop, their total resistance is 6 × 100 = 600 Ω. If this resistance value is added to the resistance value of the silver line, the total resistance does not exceed the value up to which a suitable signal is still generated. With this arrangement, the lead wires 1 a of the X axis and 2 a of the Y axis are arranged integrally on a single membrane.

The membrane produced according to the invention is explained below. A Fig. 1 transparent adhesive sheet 1 shown is in accordance with silver conduits 2 a predetermined voltage Anord printed, as shown in Fig. 2. This Silberlei device 2 includes key switch connection points 21 and over bridging line connections 22nd Silver is an ideal material for a lead wire and has excellent ductility. The silver lines 2 are coated with an antioxidant layer 3 , which is shown in FIG. 3. The key switch connection points 21 and the bridging line connections 22 are not coated with the antioxidant layer 3 . The antioxidant layer 3 also serves as an insulating layer. However, their insulating effect is not perfect.

Therefore, as shown in Fig. 4, an additional insulating layer 4 is applied at the locations where the carbon bypass lines 51 are later to be. After completion of these three process steps, the keyboard connection points 21 are coated with a carbon layer, likewise the bridging line connections 22 are connected to one another with a carbon bridging line 51 , as shown in FIG. 5. In this way, a carbon bypass line 51 and a carbon touch switch ter connection point 52 is formed. Since the carbon line has a greater resistance, a silver test point 23 is printed on the silver lines 2 at intervals of 20 mm. Two silver test points 23 are connected to each other with a carbon test track 53 in order to be able to check the resistance of the carbon lines. In this way, an excellent arrangement of the lead wires is achieved.

The complete membrane arrangement can then be inserted into a keyboard. As shown in FIG ge in Figs. 6, 7 and 8 causes the depression of the rubber part 6, which has a carbon-bonding surface 61 at the bottom of each key is that an electrical connection with the carbon material connection point 52 produced. In this way, an electrically conductive connection loop between a line 1 a of the X axis and a line 2 a of the Y axis is produced. A signal is generated and an integrated circuit receives this signal. Because of this arrangement, the transparent adhesive film 1 is not compressed. By using the carbon connection point 52 and the rubber part 6 , this membrane key switch arrangement can be actuated at least 30 to 50 million times. In the method according to the invention, only a membrane sheet or membrane film is used with a silver line pattern 2 , an antioxidant layer 3 , an insulating layer 4 and a carbon layer 5 . In comparison to the prior art, two membrane sheets or foils are required less. The lead wires 1 a of the X axis and 2 a of the Y axis are integrated on a single membrane. The length of the lines is greatly reduced and a plurality of carbon lines are used as bypass lines to reduce the amount of silver lines required. The cost of the membrane switch assembly manufactured according to the invention is therefore only about 14 to 16 new Taiwanese dollars.

The present invention has the following advantages in particular on:

• 1. The lead wires 1 a of the X axis and 2 a of the Y axis are integrated on a single membrane. Two membrane sheets or foils can be omitted compared to the prior art. The manufacturing process comprises only four steps: 1) printing the silver line pattern, 2) applying the antioxidant layer, 3) applying the insulating layer, 4) applying the carbon layer. This saves time and reduces costs.
• 2. Due to the limited space on a single Not every connection loop can be made from a membrane single, uninterrupted line are made to it a plurality of bridging lines is therefore ver turns to save space. Through this arrangement five to six bypass lines in a single Connection loop arranged. The bypass lines are made of carbon because of this material is very inexpensive.
• 3. In the method according to the invention is a very strict one Quality control provided. Silver turns every 20 mm checkpoint arranged, then the silver lines printed. The carbon layer points accordingly proper test tracks on the resistance of the coals  to be able to check fabric lines. An excellent one The arrangement of the lead wires is achieved in this way.
• 4. When pressing the rubber part with a carbon connection area at the bottom of a button becomes a electrical contact with the carbon connection point manufactured. In this way it becomes a leading verb loop between one line of the X axis and one Y-axis line manufactured. By using the Carbon connection point and the rubber part can Membrane switch arrangement produced according to the invention operated at least 30 to 50 million times.
• 5. The cable length is significantly reduced and a more number of coals used as bridging lines Fabric lines reduce the amount of silver required cables. The cost of the manufactured according to the invention Membrane switch arrangements therefore drop to 14 to 16 new ones Taiwanese dollars.

The invention is above based on a single embodiment Example has been described. However, under the Scope of protection of the following claims various modifications tion and changes possible without the essence of the invention leave.

Claims (7)

1. A method for producing a membrane switch arrangement in which the lines ( 1 a) of the X-axis and ( 2 a) Y-axis are integrated on a single membrane, characterized by the following steps:

• 1) printing a silver line pattern ( 2 ) on a base membrane ( 1 ) to form a plurality of loops,
• 2) applying an antioxidant layer ( 3 ) to the silver line pattern ( 2 ),
• 3) applying an insulating layer ( 4 ) to the antioxidant layer ( 3 ),
• 4) applying a carbon layer ( 5 ) to the insulating layer ( 4 ).

2. The method according to claim 1, characterized in that each individual connection loop has a plurality of bridging lines ( 51 ), each having a length of not more than 20 mm, the number of bridging lines ( 51 ) in each connecting loop no longer than six. 3. The method according to claim 2, characterized in that the bridging lines ( 51 ) are made of carbon. 4. The method according to claim 2, characterized in that the resistance of the bridging lines ( 51 ) does not exceed 100 Ω / 20 mm. 5. The method according to claim 1, characterized in that a plurality of connection points ( 22 ) on the silver line pattern ( 2 ) are formed. 6. The method according to claim 5, characterized in that the connection points ( 22 ) are not coated with antioxidant ( 3 ). 7. The method according to claim 2, characterized in that a plurality of test points ( 23 ) are formed simultaneously with the silver line pattern ( 2 ) at a distance of 20 mm on the membrane, and that the carbon layer ( 5 ) test sections ( 53 ) each with a length of 20 mm, each connecting two test points ( 23 ) with each other to monitor the resistance of the carbon layer.