KR20150104829A - Switch sheet of membrane - Google Patents

Abstract

The present invention relates to a switch sheet of a membrane. The switch sheet of a membrane is used to prevent the generation of a ghost key in a key input device in a switching matrix method having a plurality of switch contacts, The present invention includes at least one film which controls the start point (Ss) of the column scanning direction of the switching matrix and at least one or two among the pattern length, width, and thickness of each switch contact (s0, s1, s2, s3, s4), and performs a pattering process to obtain a resistor (Rrr) of the same resistance by using conductive ink. The same resistance can be obtained by controlling the width and the thickness of a pattern without forming a complicated pattern. Thereby, processes can be simplified. Manufacturing cost can be greatly reduced.

Description

{SWITCH SHEET OF MEMBRANE}

The present invention relates to a membrane switch sheet, and more particularly, to a membrane switch sheet used in a switch matrix type key input device.

In general, a membrane switch sheet provides a switch matrix structure widely used for a key input device such as a membrane type keyboard. The membrane type keyboard is a keyboard with a thin film on the bottom of the key. It uses the elasticity of the membrane to determine the on / off state between the contacts.

For example, inside the keyboard using a membrane switch, you can see a silicone rubber under the button. This silicone rubber will apply pressure to the top of the membrane switch sheet film contacts (switches) underneath that particular area of the silicone rubber when the button on the top is pressed. At this time, a contact (switch) of the upper film and the lower film of the membrane switch sheet is connected to receive the pressing operation of the key by using the electrical signal conducted through the contact. Of course, when the key is not pressed, the contacts are separated due to the elasticity (restoring) force of the membrane switch sheet film and the elasticity (restoring) force of the silicone rubber, so that the electric signal is not conducted, do.

The membrane switch sheet is composed of a thin polyester film sheet, and an example of the membrane switch sheet will be described with reference to Figs.

1 is a view for explaining a conventional membrane switch sheet. The membrane switch sheet 71 includes a thin film insulation gap separator 72 having a plurality of through holes 75 and a pair of flexible insulation thin films 73 and 74 stacked with the insulation gap separator 72 therebetween . The insulation gap separating material 72 and the insulating thin films 73 and 74 are made of, for example, a polyester film. An insulating thin film 73 includes a plurality of second electrodes 76 opposed to the through hole 72 by a pattern forming method on its surface in contact with the spacing member 72, a resistor 77, One end of each electrode connected to the lead portion of the resistor 76 and one end of each electrode connected to the lead portion of the resistor 77 and a line 78 connected to the other end of the resistor 77 are formed.

The group of lines 80 of remaining insulating thin films 74 includes a line 80a connecting a plurality of electrodes 79 in series and a line 80b connecting a plurality of electrodes 79 to an external device do.

The electrodes 76 and 79 and the lines 78 and 80 are formed in a one-layer structure composed of only a first conductor layer made of silver and a layer having a low resistance value or a layer having a low resistance value And a second layer formed on one layer.

The switch patterns of the first layer and the second layer are formed by mixing silver or conductive carbon or the like on an ink base such as polyester or epoxy and printing and then hardening the printed film. It works as a resistive conductor.

The electrical conductivity (resistance value) of the signal lines formed through the printing process using the conductive ink on the surface of the film can be easily obtained by controlling the mixing ratio of the conductive medium such as silver or conductive carbon and the ink base .

1, the membrane switch sheet 71 has a gap separating member 72, a portion of the insulating thin film 73, and an insulating thin film 74 peeled from each other. When the upper surface of the insulating thin film 74 on which the electrode 79 is formed is pressed down by a key or the like in the switching matrix 71, the electrode 79 is formed on the insulating thin film 73 by deformation of the insulating thin film 74 And is connected to the counter electrode 76 which is formed by After the downward pressing force is removed, the contact between the electrodes 76 and 79 is removed by the spring repulsive force of the insulating thin film 74.

FIGS. 2 to 4 are views for explaining another conventional membrane switch sheet.

Fig. 2 is a lower layer film of a membrane switch sheet, Fig. 3 is an interlayer film of a membrane switch sheet, and Fig. 4 is an upper layer film of a membrane switch sheet. These elongated films overlap to form a membrane switch sheet. The membrane switch sheet is constructed on top of the switch matrix to create a switch matrix type key input device. The lower layer film 23 of the membrane switch sheet constitutes a line in the column direction of the switch matrix through the printing method on the upper surface of the film with conductive ink.

Here, since the two resistance values (Rs, Rr) must be patterned, the patterning is performed twice. The lower layer film 23 should be patterned separately from the resistor Rr having a high resistance value and the resistor Rs having a low resistance value. In addition, the intermediate layer film 24 of the membrane switch sheet of Fig. 3 has a plurality of holes to be a switch, and serves as an insulator with only a portion to be a switch open. Finally, the upper layer film 25 of the membrane switch sheet of Fig. 4 is constituted by printing a resistance Rs having a resistance value in the direction of the scanning direction of the switch matrix on a film with conductive ink.

The membrane switch sheet formed by stacking the films of the lower layer film 23, the intermediate layer film 24, and the upper layer film 25 in this manner has a structure in which, when pressure is applied to the upper film The switch is turned on by operating the contacts of the upper layer film 25 and the lower layer film 23 and when the pressure is removed (when the switching operation of the switch matrix is released) The switch is turned off.

The switch patterns of the lower layer film 23 and the upper layer film 25 of the membrane switch sheet are printed on a film by mixing silver or conductive carbon or the like with an ink base such as polyester or epoxy and then curing by heating. Such a printed surface will act as a conductor having a resistance that an electrical signal can pass through.

As described above, the upper layer film 25 is formed of a resistance Rs through a printing process using a conductive ink so as to have electrical conductivity and is used as a contact. A resistance Rs having a low resistance value is formed through the first printing process using a conductive ink also in the lower layer film 23 and a resistor Rr having a high resistance value is formed through a second printing process, It is used as a contact point with conductivity.

Therefore, the electrical conductivity (resistance value) of the signal lines formed through the printing process using the conductive ink on the surface of the upper layer film 25 and the lower layer film 23 is controlled by controlling the mixing ratio of the conductive medium such as silver or conductive carbon and the ink base Whereby a desired electric conductivity (resistance value) can be obtained. As described above, the conventional membrane switch sheet is formed by forming a pattern corresponding to a low-resistance switch wiring such as a resistor Rs on a line in the column scanning direction and forming a resistor Rr having a high resistance value near the switch contact come.

However, these conventional membrane switch sheets require a process step in which two conductive inks (Rr and Rs resistors) are printed and cured by heating on the lower layer film 23, which is the same polyester film, And the like.

SUMMARY OF THE INVENTION In order to solve the above problems, the present invention provides a membrane switch sheet capable of manufacturing a membrane switch sheet by a simple process without a complicated pattern formation process for resistance value control.

Another object of the present invention is to provide a membrane switch sheet which can reduce the manufacturing process of the membrane switch sheet and reduce the manufacturing cost.

According to another aspect of the present invention, there is provided a membrane switch sheet used for preventing ghost key generation in a key input device of a switching matrix type having a plurality of switch contacts, The pattern length, width, and thickness between the start point (Ss) and each switch contact (s0, s1, s2, s3, s4) are adjusted so that the resistances (Rrr) And at least one film to be wired by carrying out one patterning.

Further, the conductor of the conductive ink is characterized by being one of silver powder, carbon powder and another conductive material.

Further, the ratio of the conductor is adjusted and the resistance value per unit area is adjusted to pattern the resistor (Rrr) having the same resistance value through the single printing process.

The thickness of the pattern between the starting point Ss of the line in the column scanning direction of the switching matrix and each of the switch contacts s0, s1, s2, s3 and s4 is set so that the patterning time of the ink- The patterning speed is controlled to adjust the thickness of the pattern, thereby controlling the resistance value and patterning the pattern at a time.

According to the present invention configured as described above, the resistance value of the pattern can be determined by controlling the width and the thickness of the pattern without complicated pattern formation process, which is a simpler process. Accordingly, the manufacturing process is simplified more than the conventional technique, and the manufacturing time and manufacturing cost are reduced.

1 is a view for explaining a conventional membrane switch sheet.
FIGS. 2 to 5 are views for explaining another conventional membrane switch sheet.
6 to 8 are views for explaining a membrane switch sheet according to an embodiment of the present invention.
9 is a wiring diagram for explaining the wiring state of the membrane switch sheet according to the present invention with respect to the line in the column scanning direction.
10 is a wiring diagram for explaining the resistance value wired to the membrane switch sheet according to the present invention.
11 is a view for setting a resistance value by adjusting the thickness of a pattern according to another embodiment of the present invention.

Hereinafter, preferred embodiments of a membrane switch sheet according to the present invention will be described in detail with reference to the accompanying drawings.

In the membrane switch sheet according to the present invention, a resistor Rr having a high resistance value and a resistor Rs having a low resistance value are formed in a lower layer, an intermediate layer, and an upper layer film by patterning a conductive ink on the lower layer film, Instead of patterning twice, the resistor Rrr having an intermediate value is wired by one patterning. That is, since the resistors are manufactured so as to have the same resistance value from the starting point of the membrane pattern of the line in the column scanning direction to the switch portions (s0, s1, s2, s3 ....) of each switch matrix, The wiring of the resistor can be completed.

6 to 8 are views for explaining a membrane switch sheet according to an embodiment of the present invention.

Fig. 6 is a lower layer film of a membrane switch sheet, Fig. 7 is an interlayer film of a membrane switch sheet, and Fig. 8 is an upper layer film of a membrane switch sheet. These elongated films overlap to form a membrane switch sheet. The membrane switch sheet is constructed on top of the switch matrix to create a switch matrix type key input device.

The lower layer film 26 of the membrane switch sheet constitutes the line of the scanning direction of the switch matrix through the ink jet patterning printing method on the upper surface of the film with the conductive ink. Here, in patterning the conductive ink having one resistance value Rrr at one time, only the conductive pattern having a low conductivity (high resistance) is used to form all the conductive patterns. The conductive ink for forming such a conductive pattern can be adjusted in resistance per unit area (ohm per square, sheet resistance or unit of resistance) by adjusting the ratio of the conductor (silver powder or carbon powder or other conductive material). Here, the main technical point of the present invention is to control the lengths of the patterns to control the resistances equally, and to control the width and thickness of the patterns to pattern the resistances to be the same.

In addition, the intermediate layer film 27 of the membrane switch sheet of Fig. 7 has a plurality of holes to be a switch, and serves as an insulator with only a portion to be a switch opened. Finally, the upper layer film 28 of the membrane switch sheet of Fig. 8 is constituted by printing a resistance Rs having a resistance value in the direction of the scanning direction of the switch matrix on a film with conductive ink. That is, the interlayer film 27 and the upper layer film 28 of the membrane protector sheet of the present invention are made of the same film as the membrane switch sheet described previously.

The membrane switch sheet formed by overlapping the elongated films of the lower layer film 26, the intermediate layer film 27 and the upper layer film 28 is subjected to a pressing operation when a pressure is applied to the upper film The switch is turned on by operating the contacts of the upper layer film 28 and the lower layer film 26. When the pressure is removed (when the switching operation of the switch matrix is released), the restoring force of the film itself The switch is turned off.

In the membrane switch sheet of the present invention, not only the pattern distance between the starting point of the line in the column scanning direction and each switch contact can be formed to be the same length when the conductive ink of the lower layer film 26 is patterned, ) Or the thickness of the pattern to control the resistance value so as to perform the one-time patterning so as to have the resistance Rrr of the same resistance value using only low-conductivity ink.

6, the lower layer film 26 has switch contacts (s0, s1, s2, s3, s4) of the switch matrix and is formed by a single patterning with a resistor Rrr having a low- Respectively. The bottom layer film 26 shown in Fig. 6 is patterned for example for four rows (dotted lines) and wired to have five switch contacts s0s1, s2, s3, s4.

Hereinafter, the lower layer film 26, which is a feature of the present invention, will be described in more detail with reference to FIGS. 9 and 10. FIG.

9 is a wiring diagram for explaining the wiring state of the membrane switch sheet according to the present invention with respect to the line in the column scanning direction.

9, the resistive patterns show the same resistance value from the start point Ss of the left column to the switch contacts s0, s1, s2, s3, s4 The patterns L0, L1, L2, L3, and L4 are formed by adjusting the width of the pattern so that the pattern can be formed all at once.

That is, the pattern area from the starting point Ss to the switch contact s0, the pattern area from the starting point Ss to the switch contact s1, the pattern area from the starting point Ss to the switch contact s2, ) To the switch contact point s3 and the pattern area from the start point Ss to the switch contact point s4 are all formed to have the same length. At this time, the thickness of the pattern is the same by controlling the resistance value through the pattern width (area). Therefore, the resistance values from the starting point Ss of the left column to the switch contacts s0, s1, s2, s3 and s4 all have the same value.

For example, when the sheet resistance value of the conductive resistance is set to 1 * 1 mm 10 ohms and the area corresponding to the switch contact point from the left start point Ss of the switch is 200 * 35 mm, , It can be seen that 7 K ohms is formed. Therefore, the desired resistance Rrr can be patterned in the lower layer film 26 by a single printing process. It can be patterned by adjusting the size of the injection nozzle of the ink jet printer equipment.

10 is a wiring diagram for explaining resistance values wired to a membrane switch sheet according to the present invention. If the resistance value can be determined by calculating the pattern area through the width (d) and the length of each pattern, the final resistance value is determined by calculating the area area to be connected to the contact part. If the distance from S to the start point Ss is equal to the distance at which each switch contact branches, or if a relatively thick and short pattern is formed, the difference in the total resistance component will increase from the start point Ss to each switch contact Which is very small compared to the resistance value, does not affect the embodiment of the present invention.

11 is a view for setting a resistance value by adjusting the thickness of a pattern according to another embodiment of the present invention. As shown in the figure, the width of the pattern is set to the same value, but the resistance value is adjusted by adjusting the thickness of the pattern as shown in the lower cross-sectional view. This can be easily formed by controlling the time and speed of the ink jet patterning apparatus for forming a pattern on the switch sheet. The time can be kept the same and the volume of the patterned pattern can be made the same by controlling the pattern speed so that the resistance value can be made the same. The contact s0 having the shortest pattern length has the greatest thickness and then patterned in the order of the contact s1 -> the contact s2 -> the contact s3 -> the contact s4. There are differences in thickness, but the volume of each pattern is the same.

Although the membrane switch sheet of the above-described embodiment is described as being implemented as a lower layer film, it may be implemented as an upper layer film, or it may be possible to implement an upper layer film and a lower layer film at the same time.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. On the contrary, those skilled in the art will appreciate that many modifications and variations of the present invention are possible without departing from the spirit and scope of the appended claims. And all such modifications and changes as fall within the scope of the present invention are therefore to be regarded as being within the scope of the present invention.

26: Underlayer film
27: Interlayer film
28: upper layer film

Claims (3)

A membrane switch sheet used to prevent generation of a ghost key in a key input device of a switching matrix type having a plurality of switch contacts,
The width and the thickness of the pattern between the starting point Ss of the line in the column scanning direction of the switching matrix and the respective switch contacts s0, s1, s2, s3 and s4 are adjusted and the same And at least one film to be wired by performing a single patterning so as to have a resistance (Rrr) of a resistance value,
The pattern thickness between the starting point Ss of the line in the column scanning direction of the switching matrix and the switch contacts s0, s1, s2, s3 and s4 is set equal to the patterning time of the inkjet printer for pattern formation, And controlling the resistance of the pattern by controlling the thickness of the pattern by controlling the speed of the pattern. The membrane switch sheet according to claim 1, wherein the conductor of the conductive ink is any one of silver powder, carbon powder, and another conductive material. The membrane switch sheet according to claim 2, wherein the ratio of the conductor is adjusted and the resistance value per unit area is adjusted to pattern the resistor (Rrr) having the same resistance value through the single printing process.

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