TWM557854U - Multiple touch module - Google Patents

Abstract

The present invention relates to a multiple touch module, including a plurality of touch units and a touch film, wherein, the touch units including a material which induces a capacitance change of the capacitive touch screen, and disposed in a geometric relation on a design projected on the capacitive touch screen in a predesigned unique geometric relation, and a touch film including a contact area which comes into contact with the capacitive touch screen, and configured to dispose and fix a certain number of touch units corresponding to the geometric relation in the design on an internal area provided on an opposite side of the contact area, or to come into contact with the certain number of touch units corresponding to the geometric relation on the design through the internal area when the multiple touch module touches the capacitive touch screen.

Description

Multi-touch touch module

A multi-touch type touch module, in particular, can solve the problem that the mechanical structure of the capacitive touch screen is exposed when it is touched, and can also solve the problem of identification error of the electrostatic touch. A multi-touch touch module in which the geometric relationship is distorted.

The touch module is configured according to a pre-designed unique geometric relationship and corresponding to the plurality of touch portions. The touch portion is mainly made of a material that can induce electrostatic changes, and is mainly electrostatically touched. In a manner, after the touch module is touched, it touches the capacitive touch screen on the terminal, and after interpreting the geometric relationship of the plurality of touch points, the geometric relationship of the read multiple touch points is As a means of identification or verification of services, and thus can provide touch-based services; however, due to touch-based services, the geometric relationship formed by touch points will be recognized as a service. Means or verification means, so the geometric relationship of each touch part disposed on the touch module must be hidden. On the contrary, if the geometric relationship of each touch part is formed, it is easy to copy or be Serious problems with misappropriation.

In addition, if the touch portions with different heights are exposed to each other so that they directly touch the capacitive touch screen, since the touch pressure applied to the touch module is different, the touch portion with a higher height is used. The area touched will exceed the expected area. On the contrary, the touch area touched by the lower height will not reach the expected area, and the probability that the final geometric relationship will be distorted is increasing.

After correcting the previously distorted area, the touch portion is reconfigured in the touch module according to the height of the configuration, and the touch portions of the different heights continue to touch the capacitive touch screen. The force applied by the touch screen is affected by the difference in height of each touch portion, and it is inclined in a specific direction, which causes a problem that the geometric relationship is distorted.

Furthermore, most capacitive touch screens currently use an input method that is more suitable for electrostatic touch by a human finger. If the electrostatic capacity of the human body is used to identify multiple touch operations for two touch points, No special identification errors will occur, but in order to form a geometric relationship between the touch points, at least three or more touch points are used for multiple touches. Further, if it is to be used as a means of identification or For verification, it is necessary to make multiple touches by four or more touch points; however, the more the number of touch points to be multi-touch, the more likely it is that the touch cannot be recognized at the same time. The situation of all the touch parts on the module, for example, In the case of a known capacitive touch screen, a horizontal and vertical grid type touch circuit may be formed on the touch screen. In this case, if multiple touches are made in the three horizontal circuits, or three in the vertical direction The touch point in the circuit may be caused by the fact that the electrostatic capacitance is dispersed, so that some touch points cannot be recognized. In particular, a contact film is disposed between the touch portion and the touch screen on the touch module. On the device, the electrostatic capacity is more easily dispersed, and the problem that some touch points cannot be effectively recognized.

In view of the above problems, the creator is based on years of experience in related industries and product design, researching and analyzing existing touch technologies, and designing better touch modules. The main purpose is to provide a specific geometric relationship according to a pre-designed, corresponding to a plurality of touch parts, and the plurality of touch parts are mainly made of a material that can induce electrostatic changes, and in addition, in the plurality of touch parts and capacitive touch A touch film is disposed between the screens to achieve a multi-touch type touch module in which the touch portion can be effectively hidden.

Another object of the present invention is to provide a multi-touch type touch module, wherein the touch film includes a contact plane, and when the touch module touches the capacitive touch screen due to being touched, a plurality of The specified number and geometric relationship of the touch portion of the touch portion coincide with each other.

Another purpose of this creation is to provide a multi-touch touch The control module is configured to be fixedly disposed in the accommodating space of the touch film, and when the touch portions are subjected to the touch pressure of the user's finger, the capacitive touch can be performed according to the fine time difference. The screen sequentially identifies the touch pressure, and as a result, each touch portion provided on the touch module can effectively identify all touch points under the error-free state, especially the creation is not a touch. The direct touch touches the capacitive touch screen, but touches the capacitive touch screen through the touch film. Therefore, the minute time difference occurring on the inner surface of the touch film can control the simultaneous occurrence of the capacitive touch. Control the number of multiple touch points on the screen to obtain an effect that prevents identification errors.

Another purpose of the present invention is to provide a multi-touch type touch module, in which the touch film on the touch module is contacted with the capacitive touch screen in advance, and then the touch pressure is used to make each touch The control unit touches the capacitive touch screen. At this time, the touch portions are fixedly disposed in the receiving space of the touch film, and the touch film contacts the touch portions in the receiving space. Therefore, even if there is a slight time difference between the respective touch portions when the force is applied, the problem that the geometric relationship of each touch portion is distorted can be eliminated.

To achieve the above objective, the multi-touch touch module of the present invention comprises a plurality of touch portions and a touch film, wherein the plurality of touch portions are mainly made of a material that can induce electrostatic changes, and can be capacitive. The static touch is induced on the touch screen, and the plurality of touch portions are disposed on the capacitive touch screen according to a design with a specific geometric relationship; and the touch film is formed with a contact plane. When the group is touched by the capacitive touch screen, The contact plane is in contact with the capacitive touch screen; furthermore, an accommodating space is formed on the reverse surface of the contact plane, and a plurality of touch portions are fixedly disposed on the accommodating space, and the plurality of touches are The number of controls coincides with the design of the pre-existing geometric relationship.

Moreover, according to the present disclosure, the touch film can transmit the capacitive touch pressure of the touch portion to the capacitive touch screen, and can prevent the plurality of touch portions from being exposed, and the better condition is touch. The material of the control unit has the material properties that can be restored after shrinking.

According to the present disclosure, the position of the at least one touch portion of the plurality of touch portions can be fixed higher than the other touch portions. At this time, the touch portion will be the highest touch. The control unit began to touch the capacitive touch screen in a capacitive manner.

According to the present disclosure, the touch module may further include a frame portion that permits the electrostatic capacity of the human body to lead to the direction of the touch portion.

According to the present disclosure, the geometric relationship in the design is any one or a combination of distance relationships or angular relationships between adjacent touch portions.

According to the present disclosure, the geometric relationship of the design further includes setting a certain one of the touch portions from the plurality of touch portions. The geometric relationship of the specified position, according to which the geometric relationship of the design is any one of a distance relationship between the position of the specified touch portion, the position of the other touch portion, or an angle, or a combination thereof.

In addition, according to the content of the present invention, the geometric relationship of the design may also be a reference point for the location where the touch portion is specified, and the distance between the reference point and each touch portion. Or any of the angular relationships, or a combination thereof.

Furthermore, the creation is such that after the touch film is in contact with the capacitive touch screen, the plurality of touch portions are touched by the capacitive touch screen, and since the plurality of touch portions are fixedly set or contacted In the accommodation space of the touch film, during the touch recognition process, the geometric relationship can be prevented from being twisted due to the touch pressure of the touch module.

According to the present disclosure, a framing portion is formed in the multi-touch type touch module, and the plurality of touch portions corresponding to the geometric relationship may be fixedly disposed on the frame portion. The touch film can pass through the accommodating space and contact the touch portion fixedly disposed on the frame portion. Therefore, when the touch module touches the capacitive touch screen, the touch film is affected by the touch pressure. It will make contact with the touch portion fixedly arranged on the frame.

According to the present disclosure, among the plurality of touch portions corresponding to the geometric relationship, a part of the touch portion can be fixedly disposed on the touch film. In addition, the remaining touch portions can be fixedly disposed on a frame portion. Accordingly, the touch film can pass through the accommodating space to contact the remaining touch portions fixedly disposed on the frame portion, and the frame portion can be contacted. a portion of the touch portion that is fixedly disposed on the accommodating space of the touch film.

According to the present disclosure, a plurality of touch portions can be fixedly disposed on the accommodating space of the touch film, and the plurality of touch portions respectively correspond to the geometric relationship; and the touch module The frame portion is further connected to each touch portion fixedly disposed on the accommodating space of the touch film, and accordingly, when the touch module contacts the capacitive touch screen, the frame portion Under the influence of the touch pressure, the touch portions fixedly arranged in the accommodating space can be contacted.

In addition, the present invention is a multi-touch touch module, which is applied to a capacitive touch screen, which has the function of simultaneously performing multi-touch, and the multi-touch type touch module The system includes a plurality of touch portions, a frame portion, and a touch film, wherein the plurality of touch portions are mainly made of a material that can induce electrostatic changes, and the plurality of touch portions are specific to the touch The geometric relationship is arranged to form a positional configuration, corresponding to the capacitive touch screen; in addition, the frame portion is also arranged according to the position of the geometric relationship described above, and the plurality of touch portions are fixedly arranged, and the plurality of touch portions are fixed. Corresponding to the geometric relationship; the touch film is formed with a contact plane, and the contact plane can be in contact with the capacitive touch screen; further, the touch film can be contacted to the fixed position through the accommodating space. Each on the frame Touch unit.

The touch film is formed with a contact plane, the contact plane can be in contact with the capacitive touch screen, and an accommodating space is formed on the opposite surface of the contact plane, so that part of the touch portion can be fixedly disposed in the capacity Set the space.

Further, in addition to the plurality of touch portions that have been fixedly disposed in the accommodating space, the remaining touch portions are fixedly disposed on the frame portion; at this time, the touch film is in contact with Each of the touch portions fixedly disposed on the frame portion is in contact with the touch portion fixedly disposed in the accommodation space of the touch film.

In addition, the present invention is a multi-touch touch module, which is a touch module applied to a capacitive touch screen, which includes a plurality of touch portions and touches. The control film and the frame portion, wherein the plurality of touch portions are mainly made of a material that can induce electrostatic changes, and the plurality of touch portions are configured to correspond to the capacitive touch screen according to the pre-designed unique geometric relationship position; In addition, the touch film is formed with a contact plane, and the contact plane can make contact with the capacitive touch screen, and an accommodating space is formed on the opposite surface of the contact plane for a plurality of touch parts to be configured; The frame portion is in contact with the touch portion fixedly disposed on the accommodating space of the touch film.

According to the content of this creation, this creation can prevent the touch module from being The geometric relationship (for example, the distance and/or the angle) of the position of the plurality of touch portions and the mechanical structure (for example, the height difference) of the touch portions are exposed, so that the touch module is used for various touches. When the device is serviced, it can be used as a reliable means of identification and/or verification means.

According to the content of the present invention, the touch portion is fixedly disposed in the receiving space of the touch film, and when subjected to the touch pressure of the human finger, the capacitive touch screen sequentially recognizes the touch pressure according to the fine time difference. As a result, even when the number of touch portions provided on the touch module is increased, all touch points can be effectively recognized; for example, four or more touch portions are provided on the touch module. When the touch parts are forced to contact the capacitive touch screen at the same time, the technique of time difference detection is disclosed in the present invention, so that the capacitive touch screen can recognize all the touch points.

After the touch film provided on the touch module is in contact with the capacitive touch screen, the capacitive touch screen is touched by the plurality of touch portions. At this time, the plurality of touch portions are fixedly configured. The touch film is placed on the accommodating space of the touch film or is in contact with the accommodating space of the touch film. Therefore, even if the touch portion is sequentially touched on the capacitive touch screen, the touch portion can be prevented. The geometric relationship of the plurality of touch portions is affected by the touch pressure and causes distortion.

In order for your review board to have a clear understanding of the purpose, technical features and effectiveness of this creation, please use the following instructions to explain Please see.

100‧‧‧ touch module

110‧‧‧ touch film

110b‧‧‧ accommodating space

120‧‧‧Shell Department

130‧‧‧Hands

140‧‧‧buried holes

105‧‧‧ Touch Department

110a‧‧‧Contact plane

115‧‧‧ Frame Department

125‧‧ ‧ spring

135‧‧‧ buried in the board

FIG. 1 is a diagram showing the relationship between the touch portion and the touch film provided on the touch module of the present invention.

FIG. 2A to FIG. 2D are diagrams showing the relationship between the touch portion, the touch film, and the frame portion of the touch module according to the first embodiment.

FIG. 3A to FIG. 3D are diagrams showing the relationship between the touch portion, the touch film, and the frame portion of the touch module according to the second embodiment.

4A to 4D are diagrams showing the relationship between the touch portion, the touch film, and the frame portion of the touch module according to the third embodiment.

FIG. 5A to FIG. 5C are diagrams showing the relationship between the touch portion, the touch film, and the frame portion of the touch module according to the fourth embodiment.

6A to 6C are diagrams showing the relationship between the touch portion, the touch film, and the frame portion of the touch module according to the fifth embodiment.

7A to 7C are diagrams showing the relationship between the touch portion, the touch film, and the frame portion of the touch module according to the sixth embodiment.

8A to 8C are diagrams showing the relationship between the touch portion, the touch film, and the frame portion of the touch module according to the seventh embodiment.

9A to 9C are diagrams showing the relationship between the touch portion, the touch film, and the frame portion of the touch module according to the eighth embodiment.

10A to 10C are diagrams showing the relationship between the touch portion, the touch film, and the frame portion of the touch module according to the ninth implementation method.

11A to 11C are diagrams showing the relationship between the touch portion, the touch film, and the frame portion of the touch module according to the tenth implementation method.

12A to 12E are diagrams showing a touch module manufacturing process in an implementation method of the present invention.

13A to 13E are diagrams showing a touch module manufacturing process in another implementation method of the present invention.

Please refer to "Figure 1". The figure shows the relationship between the touch part and the touch film on the touch module of the creation. In more detail, the first picture shows the touch module ( 100) The relationship between the touch portion (105), the touch film (110) and the frame portion (115) is as shown in the figure. The touch module (100) is based on a pre-designed unique geometric relationship. The plurality of touch units (105) are mainly configured by a material that can induce electrostatic changes on the capacitive touch screen, and the touch module (100) includes a plurality of touches. a portion (105), a touch film (110), and a frame portion (115); wherein the plurality of touch portions (105) are configured to correspond to the capacitive touch screen according to a pre-designed unique geometric relationship; The film (110) is formed with a contact plane (110a) for making contact with the capacitive touch screen; accordingly, the plurality of touch portions (105) are fixedly disposed on the accommodation space (110b) of the touch film, or Being contacted with the accommodating space of the touch film (110) (110b), and the specified number and geometric relationship of the touch portions are matched with each other, and the frame portion (115) is a permitting capacity of the human body. The frame portion in the direction of the touch portion (105); further, the touch portion (105) is mainly made of a material that can induce electrostatic changes on the capacitive touch screen, and is preferably selected to be externally applied. After the force (for example, the touch pressure), the static change induction material has a shrinkage recovery.

According to the touch portion embodiment (1) of the present invention, the touch portion (105) may be any one of a conductive rubber material, a conductive plastic material, and a conductive silicone material, or a composite material thereof, for example, the touch portion. (105) The resistance value measured between the preset hardness (for example, Shore A hardness meter, 80 or less) or electrical resistance (for example, the touched portion and the portion electrically connected to the human body) Production requirements of 300 Ω or less).

According to the touch portion embodiment (2) of the present invention, the touch portion (105) is made of a metallic material, and the metal material can be made of a metal material having a high electrical conductivity ( For example, the resistance value measured between the touched part and the part electrically connected to the human body is 1 Ω or less. Generally, gold, silver, copper, aluminum or a composite material thereof is generally used, but the metallic material is difficult to reach. After the shrinkage recovery effect, it can also be used in combination with other static change induction materials on the touch module (100).

According to the touch part embodiment (3) of the present invention, the touch part (105) can be made by electroplating a metal material on a non-conductive material, and accordingly, the non-conductive material is recommended to shrink. After the material with the recovery characteristics; if the non-conductive material is used, and the material has no post-shrinkage recovery characteristics, it can also be combined with other static change induction materials with post-shrinkage recovery characteristics on the touch module (100). use.

According to the touch portion embodiment (4) of the present invention, the touch portion (105) can be formed by forming a metal film on the surface of the buffer material, and the buffer material has a shrinkage after use. The elastic material of the restoring property is made of, for example, a foaming material such as sponge or polyurethane, and the metal film is formed by plating/far-emitting or surface-emitting metal material on the cushioning material, for example. The touch portion (105) is a structure that can be designed as an EMI shielding pad.

According to the touch portion embodiment (5) of the present invention, the touch portion (105) can be made of a carbon fiber material including a carbon nanotube material or a single-sided carbon nanotube material.

According to the touch portion embodiment (6) of the present invention, the touch portion (105) can be fabricated by using a solid state electric substance or a liquid electric substance and a container containing the liquid electric substance to make the touch part (105) itself becomes an inducer; in addition, the induced substance refers to a substance that is affected by voltage or electromagnetic field, and which generates a polarization charge on the surface, and accordingly, this creation suggests using After the surface of the control screen is subjected to a polarization phenomenon by a voltage or an electromagnetic field, a strong electric charge substance (for example, barium titanate or Rhodes salt) capable of inducing a trapped charge of electrostatic change can be generated.

According to the touch portion embodiment (7) of the present invention, the touch portion (105) can adopt a combination of the contents of the touch portion embodiments (1) to (6). (For example, the metal material of the second touch portion is combined with the metal film on the surface of the buffer material having the post-shrinkage recovery property in the fourth touch portion embodiment; and the touch portion of the present invention is implemented. The example is not limited to the contents of the first and seventh touch unit embodiments, and any material will be included in the creation as long as it is made of a material that can induce electrostatic changes on the capacitive touch screen. Within the scope of the application.

The touch portion (105) fabricated on the touch portion embodiments (1) to (7) further includes a contact area of the touchable capacitive touch screen, and the contact of the touch portion (105) is recommended. The area is a circle having a diameter of 3 mm and 7 mm, or a circular or polygonal shape corresponding to a circular area of 3 mm and 7 mm in diameter.

According to the implementation method of the present invention, the plurality of touch portions (105) are formed to have the same height, or the height of at least one touch portion is higher than the other touch portions (105). When the height of the at least one touch portion is higher than that of the other touch portions (105), the touch portion (105) sequentially contacts the capacitive portion from the highest touch portion (105) in a capacitive manner. Touch screen. Further, even if the plurality of touch portions (105) are formed at the same height, a time difference is formed in the process in which the frame portion (115) is slid by the touch pressure, and the touch portion (105) is subjected to a fine time difference. Capacitively touches the capacitive touch screen.

The touch film (110) is made of a material that can transfer the electrostatic change caused by the touch portion (105) to the capacitive touch screen. Comparative suggestion The touch film is formed into a plate shape that can contact the contact plane (110a) of the capacitive touch screen. The touch film (110) may be in contact with the touch portion (105), and the touch portion (105) may be fixedly disposed on the opposite surface of the contact plane (110a) to form an accommodation space (110b), or may be fixed. It is set in the frame part (115).

According to the implementation method of the present invention, the touch film (110) is a touch portion (105) that can be fixedly disposed on the accommodating space (110b), and is in contact with the accommodating space (110b). The capacitive touch pressure generated on the control unit (105) is made to the material of the capacitive touch screen. From the viewpoint of electrical conduction, the touch film (110) is made of a material selected from a combination of a non-conductive material and a conductive material and a non-conductive material.

According to the conductive embodiment (1) of the touch film material of the present invention, the touch film (110) can be made of a non-conductive material. In this case, the recommended thickness of the touch film (110) is 0.2. Within mm. When the thickness of the touch film (110) is less than 0.2 mm, even if a conductive material is used, the static electricity used in the plurality of touch portions (105) induces electrostatic changes in the material. More than 99% of the static change content is transferred to the capacitive touch screen.

However, the thickness of the touch film (110) made of a non-conductive material is proportional to the magnitude of the current or voltage permitted on the surface of the capacitive touch screen, or to the electrostatic capacity of the human body. The resistive force of the touch portion (105) made of the conductive material is negative. As mentioned earlier, The scope of application of this creation already includes the case of a touch film (110) made of a non-conductive material.

According to the conductive embodiment (2) of the touch film material of the present invention, the touch film (110) is formed by using a non-conductive material to form a plurality of lattice-like structures (or honeycomb structures), and through the plurality of holes A plated hole of a metal material is plated on a predetermined area (for example, about 2 mm in diameter) on both sides of the touch film (110). In the touch film embodiment (3), the metal material plated on the two areas defined by the plating holes conveys the static change of the touch portion (105). Therefore, it is recommended that the plating holes be arranged in a relatively dense state (for example, the area of plating on both sides through the plating holes is about 2 mm). In addition, when the touch film (110) is formed as a plating hole, although the thickness of the touch film (110) is not limited, if it is within 0.2 mm, the transfer rate of the static change is further improved.

According to the conductive embodiment (3) of the touch film material of the present invention, the touch film (110) can be formed by embedding a conductive material (for example, a metal material) on the inside of the non-conductive material. Conductive layer. The conductive layer can be in the form of a plate or a mesh. In the touch film embodiment (3), although the thickness of the touch film (110) may not be limited, it is recommended that the touch film (110) be in contact with the capacitive touch screen state. The spacing between the conductive layer and the capacitive touch screen is less than 0.2 mm.

According to the conductivity embodiment (4) of the touch film material of the present invention, The touch film (110) can be formed by combining the conductive embodiments (1) to (3). In addition, the embodiment of the touch film (110) of the present invention is not limited to the foregoing embodiments, as long as the material or the characteristic thereof can transmit the electrostatic change caused by the touch portion (105) to the capacitive type. Touch screen effects, regardless of type and structure, will be included in the scope of this creation.

According to the implementation method of the present invention, the touch film (110) includes a structure that can block, prevent the fixed configuration on the accommodating space (110b) and/or the touched portion (105) from being exposed. Material. The touch film (110) is made of an opaque material, or is made of an opaque material on at least one side, or is made of a translucent material, or at least in one The side is made of a translucent material, or made of a transparent material, or made of a transparent material on at least one side, or made of a variable-diameter material, or at least on one side. It is made of a variable-angle material and can be combined with one or two or more materials.

According to the perspective embodiment (1) of the touch film material of the present invention, the touch film (110) includes an opaque material, and the opaque material can transfer the electrostatic change caused by the static electricity induction material to the capacitive touch. Screen. In this case, the preferred opaque material is a material containing a light transmittance of 0% incident on the touch film (110), but the so-called opaque material range may also include that the external space is not recognized by the naked eye (110b). The transmittance of the specified geometric relationship of the plurality of touch portions (105), and the range data thereof is The light transmittance is less than 5%.

According to the perspective ratio embodiment (2) of the touch film material of the present invention, the touch film (110) includes an opaque material on at least one side, and the opaque material can convey the static change caused by the static electricity change induction material. For capacitive touch screens. For example, the touch film (110) includes a transparent or translucent material on the other side, and has an opaque material layer or film on at least one side, or a coated or painted opaque material.

According to the perspective embodiment (3) of the touch film material of the present invention, the touch film (110) comprises a translucent material, and the translucent material can transfer the electrostatic change caused by the static electricity induction material to the capacitive type. Touch screen. At this time, the semi-transparent material refers to a range in which the transmittance of the light entering the touch film (110) is not in the range of opacity, and is not in the transparent range.

According to the perspective embodiment (4) of the touch film material of the present invention, the touch film (110) comprises a translucent material on at least one side, and the translucent material can change the static electricity caused by the static change induction material. Transfer to the capacitive touch screen. For example, the touch film (110) is provided with a transparent or opaque material on the other side, and has a translucent material layer or film on at least one side, or a coated or painted translucent material.

According to the perspective ratio embodiment (5) of the touch film material of the present invention, The touch film (110) is made of a transparent material, and the transparent material can transfer the electrostatic change caused by the static electricity change induction material to the capacitive touch screen. At this time, a preferred transparent material is a material containing a light transmittance of 100% incident on the touch film (110), but the so-called transparent material range may also include a material having a transmittance of 95%.

According to the perspective ratio embodiment (6) of the touch film material of the present invention, the touch film (110) includes a transparent material on at least one side, and the transparent material can transmit the static change caused by the static electricity change induction material to Capacitive touch screen. For example, the touch film (110) is provided with an opaque or translucent material on the other side, and has a transparent material layer or film on at least one side, or a coated or painted transparent material.

According to the perspective ratio (7) of the touch film material of the present invention, the touch film (110) is a material having a variable transmittance, and the variable transmittance material can change the static electricity caused by the static electricity change induction material. Transfer to the capacitive touch screen. At this time, the so-called variable transmittance material refers to a substance that is affected by an electrical signal and whose perspective ratio can be changed. For example, the perspective ratio is variable glass. However, the variable permeability material is not limited to the perspective variable glass. As long as the electrostatic change caused by the static change induction material can be transferred to the capacitive touch screen, the material with a variable perspective ratio is It is included in the scope of this creation application.

According to the perspective ratio embodiment (eight) of the touch film material of the present invention, The touch film (110) includes a variable transmittance material on at least one side, and the variable transmittance material can transfer the electrostatic change caused by the static electricity change induction material to the capacitive touch screen. For example, the touch film (110) comprises a translucent or opaque material on the other side, and has a layer of a variable permeability material or film on at least one side, or a coated or lacquered variable-rate material.

According to the perspective ratio embodiment (8) of the touch film material of the present invention, the touch film (110) is formed by combining the first (a) and (eight) embodiments of the perspective. In addition, the embodiment of the touch film (110) of the present invention is not limited to the foregoing embodiments, as long as the material or the characteristic thereof can transmit the electrostatic change caused by the touch portion (105) to the capacitor. If the touch screen effect is applied, materials with any light transmittance will be included in the application scope of this creation.

According to the implementation method of the present invention, when the contact plane (110a) of the touch film (110) is in contact with the capacitive touch screen, it is fixedly disposed on the receiving space (110b) of the touch film (110). The touch portion (105) and/or the touch portion (105) that makes contact with the accommodating space (110b) of the touch film (110) may generate an electrostatic touch on the capacitive touch screen. pressure.

According to the touch portion configuration embodiment (1) of the present invention, the plurality of touch portions (105) can be fixedly disposed on the frame portion (115), and at this time, according to the pre-designed geometric relationship on the frame portion (115) The plurality of touch units (105) are fixedly arranged. After the plurality of touch portions (105) are fixedly disposed in the frame portion (115), the device is reused. When the touch module (100) of the frame portion (115) touches the capacitive touch screen, the touch portions (105) fixedly disposed on the frame portion (115) may generate plural numbers according to the geometric relationship. Touch the point, and the capacitive touch screen will recognize multiple touch points. Then, in the touch portion configuration embodiment (1), the plurality of touch portions (105) are fixedly arranged on the frame portion (115) according to the geometric relationship of the capacitive touch screen.

According to the touch portion configuration embodiment (2) of the present invention, the plurality of touch portions (105) are fixedly disposed on the accommodating space (110b) of the touch film (110), and at this time, the touch film is The plurality of touch portions (105) are fixedly arranged on the accommodating space (110b) of the (110) according to a pre-designed geometric relationship. After the plurality of touch portions (105) are fixedly disposed on the accommodating space (110b) of the touch film (110), the touch mode having the accommodating space (110b) of the touch film (110) is used. When the group (100) touches the capacitive touch screen, the touch portions (105) fixedly disposed on the receiving space (110b) of the touch film (110) may generate a plurality of touch points according to the geometric relationship. And the capacitive touch screen will recognize multiple touch points. In the touch device configuration embodiment (2), the touch space (110b) of the touch film (110) is fixedly configured with a plurality of touch portions according to the geometric relationship of the transparent touch screen. ).

According to the touch portion configuration embodiment (3) of the present invention, a portion of the touch portion (105) of the plurality of touch portions (105) is a receiving space (110b) that can be fixedly disposed on the touch film (110). The other remaining touch portions (105) are fixedly disposed on the frame portion (115). The touch portion is configured on the embodiment (3), so-called The geometric relationship between the plurality of touch portions (105) includes a touch portion (105) fixedly disposed in the receiving space (110b) of the touch film (110), and a touch fixedly disposed on the frame portion (115). Department (105) configuration location. In the touch portion configuration embodiment (3), the geometric relationship includes a portion of the touch portion (105) fixedly disposed in the accommodating space (110b) of the touch film (110), and a fixed position After the remaining touch portions (105) of the frame portion (115) are assembled, they are transmitted to the geometric relationship of the touch portions (105) of the capacitive touch screen.

According to the touch portion configuration embodiments (1) to (3) of the present invention, the geometric relationship between the fixed touch portions (105) is the distance relationship between the force points from the touch portions (105), and each The angular relationship between the force points of the touch portion (105), the distance relationship between the force points of the touch portions (105), and the angular relationship include at least one relationship.

According to the implementation method of the present invention, the geometric relationship of the fixed touch portion (105) fixedly includes the geometrical configuration of the fixed touch portion (105) in a predetermined fixed position among the plurality of touch portions (105). relationship. At this time, the geometric relationship is a distance relationship between a force point from the designated touch portion (105) and a force point of the other remaining touch portions (105), a force point of the designated touch portion (105), and the like. The angular relationship between the force points of the remaining touch portions (105), the distance between the force points of the designated touch portion (105) and the other remaining touch portions (105), and at least one relationship are included. In addition, the designated touch portion (105) fixedly disposed at the preset fixed position is a flag that can be used as a reference point for determining the geometric relationship. At this point, the geometric relationship is from the specified The distance relationship between the reference point determined by the touch unit (105) and the force point of each touch unit (105), the angular relationship between the reference point and the force point of each touch unit (105), and the reference The distance between the point and the force point of each touch portion (105) and the angular relationship include at least one relationship. The designated touch portion (105) or the reference point is such that the touch module (100) can provide a geometric relationship capable of interpreting the touch points regardless of the direction or position from which the capacitive touch screen is touched. Benchmark.

Please refer to "2A to 2D". The figure shows the relationship between the touch part and the touch film and the frame part of the touch module according to the first embodiment. 2A to 2D represent embodiments in which a plurality of touch portions (105) of the same height are disposed in the accommodation space (110b) of the touch film (110) according to a pre-designed geometric relationship. Please refer to FIG. 2A. As shown in the figure, the touch module (100) is provided with a touch film (110), and the touch film has a receiving space (110b), and is pre-designed according to the receiving space. The geometric relationship is fixedly configured with a plurality of touch portions (105) of the same height, and the touch module (100) is provided with a frame portion (115). When the contact plane (110a) of the touch film (110) is contacted with the capacitor After the touch screen is applied, each touch portion (105) fixedly disposed on the accommodating space (110b) of the touch film (110) maintains a certain distance from the frame portion (115) before the touch pressure is applied. The isolation state of the touch panel (100) has a casing portion (120), and the casing portion (120) fixes the touch film (110) and also protects A touch portion (105) fixedly disposed on the accommodating space (110b) of the touch film (110). The touch film (110) is fixedly disposed on the outer casing portion (120), and the touch film The touch portion (105) fixedly disposed on the accommodating space (110b) of (110) is protected by the touch film (110) and the outer casing portion (120) without being exposed outward. The outer casing portion (120) has a frame portion (115) therein, and the frame portion has a facing surface, and the opposite surface is fixedly disposed on the receiving space (110b) of the touch film (110). The touch portion (105) can make a contact. After one side of the frame portion (115) is extended toward the outside of the outer casing portion (120), the electrostatic capacity is obtained from the handle portion of the touch module (100). In addition, a frame portion (115) protruding from the outside of the outer casing portion (120) is connected to the handle portion (130), and the handle portion (130) may include a conductive connection with the frame portion (115). Material.

Please refer to FIG. 2B again. The touch module (100) is provided with a spring (125). When the contact plane (110a) of the touch film (110) is contacted with the capacitive touch screen, the touch is applied. Before the pressure, the touch portions (105) and the frame portions (115) fixedly disposed on the accommodating space (110b) of the touch film (110) are maintained at a certain distance by the spring (125). Further, like the 2D drawing, the spring (125) can be omitted. Referring to the figure, when the contact plane (110a) of the touch film (110) is contacted with the capacitive touch screen, the frame portion (115) and the touch film are applied when the touch pressure is applied. The touch portion (105) fixedly disposed on the accommodating space (110b) of the (110) is in contact, and at this time, the electrostatic capacity of the human body applying the touch pressure is transferred to the touch film through the frame portion (115). 110) The touch portion (105) fixedly disposed on the accommodating space (110b), and the capacitive touch screen identifies the accommodating space of the touch film (110) according to a preset unique geometric relationship ( 110b) A touch of the plurality of touch portions (105) fixedly disposed.

Please refer to "3A to 3D". The figure shows the relationship between the touch part and the touch film and the frame part of the touch module according to the second embodiment. More specifically, FIGS. 3A through 3D represent embodiments in which a plurality of touch portions (105) of the same height are disposed on the frame portion (115) of the touch film (110) in accordance with a pre-designed geometric relationship.

Please refer to FIG. 3A. As shown in the figure, the touch module (100) is provided with a frame portion (115), and a plurality of touch portions of the same height are fixedly arranged according to a pre-designed geometric relationship in the frame portion (105). The touch module (100) is provided with a touch film (110). After the contact plane (110a) of the touch film (110) is contacted with the capacitive touch screen, before the touch pressure is applied, The touch portions (105) that are fixedly disposed in the frame portion (115) are kept at a certain distance from the touch film (110). Please refer to "3B" for the touch module (100). There is a housing portion (120), and the housing portion (120) fixes the touch film (110), and also protects the touch portions (105) that are fixedly disposed in the frame portion (115). The touch film (110) is fixedly disposed on the outer casing portion (120), and the touch portions (105) fixedly disposed in the frame portion (115) are received by the touch film (110) and the outer casing portion ( 120) protection without being exposed. After one side of the frame portion (115) is extended toward the outside of the outer casing portion (120), the electrostatic capacity is obtained from the handle portion of the touch module (100). In addition, a frame portion (115) protruding toward the outside of the outer casing portion (120) is connected to the handle portion (130), and the handle portion (130) may include an electrical connection with the frame portion (115). Conductive material; please refer to "3B", the touch module (100) has a bomb a spring (125), after the contact plane (110a) of the touch film (110) is contacted with the capacitive touch screen, the touch portions of the frame portion (115) are fixedly disposed before the touch pressure is applied. (105) and the accommodating space (110b) of the touch film (110) maintain a certain distance of isolation through the spring (125). In addition, like the 3D figure, the spring (125) can be omitted.

Please refer to "3C". When the contact plane (110a) of the touch film (110) is contacted with the capacitive touch screen, the contact space of the touch film (110) is applied when the touch pressure is applied. (110b) is in contact with each touch portion (105) that is fixedly disposed in the frame portion (115). At this time, the electrostatic capacity of the human body applying the touch pressure is transferred to the touch portion through the frame portion (115). (105), and according to the preset unique geometric relationship, the capacitive touch screen recognizes the touch of each touch portion (105) in the frame portion (115) that is fixedly arranged.

Please refer to "4A to 4D". The figure shows the relationship between the touch part and the touch film and the frame part of the touch module according to the third implementation method. 4A to 4D represent that the plurality of touch portions (105) of the same height are disposed in the accommodating space (110b) of the touch film (110) according to the pre-designed geometric relationship, and the remaining remaining The touch portion (105) is fixedly disposed on the frame portion (115).

Please refer to FIG. 4A. The touch module (100) shown in the figure is provided with a touch film (110) and a frame portion (115), wherein the touch film has a receiving space (110b), and since Partial touch in the complex touch section (105) of the same height The control unit (105) is fixedly disposed on the accommodating space (110b), and other than the part of the touch portion fixed on the accommodating space (110b) of the touch film (110) The touch portion is fixedly disposed on the frame portion (115). An arrangement position of the touch portion (105) fixedly disposed on the accommodation space (110b) of the touch film (110) and an arrangement position of the remaining touch portion (105) fixedly disposed in the frame portion (115) The combined geometric relationships will be formed into preset unique geometric relationships. Referring to the figure, when the contact plane (110a) of the touch film (110) is contacted with the capacitive touch screen, the touch film (110) is accommodated before the touch pressure is applied. The touch portion (105) fixedly disposed on the (110b) is kept at a certain distance from the frame portion (115), and the touch portion (105) fixedly disposed in the frame portion (115) is associated with the touch portion (105). The accommodating space (110b) of the touch film (110) maintains a certain distance of isolation.

Please refer to "FIG. 4B". The touch module (100) has a housing portion (120), and the housing portion (120) fixes the touch film (110) and also protects the touch film ( 110) The touch space (105) of the accommodating space (110b) and the frame portion (115) are dispersed and fixedly arranged. The touch film (110) is fixedly disposed on the outer casing portion (120), and is dispersed and fixedly disposed on the accommodating space (110b) and the frame portion (115) of the touch film (110). The portion (105) is protected by the touch film (110) and the outer casing portion (120) without being exposed. After one side of the frame portion (115) is extended to the outside of the outer casing portion (120), the electrostatic capacitance is obtained from the handle portion of the touch module (100). In addition, a frame portion (115) protruding toward the outside of the outer casing portion (120) is connected to the handle portion (130), and the handle portion (130) may include an electrical connection with the frame portion (115). pass Conductive material. Referring to the figure, the touch module (100) is provided with a spring (125). When the contact plane (110a) of the touch film (110) is contacted with the capacitive touch screen, the touch is applied. Before the pressure, the touch portions (105) fixedly disposed in the frame portion (115) and the receiving space (110b) of the touch film (110) are maintained at a certain distance from each other by the spring (125). In addition, like the 4D figure, the spring (125) can be omitted.

Please refer to "4C", as shown in the figure, when the contact plane (110a) of the touch film (110) is contacted with the capacitive touch screen, the touch film (110) is applied when the touch pressure is applied. The touch portion (105) that is fixedly disposed in the accommodating space (110b) is in contact with the frame portion (115), and the touch portion (105) fixedly disposed in the frame portion (115) and the touch portion The accommodation space (110b) of the membrane (110) makes contact. At this time, the electrostatic capacity of the human body applying the touch pressure is transferred to the touch portion (105) through the frame portion (115), and the capacitive touch screen recognizes the touch film according to the preset unique geometric relationship ( 110) The accommodation space (110b) and the frame portion (115) are touched by the fixed touch portions (105).

Please refer to "5A to 5C". The figure shows the relationship between the touch part and the touch film and the frame part of the touch module according to the fourth embodiment. 5A to 5C represent a plurality of touch portions (105) having at least one touch portion (105) having a height different from that of the other touch portions (105) according to a pre-designed geometric relationship. An embodiment of the accommodation space (110b) of the membrane (110).

Please refer to FIG. 5A. The touch module (100) is provided with a touch film (110) and a frame portion (115). The touch film has a receiving space (110b) and is disposed on the receiving space. The plurality of touch portions (105) having a height different from that of the other touch portions (105) are fixedly disposed, and are fixed on the accommodation space (110b) of the touch film (110). The configured touch portion (105) maintains a certain distance from the frame portion (115).

Please refer to FIG. 5B. The touch module (100) has a housing portion (120), and the housing portion (120) fixes the touch film (110) and also protects the touch film. A touch portion (105) fixedly disposed on the accommodation space (110b) of (110). The touch panel (110) is fixedly disposed on the outer casing portion (120), and the touch portion (105) fixedly disposed on the receiving space (110b) of the touch film (110) is subjected to the touch The membrane (110) and the outer casing portion (120) are protected from exposure to the outside. The outer casing portion (120) is provided with a frame portion (115), and the frame portion has a facing surface, and the opposite surface is fixed to the receiving space (110b) of the touch film (110). The touch portion (105) can make contact. After one side of the frame portion (115) is extended to the outside of the outer casing portion (120), the electrostatic capacitance is obtained from the handle portion of the touch module (100). In addition, a frame portion (115) protruding from the outside of the outer casing portion (120) is connected to the handle portion (130), and the handle portion (130) may include an electrical connection with the frame portion (115). Conductive material. Referring to the figure, the touch module (100) is provided with a spring (125). When the contact plane (110a) of the touch film (110) is contacted with the capacitive touch screen, the touch is applied. Before the pressure, each touch portion (105) and the frame portion fixedly disposed on the accommodating space (110b) of the touch film (110) (115) will maintain a certain distance of isolation through the spring (125).

Please refer to "5C" for the following. When the contact plane (110a) of the touch film (110) is contacted with the capacitive touch screen, when the touch pressure is applied, it is fixedly disposed on the touch film ( 110) The touch portion (105) of the accommodating space (110b), the highest touch portion (105) starts to sequentially touch the frame portion (115), and at this time, the electrostatic capacity of the human body that touches the pressure is applied. The touch portions (105) of different heights fixedly disposed on the accommodating space (110b) of the touch film (110) are sequentially transferred to the frame portion (115), and are preset according to the preset features. In the geometric relationship, the capacitive touch screen sequentially identifies the touches of the touch portions (105) in which the accommodation space (110b) of the touch film (110) is fixedly disposed.

Please refer to "6A to 6C". The figure shows the relationship between the touch portion and the touch film and the frame portion of the touch module according to the fifth embodiment. In more detail, FIGS. 6A to 6C represent a plurality of touch portions (105) having at least one touch portion (105) having a height different from that of the other touch portions (105) according to a pre-designed geometric relationship. An embodiment of the frame portion (115).

Please refer to FIG. 6A. The touch module (100) includes a frame portion (115) and a touch film (110). The height of the at least one touch portion (105) is fixed in the frame portion (115). a plurality of touch portions (105) different in height from the other touch portions (105), when the contact plane (110a) of the touch film (110) is contacted with the capacitor After the touch screen is applied, the touch portions (105) fixedly disposed in the frame portion (115) are kept at a certain distance from the touch film (110) before being applied with the touch pressure.

Please refer to FIG. 6B. The touch module (100) has a casing portion (120), and the casing portion (120) fixes the touch film (110) and also protects the frame portion ( 115) Each touch portion (105) that is fixedly disposed. The touch film (110) is fixedly disposed on the outer casing portion (120), and the touch portions (105) fixedly disposed in the frame portion (115) are received by the touch film (110) and the outer casing. The part (120) is protected from exposure. After one side of the frame portion (115) is extended to the outside of the outer casing portion (120), the electrostatic capacitance is obtained from the handle portion of the touch module (100). In addition, a frame portion (115) protruding toward the outside of the outer casing portion (120) is connected to the handle portion (130), and the handle portion (130) may include an electrical connection with the frame portion (115). Conductive material; please refer to FIG. 6B again, the touch module (100) is provided with a spring (125), after the contact plane (110a) of the touch film (110) is contacted with the capacitive touch screen, Before the touch pressure is applied, the touch portions (105) fixedly disposed in the frame portion (115) and the receiving space (110b) of the touch film (110) are maintained at a certain distance through the spring (125). Isolated state.

Please refer to "FIG. 6C". When the contact plane (110a) of the touch film (110) is contacted with the capacitive touch screen, when the touch pressure is applied, it is fixedly disposed in the frame portion (115). Among the touch portions (105), the highest touch portion (105) starts to sequentially touch the frame portion (115), and at this time, touch is applied. The electrostatic capacitance of the human body that is under pressure is sequentially transferred to the touch portions (105) of different heights fixedly arranged in the frame portion (115) through the frame portion (115), and according to a preset unique geometric relationship, The capacitive touch screen sequentially identifies the touches of the touch portions (105) in which the accommodation space (110b) of the touch film (110) is fixedly disposed.

Please refer to "7A to 7C" for the relationship between the touch portion and the touch film and the frame portion of the touch module according to the sixth embodiment. In more detail, the 7A to 7C diagrams represent a plurality of touch portions (105) having a height different from that of the other touch portions (105) according to a pre-designed geometric relationship. An embodiment in which a part of the touch portion (105) is fixedly disposed on the accommodating space (110b) of the touch film (110), and the other remaining touch portions (105) are fixedly disposed in the frame portion (115) .

Please refer to FIG. 7A. As shown in the figure, the touch module (100) is provided with a touch film (110) and a frame portion (115), wherein the touch film has a receiving space (110b), and at least one The touch portion (105) is fixed in a plurality of touch portions (105) having different heights from the other touch portions (105), and the touch portion (105) is fixedly disposed in the receiving space of the touch film (110) ( 110b), and the at least one touch portion (105) has a height different from that of the other touch portions (105), and the accommodation space (110b) except the touch film (110) The remaining touch portion (105) other than the portion of the touch portion (105) fixedly disposed is fixedly disposed in the frame portion (115). Positioning the touch portion (105) fixedly disposed on the accommodation space (110b) of the touch film (110) and the inner portion of the frame portion (115) The geometric relationship formed by the combination of the configuration positions of the remaining touch portions (105) of the configuration will be formed into a preset unique geometric relationship; then, as shown in the figure, when the touch film (110) is in contact with the plane After the (110a) is touched by the capacitive touch screen, the touch portion (105) fixedly disposed on the accommodating space (110b) of the touch film (110) and the frame portion is applied before the touch pressure is applied. (115) Maintaining a certain distance of the isolation state, the touch portions (105) fixedly disposed in the frame portion (115) are kept in a separated state from the accommodation space (110b) of the touch film (110) by a certain distance.

Please refer to FIG. 7B. The touch module (100) has a housing portion (120), and the housing portion (120) fixes the touch film (110) and also protects the touch film. Each of the touch portions (105) of the (110) housing space (110b) and the frame portion (115) are dispersed and fixed. The touch film (110) is fixedly disposed on the outer casing portion (120), and is dispersed and fixedly disposed on the accommodating space (110b) and the frame portion (115) of the touch film (110). The portion (105) is protected by the touch film (110) and the outer casing portion (120) without being exposed. After one side of the frame portion (115) is extended to the outside of the outer casing portion (120), the electrostatic capacitance is obtained from the handle portion of the touch module (100). In addition, a frame portion (115) protruding toward the outside of the outer casing portion (120) is connected to the hand portion (130), and the handle portion (130) may include an electrical connection with the frame portion (115). Conductive material, as shown in the figure, the touch module (100) is provided with a spring (125), after the contact plane (110a) of the touch film (110) is contacted with the capacitive touch screen, Before the touch pressure is applied, each touch portion (105) in the frame portion (115) is fixedly disposed and the accommodation space (110b) of the touch film (110) The isolation state of a certain distance is maintained by the spring (125).

Please refer to "Picture 7C". When the contact plane (110a) of the touch film (110) is contacted with the capacitive touch screen, the contact pressure is applied to the touch film (110). Among the touch portions (105) of the accommodation space (110b), the touch portion (105) having a higher height starts to sequentially touch the frame portion (115), and is fixedly disposed on the frame portion. Among the touch portions (105) of (115), the touch portion (105) having a higher height starts to sequentially touch the accommodation space (110b) of the touch film (110). If the touch portion (105) having the highest height among the plurality of touch portions (105) is fixedly disposed in the accommodation space (110b) of the touch film (110), it is fixedly disposed after being subjected to the touch pressure. Among the touch portions (105) of the accommodation space (110b) of the touch film (110), the touch portion (105) having the highest height starts to sequentially touch the frame portion (115). Further, among the plurality of touch portions (105), the touch portion (105) having the highest height is fixedly disposed on the frame portion (115), and after being subjected to the touch pressure, each of the fixed touch portions (115) is fixedly disposed on the frame portion (115). Among the touch portions (105), the touch portion (105) having the highest height starts to sequentially touch the accommodation space (110b) of the touch film (110). At this time, the electrostatic capacity of the human body applying the touch pressure is first transferred to the frame portion (115) and fixedly disposed on the touch portion (105), and then, because it is fixedly disposed on the touch film (110) The touch portion (105) of the space (110b) is contacted with the frame portion (115), so the electrostatic capacity is continuously transferred to the accommodating space (110b) fixedly disposed in the touch film (110). Touch unit (105). The order in which the touch portion (105) fixedly disposed on the accommodating space (110b) of the touch film (110) contacts the frame portion (115), and the touch portion fixedly disposed on the frame portion (115) (105) to contact the The order of the accommodating space (110b) of the touch film (110) is based on the two sequences and the preset unique geometric relationship, and the capacitive touch screen sequentially identifies the accommodating space of the touch film (110). (110b) and the touch portion (105) of the frame portion (115) that are dispersed and fixed at different heights.

Please refer to the "8A to 8C" diagram for the relationship between the touch portion and the touch film and the frame portion of the touch module according to the seventh embodiment. 8A to 8C are diagrams showing that at least one touch portion (105) having a height different from that of the other touch portions (105) is fixedly disposed on the touch according to a pre-designed geometric relationship. Another embodiment of the housing space (110b) of the membrane (110).

Please refer to FIG. 8A. The touch module (100) is provided with a touch film (110) and a frame portion (115). The touch film has a receiving space (110b) and is disposed on the receiving space. The plurality of touch portions (105) having a height different from that of the other touch portions (105) are fixedly disposed, and are disposed in the receiving space (110b) of the touch film (110). Among the touch units (105), the highest touch unit (105) maintains contact with the frame portion (115); please refer to Figure 8B, as shown in the figure, the touch module (100) The housing portion (120) has a cover film (110) fixed to the touch film (110), and also protects the touches fixedly disposed on the receiving space (110b) of the touch film (110). Control Department (105). The touch film (110) is fixedly disposed on the outer casing portion (120), and the touch portions (105) fixedly disposed on the receiving space (110b) of the touch film (110) are subjected to the The touch film (110) and the outer casing portion (120) are protected without Exposed to the outside. The outer casing portion (120) is provided with a frame portion (115), and the frame portion has a facing surface, and the opposite surface is fixed to the receiving space (110b) of the touch film (110). The touch portion (105) can make contact. After one side of the frame portion (115) is extended to the outside of the outer casing portion (120), the electrostatic capacitance is obtained from the handle portion of the touch module (100). In addition, a frame portion (115) protruding toward the outside of the outer casing portion (120) is connected to the handle portion (130), and the handle portion (130) may include an electrical connection with the frame portion (115). Conductive material.

Please refer to the "8C figure". When the contact plane (110a) of the touch film (110) is contacted with the capacitive touch screen, when the touch pressure is applied, the touch film is fixedly disposed on the touch film (110). Each of the touch portions (105) of the accommodating space (110b) touches the frame portion (115) in accordance with the height. At this time, the electrostatic capacity of the human body applying the touch pressure is transmitted through the frame portion (115). The sequence is transferred to the touch portions (105) of different heights fixedly disposed on the accommodating space (110b) of the touch film (110), and the capacitive touch screen will be according to a preset unique geometric relationship. The touch space (110b) of the touch film (110) is sequentially touched by the fixed touch portions (105).

Please refer to "Fig. 9A to Fig. 9C" for the relationship between the touch portion, the touch film and the frame portion of the touch module according to the eighth embodiment. In more detail, the 9A to 9C diagrams represent that the at least one touch portion (105) is fixed to a plurality of touch portions (105) having different heights from the other touch portions (105) according to a pre-designed geometric relationship. Set in the frame (115) Another embodiment.

Please refer to FIG. 9A. The touch module (100) includes a frame portion (115) and a touch film (110). The height of the at least one touch portion (105) is fixedly disposed in the frame portion (115). a plurality of touch portions (105) having different heights from the other touch portions (105), and the touch portion (105) having the highest height since being fixedly disposed in the touch portion (105) of the frame portion (115) The touch panel (100) has a housing portion (120), and the housing portion (120) will touch the touch film (110). In addition to fixing, each touch portion (105) that is fixedly disposed in the frame portion (115) is also protected. The touch film (110) is fixedly disposed on the outer casing portion (120), and the touch portions (105) fixedly disposed in the frame portion (115) are received by the touch film (110) and the outer casing portion. (120) protection will not be exposed. After one side of the frame portion (115) is extended to the outside of the outer casing portion (120), the electrostatic capacitance is obtained from the handle portion of the touch module (100). In addition, a frame portion (115) protruding toward the outside of the outer casing portion (120) is connected to the handle portion (130), and the handle portion (130) may include an electrical connection with the frame portion (115). Conductive material.

Please refer to FIG. 9C again. As shown in the figure, when the contact plane (110a) of the touch film (110) is contacted with the capacitive touch screen, when the touch pressure is applied, it is fixedly disposed in the frame portion (115). Each touch portion (105) touches the receiving space (110b) of the touch film (110) according to the height. At this time, the electrostatic capacity of the human body applying the touch pressure passes through the frame portion (115). The touch portion (105) that is transferred to the touch portion (105) and fixedly disposed on the frame portion (115) is high While sequentially contacting the accommodating space (110b) of the touch film (110), the capacitive touch screen sequentially identifies the frame portion (115) to be fixed according to the preset unique geometric relationship. The touch of each touch portion (105) is set.

Please refer to the "10A to 10C" diagram for the relationship between the touch portion, the touch film and the frame portion of the touch module according to the ninth implementation method. In more detail, FIGS. 10A to 10C represent a plurality of touch portions (105) having a height different from that of the other touch portions (105) according to a pre-designed geometric relationship. And a part of the touch portion (105) is fixedly disposed in the accommodating space (110b) of the touch film (110), and another remaining touch portion (105) is fixedly disposed in the frame portion (115). example.

Please refer to FIG. 10A. As shown in the figure, the touch module (100) is provided with a touch film (110) and a frame portion (115), wherein the touch film has a receiving space (110b), and at least one The touch portion (105) is fixed in a plurality of touch portions (105) having different heights from the other touch portions (105), and the touch portion (105) is fixedly disposed in the receiving space of the touch film (110) ( 110b), and the at least one touch portion (105) has a height different from that of the other touch portions (105), and the accommodation space (110b) except the touch film (110) The remaining touch portion (105) other than the portion of the touch portion (105) fixedly disposed is fixedly disposed in the frame portion (115). An arrangement position of the touch portion (105) fixedly disposed on the accommodation space (110b) of the touch film (110) and an arrangement position of the remaining touch portion (105) fixedly disposed in the frame portion (115) Combined The geometric relationship will be formed as a preset unique geometric relationship.

Please refer to FIG. 10A. As shown in the figure, the highest touch portion (105) is fixedly disposed in the frame portion (115) from the plurality of touch portions (105), and is fixedly disposed on the frame portion (115). Among the touch portions (105) in the frame portion (115), the touch portion (105) having the highest height maintains contact with the accommodation space (110b) of the touch film (110); please refer to "10B". The touch module (100) has a housing portion (120), and the housing portion (120) fixes the touch film (110) and also protects the touch film (110). Each of the touch portions (105) of the space (110b) and the frame portion (115) is dispersed and fixed. The touch film (110) is fixedly disposed on the outer casing portion (120), and is dispersed and fixedly disposed on the accommodating space (110b) and the frame portion (115) of the touch film (110). The portion (105) is protected by the touch film (110) and the outer casing portion (120) without being exposed. After one side of the frame portion (115) is extended to the outside of the outer casing portion (120), the electrostatic capacitance is obtained from the handle portion of the touch module (100). In addition, a frame portion (115) protruding toward the outside of the outer casing portion (120) is connected to the handle portion (130), and the handle portion (130) may include an electrical connection with the frame portion (115). Conductive material.

Please refer to the "10C" figure. When the contact plane (110a) of the touch film (110) is contacted with the capacitive touch screen, the touch pressure is applied to the touch film (110). Among the touch portions (105) of the accommodation space (110b), the highest touch portion (105) starts to touch the frame portion (115) in sequence, and is fixedly disposed in the frame portion (115). Each touch unit (105), the height of the highest touch portion (105) begins to sequentially touch the accommodation space (110b) of the touch film (110). At this time, the electrostatic capacity of the human body applying the touch pressure is first transferred to the touch portion (105) fixedly disposed in the frame portion (115) and the receiving space (110b) of the touch film (110). The highest touch portion (105) of the touch portion (105) of the fixed configuration, and then the touch portion (105) fixedly disposed in the receiving space (110b) of the touch film (110) and the While the frame portion (115) is in contact, the electrostatic capacitance continues to be transferred to the touch portion (105) fixedly disposed in the accommodating space (110b) of the touch film (110). Referring to the figure again, the capacitive touch is fixed in the touch portion (105) fixedly disposed at different heights in the accommodation space (110b) and the frame portion (115) of the touch film (110). The screen will first recognize the touch of the highest touch section (105). The touch portion (105) fixedly disposed on the accommodating space (110b) of the touch film (110) is contacted with the frame portion (115) by the contact pressure, and the frame portion (115) The order in which the touch portion (105) of the fixed configuration is contacted with the accommodating space (110b) of the touch film (110) after being subjected to the touch pressure, according to the two sequences and the preset unique geometric relationship, the capacitive type The touch screen will sequentially recognize the touch of each remaining touch portion (105).

Please refer to the "Tenth 11A to 11C" diagram for the tenth implementation method of the present invention, the relationship between the touch portion and the touch film and the frame portion of the touch module. In more detail, the 11A to 11C diagrams represent a plurality of touch portions (105) having a height different from that of the other touch portions (105) according to a pre-designed geometric relationship. The part of the touch part (105) is fixedly disposed in the receiving space of the touch film (110). (110b), and another remaining touch portion (105) is fixedly disposed in the frame portion (115).

Please refer to FIG. 11A. As shown in the figure, the touch module (100) is provided with a touch film (110) and a frame portion (115), wherein the touch film has a receiving space (110b), and since at least one The touch portion (105) is fixed in a plurality of touch portions (105) having different heights from the other touch portions (105), and the touch portion (105) is fixedly disposed in the receiving space of the touch film (110) ( 110b), and the at least one touch portion (105) has a height different from that of the other touch portions (105), and the accommodation space (110b) except the touch film (110) The remaining touch portion (105) other than the portion of the touch portion (105) fixedly disposed is fixedly disposed in the frame portion (115). An arrangement position of the touch portion (105) fixedly disposed on the accommodation space (110b) of the touch film (110) and an arrangement position of the remaining touch portion (105) fixedly disposed in the frame portion (115) The combined geometric relationship will be formed into a preset unique geometric relationship; as shown in the figure, since the plurality of touch portions (105), the highest touch portion (105) is fixedly disposed on The touch space (110b) of the touch film (110), and the touch point (105) fixedly disposed on the accommodating space (110b) of the touch film (110), the highest touch The control unit (105) maintains contact with the accommodation space (110b) of the touch film (110).

Please refer to "FIG. 11B". As shown in the figure, the touch module (100) has a casing portion (120), and the casing portion (120) will fix the touch film (110) and also protect the touch. The accommodation space (110b) and the frame portion (115) of the control film (110) Each touch portion (105) that is disposed in a fixed manner is dispersed. The touch film (110) is fixedly disposed on the outer casing portion (120), and is dispersed and fixedly disposed on the accommodating space (110b) and the frame portion (115) of the touch film (110). The portion (105) is protected by the touch film (110) and the outer casing portion (120) without being exposed. After one side of the frame portion (115) is extended to the outside of the outer casing portion (120), the electrostatic capacitance is obtained from the handle portion of the touch module (100). In addition, a frame portion (115) protruding toward the outside of the outer casing portion (120) is connected to the handle portion (130), and the handle portion (130) may include an electrical connection with the frame portion (115). Conductive material.

Please refer to "11C". When the contact plane (110a) of the touch film (110) is contacted with the capacitive touch screen, the contact pressure is applied to the touch film (110). Among the touch portions (105) of the accommodating space (110b), the highest touch portion (105) starts to touch the frame portion (115) sequentially, and is fixedly disposed in the frame portion (115). Among the touch portions (105), the highest touch portion (105) begins to sequentially touch the accommodation space (110b) of the touch film (110). At this time, the electrostatic capacity of the human body applying the touch pressure is first transferred to the touch portion (105) fixedly disposed in the frame portion (115). Then, when the touch film (110) accommodates the space (110b) When the touch portion (105) fixedly disposed in contact with the frame portion (115) is in contact, the electrostatic capacitance is continuously transferred to the fixed configuration in the accommodation space (110b) of the touch film (110). Touch section (105). Referring to the figure again, in the touch portion (105) which is dispersed and fixed at different heights in the accommodating space (110b) and the frame portion (115) of the touch film (110), the capacitive type The touch screen will preferentially identify the touch of the highest touch portion (105). The touch film (110) is vacant The touch portion (105) fixedly disposed between the portions (110b) is contacted with the frame portion (115) by the contact pressure, and the touch portion (105) fixedly disposed in the frame portion (115) is received. After the pressure is touched, the order of the accommodating space (110b) of the touch film (110) is contacted. According to the two sequences and the preset unique geometric relationship, the capacitive touch screen sequentially identifies each remaining Touch of the touch portion (105).

Please refer to "12A to 12E", which shows the process of making a touch module in an implementation method of the present invention. In more detail, as in the embodiment of the fifth embodiment, the 12A to 12E are diagrams showing that the touch portions (105) of different heights are fixedly disposed on the touch film (110) according to the preset unique geometric relationship. After the space (110b) is placed, the touch module (100) is maintained in a state of isolation between the touch portion (105) and the frame portion (115) through the spring (125), as long as it is for the present creation. The technical field of the art has a general knowledge of the reference and/or the modification of the implementation methods of FIGS. 12A to 12E, which can infer a variety of implementation methods of the touch module (100) manufacturing process (eg, omit part The stage or structure, or the implementation method of the change order), therefore, the present content includes all inductive implementation methods, and is not limited to the implementation methods shown in FIGS. 12A to 12E.

In addition, as long as it is a reference for a general practitioner having a general knowledge of the technical field to which the present invention belongs and/or modifying the embodiments of FIGS. 12A to 12E, it is possible to infer a wider variety of corresponding touch portions (105). ,touch The touch module (100) controls the relationship between the film (110) and the frame portion (115), and thus the present content includes all inducible embodiments.

Please refer to FIG. 12A. As shown in the figure, at least one touch portion (105) having a height different from that of the other touch portions (105) is prepared, and the plurality of touches are prepared to be buried. The buried plate portion (135) of the control portion (105). A geometric relationship is to be configured to configure the plurality of touch portions (105), and a buried hole (140) is formed in the buried plate portion (135) according to the designed geometric relationship. If the complex touch portion (105) is fixedly disposed in the accommodating space of the touch film (110) according to the unique geometric relationship designed by the automated robot engineering, the burying plate portion (135) can be omitted. The geometric relationship in the design is the design distance relationship from the force points of the buried holes (140), the design angle relationship between the force points of the buried holes (140), and the force of each buried hole (140). At least one relationship may be included in the combination of the distance relationship and the angle relationship between the points.

According to the implementation method of the present invention, the geometric relationship of the fixed arrangement of the plurality of buried holes (140) may include the geometry of the plurality of embedded holes (140) fixedly disposed at a predetermined fixed position among the plurality of buried holes (140). relationship. At this time, the geometric relationship is a distance relationship between a force point from the specified buried hole (140) and a force point of the other remaining buried holes (140), a force point of the designated buried hole (140), and the like. The angular relationship between the force points of the remaining touch portions, the distance between the force points of the designated buried holes (140) and the other remaining buried holes (140), and the angular relationship include at least one relationship. In addition, it is fixedly configured in the preset The designated buried hole (140) of the fixed position is a mark that can be used as a reference point for determining the geometric relationship. At this time, the geometric relationship is a distance relationship between a reference point determined by the specified buried hole (140) and a force point of each of the buried holes (140), the reference point and each of the buried holes (140) The angular relationship between the force points, the distance between the reference point and the force point of each of the buried holes (140), and the angular relationship include at least one relationship.

Please refer to FIG. 12B, and the embedding plate portion (135) forming the embedding hole (140) according to the preset inherent geometric relationship is disposed on the receiving space (110b) of the touch film (110), and After the plurality of touch portions (105) are embedded in the embedding holes (140) of the embedding plate portion (135), the plurality of touch portions (105) are fixedly disposed in the receiving space (110b) of the touch film (110). At this time, the plurality of touch portions (105) embedded in the embedding holes (140) of the embedding plate portion (135) form a geometric relationship identical to the geometric relationship of the embedding holes (140). In addition, when the plurality of touch units (105) are fixedly disposed in the accommodating space (110b) of the touch film (110), the buried board can be eliminated.

Please refer to "FIG. 12C", as shown in the figure, prepare a casing portion (120) to which the touch film (110) is to be fixed, and prepare an outer frame portion (115) to be disposed outside the casing portion (120). And an inner frame portion (115) inside the outer casing portion (120) is to be provided, and after a spring (125) provided between the outer frame portion (115) and the inner frame portion (115) is prepared, as shown in Fig. 12D As shown in the figure, after the post of the inner frame portion (115) is inserted into the insertion hole of the outer casing portion (120), the outer frame portion (115) is combined with the inner frame portion. A spring (125) is provided between the (115) and the outer frame portion (115), and as a result, the inner frame portion (115) is brought into close contact with the outer casing portion (120). At this time, the inner frame portion (115) and the outer frame portion (115) are screw-joinable together; please refer to "12D" for the touch produced by the method shown in FIG. 12B. After the film (110) is fixedly disposed on the outer casing portion (120) fabricated as shown in FIG. 12C, the touch module (100) as shown in FIG. 12E is completed.

Please refer to "Fig. 13A to Fig. 13E", which shows the process of making a touch module in another implementation method of the present invention. In more detail, as shown in the embodiment of FIG. 8B, the 13A to 13E are diagrams showing that the touch portions (105) of different heights are fixedly disposed on the touch film (110) according to the preset unique geometric relationship. After the accommodating space (110b), the flow of the touch module (100) is made, as long as it is a general knowledge of the general knowledge of the technical field to which the present invention belongs and/or the implementation of the 13A to 13E is modified. The method can infer more implementation methods of the touch module (100) production process (for example, omitting part of the stage or structure, or changing the implementation method of the order), so the content of the creation includes all inductive implementation methods. It is not limited to the implementation methods shown in Figs. 13A to 13E.

In addition, as long as it is a reference to the general art of the art to which the present invention belongs, and/or to modify the embodiments of FIGS. 13A to 13E, a plurality of corresponding touch portions (105) and touches can be inferred. The touch module (100) of the relationship between the film (110) and the frame portion (115), and therefore the scope of the present application includes all inducible embodiments.

Please refer to FIG. 13A. As shown in the figure, at least one touch portion (105) having a height different from that of the other touch portions (105) is prepared, and the plurality of touch portions are to be buried. The buried plate portion (135) of (105). Designing a geometric relationship in which the plurality of touch portions (105) are to be disposed, and forming a buried hole (140) in the buried plate portion (135) according to the designed geometric relationship; please refer to "Fig. 13B" As shown in the figure, the buried plate portion (135) is disposed on the touch film (110), and after the plurality of touch portions (105) are embedded in the embedding holes (140) of the embedding portion (135), It is fixedly disposed in the accommodating space (110b) of the touch film (110). The plurality of touch portions (105) fixedly disposed on the accommodating space (110b) of the touch film (110) form a geometric relationship identical to the geometric relationship of the buried holes (140).

Please refer to "Fig. 13C". After preparing the outer casing portion (120) to which the touch film (110) is to be fixed, prepare the frame portion (115) to be placed on the outer casing portion (120); please refer to " As shown in Fig. 13D, after the pillar of the frame portion (115) is inserted into the insertion hole of the outer casing portion (120), the touch film (110) formed by the method shown in Fig. 13B is fixedly disposed on After the outer casing portion (120), the touch module (100) as shown in FIG. 13E is completed.

As can be seen from the above, the multi-touch touch module of the present invention can prevent the geometric relationship (for example, distance and/or angle) of the plurality of touch portions provided on the touch module and the touch portions. The mechanical structure (for example, the height difference) is exposed to the outside, so the touch module is used for various touches. When the service device is controlled, it can be used as a reliable identification means and/or verification means; in addition, the touch part is fixedly disposed on the accommodating space of the touch film, and when subjected to the touch pressure of the human finger According to the fine time difference, the capacitive touch screen sequentially recognizes the touch pressure, and as a result, even if the number of touch parts provided on the touch module increases, the touches on the touch module The control unit will recognize all touch points without error. For example, when there are more than four touch parts on the touch module, and the four or more touch parts are in contact with the capacitive touch screen at the same time, the capacitive touch screen is under certain conditions. The probability of not recognizing part of the touch part will increase, but if you use this creative content, you can make the capacitive touch screen even if you touch the capacitive touch screen after touching the touch film. Identify all touch points.

In the first place, the touch panel provided on the touch module is contacted with the capacitive touch screen, and then the capacitive touch screen is touched by the plurality of touch portions. At this time, the plurality of touch portions are The device is fixedly disposed on the accommodating space of the touch film or is in contact with the accommodating space of the touch film. Therefore, even if the touch portion is sequentially touched on the capacitive touch screen, the touch portion is sequentially touched. It is also possible to prevent the geometric relationship of the plurality of touch portions from being affected by the touch pressure, thereby causing the distortion. Therefore, after the implementation of the present invention, it is indeed possible to provide a plurality of touch portions according to the pre-designed unique geometric relationship. The composite touch panel is provided with a material that can induce electrostatic changes therein. In addition, a touch film is disposed between the plurality of touch portions and the capacitive touch screen, and the touch film can prevent the touch portion from being exposed outward. Multi-touch touch module.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention; any person skilled in the art can make equal changes and modifications without departing from the spirit and scope of the present invention. , should be covered by the scope of this creation patent.

In summary, the effectiveness of this creation is based on patent requirements such as “industry availability”, “novelty” and “progressiveness”; the applicant filed a new patent application with the bureau in accordance with the provisions of the Patent Law.

Claims (40)

A multi-touch type touch control module includes: a touch film having a contact plane for contacting a capacitive touch screen, and a frame portion opposite to the other side of the contact plane; An accommodating space is formed between the frame portion and the touch film; a plurality of touch portions are disposed on the frame portion and the touch after being arranged according to a predetermined geometric relationship. In the accommodating space between the control films, each of the touch portions can induce a static change when contacting the capacitive touch screen; and the number of each of the touch portions is pre-defined with the capacitive touch screen The design is to match the number of positions touched by the plurality of touch portions and the geometric relationship of the touch positions. The multi-touch touch module of claim 1, wherein when the touch portion is capacitively touched, a pressure generated by the touch control film is transmitted to the touch film. Capacitive touch screen. The multi-touch touch module of claim 1, wherein each of the touch portions is completely covered by the touch film and the frame portion to ensure that each touch portion has a unique geometry. The position of the relationship is not exposed. The multi-touch touch module of claim 1, wherein the touch film has resilience. The multi-touch touch module of claim 1, wherein at least one of the touch portions is higher than the other touch portions after being fixedly disposed. position. The multi-touch touch module of claim 5, wherein After each touch portion is subjected to an electrostatic touch, the pressure will sequentially touch the capacitive touch screen in an electrostatic manner from the highest touch portion. The multi-touch touch module of claim 1, wherein the frame portion allows a static capacitance of a human body to be transmitted in the direction of the touch portion. The multi-touch touch module of claim 1, wherein the geometric relationship is a distance relationship, or an angular relationship or a combination thereof between the relative positions of the touch portions. The multi-touch touch module of claim 1, wherein the geometric relationship is such that one of the touch portions is disposed at a fixed position to be a designated touch portion. The multi-touch touch module of claim 9, wherein the geometric relationship is a distance relationship between the position of the designated touch portion and the set positions of the other touch portions. Or an angle relationship, or a combination thereof. The multi-touch touch module of claim 9, wherein the geometric relationship is a reference point between the reference point set by the designated touch portion and a set position of each touch portion. Distance relationship, or angle relationship, or a combination thereof. The multi-touch touch module of claim 1, wherein one end of each of the touch portions is fixedly disposed on the frame portion. The multi-touch touch module of claim 12, wherein when the touch film touches the capacitive touch screen, the touch is fed back by the capacitive touch screen The pressure causes the touch film to come into contact with each of the touch portions fixedly disposed on the frame portion. The multi-touch touch module of claim 12, wherein The frame group is provided with a spring to maintain a gap between each touch portion and the touch film. The multi-touch touch module of claim 12, wherein the touch film is fixedly disposed in the frame before the touch film touches the capacitive touch screen Maintaining a certain distance between the touch portions of the portion, and when the multi-touch touch module touches the capacitive touch screen, the touch pressure transmitted from one side is received. The touch film is in contact with each of the touch portions that are fixedly disposed on the frame portion. The multi-touch touch module of claim 12, wherein the at least one touch portion is disposed at a higher position than the other touch portions. The multi-touch touch module of claim 16, wherein the touch film maintains contact with the touch portion having the highest height. The multi-touch touch module of claim 1, wherein the geometric relationship includes that one end of the touch portion is fixedly disposed on the touch film, and the multi-touch type The other end of the touch module is connected to the frame portion, and the other remaining touch portions are fixedly disposed at the frame portion. The multi-touch touch module of claim 18, wherein the touch film is in contact with each of the touch portions that are fixedly disposed on the frame through the receiving space. The multi-touch touch module of claim 18, wherein the frame portion is in contact with each of the touch portions that are fixedly disposed on the accommodating space of the touch film. The multi-touch touch module of claim 18, wherein When the touch panel touches the capacitive touch screen, the touch pressure is feedback, and the frame portion is made with the touch portion that is fixedly disposed on the accommodating space of the touch film. contact. The multi-touch touch module of claim 18, wherein when the touch film touches the capacitive touch screen, the contact pressure is feedback, and the touch film The contact portion that is fixedly disposed in the frame portion is in contact with each other. The multi-touch touch module of claim 18, wherein the multi-touch touch module further includes a spring, when the touch film touches the capacitive touch Before the screen, the touch portion and the touch film that are fixedly disposed between the frame portion are separated from each other by the spring, or are fixedly disposed in the receiving space of the touch film. An isolation state between the touch portion and the frame portion is maintained by a distance of the spring. The multi-touch type touch control module of claim 18, wherein the frame portion is fixedly disposed on the touch screen before the touch film touches the capacitive touch screen. Each of the touch portions of the accommodating space of the film maintains a certain distance. When the touch module touches the capacitive touch screen, the touch pressure is fed back, and the frame portion is Each of the touch portions fixedly disposed in the accommodating space of the touch film makes contact. The multi-touch touch module of claim 18, wherein the touch film is fixedly disposed in the frame before the touch film touches the capacitive touch screen Maintaining a certain distance between each of the touch portions of the portion, and when the touch film touches the capacitive touch screen, the touch The control film is in contact with each of the touch portions that are fixedly disposed on the frame portion due to the feedback pressure that is fed back. The multi-touch touch module of claim 18, wherein one end and each of the touch portions disposed in the frame portion have at least one touch portion disposed at a position other than The other touch portion is disposed at a high position. The multi-touch touch module of claim 26, wherein the touch film maintains contact with the touch portion having the highest height. The multi-touch touch module of claim 18, wherein one end is disposed in each of the touch portions of the touch film, and at least one of the touch portions is disposed at a position The arrangement positions of the other touch portions are high. The multi-touch touch module of claim 27, wherein among the touch portions fixedly disposed in the accommodating space, the frame portion and the touch with the highest height are The Ministry maintains contact. The multi-touch touch module of claim 18, wherein the touch film has a plurality of touch portions fixedly disposed on the accommodating space, and the plurality of touch portions are designed and designed The geometric relationship corresponds to each other, and the frame portion is in contact with the touch portion that is fixedly disposed in the accommodating space of the touch film. The multi-touch type touch control module of claim 30, wherein when the touch film touches the capacitive touch screen, the frame portion is subjected to feedback pressure It is in contact with each of the touch portions that are fixedly disposed in the accommodating space of the touch film. The multi-touch type touch module described in claim 30, The multi-touch touch module further includes a spring, and the touch module is fixedly disposed in the receiving space of the touch film before the touch module touches the capacitive touch screen. The spring between the touch portion and the frame portion is maintained at a certain distance by the spring. The multi-touch type touch control module of claim 30, wherein the frame portion is fixedly disposed on the touch screen before the touch film touches the capacitive touch screen. The touch portion of the accommodating space of the film is maintained at a certain distance. When the touch film touches the capacitive touch screen, the frame portion is subjected to feedback pressure. It is in contact with each of the touch portions that are fixedly disposed in the accommodating space of the touch film. The multi-touch touch module of claim 30, wherein one end of the plurality of touch portions is disposed at one end and the touch film, and at least one of the touch portions is disposed at a high position. The configuration of the other touch portion. The multi-touch touch module of claim 33, wherein the touch portion is fixedly disposed in each of the touch portions of the accommodating space, and the frame portion has the highest touch portion Maintain contact status. A multi-touch type touch module is a touch module that is touched by a capacitive touch screen, and the touch module includes a plurality of touch units. a frame portion and a touch film, wherein the plurality of touch portions include a material that can induce electrostatic changes on the capacitive touch screen, and the plurality of touch portions are based on a unique geometric relationship designed in advance. The plurality of touch portions are fixedly arranged according to the geometric relationship, and the plurality of touch portions correspond to the geometric relationship; and In addition, the touch film may include a contact plane, and the contact plane contacts the capacitive touch screen, and the touch film contacts the accommodating space formed on the reverse surface of the contact plane. The touch portion fixedly disposed on the frame portion. A multi-touch type touch module is a touch module that is touched by a capacitive touch screen, and the touch module includes a plurality of touch units. a touch panel and a frame portion, wherein the plurality of touch portions include a material that can induce electrostatic changes on the capacitive touch screen, and the plurality of touch portions are based on a unique geometric relationship designed in advance. The touch film is fixedly disposed on the capacitive touch screen; the touch film includes a contact plane, and the contact plane is in contact with the capacitive touch screen; and an accommodating space is formed on the reverse surface of the contact plane And the touch portion is fixedly disposed on the accommodating space in a part of the plurality of touch portions; and, in addition to the plurality of touch portions fixed to the accommodating space The portion of the touch panel is in contact with the touch portion fixedly disposed on the frame portion, and the frame portion is in contact with the receiving space of the touch film. The touch portion of the fixed configuration. The multi-touch touch module of claim 37, wherein the touch film is in contact with each of the touch portions that are fixedly disposed on the frame portion, and the frame portion is Each of the touch portions fixedly disposed in the accommodating space of the touch film makes contact. A multi-touch type touch module, the multi-touch type touch module is a kind a touch module that is touched by a capacitive touch screen, and the touch module includes a plurality of touch portions, a touch film, and a frame portion, wherein the plurality of touch portions are included therein The capacitive touch screen can induce a static change material, and the plurality of touch portions are disposed on the capacitive touch screen according to a pre-designed unique geometric relationship; in addition, the touch film has a contact plane. And the contact plane is in contact with the capacitive touch screen, and a plurality of touch portions corresponding to the geometric relationship are fixedly disposed on an accommodating space formed on the opposite surface of the contact plane; Each of the touch portions fixedly disposed on the accommodating space of the touch film is contacted. The multi-touch touch module of claim 36, wherein the touch film is fixedly disposed on the receiving space of the touch film. The at least one touch portion is disposed at a higher position than the other touch portion.