CN201903870U - Touch module - Google Patents

Abstract

The utility model relates to a touch module which mainly comprises a touch layer, a transmission plate module and a shell, wherein the touch layer is provided with at least one sensor and a connecting line which is arranged on at least one part of the periphery of the sensor, the transmission plate module is combined with one side of the touch layer and at least covers the exterior side of the sensor, the shell is provided with at least one opening for accommodating the transmission plate module and ensuring that at least one part of the transmission plate module is exposed outside, the shell is provided with a folded edge on at least one part of the periphery of the opening for covering the part of the connecting line on the touch layer to form a better interference protection, therefore, the conditions of judgment and touch by mistake can be greatly reduced.

Description

Touch-control module

Technical field

The utility model relates to a kind of touch-control module, refers to a kind of touch-control module structure that can effectively reduce combination thickness and have preferable interference prevention especially.

Background technology

Along with developing rapidly of infotech and communication network, electronics and IT products are popularized gradually, and capacitance type touch-control panel also gradually become main flow in the middle of the touch technology, be applied in the middle of every electronics and IT products, for example mobile phone, flat computer, walkman, various display, monitor and AIO etc., the capacitance variation that its principle is caused when being applying finger contact contact panel to be recording the displacement of finger, and then reaches the purpose of controlling.

The capacitive touch control plate of known electronic product and dependency structure thereof, simpler and easy person, be as Fig. 1, shown in the 1A, its Trackpad mainly is made up of a flat light-passing board 7 and a touch control layer 8, this touch control layer 8 comprises the capacitance touching control sensing component 81 of being located at central authorities, be equipped with by opaque conductive material (as: elargol in these capacitance touching control sensing component 81 all lateral edges, molybdenum aluminium molybdenum, copper glue etc.) connection line 82 of Zu Chenging, and since this capacitance touching control sensing component 81 when using operation, need mostly to cooperate a display screen to show each operating position of this capacitance touching control sensing component 81, can one Liquid Crystal Module layer 4 be set in addition in these capacitance touching control sensing component 81 belows, use via this light-passing board 7 and make this capacitance touching control sensing component 81, what 4 formation of Liquid Crystal Module layer were convenient to touch can visual state.When practical application, mostly the structure of above-mentioned Trackpad is to be arranged at default inboard, hollow out position, nontransparent housing 9 surfaces, and this touch control layer 8 is fixed in this housing 9 by viscose 83, and this light-passing board 7 is directly externally appeared, for the operator directly on this light-passing board 7 point touch this capacitance touching control sensing component 81, simultaneously, because this opaque connection line 82 is if externally appear by light-passing board 7, will directly influence the overall appearance of this electronic product and the result of touch-control sensing, so the coating 71 with coloured (mostly being black) forms coloured (black) frame in light-passing board 7 peripheries, in order to cover this connection line 82, use and avoid the user to look this connection line 82, reach effect attractive in appearance by direct sight the in outside.

Yet said structure has following disappearance when practical application:

1. because this connection line 82 is the frames that utilize coating 71 to form is covered, therefore the coating 71 of this formation frame will certainly increase material cost and processing procedure is complicated.

2. because connection line 82 easily produces noise when the finger touches sensing, do not have under the situation of barrier layer and very easily produce noise.

3. except the color of frame, these light-passing board 7 surfaces there is no other any mechanism that separates these connection line 82 positions, therefore, and erroneous judgement, false touch situation when being easier to produce operation.

4. this Trackpad relies on viscose 83 fully and combines with housing 9, and its edge joint position water-proofing treatment that is not easy to do.

Other has a kind of mode of common covering connection line 82, be as shown in Figure 2, it is in the top, hollow out position of aforementioned housing 9 transparent panel 91 to be set, to hide in a light-passing board 70 tops, and form a frame corresponding to the position of connection line 82 via coating 92 at least in these transparent panel 91 all sides, use covering this connection line 82, and utilize this transparent panel 91 can form preferable waterproof construction;

Yet the shortcoming of above-mentioned this kind of structure is:

1. the coating 92 meeting increase material costs and the processing procedure that should form frame are complicated.

2. transparent panel 91 can increase the integral thickness of product.

3. be easy to generate orientation problem between light-passing board 70 and the shell 9.

4. transparent panel 91 can cause the difference of touch-control sensing signal, and the decline of visual transmittance.

Because the unitized construction of known Trackpad and shell has above-mentioned shortcoming, the inventor studies improved road at those shortcomings, has the utility model to produce finally.

The utility model content

Fundamental purpose of the present utility model is to provide a kind of touch-control module, and it can effectively be simplified processing procedure, save material cost by the design of omitting frame coating, and promotes the variation of moulded attractive in appearance and outward appearance.

Another purpose of the present utility model is to provide a kind of touch-control module, it is to utilize case design directly to be covered in this connection line position, therefore can prevent effectively that outside signal from disturbing, simultaneously, its only the corresponding position of this inductor is exposed to housing outside, therefore can reduce the situation of erroneous judgement, false touch.

Another purpose of the present utility model is to provide a kind of touch-control module, is easy to the design of waterproof on its structure, and does not have assembling contraposition problem, and a preferable bond strength can be provided.

For solving above technical matters, the utility model provides a kind of touch-control module, it comprises: a light-passing board module, have two opposed first side and second sides, its first side is made up of at least one first surface and at least one second surface, and these first surfaces are to be positioned at different surface elevation on this light-passing board module with these second surfaces, and this second side then is provided with induction zone in the position with respect to these first surfaces, and with respect to the wiring region of these second surfaces; One touch control layer is made up of plural printing opacity inductor and the non-printing opacity connection line that is electrically connected in this printing opacity inductor at least, and this plural number printing opacity inductor is the induction zone that is laid in these substrates, and this connection line then is to be laid in these wiring region.

According to said structure, wherein this light-passing board module comprises at least: one first light-passing board of repeatedly putting mutually and one second light-passing board, and this first and second surface is to be arranged at the side of this first light-passing board away from second light-passing board, and this induction zone, wiring region then are to be arranged at the side of this second light-passing board away from first light-passing board.

According to said structure, wherein this light-passing board module comprises at least: one first light-passing board and one second light-passing board, and the area of this first light-passing board is less than second light-passing board, when this first light-passing board is repeatedly put mutually with one second light-passing board, this second light-passing board has the exposed position that partly not hidden by first light-passing board at least, and this first surface is to be arranged at the side of this first light-passing board away from second light-passing board, this second surface then is the exposed position that is arranged on this second light-passing board, and this induction zone, wiring region then is to be arranged at the side of this second light-passing board away from first light-passing board.

According to said structure, wherein first side of this light-passing board module has plural first surface, a second surface and at least one the 3rd surface that is adjacent to this plural number first surface, the 3rd surface is so that small part extends between this plural number first surface, and the 3rd surface has different surface elevations with this plural number first surface, second side of this light-passing board module then is respectively equipped with a plurality of induction zones in the plural first surface of correspondence position, and is provided with wiring region in corresponding second surface position.

According to said structure, wherein these first surfaces of this light-passing board module just can with default plural opening driving fit mutually on the housing of an outside.

According to said structure, screening portion in the middle of wherein this housing is respectively equipped with in corresponding these positions, marker space.

According to said structure, wherein the difference in height between the first surface of this light-passing board module and this second surface is the thickness that is not more than the opening of above-mentioned housing.

According to said structure, wherein the area of this wiring region is not less than the area that this connection line distributes.

According to said structure, wherein this touch control layer comprises a sheet of printing opacity protection assembly in addition, and should the plural number inductor and connection line be to take shape on this printing opacity protection assembly.

According to said structure, wherein this touch control layer is provided with a Liquid Crystal Module layer in the side away from substrate, and is provided with a ground plane with ground connection connecting circuit between this Liquid Crystal Module layer and touch control layer.

According to said structure, wherein the first surface of this light-passing board module just can with default opening driving fit mutually on the housing of an outside.

The utility model also comprises touch-control module, and it comprises: a touch control layer, have plural inductor, and the connection line of being located at local at least all sides of this inductor; One light-passing board module is incorporated into a side of this touch control layer, and is shielded in this inductor appearance side at least; One housing, have one can ccontaining this light-passing board module opening, and make at least partly externally being appeared of this light-passing board module, and be provided with flanging, for the connection line position that is covered in this touch control layer in local at least all sides of this opening.

According to said structure, wherein this light-passing board module is made up of single light-passing board, and the thickness of this light-passing board is the opening side thickness that is not less than this housing.

According to said structure, wherein this touch control layer comprises a sheet of printing opacity protection assembly in addition, and should the plural number inductor and connection line be to take shape on this printing opacity protection assembly.

According to said structure, wherein this light-passing board has a plurality of induction zones, and is provided with at least one marker space between each induction zone, and each induction zone is covered by a light-passing board all at least.

According to said structure, wherein first side of this light-passing board module has plural first surface and the 3rd surface corresponds respectively to a plurality of induction zones and marker space, and the 3rd surface has different surface elevations with this plural number first surface.

Beneficial effect of the present invention is: omit the design of frame coating, can effectively simplify processing procedure, save material cost, and promote the variation of moulded attractive in appearance and outward appearance.Therefore it is to utilize case design directly to be covered in this connection line position, can prevent effectively that outside signal from disturbing, simultaneously, its only the corresponding position of this inductor is exposed to housing outside, therefore can reduce the situation of erroneous judgement, false touch.Be easy to the design of waterproof on its structure, and do not have assembling contraposition problem, and a preferable bond strength can be provided.

Description of drawings

Below in conjunction with drawings and Examples the utility model is described in further detail.

Fig. 1 is the example structure figure that a known Trackpad combines with shell.

Figure 1A is the plan view from above of the 1st figure.

Fig. 2 is the example structure figure that another known Trackpad combines with shell.

Fig. 3 is the planar structure exploded view of the utility model first embodiment.

Fig. 3 A is the combination section of the utility model first embodiment.

Fig. 3 B is the plan view from above of 3A figure.

Fig. 4 is the combination section of the utility model second example structure.

Fig. 5 is the combination section of the utility model the 3rd example structure.

Fig. 6 is the planar structure exploded view of the utility model the 4th embodiment.

Fig. 6 A is the combination section of the utility model the 4th embodiment.

Fig. 7 is the combination section of the utility model the 5th example structure.

Fig. 8 is the combination section of the utility model the 6th example structure.

Fig. 9 is the plan view from above of the utility model the 7th example structure.

Primary clustering symbol description among the figure:

1,1a.... touch control layer

11.... inductor

12.... connection line

13.... printing opacity protection assembly

14.... marker space

2a, 2b, 6a, 6b, 6c.... light-passing board module

2,6..... light-passing board

21,61.... first side

21b, 61b... first light-passing board

22,62.... second side

22b, 62b... second light-passing board

3,30,300,3a.... housing

31,301.... flanging

32,302.... opening

303... transparent panel

4..... Liquid Crystal Module layer

5..... ground plane

611... first surface

612... second surface

613... the 3rd surface

621... induction zone

622... wiring region

7,70.... light-passing board

71,92.... coating

8..... touch control layer

81.... capacitance touching control sensing component

82.... connection line

83.... viscose

9..... housing

91.... transparent panel

Embodiment

Shown in Fig. 3 to 3B, obviously can find out, the structure of the utility model first embodiment mainly comprises: touch control layer 1, light-passing board module 2a and housing 3 etc. are partly, wherein this touch control layer 1 is can respond to the inductor 11 that refers to touch work by plural number, and the connection line 12 of being located at these inductor 11 all sides forms, and should plural number inductor 11 and connection line 12 can take shape in according to need on a sheet of printing opacity protection assembly 13;

Light-passing board module 2a is the light-passing board 2 for the single transparent material in present embodiment, this light-passing board 2 has two opposed first side 21 and second sides 22, this second side 22 is directly to be incorporated on the inductor 11 of this touch control layer 1, and make this connection line 12 be formed at local at least all sides of this light-passing board 2, and when practical application, inductor 11 belows in this touch control layer 1 are provided with a Liquid Crystal Module layer 4 in addition, this Liquid Crystal Module layer 4 removes and can show various images, outside the message, also can distinguish the position of respectively conflicting of this inductor 11, and this touch control layer 1, Liquid Crystal Module layer 4 be form via light-passing board 2 by on can be visual combination form, be beneficial to this touch control layer 1 of touching control and carry out operations;

Housing 3 be provided with one can ccontaining described this light-passing board 2 opening 32, use for this light-passing board 2 and directly externally appear, and the local at least all sides in this opening 32 are provided with flanging 31, this flanging 31 is connection line 12 positions that directly are shielded in this touch control layer 1, by this, except that preventing effectively that outside signal is to the touch control layer 1 formation interference, and have aesthetic concurrently, simultaneously, only utilize corresponding position (being light-passing board 2) with this inductor 11 be exposed to housing 3 outside, more can effectively reduce the situation of erroneous judgement, noise.

Above-mentioned light-passing board 2 can carry out processing such as hardization or plated film earlier according to need when practical application, utilize again stick together, modes such as wringing fit, concavo-convex clip, it is able to and housing 3 forms firm combining.

As shown in Figure 4, the structure of the utility model second embodiment comprises as can be known: a light-passing board module 2b and the touch control layer 1 identical with aforementioned first embodiment, housing 3 assemblies such as grade, its difference only is: this light-passing board module 2b by: one first light-passing board 21b and one second light-passing board 22b form, this first light-passing board 21b is the inductor 11 corresponding to this touch control layer 1, and but driving fit is fixed in the opening 32 of this housing 3, and the area of this second light-passing board 22b is greater than this first light-passing board 21b, when this first light-passing board 21b is repeatedly put mutually with one second light-passing board 22b, this second light-passing board 22b has the exposed position that partly not hidden by the first light-passing board 21b at least, and should exposed position be the connection line 12 that correspondence is shielded in this touch control layer 1, the flanging 31 of this housing 3 then be the exposed position that is shielded in this second light-passing board 22b; Except that this, the composition of all the other these touch control layer 1, housing 3 and associated liquid crystal module layer 4, and the relevant position that cooperates is then identical with aforementioned first embodiment.

As shown in Figure 5, the structure of the utility model the 3rd embodiment mainly comprises as can be known: the touch control layer 1 identical with aforementioned first embodiment, light-passing board module 2a, housing 3, and the sheet ground plane 5 of a tool magnetic conductivity; Because the inductor 11 of this touch control layer 1 is to be arranged at this Liquid Crystal Module layer 4 top sides; and this Liquid Crystal Module layer 4 is to be a main electromagnetic wave source; these electromagnetic waves can cause the influence of floating to the capacitance of inductor 11; therefore; one sheet ground plane 5 is set between touch control layer 1 and Liquid Crystal Module layer 4 in present embodiment; use the interference of isolating electromagnetic, with the measurement accuracy of protection inductor 11.

Shown in Fig. 6 to 6A, the structure of the utility model the 4th embodiment mainly comprises as can be known: light-passing board module 6a, housing 30, and assembly such as touch control layer 1 identical with aforementioned first embodiment, Liquid Crystal Module layer 4; Wherein this light-passing board module 6a is the light-passing board 6 for the single transparent material in present embodiment, this light-passing board 6 has two opposed first side 61 and second sides 62, its first side 61 is made up of with at least one second surface 612 at least one first surface 611, and these first surfaces 611 are to be positioned at different surface elevation on this light-passing board 6 with these second surfaces 612, this second side 62 then is provided with induction zone 621 in the position with respect to these first surfaces 611, and with respect to the wiring region 622 of these second surfaces 612, make the induction zone 621 of this light-passing board 6 with second side 62, wiring region 622 directly is incorporated into the inductor 11 of this touch control layer 1 respectively, on the connection line 12, this Liquid Crystal Module layer 4 then is inductor 11 belows that are arranged at this touch control layer 1, housing 30 have one can ccontaining this light-passing board 6 opening 302, directly externally appear for this light-passing board 6, and the local at least all sides in this opening 302 are provided with flanging 301, this flanging 301 is directly to be shielded on this second surface 612 (being connection line 12), uses to reach attractive in appearance, prevent to judge by accident and effect that external noise disturbs.

As shown in Figure 7, the structure of the utility model the 5th embodiment comprises as can be known: a light-passing board module 6b and the touch control layer 1 identical with aforementioned the 4th embodiment, housing 30, Liquid Crystal Module layer 4 assembly such as grade, its difference only is: this light-passing board module 6b by: one first light-passing board 61b and one second light-passing board 62b form, this first light-passing board 61b has shape and the architectural feature identical with this light-passing board 6, it is in conjunction with being fixed in the opening 302 of this housing 30, this second light-passing board 62b then has identical peripheral shape and the size with this first light-passing board 61b, and it is to be arranged between this first light-passing board 61b and the touch control layer 1; Except that this, the composition of all the other these touch control layer 1, housing 30 and associated liquid crystal module layer 4, and the relevant position that cooperates is then identical with aforementioned the 4th embodiment.

As shown in Figure 8; the structure of the utility model the 6th embodiment comprises as can be known: the touch control layer 1 identical with aforementioned the 4th embodiment; housing 300; assemblies such as Liquid Crystal Module layer 4 and light-passing board module 6a; wherein this light-passing board module 6a (light-passing board 6) is in conjunction with being fixed in the opening of this housing 300; and the composition of this touch control layer 1 and Liquid Crystal Module layer 4 and the relevant position that cooperates are all identical with aforementioned the 4th embodiment; its main difference only is: this housing 300 can be provided with a transparent panel 303 according to need on this opening; utilizing this transparent panel 303 to form another protection in this light-passing board module 6a top covers; cooperating, and form better waterproofing protection in response to different shell 300 versions.

As shown in Figure 9, the structure of the utility model the 7th embodiment comprises as can be known: touch control layer 1a, assemblies such as housing 3a and light-passing board module 6c, wherein this touch control layer 1a has plural inductor 11, and at least one connection line 12 that is electrically connected on each inductor 11, and between each inductor 11, be respectively equipped with a marker space 14, light-passing board module 6c is provided with plural first surface 611 in first side, second surface 612, the 3rd surface 613 corresponds respectively to these inductors 11, connection line 12, marker space 14, and the 3rd surface 613 is so that small part extends between this plural number first surface 611, simultaneously, the 3rd surface 613 has different surface elevations with this plural number first surface 611, second side of this light-passing board module 6c then is respectively equipped with a plurality of induction zones in the plural first surface of correspondence 611 positions, and be provided with wiring region in corresponding second surface 612 positions, then be provided with the opening that plural number corresponds respectively to first surface 611 (inductor 11) on the housing 3a, and between each opening, be provided with the middle screening 31a of portion corresponding to each the 3rd surface 613 (marker space 14), all sides in each opening are respectively equipped with flanging 301 in addition, for being shielded in each second surface 612 (connection line 12), by this, form one and have the electronic products of organizing touch-controls more.

The utility model is in the structure of the various embodiments described above, directly be covered in connection line 12 designs of this touch control layer 1 by the flanging 31 (301) of this housing 3 (30), can directly omit the coating 71 (or 92) of this formation frame of tradition, therefore can effectively simplify processing procedure, and save material cost; And when practical application, this housing 3 (30) can be designed to have magnetic conductive material, utilize its flanging 31 (301) to be covered in this connection line 12 positions, can prevent effectively that outside signal from disturbing; Simultaneously, its only will be somebody's turn to do position corresponding to inductor 11 be exposed to housing 3 (30) outside, the user does not more have tradition and touches the situation that causes erroneous judgement, false touch in frame when operation, moreover, owing to have bending and bigger contact area between the flanging 31 (301) of this housing 3 (30) and the light-passing board 6, therefore it there is no assembling contraposition problem in design, and be easy to carry out the structural design of waterproof, and can provide a preferable bond strength, except that this, more, help the overall appearance design and variation of product with preferable aesthetic.

And in the use of this light-passing board module 3a (6a) material, polymethylmethacrylate (Polymethylmethacrylate then to be easier to process; PMMA is called acryl or organic glass again) or transparent materials such as PET or reinforced plastics be main, this kind material is higher compared to the traditional glass physical strength, characteristics such as have the processing of being easy to, weight is lighter.

Comprehensive the above, touch-control module of the present utility model really can be reached and simplify processing procedure, saves material, and promotes effect handsome in appearance; Above-mentioned content only is preferred embodiment explanation of the present utility model, and variation, modification, change or the equivalent replacement person who is extended according to technological means of the present utility model and category also all should fall in the protection domain of the present utility model such as.

Claims (20)

1. a touch-control module is characterized in that, comprises at least:

One light-passing board module, have two opposed first side and second sides, its first side is made up of at least one first surface and at least one second surface, and these first surfaces are to be positioned at different surface elevation on this light-passing board module with these second surfaces, this second side then is provided with induction zone in the position with respect to these first surfaces, and with respect to the wiring region of these second surfaces;

One touch control layer is made up of plural printing opacity inductor and the non-printing opacity connection line that is electrically connected in this printing opacity inductor at least, and this plural number printing opacity inductor is the induction zone that is laid in these substrates, and this connection line then is to be laid in these wiring region.

2. touch-control module as claimed in claim 1, it is characterized in that, this light-passing board module comprises at least: one first light-passing board of repeatedly putting mutually and one second light-passing board, and this first and second surface is to be arranged at the side of this first light-passing board away from second light-passing board, and this induction zone, wiring region then are to be arranged at the side of this second light-passing board away from first light-passing board.

3. touch-control module as claimed in claim 1, it is characterized in that, this light-passing board module comprises at least: one first light-passing board and one second light-passing board, and the area of this first light-passing board is less than second light-passing board, when this first light-passing board is repeatedly put mutually with one second light-passing board, this second light-passing board has the exposed position that partly not hidden by first light-passing board at least, and this first surface is to be arranged at the side of this first light-passing board away from second light-passing board, this second surface then is the exposed position that is arranged on this second light-passing board, and this induction zone, wiring region then is to be arranged at the side of this second light-passing board away from first light-passing board.

4. as claim 1 or 2 or 3 described touch-control modules, it is characterized in that, first side of this light-passing board module has plural first surface, a second surface and at least one the 3rd surface that is adjacent to this plural number first surface, the 3rd surface is so that small part extends between this plural number first surface, and the 3rd surface has different surface elevations with this plural number first surface, second side of this light-passing board module then is respectively equipped with a plurality of induction zones in the plural first surface of correspondence position, and is provided with wiring region in corresponding second surface position.

5. as claim 1 or 2 or 3 described touch-control modules, it is characterized in that the area of this wiring region is not less than the area that this connection line distributes.

6. as claim 1 or 2 or 3 described touch-control modules, it is characterized in that this touch control layer comprises a sheet of printing opacity protection assembly in addition, and should the plural number inductor and connection line be to take shape on this printing opacity protection assembly.

7. as claim 1 or 2 or 3 described touch-control modules, it is characterized in that this touch control layer is provided with a Liquid Crystal Module layer in the side away from substrate, and between this Liquid Crystal Module layer and touch control layer, be provided with a ground plane with ground connection connecting circuit.

8. as claim 1 or 2 or 3 described touch-control modules, it is characterized in that, the first surface of this light-passing board module just can with default opening driving fit mutually on the housing of an outside.

9. touch-control module as claimed in claim 4 is characterized in that, these first surfaces of this light-passing board module just can with default plural opening driving fit mutually on the housing of an outside.

10. touch-control module as claimed in claim 9 is characterized in that, screening portion this housing is respectively equipped with in positions, marker space such as correspondences in the middle of.

11. touch-control module as claimed in claim 8 is characterized in that, the difference in height between the first surface of this light-passing board module and this second surface is the thickness that is not more than the opening of above-mentioned housing.

12. touch-control module as claimed in claim 8 is characterized in that, can adopt between this light-passing board module and the housing stick together, wringing fit, a concavo-convex clip mode wherein combine.

13. a touch-control module is characterized in that, comprises at least:

One touch control layer has plural inductor, and the connection line of being located at local at least all sides of this inductor;

One light-passing board module is incorporated into a side of this touch control layer, and is shielded in this inductor appearance side at least;

One housing, have one can ccontaining this light-passing board module opening, and make at least partly externally being appeared of this light-passing board module, and be provided with flanging, for the connection line position that is covered in this touch control layer in local at least all sides of this opening.

14. touch-control module as claimed in claim 13, it is characterized in that, the light-passing board module has two opposed first side and second sides, this second side is in being provided with induction zone with respect to this plural number position of inductor, and with respect to this connection line the position be provided with wiring region, and be provided with at least one first surface and at least one second surface corresponds respectively to this induction zone and wiring region in this first side, and these first surfaces are to be positioned at surface elevations different on this light-passing board with these second surfaces.

15., it is characterized in that this light-passing board module is made up of single light-passing board as claim 13 or 14 described touch-control modules, and the thickness of this light-passing board is the opening side thickness that is not less than this housing.

16. touch-control module as claimed in claim 14, it is characterized in that, this light-passing board module comprises at least: one first light-passing board and one second light-passing board, and the area of this first light-passing board is less than second light-passing board, when this first light-passing board is repeatedly put mutually with one second light-passing board, this second light-passing board has the exposed position that partly not hidden by first light-passing board at least, and this first surface is to be arranged at the side of this first light-passing board away from second light-passing board, and this second surface then is the exposed position that is arranged on this second light-passing board.

17., it is characterized in that this touch control layer comprises a sheet of printing opacity protection assembly in addition as claim 13 or 14 described touch-control modules, and should the plural number inductor and connection line be to take shape on this printing opacity protection assembly.

18. touch-control module as claimed in claim 15 is characterized in that, this light-passing board has a plurality of induction zones, and is provided with at least one marker space between each induction zone, and each induction zone is covered by a light-passing board all at least.

19. touch-control module as claimed in claim 18, it is characterized in that, first side of this light-passing board module has plural first surface and the 3rd surface corresponds respectively to a plurality of induction zones and marker space, and the 3rd surface has different surface elevations with this plural number first surface.

20. as claim 13 or 14 described touch-control modules, it is characterized in that, between this light-passing board module and the housing be stick together via being selected from, a mode wherein such as wringing fit, concavo-convex clip combines.

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