CN204808358U - Device is discerned to fingerprint - Google Patents
Device is discerned to fingerprint Download PDFInfo
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- CN204808358U CN204808358U CN201520426168.9U CN201520426168U CN204808358U CN 204808358 U CN204808358 U CN 204808358U CN 201520426168 U CN201520426168 U CN 201520426168U CN 204808358 U CN204808358 U CN 204808358U
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Abstract
The utility model provides a device is discerned to fingerprint contains an euphotic cover plate, a first light shield layer, a pattern layer and a fingerprint identifier. The euphotic cover plate has an internal surface. The internal surface has a first region and a second area. First region borders on the second area. First light shield layer sets up in the first region of internal surface. First light shield layer has back to the first bottom surface of one of internal surface. The pattern layer sets up in the second area of internal surface. The colour on pattern layer is different with the colour of first light shield layer. The pattern layer has back to one of internal surface second bottom surface. The poor less than or equal to 6 micron of the biggest section of first bottom surface and this second bottom surface. At least first light shield layer and the pattern level of part is between fingerprint identifier and euphotic cover plate. It to the influence of fingerprint identifier sensitivity, improves the fingerprint and discernes sensitivity to reduce light shield layer and pattern layer by this.
Description
Technical field
The utility model relates to a kind of electronic installation, and has fingeprint distinguisher and manufacture method thereof in particular to one.
Background technology
Because fingerprint identification technology can play good anti-theft function and individual privacy protective effect, therefore be applied to gradually in recent years on running gear, usurped to prevent this action device.Specifically, this type of running gear comprises cover plate, fingerprint identifier and touch control display apparatus.Touch control display apparatus system is arranged at the middle section of cover inner surface, for user's operation and display information.Fingerprint identifier system is arranged at the neighboring area of cover inner surface, with the fingerprint of identification user.
In order to cover the periphery wire of touch control display apparatus, the neighboring area of cover inner surface is provided with light shield layer.In addition, know the position of fingerprint identifier for the convenience of the users, move to directly over fingerprint identifier in order to user by finger, above-mentioned light shield layer may correspond to the position of fingerprint identifier, exposes the inside surface of part.The inside surface that this exposes can be provided with patterned layer, and the color of this patterned layer is different from the color of light shield layer.Thus, when user sees patterned layer, just can know the position of fingerprint identifier.
When making, first can form light shield layer in the neighboring area of cover inner surface, then not be blocked the extending part that layer covers in neighboring area and form patterned layer, then again fingerprint identifier is set in the below of patterned layer and light shield layer.But, because light shield layer and patterned layer are all that the mode of printing coats cover inner surface, therefore although the raw material of patterned layer only can coat the position that light shield layer exposes in theory, but in fact, the tolerance of printing can cause a small amount of patterned layer raw material to cover on light shield layer, cause patterned layer lower surface than light shield layer lower surface further from cover plate, and the section of generation difference.Such section missionary society increases the distance of fingerprint identifier end face to cover plate outside surface, reduces identification of fingerprint sensitivity, even causes fingerprint identifier cannot effectively play identification of fingerprint effect.
Utility model content
In view of this, one of the utility model object is that minimizing light shield layer and patterned layer are on the impact of fingerprint identifier sensitivity, improve identification of fingerprint sensitivity.
In order to achieve the above object, according to one of the utility model embodiment, a kind of fingeprint distinguisher comprises an euphotic cover plate, one first light shield layer, a patterned layer and a fingerprint identifier.Euphotic cover plate has an inside surface.Inside surface has a first area and a second area.First area adjoins second area.First shading series of strata are arranged at the first area of inside surface.First light shield layer has back to one of inside surface first bottom surface.Pattern series of strata are arranged at the second area of inside surface.The color of patterned layer is different from the color of the first light shield layer.Patterned layer has back to one of inside surface second bottom surface.The largest segment difference of the first bottom surface and this second bottom surface is less than or equal to 6 microns.At least the first light shield layer of part and pattern series of strata are between fingerprint identifier and euphotic cover plate.
In above-mentioned embodiment, 6 microns are less than or equal to by the largest segment difference of the second bottom surface of the first bottom surface and patterned layer that control the first light shield layer, therefore the distance of fingerprint identifier upper surface to euphotic cover plate outside surface can be shortened, reduce the first light shield layer and patterned layer to the impact of fingerprint identifier sensitivity, improve identification of fingerprint sensitivity.
Accompanying drawing explanation
Fig. 1 illustrates the upper schematic diagram of the contactor control device according to the utility model one embodiment;
Fig. 2 illustrates the sectional view of contactor control device shown in Fig. 1 along A-A ' line;
Fig. 3 illustrates the partial enlarged drawing of Fig. 2 shownschematically contactor control device;
Fig. 4 A to 4D figure illustrates the method for making of Fig. 2 shownschematically fingeprint distinguisher;
Fig. 5 illustrates the sectional view of the contactor control device according to another embodiment of the utility model;
Fig. 6 illustrates the sectional view of the contactor control device according to another embodiment of the utility model;
Fig. 7 illustrates the partial enlarged drawing of the contactor control device of Fig. 6;
Fig. 8 illustrates the sectional view of the contactor control device according to another embodiment of the utility model;
Fig. 9 A to 9E illustrates the process flow diagram of Fig. 8 shownschematically method for making of fingeprint distinguisher;
Figure 10 illustrates the sectional view of the contactor control device according to another embodiment of the utility model;
Figure 11 illustrates the sectional view of the contactor control device according to another embodiment of the utility model;
Figure 12 illustrates the sectional view of the contactor control device according to another embodiment of the utility model; And
Figure 13 A to 13F illustrates the process flow diagram of Figure 12 shownschematically manufacture method of fingeprint distinguisher.
Component symbol illustrates:
100,100a, 100b: euphotic cover plate
101: mainboard body
1011: end face
1012: bottom surface
102: daughter board body
1021: end face
1022: bottom surface
1023: dip plane
103: adhesion layer
110,110a, 110b: inside surface
111,111a, 111b: first area
112,112a, 112b: second area
113,113a: groove
1131: inverted draw cut wall
1132: side channel wall
120,120b: outside surface
121: visible area
122: non-visible area
123: marked area
124: identification of fingerprint district
200: the first light shield layers
210: the first bottom surfaces
220: the first end faces
300,300a: patterned layer
310, the 310a: the second bottom surface
320, the 320a: the second end face
400: fingerprint identifier
410: upper surface
510: touch-control sensing structure
520: conductor structure
600: display module
700: the second light shield layers
T: thickness direction
X: section is poor
θ, α: angle
Embodiment
Below will with the plural embodiment of graphic exposure the utility model, as clearly stated, the details in many practices will be explained in the following description.But the technician being familiar with this area should recognize, in the utility model some embodiments, the details in these practices is also non-essential, does not therefore apply to limit the utility model.In addition, for the purpose of simplicity of illustration, some known usual structures and element illustrate it by the mode simply illustrated in the drawings.In addition, for the ease of reader's viewing, in graphic, the size of each element not illustrates according to actual ratio.
Fig. 1 illustrates the upper schematic diagram of the contactor control device according to the utility model one embodiment.Fig. 2 illustrates the sectional view of contactor control device shown in Fig. 1 along A-A ' line.As shown in Fig. 1 and 2, in present embodiment, contactor control device comprises euphotic cover plate 100, first light shield layer 200, patterned layer 300, fingerprint identifier 400, touch-control sensing structure 510 and conductor structure 520, and wherein euphotic cover plate 100, first light shield layer 200, patterned layer 300 can form fingeprint distinguisher jointly with fingerprint identifier 400.Euphotic cover plate 100 has inside surface 110 and outside surface 120.Inside surface 110 and outside surface 120 be back to.First light shield layer 200, patterned layer 300 and touch-control sensing structure 510 are arranged at the zones of different of inside surface 110 respectively.Fingerprint identifier 400 is positioned at the first light shield layer 200 with in patterned layer 300.Conductor structure 520 is electrically connected touch-control sensing structure 510.At least the first light shield layer 200 of part is between conductor structure 520 and euphotic cover plate 100, to cover conductor structure 520.
The outside surface 120 of euphotic cover plate 100 can be touch operation surface, therefore outside surface 120 is optionally arranged anti-dirty, anti-fingerprint, the anti-scratch and/or anti-functional layer such as dizzy.Outside surface 120 comprises visible area 121, non-visible area 122, marked area 123 and identification of fingerprint district 124.Visible area 121 to be watched to user in order to show information and to supply user to operate contactor control device in the mode of touch-control.Non-visible area 122 around visible area 121, and in order to cover conductor structure 520 and other light tight element.Marked area 123 by non-visible area 122 institute around.Identification of fingerprint district 124 be labeled institute of district 123 around, and identification of fingerprint district 124 is positioned at directly over fingerprint identifier 400.In other words, the orthogonal projection of fingerprint identifier 400 on outside surface 120 and identification of fingerprint district 124 are at least partly overlapping.The color of marked area 123 is different from the color of non-visible area 122, to indicate the position of fingerprint identifier 400, and be convenient to user and finger moved to identification of fingerprint district 124, making to be positioned at fingerprint identifier 400 immediately below identification of fingerprint district 124 can the fingerprint of effective identification user.
Should be appreciated that, the material of above-mentioned euphotic cover plate 100 is light transmissive material, but not bridging effect is played by the first light shield layer 200 on inside surface 110 in visible area 122, and marked effect is played by the patterned layer 300 on inside surface 110 in marked area 123.
Specifically, inside surface 110 has first area 111 and second area 112.First area 111 adjoins second area 112.The second area 112 of inside surface 110 is corresponding with the marked area 123 of outside surface 120.In other words, the border of second area 112 and the border of marked area 123 align on the thickness direction T of euphotic cover plate 100.For example, marked area 123 and second area 112 pattern all in the form of a ring, and these two annular patterns align on the thickness direction T of euphotic cover plate 100.Part first area 111 is positioned at outside second area 112, and the first area 111 of this part is corresponding with the non-visible area 122 of outside surface 120, part first area 111 by second area 112 institute around, and this part first area 111 corresponding with the identification of fingerprint district 124 of outside surface 120.
First light shield layer 200 is arranged at the first area 111 of inside surface 110, plays bridging effect, and can cover conductor structure 520 and fingerprint identifier 400 respectively with the non-visible area 122 and identification of fingerprint district 124 that make the outside surface 120 corresponding with first area 111.The color of patterned layer 300 is different from the color of the first light shield layer 200, and patterned layer 300 is arranged at the second area 112 of inside surface 110, plays marked effect to make the marked area 123 of the outside surface 120 corresponding with second area 112.
Furthermore, when user watches this contactor control device from the outside surface 120 of euphotic cover plate 100, the first light shield layer 200 all can be in sight with patterned layer 300.Thus, user can see the patterned layer 300 different from the first light shield layer 200 color from outside surface 120, thus knows the position of fingerprint identifier 400.Should be appreciated that, although in present embodiment, patterned layer 300 pattern in the form of a ring, as long as but patterned layer 300 is different from the first light shield layer 200 color and can allow user's identification, then in other embodiment, patterned layer 300 also can be the pattern of other shape, and as circular pattern, rectangular patterns, trapezoidal pattern, triangle pattern etc., but the utility model is not as limit.
Fig. 3 illustrates the partial enlarged drawing of Fig. 2 shownschematically contactor control device.As shown in Figure 3, the first light shield layer 200 comprises the first bottom surface 210.First bottom surface 210 is back to the inside surface 110 of cover plate 100.Patterned layer 300 comprises the second bottom surface 310.Second bottom surface 310 is back to the inside surface 110 of cover plate 100.At least the first light shield layer 200 of part and patterned layer 300 are between fingerprint identifier 400 and euphotic cover plate 100.Furthermore, fingerprint identifier 400 has upper surface 410, and the first light shield layer 200 and patterned layer 300 separate upper surface 410 and the euphotic cover plate 100 of fingerprint identifier 400.First bottom surface 210 of the first light shield layer 200 is less than or equal to 6 microns with the largest segment difference of the second bottom surface 310 of patterned layer 300, goodly be less than or equal to 3 microns, therefore the distance of the outside surface 120 of upper surface 410 to the euphotic cover plate 100 of fingerprint identifier 400 can be shortened, thus minimizing the first light shield layer 200 and patterned layer 300 are on the impact of fingerprint identifier 400 sensitivity, improve identification of fingerprint sensitivity.Further, the thickness of the thickness or patterned layer 300 that can arrange the first light shield layer 200 is less than or equal to 20 microns, is goodly less than or equal to 10 microns, can take into account the screening effect of the sensitivity of fingerprint identifier 400 and the first light shield layer 200 and patterned layer 300.
In present embodiment, the first bottom surface 210 of the first light shield layer 200 and the second bottom surface 310 of patterned layer 300 can be aligns.In other words, the first bottom surface 210 and the second bottom surface 310 are coplanar, and both section differences are zero.Under the design of such section difference, the identification of fingerprint sensitivity of fingerprint identifier 400 can not be affected because the thickness of section difference position increases.
For example, the distance of the inside surface 110 of upper surface 410 to the euphotic cover plate 100 of fingerprint identifier 400 is better is not more than 300 microns, to maintain normal identification of fingerprint effect (that is, maintain enough identification sensitivity and identification accuracy).Because the section difference of the first bottom surface 210 and the second bottom surface 310 is zero, therefore namely the distance of the inside surface 110 of upper surface 410 to the euphotic cover plate 100 of fingerprint identifier 400 equals the thickness of the first light shield layer 200, also equals the thickness of patterned layer 300.Suppose that the thickness of euphotic cover plate 100 in identification of fingerprint district 124 is d, therefore, as long as the thickness of the first light shield layer 200 and the thickness of patterned layer 300 are not more than (300-d) micron, fingerprint identifier 400 normal operation can be allowed.As long as separately because the thickness of the first light shield layer 200 and the thickness of patterned layer 300 are greater than 10 microns, just effectively bridging effect can be played, therefore, in this instance, the thickness of the first light shield layer 200 and the thickness of patterned layer 300 can be allowed to be more than or equal to 10 microns and to be less than (300-d) micron, thus take into account identification of fingerprint effect and bridging effect.Should be appreciated that, above-mentioned numerical value is only in order to help to illustrate, and unrestricted the utility model.
In order to the first bottom surface 210 effectively reducing the first light shield layer 200 is poor with the section of the second bottom surface 310 of patterned layer 300, patterned layer 300 or the first light shield layer 200 one of them can not to be formed in the mode of printing, and can be formed by the higher micro-photographing process of precision, thus solve the excessive problem of section difference that printing tolerance causes.Furthermore, the method for making of above-mentioned fingeprint distinguisher can be consulted shown in Fig. 4 A to 4B.In Figure 4 A, provide euphotic cover plate 100, the material of this euphotic cover plate 100 can be glass, sapphire or poly-sour methyl esters (Polymethylmethacrylate, PMMA) etc., but the utility model is not as limit.
In figure 4b, the first light shield layer 200 can be formed on the first area 111 of the inside surface 110 of euphotic cover plate 100, and expose the second area 112 of inside surface 110.For example, the first light shield layer 200 can the mode of serigraphy be formed.Specifically, the material of the first light shield layer 200 can be ink, and fabricator can utilize the mode of serigraphy by this Ink Application on the first area 111 of inside surface 110, and does not coat on second area 112.The mode etched again after first light shield layer 200 can also be coated with is formed.For example, can first raw material whole the property of the first light shield layer 200 be coated on the inside surface 110 of euphotic cover plate 100, then etch again, to remove the raw material be not positioned on first area 111, and leave the raw material be positioned on first area 111, and form the first light shield layer 200 and expose second area 112.
In figure 4 c, the second area 112 of inside surface 110 forms patterned layer 300.For example, patterned layer 300 is formed by micro-photographing process, can further improve the precision forming patterned layer 300, so that the section better controlled between the first shielding layer 200 and patterned layer 300 is poor.Furthermore, patterned layer 300 can be the photographic layer that micro-photographing process is formed.Ju Body Come Said, the material of patterned layer 300 can be photosensitive material, when making, on the second area 112 first photosensitive material such as photosensitive-ink can being coated inside surface 110 and the first light shield layer 200, by mask pattern, the photosensitive material for staying being defined on second area 112 again, then carrying out exposure imaging.Afterwards, the photosensitive material be not positioned on second area 112 is removed, and on second area 112, only leaves photosensitive material to form patterned layer 300.Aforesaid way can effectively prevent part patterned layer 300 to be covered on the first light shield layer 200, and align with the second bottom surface 310 of patterned layer 300 in order to the first bottom surface 210 of the first light shield layer 200, the section of making difference is zero.
In fig. 4d, the first light shield layer 200 with patterned layer 300 arrange fingerprint identifier 400, and completes fingeprint distinguisher.Specifically, fingerprint identifier 400 can be attached on patterned layer 300 and the first light shield layer 200.For example, the material of the first light shield layer 200 or patterned layer 300 can be sticky stuff, and can stick together fingerprint identifier 400.In other embodiment, adhesion material also can be additionally adopted to be attached to by fingerprint identifier 400 on patterned layer 300 and the first light shield layer 200.For example, adhesion material can be optical cement or ultraviolet cured adhesive, but the utility model is not as limit.
Refer to Fig. 3, in present embodiment, the first light shield layer 200 also comprises the first end face 220, and patterned layer 300 also comprises the second end face 320.First end face 220 and the first bottom surface 210 back to, the second end face 320 and the second bottom surface 310 back to.First end face 220 all contacts the inside surface 110 of euphotic cover plate 100 with the second end face 320.In other words, without other adhesion material of sandwiched between the first light shield layer 200 and euphotic cover plate 100, and inside surface 110 is directly coated.Also without other adhesion material of sandwiched between patterned layer 300 and euphotic cover plate 100, and be directly formed at inside surface 110 with micro-photographing process.
Refer to Fig. 2, in present embodiment, contactor control device also comprises display module 600.Touch-control sensing structure 510 is between display module 600 and euphotic cover plate 100, and touch-control sensing structure 510 and display module 600 are all positioned at immediately below visible area 121.In other words, touch-control sensing structure 510 and the orthogonal projection of display module 600 on the outside surface 120 of euphotic cover plate 100 are positioned at visible area 121, to provide the function of touch-control and display respectively.In part embodiment, display module 600 can be LCD MODULE (LiquidCrystalDisplayModule, LCM), light-emitting diode display module, Organic Light Emitting Diode (OrganicLight-EmittingDiode, OLED) display module that can fit with touch-control sensing structure 510 such as display module, electrophoresis display module (ElectrophoreticDisplay), but the utility model is not as limit.
In part embodiment, touch-control sensing structure 510 can comprise plural transparent conductive patterns in wherein, the material of this transparent conductive patterns can be tin indium oxide (IndiumTinOxide, or indium zinc oxide (IndiumZincOxide ITO), IZO), but the utility model not as limit.Because conductor structure 520 is arranged on the first light shield layer 200, therefore user when watching contactor control device from the outside surface 120 of euphotic cover plate 100, conductor structure 520 can cover by the first light shield layer 200, therefore, conductor structure 520 can adopt translucent element, therefore in part embodiment, conductor structure 520 can comprise multiple metal wire, the material of this plain conductor can be copper or silver, but the utility model is not as limit.
Transparent conductive patterns in touch-control sensing structure 510 is electrically connected the plain conductor of conductor structure 520, and the metal guide linear system of conductor structure 520 is electrically connected flexible circuit board (not being shown in figure).Thus, when the transparent conductive patterns in touch-control sensing structure 510 senses touch signal, this touch signal can pass to the control chip on flexible circuit board by the plain conductor of conductor structure 520.
In part embodiment, fingerprint identifier 400 can be the chip with finger print identification function, in another embodiment, fingerprint identifier 400 can be identification of fingerprint electrode, directly be formed on patterned layer 300 and the first light shield layer 200, to reduce the distance of fingerprint identifier 400 apart from touching object further, improve fingerprint recognition sensitivity.
Fig. 5 illustrates the sectional view of the contactor control device according to another embodiment of the utility model.As shown in Figure 5, the Main Differences between present embodiment and Fig. 2 illustrated embodiment tie up in: the fingeprint distinguisher of present embodiment also comprises the second light shield layer 700.Second light shield layer 700 is arranged at the first bottom surface 210 of the first light shield layer 200 and the second bottom surface 310 of patterned layer 300.Furthermore, part the second light shield layer 700 is between the first light shield layer 200 and fingerprint identifier 400, part the second light shield layer 700 is between patterned layer 300 and fingerprint identifier 400, and part the second light shield layer 700 is between the first light shield layer 200 and conductor structure 520.Thus, the second light shield layer 700 can increase screening effect, and prevents user from from the outside surface 120 of euphotic cover plate 100, watching fingerprint identifier 400, conductor structure 520 or other light tight element further.
In order to prevent the first light shield layer 200 and the second light shield layer 700 superimposedly blocked up, and hinder the running of fingerprint identifier 400, take into account screening effect simultaneously, in part embodiment, the thickness summation of the first light shield layer 200 and the second light shield layer 700 is less than or equal to 20 microns, is goodly less than or equal to 10 microns.Similarly, in order to prevent patterned layer 300 and the second light shield layer 700 superimposedly blocked up, and hinder the running of fingerprint identifier 400, take into account screening effect simultaneously, in part embodiment, the thickness summation of patterned layer 300 and the second light shield layer 700 is less than or equal to 20 microns, is goodly less than or equal to 10 microns.
In part embodiment, the color of the second light shield layer 700 can be identical or different with the color of the first light shield layer 200.When making, first the first light shield layer 200 can be formed in the first area 111 of the inside surface 110 of euphotic cover plate 100.For example, the raw material of the first light shield layer 200 can be coated on first area 111, or after the raw material of the first light shield layer 200 is coated inside surface 110, then remove in the mode of etching the raw material be not positioned on first area 111.Then, patterned layer 300 is formed at the second area 112 of inside surface 110.For example, micro-photographing process can be utilized to be stayed by photosensitive material on second area 112 to form patterned layer 300.Then, the second light shield layer 700 can be formed on the first bottom surface 210 of the first light shield layer 200 with the second bottom surface 310 of patterned layer 300.For example, in an embodiment, the material of the second light shield layer 700 can be ink, when making, can coat on the first bottom surface 210 and the second bottom surface 310, to form the second light shield layer 700 by whole for this ink property.In another embodiment, the material of the second light shield layer 700 can be photoresist, when making, the mode of exposure imaging can be utilized to allow this photoresist solidify and to be attached on the first bottom surface 210 and the second bottom surface 310, to form the second light shield layer 700.
Fig. 6 illustrates the sectional view of the contactor control device according to another embodiment of the utility model.Fig. 7 illustrates the partial enlarged drawing of the contactor control device of Fig. 6.As shown in the 6th and 7 figure, the Main Differences between present embodiment and Fig. 2 illustrated embodiment is: part patterned layer 300a covers part the first light shield layer 200.Furthermore, patterned layer 300a is not only covered with second area 112, also can be covered in slightly on the first light shield layer 200, so can guarantee that patterned layer 300a nestles up the first light shield layer 200, to prevent there is gap between patterned layer 300a and the first light shield layer 200, and cause the non-crested of part fingerprint identifier 400.Being understandable that, in further embodiments, can be the patterned layer 300a that part first light shield layer 200 covering part is divided, thus prevents there is gap between patterned layer 300a and the first light shield layer 200.
In present embodiment, patterned layer 300a comprise back to the second bottom surface 310a and the second end face 320a.Second end face 320a contacts the inside surface 110 of euphotic cover plate 100.Second bottom surface 310a contacts the upper surface 410 of fingerprint identifier 400.First bottom surface 210 section of difference difference x of the second bottom surface 310a and the first light shield layer 200.The distance of the inside surface 110 of upper surface 410 to the euphotic cover plate 100 of fingerprint identifier 400 is the thickness of the first light shield layer 200 and the summation of section difference x, in order to reduce this distance, the largest segment difference x of the first bottom surface 210 and the second bottom surface 310a is less than or equal to 6 microns, with when not reducing the first light shield layer 200 thickness, reduce the distance of the inside surface 110 of upper surface 410 to the euphotic cover plate 100 of fingerprint identifier 400, thus reduce the distance of the outside surface 120 of upper surface 410 to the euphotic cover plate 100 of fingerprint identifier 400, to play identification of fingerprint effect.
Fig. 8 illustrates the sectional view of the contactor control device according to another embodiment of the utility model.As shown in Figure 8, the Main Differences between present embodiment and Fig. 2 illustrated embodiment tie up in: the inside surface 110a of euphotic cover plate 100a has groove 113.Fingerprint identifier 400 is positioned at groove 113, so can reduce the distance of upper surface 410 to the outside surface 120 of fingerprint identifier 400 further.In addition, because fingerprint identifier 400 is positioned at groove 113, therefore the distance of upper surface 410 to outside surface 120 depends primarily on the degree of depth of groove 113, and has nothing to do with the thickness of euphotic cover plate 100a.Thus, when maintaining the distance of upper surface 410 to outside surface 120, the thickness of euphotic cover plate 100a can be increased, to promote the structural strength of euphotic cover plate 100a.Therefore, present embodiment, except the bridging effect of the identification of fingerprint effect and the first light shield layer 200 and patterned layer 300 that take into account fingerprint identifier 400, also can take into account the structural strength of euphotic cover plate 100a further.
In part embodiment, groove 113 can be the trapezoidal groove of outside flaring.Specifically, groove 113 has inverted draw cut wall 1131 and side channel wall 1132.Side channel wall 1132 adjoins inverted draw cut wall 1131.Angle theta system between side channel wall 1132 and inverted draw cut wall 1131 is greater than 90 degree, is beneficial to the processing of euphotic cover plate 100a.Specifically, in the process making groove 113, particularly when the material of euphotic cover plate 100a is material (as the tempered glass) that hardness is higher, the side channel wall 1132 that this opposite inner face 110a tilts comparatively is easy to be formed, and side channel wall 1132 and inside surface 110a junction can be avoided to collapse.Therefore, such structural design effectively can improve the fine ratio of product of euphotic cover plate 100a.
When angle theta is larger, the processing of groove 113 is easier, and the first light shield layer 200 is also easier to the side channel wall 1132 being attached to groove 113, but simultaneously also larger to the intensity effect of euphotic cover plate 100a, so the size of appropriate design angle theta is particularly important.In one or more embodiment of the utility model, the angle theta between inverted draw cut wall 1131 and side channel wall 1132 can be 95 degree to 175 degree.Better, angle theta can be 110 degree to 165 degree.Better, angle theta can be 120 degree, 130 degree or 140 degree etc.In the present embodiment, side channel wall 1132 is plane, but is not limited to this.In other embodiments, side channel wall 1132 can be and curves inwardly or bandy curved surface.Should be appreciated that, above the inverted draw cut wall 1131 lifted is only illustration with the embodiment of side channel wall 1132, and be not used to limit the utility model, have in the utility model art and usually know the knowledgeable, actual needs should be looked, the angle theta flexibly between adjustment inverted draw cut wall 1131 and side channel wall 1132 and the shape of side channel wall 1132.
In present embodiment, second area 112a is positioned at inverted draw cut wall 1131, and patterned layer 300 is positioned on inverted draw cut wall 1131.Specifically, patterned layer 300 between inverted draw cut wall 1131 and fingerprint identifier 400, to indicate the position of fingerprint identifier 400.Part first area 111a is positioned at groove 113, makes on part the first light shield layer 200 inverted draw cut wall 1131 of being positioned at groove 113 and side channel wall 1132.Specifically, part the first light shield layer 200 is between inverted draw cut wall 1131 and fingerprint identifier 400, and to cover fingerprint identifier 400, in addition, part the first light shield layer 200 is positioned on side channel wall 1132.
Fig. 9 A to 9E illustrates the process flow diagram of Fig. 8 shownschematically method for making of fingeprint distinguisher.In figure 9 a, provide euphotic cover plate 100a, the material of this euphotic cover plate 100 can be glass, sapphire or poly-sour methyl esters etc., but the utility model is not as limit.
In figures 9 b and 9, the inside surface 110a of euphotic cover plate 100a forms groove 113.For example, milling cutter can be utilized on inside surface 110a to mill out groove 113.This groove 113 is preferably the dovetail groove of outside flaring.In other words, the angle theta between side channel wall 1132 and inverted draw cut wall 1131 is greater than 90 degree, in order to milling out groove 113.
In Fig. 9 C, can form the first light shield layer 200 on the first area 111a of inside surface 110a, and expose the second area 112a of inside surface 110a, wherein second area 112a is positioned at groove 113, and part first area 111a is also positioned at groove 113.In other words, part the first light shield layer 200 is be formed in groove 113.For example, the first light shield layer 200 mode that etches again can be formed after the mode of serigraphy or coating, concrete generation type system as Fig. 4 B and above in corresponding paragraph contained, at this not repeated description.
In Fig. 9 D, the second area 112a of inside surface 110a forms patterned layer 300, separately because second area 112a system is positioned at groove 113, therefore patterned layer 300 is be formed in groove 113.For example, patterned layer 300 is formed by micro-photographing process, concrete generation type system as Fig. 4 C and above in corresponding paragraph contained, at this not repeated description.
In fig. 9e, the first light shield layer 200 with patterned layer 300 arrange fingerprint identifier 400, and completes fingeprint distinguisher.Furthermore, fingerprint identifier 400 can be attached on patterned layer 300 and the first light shield layer 200, concrete adhesive means system as Fig. 4 D and above in corresponding paragraph contained, at this not repeated description.Because patterned layer 300 is be arranged in groove 113, therefore fingerprint identifier 400 is arranged in groove 113.
Figure 10 illustrates the sectional view of the contactor control device according to another embodiment of the utility model.As shown in Figure 10, the Main Differences between present embodiment and Fig. 8 illustrated embodiment is: the fingeprint distinguisher of present embodiment also comprises the second light shield layer 700.Second light shield layer 700 is arranged at the first bottom surface 210 of the first light shield layer 200 and the second bottom surface 310 of patterned layer 300.Furthermore, part the second light shield layer 700 is between the first light shield layer 200 and fingerprint identifier 400, part the second light shield layer 700 is between patterned layer 300 and fingerprint identifier 400, and part the second light shield layer 700 is between the first light shield layer 200 and conductor structure 520.Thus, the second light shield layer 700 can increase screening effect, and prevents user from from the outside surface 120 of euphotic cover plate 100a, watching fingerprint identifier 400, conductor structure 520 or other light tight element further.
In Figure 10, in order to prevent the first light shield layer 200 and the second light shield layer 700 superimposedly blocked up, and hinder the running of fingerprint identifier 400, in part embodiment, the thickness summation system of the first light shield layer 200 and the second light shield layer 700 is less than or equal to 20 microns.Similarly, in order to prevent patterned layer 300 and the second light shield layer 700 superimposedly blocked up, and hinder the running of fingerprint identifier 400, in part embodiment, the thickness summation of patterned layer 300 and the second light shield layer 700 is less than or equal to 20 microns.
In Figure 10, the color of the second light shield layer 700 can be identical or different with the color of patterned layer 300, and the color of the second light shield layer 700 also can be identical or different with the color of the first light shield layer 200.The material of the second light shield layer 700 can be ink or photoresist, and its production method system as Fig. 5 and above in corresponding paragraph contained, therefore not repeated description.
Figure 11 illustrates the sectional view of the contactor control device according to another embodiment of the utility model.As shown in figure 11, the Main Differences between present embodiment and Fig. 8 illustrated embodiment is: part patterned layer 300a covers part the first light shield layer 200.Furthermore, patterned layer 300a is not only covered with second area 112a, also can be covered in slightly on the first light shield layer 200, so can guarantee that patterned layer 300a nestles up the first light shield layer 200, to prevent there is gap between patterned layer 300a and the first light shield layer 200, and cause the non-crested of part fingerprint identifier 400.
As shown in figure 11, the distance of the inverted draw cut wall 1131 of upper surface 410 to the groove 113 of fingerprint identifier 400 is the section difference of the first bottom surface 210 and the second bottom surface 310a and the summation of the first light shield layer 200 thickness, in order to reduce this distance, the largest segment difference of the first bottom surface 210 and the second bottom surface 310a is less than or equal to 6 microns, with when not reducing the first light shield layer 200 thickness, reduce the distance of the inverted draw cut wall 1131 of upper surface 410 to the groove 113 of fingerprint identifier 400, thus reduce the distance of the outside surface 120 of upper surface 410 to the euphotic cover plate 100a of fingerprint identifier 400, to play identification of fingerprint effect.
Figure 12 illustrates the sectional view of the contactor control device according to another embodiment of the utility model.As shown in figure 12, the Main Differences between present embodiment and Fig. 8 illustrated embodiment is: euphotic cover plate 100b the plate of non-Unitary, but be combined into by plural plate body.Furthermore, euphotic cover plate 100b comprises mainboard body 101 and complex operator plate body 102.This little plate body 102 is incorporated into the homonymy of mainboard body 101, and this little plate body 102 is mutually separated and defines groove 113a.In other words, groove 113a is the space of daughter board body 102 mutual separation and formation.Therefore, present embodiment need not be carried out Milling Process to printing opacity materials and parts and be gone out groove, but be directly mutually separated to form groove 113a by daughter board body 102, and Milling Process can be avoided to cause groove 113a particularly to occur tool marks in inverted draw cut wall and inverted draw cut wall and side channel wall junction, affect vision taste.
For example, daughter board body 102 is incorporated into the side of mainboard body 101 by adhesion layer or ionic link.Such as, euphotic cover plate 100b also comprises binding layer 103.The ionic link that binding layer 103 can be adhesion layer or be formed between mainboard body 101 and daughter board body 102, binding layer 103 between mainboard body 101 and daughter board body 102, with fixing mainboard body 101 and daughter board body 102.Specifically, the quantity of daughter board body 102 is two.Mainboard body 101 comprise back to end face 1011 and bottom surface 1012.These two sub-plate bodys 102 are incorporated into the zones of different of bottom surface 1012, and mutually separate and define groove 113a.Furthermore, each daughter board body 102 comprise back to end face 1021 and bottom surface 1022.Accompany binding layer 103 mutually between the end face 1021 of each daughter board body 102 and the bottom surface 1012 of mainboard body 101, fix to make mainboard body 101 and daughter board body 102.Wherein the mode that is combined by ionic link of mainboard body 101 and daughter board body 102, can be realized seamless link between mainboard body 101 and daughter board body 102, and can omit adhesion layer, reduces the thickness of euphotic cover plate 101.In the present embodiment, the step forming groove 113a in conjunction with two daughter board bodies 102 in the side of mainboard body 101, and this two daughter boards body 102 mutually separate and define groove 113a.
In present embodiment, each daughter board body 102 has the dip plane 1023 be adjacent between end face 1021 and bottom surface 1022.The dip plane 1023 of this two daughter boards body 102 mutually faced by, and groove 113a system is between the dip plane 1023 of this two daughter boards body 102.In each daughter board body 102, the angle α between dip plane 1023 and bottom surface 1022 is greater than 90 degree, to form the groove 113a of outside flaring.It should be noted that, in the embodiment shown in Fig. 8, groove 113 shape why in outside flaring has been the convenience of Milling Process, but is not formed by Milling Process due to the groove 113a of present embodiment, therefore can be other shape, and to be not necessarily the shape of outside flaring.
As shown in figure 12, the part bottom surface 1012 of mainboard body 101 is exposed to binding layer 103 with outside daughter board body 102, the bottom surface 1012 of this part, be the inside surface 110b jointly forming euphotic cover plate 100b with the dip plane 1023 of two daughter board bodies 102 and bottom surface 1022, and the outside surface 120b of euphotic cover plate 100b is the end face 1011 of mainboard body 101.The second area 112b system of inside surface 110b is positioned at the bottom surface 1012 of mainboard body 101, and therefore, patterned layer 300 is arranged at the bottom surface 1012 of mainboard body 101.The part first area 111b of inside surface 110b is also positioned at the bottom surface 1012 of mainboard body 101, and the first area 111b of another part is positioned at bottom surface 1022 and the dip plane 1023 of daughter board body 102.Therefore, the first light shield layer 200 of part is arranged at the bottom surface 1012 of mainboard body 101, and the first light shield layer 200 of another part is arranged at bottom surface 1022 and the dip plane 1023 of daughter board body 102.
Figure 13 A to 13F illustrates the process flow diagram of Figure 12 shownschematically manufacture method of fingeprint distinguisher.In figure 13a, mainboard body 101 is provided.The material of this mainboard body 101 can be glass, sapphire or poly-sour methyl esters etc., but the utility model is not as limit.Fabricator optionally forms anti-dirty, anti-fingerprint, the anti-scratch and/or anti-functional layer such as dizzy at the end face 1011 of mainboard body 101.
In Figure 13 B, a daughter board body 102 can be fixed on the bottom surface 1012 of mainboard body 101.For example, by binding layer 103, daughter board body 102 can be incorporated into a regional area of the bottom surface 1012 of mainboard body 101.
In Figure 13 C, another daughter board body 102 can be incorporated into the bottom surface 1012 of mainboard body 101.For example, by binding layer 103, another daughter board body 102 can be attached to another regional area of the bottom surface 1012 of mainboard body 101.As shown in fig. 13 c, that the two daughter board bodies 102 being incorporated into bottom surface 1012 are mutually separated and define groove 113a.Should be appreciated that, although in present embodiment, these two sub-plate bodys 102 are be incorporated into mainboard body 101 in succession, and in other embodiment, these two sub-plate bodys 102 also can side by side be incorporated into mainboard body 101.
In Figure 13 D, can form the first light shield layer 200 on the first area 111b of inside surface 110b, and expose the second area 112b of inside surface 110b, wherein second area 112b system is positioned at groove 113a, and part first area 111b is also positioned at groove 113a.In other words, part the first light shield layer 200 is formed in groove 113a.For example, the first light shield layer 200 mode that etches again can be formed after the mode of serigraphy or coating, concrete generation type as Fig. 4 B and above in corresponding paragraph contained, at this not repeated description.
In Figure 13 E, the second area 112b of inside surface 110b forms patterned layer 300, separately because second area 112b is positioned at groove 113a, therefore patterned layer 300 is be formed in groove 113a.For example, patterned layer 300 is formed by micro-photographing process, concrete generation type as Fig. 4 C and above in corresponding paragraph contained, at this not repeated description.
In Figure 13 F, the first light shield layer 200 with patterned layer 300 arrange fingerprint identifier 400, and completes fingeprint distinguisher.Furthermore, fingerprint identifier 400 can be arranged on patterned layer 300 and the first light shield layer 200, concrete set-up mode as Fig. 4 D and above in corresponding paragraph contained, at this not repeated description.Because patterned layer 300 is arranged in groove 113a, therefore fingerprint identifier 400 is arranged in groove 113a.
Although the utility model discloses as above with embodiment; so itself and be not used to limit the utility model; anyly have the knack of this those skilled in the art; not departing from the spirit and scope of the utility model; when various changes and retouching can be done, therefore the utility model protection domain when depending on after the attached claim person of defining be as the criterion.
Claims (15)
1. a fingeprint distinguisher, is characterized in that, comprises:
One euphotic cover plate, has an inside surface, and this inside surface has a first area and a second area, and this first area adjoins this second area;
One first light shield layer, is arranged at this first area of this inside surface, and this first light shield layer has back to one of this inside surface first bottom surface;
One patterned layer, is arranged at this second area of this inside surface, and the color of this patterned layer is different from the color of this first light shield layer, and this patterned layer has back to one of this inside surface second bottom surface, and the largest segment difference of this first bottom surface and this second bottom surface is less than or equal to 6 microns; And
One fingerprint identifier, at least this first light shield layer of part and this patterned layer are between this fingerprint identifier and this euphotic cover plate.
2. fingeprint distinguisher as claimed in claim 1, is characterized in that, this patterned layer or this first light shield layer are the photographic layer that micro-photographing process is formed.
3. fingeprint distinguisher as claimed in claim 1, being characterised in that, aligns with this second bottom surface of this patterned layer in this first bottom surface of this first light shield layer.
4. fingeprint distinguisher as claimed in claim 1, is characterized in that, this patterned layer that this patterned layer covering this first light shield layer of part of part or this first light shield layer covering part of part are divided.
5. fingeprint distinguisher as claimed in claim 1, is characterized in that, the thickness that the thickness of this first light shield layer is less than or equal to 20 microns or this patterned layer is less than or equal to 20 microns.
6. fingeprint distinguisher as claimed in claim 1, is characterized in that, the thickness that the thickness of this first light shield layer is less than or equal to 10 microns or this patterned layer is less than or equal to 10 microns.
7. fingeprint distinguisher as claimed in claim 1, is characterized in that, more comprise one second light shield layer, be arranged at this first bottom surface of this first light shield layer and this second bottom surface of this patterned layer.
8. fingeprint distinguisher as claimed in claim 7, it is characterized in that, the thickness summation of this first light shield layer and this second light shield layer is less than or equal to 20 microns.
9. fingeprint distinguisher as claimed in claim 7, it is characterized in that, the thickness summation of this patterned layer and this second light shield layer is less than or equal to 20 microns.
10. fingeprint distinguisher as claimed in claim 1, it is characterized in that, this inside surface of this euphotic cover plate has a groove, and this fingerprint identifier is positioned at this groove.
11. fingeprint distinguishers as claimed in claim 10, it is characterized in that, this groove has an inverted draw cut wall and side cell wall, and this side channel wall adjoins this inverted draw cut wall, and this first light shield layer of this patterned layer and part is positioned on this inverted draw cut wall.
12. fingeprint distinguishers as claimed in claim 11, it is characterized in that, the angle between this side channel wall and this inverted draw cut wall is greater than 90 degree.
13. fingeprint distinguishers as claimed in claim 12, is characterized in that, the angle between this side channel wall and this inverted draw cut wall is 95 degree to 175 degree.
14. fingeprint distinguishers as claimed in claim 10, it is characterized in that, this euphotic cover plate comprises a mainboard body and complex operator plate body, and those daughter board bodies are incorporated into the homonymy of this mainboard body, and those daughter board bodies are mutually separated and define this groove.
15. fingeprint distinguishers as claimed in claim 14, it is characterized in that, this daughter board body is incorporated into the side of this mainboard body by adhesion layer or ionic link.
Priority Applications (1)
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CN201520426168.9U CN204808358U (en) | 2015-06-19 | 2015-06-19 | Device is discerned to fingerprint |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520426168.9U CN204808358U (en) | 2015-06-19 | 2015-06-19 | Device is discerned to fingerprint |
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CN204808358U true CN204808358U (en) | 2015-11-25 |
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CN201520426168.9U Withdrawn - After Issue CN204808358U (en) | 2015-06-19 | 2015-06-19 | Device is discerned to fingerprint |
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
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CN105528568A (en) * | 2015-06-19 | 2016-04-27 | 宸鸿科技(厦门)有限公司 | Fingerprint identification device and manufacture method thereof |
CN106874828A (en) * | 2015-12-11 | 2017-06-20 | 金佶科技股份有限公司 | Fingerprint sensing module |
CN107015686A (en) * | 2015-12-03 | 2017-08-04 | 株式会社东海理化电机制作所 | Display panel and its manufacture method |
CN107451513A (en) * | 2016-05-31 | 2017-12-08 | 宸鸿科技(厦门)有限公司 | Fingeprint distinguisher |
CN108627993A (en) * | 2017-03-24 | 2018-10-09 | 敦捷光电股份有限公司 | Optical collimator and its manufacturing method |
CN109376648A (en) * | 2018-10-19 | 2019-02-22 | 京东方科技集团股份有限公司 | A kind of lines recognition methods, grain recognition device, display device |
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2015
- 2015-06-19 CN CN201520426168.9U patent/CN204808358U/en not_active Withdrawn - After Issue
Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105528568A (en) * | 2015-06-19 | 2016-04-27 | 宸鸿科技(厦门)有限公司 | Fingerprint identification device and manufacture method thereof |
CN107015686A (en) * | 2015-12-03 | 2017-08-04 | 株式会社东海理化电机制作所 | Display panel and its manufacture method |
CN107015686B (en) * | 2015-12-03 | 2019-12-03 | 株式会社东海理化电机制作所 | Display panel and its manufacturing method |
CN106874828A (en) * | 2015-12-11 | 2017-06-20 | 金佶科技股份有限公司 | Fingerprint sensing module |
CN106874828B (en) * | 2015-12-11 | 2020-08-11 | 金佶科技股份有限公司 | Fingerprint sensing module |
CN107451513A (en) * | 2016-05-31 | 2017-12-08 | 宸鸿科技(厦门)有限公司 | Fingeprint distinguisher |
CN107451513B (en) * | 2016-05-31 | 2023-12-29 | 宸鸿科技(厦门)有限公司 | Fingerprint identification device |
CN108627993A (en) * | 2017-03-24 | 2018-10-09 | 敦捷光电股份有限公司 | Optical collimator and its manufacturing method |
CN109376648A (en) * | 2018-10-19 | 2019-02-22 | 京东方科技集团股份有限公司 | A kind of lines recognition methods, grain recognition device, display device |
US10949028B2 (en) | 2018-10-19 | 2021-03-16 | Boe Technology Group Co., Ltd. | Texture recognition method, texture recognition device and display device |
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