CN208954971U - Fingerprint recognition mould group and electronic equipment with it - Google Patents

Abstract

The utility model discloses a kind of fingerprint recognition mould group and with its electronic equipment, fingerprint recognition mould group includes reinforcement steel disc, sensor module and silica gel sheath, sensor module has lead-out wire, sensor module is bonded on the first surface of reinforcement steel disc by the first double-sided adhesive, the first edge of first double-sided adhesive is located at the outer peripheral outside of sensor module, silica gel sheath is bonded on the first surface of reinforcement steel disc by the second double-sided adhesive, the at least partly inward flange of second double-sided adhesive is second edge, the at least partly inward flange of silica gel sheath is third edge, third edge, first edge and second edge are inside and outside from inside to outside to be set gradually, first double-sided adhesive, second double-sided adhesive, glue flow path is limited between reinforcement steel disc and silica gel sheath, the glue entrance with glue fluid communication is formed on silica gel sheath and/or reinforcement steel disc, glue entrance It is arranged far from lead-out wire.Fingerprint recognition mould group according to the present utility model has good use reliability and feel.

Description

Fingerprint recognition mould group and electronic equipment with it

Technical field

The utility model relates to technical field of electronic device, more particularly, to a kind of fingerprint recognition mould group and with its electricity Sub- equipment.

Background technique

In the related technology, in fingerprint recognition mould group such as push type fingerprint recognition mould group, fingerprint sensor mostly uses two-sided Glue is Nian Jie with water-proof silica-gel set to be connected, since double-sided adhesive corrosion resistance itself and sweat proof fluidity can be poor, so that double-sided adhesive Connection reliability is not high；And in push type fingerprint recognition mould group, due to blocking for FPC outlet, if directly carrying out dispensing, glue Water tends to stick to FPC outlet, cause fingerprint recognition mould group feel poor or FPC outlet vulnerable to power pullled fracture etc., thus nothing Method directly carries out dispensing, so that the reliability of fingerprint recognition mould group is not high.

Utility model content

The utility model aims to solve at least one of the technical problems existing in the prior art.For this purpose, the utility model mentions A kind of fingerprint recognition mould group out, the fingerprint recognition mould group have good use reliability and feel.

The utility model also proposes a kind of electronic equipment with above-mentioned fingerprint recognition mould group.

According to the fingerprint recognition mould group of the utility model first aspect embodiment, comprising: reinforcement steel disc；Sensor module, The sensor module has lead-out wire, and the sensor module is bonded in the of the reinforcement steel disc by the first double-sided adhesive On one surface, the silica gel sheath is between the lead-out wire and the reinforcement steel disc, and first double-sided adhesive is at least partly Outer edge is first edge, and the first edge is located at the outer peripheral outside of the sensor module；Silica gel sheath, the silica gel sheath Be formed as cyclic structure, and the silica gel sheath is bonded on the first surface of the reinforcement steel disc by the second double-sided adhesive, At least partly inward flange of second double-sided adhesive is second edge, and at least partly inward flange of the silica gel sheath is third side Edge, the third edge, the first edge and the second edge are inside and outside from inside to outside to be set gradually, so that described first pair Limit glue flow path between face glue, second double-sided adhesive, the reinforcement steel disc and the silica gel sheath, the silica gel sheath and/ Or the glue entrance with glue fluid communication is formed on the reinforcement steel disc, the glue entrance is set far from the lead-out wire It sets.

According to the fingerprint recognition mould group of the utility model embodiment, pass through the first double-sided adhesive of setting, the second double-sided adhesive and silicon Gum cover, so that the first surface and silica gel sheath of the first edge of the first double-sided adhesive, the second edge of the second double-sided adhesive, reinforcement steel disc Towards glue flow path is limited between the surface of reinforcement steel disc jointly, and formed on silica gel sheath and/or reinforcement steel disc and glue The glue entrance of water fluid communication and separate lead-out wire, lead-out wire and glue flow path is completely isolated, so as in glue Inlet carries out dispensing, so that being not only connected by the second two-sided glue sticking between silica gel sheath and reinforcement steel disc, also passes through first Double-sided adhesive is connected with the glue in glue flow path, and then improves the waterproof reliability of fingerprint recognition mould group, and improve silicon Connection reliability between gum cover and reinforcement steel disc improves the use reliability of fingerprint recognition mould group；Avoid glue viscous simultaneously Firmly lead-out wire ensure that the use feel of fingerprint recognition mould group.

Some embodiments according to the present utility model, the first edge are the entire outer edge of first double-sided adhesive.

Some embodiments according to the present utility model, second double-sided adhesive are formed as cyclic structure, the second edge For the entire inward flange of second double-sided adhesive, the third edge is the entire inward flange of the silica gel sheath.

Some embodiments according to the present utility model, the glue flow path is interior to fill underfill.

Some embodiments according to the present utility model, the glue entrance are made only on the silica gel sheath.

Some embodiments according to the present utility model, the interval between the glue entrance and the lead-out wire are greater than or wait In 1mm.

Some embodiments according to the present utility model, the thickness of the sensor module, the reinforcement steel disc thickness and The thickness of the silica gel sheath is respectively t₁、t₂And t₃, the t₁, the t₂With the t₃Meet: t₁> t₂> t₃。

Some embodiments according to the present utility model, the lead-out wire are described first pair neighbouring with the sensor module One end interval of face glue is arranged.

Some embodiments according to the present utility model, the cross-sectional shape of the sensor module be round, oblong or It is rectangular.

According to the electronic equipment of the utility model second aspect embodiment, including mainboard and fingerprint recognition mould group, the finger Line identifies that mould group is the fingerprint recognition mould group according to the above-mentioned first aspect embodiment of the utility model, the lead-out wire and the master Plate electrical connection.

Electronics is improved by using above-mentioned fingerprint recognition mould group according to the electronic equipment of the utility model embodiment The use reliability of equipment ensure that the experience effect of user.

The additional aspect and advantage of the utility model will be set forth in part in the description, partially will be from following description In become obvious, or recognized by the practice of the utility model.

Detailed description of the invention

The above-mentioned and/or additional aspect and advantage of the utility model from the description of the embodiment in conjunction with the following figures will Become obvious and be readily appreciated that, in which:

Fig. 1 is the structural schematic diagram according to the fingerprint recognition mould group of the utility model embodiment；

Fig. 2 is the enlarged drawing in the portion A that Fig. 1 centre circle shows；

Fig. 3 is the side view of fingerprint recognition mould group shown in Fig. 1；

Fig. 4 is the enlarged drawing in the portion B that Fig. 3 centre circle shows；

Fig. 5 is the partial structural diagram of fingerprint recognition mould group shown in Fig. 1.

Appended drawing reference:

Fingerprint recognition mould group 100, glue flow path 100a, glue entrance 100b, central axis 100c,

Reinforcement steel disc 1, first surface 1a, sensor module 2, lead-out wire 2a, the first double-sided adhesive 20, first edge 20a, silicon Gum cover 3, third edge 3a, the second double-sided adhesive 30, second edge 30a.

Specific embodiment

The embodiments of the present invention are described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng The embodiment for examining attached drawing description is exemplary, and is only used for explaining the utility model, and should not be understood as to the utility model Limitation.

Below with reference to Fig. 1-Fig. 5 description according to the fingerprint recognition mould group 100 of the utility model first aspect embodiment.Its In, fingerprint recognition mould group 100 can be push type fingerprint recognition mould group 100, but not limited to this.Description below the application In, it is illustrated by taking push type fingerprint recognition mould group 100 as an example.

As Figure 1-Figure 5, according to the fingerprint recognition mould group 100 of the utility model embodiment, including reinforcement steel disc 1, biography Sensor component 2 and silica gel sheath 3.

Sensor module 2 has lead-out wire 2a, and sensor module 2 is bonded in reinforcement steel disc 1 by the first double-sided adhesive 20 First surface 1a on, at least partly outer edge of the first double-sided adhesive 20 is first edge 20a, and first edge 20a is located at sensing The outer peripheral outside of device assembly 2.Silica gel sheath 3 is formed as cyclic structure, and silica gel sheath 3 is bonded in benefit by the second double-sided adhesive 30 On the first surface 1a of strong steel disc 1, silica gel sheath 3 is between lead-out wire 2a and reinforcement steel disc 1, at least portion of the second double-sided adhesive 30 Dividing inward flange is second edge 30a, and at least partly inward flange of silica gel sheath 3 is third edge 3a, third edge 3a, the first side Edge 20a and second edge 30a is inside and outside from inside to outside to be set gradually, so that the first double-sided adhesive 20, the second double-sided adhesive 30, reinforcement steel disc Glue flow path 100a is limited between 1 and silica gel sheath 3, is formed on silica gel sheath 3 and/or reinforcement steel disc 1 and glue flow path 100a Glue the entrance 100b, glue entrance 100b of connection are arranged far from lead-out wire 2a.

For example, as Figure 1-Figure 5, lead-out wire 2a can be drawn from a side surface of sensor module 2, work as fingerprint recognition When mould group 100 is applied to electronic equipment, lead-out wire 2a can be electrically connected with the mainboard of electronic equipment；Reinforcement steel disc 1 is formed as flat Hardened structure, and the arrangement vertical along the vertical direction of reinforcement steel disc 1, the thickness direction of reinforcement steel disc 1 can be arranged along the longitudinal direction；The One double-sided adhesive 20 can be generally formed into slab construction, and the first double-sided adhesive 20 is located at the side of the thickness direction of sensor module 2 On surface (for example, front surface in Fig. 1-Fig. 5), the other side of the thickness direction of sensor module 2 can be to incude side, first Edge 20a can extend out to the outer edge beyond sensor module 2, and wherein first surface 1a can be reinforcement steel disc 1 One side surface of thickness direction.

Silica gel sheath 3 can be generally formed into flat annular structure, and the second double-sided adhesive 30 can be generally formed into slab construction, Second double-sided adhesive 30 is located on a side surface of the thickness direction of silica gel sheath 3, and silica gel sheath 3 is bonded on first surface 1a, The outer edge of silica gel sheath 3 can be concordant with the outer edge of the second double-sided adhesive 30 or be extended out to beyond the second double-sided adhesive 30 outer edge allows silica gel sheath 3 to cover the second double-sided adhesive 30, guarantees the utilization rate of the second double-sided adhesive 30；Third edge 3a, first edge 20a and second edge 30a are inside and outside from inside to outside to be set gradually, so that the first edge of the first double-sided adhesive 20 20a, the second edge 30a of the second double-sided adhesive 30, the first surface 1a of reinforcement steel disc 1 and silica gel sheath 3 are towards reinforcement steel disc 1 Glue flow path 100a is limited between surface jointly, since glue entrance 100b is connected to and glue entrance with glue flow path 100a 100b is arranged far from lead-out wire 2a, and so as to carry out dispensing at glue entrance 100b, glue can be along glue flow path 100a Flowing is to be filled in glue flow path 100a, so that not only viscous by the second double-sided adhesive 30 between silica gel sheath 3 and reinforcement steel disc 1 It connects connected, is also connected with the glue in glue flow path 100a by the first double-sided adhesive 20, and glue is with good corrosion resistance With sweat proof fluidity energy, and then the waterproof reliability of fingerprint recognition mould group 100 is improved, and improve silica gel sheath 3 and reinforcement steel Connection reliability between piece 1 improves the use reliability of fingerprint recognition mould group 100, while silica gel sheath 3 is with good anti- Aqueous energy, further improves the waterproof reliability of fingerprint recognition mould group 100.

Wherein, lead-out wire 2a can be FPC (Flexible Printed Circuit, flexible circuit board) outlet, due to Silica gel sheath 3 is between lead-out wire 2a and reinforcement steel disc 1, that is to say, that silica gel sheath 3 can be by glue flow path 100a and extraction Line 2a is completely isolated, avoid when dispensing, glue-contact to lead-out wire 2a and cling lead-out wire 2a, so as to avoid fingerprint recognition mould 100 feels of group are deteriorated, avoid multiple compression sensor component 2 lead-out wire 2a stress is caused to be pullled fracture, further promotion The use reliability of fingerprint recognition mould group 100 ensure that fingerprint recognition mould group 100 has good feel.

It specifically, can be first two-sided by first by sensor module 2 in the process of fingerprint recognition mould group 100 Glue 20 is bonded on the first surface 1a of reinforcement steel disc 1, then silica gel sheath 3 can carry second double-sided adhesive 30 be bonded with its, And be bonded on the first surface 1a of reinforcement steel disc 1 by the second double-sided adhesive 30, silica gel sheath 3 is set in sensor module 2 at this time Outside so that limiting glue flow path jointly between the first double-sided adhesive 20, the second double-sided adhesive 30, reinforcement steel disc 1 and silica gel sheath 3 100a then carries out dispensing, so that glue is filled in glue flow path along glue flow path 100a at reserved glue entrance 100b In 100a, to guarantee the connection reliability of silica gel sheath 3 Yu reinforcement steel disc 1.

It is understood that glue entrance 100b can be made only on silica gel sheath 3 or be made only in reinforcement steel disc On 1, it can also be respectively formed on silica gel sheath 3 and reinforcement steel disc 1.When being formed with glue entrance 100b on silica gel sheath 3, glue Water inlet 100b can run through silica gel sheath 3 along the thickness direction of silica gel sheath 3；When being formed with glue entrance on reinforcement steel disc 1 When 100b, glue entrance 100b can run through reinforcement steel disc 1 along the thickness direction of reinforcement steel disc 1.

Here, it should be noted that direction "outside" refers to the side of the central axis 100c far from fingerprint recognition mould group 100 To opposite direction is defined as "inner", wherein the central axis 100c of fingerprint recognition mould group 100 can be with reinforcement steel disc 1 Thickness direction is parallel.

According to the fingerprint recognition mould group 100 of the utility model embodiment, by the way that the first double-sided adhesive 20, the second double-sided adhesive is arranged 30 and silica gel sheath 3, so that the first edge 20a of the first double-sided adhesive 20, the second edge 30a of the second double-sided adhesive 30, reinforcement steel disc 1 First surface 1a and silica gel sheath 3 towards glue flow path 100a is limited between the surface of reinforcement steel disc 1 jointly, and in silica gel The glue entrance 100b being connected to glue flow path 100a and far from lead-out wire 2a is formed on set 3 and/or reinforcement steel disc 1, it will Lead-out wire 2a and glue flow path 100a are completely isolated, so as to carry out dispensing at glue entrance 100b, so that silica gel sheath 3 Not only it is connected by the way that the second double-sided adhesive 30 is Nian Jie between reinforcement steel disc 1, also passes through the first double-sided adhesive 20 and glue flow path 100a Interior glue is connected, and then improves the waterproof reliability of fingerprint recognition mould group 100, and improve silica gel sheath 3 and reinforcement steel Connection reliability between piece 1 improves the use reliability of fingerprint recognition mould group 100；Glue is avoided to cling lead-out wire simultaneously 2a ensure that the use feel of fingerprint recognition mould group 100.

In some embodiments of the utility model, as Figure 1-Figure 5, first edge 20a is the first double-sided adhesive 20 Entire outer edge, that is to say, that the entire outer edge of the first double-sided adhesive 20 is respectively positioned on the outside of sensor module 2, so that sensing There is biggish bond area between device assembly 2 and reinforcement steel disc 1, ensure that the company between sensor module 2 and reinforcement steel disc 1 Connect reliability.

Optionally, as Figure 1-Figure 5, the second double-sided adhesive 30 is formed as cyclic structure, and second edge 30a is second two-sided The entire inward flange of glue 30, third edge 3a is the entire inward flange of silica gel sheath 3, so that the first edge of the first double-sided adhesive 20 20a, the second edge 30a of the second double-sided adhesive 30, the first surface 1a of reinforcement steel disc 1 and silica gel sheath 3 towards reinforcement steel disc 1 Surface between the glue flow path 100a that limits jointly can be formed as cyclic structure, glue flow path 100a can be surround at this time The circle setting of sensor module 2 one, further improves the connection reliability between silica gel sheath 3 and reinforcement steel disc 1.

Specifically, underfill is filled in glue flow path 100a, that is to say, that when carrying out dispensing, glue is the bottom of using Glue is filled in portion, underfill be a kind of low viscosity, low-temperature setting Capillary Flow bottom under filler, flowing velocity is fast, makes It is long with the service life, there is good process operability, effectively improve the connection reliability between silica gel sheath 3 and reinforcement steel disc 1.

In some alternative embodiments of the utility model, as Figure 1-Figure 5, glue entrance 100b is made only in silica gel On set 3, glue entrance 100b can run through silica gel sheath 3 along the thickness direction of silica gel sheath 3 at this time, so that silica gel sheath 3 is bonded in the Rear, glue entrance 100b is connected to glue flow path 100a on one surface 1a.Certainly, the utility model is without being limited thereto.Glue entrance 100b can also be made only on reinforcement steel disc 1, and glue entrance 100b can be along the thickness direction of reinforcement steel disc 1 through benefit at this time Strong steel disc 1, so that the first double-sided adhesive 20 and the second double-sided adhesive 30 are sticked on reinforcement steel disc 1 rear, glue entrance 100b and glue stream Road 100a connection.

It is understood that the shapes and sizes of glue entrance 100b can be specifically arranged according to actual needs.For example, glue Water inlet 100b can be formed as oblong openings, on the cross section of fingerprint recognition mould group 100, the side of glue entrance 100b The projection of edge can be respectively provided with intersection point with the projection of first edge 20a and the projection of second edge 30a or not hand over Point, that is to say, that on the cross section of fingerprint recognition mould group 100, the projection at the edge of glue entrance 100b and first edge 20a Projection can have intersection point, can also be without intersection point, the projection at the edge of glue entrance 100b and the projection of second edge 30a It can have intersection point, can also there is no intersection point.Wherein, the cross section of fingerprint recognition mould group 100 is perpendicular to fingerprint recognition mould group The plane of 100 central axis 100c.

Further, the interval between glue entrance 100b and lead-out wire 2a is greater than or equal to 1mm, in order to dispensing, into One step avoids glue from clinging lead-out wire 2a, guarantees the processing efficiency of fingerprint recognition mould group 100.

It is understood that the interval between glue entrance 100b and lead-out wire 2a can also be according to specific dispensing work Skill, spot gluing equipment are set as other numerical value.

Optionally, as Figure 1-Figure 5, the thickness of the thickness of sensor module 2, the thickness of reinforcement steel disc 1 and silica gel sheath 3 Respectively t₁、t₂And t₃, meet: t₁> t₂> t₃, so that fingerprint recognition mould group 100 is structurally reasonable, there is good intensity, with full Sufficient use demand.

In some specific embodiments of the utility model, neighbouring first double-sided adhesive of lead-out wire 2a and sensor module 2 20 one end interval setting.For example, in the example of Fig. 1-Fig. 5, the extraction location of lead-out wire 2a and the rear end of sensor module 2 Face interval setting, thus even if the outer edge interval of third edge 3a and sensor module 2 is arranged, lead-out wire 2a still will not be by It clings, ensure that the feel of fingerprint recognition mould group 100, while protecting lead-out wire 2a to avoid lead-out wire 2a fracture.

Optionally, the cross-sectional shape of sensor module 2 is round, oblong or rectangular etc., and sensor module 2 has Good design flexibility, so that fingerprint recognition mould group 100 has good applicability.

According to the electronic equipment of the utility model second aspect embodiment, including mainboard and fingerprint recognition mould group 100, fingerprint Identify that mould group 100 is the fingerprint recognition mould group 100 according to the above-mentioned first aspect embodiment of the utility model, lead-out wire 2a and master Plate electrical connection realizes fingerprint recognition mould group 100 so that signal can be passed to mainboard by lead-out wire 2a by sensor module 2 Identification function.

Wherein, electronic equipment is the various equipment that can be obtained data from outside and be handled the data, alternatively, electric Sub- equipment can be it is various be built-in with battery, and can be from the external equipment that obtains electric current and charge to the battery, for example, hand Machine, calculates equipment or device for display of message etc. at tablet computer.Mobile phone is only the citing of a kind of electronic equipment, and the application is not special It does not limit, this application can be applied to electronic equipments such as mobile phone, tablet computers, the application is not limited this.

Electricity is improved by using above-mentioned fingerprint recognition mould group 100 according to the electronic equipment of the utility model embodiment The use reliability of sub- equipment ensure that the experience effect of user.

According to other compositions of the electronic equipment of the utility model embodiment and operate for ordinary skill people Member for be all it is known, be not detailed herein.

In the description of the present invention, it should be understood that term " center ", " transverse direction ", " thickness ", "upper", "lower", The orientation or positional relationship of the instructions such as "front", "rear", "left", "right", "vertical", "inner", "outside", " axial direction " is based on attached drawing institute The orientation or positional relationship shown, is merely for convenience of describing the present invention and simplifying the description, rather than indication or suggestion is signified Device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as to this is practical Novel limitation.Wherein, the meaning of " plurality " is two or more.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " illustrative examples ", The description of " example ", " specific example " or " some examples " etc. means specific features described in conjunction with this embodiment or example, knot Structure, material or feature are contained at least one embodiment or example of the utility model.In the present specification, to above-mentioned art The schematic representation of language may not refer to the same embodiment or example.Moreover, description specific features, structure, material or Person's feature can be combined in any suitable manner in any one or more of the embodiments or examples.

While there has been shown and described that the embodiments of the present invention, it will be understood by those skilled in the art that: These embodiments can be carried out with a variety of variations, modification, replacement in the case where not departing from the principles of the present invention and objective And modification, the scope of the utility model are defined by the claims and their equivalents.

Claims (10)

1. a kind of fingerprint recognition mould group characterized by comprising

Reinforcement steel disc；

Sensor module, the sensor module has lead-out wire, and the sensor module is bonded in by the first double-sided adhesive On the first surface of the reinforcement steel disc, at least partly outer edge of first double-sided adhesive is first edge, first side Edge is located at the outer peripheral outside of the sensor module；

Silica gel sheath, the silica gel sheath is formed as cyclic structure, and the silica gel sheath is bonded in the reinforcement by the second double-sided adhesive On the first surface of steel disc, for the silica gel sheath between the lead-out wire and the reinforcement steel disc, described second is two-sided At least partly inward flange of glue is second edge, and at least partly inward flange of the silica gel sheath is third edge, the third side Edge, the first edge and the second edge are inside and outside from inside to outside to be set gradually, so that first double-sided adhesive, described second Glue flow path, the silica gel sheath and/or the reinforcement steel disc are limited between double-sided adhesive, the reinforcement steel disc and the silica gel sheath On be formed with glue entrance with glue fluid communication, the glue entrance is arranged far from the lead-out wire.

2. fingerprint recognition mould group according to claim 1, which is characterized in that the first edge is first double-sided adhesive Entire outer edge.

3. fingerprint recognition mould group according to claim 2, which is characterized in that second double-sided adhesive is formed as cyclic annular knot Structure, the second edge are the entire inward flange of second double-sided adhesive, and the third edge is the entire interior of the silica gel sheath Edge.

4. fingerprint recognition mould group according to claim 1, which is characterized in that fill underfill in the glue flow path Glue.

5. fingerprint recognition mould group described in any one of -4 according to claim 1, which is characterized in that the glue entrance is only formed On the silica gel sheath.

6. fingerprint recognition mould group according to claim 5, which is characterized in that between the glue entrance and the lead-out wire Interval be greater than or equal to 1mm.

7. fingerprint recognition mould group according to claim 1, which is characterized in that the thickness of the sensor module, the benefit The strong thickness of steel disc and the thickness of the silica gel sheath are respectively t₁、t₂And t₃, the t₁, the t₂With the t₃Meet: t₁> t₂> t₃。

8. fingerprint recognition mould group according to claim 7, which is characterized in that the lead-out wire and the sensor module One end interval of neighbouring first double-sided adhesive is arranged.

9. fingerprint recognition mould group according to claim 1, which is characterized in that the cross-sectional shape of the sensor module is Round, oblong or rectangular.

10. a kind of electronic equipment characterized by comprising

Mainboard；

Fingerprint recognition mould group, the fingerprint recognition mould group be according to fingerprint recognition mould group of any of claims 1-9, The lead-out wire is electrically connected with the mainboard.