CN109696969A - Strengthen dish-like nib - Google Patents

Abstract

Strengthen dish-like nib, including a stiffener rings, a disk plates, a goalpost and a touching layer group the invention discloses a kind of；Stiffener rings have a ring body, ring edge on one, the ring edge once of ring edge and the inward flange to extend internally from upper ring edge in correspondence；Disk plates include square position surface, once square position surface and the cone cell receiving portion upwardly extended from upper square position centre of surface on one；Cone cell receiving portion includes a receiving channel；Goalpost has a ballhead and a trunk portion, and the rotatable movement of ballhead is inserted in receiving channel；Trunk portion upwardly extends and stylus electric property coupling through cone cell receiving portion；Touching layer group is installed on lower square position surface, touches layer group electric property coupling ballhead；During ballhead moving in rotation, touching layer group, cone cell receiving portion and inward flange keep ballhead in receiving channel；The dish-like nib of reinforcing of the invention can avoid the accidental release of disk plates during use, and can reach endpoint and understand the effect of visual and accurate coordinate determines.

Description

Strengthen dish-like nib

Technical field

The present invention is a kind of related dish-like nib, refers in particular to a kind of controllable stylus and capacitance touching control sensing device Strengthen dish-like nib.

Background technique

Existing stylus is usually as an input equipment, by contact with or close to a touch control induction device, such as plate meter Calculation machine, mobile device, graphic tablet and other appropriate means a Touch Screen surface set to execute the input of multiple functions It is standby.When an object is in contact with or close to touch control induction device, especially capacitance touching control sensing device surface, in touch-control or after A capacitance variations can be generated by being formed in the Touch Screen of capacitive coupling effect place.One touch-control sensing controller is capable of handling the electricity Hold variation, to determine coordinate of the object on Touch Screen, orientation (such as azimuth and inclination angle) is calculated, to execute example It such as writes, draw, applying or the operation to elect is touched with stylus on the screen.

It is had been developed that with judgement coordinate with several touch-control pen technologies of computer azimuth.Some technologies can be by the one of stylus A or multiple positions detect capacitor relative to a surface of touch control induction device, then using the capacitor to determine its coordinate, And orientation of the calculating relative to stylus on the surface.Other technologies can enclose a conductive plate at a tip of stylus, To ensure to generate capacitive coupling between stylus and the Touch Screen surface of touch control induction device.

For the stylus with conductive plate, in some technologies, a connector such as goalpost for a pivot joint rotation is For assembling stylus to conductive plate.Therefore, when user uses stylus, the touch screen of conductive plate and touch control induction device Scene plot face can keep flushing.

However, conductive plate Chang Huicong goalpost unexpectedly loosens, such as when goalpost rotates to its when using this stylus When maximum angle.When this is the case, the pullout forces of goalpost are reduced, pullout forces here refer to that goalpost is born in axial/radial For the power for separating it from conductive plate.Therefore, the generation of accidental release can be more and more frequent later.Further, since conductive plate It is small-sized, and the clear visibility of endpoint of the conductive plate used for convenient user, so working as conductive plate accidental release When, conductive plate can lose.Therefore, it is necessary to replace conductive plate and increase the cost of user.

In view of this, having a kind of demand of dish-like nib of strength to solve the above problems a little.

Summary of the invention

Strengthen dish-like nib suitable for manipulating various styluses and various capacitors one of the objects of the present invention is to provide a kind of Touch control induction device.

To reach above-mentioned purpose, the present invention provides a kind of dish-like nib of reinforcing, is used cooperatively, strengthens dish-like with a stylus Nib includes a stiffener rings, a disk plates, a goalpost and a touching layer group.Stiffener rings have a ring body, connection ring body One on ring edge, the ring edge once of ring edge and the inward flange to extend internally from upper ring edge in correspondence.Disk plates include on one The surface of square position once on square position surface and the cone cell upwardly extended from upper square position centre of surface accommodate on square position surface, correspondence Portion, wherein cone cell receiving portion includes a receiving channel with circular cross section.Goalpost has a ballhead and connects ballhead One trunk portion, the rotatable movement of ballhead are inserted in receiving channel.Trunk portion upwardly extends and the touching through cone cell receiving portion Control an electric property coupling.Touching layer group is installed on lower square position surface, touches layer group electric property coupling ballhead.When ballhead moving in rotation Period, touching layer group, cone cell receiving portion and inward flange keep ballhead in receiving channel.

The present invention also has effects that following, and stiffener rings can be avoided goalpost, and disk plates unexpectedly loosen during use. In addition, the support inward flange and a support that stiffener rings have bond strength high simultaneously are outer when disk plates are ejection formation Flange and with the integrally formed annular groove of disk plates.Therefore, the pull-out strength of goalpost improves, i.e., pullout forces refer to it is axial/ Radially goalpost is the power born before separating its ballhead from disk plates.

Moved when Pointer contacts and along the Touch Screen surface of touch control induction device, by endpoint it is clearly visible degree and Accurate coordinate determines, it is more natural and have to draw filament and promote susceptibility not that disk plates are capable of providing user (such as clearly the visual field (no grazing point), sharp endpoint identify, are non-delay, without wave) is arduously experienced, to increase The experience of stylus.The dish-like nib of the reinforcing of the present embodiment is suitable for increase when drawing filament the susceptibility of stylus, Also it can be prolonged its service life by stiffener rings, avoid the pull-out strength because gradually increasing between goalpost and disk plates And separate, refer in this signified pull-out strength and is used in long-time and/or in the power for acting on the axial/radial in disk plates Amount.In addition, replacement cost can reduce, the use of maximum rotation angle be can be sure that and loosen be it is avoidable, also still Endpoint can be reached and understand that visual and accurate coordinate determines.

Detailed description of the invention

Fig. 1 is the schematic diagram for the preferred embodiment that the present invention is used cooperatively with stylus.

Fig. 2 is the cross-sectional view of preferred embodiment of the present invention.

Fig. 3 A is the perspective view of the preferred embodiment of stiffener rings in the present invention.

Fig. 3 B is the cross-sectional view of the preferred embodiment of stiffener rings in the present invention.

Fig. 4 A is the perspective view of another preferred embodiment of stiffener rings in the present invention.

Fig. 4 B is the cross-sectional view of another preferred embodiment of stiffener rings in the present invention.

Fig. 5 A is the cross-sectional view of the preferred embodiment of disk plates in the present invention.

Fig. 5 B is the cross-sectional view of another preferred embodiment of disk plates in the present invention.

Fig. 6 A is the perspective view of the preferred embodiment of goalpost in the present invention.

Fig. 6 B is the perspective view of another preferred embodiment of goalpost in the present invention.

Fig. 7 is the perspective view of preferred embodiment of the present invention.

Fig. 8 is the stereogram exploded view of preferred embodiment of the present invention.

Fig. 9 is the three-dimensional cutaway view that the preferred embodiment of layer group is touched in the present invention.

Symbol description in attached drawing:

1 strengthens dish-like nib；2 stiffener rings；21 ring bodies；Ring edge on 22；23 lower ring edges；24 inward flanges；In 25 supports Flange；26 support outward flanges；3 disk plates；Square position surface on 31；32 lower square position surfaces；321 center holes；33 cones Shape receiving portion；331 receiving channels；Cavity edge on 332；333 lower cavity edges；334 annular grooves；4 goalpost；41 is spherical Head；42 trunk portions；421 necks；422 cone cell sections；423 cylindrical bodies；424 rod ends；5 touching layer group；51 compression conductives Piece；52 support conductive sheets；521 annular sole pieces；53 adhesion coatings；531 centre bores；54 conductive proximal end layers；θ angle；7 touchings Control pen；71 pen tips；72 shells；73 processing system circuits；74 power supplys；θ ' rotation movement angle.

Specific embodiment

Detailed description for the present invention and technology contents, cooperation schema is described as follows, however institute's accompanying drawings only provide ginseng It examines and illustrates to use, be not intended to limit the present invention.

As shown in Figure 1, the present invention provides a kind of reinforcing dish-like written 1, it is used cooperatively and with a stylus 7 to manipulate one Capacitance touching control sensing device (figure omits).Herein signified capacitance touching control sensing device for example tablet computer, mobile device, Graphic tablet or other suitable touch devices.In the embodiment shown in fig. 1, stylus 7 includes a pen tip 71 and connects Connect a shell 72 of pen tip 71.The reinforcing dish of one touch-control surface of the capacitance touching control sensing device as described in touch-control of pen tip 71 Type nib 1 is formed.The reinforcing dish-like written 1 of the present embodiment can be with the same center of cross-sectional shape of shell 72；However at it In his different embodiment, strengthening dish-like written 1 can not also change with the same center of cross-sectional shape of shell 72 depending on demand Become, it's not limited to that.Shell 72 can install touch-control circuit, for example, inductive component, signal processing component and other be suitble to groups Part (processing system circuit 73 as shown in Figure 1 and power supply 74), depending on stylus 7 demand and change.

In addition, the size of dish-like written 1 size of the reinforcing preferably less than shell 72 in the present embodiment.However at other In different embodiments, strengthen dish-like written 1 size can also identical or greater than shell 72 size, it's not limited to that.By force Changing dish-like written 1 can be made of any suitable conduction material or non-conductive material, so that dish can be strengthened from entire by being electrically connected Pen tip 71 and shell 72 of the type nib 1 until stylus 7.In the present embodiment, strengthening dish-like written 1 is alternatively to be assembled in On shell 72, and shell 72 can be suitable conduction material or any suitable non-conductive material, depending on stylus 7 demand and change Become.

As shown in Fig. 2, strengthening dish-like written 1 includes a stiffener rings 2, a disk plates 3, a goalpost 4 and a touching layer group 5.Since 3 long-time of disk plates uses and/or act on the axial/radial power of reinforcing dish-like written 1, make goalpost 4 and plate-like Pullout forces between plate 3 increase, and the design of stiffener rings 2 and disk plates 3 and are configured to avoid the unexpected pine of goalpost 4 It is de-.

With reference to shown in Fig. 3 A, Fig. 3 B and Fig. 5 A, stiffener rings 2 have a ring body 21, connect ring edge on the one of ring body 21 22, the ring edge once 23 of ring edge 22, the inward flange 24 to extend internally from upper ring edge 22 in correspondence, extend internally from lower ring edge 23 One support inward flange 25 and from lower ring edge 23 outwardly extending one support outward flange 26.Implement as shown in Fig. 3 A and Fig. 3 B In example, stiffener rings 2 have two annular support flanges (support inward flange 25, support outward flange 26), and two circumferential supports are convex Edge (support inward flange 25, support outward flange 26) corresponding inward flange 24 is arranged.Two annular support flange (support inward flanges 25, support outward flange 26) shape including but not limited to cyclic annular, wavy, zigzag or other suitable shapes, and set respectively It is placed in 23 two sides of lower ring edge of ring body 21.However in other different embodiments, support inward flange 25 and support outward flange 26 can be also arranged between the upper ring edge 22 of ring body 21 and lower ring edge 23, so as in the annular groove of stiffener rings 2 and disk plates 3 Bond strength with higher, clear endpoint visibility and strengthen showing for ability between 334.

Stiffener rings 2 are made of a solid block, but the present embodiment is not limited to this.Stiffener rings 2 can be by more than one solid Body block or solid block with hole are constituted, so as to the combination with higher between stiffener rings 2 and the annular groove 334 of disk plates 3 Intensity, clear endpoint visibility and strengthens ability and show.Stiffener rings 2 can be by any suitable conductive or non-conductive material institute It constitutes, preferably stainless steel, so that the bending coefficient (flexural modulus) of suitable conductive or non-conductive material is greater than The bending coefficient of disk plates 3.The relatively high flexural modulus of stiffener rings 2, specifically, the higher bending coefficient of inward flange 24 can Increase the bond strength between goalpost 4 and disk plates 3, is unexpectedly loosened to avoid goalpost 4.

Disk plates 3 include square position surface 31 on one, the surface of square position once 32 on square position surface 31 and put down from upper in correspondence The cone cell receiving portion 33 that 31 center of panel surface upwardly extends, wherein cone cell receiving portion 33 includes a receiving with circular cross section Channel 331.Disk plates 3 can be made of any suitable non-conductive material, such as transparent polycarbonate (PC), poly- methyl-prop E pioic acid methyl ester (PMMA) or other plastic materials according to the present embodiment demand.In the present embodiment, disk plates 3 are preferably poly- Carbonic ester.Cone cell receiving portion 33 also cavity edge 333 and is located on receiving channel 331 comprising cavity edge 332 on one, once One annular groove 334.Stiffener rings 2 and annular groove 334 are integrally formed, and the inward flange 24 of stiffener rings 2 expose and with circular cross section The upper cavity edge 332 of receiving channel 331 flushes.Therefore, the shape of annular groove 334 and its configuration are the shapes of corresponding stiffener rings 2 Until inward flange 24.

In the embodiment as shown in Fig. 3 A, Fig. 3 B and Fig. 5 A, the ring body 21 of stiffener rings 2 is preferably and disk plates 3 lower square position surface 32 is vertical.However in the embodiment as shown in Fig. 4 A, Fig. 4 B and Fig. 5 B, the ring body 21 of stiffener rings 2 It can be and form an angle theta with the lower square position surface 32 of disk plates 3.Specifically, the ballhead 41 of ring body 21 and goalpost 4 Rotation center has an angle theta, this angle theta is less than 90 degree so that the size of lower ring edge 23 is greater than the size of upper ring edge 22.In addition, When disk plates 3 are after its ejection formation solidifies, the support inward flange 25 and support outward flange 26 of stiffener rings 2 can increase reinforcing Bond strength between ring 2 and annular groove 334.

With reference to shown in Fig. 6 A and Fig. 6 B, goalpost 4 has a ballhead 41 and connects a trunk portion 42 of ballhead 41.It is spherical First 41 rotatable movement is inserted in receiving channel 331, to allow the moving in rotation in it of ballhead 41.Trunk portion 42 is through cone cell Receiving portion 33 upwardly extends and 7 electric property coupling of stylus.The goalpost 4 of the present embodiment can be by any suitable conduction material structure At, such as stainless steel, aluminium, copper or other similar material, it is preferably stainless steel.

Trunk portion 42 includes a neck 421, a cone cell section 422, a cylindrical body 423 and a rod end 424.The ruler of neck 421 The very little size less than ballhead 41 and cone cell section 422, so that moving in rotation of the trunk portion 42 relative to 41 rotation center of ballhead Angle, θ ' it is 100 degree or more, as shown in Figure 7.As shown in Fig. 6 A and Fig. 6 B, neck 421 is made with the integrated molding of ballhead 41, And cone cell section 422 and cylindrical body 423 are made with the integrated molding of rod end 424.In embodiment as shown in Figure 6A, rod end 424 It is cylindric that shape is preferably one, is electrically connected so as to strengthen dish-like written 1 and is crimped on the stylus 7.However such as Fig. 6 B Shown in embodiment, rod end 424 is preferably a threaded portion (not indicating), is electrically connected and spiral shell so as to strengthen dish-like written 1 It is fixed in the stylus 7.Therefore enable the present embodiment strengthen dish-like written 1 replace be assembled in stylus 7.

With reference to shown in Fig. 8 and Fig. 9, touching layer group 5 is installed on lower square position surface 32, touching 5 electric property coupling goalpost 4 of layer group Ballhead 41.During 41 moving in rotation of ballhead, the inward flange 24 of touching layer group 5, cone cell receiving portion 33 and stiffener rings 2 is kept Ballhead 41 is in receiving channel 331.In embodiment as shown in Figure 9, touching layer group 5 includes a compression conductive piece 51, one Support conductive sheet 52, an adhesion coating 53 and a conductive proximal end layer 54 with a centre bore 531.Adhesion coating 53 is bonded conductive proximal end layer 54 to lower square position surface 32 and support conductive sheet 52.The thickness of adhesion coating 53 and the size of centre bore 531 may be designed to make to compress Conductive sheet 51, support conductive sheet 52,54 electric property coupling goalpost 4 of adhesion coating 53 and conductive proximal end layer.

In addition, lower square position surface 32 has a center hole 321, support conductive sheet 52 is installed and is placed in center hole 321.Support conductive sheet 52 that there is an annular sole piece 521, annular sole piece 521 contacts the exposing surface of adhesion coating 53.Compression conductive Piece 51 is preferably made of conduction material that compressing, and conduction material is, for example, copper, silver or other are suitble to material according to needed for the present embodiment Material.When the moving in rotation in receiving channel 331 of ballhead 41, so that a contact table between compression conductive piece 51 and ballhead 41 Face area (not indicating) is kept in contact.Specifically, the compressibility of compression conductive piece 51 is not only allowed for during use in spherical shape Lasting contact between first 41 and compression conductive piece 51, compression conductive piece 51 are gone back during 4 moving in rotation of goalpost causes impression Allow between ballhead 41 and compression conductive piece 51 as the contact area of maximum possible.

Relative to compression conductive piece 51, hard conduction material is to be used to support conductive sheet 52, so that support conductive sheet 52 supports Gear acts on the strength strengthened on dish-like written 1.Conductive proximal end layer 54 can be made of any suitable conduction material, such as be aoxidized Indium tin (ITO) transparent conductive film, Al-Doped ZnO (Al-doped ZnO；AZO) transparent conductive film or other suitable materials, this reality The conductive proximal end layer 54 for applying example is preferably ITO.When moving in rotation in the cone cell receiving portion 33 that goalpost 4 is maintained at disk plates 3 During, the annular sole piece 521 of support conductive sheet 52 increases the adhesion area of adhesion coating 53 and stable cementation supports conduction Piece 52, so that stabilized soil pavement increases.

During 41 moving in rotation of ballhead, layer group 5, the cone cell receiving portion 33 of disk plates 3 and stiffener rings 2 are touched Inward flange 24 keeps the ballhead 41 of goalpost 4 in the receiving channel 331 with circular cross section, avoids goalpost 4 from disk plates 3 Upper accidental release.

In conclusion should be considered as in this disclosed embodiments to illustrate the present invention herein, rather than to limit this Invention.The scope of the present invention should be defined by appended claim, and cover its legal equivalents, however it is not limited to previous Description.

Claims (10)

1. a kind of strengthen dish-like nib, it is used cooperatively with a stylus, which is characterized in that described to strengthen dish-like nib and include:

One stiffener rings, with a ring body, the connection ring body one on ring edge, the ring edge once of the corresponding upper ring edge and The inward flange to extend internally from the upper ring edge；

One disk plates, comprising square position surface on one, the surface of square position once on the corresponding upper square position surface and from described flat The cone cell receiving portion that panel surface center upwardly extends, wherein the cone cell receiving portion includes that a receiving with circular cross section is logical Road；

One goalpost, the trunk portion with a ballhead and the connection ballhead, the rotatable movement of ballhead plug In the receiving channel, the trunk portion upwardly extends and the stylus electric property coupling through the cone cell receiving portion；And

One touching layer group, is installed on the lower square position surface, ballhead described in the touching layer group electric property coupling, wherein when described During ballhead moving in rotation, the touching layer group, the cone cell receiving portion and the inward flange keep the ballhead in institute It states in receiving channel.

2. strengthening dish-like nib as described in claim 1, which is characterized in that wherein the receiving channel also includes cavity on one Edge, once cavity edge and the annular groove for being located on the receiving channel, the stiffener rings and the annular groove are integrally formed, and The inward flange of the stiffener rings exposes and flushes with the upper cavity edge of the receiving channel.

3. strengthening dish-like nib as described in claim 1, which is characterized in that wherein the touching layer group includes a compression conductive Piece, a support conductive sheet, the adhesion coating with a centre bore and a conductive proximal end layer, the adhesion coating bonding are described conductive close End layer is to the lower square position surface and the support conductive sheet.

4. strengthening dish-like nib as claimed in claim 3, which is characterized in that wherein the lower square position surface has a center circle Hole, the support conductive sheet are installed on the center hole, wherein the support conductive sheet has an annular sole piece, the annular Sole piece contacts the exposing surface of the adhesion coating.

5. strengthening dish-like nib as claimed in claim 3, which is characterized in that wherein the compression conductive piece is led by compress one Electric material is made, and the conduction material is copper or silver, and the ballhead is in the receiving channel when moving in rotation, so that the compression A contact surface area between conductive sheet and the ballhead is kept in contact.

6. strengthening dish-like nib as claimed in claim 3, which is characterized in that wherein the conductive proximal end layer transparent is led by one Electric material is made, and the electrically conducting transparent material is tin indium oxide.

7. strengthening dish-like nib as described in claim 1, which is characterized in that the wherein ring body and the disk plates The lower square position surface is vertical, or has an angle with the ballhead rotation center, and the angle is less than 90 degree so that described The size of lower ring edge is greater than the size of the upper ring edge.

8. strengthening dish-like nib as described in claim 1, which is characterized in that wherein the trunk portion includes a neck, a cone Shape section, a cylindrical body and a rod end, the size of the neck is less than the size of the ballhead and the cone cell section, so that described Trunk portion is 100 degree or more relative to the rotation movement angle of the ballhead rotation center, wherein the neck and the ball Forming head is integrally formed, and the cone cell section and the cylindrical body and the rod end are integrally formed.

9. strengthening dish-like nib as claimed in claim 8, which is characterized in that wherein the shape of the rod end is one cylindric, So that described strengthen dish-like nib electric connection and be crimped on the stylus, wherein the rod end is a threaded portion, so that institute It states and strengthens dish-like nib electric connection and be fixed at the stylus.

10. strengthening dish-like nib as described in claim 1, which is characterized in that wherein the stiffener rings also have under described The support inward flange and support outward flange from the lower ring edge outwardly extending one that ring edge extends internally.