CN105762539A - Conductive adhesive material, panel device and adhering method of conductive adhesive material - Google Patents

Abstract

A conductive adhesive material comprises a first adhesive part, a second adhesive part and a buffer part. The first attaching portion extends along a first direction. The second attaching portion extends along a second direction. The buffer part is connected with the first attaching part and the second attaching part, and the buffer part is bent and then protrudes out of the space between the first attaching part and the second attaching part, so that the second direction is different from the first direction. A panel device and a method for attaching a conductive adhesive material are also disclosed. The panel device comprises an outer frame, a panel assembled on the outer frame and the conductive adhesive material, and the adhering method of the conductive adhesive material comprises adhering the first adhering part to the edge of the panel, bending the buffer part and adhering the second adhering part to the outer frame.

Description

The applying method of conductive label material, face equipment and conductive label material

[technical field]

The invention relates to a kind of conductive label material, apply the face equipment of conductive label material and the applying method of conductive label material.

[background technology]

In recent years, use universalness along with electronic product, the input/output unit played an important role in electronic product, it is such as display floater (displaypanel), contact panel (touchpanel) or integrated touch control display floater, the focus paid close attention to for designer.The internals (such as upper and lower base plate) of above-mentioned panel can pass through housing group and stand, and makes the face equipment after modularity be easily assembled to be applied in electronic product.

The panel that above-mentioned face equipment adopts is generally of electric-conductor, such as it is disposed on the colored light-filtering units (colorfilterunit) in display floater and film crystal pipe unit (TFTunit), or is arranged in the conduction touch pattern (in this way ito thin film) on contact panel.Above-mentioned electric-conductor produces electric charge in panel, it is likely at most produce to destroy to electric-conductor if described charge accumulation is crossed, affects the display function (such as making conducting wire produce short circuit, lattice defect (Latticemura) or colour cast twill) of panel.Whereby, face equipment can adopt the conductive label material with electric conductivity and stickiness to conform on face plate edge and housing, the charge transfer on panel to be guided out outside face equipment to housing.

In known technology, described conductive label material typically exhibits rectangle, and can conform on face plate edge and housing along single direction.But, when panel adopts narrow frame design, conductive label material is limited with face plate edge fitting area in the direction of the width, and therefore there may be the situation come off.Whereby, in order to increase conductive label material and face plate edge fitting area in the longitudinal direction, the usual practice is to increase the length of conductive label material, and then with the bigger conductive label material binding face panel edges of overall usable floor area and housing, and this measure will improve the material cost of conductive label material.

[summary of the invention]

The present invention provides the applying method of a kind of conductive label material, face equipment and conductive label material, and it is suitable for use with less overall usable floor area and provides bigger fitting area on the length direction of face equipment, and is not easy to because face equipment is come off by external force.

The conductive label material of the present invention includes one first sticking part, one second sticking part and a buffer part.First sticking part extends along a first direction.Second sticking part extends along a second direction.Buffer part connects the first sticking part and the second sticking part, and buffer part is through bending processus aboralis for, between the first sticking part and the second sticking part, making second direction be different from first direction.

The face equipment of the present invention includes a housing, a panel and a conductive label material.Panel sectional is in housing.Conductive label material includes one first sticking part, one second sticking part and a buffer part.First sticking part extends along a first direction.Second sticking part extends along a second direction.Buffer part connects the first sticking part and the second sticking part.First sticking part conforms to the edge of panel, and the second sticking part conforms to housing, and buffer part is through bending processus aboralis for, between the first sticking part and the second sticking part, making second direction be different from first direction.

The applying method of the conductive label material of the present invention is suitable to a conductive label material conforms to a housing of a face equipment and is assembled in a panel of housing, and conductive label material includes one first sticking part, one second sticking part and connects a buffer part of the first sticking part and the second sticking part.The applying method of conductive label material comprises the following steps: to conform to the first sticking part of conductive label material the edge of panel, makes the first sticking part extend along a first direction.The buffer part of bending conductive label material.Second sticking part of conductive label material is conformed to housing, makes the second sticking part extend along a second direction, and buffer part is through bending processus aboralis for, between the first sticking part and the second sticking part, making second direction be different from first direction.

Based on above-mentioned, the conductive label material of the present invention includes the first sticking part extended in a first direction, the second sticking part extended in a second direction and connects the buffer part of the first sticking part and the second sticking part, and buffer part is through bending processus aboralis between the first sticking part and the second sticking part.When conductive label material is applied to face equipment, first first sticking part is conformed to the edge of panel by the applying method of conductive label material, then buffer part is bent, make buffer part through bending processus aboralis between the first sticking part and the second sticking part, then the second sticking part is being conformed to housing, making second direction be different from first direction.Whereby, the applying method of the conductive label material of the present invention, face equipment and conductive label material, it is suitable for use with less overall usable floor area and provides bigger fitting area on the length direction of face equipment, and is not easy to because face equipment is come off by external force.

For the features described above of the present invention and advantage can be become apparent, special embodiment below, and coordinate institute's accompanying drawings to be described in detail below.

[accompanying drawing explanation]

Fig. 1 is the schematic diagram of the conductive label material of one embodiment of the invention.

Fig. 2 is that the conductive label material of Fig. 1 is in the schematic diagram of the state of use.

Fig. 3 is the conductive label material generalized section along I-I ' line of Fig. 1.

Fig. 4 to Fig. 6 is the generalized section of the conductive label material of other change case of the present invention.

Fig. 7 to Fig. 9 is the schematic flow sheet of the applying method that the conductive label material of Fig. 1 is applied in face equipment.

[symbol description]

50: face equipment

52: housing

54: panel

54a: infrabasal plate

54b: upper substrate

54c: polaroid

100,100a, 100b, 100c: conductive label material

110: the first sticking parts

120: the second sticking parts

130: buffer part

132a and 132b: overlay region

140: conductive base

150,150a: conducting resinl

160: armature

D1: first direction

D2: second direction

L1: the first broken line

L2: the second broken line

L3: the tri linear

P1: the first concave point

P2: the second concave point

P3: the three concave point

[detailed description of the invention]

Fig. 1 is the schematic diagram of the conductive label material of one embodiment of the invention.Fig. 2 is that the conductive label material of Fig. 1 is in the schematic diagram of the state of use.Fig. 3 is the conductive label material generalized section along I-I ' line of Fig. 1.Fig. 4 to Fig. 6 is the generalized section of the conductive label material of other change case of the present invention.Please refer to Fig. 1 to Fig. 3, in the present embodiment, conductive label material 100 includes the first sticking part the 110, second sticking part 120 and buffer part 130.First sticking part 110 D1 in the first direction extends.Second sticking part 120 D2 in a second direction extends.Buffer part 130 connects the first sticking part 110 and the second sticking part 120, and buffer part 130 is through bending processus aboralis between the first sticking part 110 and the second sticking part 120, makes second direction D2 be different from first direction D1.

Specifically, in the present embodiment, conductive label material 100 includes conductive base 140 and conducting resinl 150 (as shown in Figure 3).Conductive base 140 presents strip, and to constitute first sticking part the 110, second sticking part 120 and position buffer part 130 between, and conducting resinl 150 is configured on conductive base 140.It is preferred that conducting resinl 150 corresponds to the first sticking part 110 and the second sticking part 120 part on conductive base 140, and further can correspond to buffer part 130 part on conductive base 140 in position.That is, conducting resinl 150 is arranged on the whole surface of conductive base 140 by the present embodiment.So, conductive label material 100 presents the strip (as shown in Figure 1) that single direction extends before use.When conductive label material 100 is in the state of use, first sticking part 110 can conform on two internals of face equipment 50 with corresponding conducting resinl 150 with the second sticking part 120 respectively, and buffer part 130 is through bending processus aboralis between the first sticking part 110 and the second sticking part 120, and further with conducting resinl 150 fit relative two local and protrude between the first sticking part 110 and the second sticking part 120, make D1 and the second direction D2 extension in the first direction respectively of the first sticking part 110 and the second sticking part 120, and second direction D2 is different from first direction D1 (as shown in Figure 2).

In the present embodiment, conductive label material 100 is respectively provided with electric conductivity in the configured part of conducting resinl 150, and can effectively guide the electric charge that internals produces, and has good laminating effect, and can firmly be fitted on internals.Additionally, conductive base 140 preferably also has electric conductivity, for instance be conduction patch or conductive metal sheet, can be also other conductive material, but the present invention is not limited system.Whereby, conductive label material 100 has electric conductivity and stickiness, and can fit on the internals of face equipment 50 (being illustrated in subsequent drawings), for the electric charge within guide panel device 50.And, owing to conductive base 140 and conducting resinl 150 are respectively provided with electric conductivity, even if the conducting resinl 150 of conductive label material 100 produces slight crack cause that conducting resinl 150 cannot transmit electric charge because buffer part 130 bends, or conductive label material 100 does not configure conducting resinl in buffer part 130 place, conductive label material 100 still can maintain electric conductivity by conductive base 140.But, the invention is not restricted to above-mentioned embodiment, it can according to demand adjustment.

For example, in the fig. 4 embodiment, conductive label material 100a includes conductive base 140 and conducting resinl 150a, wherein conducting resinl 150a position corresponds to the first sticking part 110 and the second sticking part 120 part on conductive base 140, and does not configure conducting resinl 150a corresponding to buffer part 130 part on conductive base 140.Whereby, conductive label material 100a still can the first sticking part 110 and the second sticking part 120 be conformed on internals by conducting resinl 150, and buffer part 130 still can through bending processus aboralis between the first sticking part 110 and the second sticking part 120.

Similarly, in the 5 embodiment of figure 5, conductive label material 100b is similar to aforesaid conductive patch material 100, and it includes conductive base 140 and conducting resinl 150, and further includes armature 160.Described armature 160 is arranged respectively at relative two surfaces of conductive base 140 with conducting resinl 150.Whereby, conductive label material 100b is conformed on internals by conducting resinl 150 with the first sticking part 110 and the second sticking part 120, and armature 160 can be used for strengthening the overall construction intensity of conductive label material 100b.In like manner, in the embodiment in fig 6, conductive label material 100c is similar to aforesaid conductive patch material 100a, it includes conductive base 140 and conducting resinl 150a, and further include armature 160, wherein conducting resinl 150a position corresponds to the first sticking part 110 and the second sticking part 120 part (not configuring conducting resinl 150a corresponding to buffer part 130 part on conductive base 140) on conductive base 140, and armature 160 is arranged respectively at relative two surfaces of conductive base 140 with conducting resinl 150, for strengthening the overall construction intensity of conductive label material 100c.It follows that the present invention is not limiting as composition and the configuration mode of conductive label material, it can according to demand adjustment.

It addition, refer to Fig. 1 to Fig. 2, in the present embodiment, conductive label material 100 may further be configured broken line, to bend buffer part 130 by easy means.Specifically, in conductive label material 100, the first sticking part 110 has the first broken line L1, and buffer part 130 has the second broken line L2, and the second sticking part 120 has tri linear L3.Wherein, first broken line L1 position is between the first sticking part 110 and buffer part 130, tri linear L3 position is between the second sticking part 120 and buffer part 130, and buffer part 130 distinguishes two overlay region 132a and the 132b corresponding respectively to the first broken line L1 and tri linear L3 with the second broken line L2.In other words, the first broken line L1, the second broken line L2 and tri linear L3 distinguish the first sticking part 110, two overlay region 132a and 132b of buffer part 130 and the second sticking part 120.

Furthermore, in the present embodiment, the first broken line L1, the second broken line L2 and tri linear L3 intersect at same point, make buffer part 130 and two overlay region 132a and 132b each have a generally triangular shape.Wherein, two overlay region 132a and 132b line centered by the second broken line L2 presents symmetry, and the shape of two overlay region 132a and 132b is roughly equal with area, make the first broken line L1 and tri linear L3 also centered by the second broken line L2 line present symmetry.So, buffer part 130 overlaps each other with two overlay region 132a and 132b and tri linear L3 coincides with the first broken line L1 and protrudes between the first sticking part 110 and the second sticking part 120 after bending.That is, second broken line L2 of buffer part 130 highlights outward, make two overlay region 132a and 132b be fitted each other overlap by conducting resinl 150, and tri linear L3 coincides with the first broken line L1, and then make buffer part 130 through bending processus aboralis between the first sticking part 110 and the second sticking part 120.But, the invention is not restricted to above-mentioned embodiment, it can according to demand adjustment.

Additionally, in the present embodiment, the first sticking part 110 has the first concave point P1, and buffer part 130 has the second concave point P2 and the three concave point P3.Described concave point can be the depression of arbitrary shape.Wherein, the first concave point P1 and the second concave point P2 constitutes the first broken line L1, and the second concave point P2 and the three concave point P3 constitutes the second broken line L2.That is, buffer part 130 is suitable to bend along the line of the first concave point P1 and the second concave point P2 and constitute the first broken line L1 on the first sticking part 110, and is suitable to bend along the line of the second concave point P2 and the three concave point P3 and constitute the second broken line L2 in buffer part 130.Now, two overlay region 132a and 132b of buffer part 130 centered by the second broken line L2 line and overlap each other, make buffer part 130 protrude from the first sticking part 110 and the second sticking part 120.Further, prominent buffer part 130 is suitable to bend towards the second sticking part 120, to form the tri linear L3 coinciding with the first broken line L1 after bending on the second sticking part 120.But, in other embodiments, described first broken line L1, the second broken line L2 and tri linear L3 can also be track or other entity marks being suitable for, and also directly can produce via bending for not having marked dummy line, the invention is not restricted to above-mentioned embodiment.

Fig. 7 to Fig. 9 is the schematic flow sheet of the applying method that the conductive label material of Fig. 1 is applied in face equipment.Refer to Fig. 7 to Fig. 9, in the present embodiment, conductive label material 100 is suitable for application in face equipment 50, for instance be fit on the internals of face equipment 50 for guiding electric charge.Described face equipment 50 includes housing 52, panel 54 and conductive label material 100, and wherein panel 54 is assembled in housing 52, and conductive label material 100 fits on housing 52 and panel 54.Furthermore, described housing 52 can be front frame, back frame or other frameworks being suitable for, and is used for assembling panel 54 and other internals, and the quantity of housing 52 that face equipment 50 is adopted can be one or more.Similarly, described panel 54 can be display floater, contact panel or other applicable panels, and the quantity of panel 54 that face equipment 50 adopts can be one or more.Whereby, the applying method of conductive label material 100 is suitable to conductive label material 100 conforms to the housing 52 of face equipment 50 and is assembled in the panel 54 of housing 52, and the quantity of conductive label material 100 can be one or more, it can be arranged on panel 54 according to demand needs guide electric charge place and be connected to housing 52, housing 52 can be conductive material, and the present invention is not limited system.

Specifically, in the present embodiment, panel 54 includes infrabasal plate 54a, upper substrate 54b and polaroid 54c, wherein upper substrate 54b is configured on infrabasal plate 54a, and expose the edge of infrabasal plate 54a, and polaroid 54c is configured on upper substrate 54b, and expose upper substrate 54b and the edge of infrabasal plate 54a.But, in other embodiments, polaroid 54c is configurable on infrabasal plate 54a, or infrabasal plate 54a and upper substrate 54b all configures polaroid 54c, or do not adopt polaroid 54c, and expose upper substrate 54b and/or the edge of infrabasal plate 54a, the invention is not restricted to above-mentioned embodiment.It addition, panel 54 also includes electric-conductor (not illustrating), it is configured on this upper substrate 54b and/or infrabasal plate 54a.For display floater as panel 54, described electric-conductor is such as position colored light-filtering units inside upper substrate 54b, or is position film crystal pipe unit inside infrabasal plate 54a.Or, electric-conductor is alternatively the conduction touch pattern in the contact panel as panel 54.The present invention is not limiting as the kind of electric-conductor, quantity and position.Electric-conductor produces electric charge in panel 54, therefore described conductive label material 100 is preferably arranged on the upper substrate 54b and/or infrabasal plate 54a with electric-conductor, so as to guiding electric charge produced by electric-conductor.Whereby, with Fig. 7 to Fig. 9, the applying method that conductive label material 100 is applied in face equipment 50 will be sequentially described below.

First, refer to Fig. 7, the first sticking part 110 of conductive label material 100 is conformed to the edge of panel 54, make the first sticking part 110 D1 in the first direction extend.Specifically, the first sticking part 110 conforms to the edge of the upper substrate 54b and/or infrabasal plate 54a of panel 54 with conducting resinl 150 (being illustrated in Fig. 3) D1 in the first direction.Furthermore, owing to upper substrate 54b exposes the edge of infrabasal plate 54a, and polaroid 54c exposes upper substrate 54b and the edge of infrabasal plate 54a, therefore the first sticking part 110 can conform to the edge exposed by polaroid 54c on upper substrate 54b and infrabasal plate 54a simultaneously.Wherein, upper substrate 54b and infrabasal plate 54a can be each equipped with electric-conductor, therefore the edge of the upper substrate 54b and infrabasal plate 54a that simultaneously fits with the first sticking part 110.Or, upper substrate 54b and infrabasal plate 54a can only have one of which and be configured with electric-conductor.Now, the first sticking part 110 still can be fitted the edge of upper substrate 54b and infrabasal plate 54a simultaneously, or can only conform to the edge of the upper substrate 54b or infrabasal plate 54a that are configured with electric-conductor.Further, according to actual state (such as component relative position or conductive label material 100 size), the first sticking part 110 is likely to while conforming to panel 54 edge and conforms to housing 52, but the invention is not restricted to above-mentioned embodiment.

Then, refer to Fig. 7 and Fig. 8, the buffer part 130 of bending conductive label material 100.Specifically, in the step of bending buffer part 130, with the first sticking part 110 for fixing end and the second sticking part 120 for movable end, sequentially bend buffer part 130 along the first broken line L1 and the second broken line L2, make buffer part 130 overlap each other with two overlay region 132a and 132b after bending and tri linear L3 coincides with the first broken line L1 and protrudes between the first sticking part 110 and the second sticking part 120.

Furthermore, the step sequentially bending buffer part 130 along the first broken line L1 and the second broken line L2 includes: first along the first broken line L1 (i.e. the line of the first concave point P1 and the second concave point P2) toward overbending direction (namely interior towards panel 54) bending buffer part 130, as shown in Figure 7.Then, along the second broken line L2 (i.e. the line of the second concave point P2 and the three concave point P3) toward overbending direction, reversely (namely outer towards panel 54) bends buffer part 130, as shown in Figure 8.So, buffer part 130 through bending after with conducting resinl 150 (being illustrated in Fig. 3) fit relative two local (i.e. two overlay region 132a and 132b) and protrude between the first sticking part 110 and the second sticking part 120, make two overlay region 132a and 132b overlap each other and generally be of similar shape and area.Afterwards, prominent buffer part 130 towards the outer bending of panel 54, can make buffer part 130 form the tri linear L3 coinciding with the first broken line L1 after bending on the second sticking part 120.First broken line L1, the second broken line L2 and tri linear L3 intersect at same point (i.e. the second concave point P2), make buffer part 130 and two overlay region 132a and 132b each have a generally triangular shape, but the present invention is not limited system.

Finally, refer to Fig. 9, the second sticking part 120 of conductive label material 100 is conformed to housing 52, make the second sticking part 120 D2 in a second direction extend, and buffer part 130 is through bending processus aboralis between the first sticking part 110 and the second sticking part 120, makes second direction D2 be different from first direction D1.Specifically, after bending buffer part 130, the first sticking part 110 and the second sticking part 120 each extend towards first direction D1 and second direction D2, and second direction D2 is different from first direction D1.Now, the second sticking part 120 can conform to housing 52 with conducting resinl 150 (being illustrated in Fig. 3) D2 in a second direction further and fixed.Further, according to actual state (such as component relative position or conductive label material 100 size), the second sticking part 120 is likely to the edge conforming to panel 54 while conforming to housing 52, but the invention is not restricted to above-mentioned embodiment.So, conductive label material 100 conforms to edge and the housing 52 of panel 54 simultaneously so that the electric charge that the electric-conductor in panel 54 produces on upper substrate 54b and infrabasal plate 54a is transferred to housing 52 by conductive label material 100.

Based on above-mentioned, in the present embodiment, the first sticking part 110 of conductive label material 100 conforms to the edge being configured with electric-conductor on panel 54 and be likely to produce the upper substrate 54b and/or infrabasal plate 54a of charge accumulation, and can conform to housing 52 according to actual state simultaneously.Wherein, in order to avoid the first sticking part 110 because by external force, face equipment 50 is caused that panel 54 internals (such as upper substrate 54b and infrabasal plate 54a) produces some displacement and pulls and come off, panel 54 and the first sticking part 110 preferably have the fitting area that scope is wider.Furthermore, the conductive label material 100 presenting strip conforms to the edge of panel 54 with the first sticking part 110, and first the length direction of sticking part 110 be parallel to first direction D1 so that the first sticking part 110 produces strip and the wider fitting area of scope on panel 54.Additionally, the conductive label material 100 presenting strip conforms to housing 52 with the second sticking part 120, and panel 54 edge can be conformed to according to actual state simultaneously, wherein the length direction of the second sticking part 120 is parallel to second direction D2 so that the second sticking part 120 produces strip and the wider fitting area of scope on housing 52.Whereby, conductive label material 100 conforms to edge and the housing 52 of panel 54 simultaneously, guides to housing 52 with the electric charge that will produce on panel 54, and has good laminating effect.

Whereby, the conductive label material 100 of the present embodiment adopts strip to design, and arranges buffer part 130 between the first sticking part 110 and the second sticking part 120, to increase the conductive label material 100 fitting area on panel 54 with housing 52.Furthermore, first sticking part 110 of conductive label material 100 extends along different first direction D1 and second direction D2 after bending buffer part 130 respectively from the second sticking part 120, makes the length direction that the length direction of the first sticking part 110 is parallel to first direction D1 and the second sticking part 120 be parallel to second direction D2.So, first sticking part 110 D1 in the first direction of strip conforms to panel 54 edge, can increase by the first sticking part 110 in the fitting area of length direction (being parallel to first direction D1), and the second sticking part 120 D2 in a second direction of strip conforms to housing 52, can increase by the second sticking part 120 in the fitting area of length direction (being parallel to second direction D2).

By above-mentioned design, when panel 54 adopts narrow frame design (the such as width at the edge that upper substrate 54b is exposed by polaroid 54c is less than 1.5 millimeters), although the border width of panel 54 is limited and reduces panel 54 edge and first sticking part 110 fitting area on width (being parallel to second direction D2), but the conductive label material 100 of strip design can increase the first sticking part 110 and panel 54 edge longitudinally (be parallel to first direction D1) on fitting area.Along with the fitting area of the first sticking part 110 with panel 54 edge increases, the probability that conductive label material 100 is come off by external force because of face equipment 50 is also minimized.Similarly, the second sticking part 120 of strip also longitudinally (can be parallel to second direction D2) above and housing 52 produces suitable fitting area, and then increases its stationarity.

Furthermore, in the present embodiment, under the premise increasing by first sticking part 110 fitting area on its length direction (being parallel to first direction D1) and increase by second sticking part 120 fitting area on its length direction (being parallel to second direction D2), conductive label material 100 is designed to strip (increase its entire length and reduce its overall width), can effectively reduce the overall usable floor area of conductive label material 100.Whereby, compared to the known technical scheme pasting material laminating panel and housing with rectangular conductive, the design of above-mentioned conductive label material 100 can effectively reduce overall usable floor area and the material cost of conductive label material 100.

In addition, in the present embodiment, outside first sticking part 110 and the second sticking part 120 extend toward different directions and produce required fitting area with panel 54 and housing 52 respectively in its longitudinal direction, described buffer part 130 also can be used for preventing conductive label material 100 because of face equipment 50 by external force time cushion space is provided.In other words, when by external force, face equipment 50 is caused that housing 52 produces some displacement with panel 54, buffer part 130 can be used for providing cushion space when the first sticking part 110 and the second sticking part 120 produce to pull in response to the displacement of housing 52 and panel 54, namely allow that two overlay region 132a and 132b are a little to be separated, and be unlikely and make conductive label material 100 come off from housing 52 and panel 54, therefore the probability that conductive label material 100 is come off by external force because of face equipment 50 is also minimized.

In sum, the conductive label material of the present invention includes the first sticking part extended in a first direction, the second sticking part extended in a second direction and connects the buffer part of the first sticking part and the second sticking part, and buffer part is through bending processus aboralis between the first sticking part and the second sticking part.When conductive label material is applied to face equipment, first first sticking part is conformed to the edge of panel by the applying method of conductive label material, it is such as be fitted on upper substrate and/or the infrabasal plate of panel, then buffer part is bent, make buffer part through bending processus aboralis between the first sticking part and the second sticking part, then the second sticking part is being conformed to housing, making second direction be different from first direction, and panel endogenous cause of ill electric-conductor and the electric charge that produces can pass through conductive label material and guide and cause housing.Whereby, the applying method of the conductive label material of the present invention, face equipment and conductive label material, it is suitable for use with less overall usable floor area and provides bigger fitting area on the length direction of face equipment, and is not easy to because face equipment is come off by external force.

Although the present invention is disclosed above with embodiment; so it is not limited to the present invention; any art has usually intellectual; without departing from the spirit and scope of the present invention; when doing a little change and retouching, therefore protection scope of the present invention is when being as the criterion depending on the defined person of appended claims.

Claims (31)

1. a conductive label material, including:

One first sticking part, extends along a first direction；

One second sticking part, extends along a second direction；And

One buffer part, connects this first sticking part and this second sticking part, and this buffer part is through bending processus aboralis for, between this first sticking part and this second sticking part, making this second direction be different from this first direction.

2. conductive label material as claimed in claim 1, it is characterized in that, this first sticking part has one first broken line, this buffer part has one second broken line, this second sticking part has a tri linear, this buffer part distinguishes two overlay regions corresponding respectively to this first broken line with this tri linear with this second broken line, and this buffer part overlaps each other with this two overlay region after bending and this tri linear coincides with this first broken line and protrudes between this first sticking part and this second sticking part.

3. conductive label material as claimed in claim 2, it is characterized in that, this first sticking part has one first concave point, this buffer part has one second concave point and one the 3rd concave point, this first concave point and this second concave point constitute this first broken line, this second concave point and the 3rd concave point constitute this second broken line, and this buffer part forms this tri linear coinciding with this first broken line after bending on this second sticking part.

4. conductive label material as claimed in claim 2, it is characterised in that this first broken line, this second broken line and this tri linear intersect at same point, makes this buffer part and this two overlay region each have a generally triangular shape.

5. conductive label material as claimed in claim 1, it is characterised in that include a conductive base and a conducting resinl, this conductive base constitutes this first sticking part, this second sticking part and this buffer part, and this conducting resinl is configured on this conductive base.

6. conductive label material as claimed in claim 5, it is characterised in that this conducting resinl position corresponds to this first sticking part and this second sticking part part on this conductive base.

7. conductive label material as claimed in claim 6, it is characterized in that, this conducting resinl more position corresponds to this buffer part part on this conductive base, and this buffer part protrudes between this first sticking part and this second sticking part with relative two local of this conducting resinl laminating after bending.

8. conductive label material as claimed in claim 5, it is characterised in that this conductive base includes a conduction patch or a conductive metal sheet.

9. conductive label material as claimed in claim 5, it is characterised in that more including an armature, this armature is arranged respectively at relative two surfaces of this conductive base with this conducting resinl.

10. a face equipment, including:

One housing；

One panel, is assembled in this housing；And

One conductive label material, including:

One first sticking part, extends along a first direction；

One second sticking part, extends along a second direction；And

One buffer part, connecting this first sticking part and this second sticking part, this first sticking part conforms to the edge of this panel, and this second sticking part conforms to this housing, and this buffer part is through bending processus aboralis for, between this first sticking part and this second sticking part, making this second direction be different from this first direction.

11. face equipment as claimed in claim 10, it is characterised in that this panel includes an infrabasal plate and a upper substrate, and this upper substrate is configured on this infrabasal plate, and this first sticking part conforms to the edge of this upper substrate and/or this infrabasal plate.

12. face equipment as claimed in claim 11, it is characterized in that, this panel also includes at least one electric-conductor, it is configured on this upper substrate and/or this infrabasal plate, and this first sticking part conforms to the edge of this upper substrate and/or this infrabasal plate being configured with this electric-conductor, the electric charge that this electric-conductor produces on this upper substrate and/or this infrabasal plate is made to be transferred to this housing by this conductive label material.

13. face equipment as claimed in claim 11, it is characterized in that, this panel also includes at least one polaroid, it is configured on this upper substrate and/or this infrabasal plate, and expose the edge of this upper substrate and/or this infrabasal plate, and the edge that this first sticking part conforms to this upper substrate and/or this infrabasal plate is exposed by this polaroid.

14. face equipment as claimed in claim 10, it is characterized in that, this first sticking part has one first broken line, this buffer part has one second broken line, this second sticking part has a tri linear, this buffer part distinguishes two overlay regions corresponding respectively to this first broken line with this tri linear with this second broken line, and this buffer part overlaps each other with this two overlay region after bending and this tri linear coincides with this first broken line and protrudes between this first sticking part and this second sticking part.

15. face equipment as claimed in claim 14, it is characterized in that, this first sticking part has one first concave point, this buffer part has one second concave point and one the 3rd concave point, this first concave point and this second concave point constitute this first broken line, this second concave point and the 3rd concave point constitute this second broken line, and this buffer part forms this tri linear coinciding with this first broken line after bending on this second sticking part.

16. face equipment as claimed in claim 14, it is characterised in that this first broken line, this second broken line and this tri linear intersect at same point, this buffer part and this two overlay region is made each to have a generally triangular shape.

17. face equipment as claimed in claim 10, it is characterised in that this conductive label material includes a conductive base and a conducting resinl, this conductive base constitutes this first sticking part, this second sticking part and this buffer part, and this conducting resinl is configured on this conductive base.

18. face equipment as claimed in claim 17, it is characterised in that this conducting resinl position corresponds to this first sticking part and this second sticking part part on this conductive base.

19. face equipment as claimed in claim 18, it is characterized in that, this conducting resinl more position corresponds to this buffer part part on this conductive base, and this buffer part protrudes between this first sticking part and this second sticking part with relative two local of this conducting resinl laminating after bending.

20. face equipment as claimed in claim 17, it is characterised in that this conductive base includes a conduction patch or a conductive metal sheet.

21. face equipment as claimed in claim 17, it is characterised in that this conductive label material more includes an armature, and this armature is arranged respectively at relative two surfaces of this conductive base with this conducting resinl.

22. the applying method of a conductive label material, be suitable to a conductive label material be conformed to a housing of a face equipment and is assembled in a panel of this housing, and this conductive label material includes one first sticking part, one second sticking part and connects a buffer part of this first sticking part and this second sticking part, the applying method of this conductive label material includes:

This first sticking part of this conductive label material is conformed to the edge of this panel, makes this first sticking part extend along a first direction；

Bend this buffer part of this conductive label material；And

This second sticking part of this conductive label material is conformed to this housing, makes this second sticking part extend along a second direction, and this buffer part is through bending processus aboralis for, between this first sticking part and this second sticking part, making this second direction be different from this first direction.

23. the applying method of conductive label material as claimed in claim 22, it is characterized in that, this first sticking part has one first broken line, this buffer part has one second broken line, this second sticking part has a tri linear, this buffer part distinguishes two overlay regions corresponding respectively to this first broken line with this tri linear with this second broken line, and in the step bending this buffer part, it is a movable end with this first sticking part for a fixing end and this second sticking part, this buffer part is sequentially bent along this first broken line and this second broken line, make this buffer part overlap each other with this two overlay region after bending and this tri linear coincides with this first broken line and protrudes between this first sticking part and this second sticking part.

24. the applying method of conductive label material as claimed in claim 23, it is characterized in that, the step sequentially bending this buffer part along this first broken line and this second broken line includes bending this buffer part along this first broken line toward an overbending direction, and reversely bend this buffer part along this second broken line toward this overbending direction, make this two overlay region overlap each other and this tri linear coincides with this first broken line.

25. the applying method of conductive label material as claimed in claim 23, it is characterized in that, this first sticking part has one first concave point, this buffer part has one second concave point and one the 3rd concave point, this first concave point and this second concave point constitute this first broken line, this second concave point and the 3rd concave point constitute this second broken line, and in the step sequentially bending this buffer part along this first broken line and this second broken line, this buffer part forms this tri linear coinciding with this first broken line after bending on this second sticking part.

26. the applying method of conductive label material as claimed in claim 23, it is characterised in that in the step bending this buffer part, this first broken line, this second broken line and this tri linear intersect at same point, make this buffer part and this two overlay region each have a generally triangular shape.

27. the applying method of conductive label material as claimed in claim 22, it is characterized in that, this conductive label material includes a conductive base and a conducting resinl, this conductive base constitutes this first sticking part, this second sticking part and this buffer part, this conducting resinl is configured on this conductive base, to conform to this panel and this housing.

28. the applying method of conductive label material as claimed in claim 27, it is characterized in that, this conducting resinl position corresponds to this first sticking part and this second sticking part part on this conductive base, and this first sticking part conforms to the edge of this panel with this conducting resinl, and this second sticking part conforms to this housing with this conducting resinl.

29. the applying method of conductive label material as claimed in claim 28, it is characterized in that, this conducting resinl more position corresponds to this buffer part part on this conductive base, and in the step bending this buffer part, this buffer part protrudes between this first sticking part and this second sticking part with relative two local of this conducting resinl laminating after bending.

30. the applying method of conductive label material as claimed in claim 27, it is characterised in that this conductive base includes a conduction patch or a conductive metal sheet.

31. the applying method of conductive label material as claimed in claim 27, it is characterised in that this conductive label material more includes an armature, and this armature is arranged respectively at relative two surfaces of this conductive base with this conducting resinl.