CN206460434U - Show contactor control device - Google Patents

Abstract

The utility model embodiment discloses display contactor control device, and the display contactor control device includes：There is the non-light-emitting area beyond the multiple luminous zones formed by multiple luminescence units and the multiple luminous zone, the light that the multiple luminescence unit is sent is projected from the light emission side of the display panel in display panel, including luminescent layer, the luminescent layer；And contact panel, including the inductive layer being made of an electrically conducting material, the inductive layer is positioned at the display panel light emission side position corresponding with the non-light-emitting area.Because the inductive layer in the contact panel of the present embodiment is realized by the conductor for avoiding the luminous zone of OLED cell, therefore the decay of light that each OLED cell sends in inductive layer is reduced, further improve display effect.

Description

Show contactor control device

Technical field

The utility model is related to technical field of electronic equipment, in particular it relates to show contactor control device.

Background technology

In recent years, developing rapidly due to fields such as human-computer interactions, to showing that the requirement of touch technology is stepped up, for example The emergence of wearable device has led the very big demand to flexible display screen.Utilize organic electroluminescence device (Organic Light-Emitting Diode, OLED) OLED Display Techniques arise at the historic moment, and so that its self-luminous, brightness is high, luminous efficiency The advantage such as high, thickness of thin and pliability has turned into the preferred solution of the high performance display screens such as current ultra-thin screen, flexible screen.

The contact panel and use for sensing touch location are generally comprised in display contactor control device based on OLED technology In the display panel of display image, contact panel is usually placed on display panel, therefore, sends OLED in display panel Light can be projected through contact panel to outside display contactor control device, and the material of each several part of contact panel is required for having necessarily Transmission of visible light.

Generally, most important part is inductive layer in contact panel, and inductive layer includes multiple electrodes and for realizing The connecting line and lead-out wire of connection or transmission signal between electrode.Generally using conductive and visible ray high transmittance Tin indium oxide (ITO) film as inductive layer material.

However, existing display contactor control device has the following disadvantages：Because the resistivity of ito thin film is higher, therefore conduct The ito thin film of inductive layer needs with certain thickness to reduce resistance, but to reduce ITO thin for the increase of ito thin film thickness The transmission of visible light of film, causes the display quality of OLED display to be affected.

The material that transmission of visible light is high and resistivity is relatively low that ito thin film can be substituted by finding in theory is solved Technical problem is stated, it is generally all relatively low yet with the transmission of visible light of the low material of resistivity, and transmission of visible light is relatively low Material made by inductive layer can hinder display panel project light and cause show contactor control device display performance deterioration, Therefore it is difficult to solve above-mentioned technical problem by finding the approach of ito thin film alternative materials.

Utility model content

In order to solve the inductive layer in the problem of above-mentioned prior art is present, the display contactor control device that the utility model is provided Realized by the conductor material for avoiding display panel luminous zone, and the conductor material is not limited to the high material of transmission of visible light.

The display contactor control device that the utility model is provided includes：Have in display panel, including luminescent layer, the luminescent layer Non-light-emitting area beyond the multiple luminous zones and the multiple luminous zone that are formed by multiple luminescence units, the multiple luminous list The light that member is sent is projected from the light emission side of the display panel；And contact panel, including the sensing being made of an electrically conducting material Layer, the inductive layer is located at the display panel light emission side position corresponding with the non-light-emitting area.

Preferably, the inductive layer formation comb mesh pattern.

Preferably, the inductive layer has single layer structure.

Preferably, the inductive layer at least includes mutually isolated the first inductive layer and the second inductive layer.

Preferably, the comb mesh pattern that the comb mesh pattern of first inductive layer formation is formed with second inductive layer is along phase The part of equidirectional extension is misaligned each other.

Preferably, the inductive layer includes multiple electrodes, the edge formation closed pattern of each electrode.

Preferably, the inductive layer also includes being used to connect the connecting line of the electrode and for the electrode to be drawn The lead-out wire of the inductive layer.

Preferably, the comb mesh pattern includes rectangle, zigzag and/or waveform strip portion.

Preferably, in the comb mesh pattern of the inductive layer, white space and at least one described hair in each grid Light unit correspondence.

Preferably, the conductor includes metal, alloy or non-metallic conducting material.

According in the display contactor control device of the utility model embodiment, relative to traditional sense using ito thin film as material For answering layer, because the inductive layer in the contact panel of the present embodiment is real by the conductor material for avoiding the luminous zone of display panel It is existing, therefore the material of the conductor is not limited to the high material of visible light transmissivity, so that it is mono- to reduce each OLED in display panel Decay of the light that member is sent in inductive layer, further improves the display effect of display contactor control device.

Brief description of the drawings

By description referring to the drawings to the utility model embodiment, of the present utility model above-mentioned and other mesh , feature and advantage will be apparent from.

Fig. 1 shows the basic structure schematic diagram of the display contactor control device of traditional utilization OLED technology.

Fig. 2 shows the schematic exploded perspective view of the display contactor control device of the utility model first embodiment.

Fig. 3 shows the partial schematic diagram of the display contactor control device of the utility model first embodiment shown in Fig. 2.Fig. 3 is The enlarged drawing of the birds-eye perspective of a-quadrant in Fig. 2.

Fig. 4 shows the schematic exploded perspective view of the display contactor control device of the utility model second embodiment.

Fig. 5 shows the partial schematic diagram of the display contactor control device of the utility model second embodiment shown in Fig. 4.Fig. 5 is The enlarged diagram of the birds-eye perspective in B regions in Fig. 4.

Fig. 6 shows the perspective diagram in C regions in Fig. 5.

Embodiment

The utility model is more fully described hereinafter with reference to accompanying drawing.In various figures, identical element is using similar Reference represent.For the sake of clarity, the various pieces in accompanying drawing are not necessarily to scale.In addition, may in figure Not shown some known parts.

It describe hereinafter many specific details of the present utility model, the structure of such as device, material, size, place Science and engineering skill and technology, to be more clearly understood that the utility model.But just as the skilled person will understand, The utility model can not be realized according to these specific details.

Fig. 1 shows the basic structure schematic diagram of the display contactor control device of traditional utilization OLED technology.

As shown in figure 1, the display contactor control device 1000 of traditional utilization OLED technology includes contact panel 1100, display surface Plate 1200 and the insulating barrier 1300 between contact panel and display panel.

Contact panel 1100 mainly includes the inductive layer 1110 and insulating barrier first for being arranged on the first surface of insulating barrier 1300 The relative protective clear layer 1120 for being located at the top of inductive layer 1110 in surface, can also include being located above protective clear layer and play The cover plate 1130 of protective effect.Inductive layer 1110 include it is multiple be used for sense position of touch block shape electrodes 1111 and For realizing the connection of electrode or (only drawing part in Fig. 1 to be connected with lead-out wire 1112 for the connecting line for drawing induced signal Line and lead-out wire).

Display panel 1200 mainly includes relative with the second surface of insulating barrier 1300 (relative with insulating barrier first surface) Substrate 1210, the tft layer 1220 between substrate and insulating barrier and positioned at insulating barrier and tft layer it Between luminescent layer 1230.Luminescent layer 1230 includes multiple OLED cells 1231, and each OLED cell is through insulating barrier 1300 with touching Control the outside light extraction of panel 1100.It is not drawn on drawing for each OLED cell for clearly showing in luminescent layer 1230, Fig. 1.

Stopped for the light that prevents the OLED cell 1231 in luminescent layer 1230 from being sent by contact panel 1100, contact panel Inductive layer 1110 it is generally high and conductive material is made by transmission of visible lights such as tin indium oxide (ITO) films, to show Show that the light that each OLED cell 1231 is sent in panel can be projected through contact panel 1100 to outside display contactor control device 1000 So that display contactor control device also can allow user to see the figure shown by display panel without barrier while touch controllable function is realized Picture.

However, because the resistivity of ito thin film is higher, therefore be the resistance of inductive layer 1110 in reduction contact panel, lead to Often need inductive layer being set to certain thickness ito thin film.But meanwhile, it is thin that the increase of ito thin film thickness can reduce ITO The transmission of visible light of film, causes the display quality for showing contactor control device 1000 to be affected.

The utility model embodiment is carried out in structure by the inductive layer to contact panel in traditional display contactor control device Improvement, reduce the resistance of inductive layer, relative to it is traditional using ito thin film as the inductive layer of material, reduce display Decay of the light that each OLED cell is sent in panel in inductive layer, so as to further improve the display effect of display contactor control device Really.

Fig. 2 shows the schematic exploded perspective view of the display contactor control device of the utility model first embodiment.

As shown in Fig. 2 the display contactor control device 2000 of the utility model first embodiment includes contact panel 2100, display Panel 2200 and the insulating barrier 2300 between contact panel and display panel.

Contact panel 2100 mainly includes the inductive layer 2110 and insulating barrier first for being arranged on the first surface of insulating barrier 2300 The relative protective clear layer 2120 for being located at the top of inductive layer 2110 in surface, can also include being located above protective clear layer and play The cover plate 2130 of protective effect.Inductive layer 2110 includes multiple for sensing the electrode 2111 of position of touch and for realizing The connection of electrode (only draws part connecting line and drawn for the connecting line for drawing induced signal with lead-out wire 2112 in Fig. 2 Line).

Display panel 2200 mainly includes relative with the second surface of insulating barrier 2300 (relative with insulating barrier first surface) Substrate 2210, the tft layer 2220 between substrate and insulating barrier and positioned at insulating barrier and tft layer it Between luminescent layer 2230.Luminescent layer 2230 includes multiple OLED cells 2231, and each OLED cell is through insulating barrier 2300 with touching Control the outside light extraction of panel 2100.It is not drawn on drawing for each OLED cell for clearly showing in luminescent layer 2230, Fig. 2.

From unlike above-mentioned traditional display contactor control device 1000, in the display touch-control of the utility model first embodiment In the contact panel 2100 of device 2000, electrode 2111 in inductive layer 2110 and connecting line and lead-out wire 2112 are by patterning The conductor of lattice-shaped is realized.The inductive layer of the utility model first embodiment is specifically described below by Fig. 2 schematic top plan view 2110 structure.

Fig. 3 shows the partial schematic diagram of the display contactor control device of the utility model first embodiment shown in Fig. 2.Fig. 3 is The enlarged drawing of the birds-eye perspective of a-quadrant in Fig. 2.

As shown in figure 3, luminescent layer has beyond the multiple luminous zones formed by each OLED cell and multiple luminous zones Non-light-emitting area, the view field of the multiple luminous zone and non-light-emitting area on insulating barrier first surface is each OLED cell Transparent area 100 and alternatively non-transparent district 200.For forming the electrode in inductive layer and connecting line and the conductor of the lattice-shaped of lead-out wire Material-paving is in the alternatively non-transparent district 200 of insulating barrier first surface so that the light that each OLED cell in display panel is sent is not Blocked by lattice-shaped conductor.

Fig. 3 shows two electrodes T and R adjacent to each other in inductive layer 2110.It can also be set between electrode T and electrode R Dummy electrode Du, so as to which electrode T is isolated with electrode R.Electrode T and electrode R can be respectively driving electrodes and induction electrode (such as mutual capacitance touch panel), can also be induction electrode (such as self-capacitance touch panel). The shape of each electrode is not limited, can according to the function of contact panel need and by the shape of each electrode be designed as rhombus, triangle, The shapes such as rectangle.

Because each electrode is realized by the conductor for forming lattice-shaped, therefore it is that the shape for making each electrode levels off to designer The figure needed, the conductor of the edge of each electrode is connected in adjacent alternatively non-transparent district 200, so as to substantially reduce sensing The influence that layer rasterizing is brought to electrode shape.Meanwhile, it is distributed in the conductor electrical communication in same electrode.Need explanation It is that, when electrode is redundancy electrode, because redundancy electrode is mainly used in realizing the isolation between electrode, therefore redundancy electrode is to shape The requirement of shape is little, without the conductor of the edge of redundancy electrode is connected, so as to use driving electrodes, sensing electrode etc. There is bigger selection space in the edge access path of sensing touch location, the electrode higher to shape need, promotion feeling should The flexibility that layer is related to.

White space in each grid can correspond to a luminescence unit, as shown in dotted line frame 120, can also correspond to many Individual luminescence unit, as shown in dotted line frame 110.Between the first surface of insulating barrier 2300, and the adjacent transparent area 100 of not all Conductor material is all disposed with, column conductor optionally can be entered in alternatively non-transparent district 200 according to the arrangement mode of OLED cell 2231 The laying of material.Region between transparent area can optionally lay conductor material, for example, when area narrower between transparent area Conductor material need not be laid in domain.

Similar with the implementation method of each electrode, connecting line is same with lead-out wire by positioned at alternatively non-transparent district, shape in inductive layer Conductor into lattice-shaped is realized.From unlike the implementation method of above-mentioned each electrode, the edge of connecting line and lead-out wire is led Body need not be connected in adjacent alternatively non-transparent district, so as to increase connecting line and position of the lead-out wire in inductive layer Flexibility.

The material of lattice-shaped conductor can select the metals such as copper, alloy material or the excellent conductor of other electric conductivities with Reduce the resistance of inductive layer.It is due to that the lattice-shaped conductor of inductive layer is equal although the transmission of visible light of these materials is not high Positioned at alternatively non-transparent district 200, that is, avoid the transparent area 100 corresponding to each OLED cell in display panel, therefore lattice-shaped conductor The height of transmission of visible light do not influence the display effect of display panel.

According in the display contactor control device of the utility model first embodiment, relative to traditional using ito thin film as material Inductive layer for, because the inductive layer in the contact panel of the present embodiment is real by the conductor for avoiding the transparent area of OLED cell It is existing, therefore the selection of the conductor is not limited to the high material of visible light transmissivity, so that it is mono- to reduce each OLED in display panel Decay of the light that member is sent in inductive layer, further improves the display effect of display contactor control device.

Fig. 4 shows the schematic exploded perspective view of the display contactor control device of the utility model second embodiment.

The display contactor control device 3000 of the utility model second embodiment include contact panel 3100, display panel 3200 with And the insulating barrier 3300 between contact panel and display panel.

Contact panel 3100 mainly includes being arranged on the first inductive layer 3110 of the first surface of insulating barrier 3300, positioned at first The second inductive layer 3150 above inductive layer, it is placed between the first inductive layer and the second inductive layer and plays the first saturating of buffer action Bright protective layer 3120 and the second protective clear layer 3140 being layed in above the second inductive layer, can also include saturating positioned at second The cover plate 3130 that the bright top of protective layer 3140 plays a protective role.First inductive layer 3110 includes multiple first electrodes 3111 and many The connection that bar is used to realize between first electrode or connecting line and lead-out wire 3112, the second inductive layer 3150 for transmitting signal Including multiple second electrodes 3112 and it is a plurality of be used to realizing connection between second electrode or for transmit the connecting line of signal with Lead-out wire 3152.(part connecting line and lead-out wire are only drawn in Fig. 4).

Display panel 3200 mainly includes relative with the second surface of insulating barrier 3300 (relative with insulating barrier first surface) Substrate 3210, the tft layer 3220 between substrate and insulating barrier and positioned at insulating barrier and tft layer it Between luminescent layer 3230.Luminescent layer 3230 includes multiple OLED cells 3231, and each OLED cell is through insulating barrier 3300 with touching Control the outside light extraction of panel 3100.It is not drawn on drawing for each OLED cell for clearly showing in luminescent layer 3230, Fig. 4.

In the contact panel 3100 of the display contactor control device 3000 of the utility model second embodiment, the first inductive layer 3110 Realized respectively by the conductor of lattice-shaped with the second inductive layer 3150.This practicality is specifically described below by Fig. 4 schematic top plan view First inductive layer of new second embodiment and the structure of the second inductive layer.

Fig. 5 shows the partial schematic diagram of the display contactor control device of the utility model second embodiment shown in Fig. 4.Fig. 5 is The enlarged diagram of the birds-eye perspective in B regions in Fig. 4.

In the first electrode 3111 included in first inductive layer for example, sensing electrode (or driving electrodes), the second inductive layer Comprising second electrode 3151 be, for example, driving electrodes (or sensing electrode), the first inductive layer in the second inductive layer with that can also wrap Include other electrodes (such as the Dummy electrodes for isolating first electrode and second electrode).First electrode in adjacent position Mutual capacitance is formed between second electrode to sense touch location.It should be noted that, although shown in Fig. 5 and Fig. 4 first Electrode and second electrode are rectangle, but the shape of first electrode 3111 and second electrode 3151 is not limited, can be according to touch-control The function of panel needs and the shape of each electrode is designed as into the shapes such as rhombus, triangle, rectangle.

Because each electrode is realized by lattice-shaped conductor in the first inductive layer and the second inductive layer of mutually insulated, because This, in order that must be used to realize the lattice-shaped conductor of the first inductive layer and the equal energy of lattice-shaped conductor for realizing the second inductive layer The transparent area of OLED cell is avoided, the lattice-shaped conductor of the first inductive layer and the second inductive layer can be misplaced and arranged, led to below The close-up schematic view for crossing Fig. 5 is illustrated.

Fig. 6 shows the perspective diagram in C regions in Fig. 5.

As shown in fig. 6, the second surface of insulating barrier 3300 has multiple luminous zones for being formed by each OLED cell and multiple Non-light-emitting area beyond luminous zone.The transparent area 100 of insulating barrier first surface is corresponding with each luminous zone, alternatively non-transparent district 200 with Non-light-emitting area correspondence；The transparent area 100 of first protective clear layer first surface is corresponding with each luminous zone, alternatively non-transparent district 200 with Non-light-emitting area correspondence.Lattice-shaped conductor for forming the first inductive layer and the second inductive layer is layed in the table of insulating barrier first respectively Face and the alternatively non-transparent district 200 of the first protective clear layer first surface so that the light that each OLED cell in display panel is sent Do not blocked by lattice-shaped conductor.

As shown in fig. 6, multiple OLED cells in display panel are generally arranged as in units of OLED cell group The array of OLED cell group, wherein, each OLED cell group includes the OLED cell in multiple OLED cells, each OLED cell Quantity flexible determination can be actually needed according to the repeat patterns of OLED cell in organic light emission group and designer.With it is same OLED cell in one OLED cell group one light transmitting cells 110 of corresponding each transparent area 100 formation, so that insulating barrier the One surface with forming multiple light transmitting cells respectively on the first protective clear layer first surface.In order that the pattern letter of lattice-shaped conductor It is single efficient, it is located at each light transmitting cells for realizing that the lattice-shaped conductor of first electrode can be layed in insulating barrier first surface Alternatively non-transparent district between 110.

The comb mesh pattern that the comb mesh pattern of first inductive layer formation is formed with second inductive layer is extended in the same direction Part can be misaligned each other.

When first electrode is adjacent with second electrode, in order to not influence each first electrode and the second sense in the first inductive layer The adjacent position relation of the second electrode of each in layer is answered, for realizing that the lattice-shaped conductor of second electrode can be layed in and first In the corresponding adjacent alternatively non-transparent district of conductor in electrode.For example shown in Fig. 6, positioned at the first electrode 3111 of insulating barrier first surface It is layed in the alternatively non-transparent district adjacent with each OLED cell group, first electrode 3111 is adjacent with second electrode 3151 in D regions, The first electrode in second electrode 3151 (on the first surface for being located at the first protective clear layer) and D regions in D regions 3111 (being located at insulating barrier first surface) are adjacent with same row OLED cell, so as to substantially ensure that first electrode and second The adjacent position relation of electrode.

Because each electrode is realized by lattice-shaped conductor in the first inductive layer and the second inductive layer, therefore to make each electrode Shape levels off to the figures of designer's needs, and the conductor of the edge of each electrode is connected to saw in adjacent alternatively non-transparent district 200 Dentation conductor or wavy conductor, so as to substantially reduce the influence that inductive layer rasterizing is brought to electrode shape.Meanwhile, point It is distributed in the conductor electrical communication in same electrode.It should be noted that when electrode is redundancy electrode, due to redundancy electrode master It is used to realizing the isolation between electrode, therefore requirement of the redundancy electrode to shape is less, without by the edge of redundancy electrode Conductor be connected, so as to make driving electrodes, sensing electrode etc. be used for sense touch location, the electrode higher to shape need The access paths of edge conductors there is bigger selection space, the flexibility that is related to of lifting inductive layer.

It is similar with the implementation method of each electrode, the first inductive layer and the connecting line in the second inductive layer and lead-out wire it is same by Lattice-shaped conductor positioned at alternatively non-transparent district is realized.From unlike the implementation method of above-mentioned each electrode, sensing respectively positioned at first Layer neatly can be arranged in alternatively non-transparent district with the connecting line in the second inductive layer and lead-out wire, without ensureing phase each other Adjacent position relationship, connecting line need not be connected with the conductor of the edge of lead-out wire in adjacent alternatively non-transparent district.

For realizing that the lattice-shaped conductor of the first inductive layer and the second inductive layer can be the straight line that is arranged in alternatively non-transparent district The conductor of other forms such as type lattice-shaped conductor or zigzag or waveform, the utility model not restriction to this.

The material of lattice-shaped conductor can select the metals such as copper, alloy material or the excellent conductor of other electric conductivities with Reduce the resistance of inductive layer.It is due to that lattice-shaped conductor is distributed in insulation although the transmission of visible light of these materials is not high Layer first surface and the first protective clear layer alternatively non-transparent district 200, avoid corresponding in display panel each OLED cell it is saturating Light area 100, therefore the height of the transmission of visible light of lattice-shaped conductor does not influence the display effect of display panel.

According in the display contactor control device of the utility model second embodiment, relative to traditional using ito thin film as material Inductive layer for, because the inductive layer in the contact panel of the present embodiment is real by the conductor for avoiding the transparent area of OLED cell It is existing, therefore the selection of the conductor is not limited to the high material of visible light transmissivity, so that it is mono- to reduce each OLED in display panel Decay of the light that member is sent in inductive layer, further improves the display effect of display contactor control device.

It should be noted that herein, such as first and second or the like relational terms are used merely to a reality Body or operation make a distinction with another entity or operation, and not necessarily require or imply these entities or deposited between operating In any this actual relation or order.Moreover, term " comprising ", "comprising" or its any other variant are intended to Nonexcludability is included, so that process, article or equipment including a series of key elements not only include those key elements, and Also include other key elements being not expressly set out, or also include for this process, article or the intrinsic key element of equipment. In the absence of more restrictions, the key element limited by sentence "including a ...", it is not excluded that including the key element Process, article or equipment in also there is other identical element.

According to embodiment of the present utility model as described above, these embodiments do not have all details of detailed descriptionthe, Also it is only described specific embodiment not limit the utility model.Obviously, as described above, many modifications and change can be made Change.This specification is chosen and specifically describes these embodiments, be in order to preferably explain principle of the present utility model and it is actual should With so that skilled artisan can repairing using the utility model and on the basis of the utility model well Change and use.The utility model is only limited by claims and its four corner and equivalent.

Claims (10)

1. one kind shows contactor control device, including：

There is the multiple luminous zones formed by multiple luminescence units and institute in display panel, including luminescent layer, the luminescent layer The non-light-emitting area beyond multiple luminous zones is stated, the light emission side of the light that the multiple luminescence unit is sent from the display panel is penetrated Go out；And

Contact panel, including the inductive layer being made of an electrically conducting material, the inductive layer be located at display panel light emission side with it is described non- The corresponding position in luminous zone.

2. display contactor control device according to claim 1, wherein, the inductive layer formation comb mesh pattern.

3. display contactor control device according to claim 2, wherein, the inductive layer has single layer structure.

4. display contactor control device according to claim 2, wherein, the inductive layer at least includes the first mutually isolated sense Answer layer and the second inductive layer.

5. display contactor control device according to claim 4, wherein, the comb mesh pattern of the first inductive layer formation with it is described The part that the comb mesh pattern of second inductive layer formation is extended in the same direction is misaligned each other.

6. the display contactor control device according to claim 3 or 4, wherein, the inductive layer includes multiple electrodes, each described The edge formation closed pattern of electrode.

7. display contactor control device according to claim 6, wherein, the inductive layer also includes being used to connect the electrode Connecting line and the lead-out wire for the electrode to be drawn to the inductive layer.

8. display contactor control device according to claim 2, wherein, the comb mesh pattern includes rectangle, zigzag and/or ripple Shape wave strip portion.

9. display contactor control device according to claim 2, wherein, in the comb mesh pattern of the inductive layer, each grid Interior white space is corresponding with luminescence unit at least one described.

10. display contactor control device according to claim 1, wherein, the conductive material includes metal, alloy or non-gold Belong to conductive material.