CN209525868U - Display device - Google Patents

Abstract

Present disclose provides a kind of display devices, comprising: the LED display base plate and drive substrate being oppositely arranged；The LED display base plate includes: glass substrate, multiple LED chips and a plurality of first signal lead, and the LED chip and first signal lead are set to the glass substrate backwards to the side of institute's drive substrate by substrate of the glass substrate；For any LED chip, the first pole and the second pole of the LED chip are separately connected first signal lead of different two；The drive substrate includes: pcb board and drive control device, the drive control device is packaged in the pcb board backwards to the side of the glass substrate, the drive control device is electrically connected with each first signal lead, for providing corresponding driving signal to each first signal lead.

Description

Display device

Technical field

This disclosure relates to field of display technology, in particular to a kind of display device.

Background technique

Light emitting diode (Light Emitting Diode, abbreviation LED) display panel is the core device of LED display Part, wherein LED display panel includes: printed circuit board (Printed Circuit Board, abbreviation pcb board), is packaged in this LED chip and drive control device on pcb board need on pcb board modelled signal cabling for providing electricity for the positive and negative electrode of LED Signal.

Wherein, when preparing signal lead on pcb board, Multi-layer design is often used, is limited to that dry film resolution is low, dry film Thickness is big, copper thickness is big, the influence of exposure and the not high factor of etching machines precision, so that the line for the signal lead that can be formed Width is larger (can carry out the minimum feature of volume production at 85 μm or so), the LED core chip size arranged in pairs or groups needed for the signal lead at this time compared with Greatly；In addition, needing to arrange signal lead between the adjacent LED of part, since the line width of the signal lead of configuration is larger, also result in Spacing between the adjacent LED chip is larger.

Based on the above issues, existing LED display panel is caused to be difficult to realize high-resolution.

Utility model content

The disclosure aims to solve at least one of the technical problems existing in the prior art, proposes a kind of display device.

To achieve the above object, present disclose provides a kind of display devices, comprising: the LED display base plate that is oppositely arranged and Drive substrate；

The LED display base plate includes: glass substrate, multiple LED chips and a plurality of first signal lead, the LED core Piece and first signal lead are set to the glass substrate backwards to institute's drive substrate by substrate of the glass substrate Side；For any LED chip, the first pole and the second pole of the LED chip are separately connected different two described first Signal lead；

The drive substrate includes: pcb board and drive control device, and the drive control device is packaged in the pcb board Backwards to the side of the glass substrate, the drive control device is electrically connected with each first signal lead, is used for each institute It states the first signal lead and corresponding driving signal is provided.

In some embodiments, the LED chip is Mini-LED chip.

In some embodiments, the LED display base plate further include: multiple correspondingly with first signal lead First conduction connecting structure, first conduction connecting structure are electrically connected with corresponding first signal lead；

The drive substrate further include: be conductively connected and tie with first conduction connecting structure one-to-one multiple second Structure, first conduction connecting structure are adapted to and are electrically connected with corresponding second conduction connecting structure；

The drive control device is electrically connected with each second conduction connecting structure, and the drive control device is specifically used It is provided accordingly in passing sequentially through second conduction connecting structure, first conduction connecting structure to first signal lead Driving signal.

In some embodiments, first conduction connecting structure and second conduction connecting structure are pad.

In some embodiments, second conduction connecting structure is set to the pcb board backwards towards the glass base The side of plate, the drive control device are electrically connected by the guide hole on the pcb board with each second conduction connecting structure.

In some embodiments, first conduction connecting structure is set to the glass substrate towards the pcb board Side, first conduction connecting structure are connected by intermediate conduction connecting structure with corresponding first signal lead；

First conduction connecting structure is connected with corresponding second conduction connecting structure.

In some embodiments, first conduction connecting structure is set to the glass substrate towards the pcb board One side surface, the LED display base plate further include: a plurality of second signal is walked correspondingly with first conduction connecting structure Line, the second signal cabling are set to a side surface of the glass substrate towards the pcb board, the second signal cabling First end connected with corresponding first conduction connecting structure；

The first end of first signal lead extends to the glass substrate backwards to the side of a side surface of the pcb board Edge；

The intermediate conduction connecting structure includes: conducting resinl, and the conducting resinl includes: positioned at the side of the glass substrate First part and extend to second part of the glass substrate towards one side surface of pcb board；

The first part of the conducting resinl connect with the first end of first signal lead, and the of the conducting resinl The of two parts, one article of second signal cabling corresponding with one article of first signal lead that the first part of the conducting resinl is connected The connection of two ends.

In some embodiments, the side that conductive silver glue is provided on the glass substrate and the glass substrate are towards institute It states one side surface junction of pcb board and is formed with chamfering.

In some embodiments, first conduction connecting structure is set to the glass substrate towards the pcb board One side surface, the LED display base plate further include: a plurality of second signal is walked correspondingly with first conduction connecting structure Line, the second signal cabling are set to a side surface of the glass substrate towards the pcb board, the second signal cabling First end connected with corresponding first conduction connecting structure, the second end of the second signal cabling extends to the glass Edge of the glass substrate backwards to a side surface of the pcb board；

The first end of first signal lead extends to the glass substrate backwards to the side of a side surface of the pcb board Edge；

The intermediate conduction connecting structure includes: metal routing, and the metal routing is set to the side of the glass substrate Face；

The first end of the metal routing is connect with the first end of first signal lead, the metal routing The of second end one article of second signal cabling corresponding with one article of first signal lead that the first end of the metal routing is connected The connection of two ends.

In some embodiments, the material phase of the metal routing, first signal lead, the second signal cabling Together.

In some embodiments, the intermediate conduction connecting structure includes: FPC plate, and first conduction connecting structure is set It is placed on the FPC plate；

The FPC plate includes parallel multiple conductive channels；

The first end of the conductive channel is connect with the first end of first signal lead, the conductive channel Second end the first conduction connecting structure connection corresponding with the first signal lead that the first end of the conductive channel is connected；

The second end of the conductive channel is bent to the glass substrate towards the side of the pcb board, and described first Conduction connecting structure is set to the second end of the conductive channel towards the side of the pcb board.

In some embodiments, the size of the glass substrate is less than the size of the pcb board, the glass substrate direction One side surface of the pcb board is Nian Jie with a side surface of the pcb board towards the glass substrate, and described second is conductively connected Structure setting is in the pcb board towards a side surface of the glass substrate and the region that is not covered by the glass substrate；

First conduction connecting structure is set to a side surface of the glass substrate backwards to the pcb board；

First conduction connecting structure is electrically connected with corresponding second conduction connecting structure by conductive jumper.

In some embodiments, first conduction connecting structure is set to the glass substrate backwards to the pcb board One side edge where second conduction connecting structure corresponding to one side surface and close first conduction connecting structure.

In some embodiments, which is characterized in that the first pole in all first signal leads, with LED chip First signal lead of connection is the first pole signal lead, and the first signal lead connecting with the second pole of LED chip is second Pole signal lead；

All the first pole signal lead same layers settings, all the second pole signal lead same layers settings, described the One pole signal lead and the different layer of second pole signal lead are arranged.

In some embodiments, all the LED chips constitute pixel arrays, and the pixel array includes that M row, N column are total M*N dot structure is counted, the dot structure includes: multiple LED chips, is located at different LED chip hairs in same dot structure Different colours light out；

In the pixel array, the first pole of the LED chip in the dot structure of same a line connection same the One pole signal lead, the LED chip in the dot structure that do not go together connect different first pole signal leads；

In the 1st row~m row dot structure of the pixel array, it is located in same row dot structure and issues identical Second pole of the LED chip of color connects the second pole of same signal lead, and the LED chip in different lines dot structure connects Different second pole signal leads are connect, wherein m is the integer less than M；

In m+1 row~M row dot structure of the pixel array, it is located in same row dot structure and issues phase The second pole with the LED chip of color connects the second pole of same signal lead, the LED chip in different lines dot structure Connect different second pole signal leads；

The second pole signal lead that second pole of the LED chip in the 1st row~m row dot structure is connected, with The second pole signal lead that second pole of the LED chip in m+1 row~M row dot structure is connected is different letter Number cabling.

In some embodiments, m=INT (M/2), INT (M/2) expression are rounded the value of M/2；

Connection is located at the first pole signal lead of the LED chip in the 1st row~m row dot structure, and first end extends To the glass substrate backwards to the first side edge of a side surface of the pcb board；

Connection is located at the first pole signal lead of the LED chip in m+1 row~M row dot structure, and first end is prolonged The glass substrate is extended to backwards to the second side edge of a side surface of the pcb board；

Connection is located at the second pole signal lead of the LED chip in the 1st row~m row dot structure, and first end extends To the glass substrate backwards to the third side edge of a side surface of the pcb board；

Connection is located at the second pole signal lead of the LED chip in m+1 row~M row dot structure, and first end is prolonged The glass substrate is extended to backwards to the four side edge of a side surface of the pcb board；

Wherein, the first side edge and the second side edge are both sides of the edge opposite in the row direction, described the Three side edges and the four side edge are both sides of the edge opposite in a column direction.

In some embodiments, when there are the first conduction connecting structure and first conductions in the LED display base plate When connection structure is set to side of the glass substrate towards the pcb board,

It is located at the first pole signal lead corresponding first of the LED chip in the 1st row~m row dot structure with connection Conduction connecting structure is located at side of the glass substrate towards the pcb board and the first side close to the glass substrate In first presumptive area at edge；

The the first pole signal lead of LED chip corresponding the being located in m+1 row~M row dot structure with connection One conduction connecting structure is located at side of the glass substrate towards the pcb board and second close to the glass substrate In second presumptive area of side edge；

It is located at the second pole signal lead corresponding first of the LED chip in the 1st row~m row dot structure with connection Conduction connecting structure is located at side of the glass substrate towards the pcb board and the third side close to the glass substrate In the third presumptive area at edge；

The the second pole signal lead of LED chip corresponding the being located in m+1 row~M row dot structure with connection One conduction connecting structure is located at side of the glass substrate towards the pcb board and the close to the glass substrate the 4th In 4th presumptive area of side edge.

In some embodiments, positioned at the glass substrate towards the pcb board side and the glass substrate The whole of one side edge first conduction connecting structure, uniformly arranges in first presumptive area；

Positioned at the glass substrate towards the side of the pcb board and the whole institute of the second side edge of the glass substrate The first conduction connecting structure is stated, is uniformly arranged in second presumptive area；

Positioned at the glass substrate towards the side of the pcb board and the whole institute of the third side edge of the glass substrate The first conduction connecting structure is stated, is uniformly arranged in the third presumptive area；

Positioned at the glass substrate towards the side of the pcb board and the whole institute of the four side edge of the glass substrate The first conduction connecting structure is stated, is uniformly arranged in the 4th presumptive area.

In some embodiments, the LED chip is LED flip chip.

In some embodiments, the LED flip chip is provided with whole face coating backwards to the side of the glass substrate Protective glue.

Detailed description of the invention

Fig. 1 is a kind of schematic cross-section for the display device that the embodiment of the present disclosure provides；

Fig. 2 is another schematic cross-section for the display device that the embodiment of the present disclosure provides

Fig. 3 is another schematic cross-section for the display device that the embodiment of the present disclosure provides

Fig. 4 is another schematic cross-section for the display device that the embodiment of the present disclosure provides；

Fig. 5 is that a kind of arrangement of the first conduction connecting structure and the second conduction connecting structure in display base plate shown in Fig. 4 is shown It is intended to；

Fig. 6 is a kind of arrangement schematic diagram of LED chip and the first pole signal lead in the disclosure；

Fig. 7 is a kind of arrangement schematic diagram of LED chip and the second pole signal lead in the disclosure；

Fig. 8 is a kind of arrangement schematic diagram of the first conduction connecting structure in the disclosure.

Specific embodiment

To make those skilled in the art more fully understand the technical solution of the disclosure, the disclosure is mentioned with reference to the accompanying drawing A kind of display device supplied is described in detail.

Fig. 1 is a kind of schematic cross-section for the display device that the embodiment of the present disclosure provides, as shown in Figure 1, the display device It include: the LED display base plate being oppositely arranged and drive substrate.

Wherein, LED display base plate 1 includes: glass substrate 3, multiple LED chips 5 and a plurality of first signal lead 6, LED core Piece 5 and the first signal lead 6 are set to side of the glass substrate 3 backwards to institute's drive substrate 2 with glass substrate 3 for substrate；It is right In any LED chip 5, the first pole and the second pole of the LED chip 5 are separately connected two different the first signal leads 6.

It should be noted that one of first pole and the second pole of LED chip 5 are the anode of LED chip 5 in the disclosure, Another cathode for LED chip 5.It is extremely positive with the first of LED chip 5 in the disclosure for convenience of description, the of LED chip 5 Two carry out example description extremely for cathode.

Drive substrate 2 includes: pcb board 4 and drive control device 11, and drive control device 11 is packaged in pcb board 4 backwards to glass The side of glass substrate 3, drive control device 11 are electrically connected with each first signal lead 6, for providing to each first signal lead 6 Corresponding driving signal.

Wherein, the packaging technology that drive control device 11 is packaged on pcb board 4 is belonged into the prior art, concrete condition this Place is without detailed description.

In the disclosure, LED chip 5 and the first signal lead 6 for providing signal for LED chip 5 are set to glass On substrate 3；Wherein, using glass substrate 3 as substrate by patterning processes to prepare the first signal lead 6 when, due to glass Glass substrate 3 is higher as the precision for being patterned technique to film of substrate, therefore can prepare lesser first letter of line width Number cabling 6.It is carved it should be noted that " patterning processes " in the disclosure refer to including photoresist coating, exposure, development, film The techniques such as erosion, photoresist lift off.

The technique that the first signal lead 6 is prepared as one of disclosure, detailed process is as follows: firstly, in glass base On plate by sputtering (Sputter) technique formed layer of conductive material film, wherein conductive material can with metal material (for example, Copper)；Biggish adhesive force can be formed between the conductive material thin film and glass substrate that can be formed by sputtering technology, in addition The thickness of conductive material thin film can be much smaller than the thickness of copper foil in the prior art；Then, conductive material thin film is patterned Technique, the figure of the first signal lead 6 is made.

The minimum feature for the first signal lead 6 prepared by above-mentioned processing step is much smaller than existing skill at 3 μm or so Minimum feature based on signal lead prepared by pcb board in art.

Compared with prior art, the signal that the technical solution of the disclosure can reduce for providing signal for LED chip 5 is walked The line width of line, therefore corresponding can also reduce to the size for the LED chip 5 that signal lead is mutually arranged in pairs or groups；At the same time, it is located at signal Spacing between cabling two sides and adjacent LED chip 5 also can reduce.Therefore, in region of the same area, the disclosure The LED chip 5 that technical solution can be set is more, is conducive to LED display and realizes high-resolution.

In addition, with the reduction of used 5 size of LED chip, production cost can also be reduced accordingly.Specifically, exist Under the premise of pixel spacing is P1.0 (the distance between 5 central point of adjacent LED chip is 1.0mm), it is existing using pcb board as Can be 8mi l*12mi l with the size of minimum LED chip 5 when substrate, and in the disclosure using glass substrate as substrate Shi Keyong most Small LED is having a size of 4mi l*8mi l, and for LED chip cost, the former every square metre of cost is about 37500RMB/m2, after The cost of every square metre of person is about 12500 yuan, and the latter is about the former one third.

In the disclosure preferably, LED chip 5 selects LED flip chip.Wherein LED flip chip refers to, can be based on Packaging technology and packed LED chip 5 on substrate, when being packaged on substrate, the luminescent layer of LED chip 5 is located at the Backwards to the side of substrate, the first pole and second is extremely directly in contact with the signal lead being located on substrate for one pole and the second pole, this When the non-light emission side of luminescent layer is located at due to the first pole and the second pole, because of the emitting brightness without LED.

When using LED flip chip, all LED chips 5 on glass substrate 3 can be encapsulated simultaneously.Specifically Electrical connection is extremely completed (usually by the with corresponding first signal lead 6 in the first pole of each LED chip 5 and second in ground Welded with corresponding signal lead one/the second pole) after, the side whole face coating one of LED chip 5 is provided on glass substrate 3 Determine the transparent organic silicon protective glue 15 of thickness, which is had resistance to well using the LED encapsulation glue of profession Hot, weatherability, anti-ultraviolet ageing and close to 100% the excellent characteristics such as translucency, LED flip chip can be protected and Its optical characteristics is not influenced.

When in the prior art, using pcb board as substrate, used LED chip is only capable of as LED positive cartridge chip (its quilt When encapsulating on substrate, the first pole and the second pole of LED chip 5 are located at luminescent layer backwards to the side of substrate), the positive cartridge chip of LED It when being packaged on pcb board by positive packaging technology, not only needs using protective glue 15, it is also necessary to use bracket encapsulation and metal Routing, it is the complex process of positive packaging technology, at high cost.In addition, since the first pole of LED chip and the second pole are located at luminescent layer Emission side, therefore light emitted by luminescent layer can be stopped, to respond the light emission luminance of LED chip.

By above-mentioned comparison as it can be seen that by using LED flip chip in the disclosure, can effectively reduce packaging technology difficulty, Packaging cost promotes light emission luminance.

It should be noted that above-mentioned LED chip 5 selects the case where LED flip chip, it is the preferred implementation side in the disclosure Case will not generate limitation to the technical solution of the disclosure.

In the disclosure preferably, LED chip 5 is Mini-LED chip, and wherein Mini-LED chip refers to length and width 80 μm~300 μm between LED chip, Mini-LED chip is generally LED flip chip.

In the disclosure, LED display base plate 1 further include: even with one-to-one multiple first conductions of the first signal lead 6 Binding structure 7, the first conduction connecting structure 7 are electrically connected with corresponding first signal lead 6；Drive substrate 2 further include: led with first One-to-one multiple second conduction connecting structures 8 of electric connection structure 7, the first conduction connecting structure 7 are conductive with corresponding second The adaptation of connection structure 8 and electrical connection；Drive control device 11 is electrically connected with each second conduction connecting structure 8, drive control device 11 be specifically used for pass sequentially through the second conduction connecting structure 8, the first conduction connecting structure 7 provides accordingly to the first signal lead 6 Driving signal.

In some embodiments, the first conduction connecting structure 7 and the second conduction connecting structure 8 are pad, and at this time first The second corresponding conduction connecting structure 8 of conduction connecting structure 7 can be welded directly to realize electrical connection, or pass through other Mode (such as one is conductive plug, and another one is the conductive socket being adapted to conductive plug), which is realized, to be electrically connected.

In some embodiments, the second conduction connecting structure 8 is set to pcb board 4 backwards to towards the side of glass substrate 3, Drive control device 11 is electrically connected by the guide hole (not shown) on pcb board 4 with corresponding second conduction connecting structure 8.

Still optionally further, the first conduction connecting structure 7 is set to glass substrate 3 and leads towards the side of pcb board 4, first Electric connection structure 7 is connected by intermediate conduction connecting structure with corresponding first signal lead 6；First conduction connecting structure 7 with Corresponding second conduction connecting structure 8 connects.

Preferably, the first conduction connecting structure 7 and corresponding second conduction connecting structure, 8 face can be convenient for first at this time Conduction connecting structure 7 is directly attached with corresponding second conduction connecting structure 8.

As a kind of optional embodiment, the first conduction connecting structure 7 and the second conduction connecting structure 8 are pad, the One conduction connecting structure 7 and the second conduction connecting structure 8 are welded and fixed, be not only able to achieve at this time the first conduction connecting structure 7 with The electrical connection of second conduction connecting structure can also realize that the entirety of LED display base plate 1 and drive substrate 2 is fixed.

With continued reference to shown in Fig. 1, the first conduction connecting structure 7 is set to a side surface of the glass substrate 3 towards pcb board 4, LED display base plate 1 further include: with the one-to-one a plurality of second signal cabling 9 of the first conduction connecting structure 7, second signal is walked Line 9 is set to a side surface of the glass substrate 3 towards pcb board 4, and the first end of second signal cabling 9 is conductive with corresponding first Connection structure 7 connects.

Wherein, second signal cabling 9 can also use the patterning processes using glass substrate 3 as substrate to be prepared.

The first end of first signal lead 6 extends to glass substrate 3 backwards to the edge of a side surface of pcb board 4, and centre is led Electric connection structure includes: conducting resinl 10, conducting resinl 10 include: positioned at the side of glass substrate 3 first part and extend to Second part of the glass substrate 3 towards 4 one side surface of pcb board；The first part of conducting resinl 10 and first signal lead 6 First end connection, first signal lead 6 that the second part of conducting resinl 10 is connect with the first part of the conducting resinl 10 The second end of a corresponding second signal cabling 9 connects.

As a kind of optinal plan of conducting resinl 10, conducting resinl 10 is conductive silver glue.

In the present embodiment, since conducting resinl 10 needs to extend to glass substrate 3 towards PCB from the side of glass substrate 3 4 one side surface of plate, to reduce friendship of the conducting resinl 10 in the side of glass substrate 3 with glass substrate 3 towards 4 one side surface of pcb board There is the risk of short-term in the place of connecing, it is preferable that the side that conductive silver glue is provided on glass substrate 3 and glass substrate 3 are towards pcb board 4 one side surfaces junction are formed with chamfering so that conducting resinl 10 can from the side of glass substrate 3 it is gentle transit to glass Substrate 3 is towards 4 one side surface of pcb board.

At this point, can pass through corresponding second signal cabling 9, conduction for the second conduction connecting structure of each 8 Glue 10 is realized with corresponding first signal lead 6 and is electrically connected.

Fig. 2 is another schematic cross-section for the display device that the embodiment of the present disclosure provides, as shown in Fig. 2, with institute in Fig. 1 Show that situation is not both, in display device shown in Fig. 2, not only the first end of the first signal lead 6 extends to glass substrate 3 backwards The edge of one side surface of pcb board 4, and the second end of second signal cabling 9 extends to glass substrate 3 backwards to the one of pcb board 4 The edge of side surface；At this point, intermediate conduction connecting structure includes: metal routing 12, metal routing 12 is set to glass substrate 3 Side, the first end of metal routing 12 are connect with the first end of first signal lead 6, the second end of metal routing 12 with should The second end for the corresponding second signal cabling 9 of the first signal lead 6 that the first end of metal routing 12 is connected connects It connects.

Wherein, metal routing 12, the first signal lead 6, the material of second signal cabling 9 are identical.Specifically may be used as one kind Scheme is selected, metal routing 12, the first signal lead 6 and third signal lead are copper wire, conductivity height, the production cost of copper wire It is low.

Fig. 3 is another schematic cross-section for the display device that the embodiment of the present disclosure provides, as shown in figure 3, with Fig. 1 and figure Unlike situation shown in 2, the intermediate conduction connecting structure in Fig. 3 includes: FPC plate 13, and the first conduction connecting structure 7 is set to On FPC plate 13.Specifically, FPC plate 13 includes parallel multiple conductive channels, the first end of each conductive channel with corresponding one The first end of first signal lead 6 connects, specifically, the first end of conductive channel by binding (Bonding) technique with it is corresponding First signal lead 6 first end connection；The second end of each conductive channel is connect with the first end of the conductive channel Corresponding first conduction connecting structure 7 of the first signal lead 6 connect, the second end of conductive channel is bent to 3 court of glass substrate To the side of pcb board 4, the first conduction connecting structure 7 is directly arranged at the second end of corresponding conductive channel and towards pcb board 4 side surface.

In scheme shown in Fig. 3, due to that can reduce production craft step, shorten without preparing second signal cabling 9 Production cycle.

Fig. 4 is another schematic cross-section for the display device that the embodiment of the present disclosure provides；Fig. 5 is that base is shown shown in Fig. 4 A kind of arrangement schematic diagram of first conduction connecting structure and the second conduction connecting structure in plate, as shown in Figure 4 and Figure 5, with Fig. 1~ Unlike shown in Fig. 3, the size of glass substrate 3 is less than the size of pcb board 4 in Fig. 4, and glass substrate 3 is towards pcb board 4 One side surface is Nian Jie with a side surface of pcb board 4 towards glass substrate 3, and the second conduction connecting structure 8 is set to 4 direction of pcb board One side surface of glass substrate 3 and the region not covered by glass substrate 3, the first conduction connecting structure 7 are set to glass base Plate 3 is backwards to a side surface of pcb board 4；First conduction connecting structure 7 is jumped with corresponding second conduction connecting structure 8 by conductive Line 14 is electrically connected.Wherein, optionally, conductive jumper 14 is gold thread.

It is shown in Figure 5, it is preferable that the first conduction connecting structure 7 is set to side table of the glass substrate 3 backwards to pcb board 4 The side edge of second conduction connecting structure 8 corresponding to face and close first conduction connecting structure 7, at this time can be effective Shorten corresponding the distance between the second conduction connecting structure 8 of the first conduction connecting structure 7, the conduction configured needed for reducing The length of wire jumper 14, so as to reduce the resistance of conductive jumper 14 and reduce production cost.

It should be noted that in display device shown in Fig. 4, when being packaged using protective glue 15 to LED chip 5, Second conduction connecting structure 8 and conductive jumper 14 can be packaged together, to the second conduction connecting structure 8 and conductive jumper 14 are protected.

Fig. 6 is a kind of arrangement schematic diagram of LED chip and the first pole signal lead in the disclosure, and Fig. 7 is LED in the disclosure A kind of arrangement schematic diagram of chip and the second pole signal lead, as shown in Figure 6 and Figure 7, in some embodiments, the first signal is walked Line 6 is specifically divided into the first pole signal lead 6a and the second pole signal lead 6b, wherein connects with the first pole of LED chip R/G/B The first signal lead 6 connect is the first pole signal lead 6a, the first signal lead 6 connecting with the second pole of LED chip R/G/B For the second pole signal lead 6b；All the first pole signal lead 6a same layer settings, all the second pole signal lead 6b same layer settings, The second pole of layer and setting of the first signal lead 6 is arranged in the different layer setting of first pole signal lead 6a and the second pole signal lead 6b Insulating layer is provided between the layer of signal lead 6b.

In some embodiments, whole LED chip R/G/B constitute pixel array, and pixel array includes M row, N column total M* N number of dot structure, each dot structure include: multiple LED chip R/G/B, are located at different LED chip R/ in same dot structure G/B issues different colours light.

It is shown in Figure 6, in pixel array, the first pole of the LED chip R/G/B in the dot structure of same a line The first pole of same signal lead 6a is connected, different first poles of the LED chip R/G/B connection in the dot structure that do not go together Signal lead 6a.

It is shown in Figure 7, in the 1st row~m row dot structure of pixel array, be located at same row dot structure in and The second pole for issuing the LED chip R/G/B of same color connects the second pole of same signal lead 6b, is located at different lines pixel knot The second pole signal lead 6b of LED chip R/G/B connection difference in structure；Wherein, m is the integer less than M.

In m+1 row~M row dot structure of pixel array, it is located in same row dot structure and issues identical face The second pole of the LED chip R/G/B of color connects the second pole of same signal lead 6b, the LED in different lines dot structure The second pole signal lead 6b of chip R/G/B connection difference.

The second pole signal that the second pole of LED chip R/G/B in the 1st row~m row dot structure is connected is walked Line 6b, the second pole signal lead 6b being connect with the second pole of the LED chip 5 being located in m+1 row~M row dot structure For different signal leads.

It should be noted that only schematically depicting pixel array in attached drawing includes 4 rows, total 16 dot structures of 4 column PX, and each dot structure PX include three LED chip R/G/B and three LED chip R/G/B be respectively red LED chips R, The case where green LED chip G and blue LED die B, will not generate limitation to the technical solution of the disclosure.In addition, at one In dot structure, green LED chip G and blue LED die B are arranged along column direction, and green LED chip G and blue LED die B is located at the case where on the left of red LED chips R, only plays the role of schematic, will not generate limit to the technical solution of the disclosure System.In the disclosure, the arrangement mode of the quantity for LED chip included by a dot structure and each LED chip is equal It is not construed as limiting.

Include 3M*N LED chip R/G/B in pixel array for the situation shown in 6 and Fig. 7, needs to arrange M articles the One pole the second pole of signal lead 6a and 6N item signal lead 6b.

Preferably, m=INT (M/2), INT (M/2) expression are rounded the value of M/2.

The first pole signal lead 6a of LED chip R/G/B of the connection in the 1st row~m row dot structure, first End extends to glass substrate 3 backwards to the first side edge of a side surface of pcb board 4；Connection is located at m+1 row~M row pixel The first pole signal lead 6a of LED chip R/G/B in structure, first end extend to glass substrate 3 backwards to the one of pcb board 4 The second side edge of side surface；The second pole signal that connection is located at the LED chip R/G/B in the 1st row~m row dot structure is walked Line 6b, first end extend to glass substrate 3 backwards to the third side edge of a side surface of pcb board 4；Connection is located at m+1 row The second pole signal lead 6b of LED chip R/G/B in~the M row dot structure, first end extend to glass substrate 3 backwards The four side edge of one side surface of pcb board 4；Wherein, first side edge and second side edge are in the row direction opposite two Side edge, third side edge and four side edge are both sides of the edge opposite in a column direction.

In the accompanying drawings, first side edge and second side edge are respectively the left side edge and right side edge in attached drawing, third Side edge and four side edge are respectively upper edge and lower edge in attached drawing.

At this point, the four side edge of glass substrate 3 has the extraction of the first signal lead 6.Specifically, in the first pole of M item signal In cabling 6a, the first pole signal lead 6a of half is drawn from the left side edge of glass substrate 3, the other half the first pole signal is walked Line 6a is drawn from the right side edge of glass substrate 3；In the signal lead 6b of the second pole of 6N item, the second pole signal lead 6b of half It is drawn from the upper edge of glass substrate 3, the other half the second pole signal lead 6b is drawn from the lower edge of glass substrate 3.

Based on above-mentioned wire laying mode, 3 leftmost edge region of glass substrate and right border region number of wires phase may make Deng, 3 upper edge region of glass substrate is identical with lower edge area routing quantity, thus efficiency promoted glass substrate 3 side The wiring uniformity in edge region.

In addition, being walked by the way that the top half region of display base plate and lower half portion region are configured the second different pole signals Line 6b carries out signal transmission, can effectively shorten the length of arrangement wire of each second pole signal lead 6b, so as to reduce each second pole letter The resistance of number cabling 6b, and then promote the signal transmission quality of the second pole signal lead 6b.

Fig. 8 is a kind of top view of the first conduction connecting structure in the disclosure, as shown in figure 8, further, when LED is aobvious Show in substrate 1 there are the first conduction connecting structure 7 and the first conduction connecting structure 7 is set to glass substrate 3 towards pcb board 4 When one side surface (LED display base plate 1 is the LED display base plate 1 in display device shown in Fig. 1~3), first is conductively connected Following arrangement mode can be used in structure 7:

It is corresponding to be located at the first pole signal lead 6a of LED chip 5 in the 1st row~m row dot structure with connection First conduction connecting structure 7a is located at side of the glass substrate 3 towards pcb board 4 and the first side edge close to glass substrate 3 The first presumptive area 16a in；With the first pole signal for connecting the LED chip 5 being located in m+1 row~M row dot structure The corresponding first conduction connecting structure 7b of cabling 6a is located at glass substrate 3 towards the side of pcb board 4 and close to glass base In second presumptive area 16b of the second side edge of plate 3；With the LED chip 5 connecting in the 1st row~m row dot structure The corresponding first conduction connecting structure 7c of the second pole signal lead 6b, be located at glass substrate 3 towards the side of pcb board 4 And in the third presumptive area 16c of the third side edge of glass substrate 3；It is located at m+1 row~M row pixel knot with connecting The corresponding first conduction connecting structure 7d of the second pole signal lead 6b of LED chip 5 in structure is located at 3 court of glass substrate In 4th presumptive area 16d of the side to pcb board 4 and the four side edge close to glass substrate 3.

In the disclosure, by the first conduction connecting structure 7a/7b/7c/7d and first conduction connecting structure 7a/7b/7c/ The first end for the first signal lead 6 that 7d is electrically connected is set to the same side edge on glass substrate 3, can effectively shorten and be used for It is electrically connected the first end of the first signal lead 6 and the intermediate of corresponding first conduction connecting structure 7a/7b/7c/7d is conductively connected The length of structure 17, so as to reduce production cost.

In addition, by glass substrate 3 the first conduction connecting structure 7a/7b/7c/7d be located at pcb board 4 on second When conduction connecting structure 8 connects, the four side edge of glass substrate 3 can be fixed with pcb board 4, show so as to promote LED The firmness connected between substrate 1 and drive substrate 2.

It is further preferred that being located at side of the glass substrate 3 towards pcb board 4 and the first side edge close to glass substrate 3 All the first conduction connecting structure 7a uniformly arrange in the first presumptive area 16a.

Whole first positioned at glass substrate 3 towards the side of pcb board 4 and close to the second side edge of glass substrate 3 leading Electric connection structure 7b uniformly arranges in the second presumptive area 16b.

Whole first positioned at glass substrate 3 towards the side of pcb board 4 and close to the third side edge of glass substrate 3 leading Electric connection structure 7c uniformly arranges in third presumptive area 16c.

Positioned at glass substrate 3 towards a side surface of pcb board 4 and close to all first conductions in the region of four side edge Connection structure 7d uniformly arranges in the 4th presumptive area 16d.

In the disclosure, by will be close to all the first conduction connecting structure 7a of first side edge in the first presumptive area It uniformly arranges in 16a, all the first conduction connecting structure 7b that will be close to second side edge are uniform in the second presumptive area 16b Arrangement, all the first conduction connecting structure 7c that will be close to third side edge uniformly arrange in third presumptive area 16c, will lean on All the first conduction connecting structure 7d of nearly four side edge uniformly arrange in the 4th presumptive area 16d, may make each predetermined The first conduction connecting structure 7a/7b/7c/7d in region is evenly arranged.Such design can make the first conduction The size of connection structure 7a/7b/7c/7d can do it is larger, caused by improving because of glass substrate 3 and 4 contraposition deviation of pcb board The problem of short circuit or virtual connection.

It should be noted that first is conductive shown in Fig. 8 in the first presumptive area 16a and in the second presumptive area 16b The case where connection structure 7a/7b arranges along column mode and is equidistant between adjacent first connection conductive connection, only realizes equal A kind of optional way of even arrangement will not generate limitation to the technical solution of the disclosure.

In addition, shown in Fig. 8 in third presumptive area 16c and the 4th presumptive area 16d, the first conduction connecting structure 7c/7d arrangement is in three rows, and only realizes evenly arranged one the case where the first connection conduction connecting structure dislocation in adjacent rows Kind optional way will not generate limitation to the technical solution of the disclosure.

It should be noted that being located at glass when LED display base plate 1 is the LED display base plate 1 in display device shown in Fig. 4 Glass substrate 3 may be situation shown in Fig. 8 backwards to the arrangement of the first conduction connecting structure of 4 side of pcb board, no longer superfluous herein It states.

In addition, the display base plate in the disclosure may include multiple LED display base plates, multiple LED display base plates are located at same In one plane, to constitute splicing LED display；At the same time, the quantity of drive substrate can be one or more.As one The optional embodiment of kind, the quantity of drive substrate are 1, and multiple LED display base plates correspond to same large-sized drive substrate； As another optional embodiment, the quantity of drive substrate be it is multiple, multiple LED display base plates and multiple drive substrates are one by one It is corresponding.For other situations, no longer citing description one by one herein.

When LED display base plate quantity is multiple, these LED display base plates can be used same layer protective glue to be sealed Dress.

It is understood that embodiment of above is merely to illustrate that the principle of the disclosure and the exemplary implementation that uses Mode, however the disclosure is not limited thereto.For those skilled in the art, in the essence for not departing from the disclosure In the case where mind and essence, various changes and modifications can be made therein, these variations and modifications are also considered as the protection scope of the disclosure.

Claims (20)

1. a kind of display device characterized by comprising the LED display base plate and drive substrate being oppositely arranged；

The LED display base plate includes: glass substrate, multiple LED chips and a plurality of first signal lead, the LED chip and First signal lead is set to the glass substrate backwards to the side of institute's drive substrate by substrate of the glass substrate； For any LED chip, the first pole and the second pole of the LED chip are separately connected first signal of different two and walk Line；

The drive substrate includes: pcb board and drive control device, and the drive control device is packaged in the pcb board backwards The side of the glass substrate, the drive control device are electrically connected with each first signal lead, for each described the One signal lead provides corresponding driving signal.

2. display device according to claim 1, which is characterized in that the LED chip is Mini-LED chip.

3. display device according to claim 1, which is characterized in that the LED display base plate further include: with described first One-to-one multiple first conduction connecting structures of signal lead, first conduction connecting structure are believed with corresponding described first The electrical connection of number cabling；

The drive substrate further include: with one-to-one multiple second conduction connecting structures of first conduction connecting structure, First conduction connecting structure is adapted to and is electrically connected with corresponding second conduction connecting structure；

The drive control device is electrically connected with each second conduction connecting structure, the drive control device be specifically used for according to It is secondary to provide corresponding drive to first signal lead by second conduction connecting structure, first conduction connecting structure Dynamic signal.

4. display device according to claim 3, which is characterized in that first conduction connecting structure and described second is led Electric connection structure is pad.

5. display device according to claim 3, which is characterized in that second conduction connecting structure is set to described Pcb board backwards to towards the side of the glass substrate, the drive control device by guide hole on the pcb board with it is each described The electrical connection of second conduction connecting structure.

6. display device according to claim 5, which is characterized in that first conduction connecting structure is set to the glass Glass substrate passes through intermediate conduction connecting structure and corresponding institute towards the side of the pcb board, first conduction connecting structure State the connection of the first signal lead；

First conduction connecting structure is connected with corresponding second conduction connecting structure.

7. display device according to claim 6, which is characterized in that first conduction connecting structure is set to the glass Glass substrate is towards a side surface of the pcb board, the LED display base plate further include: with first conduction connecting structure one One corresponding a plurality of second signal cabling, the second signal cabling are set to the glass substrate towards the one of the pcb board Side surface, the first end of the second signal cabling are connected with corresponding first conduction connecting structure；

The first end of first signal lead extends to the glass substrate backwards to the edge of a side surface of the pcb board；

The intermediate conduction connecting structure includes: conducting resinl, and the conducting resinl includes: positioned at the of the side of the glass substrate A part and extend to second part of the glass substrate towards one side surface of pcb board；

The first part of the conducting resinl connect with the first end of first signal lead, and second of the conducting resinl Divide the second end of a second signal cabling corresponding with first signal lead that the first part of the conducting resinl is connected Connection.

8. display device according to claim 7, which is characterized in that be provided with the side of conductive silver glue on the glass substrate Face is formed with chamfering towards the one side surface junction of pcb board with the glass substrate.

9. display device according to claim 6, which is characterized in that first conduction connecting structure is set to the glass Glass substrate is towards a side surface of the pcb board, the LED display base plate further include: with first conduction connecting structure one One corresponding a plurality of second signal cabling, the second signal cabling are set to the glass substrate towards the one of the pcb board Side surface, the first end of the second signal cabling are connected with corresponding first conduction connecting structure, the second signal The second end of cabling extends to the glass substrate backwards to the edge of a side surface of the pcb board；

The first end of first signal lead extends to the glass substrate backwards to the edge of a side surface of the pcb board；

The intermediate conduction connecting structure includes: metal routing, and the metal routing is set to the side of the glass substrate；

The first end of the metal routing is connect with the first end of first signal lead, and the second of the metal routing Hold the second end of a second signal cabling corresponding with first signal lead that the first end of the metal routing is connected Connection.

10. display device according to claim 9, which is characterized in that the metal routing, first signal lead, The material of the second signal cabling is identical.

11. display device according to claim 6, which is characterized in that the intermediate conduction connecting structure includes: FPC plate, First conduction connecting structure is set on the FPC plate；

The FPC plate includes parallel multiple conductive channels；

The first end of the conductive channel is connect with the first end of first signal lead, and the second of the conductive channel Hold the first conduction connecting structure connection corresponding with the first signal lead that the first end of the conductive channel is connected；

The second end of the conductive channel is bent to the glass substrate towards the side of the pcb board, and described first is conductive Connection structure is set to the second end of the conductive channel towards the side of the pcb board.

12. display device according to claim 5, which is characterized in that the size of the glass substrate is less than the pcb board Size, the glass substrate towards the pcb board a side surface and the pcb board towards the glass substrate side table Face bonding, second conduction connecting structure are set to the pcb board towards a side surface of the glass substrate and not by institute State the region that glass substrate is covered；

First conduction connecting structure is set to a side surface of the glass substrate backwards to the pcb board；

First conduction connecting structure is electrically connected with corresponding second conduction connecting structure by conductive jumper.

13. display device according to claim 12, which is characterized in that first conduction connecting structure is set to described Glass substrate backwards to the pcb board a side surface and second be conductively connected knot corresponding to first conduction connecting structure One side edge where structure.

14. any display device in -13 according to claim 1, which is characterized in that in all first signal leads In, the first signal lead connecting with the first pole of LED chip is the first pole signal lead, is connect with the second pole of LED chip The first signal lead be the second pole signal lead；

All the first pole signal lead same layer settings, all the second pole signal lead same layer setting, first pole Signal lead and the different layer of second pole signal lead are arranged.

15. display device according to claim 14, which is characterized in that all the LED chip constitutes pixel array, institute Stating pixel array includes M row, N column M*N dot structure of total, and the dot structure includes: multiple LED chips, is located at same Different LED chips issue different colours light in dot structure；

In the pixel array, the first pole of the LED chip in the dot structure of same a line connects the first pole of same Signal lead, the LED chip in the dot structure that do not go together connect different first pole signal leads；

In the 1st row~m row dot structure of the pixel array, it is located in same row dot structure and issues same color LED chip the second pole connect the second pole of same signal lead, in different lines dot structure LED chip connection not With the second pole signal lead, wherein m is the integer less than M；

In m+1 row~M row dot structure of the pixel array, it is located in same row dot structure and issues identical face Second pole of the LED chip of color connects the second pole of same signal lead, the LED chip connection in different lines dot structure Different second pole signal leads；

The second pole signal lead that second pole of the LED chip in the 1st row~m row dot structure is connected, and is located at The second pole signal lead that second pole of the LED chip in m+1 row~M row dot structure is connected is that different signals is walked Line.

16. display device according to claim 15, which is characterized in that m=INT (M/2), INT (M/2) are indicated to M/2 Value be rounded；

Connection is located at the first pole signal lead of the LED chip in the 1st row~m row dot structure, and first end extends to institute Glass substrate is stated backwards to the first side edge of a side surface of the pcb board；

Connection is located at the first pole signal lead of the LED chip in m+1 row~M row dot structure, and first end extends to Second side edge of the glass substrate backwards to a side surface of the pcb board；

Connection is located at the second pole signal lead of the LED chip in the 1st row~m row dot structure, and first end extends to institute Glass substrate is stated backwards to the third side edge of a side surface of the pcb board；

Connection is located at the second pole signal lead of the LED chip in m+1 row~M row dot structure, and first end extends to Four side edge of the glass substrate backwards to a side surface of the pcb board；

Wherein, the first side edge and the second side edge are both sides of the edge opposite in the row direction, the third side Edge and the four side edge are both sides of the edge opposite in a column direction.

17. display device according to claim 16, which is characterized in that be led when there are first in the LED display base plate Electric connection structure and when first conduction connecting structure is set to side of the glass substrate towards the pcb board,

Corresponding with first pole signal lead of LED chip of the connection in the 1st row~m row dot structure first is conductive Connection structure is located at side of the glass substrate towards the pcb board and the first side edge close to the glass substrate The first presumptive area in；

It is located at the first pole signal lead of LED chip corresponding first in m+1 row~M row dot structure with connection to lead Electric connection structure is located at side of the glass substrate towards the pcb board and the second side close to the glass substrate In second presumptive area of edge；

Corresponding with second pole signal lead of LED chip of the connection in the 1st row~m row dot structure first is conductive Connection structure is located at side of the glass substrate towards the pcb board and the third side edge close to the glass substrate Third presumptive area in；

It is located at the second pole signal lead of LED chip corresponding first in m+1 row~M row dot structure with connection to lead Electric connection structure is located at side of the glass substrate towards the pcb board and the four side close to the glass substrate In 4th presumptive area of edge.

18. display device according to claim 17, which is characterized in that be located at the glass substrate towards the pcb board Side and the first side edge of the glass substrate whole first conduction connecting structure, in first presumptive area Interior uniform arrangement；

Whole described positioned at the glass substrate towards the side of the pcb board and the second side edge of the glass substrate One conduction connecting structure is uniformly arranged in second presumptive area；

Whole described positioned at the glass substrate towards the side of the pcb board and the third side edge of the glass substrate One conduction connecting structure is uniformly arranged in the third presumptive area；

Whole described positioned at the glass substrate towards the side of the pcb board and the four side edge of the glass substrate One conduction connecting structure is uniformly arranged in the 4th presumptive area.

19. display device according to claim 1, which is characterized in that the LED chip is LED flip chip.

20. display device according to claim 19, which is characterized in that the LED flip chip is backwards to the glass base The side of plate is provided with the protective glue of whole face coating.