CN208000901U - A kind of micro-led flood tide transfer device - Google Patents

Abstract

The utility model discloses a kind of micro-led flood tide transfer devices, are related to luminescence display field, including micro-led array concave-board(1)With micro-led element(2), the micro-led element(2)It is placed on the micro-led array concave-board(1)Micro-led groove(11)In, in the micro-led array concave-board(1)Lower section is provided with horizontal blowing device(3)With vertical blowing and rocking equipment(4), in the micro-led array concave-board(1)Top is provided with detection device(5), the micro-led array concave-board(1)Including substrate layer(100), drive circuit layer(101)And protective layer(102).A kind of micro-led flood tide transfer device of the utility model does not use transfer mold, and simple for process, yield is high, and transfer precision is high, at low cost.

Description

A kind of micro-led flood tide transfer device

Technical field

The utility model is related to luminescence display field more particularly to a kind of micro-led flood tide transfer devices.

Background technology

It is micro-led(Micro LED)It is traditional LED structure to be subjected to microminiaturization and matrixing, and use Driving circuit is made in CMOS integrated circuit technologies, come the display technology realized each pixel addressing control and be operated alone. Due to the various indexs such as micro-led brightness, service life, contrast, reaction time, energy consumption, visible angle and resolution ratio All it is better than LCD and OLED technology, in addition it belongs to self-luminous, simple in structure, small and energy saving advantage, by many productions Family is considered as next-generation display technology and starts actively to be laid out.Micro-led faced in industrialization process a core Technical barrier is the flood tide transfer of micro-led component(Mass Transfer)Technology.Due to flood tide transfer techniques It is required that very high efficiency, yields and transfer precision, flood tide transfer techniques become micro-led R&D process Ultimate challenge hinders the popularization and use of micro-led technology.

Therefore, how to make(Design)Go out that a whole set of simple and practical, good economy performance, efficient, yields be high and transfer essence It is problem to be solved in the utility model to spend high flood tide transfer device.

Utility model content

In view of the drawbacks described above of the prior art, technical problem to be solved in the utility model is to produce one kind simply Practicality, good economy performance, efficient, yields is high and shifts flood tide transfer device with high accuracy and method.

To achieve the above object, the utility model provides a kind of micro-led flood tide transfer device, including Micro-led array concave-board and micro-led element, the micro-led element are placed on institute In the micro-led groove for stating micro-led array concave-board, in the micro-led array groove Horizontal blowing device and vertical blowing and rocking equipment are provided with below plate, on the micro-led array concave-board Side is provided with detection device, and the micro-led array concave-board includes substrate layer, drive circuit layer and protective layer.

Further, the micro-led element includes n-type GaN layer and p-type GaN layer, the n-type GaN layer and The p-type GaN layer is arranged on same layer, and the micro-led element is unsymmetric structure.

Further, micro-led drive circuit layer is made on the substrate layer.

Further, the protective layer is made in the drive circuit layer, the protective layer is silica.

Further, the thickness of the protective layer is 10 nanometers to 500 microns.

Further, micro-led groove is made by engraving method on the protective layer, it is micro- for placing Type light-emitting diode.

Further, the micro-led groove is preset with electrode, is used for and the micro-led member The electrode of part connects.

Further, include p-type GaN layer connection electrode and N-shaped in the micro-led preset electrode of groove GaN layer connection electrode, the p-type GaN layer connection electrode are connect with p-type GaN layer, the n-type GaN layer connection electrode and N-shaped GaN Layer connection.

The utility model additionally provides a kind of application method of micro-led flood tide transfer device, including following Step:

S1 indicates micro-led shape on substrate, forms micro-led array board so that miniature hair In the same side, micro-led element is unsymmetric structure for the poles P and the poles N of optical diode element;

S2 coats conductive coating above micro-led array board, forms conductive coating plate, this conductive coating It is non-conductive in the in-plane direction, can only be conductive in the Z-axis direction, such as ACP glue, the conductive coating plate is dried, cutting obtains micro- Type light-emitting diode;

S3 makes micro-led array concave-board, and the micro-led array concave-board includes substrate Layer, drive circuit layer and protective layer, make micro-led drive circuit layer, in the driving on the substrate layer The protective layer is made on circuit layer, and engraving method is passed through on the protective layer according to the size of micro-led element Make micro-led groove;

The structure of S4, micro-led groove keep micro-led element firmly embedding in one direction Enter wherein, electrode is preset in micro-led groove, for being connect with the electrode of micro-led element;

Micro-led array concave-board is placed on platform by S5, is opened vertical blowing and rocking equipment, is passed through Micro-led array concave-board is fixed on platform by the mode of pumping, is dried vertically while pumping and is shaken dress The ultrasonic vibration of different frequency can be carried out by setting, and platform side is provided with horizontal blowing device, by the miniature light-emitting diodes of flood tide Tube elements are sprinkled into micro-led array concave-board 1 and its place platform, open horizontal blowing device and vertical blowing and Rocking equipment starts, to platform pumping, concussion and horizontal blowing, micro-led element to be made to fall into position appropriate In;

S6 closes vertical blowing and rocking equipment, horizontal blowing device is adjusted, by extra micro-led element It blows down, horizontal blowing device can move on platform, in favor of blowing down extra micro-led element;

S7 after micro-led array concave-board is substantially filled, opens detection in the case where platform is static Light source, open detection device launch detection light, judge whether groove is filled by detector, if filling miniature hair The percentage that the micro-led number of recesses of optical diode element accounts for total micro-led groove is less than 95%, then Step S5-S6 is repeated, the micro-led number of recesses until filling micro-led element accounts for total miniature luminous The high percentage of diode groove is in 95%;

S8, manipulator are being not filled by the micro-led element of filling at micro-led element;

S9 integrally heats the substrate, and the micro-led element to having inserted(2)Apply pressure so that The poles P, the poles N of micro-led element are electrically connected with driving circuit by conductive coating realization, realize each miniature hair The customization of optical diode element is controlled and is operated alone.

Further, it for the micro-led element of RGB color, is filled out to single color micro light-emitting diode It, can be the position mould for other color micro light-emitting diodes that do not insert also when entering miniature light emitting diode matrix concave-board Tool covering, is packed into tri- color micro light-emitting diodes of RGB in a mold step by step.

It is non-right that the remarkable advantage of the utility model is micro-led element and corresponding array board being designed to Title property structure, micro-led element can only insert groove along a kind of fixed form, electrically or mechanically be shaken by ultrasound, pressure Mode and blowing device make most of chip be fixed in mold automatically, insert vacant locations using manipulator or replace bad Product;Meanwhile circuit layer is provided on array board, matcoveredn is set on circuit layer, protective layer is etched to obtain miniature shine The groove of diode element directly connect circuit electrode and the electrode of micro-led element, reduces and shifts miniature hair The step of optical diode element arrays.

In addition, micro-led flood tide transfer device and its transfer method described in the utility model, do not have to turn Shifting formwork has, but direct etching goes out groove and makes electrode on substrate, very big to the efficiency and yields meaning of flood tide transfer, And it is simple for process, yield is high, at low cost.

The technique effect of the design of the utility model, concrete structure and generation is made furtherly below with reference to attached drawing It is bright, to be fully understood from the purpose of this utility model, feature and effect.

Description of the drawings

Fig. 1 is a kind of schematic diagram of micro-led flood tide transfer device of the utility model.

Fig. 2 is the micro-led element arrays figure of the utility model.

Fig. 3 is the micro-led array and conductive coating structural relation schematic diagram of the utility model.

Fig. 4 is the single micro-led and conductive coating structural relation schematic diagram of the utility model.

Fig. 5 be the substrate layer of the utility model, drive circuit layer and protective layer structural relation schematic diagram.

Fig. 6 is the micro-led mold groove schematic diagram of the utility model.

Fig. 7 is the single micro-led and its corresponding mold groove schematic diagram of the utility model.

Fig. 8 is by the micro-led effect diagram for being put into mold groove of the utility model.

Fig. 9 is that concussion source and blowing dress are arranged on the micro-led flood tide transfer device sample stage of the utility model Set schematic diagram.

Figure 10 is the micro-led mold vacancy detects schematic diagram of the utility model.

Figure 11 is the micro-led mold vacancy filling schematic diagram of the utility model.

Description of the drawings is as follows:

The micro-led array concave-boards of 1-, the micro-led grooves of 11-, 100- substrate layers, 101- drivings Circuit layer, 102- protective layers, 111- p-type GaN layer connection electrodes, 112- n-type GaN layer connection electrodes;The miniature light-emitting diodes of 2- Tube elements, the micro-led array boards of 21-, 22- conductive coating plates, the micro-led layers of 210-, 211- N-shapeds GaN Layer, 212- p-type GaN layers, 220- conductive coatings;The horizontal blowing devices of 3-, 31- horizontal gas flow schematic lines;4- blowing and shakes vertically Device is swung, 41- shakes waveform modelling schematic lines, 42- blowholes;5- detection devices, 51- detectors, 52- detect light, and 53- is not When filling micro-led component, detector state;61- manipulators, 62- manipulator controllers.

Specific implementation mode

Multiple preferred embodiments that the utility model is introduced below with reference to Figure of description, keep its technology contents clearer Be easy to understand.The utility model can be emerged from by many various forms of embodiments, the protection of the utility model Range is not limited only to the embodiment mentioned in text.

In the accompanying drawings, the identical component of structure is indicated with same numbers label, everywhere the similar component of structure or function with Like numeral label indicates.The size and thickness of each component shown in the drawings are to be arbitrarily shown, and the utility model is not Limit the size and thickness of each component.In order to keep diagram apparent, some places suitably exaggerate the thickness of component in attached drawing.

As shown in Figure 1, a kind of micro-led flood tide transfer device, including micro-led array groove Plate 1 and micro-led element 2, micro-led element 2 are placed on micro-led array concave-board 1 Micro-led groove 11 in, detection device 5 is provided with above micro-led array concave-board 1, machinery Hand 61 can move between micro-led array concave-board 1 and detection device 5, for filling or replacing in a groove Micro-led element 2.

As shown in Fig. 2, by flip chip technology, micro-led shape is indicated on substrate, forms miniature luminous two Pole pipe array board 21 so that the poles P and the poles N of micro-led element 2 in the same side, meanwhile, micro-led member Part 2 is unsymmetric structure, such as right-angled trapezium, and this structure makes the intelligence of micro-led element 2 be inserted from orientation In corresponding groove.

As shown in figure 3, coating conductive coating above micro-led array board 21, conductive coating plate 22 is formed, This conductive coating is non-conductive in the in-plane direction, can only be conductive in the Z-axis direction, such as ACP glue, after coating, to conductive coating Plate 22 carries out drying and processing, to cut to obtain micro-led element 2.

As shown in figure 4, the single micro-led element 2 after cutting all carries conductive coating 220, under conductive coating It is micro-led layer 210, including n-type GaN layer 211 and p-type GaN layer 212,212 quilt of n-type GaN layer 211 and p-type GaN layer It is arranged in same layer.

As shown in figure 5, micro-led array concave-board 1 includes substrate layer 100, drive circuit layer 101 and protection Layer 102, micro-led drive circuit layer 101 is made on substrate layer 100, is made in drive circuit layer 101 later Make the protective layer 102 of silica, the thickness of protective layer 102 is 10 nanometers to 500 microns.

As shown in fig. 6, making miniature luminous two by engraving method, such as chemical etching, laser ablation on protective layer 102 Pole pipe groove 11, for placing micro-led element 2, the length and width of micro-led groove 11 is more than micro- The correspondingly-sized of type light-emitting diode 2, depth can be set greater than, be equal to or less than micro-led element 2 height, the preferably greater than groove of the height of micro-led element 2.

As shown in Figure 6 and Figure 7, the structure of micro-led groove 11 makes micro-led element 2 can only be One direction is firmly embedded, and electrode is preset in micro-led groove 11, is used for and miniature light-emitting diodes The electrode of tube elements 2 connects, and includes p-type GaN layer connection electrode 111 and n in 11 preset electrode of micro-led groove Type GaN layer connection electrode 112, p-type GaN layer connection electrode 111 is connect with p-type GaN layer 212, n-type GaN layer connection electrode 112 with N-type GaN layer 211 connects.

As shown in Fig. 1, Fig. 8 and Fig. 9, horizontal blowing device 3 is provided with below micro-led array concave-board 1 With vertical blowing and rocking equipment 4, micro-led array concave-board 1 is placed on platform, open vertical blowing and Micro-led array concave-board 1 is fixed on platform by rocking equipment 4 by way of pumping, while pumping Vertical blowing and rocking equipment 4 can carry out the ultrasonic vibration of different frequency, and ultrasonic vibration frequency can be adjusted;Meanwhile Platform side is provided with horizontal blowing device 3, it is preferable that two horizontal blowing devices 3, the angle of wind is arranged in X-axis and Y-axis respectively Degree, speed and frequency are adjustable, and horizontal blowing device 3 can move on platform, in favor of miniature shining two by extra Pole pipe element 2 is blown down;The micro-led element 2 of flood tide is sprinkled into micro-led array concave-board 1 and its institute In platform, horizontal blowing device 3 and vertical blowing and rocking equipment 4 are opened, starts to blow platform pumping, concussion and level Wind makes micro-led element 2 fall into position appropriate;After being basically completed, vertical blowing and rocking equipment 4 are closed, Horizontal blowing device 3 is adjusted, extra micro-led element 2 is blown down.

As shown in figs. 10-11, it in the case where platform is static, is filled out substantially in micro-led array concave-board 1 After filling, detection light source is opened, open detection device 5 launches detection light 52, judges whether groove is filled out by detector 51 It is full, it is not filled such as, then inserts micro-led element 2 in empty place by manipulator 61, manipulator 61 is by mechanical manual Device 62 processed controls, which is generally aligned in the same plane with platform.Micro-led element 2 has RGB three classes can be by will be when inserting micro-led array concave-board 1 to the micro-led element of same class 2 The position for not inserting micro-led element 2 is covered by mold, fills the miniature hair of RGB three classes in a substrate step by step Optical diode element 2.

As shown in Fig. 1 and Fig. 7-9, using heating, bonding pattern so that the poles P of micro-led element 2, the poles N with Driving circuit is realized by conductive coating 220 and is electrically connected, and realizes customization control and the list of each micro-led element 2 Solely driving.

As shown in figs. 1-11, a kind of application method of micro-led flood tide transfer device, includes the following steps:

S1 indicates micro-led shape on substrate, forms micro-led array board 21 so that miniature In the same side, micro-led element 2 is unsymmetric structure for the poles P and the poles N of light-emitting diode 2;

S2 coats conductive coating above micro-led array board 21, forms conductive coating plate 22, this conduction Coating is non-conductive in the in-plane direction, can only be conductive in the Z-axis direction, and such as ACP glue, drying conductive coating plate 22, cutting obtains Micro-led element 2;

S3, makes micro-led array concave-board 1, and micro-led array concave-board 1 includes substrate layer 100, drive circuit layer 101 and protective layer 102 make micro-led drive circuit layer 101 on substrate layer 100, Protective layer 102 is made in drive circuit layer 101, is passed through on protective layer 102 according to the size of micro-led element 2 Engraving method makes micro-led groove 11;

The structure of S4, micro-led groove 11 make micro-led element 2 that can only consolidate in one direction Ground is embedded, and electrode is preset in micro-led groove 11, for the electrode with micro-led element 2 Connection;

Micro-led array concave-board 1 is placed on platform by S5, is opened vertical blowing and rocking equipment 4, is led to Micro-led array concave-board 1 is fixed on platform by the mode for crossing pumping, is dried and is shaken vertically while pumping The ultrasonic vibration of different frequency can be carried out by swinging device 4, and platform side is provided with horizontal blowing device 3, by the miniature hair of flood tide Optical diode element 2 is sprinkled into micro-led array concave-board 1 and its place platform, opens horizontal blowing device 3 and erects Blow-through wind and rocking equipment 4 start, to platform pumping, concussion and horizontal blowing, to make micro-led element 2 fall into suitable When position in;

S6 closes vertical blowing and rocking equipment 4, horizontal blowing device 3 is adjusted, by extra micro-led member Part 2 is blown down, and horizontal blowing device 3 can move on platform, in favor of blowing down extra micro-led element 2;

S7 after micro-led array concave-board 1 is substantially filled, opens inspection in the case where platform is static Light source is surveyed, open detection device 5 launches detection light 52, judges whether groove is filled by detector 51, if filling 11 quantity of micro-led groove of micro-led element 2 accounts for the percentage of total micro-led groove 11 Less than 95%, then repeatedly step S5-S6,11 quantity of micro-led groove until filling micro-led element 2 The high percentage of total micro-led groove 11 is accounted in 95%;

S8, manipulator 61 insert micro-led element 2 being not filled by micro-led element 2;

S9 integrally heats the substrate, and the micro-led member to having inserted using heating, bonding pattern Part(2)Apply pressure so that the poles P, the poles N and the driving circuit of micro-led element 2 realize electricity by conductive coating 220 Connection is realized the customization control of each micro-led element 2 and is operated alone.

For non-highdensity micro-led element arrays, micro-led groove can be arranged Substrate portion without driving circuit, then the connection electrode of driving circuit and micro-led element 2 is connected into groove, to carry Height makes the convenience of groove.

It, can be real by flood tide transfer techniques repeatedly, in proportion for highdensity micro-led element arrays It is existing, such as it is divided into 4 transfers, shifts a quarter that micro-led component density is totality every time to realize that high density is micro- Type light-emitting diode array.

The preferred embodiment of the utility model described in detail above.It should be appreciated that this field ordinary skill without It needs creative work according to the present utility model can conceive and makes many modifications and variations.Therefore, it is all in the art Technical staff on the basis of existing technology can by logical analysis, reasoning, or a limited experiment according to the design of the utility model It, all should be in the protection domain being defined in the patent claims with obtained technical solution.

Claims (8)

1. a kind of micro-led flood tide transfer device, including micro-led array concave-board(1)With it is miniature Light-emitting diode(2), which is characterized in that the micro-led element(2)It is placed on described miniature luminous two Pole pipe array concave-board(1)Micro-led groove(11)In, in the micro-led array concave-board(1) Lower section is provided with horizontal blowing device(3)With vertical blowing and rocking equipment(4), in the micro-led array groove Plate(1)Top is provided with detection device(5), the micro-led array concave-board(1)Including substrate layer(100), drive Dynamic circuit layer(101)And protective layer(102).

2. micro-led flood tide transfer device as described in claim 1, which is characterized in that described miniature luminous two Pole pipe element(2)Including n-type GaN layer(211)And p-type GaN layer(212), the n-type GaN layer(211)With the p-type GaN layer (212)It is arranged on same layer, the micro-led element(2)For unsymmetric structure.

3. micro-led flood tide transfer device as described in claim 1, which is characterized in that in the substrate layer (100)It is upper to make micro-led drive circuit layer(101).

4. micro-led flood tide transfer device as claimed in claim 3, which is characterized in that in the driving circuit Layer(101)It is upper to make the protective layer(102), the protective layer is silica.

5. micro-led flood tide transfer device as claimed in claim 4, which is characterized in that the protective layer (102)Thickness be 10 nanometers to 500 microns.

6. micro-led flood tide transfer device as claimed in claim 4, which is characterized in that in the protective layer (102)It is upper that micro-led groove is made by engraving method(11), for placing micro-led element(2).

7. micro-led flood tide transfer device as claimed in claim 6, which is characterized in that described miniature luminous two Pole pipe groove(11)It is preset with electrode, is used for and the micro-led element(2)Electrode connection.

8. micro-led flood tide transfer device as claimed in claim 7, which is characterized in that described miniature luminous Diode groove(11)Preset electrode includes p-type GaN layer connection electrode(111)With n-type GaN layer connection electrode(112), described P-type GaN layer connection electrode(111)With p-type GaN layer(212)Connection, the n-type GaN layer connection electrode(112)With n-type GaN layer (211)Connection.